CN103976528A - Automatic size fixing device of belt connector zipper, size fixing method and automatic production device - Google Patents

Abstract

An automatic size fixing device with a belt connector zipper comprises a traction mechanism for driving the belt connector zipper to move, a size fixing mold for cutting an incision in the belt connector zipper, a first connector sensing device, a second connector sensing device, an incision sensor for sensing the incision position and a controller, wherein the first connector sensing device and the second connector sensing device are used for sensing the connector position. The invention further discloses a size fixing method of the belt connector zipper and an automatic production device of the belt connector zipper. The automatic size fixing device is reasonable in structural design and high in automation level, and the first connector sensing device and the second connector sensing device can be matched with the incision sensor to act so as to judge whether the size fixing mold acts and cuts the incision. When a connector exist, the size fixing mold does not act till the connector is moved to the position of the second connector sensing device, rapid cutting is performed, and the cut end serves as a first incision of the new end of a chain. Therefore, the size fixing mold cannot cut the connector position, and the zipper waste can be greatly reduced.

Description

The microsize equipment of belt lacing slide fastener, fixed cun method and automatic manufacturing device

Technical field

The present invention relates to, refer in particular to the microsize equipment of belt lacing slide fastener, fixed cun method and automatic manufacturing device.

Background technology

Slide fastener is widely applied in the every field of daily life, has become indispensable article in people's life.In slide fastener production process, conventionally carry out fixed cun of different length with fixed cun mould to sequencing the rectangular slide fastener of tooth, fixed cun is mainly reflected in and on rectangular slide fastener, cuts out one the edge of a knife, after fixed cun, put on again pull head and beat bottom stopper and then cut off, combine and just become a complete slide fastener.Fixed cun of mould generally need to coordinate Knife-edge test device action being used in stop machine under microsize, when Knife-edge test device detects that the last edge of a knife just can touch a cun mould surely and moves and cut out the next edge of a knife, so just can ensure that the slide fastener length between every two edges of a knife is fixed.

But, in actual production process, the length of slide fastener long-chain is limited, conventionally need to two slide fastener long-chains be linked together with gummed paper, the traction that makes after a slide fastener long-chain penetrator completes another slide fastener long-chain can be subject to the slide fastener long-chain being connected with its stickup enters cun mould surely, and needn't operator manually slide fastener long-chain be imported to a fixed cun mould.But, existing fixed cun mould is in the time of work, as (standard slide fastener code fills 100 yards to encounter zipper joint, pull head just has three left and right) time, that joint induction installation by being arranged on surely before cun mould senses joint and makes equipment automatically out of service, after operating personnel untie joint, again after connecting with brown paper, open machine and pass through smoothly joint induction installation by joint location, when joint location is during near cun mould surely, operating personnel suddenly stop equipment, manually joint is pulled through to cun mould surely, open again machine, thereby occur that fixed cun cross cutting is to joint location to reduce as much as possible, avoid occurring that the cutter of fixed cun mould and mould damage.

There is following several drawback in a fixed cun mode for above belt lacing slide fastener: 1, often needs to shut down, bring the deuce to pay to manual work, can affect equipment operation rate simultaneously; 2, slide fastener waste is larger; 3, easily there is the situation of misoperation, in the time of misoperation, can be larger to cutter and the mould loss of cun mould surely.

Summary of the invention

The invention provides the microsize equipment of belt lacing slide fastener, fixed cun of method and automatic manufacturing device, its main purpose is to overcome that the fixed cun mode of existing belt lacing slide fastener exists affects cutter and the larger defect of mould loss of the large and fixed cun mould of equipment operation rate, slide fastener waste.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

The microsize equipment of belt lacing slide fastener, comprises haulage gear for driving a belt lacing slide fastener to move, for cutting out a fixed cun mould for one edge of a knife on belt lacing slide fastener, for the first joint induction installation of inductive connector position and the second joint induction installation, for responding to edge of a knife inductor and the controller of edge of a knife position; When work, belt lacing slide fastener under the traction of described haulage gear successively through the first joint induction installation, fixed cun of a mould, the second joint induction installation and edge of a knife inductor, under normal condition, described edge of a knife inductor senses the edge of a knife, controller sends actuating signal to a surely very little mould, a fixed cun mould moves downwards, cuts out the edge of a knife one; If when the first joint induction installation sense joint signal simultaneously or after edge of a knife inductor sense the edge of a knife, controller does not send actuating signal to a cun mould surely; Belt lacing slide fastener continues to be subject to tethered sliding, when the second joint induction installation senses joint signal, controller sends actuating signal to a surely very little mould, a fixed cun mould moves downwards, cut out edge of a knife A one, belt lacing slide fastener continues to be subject to tethered sliding, until edge of a knife inductor senses this road edge of a knife A, reenters under above-mentioned normal condition.

Further, described edge of a knife inductor is one to be positioned at the approach switch directly over belt lacing slide fastener.

Further, described the first joint induction installation and the second joint inductor are mechanical type induction installation, this mechanical type induction installation has a mechanical type sensor block, between this mechanical type sensor block and belt lacing slide fastener, be separated with a gap that is less than joint thickness, under belt lacing slide fastener center tap place moves to described mechanical type induction installation time, thereby joint can trigger a joint induced signal by mechanical type sensor block jack-up.

Further, described mechanical type induction installation comprises fixed base frame, is connected in rotationally the mechanical type sensor block of this fixed base frame taking middle part as axle center, is connected in described mechanical type sensor block first end and it is produced the extension spring of one first moment and is connected in the support bar of its generation one second moment of described mechanical type sensor block two port, the opposite direction of described the first moment and the second moment.

Further, the top of described mechanical type sensor block is provided with the amplifier module for improving induction precision, this amplifier module comprises that one is connected in the induction macrophotograph on described fixed base frame rotationally taking middle part as axle center, be arranged at the electric-controlled plate of induction macrophotograph top, the sense contact that is arranged at electric-controlled plate one end and contact with described induction macrophotograph the second end and described induction macrophotograph first end can provide to impel it to contact at the Compress Spring of described mechanical type sensor block first end is provided, when moving up, described mechanical type sensor block first end can impel described induction macrophotograph first end to move up, and then described induction macrophotograph the second end is separated with sense contact, then produce a joint induced signal.

A kind of microsize method of belt lacing slide fastener; the method is to use above-mentioned microsize equipment to realize, and comprises the following steps: a, described edge of a knife inductor sense the edge of a knife, and controller sends actuating signal to a surely very little mould; a fixed cun mould moves downwards, cuts out the edge of a knife one; If b, when the first joint induction installation sense joint signal simultaneously or after edge of a knife inductor sense the edge of a knife, controller does not send actuating signal to a cun mould surely; C, belt lacing slide fastener continue to be subject to tethered sliding, and when the second joint induction installation senses joint signal, controller sends actuating signal to a surely very little mould, and a fixed cun mould moves downwards, cuts out edge of a knife A one; D, belt lacing slide fastener continue to be subject to tethered sliding, until edge of a knife inductor senses this road edge of a knife A, now repeat a-c step until whole piece joint slide fastener completes cun work surely.

An automatic manufacturing device for belt lacing slide fastener, this device uses the microsize equipment of above-mentioned belt lacing slide fastener.

Compared to the prior art the beneficial effect that, the present invention produces is:

1, reasonable in design of the present invention, automaticity is high, by the first joint induction installation and the second joint induction installation being set at the front and back position place of cun mould surely, this the first joint induction installation and the second joint induction installation can coordinate the action of edge of a knife inductor, judge whether to allow a cun mould action surely cut out the edge of a knife, can ensure to occur joint time, a fixed cun mould is failure to actuate, until moving to the second joint induction installation place, joint just cuts rapidly first edge of a knife as new one end chain, so both can ensure that a cun mould can not switch to joint location surely, and can reduce widely slide fastener waste.In addition, the present invention is full-automatic fixed cun, and fixed cun of work of whole process manually participates in without operating personnel, all can realize by controller, thereby can reduce widely the dependence to labour, saves the recruitment cost of enterprise.

2, in the present invention, described the first joint induction installation and the second joint inductor are mechanical type induction installation, adopt mechanical type induction installation cost lower and can not be subject to the abnormal impact of automatically controlled signal, induction accuracy rate is high, by induction macrophotograph is set, can to improve induction precision high, ensures a fixed cun mould normal operating.

Brief description of the drawings

Fig. 1 is the structural representation in the present invention.

Fig. 2 is the enlarged diagram at A place in Fig. 1.

Fig. 3 is the structural representation of mechanical type induction installation in the present invention.

Detailed description of the invention

The specific embodiment of the present invention is described with reference to the accompanying drawings.

See figures.1.and.2.The microsize equipment of belt lacing slide fastener, comprises haulage gear 1 for driving a belt lacing slide fastener 8 to move, for cutting out a fixed cun mould 2 for one edge of a knife on belt lacing slide fastener 8, for the first joint induction installation 3 of inductive connector position and the second joint induction installation 4, for responding to edge of a knife inductor 5 and the controller 6 of edge of a knife position, in the time of work, belt lacing slide fastener 8 under the traction of described haulage gear 1 successively through the first joint induction installation 3, fixed cun mould 2, the second joint induction installation 4 and edge of a knife inductor 5, under normal condition, described edge of a knife inductor 5 senses first edge of a knife B, controller 6 sends actuating signal to a surely very little mould 2, a fixed cun mould 2 moves downwards, cut out second edge of a knife C, such action can circulate down always, produce San road edge of a knife D, Si road edge of a knife E etc., if until when the first joint induction installation 3 sense joint signal simultaneously or after edge of a knife inductor 5 sense n road edge of a knife N, controller 6 does not just send actuating signal to a surely very little mould 2, belt lacing slide fastener 8 continues to be subject to tethered sliding, when the second joint induction installation 4 senses joint signal, controller 6 sends actuating signal to a surely very little mould 2, a fixed cun mould 2 moves downwards, cut out a first edge of a knife A who resets, then belt lacing slide fastener 8 continues to be subject to tethered sliding, until edge of a knife inductor 5 senses this road edge of a knife A, reenter under above-mentioned normal condition, this normal condition is: described edge of a knife inductor 5 senses first edge of a knife B, controller 6 sends actuating signal to a surely very little mould 2, a fixed cun mould 2 moves downwards, cut out second edge of a knife C, such action can circulate down always, produce San road edge of a knife D, Si road edge of a knife E etc.If occur afterwards the first joint induction installation 3 again and sense the situation of joint signal, concrete operation is just the same with operation above, therefore repeated description no longer in detail.Above-mentioned microsize operation not only can ensure that a cun mould 2 can not switch to joint location surely, and can reduce widely slide fastener waste.In addition, the present invention is full-automatic fixed cun, and whole process, until whole piece joint slide fastener 8 completes cun work surely all manually participates in without operating personnel, all can realize by controller 6, thereby can reduce widely the dependence to labour, save the recruitment cost of enterprise.

With reference to Fig. 1, Fig. 2 and Fig. 3.Described edge of a knife inductor 5 is one to be positioned at the approach switch directly over belt lacing slide fastener.Described the first joint induction installation 3 and the second joint inductor 4 are mechanical type induction installation 6, this mechanical type induction installation 6 has a mechanical type sensor block 60, between this mechanical type sensor block 60 and belt lacing slide fastener 8, be separated with a gap 600 that is less than joint 80 thickness, under belt lacing slide fastener 8 center tap 80 places move to described mechanical type induction installation 6 time, thereby joint 8 can trigger a joint induced signal by mechanical type sensor block 60 jack-up.In particular, described mechanical type induction installation 6 comprises fixed base frame 61, is connected in rotationally the mechanical type sensor block 60 of this fixed base frame 61 taking middle part as axle center, is connected in described mechanical type sensor block 60 first end 60a and it is produced the extension spring 62 of one first moment and is connected in the support bar 63 of described mechanical type sensor block 60 second end 60b to its generation one second moment, the opposite direction of described the first moment and the second moment.The top of described mechanical type sensor block 60 is provided with the amplifier module 64 for improving induction precision, this amplifier module 64 comprises an induction macrophotograph 640 on taking middle part as axle center is connected in rotationally described fixed base frame 61, be arranged at the electric-controlled plate 641 of induction macrophotograph 640 tops, the sense contact 642 that is arranged at electric-controlled plate 641 one end and contact with described induction macrophotograph 640 second end 640b and described induction macrophotograph 640 first end 640a can provide to impel it to contact at the Compress Spring 643 of described mechanical type sensor block 60 first end 60a are provided, when moving up, described mechanical type sensor block 60 first end 60a can impel described induction macrophotograph 640 first end 640a to move up, and then described induction macrophotograph 640 second end 640b are separated with sense contact 642, then produce a joint induced signal.By adopting mechanical type induction installation 60 costs lower and can not be subject to the abnormal impact of automatically controlled signal, induction accuracy rate is high, and by induction macrophotograph 640 is set, can to improve induction precision high, ensures a fixed cun mould normal operating.

In addition, the present embodiment has not only disclosed a kind of microsize equipment of belt lacing slide fastener, and comprise the slide fastener automatic manufacturing device of any microsize equipment that uses this belt lacing slide fastener, certainly also include stop machine under the microsize of the microsize equipment that uses this belt lacing slide fastener.

Above are only the specific embodiment of the present invention, but design concept of the present invention is not limited to this, allly utilizes this design to carry out the change of unsubstantiality to the present invention, all should belong to the behavior of invading protection domain of the present invention.

Claims (7)

1. the microsize equipment of belt lacing slide fastener, is characterized in that: comprise haulage gear for driving a belt lacing slide fastener to move, for cutting out a fixed cun mould for one edge of a knife on belt lacing slide fastener, for the first joint induction installation of inductive connector position and the second joint induction installation, for responding to edge of a knife inductor and the controller of edge of a knife position; When work, belt lacing slide fastener under the traction of described haulage gear successively through the first joint induction installation, fixed cun of a mould, the second joint induction installation and edge of a knife inductor, under normal condition, described edge of a knife inductor senses the edge of a knife, controller sends actuating signal to a surely very little mould, a fixed cun mould moves downwards, cuts out the edge of a knife one; If when the first joint induction installation sense joint signal simultaneously or after edge of a knife inductor sense the edge of a knife, controller does not send actuating signal to a cun mould surely; Belt lacing slide fastener continues to be subject to tethered sliding, when the second joint induction installation senses joint signal, controller sends actuating signal to a surely very little mould, a fixed cun mould moves downwards, cut out edge of a knife A one, belt lacing slide fastener continues to be subject to tethered sliding, until edge of a knife inductor senses this road edge of a knife A, reenters under above-mentioned normal condition.

2. the microsize equipment of belt lacing slide fastener as claimed in claim 1, is characterized in that: described edge of a knife inductor is one to be positioned at the approach switch directly over belt lacing slide fastener.

3. the microsize equipment of belt lacing slide fastener as claimed in claim 2, it is characterized in that: described the first joint induction installation and the second joint inductor are mechanical type induction installation, this mechanical type induction installation has a mechanical type sensor block, between this mechanical type sensor block and belt lacing slide fastener, be separated with a gap that is less than joint thickness, under belt lacing slide fastener center tap place moves to described mechanical type induction installation time, thereby joint can trigger a joint induced signal by mechanical type sensor block jack-up.

4. the microsize equipment of belt lacing slide fastener as claimed in claim 3, it is characterized in that: described mechanical type induction installation comprises fixed base frame, is connected in rotationally the mechanical type sensor block of this fixed base frame taking middle part as axle center, is connected in described mechanical type sensor block first end and it is produced the extension spring of one first moment and is connected in the support bar of its generation one second moment of described mechanical type sensor block two port, the opposite direction of described the first moment and the second moment.

5. the microsize equipment of belt lacing slide fastener as claimed in claim 4, it is characterized in that: the top of described mechanical type sensor block is provided with the amplifier module for improving induction precision, this amplifier module comprises that one is connected in the induction macrophotograph on described fixed base frame rotationally taking middle part as axle center, be arranged at the electric-controlled plate of induction macrophotograph top, the sense contact that is arranged at electric-controlled plate one end and contact with described induction macrophotograph the second end and described induction macrophotograph first end can provide to impel it to contact at the Compress Spring of described mechanical type sensor block first end is provided, when moving up, described mechanical type sensor block first end can impel described induction macrophotograph first end to move up, and then described induction macrophotograph the second end is separated with sense contact, then produce a joint induced signal.

6. a use is as a fixed cun method for microsize equipment as described in arbitrary in claim 1-5; it is characterized in that, comprise the following steps: a, described edge of a knife inductor sense the edge of a knife, controller sends actuating signal to a surely very little mould; a fixed cun mould moves downwards, cuts out the edge of a knife one; If b, when the first joint induction installation sense joint signal simultaneously or after edge of a knife inductor sense the edge of a knife, controller does not send actuating signal to a cun mould surely; C, belt lacing slide fastener continue to be subject to tethered sliding, and when the second joint induction installation senses joint signal, controller sends actuating signal to a surely very little mould, and a fixed cun mould moves downwards, cuts out edge of a knife A one; D, belt lacing slide fastener continue to be subject to tethered sliding, until edge of a knife inductor senses this road edge of a knife A, now repeat a-c step until whole piece joint slide fastener completes cun work surely.

7. an automatic manufacturing device for belt lacing slide fastener, is characterized in that: the microsize equipment that comprises arbitrary described belt lacing slide fastener in 1-5.