JP5029174B2 - Non-contact data carrier device - Google Patents

Description

  The present invention relates to a non-contact data carrier device capable of non-contact communication.

  Conventionally, in the management of documents, printed circuit boards, glass masks, and metal masks, tags have been attached to plastic clips themselves, thereby managing documents, printed circuit boards, masks, etc. (for example, patents) Reference 1).

However, when the document becomes thicker, the printed circuit board is superposed and managed, and the thick glass mask or metal mask is managed, it is difficult to attach the clip with a plastic clip with a normal tag attached. There was a problem.
JP 2005-216275 A

  The subject of this invention is providing the non-contact-type data carrier apparatus which is easy to attach to a target object.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to the Example of this invention is attached and demonstrated, it is not limited to this.
The invention of claim 1 comprises a clip (10) having a through-hole (11), a non-contact data carrier (20) having at least an antenna and an IC chip electrically connected to the antenna, Attaching the holder (30) to the clip (10) using a resin holder (30) with a built-in or installed contact data carrier (20) and a hole (11) of the clip (10) A contactless data carrier device (100) comprising means (40).
The invention of claim 2 is a non-contact type data carrier device (100) used for a clip (10) having a through-hole (11), comprising at least an antenna and an IC chip electrically connected to the antenna. A non-contact type data carrier (20) having a resin holder (30) in which the non-contact type data carrier (20) is built or installed, and a hole (11) of the clip (10), A non-contact data carrier device (100) comprising attachment means (40) for attaching the holder (30) to the clip (10).
A third aspect of the present invention is the contactless data carrier device (100) according to the first or second aspect, wherein the holder (30) is a hole (11) corresponding to the hole (11) of the clip (10). 31), and the attachment means (40) includes a screw (41) inserted into the hole (11) of the clip (10) and the hole (31) of the holder (30), and the screw (41). A non-contact type data carrier device (100) characterized by comprising a nut (42) to be fitted.
According to a fourth aspect of the present invention, in the non-contact type data carrier device (100) according to the third aspect, the attachment means (40) is disposed between the screw (41) and the nut (42). A non-contact type data carrier device (100) characterized by comprising a washer (43).
According to a fifth aspect of the present invention, in the non-contact type data carrier device (100-2) according to the first or second aspect, the attachment means (40-2) can be folded via the folding portion (44). A plate-like member having a first portion (45) and a second portion (46), and the first portion (45) is a hole (11) corresponding to the hole (11) of the clip (10). 47), wherein the second part (46) comprises a protrusion (48) that engages a hole (47) in the first part (45). Device (100-2).
The invention of claim 6 is the contactless data carrier device (100-3) according to claim 5, wherein the holder (30) and the attachment means (40-2) are integrated. Is a non-contact type data carrier device (100-3).
A seventh aspect of the present invention is the contactless data carrier device (100-4) according to the first or second aspect, wherein the holder (30) corresponds to the hole (11) of the clip (10). The attachment means (40-4) includes a body (50) inserted into the hole (11) of the clip (10) and the hole (31) of the holder (30); Non-contact type data carrier device (100), characterized in that it is provided with a retaining part (51, 52) provided at both ends of the main body part (50) and used to prevent the main body part (50) from coming off. -4).
The invention according to claim 8 is the non-contact data carrier device (100-4) according to claim 7, wherein at least one of the retaining portions (52) provided at both ends of the main body (50) is caulked. Is a non-contact data carrier device (100-4).
According to a ninth aspect of the present invention, in the non-contact type data carrier device (100) according to any one of the first to eighth aspects, at least a part of the attachment means (40) is formed of a resin. It is a non-contact-type data carrier apparatus (100) characterized by these.
A tenth aspect of the present invention is the contactless data carrier device (100-5) according to the first or second aspect, wherein the attachment means (40-5) is a string-like member (53). The non-contact type data carrier device (100-5) characterized by the above.
The invention of claim 11 is the contactless data carrier device (100-6) according to claim 1 or claim 2, wherein the attachment means (40-6) is provided in the holder (30), A main body portion (50) inserted into the hole (11) of the clip (10), and a retaining portion (54, 55) provided on the main body portion (50) to prevent the main body portion (50) from coming off; It is a non-contact-type data carrier apparatus (100-6) characterized by comprising.
The invention of claim 12 is the non-contact type data carrier device (100-6) according to claim 11, wherein the retaining portion (54) is formed by caulking. Data carrier device (100-6).
The invention of claim 13 is the contactless data carrier device (100) according to any one of claims 1 to 12, wherein the clip (10) is a hole (11) of the clip (10). ) Having a hand pushing part (12), connected to the hand pushing part (12) and gripping the gripped member, and between the hand pushing part (12) and the gripping part (13). A non-contact type data carrier device comprising a metal eyeball clip (10) provided with a biasing member (14) that is provided and biases the gripping portion (13) so as to be in a gripping state. (100).
The invention of claim 14 is the non-contact type data carrier device (100) according to claim 13, wherein the holder (30) is attached to the hand pushing part (12). A data carrier device (100).
According to a fifteenth aspect of the present invention, in the non-contact data carrier device (100) according to the thirteenth or fourteenth aspect, the hand pushing portion (12) includes two opposing metal surface portions (12A, 12B). The holder (30) is a non-contact type data carrier device (100) characterized in that the holder (30) is attached to the opposing surface side of the two metal surface portions (12A, 12B).
According to a sixteenth aspect of the present invention, in the non-contact type data carrier device (100) according to any one of the thirteenth to fifteenth aspects, the non-contact type data carrier (20) includes the hand pushing portion (12). The non-contact type data carrier device (100) is characterized in that it is arranged apart from the above.
According to a seventeenth aspect of the present invention, in the non-contact type data carrier device (100) according to any one of the thirteenth to sixteenth aspects, the non-contact type data carrier (20) includes the hand pushing portion (12). It is a non-contact type data carrier device (100) characterized by being arranged in the range of 0 mm or more and 20 mm or less from the end of ().
The invention according to claim 18 is the non-contact type data carrier device (100) according to any one of claims 13 to 17, wherein the clip (10) includes the hand pushing portion (12) and the grip. A rotation shaft (15) for rotating the portion (13), and the non-contact data carrier (20) passes through the hole (11) of the clip (10) and is parallel to the rotation shaft (15). Then, it is arrange | positioned in the range of 0 mm or more and 28 mm or less from the edge part of the said hand pushing part (12), It is a non-contact-type data carrier apparatus (100) characterized by the above-mentioned.

The present invention has the following effects.
(1) A resin holder with a built-in or installed non-contact data carrier is attached using a hole in the clip, so that the document becomes thicker, the printed circuit board is stacked and managed, and a thick glass mask Even when managing metal masks, non-contact data carriers can be easily attached.
(2) Since the attachment means includes a screw inserted into the hole of the clip and the hole of the holder and a nut fitted to the screw, the attachment can be realized with a simple configuration.
(3) Since the attachment means includes a washer disposed between the screw and the nut, the stress applied to the holder can be reduced.

(4) Since the attachment means is a plate-like member having a first part and a second part that can be folded via the folding part, the attachment can be performed with a simple operation of folding.
(5) Since the holder and the attachment means are integrated, the holder and the attachment means are separated from each other, and one of them is not lost.
(6) Since the attachment means includes a main body portion and a retaining portion that prevents the main body portion from coming off, the holder is firmly fixed to the clip.

(7) Since at least one of the retaining portions is formed by caulking, it can be caulked and fixed during manufacture or can be caulked and fixed during use.
(8) Since at least a part of the attachment means is made of resin, it is possible to reduce the influence on communication as compared with a metal one.
(9) Since the attachment means is a string-like member, attachment can be performed more simply.

(10) Since the main body is provided on the holder, the number of parts can be reduced.
(11) Since the clip is a metal eyeball clip, the contactless data carrier can be attached using the hole of the eyeball clip.
(12) Since the holder is attached to the hand pushing portion, it does not interfere with the member to be grasped.

(13) Since the holder is attached to the opposite surface side of the two metal surface portions, when the hand is grasped, the pressing force to the non-contact type data carrier is not applied, and the holder is not attached to the clip. In comparison, operability, workability, and functionality are not changed, and the non-contact data carrier is not damaged.
(14) Since the non-contact type data carrier is disposed apart from the hand-held portion, the influence from the metal surface during communication between an external device such as an R / W (reader / writer) and the non-contact type data carrier is prevented. It can be reduced and a good communication distance can be secured. Further, by arranging the non-contact type data carrier so as not to overlap the metal surface of the hand clip portion of the eyeball clip, it is possible to reduce the influence from the metal surface during communication between the R / W and the non-contact type data carrier. it can.

(15) Since the non-contact type data carrier is arranged in the range of 0 mm or more and 20 mm or less from the end portion of the hand pushing portion, a desired communication distance can be ensured.
(16) The non-contact type data carrier is disposed within the range of 0 mm or more and 28 mm or less from the end of the hand pushing part in the direction parallel to the rotation axis through the hole of the clip, so that a desired communication distance is secured. can do.

  Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.

FIG. 1 is a diagram showing a first embodiment of a contactless data carrier device according to the present invention.
The non-contact type data carrier device 100 according to the first embodiment includes an eyeball clip 10, a non-contact type data carrier 20, a PP holder 30, an attachment means 40, and the like.

The eyeball clip 10 is connected to a hand pushing portion (eyeball portion) 12 having a through hole (eyeball) 11 and a hand pushing portion 12 to hold a gripped member such as a document, a printed board, a glass mask, a metal mask, or the like. A gripping portion 13 to be gripped, a torsion spring (biasing member) 14 that is provided between the hand pressing portion 12 and the gripping portion 13 and biases the gripping portion 13 to be in a gripping state, and the hand pressing portion 12 and the gripping portion. 13 is a metal clip including a rotation shaft 15 that rotates the rotation shaft 13.
The hand pressing portion 12 includes two metal surface portions 12A and 12B that face each other.

The non-contact type data carrier 20 is a small IC tag having at least an antenna and an IC chip electrically connected to the antenna and capable of non-contact type communication.
Further, the non-contact type data carrier 20 transmits / receives management information such as documents and printed boards to / from an external R / W for management.
Further, the non-contact type data carrier 20 is arranged on the opposite side of the gripping portion 13 in the radial direction of the hole 11 of the hand pressing portion 12 and spaced from the hand pressing portion 12, and the hand pressing portion 12 in the thickness direction of the hand pressing portion 12. Arranged to float from.

The PP holder 30 is a resin (polypropylene in this embodiment) member on which the non-contact type data carrier 20 is installed, and includes a hole 31 corresponding to the hole 11 of the eyeball clip 10.
Further, the PP holder 30 is attached to the opposing surface side of the two metal surface portions 12A and 12B of the hand pressing portion 12.

The attachment means 40 is for attaching the PP holder 30 to the eyeball clip 10 using the hole 11 of the eyeball clip 10. The screw 41 inserted into the hole 11 of the eyeball clip 10 and the hole 31 of the PP holder 30, and the screw 41, and a washer 43 disposed between the screw 41 and the nut 42.
The screw 41, the nut 42, and the washer 43 are made of resin.

  When this non-contact type data carrier device 100 is used, the hole 11 of the eyeball clip 10 and the hole 31 of the PP holder 30 are aligned, and the screw 41, the nut 42 and the washer 43 are used to attach the PP to the eyeball clip 10. The holder 30 is fixed.

FIG. 2 is a view for explaining the attachment position of the non-contact type data carrier 20.
FIG. 3 is a diagram showing the relationship between the distance from the eyeball clip 10 to the PP holder 30 and the communication distance, the horizontal axis shows the distance [mm] from the eyeball clip 10 to the PP holder 30, and the vertical axis The communication distance [mm] is shown. Here, the communication distance refers to a limit distance at which communication is possible.
[Purpose of the experiment]
When the non-contact type data carrier 20 is attached to the eyeball clip 10, it is necessary to determine the attachment position of the non-contact type data carrier 20 in consideration of the influence of the metal of the eyeball clip 10.
Here, the communication distance of the non-contact type data carrier 20 when the mounting position of the non-contact type data carrier 20 is changed is measured, and the optimum mounting position is obtained.

[Measurement target]
The non-contact type data carrier 20 had a communication distance of 22.34 mm when in free space (no metal around and not affected by metal).
The R / W 200 that communicates with the non-contact type data carrier 20 was a 100 mW product (antenna; TR3-A301) manufactured by Takaya Corporation.
And the following measurements were performed.

[Measurement content]
As shown in FIG. 2, the PP holder 30 is fixed on the eyeball clip 10, and the R / W 200 is disposed in the upper portion in the height direction with respect to the PP holder 30. In addition, one hand pushing part 12 removes and is experimenting.
First, the PP holder 30 was fixed to the hole 11 of the hand pressing part 12 so that the longitudinal direction of the PP holder 30 was along the X direction in the figure (the direction from the gripping part 13 toward the hand pressing part 12), and the communication distance was measured. .
Next, the communication distance was measured when the PP holder 30 was moved to 35 mm at intervals of 5 mm in the X direction in the drawing with the end of the hand pressing portion 12 set to 0 mm.
Further, communication when the end of the hand-pushing portion 12 is 0 mm and the PP holder 30 is moved to 35 mm at intervals of 5 mm in the Y direction (direction passing through the hole 11 of the eyeball clip 10 and parallel to the rotation shaft 15) in the figure. The distance was measured (refer to FIG. 4 for the origins in the X and Y directions).

[Measurement results and discussion]
When the PP holder 30 was moved in the direction opposite to the X direction (−X direction) and the PP holder 30 was on the hand pushing portion 12, the communication distance was 20.93 mm. This result shows that the characteristics are degraded compared to 22.34 mm in free space. This is presumably because the PP holder 30 is located inside the eyeball clip 10 and is strongly influenced by the metal.

When the PP holder 30 is moved in the X direction and the Y direction, the communication distance at each point is indicated by a solid line in FIG. 3 (see X and Y in the figure). The measurement result in the direction opposite to the Y direction (-Y direction) was the same as that in the Y direction.
In both the X direction and the Y direction, when the distance is less than about 5 mm from the end of the hand-pushing portion 12, it has been confirmed that the communication distance deteriorates more than in free space due to the influence of metal in both directions.
On the other hand, when the distance was 5 mm or more, the extension of the communication distance could be confirmed as compared to the free space. This is considered that the eyeball clip 10 played the role of a booster (relay station).
In addition, it was confirmed that the distance from the point exceeding about 20 mm converged to the communication distance in free space, with 15 mm being the longest communicable point (the limit point where communication is possible). This is probably because the non-contact type data carrier 20 has reached the outside of the booster effect range of the eyeball clip 10.

[Summary]
From the above results, it was found that the following range is appropriate for the attachment position of the non-contact type data carrier 20.
5mm ≦ X direction ≦ 20mm
5mm ≦ Y direction ≦ 28mm
In addition, although there is a slight decrease in communication distance,
0mm ≦ X direction ≦ 5mm
0mm ≦ Y direction ≦ 5mm
It was found that communication was possible even in the range.

Therefore, if the purpose is to extend the communication distance, the mounting position of the non-contact data carrier 20 is
5mm ≦ X direction ≦ 20mm
5mm ≦ Y direction ≦ 28mm
The non-contact type data carrier 20 may be arranged in the range (the range indicated by the arrow B in FIG. 3).
If the purpose is to perform communication, the mounting position of the non-contact data carrier 20 is
The non-contact type data carrier 20 may be arranged in the range of 0 mm ≦ X direction 0 mm ≦ Y direction (the range of the arrow A in FIG. 3).
Therefore, the mounting position of the non-contact type data carrier 20 is
0mm ≦ X direction ≦ 20mm
0mm ≦ Y direction ≦ 28mm
This range was found to be suitable.

FIG. 4 is a diagram for explaining the arrangement location of the non-contact type data carrier 20.
When the range obtained by the above-described experiment is illustrated, it becomes the range of the hatched portion C in FIG. 4, and if the non-contact type data carrier 20 is arranged in this range, even the metal eyeball clip 10 is satisfactory. Communication can be performed.

Thus, according to the present embodiment, the following effects are obtained.
(1) Existing metal eyeball clips are for the purpose of summarizing and organizing documents, etc., and it is not easy to centrally manage the detailed information of what is sandwiched between the eyeball clips. Absent. In the present embodiment, by attaching the non-contact type data carrier 20 to the metal eyeball clip 10, it is possible to easily manage information such as contents, features, and types of documents collected by the eyeball clip 10.
(2) From the metal surface during communication between the R / W 200 and the non-contact data carrier 20 by lifting the mounting position of the non-contact data carrier 20 from the metal surface of the hand pressing portion 12 of the metal eyeball clip 10 Can be reduced, and a good communication distance can be secured.

(3) Since the PP holder 30 on which the non-contact type data carrier 20 is installed is attached using the hole 11 of the eyeball clip 10, the document becomes thick, the printed circuit board is stacked and managed, a thick glass mask, Even when managing a metal mask, the non-contact data carrier 20 can be easily attached.
(4) Since the attachment means 40 includes a screw 41 inserted into the hole 11 of the eyeball clip 10 and the hole 31 of the PP holder 30 and a nut 42 fitted to the screw 41, the attachment means 40 is attached with a simple configuration. Can be realized.

(5) Since the attachment means 40 is provided with the washer 43 arrange | positioned between the screw 41 and the nut 42, the stress concerning PP holder 30 can be reduced.
(6) Since the screw 41, the nut 42, and the washer 43 are formed of resin, the influence on communication can be reduced as compared with a metal one.

(7) Since the eyeball clip 10 is a metal clip, the PP holder 30 can be easily attached using the eyeball of the eyeball clip 10.
(8) Since the PP holder 30 is attached to the hand pushing portion 12, it does not interfere with the member to be grasped.

(9) Since the PP holder 30 is attached to the opposite surface side of the two metal surface portions 12A and 12B, when the hand is grasped by hand, no pressure is applied to the non-contact type data carrier 20, and the eye clip 10 Compared with the state where the PP holder 30 is not attached, the operability, workability, and functionality are not changed, and the non-contact data carrier 20 is not damaged.
(10) Since the non-contact type data carrier 20 is arranged apart from the hand pressing part 12, the influence from the metal surface parts 12A and 12B at the time of communication between the R / W 200 and the non-contact type data carrier 20 can be reduced. A good communication distance can be ensured. Further, by arranging the non-contact type data carrier 20 so as not to overlap the metal surface of the hand pressing part 12 of the eyeball clip 10, the influence from the metal surface at the time of communication between the R / W 200 and the non-contact type data carrier 20 can be reduced. It can be reduced.

(11) Since the non-contact type data carrier 20 is arranged in the range of 0 mm or more and 20 mm or less from the end of the hand pressing part 12, an appropriate communication distance can be ensured.
(12) Since the non-contact type data carrier 20 is arranged in the range of 0 mm or more and 28 mm or less from the end of the hand-pushing portion 12 in the direction parallel to the rotation shaft 15 through the hole 11 of the eyeball clip 10, An appropriate communication distance can be secured.

FIG. 5 is a diagram showing a second embodiment of the non-contact type data carrier device according to the present invention.
In addition, the part which fulfill | performs the same function as Example 1 mentioned above attaches | subjects the same code | symbol or the code | symbol unified at the end, and abbreviate | omits duplication description and drawing suitably.
The non-contact type data carrier device 100-2 of the second embodiment is different from the first embodiment in the attaching means 40-2.

  The attaching means 40-2 is a resin plate member having a first portion 45 and a second portion 46 that can be folded via the folding portion 44. The second portion 46 includes a protrusion 48 having a flange portion that engages with the hole 47 of the first portion 45.

  Thus, according to the second embodiment, there is an effect that the PP holder 30 can be attached to the eyeball clip 10 by a simple operation of folding the first portion 45 and the second portion 46.

FIG. 6 is a diagram showing a third embodiment of the contactless data carrier apparatus according to the present invention.
The non-contact type data carrier device 100-3 of the third embodiment is a type close to that of the second embodiment, but the PP holder 30 and the attaching means 40-2 are integrated. The non-contact type data carrier 20 is affixed or embedded in a unit in which the PP holder 30 and the attaching means 40-2 are integrated.

  Thus, according to Example 3, since the PP holder 30 and the attachment means 40-2 are integrated, the PP holder 30 and the attachment means 40-2 are separated, and one of them is lost. There is no fear of end.

FIG. 7 is a diagram showing a fourth embodiment of the contactless data carrier apparatus according to the present invention.
In the non-contact type data carrier device 100-4 of the fourth embodiment, the attachment means 40-4 is inserted into the hole 11 of the eyeball clip 10 and the hole 31 of the PP holder 30, and both ends of the main body 50. Provided and provided with retaining portions 51 and 52 for retaining the main body portion 50.
Further, the retaining portion 51 on one side of the main body portion 50 is a fit that extends in a plane substantially perpendicular to the axial direction of the main body portion 50, and the retaining portion 52 on the other side is formed by caulking. The The caulking may be heat caulking or mechanical caulking.

As described above, according to the fourth embodiment, the attachment unit 40-4 includes the main body 50 and the retaining portions 51 and 52 that prevent the main body 50 from being removed. The holder 30 is firmly fixed.
Further, since the retaining portion 52 is formed by caulking, it can be caulked and fixed at the time of manufacture or can be caulked and fixed at the time of use.

FIG. 8 is a diagram showing a fifth embodiment of the non-contact data carrier device according to the present invention.
In the non-contact data carrier device 100-5 of the fifth embodiment, the attachment means 40-5 is a string (string-shaped member) 53, and the eyeball clip 10 and the PP holder 30 are fixed using the string 53. be able to.

  Thus, according to Example 5, since the attachment means 40-5 is the string 53, attachment can be performed more simply.

FIG. 9 is a diagram showing a sixth embodiment of the contactless data carrier apparatus according to the present invention.
In the non-contact type data carrier device 100-6 of the sixth embodiment, the attachment means 40-6 is provided in the PP holder 30.
The PP holder 30 includes a main body portion 50 that is inserted into the hole 11 of the eyeball clip 10, and retaining portions 54 and 55 that are provided in the main body portion 50 and prevent the main body portion 50 from coming off. The retaining portions 54 and 55 may be caulking retaining portions 54 as shown in FIG. 9A, and retaining portions such as protrusions that are flexibly deformed as shown in FIG. 9B. 55 may be sufficient.

  Thus, according to Example 6, since the attachment means 40-6 is provided in PP holder 30, the number of components can be reduced.

(Modification)
The present invention is not limited to the embodiments described above, and various modifications and changes are possible, and these are also within the scope of the present invention.
(1) Although the non-contact type data carrier device has been described as an example including the eyeball clip 10, the non-contact type data carrier device includes the non-contact type data carrier 20, the PP holder 30, and the attachment means 40. It may be configured and used for an existing eyeball clip 10.
(2) Although the screw 41, the nut 42, and the washer 43 have been described as an example made of resin, they may be made of metal.
(3) Although the holder has been described in the example of using polypropylene, it may be formed using other resin materials.

It is a figure which shows Example 1 of the non-contact-type data carrier apparatus by this invention. It is a figure explaining the attachment position of the non-contact-type data carrier. It is a figure which shows the relationship between the distance from the eyeball clip 10 to PP holder 30, and a communication distance. It is a figure explaining the arrangement | positioning location of the non-contact-type data carrier. It is a figure which shows Example 2 of the non-contact-type data carrier apparatus by this invention. It is a figure which shows Example 3 of the non-contact-type data carrier apparatus by this invention. It is a figure which shows Example 4 of the non-contact-type data carrier apparatus by this invention. It is a figure which shows Example 5 of the non-contact-type data carrier apparatus by this invention. It is a figure which shows Example 6 of the non-contact-type data carrier apparatus by this invention.

Explanation of symbols

  10: Eyeball clip, 11: Hole, 12: Hand pressing part, 12A, 12B: Metal surface part, 13: Holding part, 14: Torsion spring (biasing member), 20: Non-contact type data carrier, 30: PP holder, 31 : Hole, 40, 40-2 to 40-6: attachment means, 41: screw, 42: nut, 43: washer, 44: folding part, 45: first part, 46: second part, 47: hole , 48: protrusion, 50: main body, 51, 52: retaining part, 53: string (string-like member), 54, 55: retaining part, 100, 100-2 to 100-6: non-contact type Data carrier device, 200: R / W

Claims (18)

A clip having a hole therethrough;
A non-contact data carrier having at least an antenna and an IC chip electrically connected to the antenna;
A resin holder in which the non-contact data carrier is built-in or installed;
An attaching means for attaching the holder to the clip using a hole of the clip;
A non-contact data carrier device. A non-contact data carrier device for use with a clip having a through-hole,
A non-contact data carrier having at least an antenna and an IC chip electrically connected to the antenna;
A resin holder in which the non-contact data carrier is built-in or installed;
An attaching means for attaching the holder to the clip using a hole of the clip;
A non-contact data carrier device. The contactless data carrier device according to claim 1 or 2,
The holder includes a hole corresponding to the hole of the clip,
The attachment means includes
A screw inserted into the hole of the clip and the hole of the holder;
A nut fitted to the screw,
A non-contact type data carrier device. The contactless data carrier device according to claim 3,
The attachment means comprises a washer disposed between the screw and the nut;
A non-contact type data carrier device. The contactless data carrier device according to claim 1 or 2,
The attachment means is a plate-like member having a first part and a second part that can be folded via a folding part,
The first portion includes a hole corresponding to the hole of the clip;
The second portion includes a protrusion that engages a hole in the first portion;
A non-contact type data carrier device. The contactless data carrier device according to claim 5,
The holder and the attachment means are integrated;
A non-contact type data carrier device. The contactless data carrier device according to claim 1 or 2,
The holder includes a hole corresponding to the hole of the clip,
The attachment means includes
A body portion to be inserted into the hole of the clip and the hole of the holder;
It is provided at both ends of the main body part, and has a retaining part to prevent the main body part from being detached,
A non-contact type data carrier device. The contactless data carrier device according to claim 7,
At least one of the retaining portions provided at both ends of the main body is formed by caulking,
A non-contact type data carrier device. The contactless data carrier device according to any one of claims 1 to 8,
The attachment means is at least partially formed of resin;
A non-contact type data carrier device. The contactless data carrier device according to claim 1 or 2,
The attachment means is a string-like member;
A non-contact type data carrier device. The contactless data carrier device according to claim 1 or 2,
The attachment means includes
A main body provided in the holder and inserted into a hole of the clip;
Provided with the main body part and a retaining part to prevent the main body part from being detached;
A non-contact type data carrier device. The contactless data carrier device according to claim 11,
The retaining portion is formed by caulking,
A non-contact type data carrier device. The contactless data carrier device according to any one of claims 1 to 12,
The clip
A hand holding portion having a hole in the clip;
A gripping part connected to the hand pushing part for gripping a gripped member;
A metal eyeball clip provided between the hand pressing portion and the grip portion and provided with a biasing member for biasing the grip portion to be in a gripping state;
A non-contact type data carrier device. The contactless data carrier device according to claim 13,
The holder is attached to the hand pushing portion;
A non-contact type data carrier device. The contactless data carrier device according to claim 13 or 14,
The hand pushing portion is composed of two opposing metal surface portions,
The holder is attached to the opposite surface side of the two metal surface portions;
A non-contact type data carrier device. The contactless data carrier device according to any one of claims 13 to 15,
The non-contact data carrier is disposed away from the hand pushing portion;
A non-contact type data carrier device. The contactless data carrier device according to any one of claims 13 to 16,
The non-contact data carrier is disposed within a range of 0 mm or more and 20 mm or less from an end portion of the hand-pushing portion;
A non-contact type data carrier device. The contactless data carrier device according to any one of claims 13 to 17,
The clip includes a rotation shaft that rotates the hand pressing portion and the grip portion,
The non-contact type data carrier is disposed within a range of 0 mm or more and 28 mm or less from the end of the hand pushing part in a direction parallel to the rotation axis through the hole of the clip;
A non-contact type data carrier device.

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