Slatwall section and assembly
A slatwall section including a plurality of parallel frontal wall segments each extending between a first side edge portion of the slatwall section and an opposing second side edge portion of the slatwall section. Parallel slats are formed between adjacent frontal wall segments and extend between the first side edge portion and the second side edge portion. The adjacent frontal wall segments form a slat opening that extends into a depth of the slatwall section and transitions into a channel generally parallel with a front surface of the frontal wall segments. The slatwall section includes a bottom edge portion forming an angular groove and a top edge portion forming an angular tongue that is mateably engageable with an angular groove of a second slatwall section. A slatwall assembly including a plurality of slatwall sections can be constructed by mateably engaging an angular tongue formed at a top edge portion of a first slatwall section with an angular groove formed at a bottom edge portion of a second slatwall section to form a concealed joint.
This application is related to my earlier filed pending application, Ser. No. 29/199,146, filed on 10 Feb. 2004.
BACKGROUND OF THE INVENTION1. Field of the Invention
This invention relates generally to slatwall sections that are mateably engageable to construct a slatwall assembly.
2. Description of Related Art
Slatwall sections or panels and slatwall assemblies are useful in commercial settings or for home use, for displaying merchandise or storing articles for example. Typically, slatwall sections contain grooves within which hanging elements, such as hooks, hangers, brackets and shelves are positioned. The slatwall sections can be fastened to a support structure, such as a wall, to form a slatwall assembly having suitable dimensions for a particular use.
Some attempt has been made to simplify the construction of the slatwall assembly. For example, some conventional slatwall assemblies include a plurality of slatwall sections that can be interlocked with adjacent slatwall sections at edge portions to secure the slatwall sections together. However, it may be difficult to interlock the adjacent slatwall sections, for example if the slatwall sections are fastened to a support structure that is not planar. Further, the adjacent slatwall sections are connected at a joint that is not water or moisture proof and may not be aesthetically pleasing.
It is desirable to provide a slatwall section that can be easily and positively engaged with an adjacent slatwall section to construct a slatwall assembly.
It is also desirable to provide a slatwall section that can be engaged with an adjacent slatwall section to form a concealed joint that provides a moisture barrier and is aesthetically pleasing.
SUMMARY OF THE INVENTIONAn object of this invention is to provide an improved slatwall section and slatwall assembly including a plurality of mateably engageable slatwall sections.
It is another object of this invention to provide a slatwall section that is mateably engageable with a similar slatwall section to form a concealed joint that forms a liquid and moisture proof seam between the slatwall sections and enhances the aesthetics of the slatwall assembly.
It is another object of this invention to provide a slatwall section having a top portion that positively engages a bottom portion of a second slatwall section.
The above and other objects of this invention can be attained through a slatwall section having a plurality of parallel frontal wall segments each extending between a first side edge portion of the slatwall section and an opposing second side edge portion of the slatwall section. Adjacent frontal wall segments form a plurality of parallel or aligned slats that extend between the first side edge portion and the second side edge portion. Adjacent frontal wall segments form a slat opening that extends into a depth of the slatwall section and transitions into a channel generally parallel with a front surface of the frontal wall segments. The slatwall section includes a bottom edge portion forming an angular groove and a top edge portion forming an angular tongue mateably engageable with an angular groove of a second slatwall section to form a concealed joint. At least one slat includes a seam formed in a back surface of the slat and extending along at least a portion of a length of the slat for receiving a fastener.
A plurality of slatwall sections can be mateably engaged and fastened to a support surface to form a slatwall assembly. The slatwall assembly preferably includes a baseboard having a first portion positionable within a slat of a bottom slatwall section and having an integrated clip engageable with the angular groove of the slatwall section to conceal at least the bottom edge portion of the slatwall section.
BRIEF DESCRIPTION OF THE DRAWINGSThe above-mentioned and other features and objects of this invention will be better understood from the following detailed description taken in conjunction with the drawings, wherein:
Referring to
Slatwall section 10 forms or includes a plurality of parallel frontal wall segments 12 which collectively form a front surface 14 of slatwall section 10. Preferably, but not necessarily, front surface 14 is generally flat or planar. In one preferred embodiment of this invention, at least one frontal wall segment 12 includes a decorative beading 16, such as a wainscott beading, to enhance the appearance of slat wall section 10. As shown in
Slatwall section 10 further includes a plurality of parallel slats 24 formed between adjacent frontal wall segments 12, as shown in
In one preferred embodiment of this invention, a seam 30 for receiving a fastener is formed in a back surface 32 of at least one slat 24, as shown in
As shown in
In one preferred embodiment of this invention, slatwall section 10 includes a bottom edge portion 40 that forms or includes a groove, such as an angular groove 42. Angular groove 42 is formed or defined by an intersection of a back surface 44 of slatwall section 10 and a surface 46 of a leg 48 that extends from back surface 44, as shown in
In one preferred embodiment of this invention, slatwall section 10 includes a top edge portion 50 that forms or includes a tongue, such as an angular tongue 52 mateably engageable with an angular groove 42′ of a second slatwall section 10′, as shown in
Angular tongue 52 of slatwall section 10′ is mateably engageable with angular groove 42′ of second slatwall section 10′ to form a concealed joint 60. In addition to enhancing the aesthetics of the slatwall assembly, concealed joint 60 prevents water and/or moisture, for example, from moving between adjacent slatwall sections. In one preferred embodiment of this invention, angular tongue 52 has a triangular shape and angular groove 42′ has a triangular shape positively engaging the corresponding triangular-shaped angular tongue 52. Because surface 56 extends outwardly and upwardly from back surface 44 of slatwall section 10, bottom edge portion 40′ of slatwall section 10′ can be slidably positioned with respect to top edge portion 50 of slatwall section 10 to provide positive engagement between angular tongue 52 and angular groove 42′. As shown in
In one preferred embodiment of this invention, top edge portion 50 of slatwall section 10 includes at least a portion of decorative beading 16 so that when concealed joint 60 is formed by the mating engagement of slatwall section 10 with slatwall section 10′, concealed joint 60 forms decorative beading 16. As a result, multiple slatwall sections 10, 10′, when assembled, create a uniform and seamless appearance.
In one preferred embodiment of this invention, a plurality of slatwall sections can be mateably engaged to form or construct a slatwall assembly. The slatwall assembly includes a first slatwall section 10 having a plurality of parallel frontal wall segments 14 that extend between first side edge portion 20 of first slatwall section 10 and opposing second side edge portion 22 of first slatwall section 10. Adjacent frontal wall segments 14 form parallel slats 24 that extend between first side edge portion 20 and second side edge portion 22. First slatwall section 10 has top edge portion 50 forming angular tongue 52.
A second slatwall section 10′ includes a plurality of parallel frontal wall segments 14′ that extend between a first side edge portion 20′ of second slatwall section 10′ and an opposing second side edge portion 22′ of second slatwall section 10′. Adjacent frontal slatwall segments 14′ form parallel slats 24′ that extend between first side edge portion 20′ and second side edge portion 22′. Second slatwall section 10′ has a bottom edge portion 40′ that forms an angular groove 42′, which is mateably engageable with angular tongue 52 to form a concealed joint 60.
First slatwall section 10 includes a bottom edge portion 40 that forms an angular groove 42, which is mateably engageable with an angular tongue of an adjacent slatwall section. Further, second slatwall section 10′ includes a top edge portion 50′ forming an angular tongue 52′, which is mateably engageable with an angular groove formed at a bottom edge portion of an adjacent slatwall section.
In one preferred embodiment of this invention, the slatwall assembly also includes a baseboard 70 having an upper portion 72 that is positionable within a slat 24 of first slatwall section 10 and an integrated clip portion 74. Preferably, upper portion 72 of baseboard 70 is positioned within slat 24 nearest bottom portion 40 of first slatwall section 10. Integrated clip portion 74 is engageable with first slatwall section angular groove 42 for concealing at least bottom edge portion 40 of first slatwall section 10, as shown in
Thus, the present invention provides a slatwall section including a plurality of parallel frontal wall segments and a plurality of parallel slats formed between adjacent frontal wall segments. The slatwall section includes a bottom edge portion forming an angular groove and a top edge portion forming an angular tongue that is mateably engageable with an angular groove of a second slatwall section. A surface of the angular tongue extends upwardly and outwardly with respect to a back surface of the slatwall section and intersects with a surface extending from a front surface of the slatwall section to form a triangular-shaped angular tongue. The angular groove of the second slatwall section has a triangular shape that positively engages the corresponding triangular-shaped angular tongue of the first slatwall section to form a concealed joint. Further, a seam is formed in a back surface of at least one slat and extends along at least a portion of a length of the slat for receiving a fastener.
The present invention also provides a slatwall assembly including a first slatwall section having a top edge portion forming an angular tongue and a second slatwall section having a bottom edge portion forming an angular groove mateably engageable with the angular tongue of the first slatwall section to form a concealed joint. A baseboard of the slatwall assembly has a first portion that is positionable within a slat of the first slatwall section and an integrated clip that is engageable with the first slatwall section angular groove to conceal at least the bottom edge portion of the first slatwall section.
The invention illustratively disclosed herein suitably may be practiced in the absence of any element, part, step, component, or ingredient which is not specifically disclosed herein.
While in the foregoing detailed description this invention has been described in relation to certain preferred embodiments thereof, and many details have been set forth for purposes of illustration, it will be apparent to those skilled in the art that the invention is susceptible to additional embodiments and that certain of the details described herein can be varied considerably without departing from the basic principles of the invention.
Claims
1. A security system comprising:
- a base station;
- at least one sensor module comprising at least one sensor and a processor; and
- at least one calibration unit, said calibration unit configured to transmit signals to be received by said at least one sensor module, said signals containing a plurality of GPS derived locations and times of transmission, said processor programmed to calculate a position of said sensor module within a three dimensional coordinate system utilizing said plurality of GPS derived locations and times of transmission, said at least one sensor module configured to transmit module location data, module orientation data, and sensor status from said at least one sensor to said base station.
2. A security system according to claim 1 wherein said at least one sensor comprises one or more of a smoke sensor, a fire sensor, a gas sensor, an audio sensor, a video sensor, and a vibration sensor.
3. A security system according to claim 1 wherein said at least one sensor module is configured to periodically transmit module location data, module orientation data, and sensor status utilizing a frequency from about 20 kHz to about 100 kHz.
4. A security system according to claim 1 wherein said at least one calibration unit is configured to:
- determine its location within a coordinate system utilizing GPS; and
- transmit a GPS derived location and a time of transmission.
5. A security system according to claim 1 wherein said at least one calibration unit comprises a clock, said clock configured to receive time updates based on GPS information received by said calibration unit.
6. A security system according to claim 1 wherein said at least one calibration unit comprises a first calibration unit and a second calibration unit, said first calibration unit configured to determine its location within a coordinate system utilizing GPS, said second calibration unit configured to receive a location of said first calibration unit from said first calibration unit, then determine its location within the coordinate system utilizing GPS.
7. A security system according to claim 6 wherein said first calibration unit and said second calibration unit are configured to sequentially transmit their location within the coordinate system, as derived from received GPS signals, and a time of transmission.
8. (canceled)
9. A security system according to claim 1 wherein said at least one sensor module comprises a clock, and wherein said processor is programmed with a distance calculation program configured to determine a distance between said sensor module and a respective said calibration unit, based upon a time of transmission received from the respective said calibration unit and a time provided by said clock.
10. A security system according to claim 1 wherein said processor is programmed with a three dimensional position program configured to determine a position of said sensor module based upon a GPS derived location received from the respective said calibration units.
11. A security system according to claim 1 wherein said at least one sensor module comprises an orientation compass configured to provide module orientation data to said processor.
12. A sensor module for a security system, said sensor module comprising:
- at least one sensor providing a status;
- a receiver configured to receive at least a plurality of GPS derived locations and times of transmission from a plurality of calibration unit locations;
- a processor programmed to calculate a position of said sensor module within a three dimensional coordinate system based on the received plurality of GPS derived locations and times of transmission; and
- a transmitter configured to transmit the status from said at least one sensor and the calculated position from said processor.
13. A sensor module according to claim 12 further comprising a clock, said processor configured to determine a distance between said sensor module and a unit transmitting a time of transmission to said receiver utilizing a time from said clock.
14. A sensor module according to claim 13 wherein said processor is configured to determine a delay by subtracting the time of transmission from the time from said clock.
15. A sensor module according to claim 13 wherein said processor is configured to correct any errors in said clock based on receiving at least four GPS derived locations and times of transmission.
16. A sensor module according to claim 12 further comprising an orientation compass configured to determine an orientation of said sensor module, said transmitter configured to transmit the orientation of said sensor module.
17. A sensor module according to claim 16 wherein said transmitter is configured to periodically transmit status from said sensor, the calculated position of said sensor module, and the orientation of said sensor module.
18. A sensor module according to claim 12 wherein said sensor comprises at least one of a smoke sensor, a fire sensor, a gas sensor, an audio sensor, a video sensor, and a vibration sensor.
19. A method for providing security to an area utilizing a plurality of sensor modules, said method comprising:
- providing sensor modules each including at least one sensor therein to be dispersed within the area to be monitored, the sensor modules also including a processor;
- providing a plurality of calibration units to be dispersed within a vicinity of the sensor modules;
- configuring the calibration units to derive and transmit their GPS location and a time of transmission to the sensor modules;
- programming the processor of each sensor module to calculate a position of the sensor module within a three dimensional coordinate system based on the signals and times of transmission received from the calibration units; and
- further programming the sensor modules to transmit their location and a status from the at least one sensor therein.
20. A method according to claim 19 further comprising:
- providing the sensor modules with an orientation compass therein; and
- further programming the sensor modules to transmit their orientation along with their location and the status from the at least one sensor.
21. A method according to claim 19 wherein programming the processor of each sensor module to calculate a position of the sensor module comprises:
- configuring the sensor modules with a clock providing a time; and
- programming the processor of each sensor module to determine a delay time by comparing the time of transmission received from each calibration unit to a time provided by the clock.
22. A method according to claim 19 wherein programming the processor of each sensor module to calculate a position of the sensor module comprises:
- configuring the sensor modules with a clock providing a time;
- configuring the sensor modules to receive GPS locations and times of transmission from four calibration unit locations; and
- programming the processor of each sensor module to correct any errors in the clock based on the received GPS locations and times of transmission.
23. A method according to claim 19 wherein configuring the calibration units to derive and transmit their GPS location and a time of transmission to the sensor modules comprises:
- configuring the calibration units with a sequence; and
- causing each calibration unit to derive and transmit their GPS location and a time of transmission according to the sequence.
24. A method according to claim 23 further comprising configuring the calibration units to derive and transmit their GPS location and a time of transmission upon reception of a GPS location and time from a calibration unit immediately preceding the respective calibration unit in the sequence.
25. A method according to claim 19 further comprising:
- receiving the locations and status transmitted from the at least one sensor module at a base station; and
- causing a response to be initiated based on the status received at the base station.
Type: Application
Filed: Nov 1, 2004
Publication Date: May 4, 2006
Inventor: Gus Schuberth (Naperville, IL)
Application Number: 10/978,595
International Classification: A47F 5/08 (20060101);