CN205757436U - Front width automatic processing system - Google Patents

Abstract

The utility model discloses width automatic processing system before one.Front width automatic processing system includes a cut-parts organisation of working and button cut-parts organisation of working.Cylinder cut-parts organisation of working includes car bag mouth mechanism, sack filling machine, slide machine, slide feed mechanism, repaiies a machine, the first mechanical hand and drive button hole machine；Car bag mouth mechanism is used for folding bag mouth cut-parts；Sack filling machine for being stitched to the first shirt body cut-parts by bag mouth cut-parts；Slide machine is for forming cylinder cut-parts by cylinder bar and first Piao's bar joint close to the first shirt body cut-parts；Slide feed mechanism is for delivering to slide machine by the first shirt body cut-parts；Repair a machine, open button hole machine be respectively used to cylinder cut-parts prune, open button hole.Button cut-parts organisation of working includes pull-button machine, repaiies button machine, the second mechanical hand and button-sewing machine；Pull-button machine forms button cut-parts for second Piao's bar joint close to the second shirt body cut-parts；Repair button machine, button-sewing machine is respectively used to button cut-parts pruning, buttoning.This front width automatic processing system is saved manpower, is saved the time.

Description

Front width automatic processing system

Technical field

This utility model relates to field of textile machinery, particularly relates to width automatic processing system before one.

Background technology

In clothing field, the production of front width includes multiple operation, in the production of vest, the front width manufacturing procedure of vest include pack, slide, repair cylinder, cross press, open button hole, pull-button, repair the multiple working procedure such as button and buttoning.Before current vest, each manufacturing procedure of width is all to be machined by artificial single process, each operation needs to be equipped with one to two workman, the most above-mentioned front width manufacturing procedure then needs much people more than ten, waste of manpower, and vary with each individual, the standard that each operation produces also differs, and artificial is inefficient.

Utility model content

Based on this, it is necessary to provide a kind of and can save the front width automatic processing system that manpower, saving time and production efficiency are high.

Width automatic processing system before a kind of, including board, cylinder cut-parts organisation of working and button cut-parts organisation of working；

Mechanism；

Described cylinder cut-parts organisation of working includes car bag mouth mechanism, sack filling machine, slide machine, slide feed mechanism, repaiies a machine, the first mechanical hand and drive button hole machine；Described car bag mouth mechanism is located on described board for the edge folding bag mouth cut-parts；Described sack filling machine is used for described bag mouth cut-parts sewing to the first shirt body cut-parts；Described slide machine is for forming cylinder cut-parts by cylinder bar and first Piao's bar joint close to the described first shirt body cut-parts have described bag mouth cut-parts；Described slide feed mechanism is between described sack filling machine and described slide machine, and described slide feed mechanism is for delivering to the described first shirt body cut-parts after pack at described slide machine；A described machine of repairing is for pruning described cylinder cut-parts；The described cylinder cut-parts after pruning of described first mechanical hand are moved and are opened at button hole machine to described, described in drive button hole machine for button hole is opened in the described cylinder cut-parts after pruning；

Described button cut-parts organisation of working includes pull-button machine, repaiies button machine, the second mechanical hand and button-sewing machine；Described pull-button machine is for forming button cut-parts by second Piao's bar joint close to the second shirt body cut-parts；Described button machine of repairing is for pruning described button cut-parts；The described button cut-parts after pruning of described second mechanical hand are delivered at described button-sewing machine, and described button-sewing machine is for the described button cut-parts buttoning after pruning.

Wherein in an embodiment, described cylinder cut-parts organisation of working also includes that the first press, described first press are used for being located at board；

Described first mechanical hand is additionally operable to move to described first press described cylinder cut-parts, and described first press is for carrying out pressing bonding by the described cylinder bar in described cylinder cut-parts, described first Piao's bar joint close with described first shirt body cut-parts.

Wherein in an embodiment, described button cut-parts organisation of working also includes that the second press, described second press are used for being located at board；

Described second mechanical hand is additionally operable to move to described second press described button cut-parts, and described second press is for carrying out pressing bonding by the described second Piao's bar in described button cut-parts with described second shirt body cut-parts.

Wherein in an embodiment, described in open the quantity of button hole machine be at least two.

Wherein in an embodiment, described cylinder cut-parts organisation of working also includes mobile material collecting device, described mobile material collecting device near described in drive button hole machine, described mobile material collecting device can to open described in multiple on button hole machine open button hole after described cylinder cut-parts move rewinding.

Wherein in an embodiment, described in drive button hole machine and include out button hole frame, drive button hole positioner, first drive button hole pay-off, open button hole device and open button hole sewing device；Described button hole frame of opening has and opens button hole work top for placing tube cut-parts；

Described button hole positioner of opening has out button hole location-plate, opens button hole blowing parts and open button hole detection and localization parts, described open button hole location-plate be located at described in open on button hole work top, the described blowing mouth opening button hole blowing parts opens location at button hole location-plate towards described button hole location-plate of opening described in described cylinder cut-parts being blown to, described open button hole detection and localization parts be located at described in open in button hole frame and open described in being connected to button hole blowing parts, described in open button hole detection and localization parts for detecting whether described cylinder cut-parts position；

The above-mentioned cut-parts targeting scheme driving button hole positioner mentioned is not limited solely to use and opens button hole blowing parts, it is also possible to application: motor drive mechanism, pneumatic mechanism, belt mechanism, camera or sensor add actuator etc..

Described first drives button hole pay-off has the first pressing plate and the first pressing plate driver part, described first pressing plate is driven in button hole frame and be connected to described first pressing plate driver part described in being located at, and described first pressing plate driver part is used for driving described first pressing plate to move and push down described cylinder cut-parts towards described button hole work top of opening and described cylinder cut-parts can be driven to move；

Described open button hole device be located at described in open and open button hole for the described cylinder cut-parts that described first pressing plate is sent here in button hole frame；Described open button hole sewing device be located at described in open and carry out sewing for the button hole edge of described cylinder cut-parts in button hole frame.

Wherein in an embodiment, also include initial bit detection part, described initial bit detection part be located at described in open in button hole frame for the position detecting described cylinder cut-parts whether enter described in open at the initial station of button hole device.

Wherein in an embodiment, also including that second drives button pay-off, described second drives button pay-off has the second pressing plate and the second pressing plate driver part, described second pressing plate driver part be located at described in open in button hole frame and be connected to described second pressing plate；Described second pressing plate driver part is pushed down the described cylinder cut-parts at described initial station for driving described second pressing plate and described cylinder cut-parts can be driven to move open in button hole device to described.

Wherein in an embodiment, described slide feed mechanism, including slide frame, slide positioner and slide pay-off；Described slide positioner has locating platform, slide location-plate, slide detection and localization parts and the first blowing parts, described locating platform is located in described slide frame for receiving from the first shirt body cut-parts on the work top of sack filling machine, described slide location-plate is located on described locating platform, described slide detection and localization parts are located on described locating platform and close to described slide location-plate, and described first blowing parts are blown to and the location justified margin of described slide location-plate toward described slide location-plate for by described first shirt body cut-parts；

Described slide pay-off has material folding parts and material folding driver part；Described material folding driver part is located in described slide frame and is connected to described material folding parts, and described material folding driver part is used for by the described first shirt body cut-parts after driving described material folding parts to clamp location and described material folding parts can be driven described first shirt body cut-parts to be moved to slide machine.

The front width automatic processing system that this utility model relates to, is provided with a cut-parts organisation of working and button cut-parts organisation of working；Cylinder cut-parts organisation of working includes car bag mouth mechanism, sack filling machine, slide machine, slide feed mechanism, repaiies a machine, the first mechanical hand and drive button hole machine；It is provided with car bag mouth mechanism for folding the edge of bag mouth cut-parts；Be provided with sack filling machine for by described bag mouth cut-parts sewing to the first shirt body cut-parts；It is provided with slide machine for cylinder bar and first Piao's bar joint close are formed cylinder cut-parts to described first shirt body cut-parts；It is provided with slide feed mechanism for the described first shirt body cut-parts after pack being delivered at described slide machine；It is provided with a machine of repairing for pruning described cylinder cut-parts；It is provided with the first mechanical hand and drives button hole machine for described cylinder cut-parts being moved to described, be provided with out button hole machine for button hole is opened in described cylinder cut-parts.Button cut-parts organisation of working includes pull-button machine, repaiies button machine, the second mechanical hand and button-sewing machine；It is provided with pull-button machine and to the second shirt body cut-parts, forms button cut-parts for second Piao's bar joint close；It is provided with and repaiies button machine for pruning described button cut-parts；It is provided with the second mechanical hand for described button-sewing machine is delivered in described button cut-parts, is provided with button-sewing machine for described button cut-parts buttoning.The front width automatic processing system that this utility model relates to is arranged by the linkage of above-mentioned all parts, by pack, slide, repair cylinder, cross press, open button hole, pull-button, repair the multiple tracks such as button and buttoning single operation linkageization, before realizing, width produces the automatic of each and every one operations many and linkage, saving time, saving manpower, efficiency relatively replies raising.Further, the front width automatic processing system that this utility model relates to, it is achieved that left and right two cut-parts of width namely the first shirt body cut-parts before clothing, the second shirt body cut-parts can one_to_one corresponding and simultaneously producing, further saved the time, improve production efficiency.

What this utility model related to drives button hole machine, is provided with out button hole positioner for positioning cylinder cut-parts.Opening opening button hole detection and localization parts blowing parts can realizing automatization location to cylinder cut-parts with opening button hole of button hole positioner, save manpower, location efficiency is high；It is provided with first and drives button hole pay-off for moving cylinder cut-parts to opening at button hole device；It is provided with out button hole device for button hole is opened in cylinder cut-parts；It is provided with out button hole sewing device for the button hole edge of cylinder cut-parts is carried out sewing.What this utility model related to drives button hole machine, it is achieved that the automatization that front width cylinder cut-parts (width cylinder cut-parts before needing the clothing of button hole) produce, and is greatly saved manpower, has saved the time, and production efficiency is high.

The slide feed mechanism that this utility model relates to, be provided with slide positioner can be by the cooperation slide location-plate that the first shirt body cut-parts are positioned on locating platform of slide detection and localization parts and the first blowing parts at, save and be positioned manually, save trouble and labor, and the progress positioned is high.Behind described first shirt body cut-parts location, by the material folding parts of slide pay-off, above-mentioned first shirt body cut-parts are clamped, then drive material folding parts described first shirt body cut-parts to be moved to slide machine by material folding driver part.

The slide feed mechanism that this utility model relates to, achieve car bag mouth mechanism, sack filling machine, slide machine, slide feed mechanism, repair a machine, the first mechanical hand, drive button hole machine, pull-button machine, repair button machine, the second mechanical hand and the linkage of button-sewing machine, multiple operations are linked in integration, saves the time, save manpower.

Accompanying drawing explanation

Fig. 1 is width automatic processing system schematic diagram before this utility model one embodiment；

Fig. 2 is the slide feed mechanism schematic diagram of front width automatic processing system shown in Fig. 1；

Fig. 3 be shown in Fig. 1 before width automatic processing system drive button hole machine schematic diagram.

Description of reference numerals

10, front width automatic processing system；100, car bag mouth mechanism；200, sack filling machine；210, support；220, the second blowing mouth；230, the 3rd blowing mouth；240, pack mold mechanism；250, sewing device；300, slide feed mechanism；311, slide frame；312, slide positioner；3121, locating platform；3122, slide location-plate；3123, slide detection and localization parts；3124, the first blowing mouth；313, slide pay-off；3131, the first material folding plate；3132, the second material folding plate；3133, material folding folding element；3134, the first material folding drives element；3135, the second material folding drives element；3136, slide rail；3137, material conveying platform；400, slide machine；500, a machine is repaiied；600, the first mechanical hand；700, the first press；800, button hole machine is driven；810, button hole frame is opened；811, button hole work top is opened；820, button hole positioner is driven；821, button hole location-plate is driven；822, button hole blowing parts are opened；823, button hole detection and localization parts are opened；830, first button hole pay-off is driven；831, the first pressing plate；832, the first pressing plate driver part；840, second button pay-off is driven；841, the second pressing plate；842, the second pressing plate driver part；850, initial bit detection part；860, correction detection part；870, button hole device is opened；880, material collecting device is moved；881, rewinding plate；882, material receiving desk；883, rewinding driver part；884, rewinding detection part；885, castor；900, cut-parts device is sent；1000, pull-button machine；1100, the second mechanical hand；1200, button machine is repaiied；1300, the second press；1400, button-sewing machine；20, cylinder cut-parts；30, the second shirt body cut-parts.

Detailed description of the invention

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is described more fully.Accompanying drawing gives preferred embodiment of the present utility model.But, this utility model can realize in many different forms, however it is not limited to embodiment described herein.On the contrary, providing the purpose of these embodiments is to make the understanding to disclosure of the present utility model more thorough comprehensively.

It should be noted that be referred to as " being fixed on " another element when element, it can be directly on another element or can also there is element placed in the middle.When an element is considered as " connection " another element, and it can be directly to another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that.It is intended merely to describe the purpose of specific embodiment at term used in the description of the present utility model herein, it is not intended that in limiting this utility model.Term as used herein "and/or" includes the arbitrary and all of combination of one or more relevant Listed Items.

Shown in Figure 1, the present embodiment relate to width automatic processing system 10 before one.This front width automatic processing system 10 includes board, cylinder cut-parts organisation of working, button cut-parts organisation of working and controlling organization.

Shown in Figure 1, described cylinder cut-parts organisation of working includes car bag mouth mechanism 100, sack filling machine 200, slide machine 400, slide feed mechanism 300, repaiies a machine the 500, first press the 700, first mechanical hand 600, opens button hole machine 800 and mobile material collecting device.Wherein, car bag mouth mechanism 100, sack filling machine 200, slide machine 400, slide feed mechanism 300, repair a machine the 500, first press 700, drive button hole machine 800 and mobile material collecting device order successively is arranged.

Button cut-parts organisation of working includes sending cut-parts device 900, pull-button machine 1000, repairing button machine the 1100, second press the 1300, second mechanical hand button-sewing machine 1400.Wherein, send cut-parts device 900, pull-button machine 1000, repair button machine 1100 and the order setting successively of the second press 1300.

Car bag mouth mechanism 100 is located on board for the edge folding bag mouth cut-parts.Controlling organization is electrically connected at car bag mouth mechanism 100.

Shown in Figure 2, sack filling machine 200 is used for bag mouth cut-parts sewing to the first shirt body cut-parts.Controlling organization is electrically connected at sack filling machine 200.

Slide machine 400 is for forming cylinder cut-parts 20 by cylinder bar and first Piao's bar joint close to the first shirt body cut-parts.Controlling organization is electrically connected at slide machine 400.

Shown in Figure 2, in the present embodiment, for the ease of the sewing of sack filling machine 200, sack filling machine 200 is done be modified to pack device further, be specifically described as follows:

Shown in Figure 2, this pack device includes sack filling machine 200, second and dries parts, the 3rd blowing parts, support 210 and gripper shoe, and support 210 is connected to the work top edge of sack filling machine 200 and is positioned at the lower section at work top edge of sack filling machine 200.Gripper shoe is connected to support 210, and the height of gripper shoe and the work top of sack filling machine is highly consistent.

Second blowing parts have the second blowing mouth 220 and the second blowing element.Second blowing mouth 220 sets on the bracket 210 and this second blowing mouth 220 is close between the pack mold mechanism 240 on sack filling machine 200 and sewing device 250, and the blowing mouth of the second blowing mouth 220 is upward.Second blowing element is connected to the second blowing mouth 220 and dries for by the second blowing mouth 220, and the first shirt body cut-parts part hung down to below the work top of sack filling machine 200 can be blown afloat to level by the second blowing mouth 220 blowing.Controlling organization is electrically connected with the second blowing element.The quantity of the second blowing mouth 220 can have multiple, and multiple second blowing mouths 220 arrange in yi word pattern on the bracket 210, and multiple second blowing mouth 220 is sequentially distributed by one end of one end of pack mold mechanism 240 to sewing device 250.

3rd blowing parts have the 3rd blowing mouth 230 and the 3rd blowing element.3rd blowing mouth 230 sets on the bracket 210, and the blowing mouth of the 3rd blowing mouth 230 is upward.The work top of sack filling machine 200 can be blown afloat to suspended state by the 3rd blowing mouth 230 blowing with the first shirt body cut-parts on support 210.Controlling organization is electrically connected with the 3rd blowing element.

The quantity of the 3rd blowing mouth 230 can have multiple.First shirt body cut-parts blow afloat and the first shirt body cut-parts can be made when sewing to suspended state, will not produce gauffer phenomenon because sticking on the work top of sack filling machine 200.At the present embodiment, in order to coordinate locating platform 3121, the 3rd blowing mouth 230 can be arranged on locating platform 3121, and the blowing mouth of the 3rd blowing mouth 230 is upward.

3rd blowing mouth 230 is arranged on the supporting plate.In the present embodiment, in order to coordinate with slide feed mechanism 300, gripper shoe and locating platform 3121 be can be set to integral type, economize on resources, save space.In the accompanying drawings, locating platform 3121 is merely illustrated.

Pack device, when sewing, comprises the steps:

The pack at pack mold mechanism 240 of first shirt body cut-parts and bag bag webs positions and delivers at sewing device 250 by pack mold mechanism 240; it is positioned at the first shirt body cut-parts at sewing device 250 and puts in place after induction apparatus senses the first shirt body cut-parts; controlling organization controls roller and presses in the first shirt body cut-parts; by the rolling of roller and the first shirt body cut-parts being moved, sewing device 250 sewing is passed through in the first shirt body cut-parts of movement.

While roller rolls, controlling organization control the 3rd blowing element is dried by the 3rd blowing mouth 230 and first shirt body cut-parts is blown to suspended state.First shirt body cut-parts of levitation device will not produce gauffer when sewing, it is simple to the public affairs of sewing stitching are whole.After sewing, roller rises reset.First shirt body cut-parts enter in next operation slide machine 400.

Shown in Figure 2, slide feed mechanism 300 is located on board and between sack filling machine and slide machine 400, and slide feed mechanism 300 is for delivering to the first shirt body cut-parts after pack at slide machine 400.Slide feed mechanism 300 includes slide frame 311, slide positioner 312, slide pay-off 313 and controlling organization.

Shown in Figure 1, slide positioner 312 has locating platform 3121, slide location-plate 3122, slide detection and localization parts 3123 and the first blowing parts.Locating platform 3121 is located in slide frame 311 for receiving from the first shirt body cut-parts on the work top of sack filling machine 200.Slide location-plate 3122 is located on locating platform 3121.

Slide detection and localization parts 3123 are located on locating platform 3121 and close to slide location-plate 3122.Slide detection and localization parts 3123 have multiple induction apparatus.Induction apparatus is distributed on locating platform 3121 and between slide location-plate 3122 and the first blowing parts.Induction apparatus is close to the edge of slide location-plate 3122.

Induction apparatus Cleaning Principle is according to whether induction apparatus senses the first shirt body cut-parts, because induction apparatus is provided in the edge of slide location-plate 3122, when the edge of the first shirt body cut-parts running fix to slide location-plate 3122, represent that the first shirt body cut-parts have put in place, i.e. first shirt body cut-parts have been in positioning states, and now material folding parts get final product material folding.Controlling organization is electrically connected at slide detection and localization parts 3123.When slide detection and localization parts 3123 are not detected by the first shirt body cut-parts, controlling organization continues to control the first blowing parts blowing, when slide detection and localization parts 3123 detect the first shirt body cut-parts, slide detection and localization parts 3123 provide signal and stop blowing to controlling organization, controlling organization control the first blowing parts.

First blowing parts are blown to and the justified margin of slide location-plate 3122 toward slide location-plate 3122 for by the first shirt body cut-parts.In the present embodiment, the first blowing parts have the first blowing mouth 3124 and the first blowing element.First blowing mouth 3124 is located on locating platform 3121 and the blowing mouth of the first blowing mouth 3124 is towards slide location-plate 3122.The first above-mentioned blowing element is connected to the first blowing mouth 3124 and can be dried by the first blowing mouth 3124.Controlling organization is electrically connected at the first blowing element.

Shown in Figure 1, further, the quantity of the first blowing mouth 3124 is multiple, and multiple first blowing mouths 3124 are distributed on the same line and interval between the first adjacent blowing mouth 3124 is equal.The straight line at multiple first blowing mouth 3124 places and the location sides aligned parallel of slide location-plate 3122.It is uniform that multiple first blowing mouths 3124 are uniformly distributed the wind-force being to be subject to for each position of the first shirt body cut-parts, it is to avoid the first shirt body cut-parts gauffer occur because blowing is irregular.

Shown in Figure 1, slide pay-off 313 has material folding parts, material folding driver part and slide rail 3136.Material folding driver part is located in slide frame 311 and is connected to material folding parts.Material folding driver part is used for by the first shirt body cut-parts after driving material folding parts to clamp location and can the first shirt body cut-parts be moved to slide machine 400.Controlling organization is electrically connected at material folding driver part.

In the present embodiment, material folding driver part has the first material folding driving element 3134 and the second material folding drives element 3135.First material folding drives element 3134 to be connected to material folding parts and moves for driving material folding parts in the vertical direction, and the second material folding drives element 3135 to be connected to the first material folding driving element 3134 for driving the first material folding to drive element 3134 and material folding parts to move in the horizontal direction.Controlling organization is electrically connected at the first material folding and drives element 3134 and the second material folding to drive element 3135.

Slide pay-off 313 also has material conveying platform 3137.Material conveying platform 3137 is located in slide frame 311 and is horizontally disposed with, and the height of material conveying platform 3137 is arranged to highly consistent with the work top of slide machine 400, in order to feeding.Material folding driver part is clamped the first shirt body cut-parts by driving material folding parts and can the first shirt body cut-parts be moved to slide machine 400 from material conveying platform 3137.

Above-mentioned slide rail 3136 is located in slide frame 311, and slide rail 3136 is positioned at the top of material conveying platform 3137.The first above-mentioned material folding drives element 3134 to be slidably connected on slide rail 3136.Second material folding drives element 3135 to be connected to the first material folding driving element 3134 for driving the first material folding to drive element 3134 to move along slide rail 3136.

Material folding parts have the first material folding plate the 3131, second material folding plate 3132 and material folding folding element 3133.Material folding folding element 3133 is located on material folding driver part.Material folding folding element 3133 is connected to the first material folding plate 3131 and the second material folding plate 3132 and closes for driving the first material folding plate 3131 to open with the second material folding plate 3132 or press from both sides.Controlling organization is electrically connected at material folding folding element 3133.

The slide feed mechanism 300 that the present embodiment relates to, when for the first shirt body cut-parts being delivered on slide machine 400 on sack filling machine 200, relates to a kind of automatic feeding method, this automatic feeding method, comprises the steps:

The first shirt body cut-parts on sack filling machine 200 enter on locating platform 3121 after pack, sewing.Controlling organization is controlled the blowing element of slide positioner 312 and is dried by multiple first blowing mouths 3124, first blowing mouth 3124 is dried and is blown at slide location-plate 3122 by the first shirt body cut-parts so that the edge of the first shirt body cut-parts and the location justified margin of slide location-plate 3122.

Controlling organization control slide detection and localization parts 3123 detection of slide positioner 312 cut out the edge of the first shirt body cut-parts whether with the edge, location being aligned in slide location-plate 3122.

Controlling organization controls the first material folding of the material folding driver part of slide pay-off 313 and drives element 3134 to drive material folding parts in the vertical direction to rise to material conveying platform 3137, the first shirt body cut-parts are made to enter material conveying platform 3137 Shanghai, controlling organization controls the second material folding of the material folding driver part of slide pay-off 313 and drives element 3135 to drive the first material folding to drive element 3134 to move along slide rail 3136 with material folding parts so that the first shirt body cut-parts are moved to the work top of slide machine 400 along material conveying platform 3137.

The slide feed mechanism 300 that the present embodiment relates to, it is provided with at the slide location-plate 3122 that the first shirt body cut-parts can be positioned on locating platform 3121 by the cooperation of slide detection and localization parts 3123 and the first blowing parts by slide positioner 312, save and be positioned manually, save trouble and labor, and the progress positioned is high.Behind the first shirt body cut-parts location, by the material folding parts of slide pay-off 313, above-mentioned first shirt body cut-parts are clamped, material folding parts are driven the first shirt body cut-parts to be moved to slide machine 400 by material folding driver part again, achieve automatization's feeding, manpower is saved in self-feeding, the saving time, and feeding efficiency is high.

The pack device that the present embodiment relates to, it is provided with the second blowing parts, second blowing element of the second blowing parts can be dried by the second blowing mouth 220, the the first shirt body cut-parts part hung down to below the work top of sack filling machine 200 can be blown afloat to level by the second blowing mouth 200 blowing, the the first shirt body cut-parts being in level are the most convenient at the traveling process of sewing, first shirt body cut-parts will not produce gauffer, save the operation manually holding the first shirt body cut-parts, save manpower, and the first shirt body cut-parts sewing quality is high, sewing stitching will not offset, first shirt body cut-parts will not produce gauffer.

Repair a machine 500 to be located on board for pruning cylinder cut-parts 20.Controlling organization is electrically connected at repaiies a machine 500.

First mechanical hand 600 is located on board and moves to opening on button hole machine 800 for by cylinder cut-parts 20.Controlling organization is electrically connected at the first mechanical hand 600.

Drive button hole machine 800 for button hole is opened in cylinder cut-parts 20.Controlling organization is electrically connected at out button hole machine 800.

Send cut-parts device 900 to be arranged on the side of pull-button machine 1000, send and many folded second shirt body cut-parts 30 on cut-parts device 900, can be placed, send cut-parts device 900 second shirt body cut-parts 30 to be delivered on pull-button machine 1000.Send cut-parts device 900 can use existing feed mechanism,

Pull-button machine 1000 forms button cut-parts for second Piao's bar joint close to the second shirt body cut-parts 30.Controlling organization is electrically connected at pull-button machine 1000.

Repair button machine 1100 for pruning button cut-parts.Controlling organization is electrically connected at repaiies button machine 1100.

Second mechanical hand is located on board to be delivered on button-sewing machine 1400 for by button cut-parts.Controlling organization is electrically connected at the second mechanical hand.

Button-sewing machine 1400 is for button cut-parts buttoning.Controlling organization is electrically connected at button-sewing machine 1400.

First press 700 is located on board.Controlling organization is electrically connected at the first press 700 and sets.

First mechanical hand 600 is additionally operable to cylinder cut-parts 20 be moved to the first press 700, and the first press 700 is for carrying out pressing bonding by the cylinder bar in cylinder cut-parts 20, first Piao's bar joint close and the first shirt body cut-parts.

Second press 1300 is located on board.Controlling organization is electrically connected at the second press 1300.

Second mechanical hand is additionally operable to button cut-parts be moved to the second press 1300, and the second press 1300 is for carrying out pressing bonding by second Piao's bar in button cut-parts and the second shirt body cut-parts 30.

In the present embodiment, drive button hole machine 800 to include out button hole frame 810, drive button hole positioner 820, first drive button hole pay-off 830, second open button pay-off 840, initial bit detection part 850, correction detection part 860, open button hole device 870, drive button hole sewing device, mobile material collecting device 880 and controlling organization.Open button hole frame 810 to have and open button hole work top 811 for placing tube cut-parts 20.

The quantity driving button hole machine 800 is at least two, opens button hole machine 800 column distribution for two.Because repairing a machine 500 speed of repairing of each cut-parts 20 is about 20s, and driving button hole machine 800 to the button speed of opening of each cut-parts 20 is 40s, therefore two be can arrange and button hole machine 800 column distribution opened, cylinder fireballing cylinder cut-parts 20 will be repaiied successively deliver to two and open on button hole machine 800 reaching the first mechanical hand 600, mate with the efficiency repairing cylinder with the efficiency reaching out button.

Drive button hole positioner 820 to there is out button hole location-plate 821, open button hole blowing parts 822 and open button hole detection and localization parts 823.Drive button hole location-plate 821 to be located at out on button hole work top 811.Opening the blowing mouth of button hole blowing parts 822 towards driving button hole location-plate 821 for being blown to out cylinder cut-parts 20 at button hole location-plate 821 position, the quantity of blowing mouth opening button hole blowing parts 822 is multiple, and blowing mouth is all connected to out button hole work top 811.Open button hole detection and localization parts 823 and be located at out in button hole frame 810 and be connected to out button hole blowing parts 822, open button hole detection and localization parts 823 for detecting whether a cut-parts 20 position.Controlling organization is electrically connected at out button hole detection and localization parts 823, and controlling organization is electrically connected at out button hole blowing parts 822.

In the present embodiment, drive button hole positioner 820 and also there are tune code parts, adjust code parts the most not shown, adjust code parts to be located at 210 lower sections opening button hole work top 811, adjust code parts can be automatically adjusted open the position of button hole location-plate 821.Controlling organization is electrically connected at tune code parts.

First drives button hole pay-off 830 has the first pressing plate 831 and the first pressing plate driver part 832.First pressing plate driver part 832 is located at out in button hole frame 810 and is connected to the first pressing plate 831, and the first pressing plate driver part 832 moves for driving the first pressing plate 831 and pushes down a cut-parts 20 and a cut-parts 20 can be driven to move towards opening button hole work top 811.Controlling organization is electrically connected at the first pressing plate driver part 832.

Second drives button pay-off 840 has the second pressing plate 841 and the second pressing plate driver part 842.Second pressing plate driver part 842 is located at out in button hole frame 810 and is connected to the second pressing plate 841.Second pressing plate driver part 842 is pushed down the cylinder cut-parts 20 at initial station for driving the second pressing plate 841 and a cut-parts 20 can be driven to move to opening in button hole device 870.Controlling organization is electrically connected at the second pressing plate driver part 842.

Whether the position that initial bit detection part 850 is located at out in button hole frame 810 for detection cylinder cut-parts 20 enters out at the initial station of button hole device 870.Controlling organization is electrically connected at initial bit detection part 850.

Correction detection part 860 is located at out in button hole frame 810.Correction detection part 860 is for detecting whether the button hole position to be opened in a cut-parts 20 is in the center of initial station.When in cylinder cut-parts 20 in time opening the center that button hole position is not in initial station, correction detection part 860 by the second pressing plate driver part 842 moving cylinder cut-parts 20 until button hole position to be opened in cylinder cut-parts 20 is in the center of initial station.Controlling organization is electrically connected at correction detection part 860.

Open the cylinder cut-parts 20 that button hole device 870 is located at out in button hole frame 810 for sending the first pressing plate 831 here and open button hole.Controlling organization is electrically connected at out button hole device 870.

Open button hole sewing device to be located at out in button hole frame 810 and carry out sewing for the button hole edge of cylinder cut-parts 20.Controlling organization is electrically connected at out button hole sewing device.In order to save out button hole frame 810 space, in the present embodiment, opening button hole device 870 and open the setting of button hole sewing apparatus integration, the sewing syringe needle that also will open button hole sewing device is arranged on out the lower section of button hole device 870, and sewing syringe needle and the button cutter of opening opening button hole device 870 are arranged side by side.

Mobile material collecting device 880 is located at out in button hole frame 810 drives button and by opening cylinder cut-parts 20 rewinding after button hole sewing device sewing for split button hole device 870.

In the present embodiment, move material collecting device 880 and there is rewinding plate 881, material receiving desk 882, rewinding driver part 883 and rewinding detection part 884.Rewinding driver part 883 is located at out in button hole frame 810 and is connected to rewinding plate 881.Controlling organization is electrically connected at rewinding driver part 883.

Rewinding driver part 883 is used for driving rewinding plate 881 to move to opening button hole sewing device sentencing and push down a cut-parts 20 rewinding.Rewinding detection part 884 is located at out in button hole frame 810, and rewinding detection part 884 is used for detecting whether a cut-parts 20 move to predeterminated position.When rewinding detection part 884 detects that a cut-parts 20 arrive predeterminated position, rewinding driver part 883 drives rewinding plate 881 rewinding.Material receiving desk 882 is close to opening button hole frame 810, and rewinding driver part 883 is located on material receiving desk and sentences and push down a cut-parts 20 and cylinder cut-parts 20 moved to material receiving desk 882 for driving rewinding plate 881 to move to opening button hole sewing device.The bottom of material receiving desk 882 has multiple castor 885, so that material receiving desk 882 can move.

In the present embodiment, the quantity driving button hole machine 800 can be multiple, and as being provided that in accompanying drawing, two are driven button hole machine 800, but share a mobile material collecting device 880, to economize on resources, it is provided that efficiency.

What the present embodiment related to open button hole machine 800, when opening button hole for front width cylinder cut-parts 20, relates to out button hole method, and this opens button hole method, comprises the steps:

Cylinder cut-parts 20 are placed in out the opening on button hole work top 811 of button hole frame 810.

Controlling organization is controlled to open the button hole blowing parts 822 of opening of button hole positioner 820 and is dried by multiple blowing mouths, cylinder cut-parts 20 is blown to out at button hole location-plate 821.Controlling organization controls to open button hole detection and localization parts 823 and detects cylinder cut-parts 20 and put in place the most completely, when opening button hole detection and localization parts 823 and detecting that a cut-parts 20 position the most completely, opening button hole detection and localization parts 823 and provide signal to controlling organization, controlling organization controls to open button hole blowing parts 822 and continues blowing until cylinder cut-parts 20 position completely.

Controlling organization controls the first the first pressing plate driver part 832 driving button hole pay-off 830 and drives the first pressing plate 831 to move and push down a cut-parts 20 and drive a cut-parts 20 to move to opening at the initial station of button hole device 870 towards opening button hole work top 811.

Controlling organization control initial bit detection part 850 detects whether the position of cylinder cut-parts 20 enters out at the initial station of button hole device 870.When the position that initial bit detection part 850 does not detects a cut-parts 20 is introduced into out at the initial station of button hole device 870 (namely initial bit detection part 850 does not detects a cut-parts 20 at initial station), initial bit detection part 850 provides signal to controlling organization, and controlling organization controls the first pressing plate driver part 832 and continues to drive the first pressing plate 831 to continue to drive cylinder cut-parts 20 to move until opening the initial station of button hole device 870.

When initial bit detection part 850 detects tin cut-parts 20 at initial station, controlling organization controls the first pressing plate 831 and resets.

Controlling organization error correct detection part 860 detects whether the button hole position to be opened in cylinder cut-parts 20 is in the center of initial station.When in cylinder cut-parts 20 in time opening the center that button hole position is not in initial station, correction detection part 860 provides signal to controlling parts, and controlling organization controls the second pressing plate driver part 842 moving cylinder cut-parts 20 until button hole position to be opened in cylinder cut-parts 20 is in the center of initial station.

Controlling organization controls the second the second pressing plate driver part 842 driving button pay-off 840 and drives the second pressing plate 841 push down the cylinder cut-parts 20 at initial station and drive a cut-parts 20 to move linearly to opening in button hole device 870.

Second pressing plate driver part 842 drives cylinder cut-parts 20 to move according to the track opening button hole, and controlling organization controls to open the cylinder cut-parts 20 that the first pressing plate 831 sent here by button hole device 870 and opens button hole.Second pressing plate driver part 842 drives cylinder cut-parts 20 to move according to the track of seam button hole, and controlling organization controls to open button hole sewing device and the button hole edge of cylinder cut-parts 20 is carried out sewing.

What the present embodiment related to drives button hole machine 800, is provided with out button hole positioner 820 for positioning cylinder cut-parts 20.Opening opening button hole detection and localization parts 823 blowing parts 822 can realizing automatization location to cylinder cut-parts 20 with opening button hole of button hole positioner 820, save manpower, location efficiency is high；It is provided with first and drives button hole pay-off 830 for moving cylinder cut-parts 20 to opening at button hole device 870；It is provided with out button hole device 870 for button hole is opened in cylinder cut-parts 20；It is provided with out button hole sewing device for the button hole edge of cylinder cut-parts 20 is carried out sewing.That originally executes that example relates to drives button hole machine 800, it is achieved that the automatization that front width cylinder cut-parts 20 (width cylinder cut-parts 20 before needing the clothing of button hole) produce, and is greatly saved manpower, has saved the time, and production efficiency is high.

In the present embodiment, central control system can also be set, this central control system is connected to above-mentioned controlling organization, central control system can be connected to the computer of office system, human-computer interaction can be realized, the artificial operating computer that passes through can realize the central control system control to controlling organization, and each data of controlling organization all can show on computers so that front width is processed more intelligent automatically.

The present embodiment has further related to the another object of utility model and has been to provide a kind of front width automatic processing method.

Width automatic processing method before a kind of, comprises the steps:

Bag mouth cut-parts being placed in car bag mouth mechanism 100, controlling organization controls car bag mouth mechanism 100 and carries out folding and pressing to the edge of bag mouth cut-parts；

First shirt body cut-parts and bag mouth cut-parts being placed on sack filling machine 200, controlling organization controls sack filling machine 200 and packs the first shirt body cut-parts；

Controlling organization controls slide feed mechanism 300 and the first shirt body cut-parts after pack is delivered on slide machine 400；

Controlling organization controls slide machine 400 and in the first shirt body cut-parts, cylinder bar and first Piao's bar joint close is formed cylinder cut-parts 20；

Controlling organization controls to repair a machine 500 and prunes cylinder cut-parts 20；

Controlling organization controls the first mechanical hand 600 and cylinder cut-parts 20 is moved to the first press 700, controlling organization controls the first press 700 and cylinder bar, first Piao's bar and the first shirt body cut-parts pressing is bonded, and controlling organization controls the first mechanical hand 600 and cylinder cut-parts 20 delivered to out on button hole machine 800；

Controlling organization controls to drive button hole machine 800 for cylinder cut-parts 20 are opened button hole；

Second shirt body cut-parts 30 being placed on pull-button machine 1000, controlling organization controls pull-button machine 1000 and to the second shirt body cut-parts 30, second Piao's bar joint close is formed button cut-parts；

Controlling organization controls to repair button machine 1100 and prunes button cut-parts；

Controlling organization controls the second mechanical hand and button cut-parts is delivered on the second press 1300, controlling organization controls the second press 1300 by second Piao's bar and the bonding of the second shirt body cut-parts 30 pressing, controlling organization controls the second mechanical hand and delivers on button-sewing machine 1400 by button cut-parts, and controlling organization controls button-sewing machine 1400 for button cut-parts are carried out buttoning.

The front width automatic processing system 10 that the present embodiment relates to, is provided with a cut-parts organisation of working and button cut-parts organisation of working；Cylinder cut-parts organisation of working includes car bag mouth mechanism 100, sack filling machine 200, slide machine 400, slide feed mechanism 300, repaiies a machine the 500, first mechanical hand 600 and drive button hole machine 800；It is provided with car bag mouth mechanism 100 for folding the edge of bag mouth cut-parts；Be provided with sack filling machine 200 for by bag mouth cut-parts sewing to the first shirt body cut-parts；It is provided with slide machine 400 for cylinder bar and first Piao's bar joint close are formed cylinder cut-parts 20 to the first shirt body cut-parts；It is provided with slide feed mechanism 300 for the first shirt body cut-parts after pack being delivered at slide machine 400；It is provided with and repaiies a machine 500 for pruning a cut-parts 20；It is provided with the first mechanical hand 600 for moving cylinder cut-parts 20 to driving button hole machine 800, is provided with out button hole machine 800 for button hole is opened in cylinder cut-parts 20.Button cut-parts organisation of working includes pull-button machine 1000, repaiies button machine the 1100, second mechanical hand and button-sewing machine 1400；It is provided with pull-button machine 1000 and to the second shirt body cut-parts 30, forms button cut-parts for second Piao's bar joint close；It is provided with and repaiies button machine 1100 for pruning button cut-parts；It is provided with the second mechanical hand for button-sewing machine 1400 is delivered in button cut-parts, is provided with button-sewing machine 1400 for button cut-parts buttoning.

The front width automatic processing system 10 that the present embodiment relates to is arranged by the linkage of above-mentioned all parts, by pack, slide, repair cylinder, cross press, open button hole, pull-button, repair the multiple tracks such as button and buttoning single operation linkageization, before realizing, width produces the automatic of each and every one operations many and linkage, saving time, saving manpower, efficiency relatively replies raising.And, the front width automatic processing system 10 that this utility model relates to, left and right two cut-parts of width namely the first shirt body cut-parts before achieving clothing, the second shirt body cut-parts 30 can one_to_one corresponding and simultaneously producing, further saved the time, improve production efficiency.

What the present embodiment related to drives button hole machine 800, is provided with out button hole positioner for positioning cylinder cut-parts 20.Opening opening button hole detection and localization parts blowing parts can realizing automatization location to cylinder cut-parts 20 with opening button hole of button hole positioner, save manpower, location efficiency is high；It is provided with first and drives button hole pay-off for moving cylinder cut-parts 20 to opening at button hole device；It is provided with out button hole device for button hole is opened in cylinder cut-parts 20；It is provided with out button hole sewing device for the button hole edge of cylinder cut-parts 20 is carried out sewing.What this utility model related to drives button hole machine 800, it is achieved that the automatization that front width cylinder cut-parts 20 (width cylinder cut-parts 20 before needing the clothing of button hole) produce, and is greatly saved manpower, has saved the time, and production efficiency is high.

The slide feed mechanism 300 that the present embodiment relates to, be provided with slide positioner can be by the cooperation slide location-plate that the first shirt body cut-parts are positioned on locating platform of slide detection and localization parts and the first blowing parts at, save and be positioned manually, save trouble and labor, and the progress positioned is high.Behind the first shirt body cut-parts location, by the material folding parts of slide pay-off, above-mentioned first shirt body cut-parts are clamped, then drive material folding parts described first shirt body cut-parts to be moved to slide machine 400 by material folding driver part.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (9)

1. width automatic processing system before a kind, it is characterised in that include board, cylinder cut-parts organisation of working and Button cut-parts organisation of working；

Described cylinder cut-parts organisation of working include car bag mouth mechanism, sack filling machine, slide machine, slide feed mechanism, Repair a machine, the first mechanical hand and drive button hole machine；Described car bag mouth mechanism is located on described board for folding The edge of folded bag mouth cut-parts；Described sack filling machine is used for described bag mouth cut-parts sewing to the first shirt body cut-parts； Described slide machine is for cutting out cylinder bar and first Piao's bar joint close to the described first shirt body with described bag mouth cut-parts Cylinder cut-parts are formed on sheet；Described slide feed mechanism is between described sack filling machine and described slide machine, described Slide feed mechanism is for delivering to the described first shirt body cut-parts after pack at described slide machine；Described repair cylinder Machine is used for pruning described cylinder cut-parts；The described cylinder cut-parts after pruning of described first mechanical hand are moved to institute State out at button hole machine, described in open button hole machine for prune after described cylinder cut-parts open button hole；

Described button cut-parts organisation of working includes pull-button machine, repaiies button machine, the second mechanical hand and button-sewing machine；Described Pull-button machine is for forming button cut-parts by second Piao's bar joint close to the second shirt body cut-parts；Described button machine of repairing is for repairing Cut described button cut-parts；The described button cut-parts after pruning of described second mechanical hand are delivered at described button-sewing machine, Described button-sewing machine is for the described button cut-parts buttoning after pruning.

Front width automatic processing system the most according to claim 1, it is characterised in that described cylinder cut-parts add Work mechanism also includes that the first press, described first press are used for being located at described board；

Described first mechanical hand is additionally operable to move to described first press described cylinder cut-parts, described first pressure Machine is for entering the described cylinder bar in described cylinder cut-parts, described first Piao's bar joint close with described first shirt body cut-parts Row pressing bonds.

Front width automatic processing system the most according to claim 1, it is characterised in that described button cut-parts add Work mechanism also includes that the second press, described second press are used for being located at described board；

Described second mechanical hand is additionally operable to move to described second press described button cut-parts, described second pressure Machine is for carrying out pressing bonding by the described second Piao's bar in described button cut-parts with described second shirt body cut-parts.

4. according to the front width automatic processing system described in claim 1-3 any one, it is characterised in that institute The quantity stating out button hole machine is at least one.

Front width automatic processing system the most according to claim 4, it is characterised in that described cylinder cut-parts add Work mechanism also includes mobile material collecting device, described mobile material collecting device near described in open button hole machine, described movement Material collecting device can to open described in multiple on button hole machine open button hole after described cylinder cut-parts move rewinding.

6. according to the front width automatic processing system described in claim 1-3 any one, it is characterised in that institute State out button hole machine to include out button hole frame, drive button hole positioner, first drive button hole pay-off, open button hole Device and open button hole sewing device；Described open button hole frame have for placing tube cut-parts open button hole work Table top；

Described button hole positioner of opening has out button hole location-plate, opens button hole blowing parts and open button hole location Detection part, described in open button hole location-plate be located at described in open on button hole work top, described in open button hole blowing parts Blowing mouth open at button hole location-plate described in described cylinder cut-parts are blown to towards described button hole location-plate of opening Location, described in open button hole detection and localization parts be located at described in open in button hole frame and open button hole described in being connected to and blow Wind part, described in open button hole detection and localization parts for detecting whether described cylinder cut-parts position；

Described first drives button hole pay-off has the first pressing plate and a first pressing plate driver part, and described first Pressing plate driver part leaves in button hole frame and is connected to described first pressing plate described in being located at, and described first pressing plate drives Dynamic component is used for driving described first pressing plate to move push down described cylinder cut-parts towards described button hole work top of opening And described cylinder cut-parts can be driven to move；

Described open button hole device be located at described in open in button hole frame for described in described first pressing plate is sent here Button hole is opened in cylinder cut-parts；Described open button hole sewing device be located at described in open and cut out for described cylinder in button hole frame The button hole edge of sheet carries out sewing.

Front width automatic processing system the most according to claim 6, it is characterised in that also include initial bit Detection part, described initial bit detection part be located at described in open in button hole frame for detect described cylinder cut-parts Position whether enter described in open at the initial station of button hole device.

Front width automatic processing system the most according to claim 7, it is characterised in that also include that second opens Button pay-off, described second drives button pay-off has the second pressing plate and the second pressing plate driver part, institute State the second pressing plate driver part be located at described in open in button hole frame and be connected to described second pressing plate；Described second Pressing plate driver part pushes down described cylinder cut-parts at described initial station can for driving described second pressing plate Drive described cylinder cut-parts to move to open in button hole device to described.

9. according to the front width automatic processing system described in claim 1-3 any one, it is characterised in that institute State slide feed mechanism, including slide frame, slide positioner and slide pay-off；Described slide Positioner has locating platform, slide location-plate, slide detection and localization parts and the first blowing parts, Described locating platform is located in described slide frame for receiving from the first shirt on the work top of sack filling machine Body cut-parts, described slide location-plate is located on described locating platform, and described slide detection and localization parts are located at institute Stating on locating platform and close to described slide location-plate, described first blowing parts are fixed toward described slide Position plate is blown to and the location justified margin of described slide location-plate for by described first shirt body cut-parts；

Described slide pay-off has material folding parts and material folding driver part；Described material folding driver part sets In described slide frame and be connected to described material folding parts, described material folding driver part is for by driving institute State the described first shirt body cut-parts after material folding parts clamp location and described material folding parts can be driven described One shirt body cut-parts are moved to slide machine.