CN105491907B - The manufacturing method of continuous slide fastener - Google Patents

Abstract

The present invention provides a kind of manufacturing method of continuous slide fastener, the manufacturing method of the isolated continuous slide fastener without that can prevent connected portion in the connected portion of chain belt installation zipper tooth.The manufacturing method of continuous slide fastener of the invention includes: the connected step of band, and the rear end of a pair of of chain belt (T) of front is connected with the front end of subsequent a pair of of chain belt (T) and is formed and is connected portion (P)；It marks step, assigns label (M) to a pair of of chain belt (T) of front respectively；The position walk that is connected is rapid, is displaced the position of each connected portion (P) of connected a pair of of chain belt (T) to the conveyance direction of chain belt (T)；Detecting step is marked, label (M) is detected；Chain tooth installation steps install zipper tooth (E) in connected a pair of of chain belt (T)；And chain tooth is engaged step, is engaged the zipper tooth (E) of connected a pair of of chain belt (T).

Description

The manufacturing method of continuous slide fastener

Technical field

The present invention relates to the manufacturing methods of a kind of continuous slide fastener more particularly to a kind of with the continuous of metal zipper tooth The manufacturing method of zipper.

Background technique

In the past, in the feelings that the rear end of a pair of of chain belt of front is connected with the front end of subsequent a pair of of chain belt by discoloration etc. Under condition, generally with the following method, that is, using golden adhesive tape (Sellotape) (registered trademark) by its end each other Bonding, and fixed using stapler nail.

Summary of the invention

Subject to be solved by the invention

However, there is the connected portion because of chain belt according to the method using adhesive tape (registered trademark) and stapler nail Tensile strength is insufficient and a possibility that the portion that is connected in the next step separates.Moreover, the connected portion of chain belt in order to prevent Separation, and consider that zipper tooth is also installed in the portion of being connected, and a pair of of chain belt is combined, but in the case, because of the thickness in the portion that is connected Degree is greater than chain belt, and can not suitably install zipper tooth in the portion of being connected, so that the failure or chain of chain tooth mounting device can occur The malocclusion of tooth engaging device.

The present invention is completed in view of the situation, and its purpose is to provide a kind of without installing zipper in the connected portion of chain belt Tooth can prevent the manufacturing method of the isolated continuous slide fastener in connected portion.

Technical means to solve problem

The purpose of the invention is reached by following constitute.

(1) a kind of manufacturing method of continuous slide fastener, the continuous slide fastener includes a pair of of chain belt and a pair of of chain tooth row, described A pair of of chain tooth row is respectively set along the opposite band side edge part of a pair of of chain belt, and has multiple zipper tooths, the continuous drawing The manufacturing method of chain is characterized in that including: the connected step of band, by the rear end of a pair of of chain belt of front and subsequent a pair of of chain belt Front end be connected and formed be connected portion；It marks step, assigns label to a pair of of chain belt of front respectively；Be connected position walk Suddenly, connected a pair of of chain belt is transported, is displaced the position in connected portion to the conveyance direction of chain belt；Detecting step is marked, to label It is detected；Chain tooth installation steps install zipper tooth on connected a pair of of chain band；And chain tooth is engaged step, makes to be installed on The zipper tooth of connected a pair of of chain belt is engaged.

(2) manufacturing method of the continuous slide fastener according to (1), it is characterised in that: in chain tooth installation steps, what is be connected The part in addition to connected portion of a pair of of chain belt is installed by zipper tooth.

(3) manufacturing method of the continuous slide fastener according to (1), it is characterised in that: in label detecting step, utilize chain tooth The detection sensor of mounting device detects the label of a pair of of chain belt of front, in chain tooth installation steps, according to label Detection information and from preset distance of the label until connected portion, in the portion in addition to connected portion of connected a pair of of chain belt Divide installation zipper tooth.

(4) manufacturing method of the continuous slide fastener according to any one of (1) to (3), it is characterised in that: be connected portion's displacement In step, connected a pair of of chain belt is guided using the 1st displacement roller configured up and down with difference of height and the 2nd displacement roller, thus Each connected portion of connected a pair of of chain belt and the position of each label deviate to the conveyance direction of chain belt and are displaced.

(5) manufacturing method of the continuous slide fastener according to any one of (1) to (4), it is characterised in that: the connected step of band In, using including wave welding head of ultrasonic wave (ultrasonic horn) and the fusion splicing devices of anvil block come after a pair of of chain belt to front End and the front end of subsequent a pair of of chain belt carry out welding.

(6) manufacturing method of the continuous slide fastener according to (5), it is characterised in that: band be connected step in, firstly, will before A pair of of chain belt in face is downstream transported along band carrying line, then, if a pair of of chain belt of front is transported with specific length, Then the lower section of the blade by the front end of subsequent a pair of of chain belt to precut device transports, and then, passes through the sword of precut device Portion cuts off the front end of subsequent a pair of of chain belt, then, if the conveying of a pair of of chain belt of front terminates, utilizes main cutter device Blade the rear end of a pair of of chain belt of front is cut off, then, the rear end of a pair of of chain belt of front is transported in width direction On be overlapped in subsequent a pair of of chain belt front end position until, then, subsequent a pair of of chain belt is transported on band carrying line, The front end of subsequent a pair of chain belt is overlapped on the rear end of a pair of of chain belt of front, then, utilizes the supersonic welding of fusion splicing devices The rear end of a pair of of chain belt of front is connected by head with the front end of subsequent a pair of of chain belt, and passes through the blade of V-type cutter device The label of V shape is assigned to a pair of of chain belt of front.

(7) manufacturing method of the continuous slide fastener according to any one of (1) to (6), zipper tooth are metal zipper Tooth.

The effect of invention

The manufacturing method of continuous slide fastener according to the present invention, comprising: the connected step of band, by the rear end of a pair of of chain belt of front It is connected with the front end of subsequent a pair of of chain belt and forms the portion of being connected；It marks step, assigns mark to a pair of of chain belt of front respectively Note；The position walk that is connected is rapid, transports connected a pair of of chain belt, is displaced the position in connected portion to the conveyance direction of chain belt；Label Detecting step detects label；Chain tooth installation steps install zipper tooth on connected a pair of of chain band；And chain tooth is stung Step is closed, the zipper tooth occlusion for being installed on connected a pair of of chain belt is made, thus can get following continuous slide fastener, that is, is connected The position of each connecting place of a pair of of chain belt is deviated to the conveyance direction of chain belt, and in connected a pair of of chain belt in addition to connected portion Part is installed with zipper tooth.The separation in connected portion can be prevented without installing zipper tooth in the connected portion of chain belt as a result,.

Detailed description of the invention

Fig. 1 is the continuous slide fastener manufacture dress of an implementation form of the manufacturing method that explanation uses continuous slide fastener of the invention The outline side view set.

Fig. 2 is the exterior view for the continuous slide fastener that explanation is manufactured using the manufacturing method of continuous slide fastener.

Fig. 3 is the outline side view for illustrating the automatic connected devices of band shown in FIG. 1.

Fig. 4 is the approximate vertical view for illustrating the automatic connected devices of band shown in FIG. 1.

Fig. 5 is to illustrate a pair of of the chain belt of conveying first and the 2nd a pair of of chain belt is transported to the state of precut device Approximate vertical view.

Fig. 6 is to illustrate that the front end of conveying the 1st a pair of of chain belt and the 2nd a pair of of chain belt is pre-cut what device was cut off The approximate vertical view of state.

Fig. 7 is to illustrate that the conveying of the 1st a pair of of chain belt stops and state that the 1st a pair of of chain belt is cut off by main cutter device Approximate vertical view.

Fig. 8 is the diagrammatic top that the rear end for the 1st a pair of of chain belt that explanation has been turned off is transported to the state of fusion splicing devices Figure.

Fig. 9 is to illustrate that the front end of the 2nd a pair of of chain belt is overlapped in the diagrammatic top of the state of the rear end of the 1st a pair of of chain belt Figure.

Figure 10 is that the rear end of the 1st a pair of of chain belt is connected by explanation using fusion splicing devices with the front end of the 2nd a pair of of chain belt, And the detection approximate vertical view of the state of label is assigned to the 1st a pair of of chain belt using V-type cutter device.

Figure 11 is the approximate vertical view for the state that the 1st and the 2nd a pair of of chain belt that explanation is connected is transported to downstream side.

Figure 12 is the outline side view for illustrating connected position moving device shown in FIG. 1.

Figure 13 is the A arrow view of Figure 12, and is position the removing to chain belt in each connected portion of connected a pair of of the chain belt of explanation Send the figure of direction offset and the state of displacement.

Figure 14 is the outline side view for illustrating chain tooth mounting device shown in FIG. 1.

Figure 15 is the figure for illustrating to be mounted with the state of zipper tooth on connected a pair of of chain band.

Figure 16 is the figure for illustrating the state of zipper tooth occlusion of a pair of of chain belt shown in figure 15.

Appended drawing reference:

10: continuous slide fastener manufacturing device

20: with automatic connected devices

21A: the 1 strap retainer

21B: the 2 strap retainer

21C: the 3 strap retainer

22: main cutter device

22a, 23a, 25a: blade

22b, 23b, 25b: portions

23: precut device

24: fusion splicing devices

24a: wave welding head of ultrasonic wave

24b: anvil block

25:V type cutter device

26,52,61: charging roller arrangement

26a, 52a, 53,61a: feed roller

26b, 52b, 61b: pressure roller

30: be connected position moving device

31: buffer roll

32: fixing roller

33A: the 1 displacement roller

33B: the 2 displacement roller

40: chain tooth mounting device

41A: the 1 branch's roller

41B: the 2 branch's roller

42A: the 1 refining tooth mounting portion

42B: the 2 refining tooth mounting portion

43: interflow roller

44,47,54: deflector roll

45: detection sensor

46: feed roller

48: refining tooth fitting machine

50: chain tooth engaging device

51: refining tooth engagement machine

60: chain receiving portion

70: control device

C1: continuous slide fastener

E: zipper tooth

EL: chain tooth row

The difference of height of H: the 1 displacement roller and the 2nd displacement roller

L: band carrying line

L1: distance of the label until connected portion

M: detection label

P: be connected portion

S: space

T: a pair of of chain belt

T1: the 1 refining band

T2: the 2 refining band

T3: the 3 refining band

TL: the refining band in left side

TR: the refining band on right side

Specific embodiment

Hereinafter, being described in detail according to an implementation form of the schema to the manufacturing method of continuous slide fastener of the invention.Separately Outside, in later explanation, about continuous slide fastener manufacturing device, upside is the upside of the paper relative to Fig. 1, downside be relative to The downside of the paper of Fig. 1, left side are the inside of the paper relative to Fig. 1, and right side is the nearby side of the paper relative to Fig. 1, on The left side that side is the paper relative to Fig. 1 is swum, downstream side is the right side of the paper relative to Fig. 1.Moreover, continuous slide fastener manufacture dress The left and right directions set also finger widths direction.

The continuous slide fastener manufacturing device 10 of this implementation form is as shown in Figure 1, sequentially include with automatic phase since the upstream side Even device 20, connected position moving device 30, chain tooth mounting device 40, chain tooth engaging device 50 and chain receiving portion 60.

Herein, continuous slide fastener C1 is illustrated.The continuous slide fastener C1 include as shown in Figure 2 pair of right and left chain belt T and Pair of right and left chain tooth row EL, the pair of chain tooth row EL are installed respectively along the opposite band side edge part of pair of right and left chain belt T. Moreover, chain tooth row EL has multiple metal zipper tooth E.Moreover, space S is formed at predetermined intervals on continuous slide fastener C1, Continuous slide fastener C1 is divided into the zipper of specific length and does not install zipper tooth E by the space S.Moreover, continuous slide fastener C1 can also Not formed space S.It can also be the 20m of not formed space S for example, can also be the continuous slide fastener that space S is formed with the interval 20cm Continuous slide fastener.In turn, it is any for forming the connectable order of the continuous slide fastener of space S and the continuous slide fastener of not formed space S. In addition, the material of zipper tooth E is stainless steel, aluminium alloy, red brass (red brass), copper alloy and kirsite etc..

As shown in Figures 3 and 4 with automatic connected devices 20, comprising: the 1st strap retainer 21A, the 2nd strap retainer 21B, the 3rd 3 kinds of different a pair of chain belt T (T1, T2, T3) of color are set separately in strap retainer 21C；Main cutter device 22, by front The rear end of a pair of of chain belt T is cut off；Precut device 23 cuts off the front end of subsequent a pair of of chain belt T；Fusion splicing devices 24, to preceding The rear end of a pair of of chain belt T in face and the front end of subsequent a pair of of chain belt T carry out welding；V-type cutter device 25, to a pair of front Chain belt T assigns the detection label M of V shape；And charging roller arrangement 26, transport a pair of of chain belt T.

In addition, a pair of of chain belt T of front is a pair of of chain belt for downstream being transported using charging roller arrangement 26, behind A pair of of chain belt T be then to utilize charging roller arrangement 26 and a pair of of chain for downstream being transported after a pair of of chain belt T of front Band.Specifically, a pair of of chain belt T of front is the 1st a pair of of chain belt T1 in the case where transporting the 1st a pair of chain belt T1, after A pair of of chain belt T in face is the 2nd a pair of of chain belt T2.In the case where transporting the 2nd a pair of chain belt T2, a pair of of chain belt T of front It is the 3rd a pair of of chain belt T3 for the 2nd a pair of of chain belt T2, subsequent a pair of chain belt T.

1st strap retainer 21A, the 2nd strap retainer 21B, the 3rd strap retainer 21C are arranged to utilize cylinder (not shown) etc. Mobile device and integrally move in the direction of the width.Moreover, the 1st strap retainer 21A, the 2nd strap retainer 21B, the 3rd band are fixed Device 21C is arranged to retreat using driving and reversing mechanisms such as cylinders (not shown) selectively relative to precut device 23.

Main cutter device 22 includes: the top for being configured at a pair of of chain belt T and the blade 22a, Yi Jipei that are driven up and down It is placed in the portions 22b of the lower section of a pair of of chain belt T.Moreover, main cutter device 22 is arranged to utilize the mobile dress such as cylinder (not shown) It sets and can move in the direction of the width.

Precut device 23 be composition identical with main cutter device 22, and include: be configured at a pair of of chain belt T top and The blade 23a being driven up and down, and it is configured at the portions 23b of the lower section of a pair of of chain belt T.

Fusion splicing devices 24 are ultrasonic wave welding device, and include: to be configured at the top of a pair of of chain belt T and be driven up and down Wave welding head of ultrasonic wave 24a, and be configured at the anvil block 24b of the lower section of a pair of of chain belt T.

V-type cutter device 25 includes: the top for being configured at a pair of of chain belt T and the blade 25a, Yi Jipei that are driven up and down It is placed in the portions 25b of the lower section of a pair of of chain belt T.Blade 25a is configured to the one of the width direction outer edge of a pair of of chain belt T respectively Partial cut is V shape.It is pre-determined that the detection of the V shape of chain belt T, which is set to label M and is counted from aftermentioned connected portion P, Length be distance L1 position.

Feeding roller arrangement 26 includes: the feed roller 26a for being configured at the lower section of a pair of of chain belt T, and is configured at a pair of of chain belt T Top pressure roller 26b.Moreover, measuring the transmission length of a pair of of chain belt T by feed roller 26a in charging roller arrangement 26.

Hereinafter, being illustrated referring to Fig. 4~Figure 11 to the movement with automatic connected devices 20.

Firstly, as shown in figure 4, the 1st a pair of of chain belt that the 1st strap retainer 21A will be set in using charging roller arrangement 26 (a pair of of chain belt of front) T1 is downstream transported along band carrying line L.

Then, as shown in figure 5, if the 1st a pair of chain belt T1 is transported with specific length using charging roller arrangement 26, the 2 strap retainer 21B advance towards precut device 23, and will be set in the 2nd a pair of of chain belt of the 2nd strap retainer 21B (below A pair of of chain belt) T2 blade 23a from front end to precut device 23 lower section transport.

Then, as shown in fig. 6, the blade 23a using precut device 23 cuts off the front end of the 2nd a pair of of chain belt T2. The front end of the 2nd a pair of of chain belt T2 is chopped neatly as a result,.

Then, as shown in fig. 7, if the conveying of the 1st a pair of of the chain belt T1 carried out using charging roller arrangement 26 is terminated, benefit The rear end of the 1st a pair of of chain belt T1 is cut off into (the connected step of band) with the blade 22a of main cutter device 22.

Then, as shown in figure 8, using charging roller arrangement 26, the rear end of the 1st a pair of of chain belt T1 is transported in width side Until being overlapped in the position of the front end of the 2nd a pair of of chain belt T2 upwards (the connected step of band).Moreover, at this point, main cutter device 22 It is moved to the left from band carrying line L.

Then, as shown in figure 9, the 1st strap retainer 21A, the 2nd strap retainer 21B, the 3rd strap retainer 21C are integrated to the left Ground is mobile, and the 2nd a pair of chain belt T2 is transported on band carrying line L, and the front end of the 2nd a pair of of chain belt T2 is overlapped in the 1st one To (the connected step of band) on the rear end of chain belt T1.

Then, as shown in Figure 10, using the wave welding head of ultrasonic wave 24a of fusion splicing devices 24 by the rear end of the 1st a pair of of chain belt T1 It is connected with the front end of the 2nd a pair of of chain belt T2 and forms the portion P that is connected (the connected step of band), and utilizes V-type cutter device 25 Blade 25a marks M (step of marking) to the 1st a pair of chain belt T1 detection for assigning V shape.Moreover, at this point, the 2nd band is solid Determine device 21B to retreat to original position.

Then, as shown in figure 11, the 1st a pair of chain belt T1 and the 2nd a pair of of chain being connected using charging roller arrangement 26 It transports with T2 to the connected position moving device 30 in downstream side.Moreover, at this point, main cutter device 22 is moved to on carrying line L Position originally.

Moreover, then, the movement is carried out again, it thus will be after the 2nd a pair of chain belt (a pair of of chain belt of front) T2 It holds and is connected with the front end of the 3rd a pair of of chain belt (subsequent a pair of chain belt) T3, and assign V shape to the 2nd a pair of chain belt T2 Detection with label M.In addition, being said in this implementation form to by 3 kinds of different connected situations of a pair of of chain belt of color It is bright, but its species number is any.Moreover, detection is to cut off a part of chain belt T with label M, it is not limited to V word Shape can also be oblong-shaped, square shape and circular shape.

It is connected position moving device 30 as shown in figure 12, sequentially includes: that be arranged to can be in the up-down direction since the upstream side Mobile buffer roll 31, fixing roller 32, and it is arranged to the can move in the up-down direction the 1st displacement roller 33A and the 2nd displacement roller 33B will carry a pair of of chain belt T that automatic connected devices 20 are discharged and guide to chain tooth mounting device 40.

1st displacement roller 33A and the 2nd displacement roller 33B are as shown in FIG. 12 and 13, are configuring, are matching with difference of height H up and down The 1st displacement roller 33A for being placed in upside is configured at left side (being right side in Figure 13), and guides to the chain belt TL in left side, configures The 2nd displacement roller 33B in downside is configured at right side (being left side in Figure 13), and guides to the chain belt TR on right side.Moreover, the The mutual difference of height H of 1 displacement roller 33A and the 2nd displacement roller 33B are constant.In addition, difference of height H also sometimes because chain belt T, chain belt TL, Chain belt TR and each roller 31, roller 32, roller 33A, roller 33B slide or rub against or chain belt T, chain belt TL, chain belt TR conveying when Minute elongation rate etc., and varied slightly from setting value, but still be approximately fixed value.

Buffer roll 31 is pair of right and left roller in the same manner as the 1st displacement roller 33A and the 2nd displacement roller 33B, the roller peace of the left and right Loaded on same axis, and it is configured to move in the up-down direction.Fixing roller 32 and the 1st displacement roller 33A and the 2nd displacement roller 33B are same It is sample pair of right and left roller, the roller of the left and right is installed on same axis.

Thus configured in connected position moving device 30, by the chain belt TL of left and right, chain belt TR the 1st displacement roller 33A and 2nd displacement roller 33B's passes through the 1st displacement roller 33A and the 2nd displacement roller by length difference, thus using connected a pair of of chain belt T 33B, and it is as shown in figure 13, and the position of each connected portion P of connected a pair of of chain belt T deviates to the conveyance direction of chain belt T and is displaced. Specifically, being located at upstream side with the connected portion P that the connected portion P of the chain belt TL in left side is located at the chain belt TR in downstream side, right side Mode is displaced (the position walk that is connected is rapid).

Moreover, being connected position moving device 30 in order to utilize the phase for carrying out the connected step of band with automatic connected devices 20 Between, zipper tooth E is installed using chain tooth mounting device 40, and there is the pooling feature for storing corresponding a pair of of chain belt T.Specifically For, buffer roll 31 and the 1st displacement roller 33A and the 2nd displacement roller 33B are moved downwards, thus in fixing roller 32 and buffer roll 31 Between and fixing roller 32 and the 1st be displaced between the displacement of roller 33A and the 2nd roller 33B and store a pair of of chain belt T.Moreover, being walked if being connected in band When in rapid zipper tooth E being installed using chain tooth mounting device 40, and a pair of of chain belt T downstream being transported, buffer roll 31 and the 1st It is slowly mobile upwards therewith to be displaced the displacement of roller 33A and the 2nd roller 33B, a pair of of chain belt T of storage is downstream transported.

Chain tooth mounting device 40 is as shown in figure 14, comprising: the 1st branch roller 41A, to having passed through connected position moving device 30 The chain belt TL in left side is guided；2nd branch roller 41B carries out the chain belt TR on the right side for having passed through connected position moving device 30 Guidance；1st chain tooth mounting portion 42A installs zipper tooth E on the chain belt TL in left side；2nd chain tooth mounting portion 42B, the chain on right side Zipper tooth E is installed on band TR；Collaborate roller 43, chain belt TL, the chain belt TR for the left and right for being installed with zipper tooth E is made to collaborate and be drawn It leads；And deflector roll 44, chain belt TL, the chain belt TR of the left and right at interflow are guided.

1st chain tooth mounting portion 42A and the 2nd chain tooth mounting portion 42B respectively include: to the detection label M of chain belt TL (TR) The detection sensor 45 detected transports the feed roller 46 of chain belt TL (TR), 3 guided to the conveying of chain belt TL (TR) A deflector roll 47, and on chain belt TL (TR) install zipper tooth E chain tooth fitting machine 48.Moreover, the 1st chain tooth mounting portion 42A and In 2nd chain tooth mounting portion 42B, the transmission length of chain belt TL (TR) is measured by feed roller 46.

In thus configured chain tooth mounting device 40, detection sensor 45, the left and right of 45 pairs of fronts of detection sensor are utilized The detection of a pair of of chain belt TL, chain belt TR are detected (label detecting step) with label M.Self-test with label M to connected portion P be Distance L1 only is set as arbitrary numerical value between 70mm~80mm.Moreover, right using detection sensor 45, detection sensor 45 The detection is detected with label M, thus calculates distance L1 of the self-test until label M to connected portion P, and according to described Detection information is formed in prescribed limit along the upstream side and downstream side of the connected portion P of chain belt T (TL, TR) as shown in figure 15 The region of zipper tooth E is not installed inside, and is installed in the part in addition to connected portion P of the chain belt TL of connected left and right, chain belt TR Zipper tooth E (chain tooth installation steps).In addition, the part in addition to connected portion P of chain belt T refers to the chain belt TL of left and right, chain With a chain belt in TR in conveyance direction be connected connected portion P part and to form the one of portion P that be connected with having The part of the chain belt chain belt T of the not formed connected portion P of opposite another chain belt in the direction of the width.Therefore, it is being connected portion P's Zipper tooth E is not installed partially and with the portion P opposite part that is connected.Moreover, distance of the self-test until label M to connected portion P L1 transports speed or chain tooth installation interval (along the interval of the zipper tooth E of the length direction of chain belt T) etc. according to chain belt and counts It calculates.Moreover, according to the detection detection information of label M, to switch batch (lot), being carried out and corresponding in chain tooth mounting device 40 The installation of the suitable zipper tooth E of batch and the formation (chain tooth installation steps) of space S.

Chain tooth engaging device 50 is as shown in Figure 1, comprising: chain tooth holding-on machine 51, using make connected a pair of of chain belt T by It is engaged the zipper tooth E of a pair of of chain belt T each other；And roller arrangement 52 and feed roller 53 are fed, a pair of of chain belt T is transported, and described Chain tooth engaging device 50 is integrally provided to the top of aftermentioned control device 70.Moreover, being installed in chain tooth holding-on machine 51 and chain tooth Between device 40,2 deflector rolls 54 guided to the conveying of a pair of of chain belt T are set.

Feeding roller arrangement 52 includes: the feed roller 52a for being configured at the lower section of a pair of of chain belt T, and is configured at a pair of of chain belt T Top pressure roller 52b.

In thus configured chain tooth engaging device 50, using connected a pair of of chain belt T by chain tooth holding-on machine 51, and such as scheme Shown in 16, the zipper tooth E of a pair of of chain belt T is engaged (chain tooth occlusion step) each other, and forms continuous slide fastener C1.Then, continuous to draw Chain C1 is contained in chain receiving portion 60 via charging roller arrangement 61, and is sent to next manufacturing step in turn.

Feeding roller arrangement 61 includes: the feed roller 61a for being configured at the lower section of a pair of of chain belt T, and is configured at a pair of of chain belt T Top pressure roller 61b.

Moreover, with automatic connected devices 20, be connected position moving device 30, chain tooth mounting device 40, chain in this implementation form Tooth engaging device 50 is connected to control device 70 shown in FIG. 1.

The batch information for the continuous slide fastener C1 to be manufactured is inputted in control device 70 (in order to by 3 in this implementation form Kind chain belt is connected and inputting has 3 batch informations).Moreover, batch information refers to needed for the continuous slide fastener C1 of manufacture each batch The length (hereinafter referred to as " required strip length ") of a pair of of chain belt T, the radical of zipper in the continuous slide fastener C1 of each batch, 1 drawing Quantity and the length of space S of zipper tooth E in chain etc..Moreover, also input has in connected position moving device in control device 70 Start to store the length (hereinafter referred to as " storage starts length ") of a pair of of chain belt T in 30.

Moreover, control device 70 is long according to the transmission of a pair of of chain belt T of 26 pairs of the charging roller arrangement with automatic connected devices 20 Degree, to control with automatic connected devices 20 and connected position moving device 30.Specifically, when the transmission length of a pair of of chain belt T reaches When starting length to the storage, it is connected in position moving device 30 and starts to store a pair of of chain belt T, then, when the biography of a pair of of chain belt T When chain strip length needed for sending length to reach described, with the connected step of progress band in automatic connected devices 20, and phase will be stored in Even a pair of of chain belt T of position moving device 30 is transported to chain tooth mounting device 40.Therefore, it is carried out using with automatic connected devices 20 Band is connected during step, also carries out chain tooth installation steps using chain tooth mounting device 40.

As described above, according to the manufacturing method of the continuous slide fastener of this implementation form, comprising: band is connected step, will before The rear end of a pair of of chain belt T in face is connected with the front end of subsequent a pair of of chain belt and forms the portion P that is connected；It marks step, it is right respectively A pair of of chain belt T of front assigns detection label M；The position walk that is connected is rapid, transports connected a pair of of chain belt T, makes to be connected portion P's Position is displaced to the conveyance direction of chain belt T；Detecting step is marked, detection is detected with label M；Chain tooth installation steps, Zipper tooth E is installed on connected a pair of of chain belt T；And chain tooth is engaged step, makes the zipper tooth for being installed on connected a pair of of chain belt T E occlusion, thus can get following continuous slide fastener C1, that is, the position of each connected portion P of connected a pair of of chain belt T is to chain belt T's Conveyance direction offset, and zipper tooth E is installed in the part in addition to connected portion P of connected a pair of of chain belt T.It is not necessarily to as a result, Zipper tooth E is installed on the connected portion P of chain belt T can prevent the separation of connected portion P.

Moreover, being drawn according to the manufacturing method of the continuous slide fastener of this implementation form because being installed not on the connected portion P of chain belt T Chain tooth E, therefore zipper tooth E will not be inadequately installed on connected portion P.It is therefore possible to prevent the failure of chain tooth mounting device 40 or The generation of the malocclusion of chain tooth engaging device 50, thus the running rate of continuous slide fastener manufacturing device 10 can be improved.

Moreover, including: to be set separately with automatic connected devices 20 according to the continuous slide fastener manufacturing device 10 of this implementation form Multiple strap retainer 21A, strap retainer 21B, the strap retainer 21C of multiple a pair of of chain belt T, by a pair of of chain belt T's of front The main cutter device 22 of rear end cutting, by the precut device 23 of the front end cutting of subsequent a pair of of chain belt T, and by front The fusion splicing devices 24 of the front end welding of the rear end of a pair of of chain belt T and subsequent a pair of of chain belt T, thus can be at high speed by multiple a pair Chain belt T-phase connects.Therefore, the running rate of continuous slide fastener manufacturing device 10 can be improved.

Moreover, the position moving device 30 that is connected has storage a pair of according to the continuous slide fastener manufacturing device 10 of this implementation form The pooling feature of chain belt T, even if thus using with automatic connected devices 20 carry out band be connected step during, chain can also be used Tooth mounting device 40 carries out chain tooth installation steps.Therefore, chain tooth mounting device 40 will not stop because band is connected, to can be improved The running rate of continuous slide fastener manufacturing device 10.

In addition, not departing from purport of the invention the present invention is not limited to content illustrated by the implementation form It can suitably be changed in range.

Claims (5)

1. a kind of manufacturing method of continuous slide fastener (C1), the continuous slide fastener (C1) includes a pair of of chain belt (T) and a pair of of chain tooth It arranges (EL), the pair of chain tooth row (EL) is respectively set along the opposite band side edge part of the pair of chain belt (T), and has Multiple zipper tooths (E), the manufacturing method of the continuous slide fastener (C1) be characterized in that include:

The connected step of band, the rear end of the pair of chain belt (T) of front is connected with the front end of subsequent the pair of chain belt (T) And it is formed and is connected portion (P)；

It marks step, assigns label (M) to the pair of chain belt (T) of front respectively；

The position walk that is connected is rapid, transports connected the pair of chain belt (T), makes the position of the connected portion (P) to the pair of The conveyance direction of chain belt (T) is displaced；

Detecting step is marked, the label (M) is detected；

Chain tooth installation steps install the zipper tooth (E) in connected the pair of chain belt (T)；And

Chain tooth is engaged step, makes the zipper tooth (E) occlusion for being installed on connected the pair of chain belt (T),

In the label detecting step, using the detection sensor (45,45) of chain tooth mounting device (40) to described the one of front The label (M) of chain belt (T) is detected,

In the chain tooth installation steps, according to the detection information of the label (M) and from the preset label (M) to institute The distance (L1) until connected portion (P) is stated, in connected the pair of chain belt (T) except one in the pair of chain belt (T) The connected portion (P) of chain belt and with it is another in the portion that is connected (P) in the direction of the width opposite the pair of chain belt (T) The part of the pair of chain belt (T) outside the part of a chain belt is installed by the zipper tooth (E).

2. the manufacturing method of continuous slide fastener (C1) according to claim 1, it is characterised in that:

During the connected position walk is rapid, connected the pair of chain belt (T) utilizes the configured up and down with difference of height (H) 1 displacement roller (33A) and the 2nd displacement roller (33B) guidance, each connected portion (P) for the pair of chain belt (T) being connected as a result, It deviates and is displaced to the conveyance direction of the pair of chain belt (T) with the position of each label (M).

3. the manufacturing method of continuous slide fastener (C1) according to claim 1, it is characterised in that:

The band is connected in step, using the fusion splicing devices (24) including wave welding head of ultrasonic wave (24a) and anvil block (24b) come to front The pair of chain belt (T) rear end and subsequent the pair of chain belt (T) front end carry out welding.

4. the manufacturing method of continuous slide fastener (C1) according to claim 3, it is characterised in that:

The band is connected in step,

Firstly, the pair of chain belt (T) of front is downstream transported along band carrying line (L),

Then, if the pair of chain belt (T) of front is transported with specific length, by subsequent the pair of chain belt (T) Front end is transported to the lower section of the blade (23a) of precut device (23),

Then, the front end of subsequent the pair of chain belt (T) is cut using the blade (23a) of the precut device (23) It is disconnected,

Then, if the conveying of the pair of chain belt (T) of front terminates, utilize the blade (22a) of main cutter device (22) will The rear end of the pair of chain belt (T) of front is cut off,

Then, the rear end of the pair of chain belt (T) of front be transported to be overlapped in the width direction it is subsequent described Until the position of the front end of a pair of of chain belt (T),

Then, subsequent the pair of chain belt (T) is transported on the band carrying line (L), subsequent the pair of chain belt (T) Front end be overlapped on the rear end of the pair of chain belt (T) of front,

It then, will be after the pair of chain belt (T) of front using the wave welding head of ultrasonic wave (24a) of the fusion splicing devices (24) End is connected with the front end of subsequent the pair of chain belt (T), and using the blade (25a) of V-type cutter device (25) to front The pair of chain belt (T) assign V shape the label (M).

5. the manufacturing method of continuous slide fastener (C1) according to claim 1, it is characterised in that:

The zipper tooth (E) is metal zipper tooth.