CN110954401A

CN110954401A - Inspection device for slider fixing member

Info

Publication number: CN110954401A
Application number: CN201811130734.6A
Authority: CN
Inventors: 伊东一良; 松岛涉
Original assignee: YKK Corp
Current assignee: YKK Corp
Priority date: 2018-09-27
Filing date: 2018-09-27
Publication date: 2020-04-03
Anticipated expiration: 2038-09-27
Also published as: CN110954401B; TWI665978B; TW202011857A

Abstract

The invention provides a slider fixing member inspection device capable of detecting damage of an insertion piece of a slider fixing member. The slider fixing member inspection device includes: a pair of detection blocks (50) which are provided in a manner of being capable of sliding along the length direction of the slider fixing member (15) and are in contact with a pair of insertion pieces (15a) of the slider fixing member (15); a pair of biasing mechanisms (51) that bias the pair of detection blocks (50) toward the slider fixing member (15); first detection members (61) attached to the pair of detection blocks (50), respectively; a pair of first sensors (71) that detect the positions of the first detection members (61) of the pair of detection blocks (50), respectively; and a cam member (32) which is attached to the punch tab (13) and moves up and down together with the punch tab (13) to advance or retreat the pair of detection blocks (50) relative to the slider fixing member (15).

Description

Inspection device for slider fixing member

Technical Field

The present invention relates to a slider fixing member inspection device for a slider assembly device that assembles a slider of a slide fastener.

Background

As a conventional slider assembling device, the following devices are known: a main body of a slider is supplied to a receiving recess of a turn table (turn table), and a pull tab, a pawl, a leaf spring, and a cover are sequentially assembled to the main body while intermittently rotating the turn table (see, for example, patent document 1).

Documents of the prior art

Patent document

Patent document 1: japanese laid-open patent publication No. 61-247402

Disclosure of Invention

The slider assembling device described in patent document 1 includes a slider fixing member (gripper) for fixing a body of the slider in the accommodating recess, and the slider fixing member includes a pair of insertion pieces configured to be capable of moving forward and backward with respect to the body and to be inserted into the body. Further, the insertion piece of the slider fixing member may be damaged (broken), and in this case, there is a possibility that the slider assembling device may be damaged, the slider may be damaged, and the quality of the slider may be degraded due to poor fixing, and thus improvement thereof is desired.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a slider fixing member inspection device capable of detecting breakage of an insertion piece of a slider fixing member.

The above object of the present invention is achieved by the following structure.

(1) A slider assembly device for detecting breakage of at least one of a pair of insertion pieces of a slider fixing member to be inserted into a body, the slider assembly device comprising: a turntable which has a plurality of accommodating recesses for accommodating the sliders of the slide fasteners in a circumferential direction and intermittently rotates at predetermined angles; a plurality of slider fixing members for fixing the body accommodated in the plurality of accommodating recesses, respectively; a longitudinal axis which is provided at a rotation center of the turntable and is driven in an up-and-down direction; and a punch receiving plate attached to the vertical shaft, the slider fixing member inspection device being characterized by comprising: a pair of detection blocks provided slidably in a longitudinal direction of the slider fixing member and contacting the pair of insertion pieces of the slider fixing member; a pair of biasing mechanisms that bias the pair of detection blocks toward the slider fixing member; first detection members attached to the pair of detection blocks, respectively; a pair of first sensors that detect positions of the first detection members of the pair of detection blocks, respectively; and a cam member that is attached to the punch tab and moves up and down together with the punch tab to advance or retreat the pair of detection blocks with respect to the slider fixing member.

(2) The slider fixing member inspection device according to (1), wherein the first sensor detects the first detection member, thereby detecting whether or not the detection block advanced to inspect the damage of the insertion piece of the slider fixing member is advanced further than a predetermined advanced position.

(3) The slider fixing member inspection device according to (2), further comprising: second detection members attached to the pair of detection blocks, respectively; and a pair of second sensors that detect positions of the second detection members of the pair of detection blocks, respectively.

(4) The slider fixing member inspection device according to (3), wherein the second sensor detects the second detection member to detect whether the detection block advanced for inspecting the breakage of the insertion piece of the slider fixing member has advanced to a predetermined advanced position and whether the detection block has retreated from the predetermined advanced position.

(5) The slider fixing member inspection device according to (4), wherein a contact piece that contacts with the insertion piece of the slider fixing member is formed at a distal end of the detection block.

(6) The slider fixing member inspection device according to (5), wherein a cam insertion hole through which the cam member is inserted in the vertical direction is formed in the detection block, and a roller that contacts the cam member is provided in the cam insertion hole.

(7) The slider fixing member inspection device according to (6), wherein a receiving hole for receiving the urging mechanism is formed in the detection block.

(8) The slider fixing member inspection device according to any one of (3) to (7), wherein the first detecting member and the second detecting member are bolts.

Effects of the invention

According to the present invention, there is provided: a pair of detection blocks which are provided in a manner of being capable of sliding along the length direction of the slider fixing component and are contacted with the pair of insertion pieces of the slider fixing component; a pair of urging mechanisms for urging the pair of detection blocks toward the slider fixing member; first detection members attached to the pair of detection blocks, respectively; a pair of first sensors that detect positions of the first detection members of the pair of detection blocks, respectively; and a cam member that is attached to the punch tab and moves up and down together with the punch tab to move the pair of detection blocks forward or backward with respect to the slider fixing member, thereby detecting a damage of the insertion piece of the slider fixing member.

Drawings

Fig. 1 is a plan view illustrating a slider assembling device to which an embodiment of a slider fixing member inspection device of the present invention is applied.

Fig. 2 is a side view of the slider fixing member inspection device shown in fig. 1.

Fig. 3 is a front view of the slider fixing member inspection device shown in fig. 1.

Fig. 4 is a partially omitted plan view of the slider fixing member inspection device shown in fig. 1.

Fig. 5 is a sectional view taken along line a-a of fig. 3.

Fig. 6 is a sectional view taken along line B-B of fig. 2.

Fig. 7 is a cross-sectional view taken along line C-C of fig. 3.

Fig. 8 is a cross-sectional view corresponding to fig. 5 showing a state where the detection block advances and comes into contact with the slider fixing member.

Fig. 9 is a cross-sectional view corresponding to fig. 7 showing a state where the detection block advances and comes into contact with the slider fixing member.

Description of the reference numerals

10 puller assembling device

11 rotating platform

11a accommodating recess

12 longitudinal axis

13 punch fishplate bar (punch plate)

14 base station

15 slider fixing part

15a insert

27 slider fixing member inspection device

30 detection part

31 bracket

32 cam part

33 cam

33a cam surface

34 bench part

40 outer casing

41 housing body

41a chute

42 cover part

43 backboard

50 detection block

51 spiral spring (forcing mechanism)

52 brace

55 contact sheet

56 cam through-hole

57 roller

57a support shaft

58 spring receiving hole

61 first detection member

62 second detection member

70 sensor unit

71 first sensor

72 second sensor

73 sensor stay

SL slider

D main body

Detailed Description

Hereinafter, a slider assembling device according to an embodiment of the slider fixing member inspection device according to the present invention will be described in detail with reference to the drawings. In the following description, the upper side is the upper side with respect to the paper surface of fig. 2, the lower side is the lower side with respect to the paper surface of fig. 2, the front side is the right side with respect to the paper surface of fig. 2, the rear side is the left side with respect to the paper surface of fig. 2, the left side is the front side with respect to the paper surface of fig. 2, and the right side is the back side with respect to the paper surface of fig. 2. The front side of the detection unit is the left side with respect to the paper surface of fig. 2, and the rear side is the right side with respect to the paper surface of fig. 2. The left-right direction is also referred to as a width direction. In addition, the left-right direction is a direction along the rotation direction of the turntable. Further, the slider fixing member is moved forward to the right side in fig. 2 and moved backward to the left side. Further, the detection block is moved forward to the left side of fig. 2 and moved backward to the right side.

The slider assembling device 10 is, for example, a device for assembling a slider including a body, a pull tab, a locking member, a leaf spring, and a cover member, and as shown in fig. 1, includes a disk-shaped turn table 11 that intermittently rotates at predetermined angles in the arrow direction, and a body supply device 20, a pull tab supply device 21, a locking member supply device 22, a leaf spring supply device 23, a cover member supply device 24, a cover member pressing device 25, a product discharge device 26, and a slider fixed member inspection device 27 of the present invention are disposed around the turn table 11.

Further, a plurality of (12 in the present embodiment) accommodation recesses 11a for accommodating the body D (see fig. 5) of the slider SL are provided at equal intervals in the circumferential direction at the peripheral edge portion of the upper surface of the turn table 11. As shown in fig. 1 and 2, a vertical shaft 12 driven in the vertical direction is provided at the rotation center of the turntable 11, and a punch receiving plate 13 is attached to the upper end of the vertical shaft 12. Further, the turntable 11 intermittently rotates in synchronization with the vertical movement of the vertical shaft 12.

Further, slider fixing members 15 for fixing the body D of the slider SL accommodated in the accommodating recess 11a are provided at the positions of the plurality of accommodating recesses 11a on the upper surface of the turn table 11, respectively. The slider fixing member 15 is a plate-like member having a longitudinal direction, and is provided slidably in the radial direction of the turn table 11. A pair of insertion pieces 15a for insertion into the body D are formed at the tip of the slider fixing member 15. Then, the body D is fixed by advancing the slider fixing member 15 and inserting the pair of insertion pieces 15a into the body D, and the fixed body D is released by retreating the slider fixing member 15 and pulling out the pair of insertion pieces 15a from the body D. A substantially U-shaped groove 15b is formed between the pair of insertion pieces 15a of the slider fixing member 15. The main body D is provided with a guide post for disengaging the fastener elements by disengaging the pair of fastener elements. When the pair of insertion pieces 15a are inserted into the main body D of the accommodation recess 11a, the guide posts in the main body D enter the grooves 15b, so that the main body D is fixed to the accommodation recess 11 a.

The slider fixing member inspection device 27 is a device for detecting breakage of at least one of the pair of insertion pieces 15a of the slider fixing member 15, and as shown in fig. 2 to 4, includes: a detection unit 30 provided on the base 14 and detecting breakage of the pair of insertion pieces 15a of the tab fixing member 15; a bracket 31 attached to the punch receiving plate 13; and a cam member 32 attached to the bracket 31 and driving the detection portion 30. The cam member 32 is attached to the punch receiving plate 13, and is configured to move up and down together with the punch receiving plate 13.

The cam member 32 moves up and down together with the punch tab 13, thereby moving a pair of detection blocks 50, which will be described later, forward or backward with respect to the slider fixing member 15. As shown in fig. 5 and 8, the cam member 32 includes a pair of left and right cams 33, and the pair of left and right cams 33 move downward to advance the left and right detection blocks 50 described later toward the slider fixing member 15 and move upward to retreat the left and right detection blocks 50 described later from the slider fixing member 15. The cam 33 has a cam surface 33a extending obliquely forward and downward on its front surface.

As shown in fig. 3 to 7, the detection unit 30 includes: a housing 40 attached to an upper end of the table portion 34 on the base 14; a pair of left and right detection blocks 50 provided in the housing 40 so as to be slidable in the longitudinal direction of the slider fixing member 15 and contacting the pair of insertion pieces 15a of the slider fixing member 15; a pair of left and right coil springs (urging means) 51 for urging the left and right detection blocks 50 toward the slider fixing member 15; a first detecting member 61 and a second detecting member 62 attached to the left and right detecting blocks 50 via stays 52, respectively; and a pair of left and right sensor units 70 for detecting the positions of the first and

second detection members

61 and 62 of the left and right detection blocks 50, respectively.

As shown in fig. 4 to 6, the housing 40 includes: a housing main body 41 having a pair of left and right slide grooves 41a formed on an upper surface thereof for slidably accommodating the left and right detection blocks 50; a lid 42 attached to the upper surface of the case main body 41 and closing the openings of the left and right chutes 41 a; and a back plate 43 attached to the rear surface of the case main body 41 and receiving the biasing force of the left and right coil springs 51.

The detection block 50 is a rod-shaped member having a rectangular cross section. A contact piece 55 that contacts the insertion piece 15a of the slider fixing member 15 is formed at the tip of the detection block 50.

Further, a cam insertion hole 56 for vertically inserting the left and right cams 33 of the cam member 32 is formed in the longitudinal center portion of the detection block 50. In addition, rollers 57 that contact the left and right cams 33 of the cam member 32 are provided in the cam insertion holes 56. The roller 57 is rotatably attached to a support shaft 57a arranged along the left-right direction in the cam insertion hole 56. The rollers 57 are disposed at the center in the left-right direction and the center in the up-down direction of the detection block 50. Further, a spring accommodating hole 58 for accommodating the coil spring 51 is formed in the rear portion of the detection block 50. The cam insertion hole 56 and the spring receiving hole 58 are formed to penetrate in the vertical direction. The roller 57 and the coil spring 51 are arranged linearly along the longitudinal direction of the detection block 50. In addition, cam insertion holes 41b and 42b are formed in the case main body 41 and the cover 42 at positions corresponding to the cam insertion holes 56 of the detection block 50, respectively.

The first detecting member 61 and the second detecting member 62 are bolts, and are disposed in parallel in the vertical direction at the distal end of the stay 52 as shown in fig. 7. In the present embodiment, the first detecting member 61 disposed on the upper side detects whether the insertion piece 15a of the slider fixing member 15 is broken, and the second detecting member 62 disposed on the lower side detects whether the detection block 50 has advanced to the predetermined advanced position and whether the detection block 50 has retreated from the predetermined advanced position. Since the first and second detecting

members

61 and 62 are bolts, their positions in the front-rear direction can be easily adjusted by rotating them. The first and second detecting

members

61 and 62 are not limited to bolts, and may be pins or rods having a circular cross-sectional shape or a non-circular cross-sectional shape such as a square or polygon shape, and are not limited as long as they can block light.

As shown in fig. 8, the predetermined advance position of the detection block 50 is a position at which the contact piece 55 of the advancing detection block 50 comes into contact with the insertion piece 15a of the slider fixing member 15 and the detection block 50 is stopped. The detection block 50 shown in fig. 5 is in a state before moving forward and in a state after moving backward from a predetermined forward position. Further, when the rotation of the turntable 11 that intermittently rotates is stopped, the slider fixing member 15 does not move in the front-rear direction at the position of the slider fixing member inspection device 27.

As shown in fig. 7, the sensor unit 70 includes: a first sensor 71 that detects the position of the first detection member 61; a second sensor 72 that detects the position of the second detection member 62; and a sensor stay 73 that attaches the first and

second sensors

71 and 72 to the side surface of the case main body 41. The first and

second sensors

71 and 72 are photoelectric sensors each including a light projecting element and a light receiving element. The first and

second sensors

71 and 72 are disposed at the same position in the longitudinal direction of the detection block 50. Detection signals of the first and

second sensors

71 and 72 are transmitted to a control device, not shown.

The first sensor 71 detects the tip end of the first detecting member 61, thereby detecting whether or not the detecting piece 50 advanced to check the breakage of the insertion piece 15a of the slider fixing member 15 is advanced further than a predetermined advanced position. Specifically, when the distal end of the first detecting member 61 reaches the detecting point 71P of the first sensor 71 (when the detecting block 50 moves further than the predetermined moving position and the distal end of the first detecting member 61 blocks the sensor light), the control device determines that the insertion piece 15a of the slider fixing member 15 is damaged. As shown in fig. 9, when the distal end of the first detecting member 61 does not reach the detecting point 71P of the first sensor 71 (when the detecting block 50 stops at the predetermined advancing position and the distal end of the first detecting member 61 does not interrupt the sensor light), the control device determines that the insertion piece 15a of the slider fixing member 15 is not broken. When it is determined that the insertion piece 15a of the slider fixing member 15 is damaged, the control device stops the assembly device, and notifies the worker of the information to request replacement of the slider fixing member 15.

The second sensor 72 detects the tip end of the second detecting member 62, and detects whether the detecting block 50 advanced to check the breakage of the insertion piece 15a of the slider fixing member 15 has advanced to a predetermined advanced position and whether the detecting block 50 has retreated from the predetermined advanced position. Specifically, as shown in fig. 9, when the distal end of the second detecting member 62 reaches the detecting point 72P of the second sensor 72 (the distal end of the second detecting member 62 blocks the sensor light), the control device determines that the detection block 50 has advanced to the predetermined advanced position, and then, when the detection block 50 retreats and the distal end of the second detecting member 62 is pulled out from the detecting point 72P of the second sensor 72 (the distal end of the second detecting member 62 does not block the sensor light any more), the control device determines that the detection block 50 has retreated from the predetermined advanced position. When it is determined that the detection block 50 has not advanced to the predetermined advanced position or when it is determined that the detection block 50 has not retreated from the predetermined advanced position, the control device stops the assembly device and notifies the worker of the information to request maintenance of the detection unit 30 because an abnormality has occurred in the movement of the detection block 50.

As described above, according to the slider fixing member inspection device 27 of the present embodiment, since the detection portion 30 can detect the breakage of at least one of the pair of insertion pieces 15a of the slider fixing member 15, the breakage of the assembly device, the damage of the slider, and the deterioration of the quality of the slider due to the fixing failure can be prevented.

Further, according to the slider fixing member inspection device 27 of the present embodiment, since the second sensor 72 detects whether or not the detection block 50 has advanced to the predetermined advanced position and whether or not the detection block 50 has retreated from the predetermined advanced position, it is possible to inspect an abnormality related to the movement of the detection block 50. Further, although the slider fixing member is in the non-inspection state because the detection of breakage of the slider fixing member cannot be performed when the detection block 50 is not advanced to the predetermined advanced position, in the present invention, the detection of whether or not the detection block 50 has advanced to the predetermined advanced position is performed by the second sensor 72, and therefore, the non-inspection state can be avoided. Further, although the contact piece 55 of the detection block 50 may be damaged by the rotation of the turntable 11 when the detection block 50 is not retracted from the predetermined advanced position, in the present invention, the second sensor 72 detects whether or not the detection block 50 is retracted from the predetermined advanced position, so that the contact piece 55 can be prevented from being damaged, and the slider assembly device can be prevented from being damaged due to the damage of the contact piece 55.

Further, according to the slider fixing member inspection device 27 of the present embodiment, since the cam insertion holes 56 for vertically inserting the left and right cams 33 of the cam member 32 are formed in the detection block 50, and the rollers 57 which come into contact with the left and right cams 33 of the cam member 32 are provided in the cam insertion holes 56, the driving force of the cam member 32 can be smoothly transmitted to the detection block 50. This can improve the straightness of the sliding movement of the detection block 50, and can improve the detection accuracy of the breakage of the slider fixing member.

Further, according to the slider fixing member inspection device 27 of the present embodiment, since the spring accommodating hole 58 for accommodating the coil spring 51 is formed in the detection block 50, the urging force of the coil spring 51 can be smoothly transmitted to the detection block 50. This can improve the straightness of the sliding movement of the detection block 50, and can improve the detection accuracy of the breakage of the slider fixing member.

In the slider fixing member inspection device 27 according to the present embodiment, the first detecting member 61 and the second detecting member 62 are bolts, and therefore, the positions thereof in the front-rear direction can be easily adjusted by rotating the bolts. Therefore, the detection positions of the first and

second detection members

61 and 62 by the first and

second sensors

71 and 72 can be easily adjusted.

The present invention is not limited to the embodiments described above, and can be modified as appropriate without departing from the scope of the present invention.

For example, in the present embodiment, the breakage of the slider fixing member is detected by the first sensor, and the advance and retreat of the detection block is detected by the second sensor, but the present invention is not limited to this, and the positions of the first detection member and the second detection member in the front-rear direction may be changed so that the roles of the first sensor and the second sensor are reversed.

Claims

1. A slider fixing member inspection device (27) for detecting breakage of at least one of a pair of insertion pieces (15a) of a slider fixing member (15) to be inserted into a body (D) in a slider assembly device (10), the slider assembly device (10) comprising: a turntable (11) which has a plurality of accommodation recesses (11a) for accommodating the main body (D) of the Slider (SL) of the slide fastener in the circumferential direction and which intermittently rotates at predetermined angles; a plurality of slider fixing members (15) for fixing the body (D) accommodated in the plurality of accommodating recesses (11a), respectively; a longitudinal shaft (12) which is provided at the rotation center of the turntable (11) and is driven in the up-down direction; and a punch receiving plate (13) attached to the vertical shaft (12), wherein the slider fixing member inspection device (27) is characterized by comprising:

a pair of detection blocks (50) which are provided so as to be slidable in the longitudinal direction of the slider fixing member (15) and which are in contact with the pair of insertion pieces (15a) of the slider fixing member (15);

a pair of biasing mechanisms (51) that bias the pair of detection blocks (50) toward the slider fixing member (15);

first detection members (61) attached to the pair of detection blocks (50), respectively;

a pair of first sensors (71) that detect the positions of the first detection members (61) of the pair of detection blocks (50), respectively; and

and a cam member (32) that is attached to the punch tab (13) and moves up and down together with the punch tab (13) to advance or retreat the pair of detection blocks (50) relative to the slider fixing member (15).

2. The slider fixing member inspection device according to claim 1,

the first sensor (71) detects whether or not the detection block (50) advanced to check the slider fixing member (15) for breakage of the insertion piece (15a) is advanced further than a predetermined advanced position by detecting the first detection member (61).

3. The slider fixing member inspection device according to claim 2, further comprising:

second detection members (62) attached to the pair of detection blocks (50), respectively; and

and a pair of second sensors (72) that detect the positions of the second detection members (62) of the pair of detection blocks (50), respectively.

4. The slider fixing member inspection device according to claim 3,

the second sensor (72) detects the second detection member (62) to detect whether the detection block (50) advanced to check for breakage of the insertion piece (15a) of the slider fixing member (15) has advanced to a predetermined advanced position and whether the detection block (50) has retreated from the predetermined advanced position.

5. The slider fixing member inspection device according to claim 4,

a contact piece (55) that comes into contact with the insertion piece (15a) of the slider fixing member (15) is formed at the tip of the detection block (50).

6. The slider fixing member inspection device according to claim 5,

a cam insertion hole (56) for vertically inserting the cam member (32) is formed in the detection block (50),

a roller (57) that contacts the cam member (32) is provided in the cam insertion hole (56).

7. The slider fixing member inspection device according to claim 6,

an accommodation hole (58) for accommodating the biasing mechanism (51) is formed in the detection block (50).

8. The slider fixing member inspection device according to any one of claims 3 to 7,

the first detection member (61) and the second detection member (62) are bolts.