PIERCING DEVICE WITH RETRACTABLE NEEDLE
A piercing device comprising a main body, a piercing needle and a stud member, in which said piercing needle protrudes in a first direction from a first slider, in which said first slider is mounted on a first track provided on said main body, and is reciprocally moveable along a piercing axis between a stand-by position and a piercing position, in which said stud member is removably mounted to second slider and protrudes therefrom in a second direction opposite to said first direction, in which said second slider is mounted on a second track and is moveable along said piercing axis in said second direction, in which said first slider comprises a first connector part and said second slider comprises a second connector part, in which in a first device configuration said first slider is in said stand-by position and is located relative to said second slider such that said first connector part is spaced from said second connector part, and in which in a second device configuration said first slider is in said piercing position and is located relative to said second slider such that said first connector part is engaged with said second connector part, and subsequent movement of said first slider in said second direction is transmitted to said second slider.
The present invention relates to a piercing device with a retractable needle, for use particularly, but not exclusively, as an ear piercing device.
Ear piercing guns are known, and they comprise a main body, an ear lobe containment area with a trigger operated sliding mechanism on one side and a clasp mounted on the other side. Operation of the trigger drives a stud mounted on the sliding mechanism through the ear containment area along a piercing axis, until it engages the clasp on the other side. In use the gun is offered up to the subject's ear until their ear lobe is positioned as desired within the ear containment area. The trigger is operated to drive the stud through the user's ear, and to connect it to the clasp on the opposite side. The gun is then withdrawn leaving the stud and clasp in place on the subject's ear. Commonly the main body comprises a trigger housing and a single-use cartridge removably mounted thereon and engaged with the trigger mechanism. The trigger housing is re-usable, while the single-use cartridge is provided along with the stud and clasp for each subject. As such, no part of the reusable trigger housing contacts the subject's skin. Ear piercing guns of this kind are popular as they can be used by non-skilled practitioners. The method of use is simple, and no particular skills are needed.
However, ear piercing guns of this kind suffer from a number of drawbacks. Firstly, while the stud may have a sharp end to assist the piercing process, it is still effectively just an earring with a solid pin. This means that the aperture which is formed in the subject's ear lobe is a puncture. This is painful for the user because of the amount of pressure required and because of the resulting stress to the surrounding tissue, and it also results in a comparatively rough aperture. As a result of this, and the fact that the instrument of piercing remains in situ, there is a relatively high chance of subsequent infection.
This is in contrast to when a body piercing needle is used manually by a professional body piercer. Such needles only serve to create the piercing, and as such they can be formed with a sharp point to create a clean hole. The needles are commonly hollow, so they remove a small amount of skin and tissue in the immediate area of the piercing wound. This procedure is less painful because less pressure is needed, and it also results in a cleaner and more effective piercing which can more easily heal. However, skill and experience is usually required.
Some known ear piercing guns comprise simple trigger mechanisms in which the trigger can be released from any position. The danger with this is that the trigger can be released too early in the piercing process, which can result in a partial piercing. If so, it can be difficult to re-align the stud correctly for a second attempt without causing injury.
Another drawback with known ear piercing guns is that the stud is exposed to atmosphere for a period of time prior to insertion. The cartridges are usually provided in sealed sterile packaging, but this is removed when the cartridge is placed on the trigger housing. The pin part of the stud is then exposed, which can lead to injury, or to contamination prior to insertion.
Yet another drawback of known ear piercing guns is that the ear containment area is usually a fixed width. This means that the subject's ear lobe may not be positioned correctly therein prior to insertion. There is no means to accurately secure the position of the gun relative to the subject's ear.
The present invention is intended to overcome some of the above described problems.
SUMMARYTherefore, according to the present invention a piercing device comprises a main body, a piercing needle and a stud member, in which said piercing needle protrudes in a first direction from a first slider, in which said first slider is mounted on a first track provided on said main body, and is reciprocally moveable along a piercing axis between a stand-by position and a piercing position, in which said stud member is removably mounted to second slider and protrudes therefrom in a second direction opposite to said first direction, in which said second slider is mounted on a second track and is moveable along said piercing axis in said second direction, in which said first slider comprises a first connector part and said second slider comprises a second connector part, in which in a first device configuration said first slider is in said stand-by position and is located relative to said second slider such that said first connector part is spaced from said second connector part, and in which in a second device configuration said first slider is in said piercing position and is located relative to said second slider such that said first connector part is engaged with said second connector part, and subsequent movement of said first slider in said second direction is transmitted to said second slider.
Thus, a piercing device is provided which is as easy to use as known ear piercing guns, but involves the use of a retractable needle to create a superior piercing. Ease of use is further enhanced by the feature that the stud member is inserted into the piercing in the subject's ear at the same time as the piercing needle is withdrawn. This simplifies the ear piercing process by reducing the number of procedural steps, and also ensures that the stud member is inserted cleanly into the piercing along the exact same axis as the piercing needle.
Preferably the piercing device can comprise a clamp, which can comprise a static jaw and a sliding jaw with a containment area therebetween. The sliding jaw can be mounted on a third track for movement along the piercing axis, and the static jaw and sliding jaw can each comprise a needle aperture on the piercing axis. The piercing device can further comprise a handle for moving the sliding jaw between an open position and a clamping position. The static jaw and the sliding jaw can be located on the piercing axis between the first slider and the second slider, and the first slider can be located relative to the static jaw such that the piercing needle can extend through the needle apertures in the second device configuration.
The clamp allows the subject's ear lobe to be held securely in position relative to the piercing needle and stud member. The sliding jaw can be moved back and forth to accommodate the subject's ear lobe. The piercing needle the passes through them both as it is moved from the stand-by position and the piercing position, and the stud member also passes through them both as it is then moved into position travelling in the opposite direction.
The piercing device can further comprise a needle sleeve, which can be provided on a third slider, and which can comprise a first section extending through the third slider and a second section protruding in the first direction from the third slider. The third slider can be mounted on the first track and can be reciprocally moveable along the piercing axis between a retracted position and an advanced position. The third slider can be located on the piercing axis between the first slider and the sliding jaw. The first slider can comprise a first engagement surface facing in the first direction, and the third slider can comprise a second engagement surface facing in the second direction. In the first device configuration the third slider can be in the retracted position and can be located relative to the first slider such that the first engagement surface is spaced from the second engagement surface, but at least a tip of the needle is enclosed in the needle sleeve. In a third device configuration the first slider can be located in an intermediate position between the stand-by position and the piercing position and relative to the third slider such that the first engagement surface contacts the second engagement surface, and subsequent movement of the first slider in the first direction moves the third slider from the retracted position towards the advanced position. The needle sleeve can be dimensioned such that in the third device configuration the tip of the needle can protrude from the needle sleeve. The third slider can be positioned relative to the static jaw such that the needle sleeve extends through the needle apertures in the second device configuration.
The needle sleeve performs two important functions. Firstly, in the first configuration, the tip of the piercing needle is enclosed in the needle sleeve. This reduces the risk of injury, and prevents the tip of the piercing needle being openly exposed to atmosphere. Secondly, the needle sleeve follows the piercing needle into the piercing and extends therethrough. It then remains in situ as the piercing needle is withdrawn, thereby maintaining the piercing aperture as the stud member is then inserted from the other side.
Following on from the above the third slider can comprise a tail portion extending in the second direction therefrom, and a third connector part can be provided at an outer end of the tail portion. The first slider can comprise a fourth connector part, and in a fourth device configuration the third slider can be in the advanced position, the first connector part can be engaged with the second connector part, and the first slider can be located relative to the third slider such that the third connector part can be engaged with the fourth connector part, and subsequent movement of the first slider in the second direction moves the third slider from the advanced position towards the retracted position. In the fourth device configuration an outer end of the stud member can be enclosed in the needle sleeve.
Therefore, once the piercing needle has been moved to the piercing position and begins to move back towards the stand-by position, it drags the second slider with it, towards the needle sleeve which remains stationary as the first slider has temporarily disconnected from the third slider. The stud member travels into the needle sleeve inside the subject's ear lobe, and is therefore not forced directly into the tissue of the subject's ear lobe. Once this has happened the fourth connector part of the first slider engages the third connector part at the outer end of the tail portion of the third slider, and drags the third slider with it, thereby withdrawing the needle sleeve from the piercing. The first slider, second slider and third slider are then all connected together and move in unison in the second direction. This occurs until the second slider contacts the static jaw, and cannot travel in the second direction any further. Further movement of the first slider in the second direction leads to the first connector part disengaging from the second connector part. Further movement of the first slider and third slider in the second direction leads to the sleeve withdrawing from the stud, leaving it in place in the ear piercing, in a fifth device configuration.
The tail portion can be dimensioned such that when the third connector part and the fourth connector part are engaged the first slider and the third slider are spaced relative to one another as in the first device configuration, and in particular so the tip of the piercing needle is enclosed in the needle sleeve. This ensures that once the tip of the piercing needle is withdrawn back into the needle sleeve it never protrudes therefrom again.
Preferably the first slider can comprise an opening through which the tail portion can extend, and a third engagement surface facing in the second direction. The third connector part can then comprise a flange at an outer end thereof with a greater diameter than the opening. In the fourth device configuration the flange can contact the third engagement surface. This is an expedient and compact arrangement of engaging parts which keeps the size of the mechanism to a minimum.
It will be appreciated from all the above that only the first slider is driven to move, and it transmits movements to the second slider and the third slider. In one version of the invention a motor can be provided to move the first slider in all the ways described above. In another construction the first slider can be directly manually moveable by hand. However, in a preferred construction the piercing device can comprise a trigger, which can be connected to the first slider by a first linkage so movement of the trigger is transmitted thereto. The trigger can be mounted for movement on a first displacement mechanism provided on the main body, and it can be movable between a primed position in which the first slider is in the stand-by position, and a depressed position in which the first slider is in the piercing position.
The first displacement mechanism can be a pivot about which the trigger can rotate. However, in a preferred construction the first displacement mechanism can comprise an enclosure formed by the main body, and the trigger can be reciprocally moveable along a linear trigger axis. A linearly moving trigger provides a more suitable basis for the features described below.
The first linkage can comprise a compound gear comprising a driver gear on a first rack provided on the trigger and a driven gear on a second rack associated with the first slider. Thus, linear movement of the trigger is transmitted to the first slider, and the relative linear movements are controlled by the compound gear ratio.
In a preferred construction a first non-return ratchet can be disposed between the trigger and the main body which can prevent movement of the trigger towards the primed position until the trigger is in the depressed position. With this feature it is not possible for the first slider and piercing needle to be moved in the second direction until the first slider has reached the piercing position. As such, the full piercing action must be performed, and cannot be deliberately or inadvertently reversed. This prevents any accidental part piercing taking place.
The first non-return ratchet can be any known construction which is capable of providing a non-return function. However, it must also allow the trigger to return to the primed position, so as to allow for the first slider to be driven back to the stand-by position.
Preferably the first non-return ratchet can comprise a sheath provided on the main body and a rod associated with the trigger for relative reciprocal movement in the sheath in unison with movement of the trigger on the first displacement mechanism. The rod can comprise a plurality of radially outwardly extending teeth and the sheath can comprise a plurality of radially inwardly extending ratchet slots for engaging the plurality of teeth in a non-return manner. The plurality of teeth can extend only partially around the rod circumferentially and the slots can extend only partially around the sheath circumferentially. The rod can then comprise a radially outwardly extending boss and the sheath can comprise a radially inwardly extending guide slot in which the boss is disposed. The guide slot can extend in an axial direction of the sheath and can comprises a first portion, second portion, third portion and fourth portion. The first portion can be axially linear and can determine a first axial rotational position of the boss when the trigger is in the primed position and when the trigger is travelling from the primed position to the depressed position. In this first axial rotational position of the boss the teeth can be axially aligned with the ratchet slots. The second portion can extend in a helical direction of the sheath and can transmit linear movement of the rod in the sheath into a first axial rotation of the boss from the first axial rotational position to a second axial rotational position in which the teeth are axially displaced from the ratchet slots. The third portion can be axially linear and can determine the second axial rotational position of the boss when the trigger is in the depressed position and when the trigger is travelling from the depressed position to the primed position. Finally, the fourth portion can extend in a helical direction of the sheath and can transmit linear movement of the rod in the sheath into a second axial rotation of the boss from the second axial rotational position back to the first axial rotational position.
Therefore, when the trigger is depressed the rod travels into the sheath, and the plurality of teeth are engaged by the plurality of ratchet slots to prevent the trigger from moving in the reverse direction. However, at the end of the trigger's depression the rod is axially rotated as a result of the movement of the boss through the second portion of the guide slot. This displaces the teeth from the ratchet slots and the trigger can then move back towards the primed position. At the end of this reverse movement the rod is axially rotated back again as a result of the movement of the boss through the fourth portion of the guide slot. The teeth are then re-aligned with the ratchet slots.
At least one first spring member can be disposed between the trigger and the main body which can bias the trigger towards the primed position. The first spring member therefore provides a force which urges the teeth into engagement with the ratchet slots, but which also drives the trigger back to the primed position. This drive is transmitted to the first slider by the compound gear, and provides the motive force for the first slider to travel from the piecing position back to the stand-by position, and for the various other actions associated with that movement to be performed, as explained above.
The piercing device can be a single device with all the above described features. However, in one embodiment of the invention the main body can comprise a trigger housing and a needle cartridge removably mounted thereon. The needle cartridge can comprise the first slider, first track, piercing needle, second slider, second track and stud member. The first linkage can then comprise a first drive body disposed in the trigger housing, and movement of the trigger from the primed position to the depressed position can move the first drive body from a start position to an end position. The first slider can comprise a first interface portion and the first drive body can comprise a second interface portion, and the first interface portion can interface with the second interface portion when the needle cartridge is mounted to the trigger housing, such that movement of the first drive body is transmitted to the first slider.
With this construction the piercing device can function like known ear piercing guns, with a single-use cartridge and a reusable tool. This allows the cartridge to be provided in sealed sterile packaging, which can be removed immediately prior to use. This minimises the chance of infection. It also allows the tool to be made from more expensive and robust materials as it will be reused many times.
Returning to the clamp feature, the handle can be connected to the sliding jaw by a second linkage so movement of the handle is transmitted thereto. The handle can be mounted on a second displacement mechanism provided on the main body and can be movable between a rearward position in which the sliding jaw is in the open position and a forward position in which the sliding jaw is in the clamping position.
A second non-return ratchet can be disposed between the handle and the main body, and it can comprise a rack, a pawl member and a release mechanism. The second non-return ratchet can prevent movement of the handle towards the rearward position, unless the release mechanism is activated. A second spring member can be disposed between the handle and the main body which can bias the handle towards the rearward position.
Therefore, the clamp is operated by manual manipulation of the handle, which can be moved to drive the sliding jaw towards the static jaw and secure the subject's ear lobe in position. The second non-return ratchet then holds the sliding jaw in place, until the release mechanism is activated, and the second spring drives the sliding jaw back to the open position.
In versions of the invention in which the main body comprises a trigger housing and a needle cartridge removably mounted thereon, the needle cartridge can comprise the first slider, first track, piercing needle, second slider, second track, stud member and the clamp. The second linkage can then comprise a second drive body disposed in the trigger housing, and movement of the handle from the rearward position to the forward position can move the second drive body from a primary position to a secondary position. The sliding jaw can comprise a third interface portion, and the second drive body can comprises a fourth interface portion. The third interface portion can interface with the fourth interface portion when the needle cartridge is mounted to the trigger housing, such that movement of the second drive body can be transmitted to the sliding jaw.
The invention can be performed in various ways, but one embodiment will now be described by way of example, and with reference to the accompanying drawings, in which:
As shown in the Figures, a piercing device 1 comprises a main body 2, a piercing needle 3 and a stud member 4. The piercing needle 3 protrudes in a first direction A from a first slider 5. The first slider 5 is mounted on a first track 6 provided on the main body 2, and is reciprocally moveable along a piercing axis B-B between a stand-by position, as shown in
The piercing device 1 is made from moulded plastics materials. The main body 2 comprises a reusable trigger housing 11 and a single-use needle cartridge 12 removably mounted thereon. The trigger housing 11 comprises two side pieces 13 and 14 which are joined together, and which form various of the internal spaces and features described below. Numerous parts are housed inside the trigger housing 11, and are supported thereby. Likewise, the needle cartridge 12 also comprises two side pieces 15 and 16 which are joined together, and which also form various of the internal spaces and features described below. Again, numerous parts are housed inside the needle cartridge 12, and are supported thereby.
The needle cartridge 12 comprises a first pair of opposed internal slots, one of which 17 is visible in
Referring to
As is clear from
The upstanding portion 29 comprises a stud member socket 30 comprising an top opening 31 and a front opening 32. A head portion 33 of the stud member 4 fits into the stud socket 30 via the top opening 31, with a pin portion 34 thereof extending out from the front opening 31.
The piercing device 1 comprises a clamp 35, which comprises a static jaw 36 and a sliding jaw 37 with a containment area 38 therebetween. The static jaw 36 is fixed in place between the two side pieces 15 and 16 of the needle cartridge 12, and doesn't move. The sliding jaw 37 is mounted on the third track 19 for movement along the piercing axis B-B. It comprises a third pair of lateral tabs 39 which are disposed in the third track 19. The static jaw 36 and the sliding jaw 37 each comprise a needle aperture 40 and 41 respectively on the piercing axis B-B.
A handle 42 is provided for moving the sliding jaw 37 between an open position, as shown in
The handle 42 comprises a pair of laterally extending bars, only one of which 43 is visible in the Figures, which extend out of side openings, only one of which 45 is visible in the Figures, in the respective side pieces 13 and 14 of the trigger housing 11. The action and movement of the handle 42 is described in further detail below.
As is clear from the Figures, the static jaw 36 and the sliding jaw 37 are located on the piercing axis B-B between the first slider 5 and the second slider 7. As shown in
The piercing device 1 further comprises a needle sleeve 47, which is provided on a third slider 48. The needle sleeve 47 comprises a first section 49 extending through the third 48 slider and a second section 50 protruding in the first direction A from the third slider 48. The third slider 48 comprises a fourth pair of lateral tabs 46, which are disposed in the first track 6, and it is reciprocally moveable along the piercing axis B-B between a retracted position, as shown in
In the first device configuration as shown in
Referring to
The length of the tail portion 55 is such that two important effects are achieved. Firstly, in the fourth device configuration an end portion 59 of the stud member 4 is enclosed in the needle sleeve 47 (this is achieved already in the position shown in
The second effect of the length of the tail portion 55 is that in the fourth device configuration the first slider 5 and the third slider 48 are spaced relative to one another as in the first device configuration, and in particular so the tip 53 of the piercing needle 3 is enclosed in the needle sleeve 47. This ensures that once the tip 53 of the piercing needle 3 is withdrawn back into the needle sleeve 47 it never protrudes therefrom again.
The piercing device 1 comprises a trigger 60, which is supported for linear reciprocal movement in a trigger enclosure 61 formed by the trigger housing 11. The trigger 60 comprises two moulded side pieces 62 and 63 which are joined together, in order to form a solid unit for manual manipulation, but also to provide internal spaces for other components, as described further below.
The trigger 60 is connected to the first slider 5 by a first linkage, generally designated 64, so movement of the trigger 60 is transmitted thereto. The trigger 60 is manually movable between a primed position as shown in
The first linkage 64 comprises a compound gear 65 and a first drive body 66, which are disposed in the trigger housing 11. The compound gear 65 comprises a driver gear 67 (visible in
Therefore, movement of the trigger 60 from the primed position to the depressed position moves the first drive body 66 from a start position as shown in
The first slider 5 comprises a first interface portion in the form of first socket 74 (visible in
A non-return ratchet 76 is disposed in the trigger enclosure 61 between the trigger 60 and the trigger housing 11, which prevents movement of the trigger 60 towards the primed position until the trigger 60 is in the depressed position. The non-return ratchet 76 comprises a sheath 77 mounted to the trigger housing 11, and a rod 78 mounted to the trigger 60 for relative reciprocal movement in the sheath 77 in unison with movement of the trigger 60 in the trigger enclosure 61.
Referring to
The rod 78 comprises a plurality of radially outwardly extending teeth 93, which are engaged in a non-return manner in use by the plurality of ratchet slots 87. As is clear in
Therefore, when the trigger 60 is manually depressed in use the rod 78 is driven into the sheath 77. The teeth 93 are firstly forced against the initial faces 90 of the first and second ratchet members 81 and 82, which drives them radially outwardly against the compression force of the clip springs 84 and 85. Once the teeth 93 have moved past the initial faces 90 the first and second ratchet members 81 and 82 are forced back towards the rod 78 by the clip spring 84 and 85. From that point the same action is performed as the teeth 93 move down the ratchet slots 87 in turn. As the second faces 89 of the ratchet slots 87 are orthogonal to the rod 78, it cannot move back the way it came because the teeth 93 are held in place.
Referring to
Each of the first and second guide slots 100 and 101 extends in an axial direction of the sheath 77 and comprises a first portion 102, second portion 103, third portion 104 and fourth portion 105. In each case the first portion 102 is axially linear and determines a first axial rotational position of the respective boss 98 or 99 when the trigger 60 is in the primed position, as illustrated in
In each case the second portion 103 extends in a helical direction of the sheath 77 and transmits linear movement of the rod 78 in the sheath 77 into a first axial rotation of the first and second bosses 98 and 99 from the first axial rotational position to a second axial rotational position in which the teeth 93 are axially displaced from the ratchet slots 87, as illustrated in
In each case the third portion 104 is axially linear and the first and second bosses 98 and 99 travel along it in the second axial rotational position. As such, the rod 78 is maintained in this position in which the teeth 93 are displaced from the ratchet slots 87 as the trigger 60 moves back from the depressed position towards the primed positon, as illustrated by
In each case the fourth portion 105 extends in a helical direction of the sheath 77 and transmits linear movement of the rod 78 in the sheath 77 into a second axial rotation of the first and second bosses 98 and 99 from the second axial rotational position back to the first axial rotational position, at which the teeth 93 are once again aligned with the ratchet slots 87, as illustrated in
It will be appreciated that the manner in which the first non-return ratchet 76 controls the movement of the trigger 60 is transmitted via the trigger 60, the first linkage 64 and the first slider 5 to the piercing needle 3. As such, the piercing needle 3 cannot be moved in the second direction until the rod 78 is free to return back out from the sheath 77. This means that the piercing action of the piercing needle 3 through the containment area 38 cannot be deliberately or inadvertently reversed. This prevents any accidental part piercing taking place.
A first coil spring 107 and a second coil spring 108 are disposed in the trigger enclosure 61 between the trigger 60 and the trigger housing 11. The first and second coil springs 107 and 108 bias the trigger 60 towards the primed position. This achieves three functions. Firstly, it provides a dampening resistance to the depression of the trigger 60, so its position is controlled and a smooth action is achieved. Secondly, it provides a force which urges the teeth 93 into engagement with the ratchet slots 87, and the second faces 89 in particular. Thirdly, it also provides a force which drives the trigger 60 back to the primed position. This drive is transmitted via the first linkage 64 to the first slider 5, and provides the motive force for the first slider 5 to travel from the piecing position back to the stand-by position, and for the various other actions associated with that movement to be performed, as explained above.
Referring back to
The handle 42 is connected to the sliding jaw 37 by a second linkage 111 so movement of the handle 42 is transmitted thereto. The second linkage 111 comprises a second drive body 112 mounted for reciprocal linear movement inside the trigger housing 11. The trigger housing 11 comprises a fourth pair of internal slots, one of which 113 is visible in
The handle 42 is connected to the second drive body 112 by means of laterally extending bars 43 being disposed in lateral recesses, only one of which 116 is visible in
The sliding jaw 37 comprises a third interface portion, in the form of downwardly depending tab 117, and the second drive body 112 comprises a fourth interface portion in the form of second socket 118. The downwardly depending tab 117 is removably located in the second socket 118 when the needle cartridge 12 is mounted to the trigger housing 11, as shown in
A second non-return ratchet 119 is disposed between the handle 42 and the trigger housing 11. This comprises a third rack 120 provided on an underside 121 of the second drive body 112 and a pawl member in the form of leaf spring 122 which is mounted in a leaf spring socket 123 provided on the trigger housing 11. A release mechanism is provided in the form of button 124, which is mounted in button socket 125 provided on the trigger housing 11. When the handle 42 is moved from the rearward position shown in
To release the sliding jaw 37 the button 124 is depressed as shown in
A third coil spring 127 is disposed in the trigger housing 11 between the second drive body 112 and a third coil spring socket 128. The third coil spring 127 biases the handle 42 towards its rearward position. This achieves three functions. Firstly, it provides a dampening resistance to the rotation of the handle 42, so its position is controlled and a smooth action is achieved. Secondly, it provides a force which urges the leaf spring 122 into engagement with the third rack 120. Thirdly, it also provides a force which drives the second drive body 112 back to its primary position when second non-return ratchet 119 is released as a result of the button 124 being depressed.
Referring back to
In use the piercing device 1 operates as follows. The needle cartridge 12 is provided in sealed sterile packaging, which is removed immediately prior to use. The needle cartridge 12 is then attached to the trigger housing 11 by means of the latches 129 and 130 and catches 131 and 132. When this happens the upstanding tab 75 on the first drive body 66 engages the first socket 74 on the first slider 5, and the downwardly depending tab 117 on the sliding jaw 37 engages the second socket 118 on the second drive body 112.
The piercing device 1 is then offered up to the subject's head, until their earlobe (not shown) is positioned as desired in the containment area 38. The user then manually pushes the handle 42 from its rearward position until the subject's ear lobe is secured between the static jaw 36 and the sliding jaw 37. Movement of the handle 42 is transmitted to the sliding jaw 37 by the second linkage 111, and namely by means of the second drive body 112 travelling in the first direction A down the fifth track 114, which moves the sliding jaw 36 above it in the same direction down the third track 19. The second non-return ratchet 119 ensures that the sliding jaw 37 remains in the clamping position achieved.
The user then manually depresses the trigger 60 from its primed position all the way to its depressed position. This should be done in a single swift action. Movement of the trigger 60 is transmitted to the first slider 5 by the first linkage 64, and the first non-return ratchet 76 ensures that once it has begun travelling in the first direction A on the first track 6 the first slider 5 can only continue on until it has reached the piercing position.
Once the first slider 5 starts to move in the first direction A the piercing needle 3 travels along the piercing axis B-B and through the needle sleeve 47 until the tip 53 protrudes therefrom. During its movement the first slider 5 collects the third slider 48, because the first engagement surface 51 comes into contract with the second engagement surface 52. The first slider 5 and third slider 48 then move collectively in the first direction A along the piercing axis B-B, which results in the piercing needle 3 and the needle sleeve 47 travelling along the piercing axis B-B though the needle aperture 41 of the sliding jaw 37, the subject's ear lobe, and then the needle aperture 40 of the static jaw 36.
As the first slider 5 approaches its piercing position the rounded ends 27 of the pair of resilient arms 25 are applied to the upstanding portion 29 of the second slider 7, and the arms 25 flex outwardly until the upstanding portion 29 is captured in the catches 28. The first slider 5 and second slider 7 are then connected together, as shown in
As the trigger 60 approaches its depressed position the first and second bosses 98 and 99 are rotated into the second axial rotational position in which the teeth 93 are axially displaced from the ratchet slots 87. As such, the user can then manually release the trigger 60, and it is driven back into its primed position by the extension force of the first and second coil springs 107 and 108. This movement of the trigger 60 is transmitted to the first slider 5 by the first linkage 64.
Once the first slider 5 starts to move along the piercing axis B-B in the second direction C on the first track 6 the piercing needle 3 travels back through the needle sleeve 47, so the tip 53 is enclosed thereby. This occurs because initially the movement of the first slider 5 is not transmitted to the third slider 48. In addition, as the first slider 5 is connected to the second slider 7, it travels along the piercing axis B-B in the second direction C on the second track 8, and the outer end 59 of the stud member 4 enters the needle sleeve 47.
These movements continue until the flange socket 56 of the first slider 5 collects the flange 57 on the tail portion 55 of the third slider 48. From that point the first slider 5, second slider 7 and third slider 48 move in unison in the second direction C, on the first track 6 and second track 8 accordingly. As such, the stud member 4 and the needle sleeve 47 move in unison back through the subject's ear lobe. Therefore, once the piercing needle 3 has passed through subject's ear lobe there is never a period during which no part of the piercing device 1 extends through the subject's ear lobe. In particular, the piercing formed in the subject's ear lobe is maintained by the needle sleeve 47 as the stud member 4 is moved into position. This results in a smooth and relatively painless insertion of the stud member 4.
The first slider 5, second slider 7 and third slider 48 move in unison in the second direction until the second slider 7 comes into contact with the static jaw 36 as shown in
The first slider 5 and the third slider 48 continue back on the first track 6 to their stand-by and retracted positions respectively, under the extension force of the first and second coil springs 107 and 108, which is transmitted to them via the trigger 60 and the first linkage 64
The user then presses the button 124 to release the sliding jaw 37, and it is moved back to its open position on the third track 19 by the extension force of the third coil spring 124 acting on the second drive body 112. The piercing device 1 is then withdrawn from the subject's ear lobe. The stud member 4 leaves the stud socket 30 through the top opening 31, and remains in situ in the subject's ear lobe. A clasp member of some kind (not shown) can then be affixed to the outer end 59 of the stud member 4, to keep it in place.
The single use needle cartridge 12 is then manually removed from the trigger housing 11, by depressing the release button 133, which disengages latch 129 from the catch 131. The needle cartridge 12 is then disposed of. As such the piercing device 1 functions like known ear piercing guns, with a single-use cartridge and the trigger housing 11 as a reusable tool.
The above described embodiment can be altered without departing from the scope of claim 1. For example, in one alternative embodiment a piercing device (not shown) comprises a unitary main body comprising all the above described moving parts.
In another alternative embodiment (not shown) a motor is provided to drive the first slider in the first direction as opposed to a manually manipulated trigger.
In another alternative embodiment (not shown) the trigger can be mounted on a pivot for rotation, as opposed to being mounted in an enclosure for linear movement.
Therefore, the present invention provides a piercing device which is as easy to use as known ear piercing guns, but involves the use of a retractable needle to create a superior piercing. Ease of use is further enhanced by the feature that the stud member is automatically inserted into the piercing in the subject's ear lobe at the same time as the piercing needle is withdrawn. This simplifies the ear piercing process by reducing the number of procedural steps, and also ensures that the stud is inserted cleanly into the piercing along the exact same axis as the piercing needle. In addition, the piercing device of the invention also provides a clamp which allows the subject's ear lobe to be held securely in position relative to the piercing needle and stud, which improves the accuracy and functionality of the device. Furthermore, the piercing device of the invention also incorporates a needle sleeve which encloses the piercing needle to reduce the risk of injury and prevent the tip of the needle being openly exposed to atmosphere. The needle sleeve follows the piercing needle into the piercing and extends therethrough, and remains in situ as the needle is withdrawn, thereby maintaining the piercing aperture.
Claims
1. A piercing device comprising a main body, a piercing needle and a stud member,
- in which said piercing needle protrudes in a first direction from a first slider, in which said first slider is mounted on a first track provided on said main body, and is reciprocally moveable along a piercing axis between a stand-by position and a piercing position,
- in which said stud member is removably mounted to second slider and protrudes therefrom in a second direction opposite to said first direction, in which said second slider is mounted on a second track and is moveable along said piercing axis in said second direction,
- in which said first slider comprises a first connector part and said second slider comprises a second connector part,
- in which in a first device configuration said first slider is in said stand-by position and is located relative to said second slider such that said first connector part is spaced from said second connector part,
- and in which in a second device configuration said first slider is in said piercing position and is located relative to said second slider such that said first connector part is engaged with said second connector part, and subsequent movement of said first slider in said second direction is transmitted to said second slider.
2. A piercing device as claimed in claim 1 further comprising a clamp,
- in which said clamp comprises a static jaw and a sliding jaw with a containment area therebetween, in which said sliding jaw is mounted on a third track for movement along said piercing axis, in which said static jaw and said sliding jaw each comprise a needle aperture on said piercing axis,
- in which said piercing device comprises a handle for moving said sliding jaw between an open position and a clamping position,
- in which said static jaw and said sliding jaw are located on said piercing axis between said first slider and said second slider,
- and in which said first slider is located relative to said static jaw such that said piercing needle extends through said needle apertures in said second device configuration.
3. A piercing device as claimed in claim 2 further comprising a needle sleeve, in which said needle sleeve is provided on a third slider and comprises a first section extending through said third slider and a second section protruding in said first direction from said third slider,
- in which said third slider is mounted on said first track and is reciprocally moveable along said piercing axis between a retracted position and an advanced position,
- in which said third slider is located on said piercing axis between said first slider and said sliding jaw,
- in which said first slider comprises a first engagement surface facing in said first direction, in which said third slider comprises a second engagement surface facing in said second direction,
- in which in said first device configuration said third slider is in said retracted position and is located relative to said first slider such that said first engagement surface is spaced from said second engagement surface, but at least a tip of said needle is enclosed in said needle sleeve,
- in which in a third device configuration said first slider is located in an intermediate position between said stand-by position and said piercing position and relative to said third slider such that said first engagement surface contacts said second engagement surface, and subsequent movement of said first slider in said first direction moves said third slider from said retracted position towards said advanced position,
- in which said needle sleeve is dimensioned such that in said third device configuration said tip of said needle protrudes from said needle sleeve,
- and in which said third slider is positioned relative to said static jaw such that said needle sleeve extends through said needle apertures in said second device configuration.
4. An ear piercing device as claimed in claim 3 in which said third slider comprises a tail portion extending in said second direction therefrom, in which a third connector part is provided at an outer end of said tail portion,
- in which said first slider comprises a fourth connector part,
- in which in a fourth device configuration said third slider is in said advanced position, said first connector part is engaged with said second connector part, and said first slider is located relative to said third slider such that said third connector part is engaged with said fourth connector part, and subsequent movement of said first slider in said second direction moves said third slider from said advanced position towards said retracted position,
- and in which in said fourth device configuration an end portion of said stud member is enclosed in said needle sleeve.
5. An ear piercing device as claimed in claim 4 in which said first slider comprises an opening through which said tail portion extends and a third engagement surface facing in said second direction,
- in which said third connector part comprises a flange at an outer end thereof with a greater diameter than said opening,
- and in which in said fourth device configuration said flange contacts said third engagement surface.
6. An ear piercing device as claimed in claim 1 further comprising a trigger, in which said trigger is connected to said first slider by a first linkage so movement of said trigger is transmitted thereto, in which said trigger is mounted for movement on a first displacement mechanism provided on said main body, and in which said trigger is movable between a primed position in which said first slider is in said stand-by position, and a depressed position in which said first slider is in said piercing position.
7. An ear piercing device as claimed in claim 6 in which said first displacement mechanism comprises an enclosure formed by said main body in which said trigger is reciprocally moveable along a linear trigger axis.
8. An ear piercing device as claimed in claim 6 in which said first linkage comprises a compound gear comprising a driver gear on a first rack provided on said trigger and a driven gear on a second rack associated with said first slider.
9. An ear piercing device as claimed in claim 6 in which a first non-return ratchet is disposed between said trigger and said main body which prevents movement of said trigger towards said primed position until said trigger is in said depressed position.
10. An ear piercing device as claimed in claim 9 in which said first non-return ratchet comprises a sheath provided on said main body and a rod associated with said trigger for relative reciprocal movement in said sheath in unison with movement of said trigger on said first displacement mechanism,
- in which said rod comprises a plurality of radially outwardly extending teeth and said sheath comprises a plurality of radially inwardly extending ratchet slots for engaging said plurality of teeth in a non-return manner,
- in which said plurality of teeth extend only partially around said rod circumferentially and said ratchet slots extend only partially around said sheath circumferentially,
- in which said rod comprises a radially outwardly extending boss and said sheath comprises a radially inwardly extending guide slot in which said boss is disposed,
- in which said guide slot extends in an axial direction of said sheath and comprises a first portion, second portion, third portion and fourth portion,
- in which said first portion is axially linear and determines a first axial rotational position of said boss when said trigger is in said primed position and when said trigger is travelling from said primed position to said depressed position, in which in said first axial rotational position of said boss said teeth are axially aligned with said ratchet slots,
- in which said second portion extends in a helical direction of said sheath and transmits linear movement of said rod in said sheath into a first axial rotation of said boss from said first axial rotational position to a second axial rotational position in which said teeth are axially displaced from said ratchet slots,
- in which said third portion is axially linear and determines said second axial rotational position of said boss when said trigger is in said depressed position and when said trigger is travelling from said depressed position to said primed position,
- and in which said fourth portion extends in a helical direction of said sheath and transmits linear movement of said rod in said sheath into a second axial rotation of said boss from said second axial rotational position back to said first axial rotational position.
11. An ear piercing device as claimed in claim 9 in which at least one first spring member is disposed between said trigger and said main body which biases said trigger towards said primed position.
12. An ear piercing device as claimed in claim 6 in which said main body comprises a trigger housing and a needle cartridge removably mounted thereon,
- in which said needle cartridge comprises said first slider, first track, piercing needle, second slider, second track and stud member,
- in which said first linkage comprises a first drive body disposed in said trigger housing, in which movement of said trigger from said primed position to said depressed position moves said first drive body from a start position to an end position,
- in which said first slider comprises a first interface portion, in which said first drive body comprises a second interface portion, and in which said first interface portion interfaces with said second interface portion when said needle cartridge is mounted to said trigger housing, such that movement of said first drive body is transmitted to said first slider.
13. An ear piercing device as claimed in claim 2 in which said handle is connected to said sliding jaw by a second linkage so movement of said handle is transmitted thereto,
- in which said handle is mounted on a second displacement mechanism provided on said main body and is movable between a rearward position in which said sliding jaw is in said open position and a forward position in which said sliding jaw is in said clamping position.
14. An ear piercing device as claimed in claim 13 in which a second non-return ratchet is disposed between said handle and said main body, in which said second non-return ratchet comprises a rack, a pawl member and a release mechanism, and in which said second non-return ratchet prevents movement of said handle towards said rearward position unless said release mechanism is activated.
15. An ear piercing device as claimed in claim 14 in which a second spring member is disposed between said handle and said main body which biases said handle towards said rearward position.
16. An ear piercing device as claimed in claim 13 in which said main body comprises a trigger housing and a needle cartridge removably mounted thereon,
- in which said needle cartridge comprises said first slider, first track, piercing needle, second slider, second track, stud member and clamp,
- in which said second linkage comprises a second drive body disposed in said trigger housing, in which movement of said handle from said rearward position to said forward position moves said second drive body from a primary position to a secondary position,
- and in which said sliding jaw comprises a third interface portion, in which said second drive body comprises a fourth interface portion, in which said third interface portion interfaces with said fourth interface portion when said needle cartridge is mounted to said trigger housing, such that movement of said second drive body is transmitted to said sliding jaw.
Type: Application
Filed: Jul 14, 2022
Publication Date: Jan 19, 2023
Applicant: EARGUN LIMITED (Billericay, Essex)
Inventors: Stefan Knox (Haslemere, Surrey), Sarah Cheetham (Haslemere, Surrey), Jack Sandys (Haslemere, Surrey), Kirstin Knox (Haslemere, Surrey), Bob Holt (Haslemere), Theo Davies (Haslemere), Chester Thompson (Haslemere)
Application Number: 17/864,823