CN105407755A

CN105407755A - Fastener chain combining device

Info

Publication number: CN105407755A
Application number: CN201380078458.2A
Authority: CN
Inventors: 井合健一郎
Original assignee: YKK Corp
Current assignee: YKK Corp
Priority date: 2013-10-24
Filing date: 2013-10-24
Publication date: 2016-03-16
Anticipated expiration: 2033-10-24
Also published as: TW201517835A; CN105407755B; WO2015059790A1; TWI587808B

Abstract

The present invention is configured so that one fastener stringer is aligned using a first hook and the other fastener stringer is aligned using a second hook to: engage the elements correctly with each other; improve the durability of a first sensor for detecting the elements of the one fastener stringer and a second sensor for detecting the elements of the other fastener stringer; and prevent damage to the elements by the respective sensors. The fastener chain combining device: configures a fastener chain (13) by moving one fastener stringer (10a) along a first guide path (20) and aligning same using a first hook (7a) and moving the other fastener stringer (10b) along a second guide path (21) and aligning same using a second hook (7b) to engage and combine the elements (12) of the one fastener stringer (10a) with the elements (12) of the other fastener stringer (10b) when passed through an element-engaging path (22); and is configured such that a first sensor (8a) for contactlessly detecting the elements (12) of the one fastener stringer (10a) is provided in the first guide path (20) and a second sensor (8b) for contactlessly detecting the elements (12) of the other fastener stringer (10b) is provided in the second guide path (21). Thus, the durability of the first sensor (8a) and the second sensor (8b) is improved and damage of the elements (12) by the first sensor (8a) and the second sensor (8b) is prevented.

Description

Zipper combined device

Technical field

The present invention relates to a kind of by the chain tooth of 2 zipper teeth chains (fastenerstringer) is mutually engaged and combines, and form the fastener chain combination unit of the fastener chain (fastenerchain) of slide fastener (slidefastener).

Background technology

As slide fastener, following slide fastener is known, that is, it comprises: fastener chain, is on chain band, install chain tooth with the spacing of regulation and form zipper teeth chain, and makes the chain tooth of 2 zipper teeth chains mutually be engaged and combine; And pull head, moving along described fastener chain and make the occlusion of chain tooth, separation, making the chain tooth of 2 zipper teeth chains mutually be engaged or be separated by being moved back and forth along fastener chain by pull head.

By the chain tooth of described 2 zipper teeth chains being engaged mutually and combining and the fastener chain combination unit forming fastener chain has been disclosed in patent document 1.

Described device comprises: occlusion seat, by being mutually engaged by the chain tooth of 2 zipper teeth chains and combining and form fastener chain; And the transport unit of fastener chain, be arranged at the downstream of described occlusion seat, made by conveyance fastener chain 2 zipper teeth chains move along occlusion seat.

In order to make the chain tooth of 2 zipper teeth chains be engaged, and the spacing of the chain tooth that needs the position of the chain tooth of 2 zipper teeth chains along occlusion seat movement to stagger, thus the sensor detected pawl and the chain tooth of location is set on occlusion seat.

And, the lower position and mobile zipper teeth chain that pawl are in contact with chain band, and position by chain tooth is foremost connected to pawl, then, pawl is moved and mobile zipper teeth chain to the top position be separated by with chain tooth, thus the chain tooth of 2 zipper teeth chains is engaged mutually.

On the other hand, when making the chain tooth of 2 zipper teeth chains mutually be engaged, utilize the position of sensor to the position of the chain tooth of a zipper teeth chain and the chain tooth of another zipper teeth chain to detect, thus whether perception 2 chain teeth are engaged exactly.

Prior art document

Patent document

Patent document 1: Taiwan publication M333090

Summary of the invention

[invention institute for solution problem]

The fastener chain combination unit disclosed in patent document 1 is following formation, namely, the sensor that its chain tooth detects is made test rod contact with the chain tooth of zipper teeth chain and arranged, described test rod utilizes and contacts with chain tooth or do not contact and detect chain tooth, thus when zipper teeth chain mobile chain tooth while contact while mobile with test rod, therefore test rod advanced wear etc. thus the durability of sensor existing problems.

Further, because chain tooth contacts with test rod, therefore sometimes damage is caused to chain tooth.

The present invention completes in view of described problem, and its object is to provide a kind of fastener chain combination unit, it can improve the durability to the sensor that the chain tooth of zipper teeth chain detects, and can not cause damage because of sensor to chain tooth.

[technological means of dealing with problems]

The present invention is a kind of fastener chain combination unit, it is characterized in that comprising:

Occlusion seat 2, comprises: the 1st guiding road 20, guides and move for a zipper teeth chain 10a chain tooth 12; 2nd guiding road 21, guides chain tooth 12 and moves for another zipper teeth chain 10b; And chain tooth occlusion road 22, guide the outlet side on road 20 with the described 1st and the 2nd outlet side of guiding road 21 is connected, make the chain tooth 12 of a zipper teeth chain 10a be engaged with the chain tooth 12 of another zipper teeth chain 10b and combine thus form fastener chain 13;

The transport unit 3 of fastener chain, be arranged at the downstream of the moving direction of the zipper teeth chain of described occlusion seat 2, guide road 21 by a zipper teeth chain 10a, another zipper teeth chain 10b along the 1st guiding road 20, the 2nd by transmission fastener chain 13, chain tooth occlusion road 22 is moved;

1st pawl 7a, is arranged at the downstream of the moving direction of the zipper teeth chain on described 1st guiding road 20; 1st sensor 8a, is arranged at the upstream side of the moving direction of the zipper teeth chain on described 1st guiding road 20;

2nd pawl 7b, is arranged at the downstream of the moving direction of the zipper teeth chain on described 2nd guiding road 21; And the 2nd sensor 8b, be arranged at the upstream side of the moving direction of the zipper teeth chain on described 2nd guiding road 21, and

Described 1st pawl 7a and the 2nd pawl 7b across and the lower position that abuts of chain tooth 12 and the top position that is separated by with chain tooth 12 and move in the vertical direction,

Described 1st sensor 8a and the 2nd sensor 8b and chain tooth 12 detect chain tooth 12 non-contactly.

Fastener chain combination unit of the present invention can be: the pawl fixing body 6 described 1st pawl 7a and the 2nd pawl 7b being installed on movement in the vertical direction,

Moved downwards by described pawl fixing body 6 and the 1st pawl 7a and the 2nd pawl 7b is in lower position, be moved upward by pawl fixing body 6 and the 1st pawl 7a and the 2nd pawl 7b is in top position.

Accordingly, by making pawl fixing body 6 move up and down, and the 1st pawl 7a and the 2nd pawl 7b moves simultaneously to top position and lower position, thus can not movement by mistake.

Fastener chain combination unit of the present invention can be: a described zipper teeth chain 10a and another zipper teeth chain 10b installs metal chain tooth 12 to form on the chain band 11 of nonmetal system,

Described 1st sensor 8a, the 2nd sensor 8b by with Metal Phase to and output signal.

Accordingly, the 1st sensor 8a can be utilized, the 2nd sensor 8b positively detects chain tooth 12.

Fastener chain combination unit of the present invention can be: make the distance L1 of occlusion starting point A to the 1st pawl 7a from described chain tooth occlusion road 22, than from the short installing space P of chain tooth 12 of the distance L2 of described occlusion starting point A to the 2nd pawl 7b.

Accordingly, than the mode of chain tooth 12 downstream foremost of another zipper teeth chain 10b, chain tooth can be engaged mutually with the chain tooth 12 foremost of a zipper teeth chain 10a.

Fastener chain combination unit of the present invention can be: make from the distance L3 of described occlusion starting point A to the 1st sensor 8a, than from the short installing space P of chain tooth 12 of the distance L4 of described occlusion starting point A to the 2nd sensor 8b.

Accordingly, when forming fastener chain 13 making chain tooth 12 mutually be engaged, according to chain tooth point detection time of the 1st sensor 8a and chain tooth point detection time of the 2nd sensor 8b, whether the chain tooth 12 of the chain tooth 12 and another zipper teeth chain 10b that can detect a zipper teeth chain 10a is engaged exactly.

[effect of invention]

According to the present invention, utilizing the 1st pawl 7a, one zipper teeth chain 10a is positioned, after utilizing the 2nd pawl 7b to position another zipper teeth chain 10b, the chain tooth 12 of one zipper teeth chain 10a is engaged with the chain tooth 12 of another zipper teeth chain 10b, chain tooth can be made thus to be mutually engaged exactly, the chain tooth 12 of the 1st sensor 8a to a zipper teeth chain 10a can be utilized to detect, and utilize the chain tooth 12 of the 2nd sensor 8b to another zipper teeth chain 10b to detect, chain tooth 12 can be sensed thus and whether be engaged exactly.

Further, the 1st sensor 8a, the 2nd sensor 8b and chain tooth 12 detect chain tooth 12 non-contactly, and thus the durability of the 1st sensor 8a, the 2nd sensor 8b improves, and can not cause damage to chain tooth 12.

Accompanying drawing explanation

Fig. 1 is the plane of fastener chain combination unit of the present invention.

Fig. 2 is the front view of fastener chain combination unit of the present invention.

Fig. 3 represents that zipper teeth chain, fastener chain are engaged the plane of the relation on road with guiding road, chain tooth.

Key diagram when Fig. 4 is the combinative movement starting fastener chain.

Fig. 5 is the key diagram of the state of being located by another zipper teeth chain.

Fig. 6 is the key diagram of the state of being located by the zipper teeth chain of both sides.

Fig. 7 is the key diagram of the state that the occlusion of chain tooth starts.

Fastener chain is connected and the key diagram of the state combined by Fig. 8.

Fig. 9 is the key diagram that the chain tooth of rearmost end have passed the state of the 1st sensor.

Detailed description of the invention

Fig. 1 and Fig. 2 is plane and the front view of fastener chain combination unit of the present invention, and fastener chain combination unit 1 comprises: occlusion seat 2, is mutually engaged by making the chain tooth of 2 zipper teeth chains and combines and form fastener chain; And the transport unit 3 of fastener chain, be arranged at the downstream of the moving direction of the zipper teeth chain of described occlusion seat 2, utilize described transport unit 3 to transmit fastener chain, 2 zipper teeth chains are made to move along occlusion seat 2 thus, utilize occlusion seat 2 to make the chain tooth of 2 zipper teeth chains mutually be engaged and combine, thus form fastener chain.

Occlusion seat 2 is installed on support 4.

Occlusion seat 2 utilizes as follows and has the guiding road of the channel-shaped of roughly Y-shaped shape, that is, the 1st guiding road 20 of channel-shaped, guides the chain tooth of a zipper teeth chain and alongst move for a described zipper teeth chain; 2nd guiding road 21 of channel-shaped, guides the chain tooth of another zipper teeth chain and alongst moves for another zipper teeth chain described; And the chain tooth occlusion road 22 of channel-shaped, guide the outlet side on road 20 with the 1st and the 2nd outlet side of guiding road 21 is connected, a zipper teeth chain is guided with the chain tooth of another zipper teeth chain and moves along its length for these zipper teeth chains and chain tooth is engaged mutually.

As shown in Figure 3, zipper teeth chain 10 on the chain band 11 of nonmetal system, installs metal chain tooth 12 with the installing space P of regulation form, and a zipper teeth chain 10a is identical with another zipper teeth chain 10a.

By making the chain tooth 12 of a zipper teeth chain 10a be engaged with the chain tooth 12 of another zipper teeth chain 10b and combine, and form fastener chain 13.

Common fastener chain is in the bite more outstanding than chain band 11 of chain tooth 12, in the downstream of described moving direction and upstream side, there is recess and protuberance, the recess of the recess of the chain tooth 12 of one zipper teeth chain 10a, protuberance and the chain tooth 12 of another zipper teeth chain 10b, protuberance is chimeric and chain tooth 12 is engaged mutually, but in figure 3, in order to easy understand, chain tooth 12 is set to oblong-shaped, the size of the moving direction of the zipper teeth chain 10 of chain tooth 12 is set to identical with the installing space P of chain tooth 12.

As shown in Figure 3, the width H1 on the 1st guiding road 20 and the 2nd guiding road 21, namely be the measure-alike of right angle orientation with the moving direction of zipper teeth chain 10, and than zipper teeth chain 10 chain tooth 12 with the size of the moving direction orthogonal direction of zipper teeth chain 10 and width H2 slightly large, along described guiding road 20, guiding 21 pairs, road chain tooth 12 guides, thus zipper teeth chain 10 can move swimmingly.

The width H3 on road 22 is roughly the same with the width H4 of a pair chain tooth 12 of the occlusion of fastener chain 13 for the occlusion of chain tooth, preferably identical, be engaged road 22 with the chain tooth 12 of another zipper teeth chain 10b along described chain tooth by the chain tooth 12 of a zipper teeth chain 10a to move, and chain tooth 12 is engaged successively mutually from occlusion starting point A.

The transport unit 3 of fastener chain comprises: the 1st feed roller 30 and the 2nd feed roller 31, the 1st feed roller 30 and the 2nd feed roller 31 is carried out to the rotating shaft 32 of rotary actuation, and the backer roll 33 of overlying contact with the 1st feed roller 30 and the 2nd feed roller 31.

1st feed roller 30 and rotating shaft 32 and the 2nd feed roller 31 and rotating shaft 32, link respectively via torque limiter such as friction plate, and described torque limiter is passed to each feed roller 30 to spin rotating shaft 32, the size of moment of torsion of feed roller 31 limits.

Thus, if the moment of torsion more than moment of torsion set by applying, then the 1st feed roller 30, the 2nd feed roller 31 non rotating, and only rotating shaft 32 rotates.

1st guiding roller 5a and the 2nd guides roller 5b and is installed on respectively on support 4 than being engaged the mode of seat 2 by the upstream side of the moving direction of zipper teeth chain to be positioned at.

One zipper teeth chain is transferred into the 1st guiding road 20 via the 1st guiding roller 5a, and another zipper teeth chain is transferred into the 2nd guiding road 21 via the 2nd guiding roller 5b.

Lean on the upstream side place of the moving direction of zipper teeth chain at the ratio occlusion seat 2 of support 4, in the vertical direction pawl fixing body 6 is movably installed.

Pawl fixing body 6 because deadweight wait and downward position move and be held in lower position, pawl fixing body 6 utilize the moving sources such as solenoid and upward position move.

Pawl fixing body 6 is installed with respectively the 1st pawl 7a and the 2nd pawl 7b.

1st pawl 7a is positioned at the close chain tooth occlusion position on road 22 on the 1st guiding road 20 and the top of the downstream side portion of moving direction.

2nd pawl 7b moves to the close chain tooth occlusion position on road 22 on the 2nd guiding road 21 and the top of the downstream side portion of moving direction.

Be be the upstream side of moving direction near contrary position with chain tooth occlusal crib 22 in the 1st guiding road 20 of occlusion seat 2, is installed with the 1st sensor 8a.The chain tooth 12 of described 1st sensor 8a to a zipper teeth chain 10a is utilized to detect.

2nd guiding road 21 of occlusion seat 2 be engaged road 22 with chain tooth be the upstream portion of moving direction near contrary position, the 2nd sensor 8b is installed.The chain tooth 12 of described 2nd sensor 8b to another zipper teeth chain 10b is utilized to detect.

1st sensor 8a, the 2nd sensor 8b be installed on be formed in the 1st guiding road 20, the 2nd guiding road 21 bottom surface sensor mounting hole 9 in, the 1st sensor 8a, the 2nd sensor 8b do not contact with the chain band 11 of zipper teeth chain 10, chain tooth 12 and can detect chain tooth 12.

Such as, the 1st sensor 8a, the 2nd sensor 8b be utilize with Metal Phase to the proximity switch outputed signal, non-contactly described chain tooth 12 is detected with the chain tooth 12 of zipper teeth chain 10.

Accordingly, the durability of the 1st sensor 8a, the 2nd sensor 8b improves, and can not cause damage because of the 1st sensor 8a, the 2nd sensor 8b to chain tooth 12.

As shown in Figure 1, the 1st pawl 7a and the distance L1 be engaged between the A of starting position are shorter than the 2nd pawl 7b and the distance L2 be engaged between the A of the starting position installing space P (L1+P=L2) of chain tooth.

1st sensor 8a and the distance L3 be engaged between the A of starting position, shorter than the 2nd sensor 8b and the distance L4 be engaged between the A of the starting position installing space P (L3+P=L4) of chain tooth.

Then, the combinative movement of fastener chain is described.In addition, the downstream of the moving direction of zipper teeth chain 10, upstream side are reduced to downstream, upstream side.

As shown in Figure 4, make the chain tooth 12 of a zipper teeth chain 10a move along the 1st guiding road 20 and the leading section 11a not being installed with chain tooth 12 of chain band 11 is contacted with the 1st feed roller 30, most downstream side i.e. chain tooth 12 is foremost positioned at and leans on upstream side place than the 1st pawl 7a.

Make the chain tooth 12 of another zipper teeth chain 10b move along the 2nd guiding road 21 and the leading section 11a not being installed with chain tooth 12 of chain band 11 is contacted with the 2nd feed roller 31, most downstream side i.e. chain tooth 12 is foremost positioned at and leans on upstream side place than the 2nd pawl 7b.

Then, make pawl fixing body 6 move and the 1st pawl 7a is contacted with the chain band 11 of a zipper teeth chain 10a downwards, the 2nd pawl 7b is contacted with the chain band 11 of another zipper teeth chain 10b.

Make backer roll 33 contact with the leading section 11a of each chain band 11 under described state, rotating shaft 32 is rotated and make the 1st feed roller 30, the 2nd feed roller 31 rotates, thus each chain band 11 is transmitted respectively to arrow a.

As shown in Figure 5, the chain tooth 12 foremost of another zipper teeth chain 10b abuts with the 2nd pawl 7b and another zipper teeth chain 10b is located.

Now, the chain tooth 12 foremost of a zipper teeth chain 10a and the 1st pawl 7a are separated by.

And then if transmitted respectively to arrow a direction by each chain band 11, then as shown in Figure 6, the chain tooth 12 foremost of a zipper teeth chain 10a abuts with the 1st pawl 7a and a zipper teeth chain 10a is located.

Now, chain tooth 12 foremost abuts with the 2nd pawl 7b and another zipper teeth chain 10b cannot move, thus the above moment of torsion of setting is applied to the 2nd feed roller 31,2nd feed roller 31 dallies relative to rotating shaft 32, thus can not apply excessive power to another zipper teeth chain 10b, the 2nd pawl 7b thus can not cause damage.

As shown in Figure 6, if a zipper teeth chain 10a and another zipper teeth chain 10b is located, then compared with the chain tooth 12 foremost of another zipper teeth chain 10b, the chain tooth 12 foremost of a zipper teeth chain 10a is positioned at the position being close to occlusion starting point A with the installing space P of chain tooth 12.

Make pawl fixing body 6 be moved upward under described state and make the 1st pawl 7a, till the 2nd pawl 7b moves to chain tooth 12 more top, transmit a zipper teeth chain 10a and another zipper teeth chain 10b thus, as shown in Figure 7, at occlusion starting point A, the chain tooth 12 of one zipper teeth chain 10a starts to be engaged with the chain tooth 12 of another zipper teeth chain 10b, and next coming in order are engaged and form fastener chain 13.

Then, as shown in Figure 8, the 1st feed roller 30, the 2nd feed roller 31 and backer roll 33 is utilized to be transmitted to arrow a direction by fastener chain 13.

As described, by being located by a zipper teeth chain 10a and another zipper teeth chain 10b, and the chain tooth 12 of a zipper teeth chain 10a can be made positively to be engaged with the chain tooth 12 of another zipper teeth chain 10b.

Further, can become with the chain tooth 12 foremost of a zipper teeth chain 10a and be engaged than the mode of chain tooth 12 downstream foremost of another zipper teeth chain 10b.

Make time point that described pawl fixing body 6 is moved upward as shown in Figure 4, one zipper teeth chain 10a, another zipper teeth chain 10b are being set, make rotating shaft 32 start rotate begin after after setting-up time, make the moving source action of pawl fixing body 6, thus pawl fixing body 6 is moved upward.

Or the 1st sensor 8a, the 2nd sensor 8b chain tooth 12 to setting quantity detects, and makes the moving source action of pawl fixing body 6 thus, thus makes pawl fixing body 6 be moved upward.

Such as, the chain tooth detection signal of the 1st sensor 8a, the 2nd sensor 8b is sent to controller 40, and moving source (not shown) the sending action instruction of self-controller 40 pairs of pawl fixing bodies 6.

As shown in Figure 8, by fastener chain 13 is transmitted to arrow a direction, chain tooth 12 is guided and make a zipper teeth chain 10a, another zipper teeth chain 10b along the 1st guiding road 20, the 2nd guiding road 21, chain tooth occlusion road 22 move, thus make chain tooth 12 mutually be engaged and combine, form fastener chain 13 thus, now, the time point that the time point detected by the chain tooth 12 of the 1st sensor 8a to a zipper teeth chain 10a and the chain tooth 12 of the 2nd sensor 8b to another zipper teeth chain 10b detect is compared.

When the 1st sensor 8a and the 2nd sensor 8b detects chain tooth 12 simultaneously, one zipper teeth chain 10a and another zipper teeth chain 10b maintains described positioning states and moves, and thus the chain tooth 12 of a zipper teeth chain 10a is engaged exactly with the chain tooth 12 of another zipper teeth chain 10b.

When the 1st sensor 8a detects chain tooth 12 at different time points from the 2nd sensor 8b, one zipper teeth chain 10a and another zipper teeth chain 10b departs from described positioning states, and thus the chain tooth 12 of a zipper teeth chain 10a is not engaged exactly with the chain tooth 12 of another zipper teeth chain 10b.

So, at the detection time point of the 1st sensor 8a and the 2nd sensor 8b to chain tooth 12, whether the chain tooth 12 of the chain tooth 12 and another zipper teeth chain 10b that can sense a zipper teeth chain 10a is engaged exactly.

When the zipper teeth chain 10a and another zipper teeth chain 10b that the length direction pars intermedia of chain band 11 are not installed chain tooth 12 are combined, as shown in Figure 9, 1st sensor 8a or the chain tooth 12 of the 2nd sensor 8b to rearmost end detect, the chain tooth 12 of described rearmost end is positioned at the side, most upstream in the pars intermedia 11b not installing chain tooth 12 of chain band 11 downstream that is boundary, after setting-up time, make pawl fixing body 6 move and the 1st pawl 7a is contacted with the pars intermedia 11b of the chain band 11 of a zipper teeth chain 10a downwards, and the 2nd pawl 7b is contacted with the pars intermedia 11b of the chain band 11 of another zipper teeth chain 10b.

Such as, the chain tooth 12 setting side, most upstream in controller 40 arrives the time of the 1st pawl 7a by the pars intermedia 11b of chain band 11 after the 1st sensor 8a, the signal of the chain tooth 12a of side, most upstream is detected after being input to controller 40 after the time of setting-up time+α, the moving source sending action instruction of controller 40 pairs of pawl fixing bodies 6 and pawl fixing body 6 is moved downwards at the 1st sensor 8a.

Accordingly, the zipper teeth chain 10a pars intermedia of the length direction of chain band 11 not being installed chain tooth 12 is connected with another zipper teeth chain 10b and combines, thus can form fastener chain.

In described explanation, the 1st guiding road 20, the 2nd guiding road 21, chain tooth occlusion road 22 are set to channel-shaped, but are not limited to channel-shaped.

Such as, multiple guide pins or roller, projection is spaced apart and arrange on the moving direction of zipper teeth chain, thus the 1st guiding road 20, the 2nd guiding road 21, chain tooth occlusion road 22 can be formed.

In described explanation, pawl fixing body 6 installs the 1st pawl 7a and the 2nd pawl 7b, and move up and down, but also the 1st pawl 7a can be installed on pawl fixing bodies different separately from the 2nd pawl 7b, make each pawl fixing body move up and down and the 1st pawl 7a and the 2nd pawl 7b can be made to move up and down respectively. simultaneously

[explanation of symbol]

2: occlusion seat

3: the transport unit of fastener chain

6: pawl fixing body

7a: the 1 pawl

7b: the 2 pawl

8a: the 1 sensor

8b: the 2 sensor

10a: one zipper teeth chain

10b: another zipper teeth chain

11: chain band

11a: leading section

11b: pars intermedia

12: chain tooth

20: the 1 guiding roads

21: the 2 guiding roads

22: chain tooth occlusion road

Claims

1. a fastener chain combination unit, is characterized in that comprising:

Occlusion seat (2), comprises: the 1st guiding road (20), guides and move for a zipper teeth chain (10a) chain tooth (12); 2nd guiding road (21), guides described chain tooth (12) and moves for another zipper teeth chain (10b); And chain tooth occlusion road (22), guide the outlet side on road (20) with the described 1st and the described 2nd outlet side of guiding road (21) is connected, make the described chain tooth (12) of a described zipper teeth chain (10a) be engaged with the described chain tooth (12) of described another zipper teeth chain (10b) and combine and form fastener chain (13);

The transport unit (3) of fastener chain, being arranged at the downstream of the moving direction of the zipper teeth chain of described occlusion seat (2), by transmitting described fastener chain (13), a described zipper teeth chain (10a), another zipper teeth chain described (10b) being moved along described 1st guiding road (20), described 2nd guiding road (21) and described chain tooth occlusion road (22);

1st pawl (7a), is arranged at the downstream of the moving direction of the zipper teeth chain of described 1st guiding road (20); 1st sensor (8a), is arranged at the upstream side of the moving direction of the zipper teeth chain of described 1st guiding road (20);

2nd pawl (7b), is arranged at the downstream of the moving direction of the zipper teeth chain of described 2nd guiding road (21); And the 2nd sensor (8b), be arranged at the upstream side of the moving direction of the zipper teeth chain of described 2nd guiding road (21), and

Described 1st pawl (7a) and described 2nd pawl (7b) across and the lower position that abuts of described chain tooth 12 and the top position that is separated by with described chain tooth (12) and move in the vertical direction,

Described 1st sensor (8a) and described 2nd sensor (8b) detect described chain tooth (12) non-contactly with described chain tooth (12).

2. fastener chain combination unit according to claim 1, is characterized in that

Described 1st pawl (7a) and described 2nd pawl (7b) are installed on the pawl fixing body (6) of movement in the vertical direction,

Moved downwards by described pawl fixing body (6) and described 1st pawl (7a) and described 2nd pawl (7b) are in lower position, be moved upward by pawl fixing body (6) and described 1st pawl (7a) and described 2nd pawl (7b) are in top position.

3. fastener chain combination unit according to claim 1 and 2, is characterized in that

A described zipper teeth chain (10a) and another zipper teeth chain described (10b) form the metal described chain tooth (12) of the upper installation of chain band (11) of nonmetal system,

Described 1st sensor (8a), described 2nd sensor (8b) by with Metal Phase to and output signal.

4. the fastener chain combination unit according to claim 1,2 or 3, it is characterized in that making the distance (L1) of occlusion starting point (A) to described 1st pawl (7a) from described chain tooth occlusion road (22), than from the short installing space (P) of described chain tooth (12) of the distance (L2) of described occlusion starting point (A) to described 2nd pawl (7b).

5. fastener chain combination unit according to any one of claim 1 to 4, it is characterized in that making from the distance (L3) of described occlusion starting point (A) to described 1st sensor (8a), than from the short installing space (P) of described chain tooth (12) of the distance (L4) of described occlusion starting point (A) to described 2nd sensor (8b).