PROTECTIVE ENCLOSURE FOR TOUCH SCREEN DEVICE

Abstract

A protective enclosure adapted to hold a touch screen device and allow operation of both the touch screen and actuators on a side of the device, the enclosure formed of a tray having a rim surrounding an interior device seating surface; a lid having a rim corresponding to the rim of the tray and surrounding a window aperture; a protective membrane having a transparent membrane forming an interior window positioned in the viewing aperture of the lid, and a continuous pliable seal adapted to be compressible between the corresponding rims of the lid and the tray; and a mechanism for clamping the rim of the lid and the rim of the tray with the pliable seal forming a continuous seal therebetween.

Description

This application is a Continuation-in-part of co-pending U.S. patent application Ser. No. 13/799,443 entitled “Protective Enclosure for Touch Screen Device” filed in the name of the same inventor hereof on 13 Mar. 2013, which is a Continuation-in-part of co-pending U.S. patent application Ser. No. 13/763,679 entitled “Protective Enclosure for Touch Screen Device” filed in the name of the same inventor hereof on 10 Feb. 2013, which is a Continuation-in-part of co-pending U.S. patent application Ser. No. 13/602,177 entitled “Protective Enclosure for Touch Screen Device” filed in the name of the same inventor hereof on 2 Sep. 2012, which references are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to a dry storage box having a window panel in window aperture arranged for viewing a cavity formed within the box, and in particular to a substantially water-resistant sealing mechanism for sealing the window panel relative to the window aperture, wherein the window panel is a membrane adapted to allow operation of a touch screen interface of an electronic device is disposed in the dry storage box.

BACKGROUND OF THE INVENTION

Dry storage boxes are generally well known, including protective cases for electronic devices having a touch screen on the front surface of its case. These protective cases provide a window membrane adapted to the specific contour and profile of the electronic device that allows the user to operate the touch screen interface.

However, known protective cases for touch screen devices are limited in their ability to provide complete access to operate the touch screen device efficiently and reliably.

SUMMARY OF THE INVENTION

The present invention is a protective enclosure for a device responsive to a tactile stimulus, i.e., an electronic device having a touch screen interface on the front surface of its case, and one or more buttons and/or switches or other actuators as part of the user interface and positioned on a side portion of the case, e.g., for powering the touch screen device and controlling other various functions thereof.

According to one aspect of the invention, the protective enclosure includes a tray forming an interior device seating area and a rim around the device seating area, wherein the tray is adapted for receiving the device on the device seating area and oriented with a portion thereof that is responsive to a tactile input facing away from the device seating area; and a lid that is movable relative to the device seating area of the tray between an open position and a closed position. The lid includes a rim around an aperture, with the aperture positioned for viewing an interior portion of the enclosure there through, and a substantially transparent pliable membrane positioned in the viewing aperture of the lid, wherein the membrane is formed with an interior window portion, and a continuous pliable seal that is positioned between the rim of the lid and the rim of the tray when the lid is in the closed position relative to the tray. The enclosure forms a protective case portion adapted to hold the touch screen device and allowing operation of the touch screen thereof.

According to another aspect of the invention, the lid of the protective enclosure is further hinged relative to the device seating area of the tray for moving between an open position and a closed position. Additionally, a clamping mechanism is structured for clamping the pliable seal between the rim of the lid and the rim of the tray for clamping the pliable seal between the rim of the lid and the rim of the tray in a continuous substantially water-resistant seal.

Other aspects of the invention are detailed herein.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a perspective view showing an example of the protective enclosure of the invention for a touch screen device responsive to a tactile stimulus;

FIG. 2 illustrates a backside of the protective enclosure illustrated in FIG. 1;

FIG. 3 illustrates the protective enclosure illustrated in FIG. 1 in an open position for receiving an iPhone or other touch screen device;

FIG. 4 is a cross-section lengthwise through the protective enclosure illustrated in FIG. 1;

FIG. 5 illustrates the protective enclosure illustrated in FIG. 1 having means for forming a continuous compression seal between a peripheral rim of a lid and a peripheral rim of a tray when the lid is latched in the closed position relative to the tray;

FIG. 6 is a cross-section of the protective enclosure illustrated in FIG. 1 that more clearly illustrates means for retaining a seal portion of a protective membrane adjacent to a viewing aperture of the lid;

FIG. 7 is another cross-section of the protective enclosure illustrated in FIG. 1 that more clearly illustrates means for retaining a seal portion of a protective membrane adjacent to a viewing aperture of the lid;

FIG. 8 and FIG. 9 together illustrate the protective enclosure illustrated in FIG. 1 wherein an interior cavity of the tray is eliminated;

FIG. 10 and FIG. 11 together illustrate the protective enclosure illustrated in FIG. 1 wherein a sheet of a hard and transparent plastic material forms the viewing aperture of the lid surrounded by a pliable skirt portion including the seal portion of the protective membrane;

FIG. 12 and FIG. 13 together illustrate another embodiment of a protective enclosure similar to that illustrated in FIG. 1 wherein a hard aromatic polyester or copolyester, e.g. polyethylene terephthalate (PET), or hard and substantially visually transparent polyvinyl chloride (PVC) plastic sheet forms the viewing aperture of the lid surrounded by a pliable seal portion of the protective membrane;

FIG. 14 and FIG. 15 together illustrate another embodiment of the protective enclosure similar to that illustrated in FIG. 1 wherein a hard aromatic polyester or copolyester, e.g. polyethylene terephthalate (PET), or hard and substantially visually transparent polyvinyl chloride (PVC) plastic sheet forms the viewing aperture of the lid surrounded by a pliable seal portion of the protective membrane; and

FIG. 16 and FIG. 17 together illustrate another embodiment of the protective enclosure similar to that illustrated in FIG. 1 for a device responsive to a tactile stimulus, wherein FIG. 16 is a partial cross-section lengthwise through a first alternative embodiment of the protective enclosure, and FIG. 17 is a partial cross-section lengthwise through a second alternative embodiment the protective enclosure.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

As required, a detailed illustrative embodiment of the present protective enclosure is disclosed herein. However, techniques, systems and operating structures in accordance with the present protective enclosure may be embodied in a wide variety of forms and modes, some of which may be quite different from those in the disclosed embodiment. Consequently, the specific structural and functional details disclosed herein are merely representative, yet in that regard, they are deemed to afford the best embodiment for purposes of disclosure and to provide a basis for the claims herein which define the scope of the present protective enclosure. The following presents a detailed description of an illustrative embodiment (as well as some alternative embodiments) of the present protective enclosure.

In the Figures, like numerals indicate like elements.

FIG. 1 illustrates a protective enclosure 10 for a device responsive to a tactile stimulus. Protective enclosure 10 allows operation of the device while the device is disposed therein.

Protective enclosure 10 includes a substantially rigid tray 12 with a lid 14 that is movable relative to tray 12. Lid 14 has a substantially rigid rim 16 around a viewing aperture 18 that is positioned for viewing an interior portion of enclosure 10 therethrough. A substantially transparent pliable membrane 20 is positioned in viewing aperture 18 of lid 14. Polyvinylchloride is a useful material for membrane 20. Membrane 20 is also a transmissive membrane adapted to allow sound to pass therethrough with a minimum of distortion. Membrane 20 may be constructed by injection molding or other methods. Alternative materials and methods of construction may be used by those skilled in the art to achieve the same results while maintaining within the spirit and intent of the present invention. Protective enclosure 10 is thus adapted to hold the device and allows viewing of the device as well as allowing tactile stimulus to be input thereto through pliable membrane 20. For example, protective enclosure 10 is thus adapted to hold a touch screen device, such as a cellular telephone or iPhone for example available from Apple Inc., Cupertino, Calif. 95014, and allows both viewing of the touch screen device and input of tactile stimulus to the touch screen device through pliable membrane 20.

Pliable membrane 20 permits tactile stimulation of the touch screen on a front surface of the device case as well as operation of one or more actuators on a side of the touch screen device. For example, an interior window portion 22 of membrane 20 is projected outwardly of viewing aperture rim 16 by a pliable skirt portion 24 of membrane 20 that is extended from between lid rim 16 and membrane interior window portion 22. Interior window portion 22 of membrane 20 is substantially transparent and pliable, whereby membrane interior portion 22 is adapted to allow tactile stimuli to be communicated to a touch screen exposed on a front surface of the device case. Pliable skirt portion 24 of membrane 20 is extended between interior window portion 22 and skirt portion 24. Membrane pliable skirt portion 24 is adapted to allow tactile inputs to be communicated to one or more actuators on the sides and end portions of the device case that are spaced below the front surface of the touch screen device. Pliable skirt portion 24 of membrane 20 is substantially transparent to permit viewing of actuators on the sides and end portions of the touch screen device case.

Lid 14 is movable relative to tray 12 by a hinge 26 along one end of protective enclosure 10, and a clamping mechanism 28 is structured for clamping a pliable seal between rim 16 of lid 14 and tray 12 in a continuous substantially water-resistant seal. For example, clamping mechanism 28 is hinged and is operable, for example, by a handle 30.

FIG. 2 illustrates a backside of protective enclosure 10, wherein a base portion 32 of tray 12 has means for lifting the iPhone or other touch screen device toward interior window portion 22 of membrane 20 between side skirt portion 24, whereby actuators on the sides and end portions of the device case are positioned near pliable side skirt portion 24 for actuation therethrough. For example, tray base portion 32 is formed with one (or more) window spacer 34 projected toward lid 14 of enclosure 10.

Substantially rigid tray 12 is optionally formed by molding using a substantially transparent material, whereby a camera lens or other video capture device in a back surface of the iPhone or other touch screen device has a substantially unimpeded view through tray base portion 32. For example, material for tray 12 may be selected to be clear plastic, such as polycarbonate. Through the air communications, such as infrared and over the air radio frequency (RF) communications may pass through protective enclosure 10. Appropriate selection of material for tray 12 can thereby enable various RF transmissions, such as cellular phone communications or other wireless communication protocols while protective enclosure 10 is closed. Alternatively, a substantially transparent window is provided in tray base portion 32 in a position to accommodate such camera lens. For example, spacer 34 is formed of a substantially transparent material for operating as a window in tray base portion 32. Accordingly, window spacer 34 is positioned adjacent to such camera lens of the touch screen device for minimizing visual distortion therethrough.

Optionally, tray base portion 32 is also formed with an indent 36 that cooperates with one or more additional indents 38 for securing a belt clip or other mechanism for carrying protective enclosure 10 on a user's person or mounting on a holder. Other alternative mounting structures 40 may be provided for securing such a belt clip or other carrying or mounting mechanism. One or more buttons or feet 42 may be formed on tray base portion 32 for spacing enclosure 10 off of a surface, such as a table or desk.

FIG. 3 illustrates protective enclosure 10 in an open position for receiving the iPhone or other touch screen device thereinto, or for removing the device therefrom.

Tray 12 is formed with a peripheral rim 44 surrounding an interior device seating surface 46 in a position spaced above tray peripheral rim 44. For example, interior device seating surface 46 is formed by window spacer 34 in combination with one or more interior spacer walls 48 within surrounding peripheral rim 44 and substantially parallel with camera window spacer 34. Accordingly, interior device seating surface 46 is structured for spacing the touch screen device away from tray base portion 32 and outwardly of tray rim 44. Interior device seating surface 46 thus spaces touch screen device outwardly of peripheral rim 44 in a position that, when lid 14 is in the closed position relative to tray 12, actuators on sides or end portions of the touch screen device case are viewable through pliable skirt portion 24 of membrane 20 and also may be manipulated therethrough.

Optionally, tray 12 is formed with an opening 50 into an interior cavity 52 formed between window spacer 34 and interior spacer walls 48 of device seating surface 46.

A continuous pliable lid seal 54 is positioned between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. When lid 14 is in the closed position relative to tray 12, pliable lid seal 54 is compressed between substantially rigid rim 16 of lid 14 and substantially rigid peripheral rim 44 of tray 12 for forming a continuous substantially water-resistant seal around the touch screen device within protective enclosure 10, as disclosed herein. Optionally, lid seal 54 is formed with a preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak (at 56) thickness near the midpoint of lid rim 14, as more clearly illustrated in FIG. 4.

Clamping mechanism 28 is more clearly shown here as having a clasp 58 hingedly coupled to tray 12 opposite from lid hinge 26, and a cooperating catch 60 formed in rim 16 of lid 14. Clasp 58 and catch 60 of clamping mechanism 28 thus cooperate to latch lid 14 in the closed position relative to tray 12.

FIG. 4 is a cross-section lengthwise through protective enclosure 10, and more clearly illustrates lid seal 54 being formed with preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak (at 56) thickness near the midpoint of lid rim 14. Preload portion 56 thickening toward the center of lid seal 54 between lengthwise ends of lid rim 16 effectively improve sealing power by providing extra seal material in the area that may bend from the pressure of compressing lid seal 54 against rim 44 of tray 12. The additional material provided by preload portion 56 insures that lid seal 54 will form a continuous substantially water-resistant seal between rim 16 of lid 14 and tray 12.

Lid seal 54 is illustrated here by example and without limitation as being an extension of pliable membrane 20. Accordingly, substantially transparent pliable membrane 20 is a single, one-piece unit that includes: continuous pliable lid seal portion 54, substantially transparent pliable interior window portion 22 that is adapted to allow tactile inputs to be communicated to the touch screen of the device in protective enclosure 10, and substantially transparent pliable skirt portion 24 that is extended from interior window portion 22 and is adapted to allow tactile inputs to be communicated to one or more actuators on sides and/or ends of the touch screen device case.

Rim 16 of lid 14 is structured with seal retention means 62 for retaining lid seal portion 54 of membrane 20 adjacent to viewing aperture 18. Seal retention means 62 is formed in lid rim 16 completely surrounding viewing aperture 18. Seal retention means 62 is formed as a first contact surface 64 defining a first circumferential barrier formed as a groove extending around the circumference of viewing aperture 18 of lid 14, and a second contact surface 66 disposed adjacent to first contact surface 64, second contact surface defining a second circumferential barrier formed as a ridge aligned with first circumferential barrier groove 64.

By example and without limitation, peripheral lid seal portion 54 is disposed along the entire circumference of flexible membrane 20 at edge of pliable skirt portion 24 opposite from membrane interior window portion 22, wherein peripheral lid seal portion 54 of flexible membrane 20 is formed as a sealing lip of an increased thickness of flexible membrane 20 relative to membrane skirt portion 24 and interior window portion 22. Peripheral lid sealing lip portion 54 of membrane 20 is configured and arranged to be at least partially disposed within first circumferential barrier 64 to form a water-resistant seal. For example, membrane peripheral lid sealing lip portion 54 includes a first contact surface 68 defining a first circumferential barrier formed as a ridge extending around the circumference of membrane skirt portion 24, which is sized and arranged to be at least partially received into first circumferential barrier groove 64 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14. Peripheral lid sealing lip portion 54 of membrane 20 is further configured and arranged to receive rim 16 of lid 14 at least partially thereinto. For example, membrane peripheral lid sealing lip portion 54 includes a second contact surface 70 defining a groove extending around the circumference of membrane skirt portion 24, which is sized and arranged to receive thereinto second circumferential barrier ridge 66 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14.

Additionally, peripheral lid sealing lip portion 54 of flexible membrane 20 is configured and arranged to form a water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Peripheral rim 44 of tray 12 is configured and arranged to cooperate with seal retention means 62 of lid rim 16 for at least partially compressing pliable lid seal 54 of membrane 20 therebetween for forming a continuous substantially water-resistant seal around the touch screen device within protective enclosure 10, as disclosed herein.

By example and without limitation, peripheral lid sealing lip portion 54 of flexible membrane 20 is formed with a third contact surface 72 defining a first circumferential compression interface formed as a ridge extending around the circumference of membrane skirt portion 24 and extending therefrom entirely around circumference of rim 16 of lid 14. Peripheral lid sealing lip portion 54 of flexible membrane 20 is further formed with a fourth contact surface 74 disposed adjacent to third contact surface 72 and defining a second circumferential compression interface formed as a flat surface aligned within first circumferential compression interface ridge 72.

By example and without limitation, peripheral rim 44 of tray 12 is formed with a first contact surface 76 defining a first circumferential compression barrier formed as a groove extending around the circumference of tray peripheral rim 44, and a second contact surface 78 disposed adjacent to first contact surface 76, second contact surface 78 defining a second circumferential compression barrier formed as a flat surface aligned within first circumferential barrier groove 76.

Peripheral first circumferential compression barrier groove 76 of tray rim 44 is sized and arranged to at least partially receive compressively thereinto first circumferential compression interface ridge 72 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Furthermore, peripheral second circumferential compression barrier flat contact surface 78 is further sized and arranged within first circumferential barrier groove 76 to at least partially receive compressively there against second circumferential compression interface flat surface 74 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12.

Peripheral lid sealing lip portion 54 of flexible membrane 20 optionally includes membrane positioning means 80 for positioning membrane 20 in viewing aperture 18. By example and without limitation, membrane peripheral lid sealing lip portion 54 is formed with a circumferential groove 82 and lip 84 fit over an inner peripheral ledge 86 of lid peripheral rim 16 within viewing aperture 18.

As disclosed herein, membrane 20 is easily removed from engagement with viewing aperture 18 in lid 14 and replaced with a new membrane if necessary by disengaging membrane positioning means 80, and disengaging seal retention means 62 that retains lid seal portion 54 of membrane 20 adjacent to viewing aperture 18. Thereafter, membrane 20 is removed from viewing aperture 18, and a replacement membrane 20 is installed in reverse.

FIG. 5 illustrates protective enclosure 10 having means for forming a continuous compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28. Continuous compression seal 88 is formed of peripheral lid sealing lip portion 54 of membrane 20 being compressed between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 by engagement of clamping mechanism 28. Continuous compression seal 88 is formed of first circumferential compression interface ridge 72 of peripheral lid sealing lip portion 54 of flexible membrane 20 being compressed against first circumferential compression barrier groove 76 of rim 44 of tray 12, and is further formed of second circumferential compression interface flat surface 74 of peripheral lid sealing lip portion 54 of membrane 20 being compressed against second circumferential compression barrier flat contact surface 78 of rim 44 of tray 12.

FIG. 5 further illustrates protective enclosure 10 having a touch screen device 90, such as a cellular telephone or iPhone, shown in phantom lines, disposed therewithin with a back portion 92 thereof resting on window spacer 34 and interior spacer walls 48 of interior device seating surface 46. A camera lens 93 positioned on back portion 92 of device 90 is positioned adjacent to window spacer 34 at least a portion of which is substantially transparent for permitting photographic images to be shot therethrough.

A touch screen portion 94 thereof responsive to a tactile stimulus is positioned upwardly facing toward and close proximity to interior window portion 22 of membrane 20. Touch screen portion 94 of touch screen device 90 is responsive to a tactile stimulus input through interior window portion 22 of membrane 20.

One or more buttons and/or switches or other actuators 96 as part of the user interface. These actuators 96 are typically positioned on a side portion 98 of case 99 of touch screen device 90 for powering touch screen device 90 and controlling other various functions thereof. The size, layout, and function of actuators 96 may vary for different manufacturers and models of touch screen device 90.

Side portions 98 of touch screen device case 99 are elevated into approximate alignment with substantially transparent pliable skirt portion 24 of membrane 20 by seating of touch screen device 90 on interior device seating surface 46 of tray 12. Furthermore, interior device seating surface 46 of tray 12 spaces touch screen device case 99 such that peripheral rim 16 of lid 14 is arranged so as to not interfere with operation of button and/or switch actuators 96 positioned on side portion 98 of case 99.

Actuators 96 of touch screen device 90 are raised outwardly of tray 12 above rim 16 of lid 14 into a position approximately aligned with substantially transparent pliable skirt portion 24 of membrane 20 so as to be accessible to a tactile stimulus input through pliable skirt portion 24. Furthermore, skirt portion 24 of membrane 20 is substantially transparent for viewing therethrough of actuators 96 positioned on side portion 98 of case 99, and is substantially pliable for operating actuators 96 therethrough, i.e., enabling the user to more easily deflect membrane skirt portion 24 over actuators 96. Accordingly, operator of touch screen device 90 is not required to open lid 14 and remove touch screen device 90 from protective enclosure 10 for powering and otherwise controlling touch screen device 90 via actuators 96 on side portion 98 of case 99.

FIG. 6 is a cross-section that more clearly illustrates seal retention means 62 for retaining lid seal portion 54 of membrane 20 adjacent to viewing aperture 18. Also more clearly illustrated here is membrane positioning means 80 for positioning peripheral lid sealing lip portion 54 of flexible membrane 20 in viewing aperture 18, and continuous compression seal 88 adjacent to junction 100 of peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28.

FIG. 7 is another cross-section that clearly illustrates seal retention means 62 for retaining lid seal portion 54 of membrane 20 adjacent to viewing aperture 18. Also more clearly illustrated here is membrane positioning means 80 for positioning peripheral lid sealing lip portion 54 of flexible membrane 20 in viewing aperture 18, and continuous compression seal 88 adjacent to junction 100 of peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28.

FIG. 8 and FIG. 9 together illustrate protective enclosure 10 wherein interior cavity 52 is eliminated. Protective enclosure 10 is otherwise substantially the same as illustrated in FIGS. 1-7 herein. Here, window spacer 34 is substantially continuous along interior spacer walls 48 and forms interior device seating surface 46 for spacing the touch screen device away from tray base portion 32 and outwardly of tray rim 44 in a position that, when lid 14 is in the closed position relative to tray 12, actuators on sides or end portions of the touch screen device case are viewable through pliable skirt portion 24 of membrane 20 and also may be manipulated therethrough. Optionally, a space 102 is formed underneath interior device seating surface 46, but this is not necessary to the function of protective enclosure 10 and interior device seating surface 46.

Alternative Embodiments

FIG. 10 and FIG. 11 together illustrate protective enclosure 10 for a device responsive to a tactile stimulus illustrated in FIG. 1, wherein FIG. 10 is a cross-section lengthwise through enclosure 10, and FIG. 11 is a partial section view of membrane 20 of lid 14. In FIGS. 10 and 11, protective membrane 20 of lid 14 is a two-part member including a substantially transparent, hard, inelastic and noncompressible plastic sheet component forming interior window portion 22 of membrane 20, and a molded component forming resiliently pliable skirt portion 24 of a soft and compressible material surrounding transparent hard plastic sheet component of interior window portion 22. Optionally, soft, pliable and compressible skirt portion 24 forms a substantially watertight seal with hard, inelastic and noncompressible interior window portion 22.

For example, the plastic sheet component forming interior window portion 22 of membrane 20 is optionally a noncompressible sheet of relatively hard and substantially visually transparent material, including but not limited to polyethylene terephthalate (PET) or another suitable substantially visually transparent material. For example, and without limitation, in addition to homopolymer PET, poly(ethylene terephtalate), PET modified by copolymerization is also suitable for use in the present invention. Examples of suitable copolymers, preferably used in small amounts, include cyclohexane dimethanol CHDM), often referred to as PETG or PET-G (polyethylene terephtalate glycol-modified), such as available from Eastman Chemical, SK Chemicals, or Artenius Italia. Further copolymers include isophthalic acid, Naphthalene decarboxylic acid, 4,4-bisphenyldicarboxylic acid and/or dimethylterephlatate and one or more diols, which, in addition to ethylene gycol include, for example, neopentylglcycol and or diethleneglycol. According to one embodiment, the plastic sheet component forming interior window portion 22 of membrane 20 is optionally a noncompressible sheet of relatively hard and substantially visually transparent polyvinyl chloride (PVC) material.

As disclosed herein, membrane 20 having PET or PVC or other suitable hard, noncompressible and inelastic plastic sheet component of interior window portion 22 similarly permits tactile stimulation of the touch screen on a front surface of the device case, as well as operation of one or more actuators on a side of the touch screen device. Plastic interior window portion 22 of membrane 20 is projected outwardly of viewing aperture rim 16 by pliable skirt portion 24 of membrane 20 that is extended from between lid rim 16 and membrane interior window portion 22. According to one embodiment, plastic interior window portion 22 of membrane 20 is a noncompressible sheet of thin plastic film that is substantially transparent for viewing interior portion of enclosure 10 therethrough and is further adapted to allow tactile stimuli to be communicated to touch screen 94 exposed on a front surface of touch screen device 90 installed in enclosure 10. For example, noncompressible sheet component is sufficiently thin to permit interior window portion 22 to flex enough for user's digits to contact touch screen portion 94 of device 90 therethrough, and further, to transmit a tactile stimulus therethrough to touch screen portion 94 for registering a tactile input for effecting a response from touch screen device 90 without damage to interior window portion 22. Noncompressible plastic sheet component of interior window portion 22 is optionally a sheet of substantially transparent thin, hard plastic film material in the range of about 0.003 to 0.010 inch thick which has been determined to effectively allow tactile stimuli to be communicated to touch screen 94 of touch screen device 90 installed in enclosure 10, without damage to interior window portion 22. According to one embodiment, noncompressible plastic sheet component of interior window portion 22 is optionally in the range of about 0.004 to 0.005 inch thick. Noncompressible plastic sheet component of interior window portion 22 is surrounded by resiliently pliable skirt portion 24 including lid seal portion 54 of protective membrane 20. Skirt portion 24 is joined to a peripheral edge portion 104 of interior window portion 22 of protective membrane 20, optionally forming a substantially continuous watertight seal therewith.

Pliable skirt portion 24 of membrane 20 is extended between interior window portion 22 and skirt portion 24. Membrane pliable skirt portion 24 is molded of a suitable resiliently pliable, soft and compressible material in a manner to allow tactile inputs to be communicated to one or more actuators 96 on sides and/or end portions 98 of device case 99 that are spaced below touch screen 94 of touch screen device 90. When interior window portion 22 of membrane 20 is a noncompressible sheet of relatively hard and substantially visually transparent PET or PVC or other suitable material, pliable skirt portion 24 is optionally molded of any melt processable thermoplastic elastomer that is compatible with the material of interior window portion 22, including but not limited to polyvinyl chloride (PVC) or silicone or thermoplastic rubber (TPR) or thermoplastic elastomer (TPE) or another suitable compatible material. Pliable skirt portion 24 of membrane 20 is optionally adapted to permit viewing of actuators 96 on sides and end portions 98 of case 99 of touch screen device 90. For example, pliable skirt portion 24 of membrane 20 is optionally substantially visually transparent for viewing interior portion of enclosure 10 therethrough.

By example and without limitation, pliable skirt portion 24 of protective membrane 20 is joined to peripheral edge portion 104 of interior window portion 22 by over-molding therewith, for example, by injection molding skirt portion 24 with sheet component of interior window portion 22 thereby forming a circumferential wall coupled to peripheral edge portion 104 thereof. Alternatively, skirt portion 24 of protective membrane 20 is joined to peripheral edge portion 104 of interior window portion 22 by another suitable manufacturing method, including but not limited to ultra-sonic or chemical welding, or other suitable non-adhesive bonding process during formation of skirt portion 24. Optionally, the joining technique forms the optional substantially continuous watertight seal 108 of skirt portion 24 with edge portion 104 of interior window portion 22.

Pliable skirt portion 24 thus forms a thick, soft and flexible frame portion 106 of protective membrane 20 that is overlapping and substantially continuous with thin, hard and noncompressible plastic interior window portion 22 thereof. Overmolding, ultra-sonic or chemical welding, or other suitable non-adhesive joining method of skirt portion 24 causes frame portion 106 thereof to form optional substantially watertight seal 108 with peripheral edge portion 104 of interior window portion 22. Optionally, frame portion 106 of skirt portion 24 overlaps interior window portion 22 thereof on either one or both (shown) of an outer surface 110 thereof and an inner surface 112 thereof.

PVC, silicone or other resiliently pliable skirt portion 24 includes continuous pliable lid seal 54 positioned between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 that, when lid 14 is in the closed position relative to tray 12, is compressed between substantially rigid rim 16 of lid 14 and substantially rigid peripheral rim 44 of tray 12 for forming a continuous substantially water-resistant seal around the touch screen device within protective enclosure 10, as disclosed herein. Optionally, lid seal 54 is formed with preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak thickness near the midpoint of lid rim 14, as more clearly illustrated in FIG. 4, and insures that lid seal 54 will form a continuous substantially water-resistant seal between rim 16 of lid 14 and tray 12.

Overmolding or other suitable joining of pliable skirt portion 24 with interior window portion 22 results in protective membrane 20 being substantially a single, unitary one-piece unit that includes: continuous pliable lid seal portion 54, substantially transparent noncompressible interior window portion 22 that is adapted to allow tactile inputs to be communicated to the touch screen of the device in protective enclosure 10, and pliable, soft and compressible skirt portion 24 that is joined thereto along edge portion 104 thereof and extended from interior window portion 22, and wherein skirt portion 24 is adapted to allow tactile inputs to be communicated to one or more actuators on sides and/or ends of the touch screen device case.

Peripheral lid seal portion 54 is disposed along the entire circumference of protective membrane 20 at edge of pliable skirt portion 24 opposite from interior window portion 22, wherein peripheral lid seal portion 54 of membrane 20 is formed as a sealing lip of an increased thickness of membrane 20 relative to membrane skirt portion 24 and interior window portion 22. As disclosed herein, peripheral lid sealing lip portion 54 of membrane 20 is configured and arranged to be at least partially disposed within first circumferential barrier 64 to form a water-resistant seal. For example, membrane peripheral lid sealing lip portion 54 includes first contact surface 68 defining a first circumferential barrier formed as a ridge extending around the circumference of membrane skirt portion 24, which is sized and arranged to be at least partially received into first circumferential barrier groove 64 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14. Peripheral lid sealing lip portion 54 of membrane 20 is further configured and arranged to receive rim 16 of lid 14 at least partially thereinto. For example, as disclosed herein, membrane peripheral lid sealing lip portion 54 includes second contact surface 70 defining a groove extending around circumference of membrane skirt portion 24, which is sized and arranged to receive thereinto second circumferential barrier ridge 66 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14.

Also, as disclosed herein, peripheral lid sealing lip portion 54 of protective membrane 20 is configured and arranged to form a water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Peripheral rim 44 of tray 12 is configured and arranged to cooperate with seal retention means 62 of lid rim 16 for at least partially compressing lid pliable seal 54 of membrane 20 therebetween for forming a continuous substantially water-resistant seal around the touch screen device within protective enclosure 10, as disclosed herein.

As disclosed herein, peripheral lid sealing lip portion 54 of protective membrane 20 is formed with third contact surface 72 defining a first circumferential compression interface formed as a ridge extending around the circumference of membrane skirt portion 24 and extending therefrom entirely around circumference of rim 16 of lid 14. Peripheral lid sealing lip portion 54 of membrane 20 is further formed with fourth contact surface 74 disposed adjacent to third contact surface 72 and defining a second circumferential compression interface formed as a flat surface aligned within first circumferential compression interface ridge 72. Peripheral first circumferential compression barrier groove 76 of tray rim 44 is sized and arranged to at least partially receive compressively thereinto first circumferential compression interface ridge 72 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Furthermore, peripheral second circumferential compression barrier flat contact surface 78 is further sized and arranged within first circumferential barrier groove 76 to at least partially receive compressively there against second circumferential compression interface flat surface 74 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12.

As disclosed herein, peripheral lid sealing lip portion 54 of membrane 20 optionally includes membrane positioning means 80 for positioning protective membrane 20 in viewing aperture 18. By example and without limitation, membrane peripheral lid sealing lip portion 54 is formed with circumferential groove 82 and lip 84 fit over inner peripheral ledge 86 of lid peripheral rim 16 within viewing aperture 18. Here, lip 84 is optionally wider for a more secure joint with inner peripheral ledge 86 inside viewing aperture 18 within peripheral rim 16 of lid 14.

FIG. 12 and FIG. 13 together illustrate another embodiment of a protective enclosure 10 for a device responsive to a tactile stimulus similar to that illustrated in FIG. 1, wherein FIG. 12 is a cross-section lengthwise through enclosure 10 and having touch screen device 90 installed therein, and FIG. 13 is a partial section view through enclosure 10 detailing membrane 20 of lid 14.

In FIGS. 12 and 13, protective membrane 20 of lid 14 is a two-part member including a substantially transparent, hard, inelastic and noncompressible plastic sheet component forming interior window portion 22 of membrane 20, and a molded component forming resiliently pliable lid seal portion 54 of a soft and compressible material surrounding transparent hard plastic sheet component of interior window portion 22. Optionally, soft, pliable and compressible lid seal portion 54 forms substantially continuous watertight compression seal 88 with hard, inelastic and noncompressible interior window portion 22.

For example, as disclosed herein, the plastic sheet component forming interior window portion 22 of membrane 20 is optionally a noncompressible sheet of relatively hard and substantially visually transparent material, including but not limited to polyethylene terephthalate (PET) or another suitable substantially visually transparent material which similarly permits tactile stimulation of the touch screen on a front surface of the device case. According to one embodiment, plastic interior window portion 22 of membrane 20 is a noncompressible sheet of thin plastic film that is substantially transparent for viewing interior portion of enclosure 10 therethrough and is further adapted to allow tactile stimuli to be communicated therethrough to touch screen 94 exposed on a front surface of touch screen device 90 installed in enclosure 10. For example, noncompressible sheet component is sufficiently thin to permit interior window portion 22 to flex enough for user's digits to contact touch screen portion 94 of device 90 therethrough, and further, to transmit a tactile stimulus therethrough to touch screen portion 94 for registering a tactile input for effecting a response from touch screen device 90 without damage to interior window portion 22. As further disclosed herein, noncompressible plastic sheet component of interior window portion 22 is optionally a sheet of substantially transparent thin, hard plastic film material in the range of about 0.003 to 0.010 inch thick which has been determined to effectively allow tactile stimuli to be communicated to touch screen 94 of touch screen device 90 installed in enclosure 10, without damage to interior window portion 22. According to one embodiment, noncompressible plastic sheet component of interior window portion 22 is optionally in the range of about 0.004 to 0.005 inch thick. Noncompressible plastic sheet component of interior window portion 22 is surrounded by pliable and resiliently compressible lid seal portion 54 of protective membrane 20. Lid seal portion 54 is joined to a peripheral edge portion 104 of interior window portion 22 of protective membrane 20, optionally forming a substantially continuous watertight seal therewith.

Membrane lid seal portion 54 is molded of polyvinyl chloride (PVC) or silicone or another suitable resiliently pliable, soft and compressible material in a manner to form a water-tight seal with noncompressible plastic sheet component of interior window portion 22, as well as to allow a substantially water-tight seal to be formed between tray 12 and lid 14.

By example and without limitation, lid seal portion 54 of protective membrane 20 forms thick, soft and flexible frame portion 106 that is joined to peripheral edge portion 104 of interior window portion 22. For example, frame portion 106 of lid seal portion 54 is joined to peripheral edge portion 104 of interior window portion 22 by over-molding therewith, for example, by injection molding lid seal portion 54 with sheet component of interior window portion 22 and thereby forming a circumferential wall coupled to peripheral edge portion 104 thereof. Alternatively, lid seal portion 54 of protective membrane 20 is joined to peripheral edge portion 104 of interior window portion 22 by another suitable manufacturing method, including but not limited to ultra-sonic or chemical welding, or other suitable non-adhesive bonding process. Optionally, the joining technique forms the optional substantially continuous watertight seal 108 of lid seal portion 54 with edge portion 104 of interior window portion 22.

Compressible lid seal portion 54 thus forms thick, soft and flexible frame portion 106 of protective membrane 20 that is overlapping and substantially continuous with thin, hard and noncompressible plastic interior window portion 22 thereof. Overmolding, ultra-sonic or chemical welding, or other suitable non-adhesive joining method of lid seal portion 54 causes frame portion 106 thereof to form optional substantially watertight seal 108 with peripheral edge portion 104 of interior window portion 22. Optionally, frame portion 106 overlaps interior window portion 22 thereof on either one or both (shown) of an outer surface 110 thereof and an inner surface 112 thereof.

Rim 16 of lid 14 is structured with seal retainer 62 adapted for retaining lid seal portion 54 of protective membrane 20 adjacent to viewing aperture 18. Seal retention arrangement 62 is formed in lid rim 16 completely surrounding viewing aperture 18. Seal retention arrangement 62 is formed as a first contact surface 64 defining a first circumferential barrier formed as a groove extending around the circumference of viewing aperture 18 of lid 14, and a second contact surface 66 disposed adjacent to first contact surface 64, second contact surface defining a second circumferential barrier formed as a ridge aligned with first circumferential barrier groove 64 and interior thereof.

Peripheral lid sealing lip portion 54 is disposed along the entire circumference of protective membrane 20 at edge portion 104 thereof, wherein peripheral lid seal portion 54 of membrane 20 is formed as a sealing lip of an increased thickness of membrane 20 relative to interior window portion 22 thereof. As disclosed herein, peripheral lid sealing lip portion 54 of membrane 20 is configured and arranged to be at least partially disposed within first circumferential barrier 64 to form a water-resistant seal. For example, membrane peripheral lid sealing lip portion 54 includes first contact surface 68 defining a first circumferential barrier formed as a ridge extending around the circumference of seal 108 with peripheral edge portion 104 of interior window portion 22, and is sized and arranged to be at least partially received into first circumferential barrier groove 64 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14. Peripheral lid sealing lip portion 54 of membrane 20 is further configured and arranged to receive rim 16 of lid 14 at least partially therearound. For example, membrane peripheral lid sealing lip portion 54 includes a second contact surface 70 defining a ledge extending around the circumference thereof, which is sized and arranged to contact second circumferential barrier ridge 66 of lid rim 16 entirely around circumference of viewing aperture 18 of lid 14.

Also, as disclosed herein, peripheral lid sealing lip portion 54 of protective membrane 20 is configured and arranged to form a water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Peripheral rim 44 of tray 12 is configured and arranged to cooperate with seal retention arrangement 62 of lid rim 16 for at least partially compressing lid sealing lip 54 of membrane 20 therebetween for forming a continuous substantially water-resistant seal around the touch screen device 90 within protective enclosure 10, as disclosed herein.

As disclosed herein, peripheral lid sealing lip portion 54 of protective membrane 20 is formed with third contact surface 72 defining a first circumferential compression interface formed as a ridge extending around the circumference thereof and extending therefrom entirely around circumference of rim 16 of lid 14. Peripheral lid sealing lip portion 54 of membrane 20 is further formed with fourth contact surface 74 disposed adjacent to third contact surface 72 and defining a second circumferential compression interface formed as a flat surface aligned within first circumferential compression interface ridge 72.

By example and without limitation, peripheral rim 44 of tray 12 is formed with a first contact surface 76 defining a first circumferential compression barrier formed as a groove extending around the circumference of tray peripheral rim 44, and a second contact surface 78 disposed adjacent to first contact surface 76, wherein second contact surface 78 defines a second circumferential compression barrier formed as a flat surface aligned within first circumferential barrier groove 76.

Peripheral first circumferential compression barrier groove 76 of tray rim 44 is sized and arranged to at least partially receive compressively thereinto first circumferential compression interface ridge 72 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12. Furthermore, peripheral second circumferential compression barrier flat contact surface 78 is further sized and arranged within first circumferential barrier groove 76 to at least partially receive compressively there against second circumferential compression interface flat surface 74 of peripheral lid sealing lip portion 54 of membrane 20 to form a continuous water-resistant seal between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12.

As disclosed herein, peripheral lid sealing lip portion 54 of membrane 20 optionally includes membrane positioning arrangement 80 for positioning protective membrane 20 in viewing aperture 18. By example and without limitation, membrane peripheral lid sealing lip portion 54 is formed with outer circumferential surface 114 positioned against first circumferential barrier 64 inside seal retention arrangement 62 of lid peripheral rim 16 within viewing aperture 18.

As disclosed herein, membrane 20 is easily removed from engagement with viewing aperture 18 in lid 14 and replaced with a new membrane if necessary by disengaging membrane positioning arrangement 80, and disengaging seal retention arrangement 62 that retains lid seal portion 54 of membrane 20 adjacent to viewing aperture 18. Thereafter, membrane 20 is removed from viewing aperture 18, and a replacement membrane 20 is installed in reverse.

Flexible frame portion 106 of protective membrane 20 forms compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28. Continuous compression seal 88 is formed of peripheral lid sealing lip portion 54 of membrane 20 being compressed between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 by engagement of clamping mechanism 28. Continuous compression seal 88 is formed of first circumferential compression interface ridge 72 of peripheral lid sealing lip portion 54 of flexible membrane 20 being compressed against first circumferential compression barrier groove 76 of rim 44 of tray 12, and is further formed of second circumferential compression interface flat surface 74 of peripheral lid sealing lip portion 54 of membrane 20 being compressed against second circumferential compression barrier flat contact surface 78 of rim 44 of tray 12.

Furthermore, engagement of clamping mechanism 28 further causes compression of peripheral lid sealing lip portion 54 against peripheral rim 16 of lid 14. Engagement of clamping mechanism 28 compresses first contact surface 68 of lid sealing lip portion 54 into sealing engagement with seal retention arrangement 62 of peripheral rim 16 of lid 14.

Continuous compressible lid seal portion 54 is positioned between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 that, when lid 14 is in the closed position relative to tray 12, lid seal portion 54 is compressed between substantially rigid rim 16 of lid 14 and substantially rigid peripheral rim 44 of tray 12 for forming a continuous substantially water-resistant compression seal 88 around the touch screen device 90 within protective enclosure 10, as disclosed herein. As disclosed herein, lid seal 54 is optionally formed with preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak thickness near the midpoint of lid rim 14, as more clearly illustrated in FIG. 4, and insures that lid seal 54 will form a continuous substantially water-resistant seal between rim 16 of lid 14 and tray 12.

Overmolding or other suitable joining of compressible lid seal portion 54 with interior window portion 22 results in protective membrane 20 being substantially a single, unitary one-piece unit that includes: substantially transparent noncompressible interior window portion 22 that is adapted to allow tactile inputs to be communicated to the touch screen of the device in protective enclosure 10, and continuous compressible lid seal portion 54 that is joined thereto along edge portion 104 thereof and extended from interior window portion 22.

FIG. 14 and FIG. 15 together illustrate another embodiment of the protective enclosure 10 for a device responsive to a tactile stimulus similar to that illustrated in FIG. 1, wherein FIG. 14 is a cross-section lengthwise through enclosure 10 and having touch screen device 90 installed therein, and FIG. 15 is a partial section view through enclosure 10 detailing membrane 20 of lid 14.

In FIGS. 14 and 15, protective membrane 20 of lid 14 is a two-part member including a substantially transparent, hard, inelastic and noncompressible plastic sheet component forming interior window portion 22 of membrane 20, and a molded component forming resiliently pliable lid seal portion 54 of a soft and compressible material surrounding transparent hard plastic sheet component of interior window portion 22. Optionally, soft, pliable and compressible lid seal portion 54 forms substantially continuous watertight compression seal 88 with hard, inelastic and noncompressible interior window portion 22.

Here, compressible lid seal portion 54 forms thick, soft and flexible frame portion 106 of protective membrane 20 that is overlapping and substantially continuous with thin, hard and noncompressible plastic interior window portion 22 thereof. Overmolding, ultra-sonic or chemical welding, or other suitable non-adhesive joining method of lid seal portion 54 causes frame portion 106 thereof to form optional substantially watertight seal 108 with peripheral edge portion 104 of interior window portion 22. Optionally, frame portion 106 overlaps interior window portion 22 thereof on either one (shown) or both of an outer surface 110 thereof and an inner surface 112 thereof.

For example, as disclosed herein, the plastic sheet component forming interior window portion 22 of membrane 20 is optionally a noncompressible sheet of relatively hard and substantially visually transparent material, including but not limited to polyethylene terephthalate (PET) or polyvinyl chloride (PVC) or another suitable substantially visually transparent material which similarly permits tactile stimulation of the touch screen on a front surface of the device case. According to one embodiment, plastic interior window portion 22 of membrane 20 is a noncompressible sheet of thin plastic film that is substantially transparent for viewing interior portion of enclosure 10 therethrough and is further adapted to allow tactile stimuli to be communicated therethrough to touch screen 94 exposed on a front surface of touch screen device 90 installed in enclosure 10. For example, noncompressible sheet component is sufficiently thin to permit interior window portion 22 to flex enough for user's digits to contact touch screen portion 94 of device 90 therethrough, and further, to transmit a tactile stimulus therethrough to touch screen portion 94 for registering a tactile input for effecting a response from touch screen device 90 without damage to interior window portion 22. As further disclosed herein, noncompressible plastic sheet component of interior window portion 22 is optionally a sheet of substantially transparent thin, hard plastic film material in the range of about 0.003 to 0.010 inch thick which has been determined to effectively allow tactile stimuli to be communicated to touch screen 94 of touch screen device 90 installed in enclosure 10, without damage to interior window portion 22. According to one embodiment, noncompressible plastic sheet component of interior window portion 22 is optionally in the range of about 0.004 to 0.005 inch thick. Noncompressible plastic sheet component of interior window portion 22 is surrounded by pliable and resiliently compressible lid seal portion 54 of protective membrane 20. Lid seal portion 54 is joined to a peripheral edge portion 104 of interior window portion 22 of protective membrane 20, optionally forming a substantially continuous watertight seal therewith.

Membrane lid seal portion 54 is molded of polyvinyl chloride (PVC) or silicone or another suitable resiliently pliable, soft and compressible material in a manner to form a water-tight seal with noncompressible plastic sheet component of interior window portion 22, as well as to allow a substantially water-tight seal to be formed between tray 12 and lid 14.

By example and without limitation, lid seal portion 54 of protective membrane 20 is joined to peripheral edge portion 104 of interior window portion 22 by over-molding therewith, for example, by injection molding lid seal portion 54 with sheet component of interior window portion 22 thereby forming a circumferential wall coupled to peripheral edge portion 104 thereof. Alternatively, lid seal portion 54 of protective membrane 20 is joined to peripheral edge portion 104 of interior window portion 22 by another suitable manufacturing method, including but not limited to ultra-sonic or chemical welding, or other suitable non-adhesive bonding process. Optionally, the joining technique forms the optional substantially continuous watertight seal 108 of lid seal portion 54 with edge portion 104 of interior window portion 22.

Compressible lid seal portion 54 thus forms thick, soft and flexible frame portion 106 of protective membrane 20 that is overlapping and substantially continuous with thin, hard and noncompressible plastic interior window portion 22 thereof. Overmolding, ultra-sonic or chemical welding, or other suitable non-adhesive joining method of lid seal portion 54 causes frame portion 106 thereof to form optional substantially watertight seal 108 with peripheral edge portion 104 of interior window portion 22. Optionally, frame portion 106 overlaps interior window portion 22 thereof on either one or both (shown) of an outer surface 110 thereof and an inner surface 112 thereof.

Overmolding or other suitable joining of compressible lid seal portion 54 with interior window portion 22 results in protective membrane 20 being substantially a single, unitary one-piece unit that includes: substantially transparent noncompressible interior window portion 22 that is adapted to allow tactile inputs to be communicated to the touch screen of the device in protective enclosure 10, and continuous compressible lid seal portion 54 that is joined thereto along edge portion 104 thereof and extended from interior window portion 22.

Here, edge portion 104 around entire circumference of protective membrane 20 is positioned between flexible frame portion 106 thereof and second contact surface 66 of lid 14 extending around entire circumference of viewing aperture 18. When lid 14 is in the closed position relative to tray 12 and latched therein, edge portion 104 of protective membrane 20 is compressed between flexible frame portion 106 thereof and second contact surface 66 of lid 14 around circumference of viewing aperture 18. However, such compression of edge portion 104 is not necessary for forming compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12.

Additional Alternative Embodiments

FIG. 16 and FIG. 17 together illustrate protective enclosure 10 for a device responsive to a tactile stimulus illustrated in FIG. 1, wherein FIG. 16 is a partial cross-section lengthwise through a first alternative embodiment of enclosure 10, and FIG. 17 is a partial cross-section lengthwise through a second alternative embodiment of enclosure 10. In both FIGS. 16 and 17, protective membrane 20 of lid 14 is a two-part member including a substantially transparent, hard, inelastic and noncompressible plastic sheet component forming window portion 22 of membrane 20, and a separate and distinct molded lid seal component 122 of a soft, pliable and resiliently compressible material is substituted for continuous pliable lid seal 54. Separate and distinct continuous pliable lid seal 122 forms continuous compression seal 88 adjacent to junction 100 of peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28, as disclosed herein.

In both FIGS. 16 and 17, lid 14 of protective enclosure 10 is formed with substantially rigid rim 16 around viewing aperture 18 that is positioned for viewing interior cavity 52 of enclosure 10 therethrough.

In both FIGS. 16 and 17, plastic sheet component window portion 22 of membrane 20 is positioned in viewing aperture 18 of lid 14. By example and without limitation, peripheral edge portion 104 of interior window portion 22 is joined to an interior window frame portion 116 of lid rim 16 surrounding viewing aperture 18 of lid 14. By example and without limitation, peripheral edge portion 104 of interior window portion 22 is joined to interior window frame portion 116 surrounding lid viewing aperture 18 by therewith. For example, over-molding interior window portion 22 into interior window frame portion 116 of lid viewing aperture 18 is optionally accomplished utilizing a conventional insert molding process, wherein interior window portion 22 is positioned in an injection mold die for molding lid 14, then a molten stage of suitable polymer is injected into the same mold die cavity for forming lid 14 thereof. A substantially continuous and water-tight bond 118 between interior window portion 22 and lid 14 at intersection of peripheral edge portion 104 of interior window portion 22 and interior window frame portion 116 of lid viewing aperture 18 is thus achieved through the insert molding process.

Bond 118 between the sub-components of the finished lid 14, i.e., interior window portion 22 and lid viewing aperture 18, is optionally achieved either via chemical adhesion between compatible plastics, or mechanical interference/interlocking means. Utilization of the conventional insert molding process allows the use of a chemical adhesive to be applied to the inserted sub-component(s), i.e., peripheral edge portion 104 of interior window portion 22, prior to molding, if required, for enhanced adhesion.

According to one embodiment, the plastic sheet component forming interior window portion 22 of membrane 20 is optionally a noncompressible sheet of relatively hard and substantially visually transparent polyvinyl chloride (PVC) material, and the polymer that is injected into the mold die cavity for forming lid 14 is a polyvinyl chloride (PVC) material.

Regarding interior window portion 22 of membrane 20, a hard aromatic polyester or copolyester, e.g. polyethylene terephthalate (PET), or homopolymer PET, poly(ethylene terephtalate), PET modified by copolymerization is also suitable for use in the present invention and are also contemplated and may be substituted for the polyvinyl chloride (PVC) material without deviating from the scope and intent of the present invention. Examples of suitable copolymers, preferably used in small amounts, include cyclohexane dimethanol CHDM), often referred to as PETG or PET-G (polyethylene terephtalate glycol-modified), such as available from Eastman Chemical, SK Chemicals, or Artenius Italia. Further copolymers include isophthalic acid, Naphthalene decarboxylic acid, 4,4-bisphenyldicarboxylic acid and/or dimethylterephlatate and one or more diols, which, in addition to ethylene gycol include, for example, neopentylglcycol and or diethleneglycol. Such materials are also contemplated and may be included and/or substituted without deviating from the scope and intent of the present invention, as disclosed herein.

Regarding lid 14, other materials for forming lid 14 are also contemplated and may be substituted for the polyvinyl chloride (PVC) material without deviating from the scope and intent of the present invention, including but not limited to silicone or thermoplastic rubber (TPR) or thermoplastic elastomer (TPE) or another suitable material compatible with the material of interior window portion 22 of membrane 20.

When interior window portion 22 is over-molded with lid 14, a lip portion 120 of interior window frame portion 116 of lid viewing aperture 18 is optionally molded over peripheral edge portion 104 of interior window portion 22. Interior window portion 22 is thus partially encapsulated within window frame portion 116 of lid viewing aperture 18, and a second substantially continuous and water-tight bond 118 is formed between peripheral edge portion 104 of interior window portion 22 and lip portion 120 of interior window frame portion 116.

When interior window portion 22 is over-molded with lid 14, separate and distinct molded lid seal component 122 of a soft and resiliently compressible material replaces continuous pliable lid seal 54 is positioned between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 for sealing interior of protective enclosure 10. For example, lid seal component 122 is a proprietary shape designed to cooperate with molded circumferential compression barrier groove 76 features of tray 12 and molded seal retention means 62 features lid 14, as disclosed herein. Thus, proprietary design molded lid seal component 122 forms continuous compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28. Proprietary design molded lid seal component 122 optionally is molded with preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak thickness near the midpoint of lid rim 14, as more clearly illustrated in FIG. 4, and insures that lid seal 122 will form a continuous substantially water-resistant seal between rim 16 of lid 14 and tray 12.

Alternatively, as illustrated in FIG. 17, peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 are adapted to cooperate with lid seal component 122, wherein separate and distinct lid seal component 122 is a separate conventional o-ring of a soft and resiliently compressible material. O-ring lid seal component 122 is utilized to form substantially continuous watertight compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28. For example, molded circumferential compression barrier groove 76 features of tray 12 and molded seal retention means 62 features lid 14 are both adapted to accommodate conventional lid seal component 122 formed as an o-ring. For example, one or both of circumferential compression barrier groove 76 is formed as an o-ring seat molded in peripheral rim 44 of tray 12, and circumferential seal retention means 62 features lid 14 is formed as an o-ring seat molded in peripheral rim 16 of lid 14, whereby o-ring 122 is positioned between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12. Thus, proprietary design molded lid seal component 122 forms continuous compression seal 88 between peripheral rim 16 of lid 14 and peripheral rim 44 of tray 12 when lid 14 is in the closed position relative to tray 12 and latched therein by clamping mechanism 28.

Optionally, lid seal o-ring component 122 is optionally molded with preload portion 56 that expands evenly between hinge and clamping ends of lid rim 14 to a peak thickness near the midpoint of lid rim 14, as more clearly illustrated in FIG. 4, and insures that lid seal 122 will form a continuous substantially water-resistant seal between rim 16 of lid 14 and tray 12.

In FIG. 17, plastic sheet component window portion 22 of membrane 20 is positioned in viewing aperture 18 of lid 14. By example and without limitation, peripheral edge portion 104 of interior window portion 22 is joined to interior window frame portion 116 of lid rim 16 surrounding viewing aperture 18 of lid 14. By example and without limitation, peripheral edge portion 104 of interior window portion 22 is joined to interior window frame portion 116 surrounding lid viewing aperture 18 by therewith. For example, over-molding interior window portion 22 into interior window frame portion 116 of lid viewing aperture 18 is optionally accomplished utilizing a conventional insert molding process, wherein interior window portion 22 is positioned in an injection mold die for molding lid 14, then a molten stage of suitable polymer is injected into the same mold die cavity for forming lid 14 thereof. A substantially continuous and water-tight bond 118 between interior window portion 22 and lid 14 at intersection of peripheral edge portion 104 of interior window portion 22 and interior window frame portion 116 of lid viewing aperture 18 is thus achieved through the insert molding process.

In contrast to FIG. 16, interior window portion 22 is over-molded with lid 14, peripheral edge portion 104 of interior window portion 22 is positioned on interior window frame portion 116 of lid viewing aperture 18, without any lip portion 120 of interior window frame portion 116 of lid viewing aperture 18 being molded over window peripheral edge portion 104. Interior window portion 22 is thus bonded to window frame portion 116 of lid viewing aperture 18 with a single substantially continuous and water-tight bond 118 formed between peripheral edge portion 104 of interior window portion 22 and interior window frame portion 116.

While the preferred and additional alternative embodiments of the invention have been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention. Therefore, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention. Accordingly, the inventor makes the following claims.

Claims

1. A protective enclosure for a device responsive to a tactile stimulus, the enclosure allowing operation of the device while the device is disposed in the enclosure, the enclosure comprising:

a tray comprising an interior device seating area and a rim around the device seating area, the tray adapted for receiving the device on the device seating area and oriented with a portion thereof responsive to a tactile input facing away from the device seating area; and

a lid movable relative to the device seating area of the tray between an open position and a closed position, the lid comprising: a rigid rim around a viewing aperture, the aperture positioned for viewing an interior portion of the enclosure there through, a substantially transparent sheet forming an interior window positioned in the viewing aperture of the lid and joined thereto, and

a continuous pliable seal positioned between the rim of the lid and the rim of the tray when the lid is in the closed position relative to the tray, the pliable seal being spaced apart from the sheet of the lid; and

wherein the enclosure comprises a protective case adapted to hold the touch screen device and allowing operation of the touch screen of the touch screen device.

2. The enclosure of claim 1, wherein the substantially transparent sheet forming the interior window comprises a hard and noncompressible plastic membrane.

3. The enclosure of claim 2, wherein the hard plastic membrane comprises one of. a polyethylene terephthalate (PET) membrane, and a polyvinyl chloride (PVC) material.

4. The enclosure of claim 3, wherein the pliable seal further comprises either a silicone material, or a polyvinyl chloride (PVC) material.

5. The enclosure of claim 1, wherein the pliable seal is further spaced part from the sheet forming the interior window by the rigid rim around the viewing aperture.

6. The enclosure of claim 5, wherein the sheet forming an interior window is further bonded to the rigid rim around the viewing aperture.

7. The enclosure of claim 1, further comprising a clamping mechanism structured for clamping the pliable seal between the rim of the lid and the rim of the tray.

8. The enclosure of claim 7, wherein the clamping mechanism is structured for clamping the pliable seal between the rim of the lid and the rim of the tray in a continuous substantially water-resistant seal.

9. The enclosure of claim 7, wherein the lid is hinged relative to the device seating area of the tray for moving between the open position and the closed position.

10. The enclosure of claim 1, further comprising a substantially watertight seal between the interior window and the rigid rim around the viewing aperture.

11. The enclosure of claim 10, wherein the substantially watertight seal comprises a substantially continuous joint between the peripheral edge of the interior window and the rigid rim around the viewing aperture.

12. The enclosure of claim 11, wherein the joint between the interior window and the rigid rim around the viewing aperture further comprises one of. an over-molded joint, an ultra-sonic weld joint, or a chemical weld joint.

13. An enclosure for a touch screen device that allows operation of a touch screen on the touch screen device while the touch screen device is disposed in the enclosure, the enclosure comprising:

a shell that is adapted to contain the touch screen device;

an aperture in the shell in such a position as to be disposed over the touch screen of the touch screen device when the touch screen device is disposed in the enclosure;

a protective membrane sized for substantially filling the aperture in the shell, the protective membrane comprising a noncompressible interior viewing and operating window panel that is adapted to allow tactile inputs to be communicated to the touch screen of the touch screen device, the protective membrane mounted in the aperture with a continuous seal between a peripheral edge of the interior window panel and the aperture in the shell; and

a continuous pliable seal formed of a compressible material, the pliable seal being spaced apart from the continuous seal between the interior window panel and the aperture in the shell and positioned for substantially sealing the shell around the touch screen device; and

wherein the shell comprises a protective case adapted to hold the touch screen device and allowing operation of the touch screen through the interior window panel of the protective membrane.

14. The enclosure of claim 13, wherein the continuous seal between the peripheral edge of the interior window panel and the aperture in the shell further comprises a substantially watertight seal joint comprising one of. an over-molded joint, an ultra-sonic weld joint, or a chemical weld joint.

15. The enclosure of claim 13, wherein the interior window panel of the protective membrane comprises a hard and inelastic plastic sheet.

16. The enclosure of claim 15, wherein the plastic sheet comprises one of. a polyethylene terephthalate (PET) material, and a polyvinyl chloride (PVC) material.

17. The enclosure of claim 13, wherein the shell further comprises a tray and a lid, wherein the aperture is formed in the lid, and wherein the lid is movable between an open position and a closed position relative to the tray.

18. The enclosure of claim 17, wherein the tray further comprises an interior device seating surface and a rim around the device seating surface, the tray adapted for receiving the touch screen device on the device seating surface and oriented with a portion thereof responsive to a tactile input facing away from the device seating surface and toward the aperture in the shell when the lid is the closed position relative to the tray.

19. The enclosure of claim 18, wherein the lid further comprises a rim around the aperture, the rim of the lid substantially corresponding to the rim of the tray, and wherein the seal of the protective membrane is positioned between the rim of the lid and the rim of the tray when the lid is in the closed position relative to the tray.

20. The enclosure of claim 19, further comprising a clamping mechanism structured for compressing the pliable seal between the rim of the lid and the rim of the tray.

21. A protective enclosure for a touch screen device, the enclosure comprising:

a substantially rigid tray comprising a rim surrounding an interior device seating surface;

a lid comprising a substantially rigid rim surrounding a window aperture, the rim of the lid corresponding to the rim of the tray;

a protective membrane that is structured for viewing there through and is sized to fill the window aperture of the lid, the protective membrane comprising a thin interior window surrounded by a continuous seal joint formed between a peripheral edge thereof and the window aperture of the lid;

a continuous pliable seal that is adapted to be compressible between the rim of the lid and the rim of the tray in a position spaced away from the continuous seal joint between the protective membrane and the window aperture of the lid; and

a clamping mechanism structured for clamping the rim of the lid and the rim of the tray with the continuous pliable seal forming a continuous substantially water-resistant seal therebetween.

22. The enclosure of claim 21, wherein the continuous pliable seal comprises one of. a silicone material, a polyvinyl chloride (PVC) material, a silicone material, a thermoplastic rubber (TPR) material, or a thermoplastic elastomer (TPE) material.

23. The enclosure of claim 22, wherein the interior window of the protective membrane comprises a noncompressible material.

24. The enclosure of claim 23, wherein the interior window of the protective membrane comprises one of. a polyethylene terephthalate (PET) material, and a polyvinyl chloride (PVC) material.

25. The enclosure of claim 22, further comprising a hinge between the lid and the tray, whereby the lid is moveable between an open position and a closed position relative to the tray.

26. The enclosure of claim 25, wherein the clamping mechanism is structured for clamping the lid in the closed position relative to the tray with the pliable seal compressed there between.