CN203890634U - Layered cloth sewing machine - Google Patents

Abstract

The utility model relates to a layered cloth sewing machine. The layered cloth sewing machine comprises two front-end binding-off devices in bilateral symmetry, a cloth turnover device, a rear-end binding-off device and a finished product output device. Layered cloth is subjected to bilateral synchronous binding-off processing via the two front-end binding-off devices prior to falling into the cloth turnover device, and the cloth turnover device turns over the cloth and feeds the cloth into the rear-end binding-off device. The finished product output device is located below the rear-end binding-off device, and delivers the processed layered cloth out of the machine. By the means, starting from processing steps of common products, the advantageous structure with bilateral binding-off and end binding-off functions is designed in a targeted manner for the cloth sewing machine. In order to improve mechanical properties, a transmission structure relatively low in consumption is improved. From the perspective of working efficiency of the machine, the layered cloth sewing machine is continuous in working process; furthermore, quality of finished products is guaranteed through a series of auxiliary processing structures.

Description

A kind of stratiform cloth tailoring machine

Technical field

The utility model relates to a kind of cloth and makes apparatus, particularly relates to a kind of stratiform cloth tailoring machine.

Background technology

In daily life, light industrial products are flooded with our surrounding as indispensable daily necessities.Most light industry product, taking cloth as material cell, is spliced by the stitching of different modes, for example dress ornament, towel, curtain, sheet quilt cover etc.It is apparent that cloth is made the effect of machine, the most common be also the most traditional cloth to make machine be exactly Sewing machines, taking manual operation as main, for the stitching of light industry processing fabric.But different goods have different preparation methods.Making of the splicing processing of individual layer cloth and multilayer cloth is to have different operations.Such as towel, quilt cover, pillowcase etc., make after compound with Multilayer plus material.

Make size that need to ensure material etc. due to multilayer cloth, thus this class to make machine uncommon be main mainly with manual type.But develop rapidly along with industrialized, the continuous progress of mechanical pipelining, the equipment of some similar " sergers " arises at the historic moment.The limit portion that these equipment can complete stratiform cloth binds off, for example Chinese invention patent " a kind of stop mechanism for towel machine ", and its application number is: 201310429721.X.It discloses a kind of towel process equipment, comprises pay-off, the first processing unit (plant) and the second processing unit (plant); Pay-off, the first processing unit (plant) and the second processing unit (plant) relative fixed placement successively; Pay-off is sent to cloth the cloth of by the first processing unit (plant), pay-off being sent again in the first processing unit (plant) and carries out once bilateral binding off; After this by the second processing unit (plant), the cloth of sending from the first processing unit (plant) is carried out again again that secondary is bilateral to bind off.From process, this structure can only be carried out the processing of binding off of bilateral step by step to stratiform cloth, and is for this small-size product of towel.When needs are processed as the product of the three side seam systems such as quilt cover, just cumbersome.

Utility model content

The technical problem that the utility model mainly solves is to provide a kind of stratiform cloth tailoring machine, and it is reasonable in design, simple in structure, has solved the problem of making of multilayer cloth product.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is to provide a kind of stratiform cloth tailoring machine, and layered cloth apparatus for sewing comprises frame, symmetrical two front ends device, cloth turning device and the rear end device finished product output device that binds off that binds off; Stratiform cloth carries out two-side synchronous and binds off after processing and fall into cloth turning device through two described front ends device that binds off, and described cloth turning device is by cloth turn-over and send into the described rear end device that binds off; Described finished product output device is positioned at the bind off below of device, described rear end; The stratiform cloth processing is transferred out machine by described finished product output device.

Preferably, the bind off bottom of device of two described front ends is all connected with sliding table; Described sliding table coordinates guide rod and screw mandrel to realize spacing variation; The described front end device that binds off comprises that front end feeding linkage device, supplied materials flatten mechanism, automatic label delivering mechanism and front end serger; Described front end feeding linkage device comprises the first feed mechanism and the first link gear; Described the first feed mechanism is driven by described the first link gear; On the feeding path of described the first feed mechanism, set gradually supplied materials and flatten mechanism, automatic label delivering mechanism and front end serger; Described supplied materials flattens mechanism and is positioned at the charging aperture place of described the first feed mechanism front end; Described automatic label delivering mechanism and described front end serger are all positioned at the outside of described the first feed mechanism.

Preferably, described the first feed mechanism comprises that scroll-up/down is to the two roller groups of pressing and the servicing unit that is positioned at described roller group inner side; Described two roller groups are respectively upper roller group and lower roller group; Described upper roller group is provided with lift cylinder can drive this upper roller group upstream or downstream; Described servicing unit comprises base plate and roll extrusion unit; Described base plate is fixed on the inner side of described lower roller group; The height of described base plate is identical with the rolling surface height of described lower roller group; Described roll extrusion unit comprises driving wheel, multiple driven pulley, roll extrusion belt and pressing plate; Described driving wheel obtains power by the mode of belt wheel transmission from power source; Described roll extrusion belt sleeve is loaded on described driving wheel and described driven pulley; Described roll extrusion belt is pressed down and is fitted on described base plate by described pressing plate.

Preferably, described supplied materials flattens mechanism and comprises two material all in one piece parts that are oppositely arranged; Two described material all in one piece parts are respectively top material all in one piece part and bottom material all in one piece part; Described material all in one piece part comprises material all in one piece cylinder, connecting plate and pressure wheel; The front end fixed connecting plate of described material all in one piece cylinder; Described pressure wheel is installed on described connecting plate; Described material all in one piece cylinder forward pushes described pressure wheel, the pressure wheel in described top material all in one piece part and bottom material all in one piece part can fit roll extrusion make supplied materials flatten.

Preferably, described the first link gear comprises the first motor, main gear shaft and driving member; Described the first motor drives described main gear shaft to rotate; Described main gear shaft sends power to described the first feed mechanism by described driving member; Described driving member comprises the first rotating shaft, the second rotating shaft, the 3rd rotating shaft and double sided gear band; Described the second rotating shaft is between the first rotating shaft and the 3rd rotating shaft; Described the first rotating shaft and the 3rd rotating shaft are all set in described double sided gear band inner side; The outside of described double sided gear band is walked around described the second rotating shaft and is made the first rotating shaft and the second rotating shaft reverse turning mutually; Described the first rotating shaft drives the upper roller group in described the first feed mechanism; Described the second rotating shaft drives the lower roller group in described the first feed mechanism; Described the 3rd rotating shaft connects described main gear shaft.

Preferably, described automatic label delivering mechanism comprises successively material unit, cutting unit, pinches He Fuya unit, unit; Described in being positioned at, described cutting unit goes out in the discharging direction of material unit; Described go out material unit comprise the motor that is arranged in cabinet and roll a mark cylinder group; Described motor is driven and is rolled mark cylinder group roll extrusion trade mark by belt transmissioning mode; Described cutting unit comprises cutting knife and cutting knife cylinder; Described cutting knife cylinder connects described cutting knife and drives cutting knife incision; The described unit that pinches comprises the first stroke part and the second stroke part; Described the first stroke part comprises lower plate, fixed block and send gas cylinder; The described gas cylinder that send keeps crosswise pushing; The described gas cylinder that send connects described lower plate by described fixed block; On described fixed block, also connect described the second stroke part; Described the second stroke part comprises descending cylinder and the train wheel bridge of column, column upper end; Described column is anchored on described fixed block; Train wheel bridge described in termination before described descending cylinder connects; Described descending cylinder promotes train wheel bridge and declines; Described train wheel bridge coordinates clamping trade mark with described lower plate; Described auxiliary pressure unit presses to the trade mark that pinches unit clamping on the surface of stratiform cloth; Described auxiliary pressure unit comprises depression bar member and damped cylinder; Described depression bar member is fixed on the top of the described base plate in described the first feed mechanism; Described damped cylinder connects described depression bar member; The front end of described depression bar member is provided with presses mark wheel; Described damped cylinder promotes described depression bar member and presses down.

Preferably, the described rear end device that binds off comprises described rear end feeding linkage device and rear end serger; Described rear end feeding linkage device comprises the second feed mechanism and the second link gear; Described the second feed mechanism is identical with the structure of described the first feed mechanism; Described the second feed mechanism is driven by described the second link gear; Described the second feed mechanism outside is provided with rear end serger; Described the second link gear also synchronously drives described finished product output device.

Preferably, described the second link gear comprises the second motor, transition axis and described driving member; Described in described the second driven by motor, transition axis rotates; Described transition axis is connected with the second rotating shaft in described driving member by belt transmissioning mode; On described transition axis, also drive described finished product output device simultaneously; Described the second link gear is connected with described the second feed mechanism; Described the first rotating shaft drives the upper roller group of described the second feed mechanism; Described the second rotating shaft drives the lower roller group in described the second feed mechanism.

Preferably, described cloth turning device comprises cloth turning machine structure and Deng Bu mechanism; Described cloth turning machine structure is positioned at described front end and binds off in the discharging direction of device; Described Deng Bu mechanism is arranged on the below of described cloth turning machine structure; Described Deng Bu mechanism comprises cylinder and waits cloth component; The cloth components such as the piston rod driving of described cylinder move to the position that stratiform cloth falls.

Preferably, described cloth turning machine structure comprises the first pushing piece and the second pushing piece; Stratiform cloth is pushed to the described end device that binds off by described the first pushing piece; The propelling movement opposite direction of described the second pushing piece and described the first pushing piece; Described the second pushing piece is positioned in the propelling movement direction of described the first pushing piece; The propelling movement height of described the second pushing piece is lower than the propelling movement height of described the first pushing piece; Described the first pushing piece comprises that material ejection cylinder, guide rod and front end are provided with the link of push pedal; Described the second pushing piece comprises that described material ejection cylinder, described guide rod and front end are provided with the link of push rod; Described material ejection cylinder promotes link and slides on guide rod.

The beneficial effects of the utility model are: a kind of stratiform cloth tailoring machine is provided, and this cloth tailoring machine is taking the procedure of processing of common product as starting point, have for design the dominance structure that bilateral binds off and bind off in end.And in order to improve mechanical performance, optimization a relatively low consumed drive mechanism.From the operating efficiency of machine, from tailoring machine, process bilateral binds off this cloth successively, cloth overturns, bind off in end, end product output, and the course of work is very coherent; And by some row processing supplementary structures, the quality of finished product is also ensured to some extent.

Brief description of the drawings

Fig. 1 is the general structure schematic diagram of a kind of stratiform cloth of the utility model tailoring machine;

Fig. 2 is the primary structure schematic diagram of a kind of stratiform cloth of the utility model tailoring machine;

Fig. 3 is that the first link gear drives the bind off structural representation of device of two front ends;

Fig. 4 is that the second link gear drives the bind off structural representation of device of rear end;

Fig. 5 is the bind off concrete structure schematic diagram of device of wall scroll front end;

Fig. 6 is the structural representation of cloth turning machine structure;

Fig. 7 is the partial structurtes schematic diagram of upper and lower roller group in feed mechanism;

Fig. 8 is the local structural scheme of mechanism of servicing unit;

Fig. 9 is the bind off structural representation of device of driving member and front end in the first link gear;

Figure 10 is that in the second link gear the structural representation of device binds off driving member and rear end;

Figure 11 is the structural representation that supplied materials flattens mechanism;

Figure 12 is the structural representation of automatic label delivering mechanism;

In accompanying drawing, the mark of each parts is as follows: 1, the front end device that binds off; 2, cloth turning machine structure; 3, device binds off in rear end; 4, finished product output device; 5, sliding table; 6, guide rod; 7, screw mandrel; 8, motor; 9, supplied materials flattens mechanism; 10, feed mechanism; 11, automatic label delivering mechanism; 12, front end serger; 13, outside plate protective layer; 14, Deng Bu mechanism; 15, material all in one piece cylinder; 16, connecting plate; 17, pressure wheel; 18, upper roller group; 19, lower roller group; 20, servicing unit; 21, lift cylinder; 22, string borrel bogie; 23, base plate; 24, driving wheel; 25, driven pulley; 26, roll extrusion belt; 27, pressing plate; 28, the cloth component such as; 29, push pedal; 30, material ejection cylinder; 31, link; 32, guide rod; 33, push rod; 34, the first motor; 35, main gear shaft; 36, driving member; 37, the first rotating shaft; 38, the second rotating shaft; 39, the 3rd rotating shaft; 40, double sided gear band; 41, the second motor; 42, transition axis; 43, roll mark cylinder group; 44, cutting knife; 45, cutting knife cylinder; 46, lower plate; 47, train wheel bridge; 48, send gas cylinder; 49, descending cylinder; 50, depression bar member; 51, damped cylinder; 52, press mark wheel; 53, the second feeding structure; 54, rear end serger.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, thereby so that advantage of the present utility model and feature can be easier to be it will be appreciated by those skilled in the art that, protection domain of the present utility model is made to more explicit defining.

Refer to accompanying drawing 1 to 12, the utility model embodiment comprises:

A kind of stratiform cloth tailoring machine, as Fig. 1, is also equipped with the outside plate protective layer 13 of protection machine in machine exterior.As Fig. 2, comprise frame, symmetrical two front ends bind off device 1, cloth turning device, rear end bind off device 3 and finished product output device 4 at stratiform cloth apparatus for sewing; Stratiform cloth carries out two-side synchronous and binds off after processing and fall into cloth turning device through two front ends device 1 that binds off, and cloth turning device is by cloth turn-over and send into the rear end device that binds off; Above-mentioned finished product output device is positioned at the bind off below of device, rear end, and the stratiform cloth processing is transferred out machine by finished product output device 4.Taking processing quilt cover as example, above-mentioned structure can be processed the cloth of two individual layers step by step on a machine: first bound off two cloth bilaterals that stack are bound off by two-side synchronous; Then send into the rear end device that binds off through upset and carry out one-sided end and bind off, finally form the cloth pocket shape of a monolateral opening.Process is easily quick, does not need to spend more manpower completely and goes manual processing, can raise the efficiency.

The bind off bottom of device 1 of two symmetrical front ends is all connected with sliding table 5; As Fig. 2 and Fig. 5, sliding table 5 is set on guide rod, and sliding table 5 bottoms connect a screw mandrel 7 that is parallel to guide rod 6 again, regulate the displacement of sliding table by the rotation of screw mandrel; In the present embodiment, leading screw is driven by a motor 8, like this in the time that screw mandrel 7 rotates, the sliding table at leading screw two ends just can be simultaneously near or away from, change thereby realize the spacing that two front ends bind off between device; Reach the cloth product of processing different size by such structure, improve the service behaviour of equipment.

As Fig. 2 and Fig. 5, front end binds off and comprises that front end feeding linkage device, supplied materials flatten mechanism 9, automatic label delivering mechanism 11 and front end serger 12 on device 1.Front end feeding linkage device comprises the first feed mechanism 10 and the first link gear; Supplied materials pressing mechanism 9 is positioned at the charging aperture place of described the first feed mechanism front end.Supplied materials flattens mechanism and comprises two material all in one piece parts that are oppositely arranged; Two material all in one piece parts are respectively top material all in one piece part and bottom material all in one piece part.As Figure 11, in this material all in one piece part, there is a material all in one piece cylinder 15, at the front end fixed connecting plate 16 of material all in one piece cylinder 15, and pressure wheel 17 is also installed on connecting plate 16; When material all in one piece cylinder forward pushes when pressure wheel 17, the roll extrusion of can fitting of the pressure wheel in top material all in one piece part and bottom material all in one piece part flattens supplied materials.The effect of this structure is by smooth the stratiform cloth presser that is about to enter feeding mechanism, because cloth the south of multilayer there will be the phenomenons such as fold, can effectively adjust rapidly the state of cloth by this mechanism, not only can save manpower and can improve operating efficiency and the work quality of machine.

As Fig. 3 and Fig. 7, bind off on device at front end, the first feed mechanism 10 comprises that scroll-up/down is to the two roller groups of pressing and the servicing unit 20 that is positioned at roller group inner side; Two roller groups are respectively upper roller group 18 and lower roller group 19; Wherein upper roller group 18 is provided with lift cylinder 21 and can drives this upper roller group 18 upstream or downstream; The first feed mechanism 10 is carried stratiform cloth by the mutual roll extrusion of roller group, and the power of the first feed mechanism is provided by linkage; On the feeding path of the first feed mechanism 10, set gradually supplied materials and flatten mechanism 9, automatic label delivering mechanism 11 and front end serger 12, string borrel bogie 22 is also housed for the required line of using that binds off is provided at the rear side of front end serger 12.Automatic label delivering mechanism 11 and front end serger 12 are all positioned at the outside of the first feed mechanism 10.From scheming, can find out, stratiform cloth flattens smooth the entering in the first feed mechanism of mechanism 9 by supplied materials, in the process of transport, bind off 12 through front end serger, when binding off, 11, automatic label delivering mechanism can deliver to assigned address by trade mark and sews up up together, whole process is accomplished without any letup, suitable high efficiency.As Fig. 4, rear end the bind off operation principle of device 1 of device 3 and front end of binding off is the same, and as Figure 10, it comprises rear end feeding linkage device and rear end serger 54; Rear end feeding linkage device comprises the second feed mechanism 53 and the second link gear; The second feed mechanism 53 is driven by the second link gear; The second feed mechanism 53 outsides are provided with rear end serger 54 equally; Slightly different, in order to save the structure of cost and optimized device, the second link gear now also synchronously drives finished product output device 4.

As Fig. 3 and Fig. 8, on the first feed mechanism 10 and the second feed mechanism 53, be equipped with servicing unit 20, this servicing unit 20 comprises base plate 23 and roll extrusion unit; Base plate 23 is fixed on the inner side of lower roller group 19, and base plate 23 height are identical with the rolling surface height of lower roller group 19; Roll extrusion unit comprises driving wheel 24, multiple driven pulley 25, roll extrusion belt 26 and pressing plate 27; As figure, driven pulley is fixed on the framework of upper roller group 19, and driving wheel 24 obtains power by the mode of belt wheel transmission from power source; Driving wheel 24 and driven pulley 25 turn round and drive 26 one-way movements of roll extrusion belt; 26 of roll extrusion belts in rolling fit on base plate 23 to pressing down by pressing plate 27, thereby roll extrusion belt 26 can be compressed through the stratiform cloth on pressing plate 23.This structure can effectively flatten the cloth of multilayer, prevents cloth out-of-flatness in the process of binding off, and it has improved product quality greatly.

As Fig. 3 and Fig. 9, the first link gear comprises the first motor 34, main gear shaft 35 and driving member 36; The first motor 34 drives main gear shaft 35 to rotate; Main gear shaft 35 sends power to feed mechanism 10 by driving member 36; Driving member is taking the kind of drive of gear band mate gear axle as main, and it is made up of the first rotating shaft 37, the second rotating shaft 38, the 3rd rotating shaft 39 and double sided gear band 40; Above-mentioned the first rotating shaft 37 drives upper roller group 18 and servicing unit 20, the second rotating shafts 38 in the first feed mechanism 10 to drive the lower roller group 19 in the first feed mechanism 10; The 3rd rotating shaft 39 connects described main gear shaft 35.Double sided gear band 40 is set in the first rotating shaft 37 and the 3rd rotating shaft 39; The second rotating shaft 38 is between the first rotating shaft 37 and the 3rd rotating shaft 39; Double sided gear band 40 makes the first rotating shaft 37 and the mutual backwards rotation of the second rotating shaft 38 from walking around between the first rotating shaft 37 and the second rotating shaft 38, so just can drive the upper and lower roller group roll extrusion supplied materials in the first feed mechanism 10.The second link gear comprises the second motor 41, transition axis 42 and driving member 36; In the present embodiment, between the second motor 41 and excess axle, be provided with a gearbox; In the time that the second motor 41 drives transition axis 42 to rotate, transition axis 42 is connected with the second rotating shaft 38 in driving member 36 by belt transmissioning mode, now on transition axis 42, also drives finished product output device 4 simultaneously; Above-mentioned the second link gear is connected with the second feed mechanism 53; Its first rotating shaft 37 drives upper roller group 18 and the servicing unit 20 in the second feed mechanism 53, and its second rotating shaft 38 drives the lower roller group 19 in the second feed mechanism 53, has realized equally roll extrusion feeding.This drive mechanism is succinct, can not waste because of Multi-stage transmission power; And this configuration flexibility is high, is convenient for changing and repairs.

As Figure 12, automatic label delivering mechanism comprises successively material unit, cutting unit, pinches unit and auxiliary unit; Going out material unit comprises the motor being arranged in cabinet and rolls mark cylinder group 43; Motor is driven and is rolled mark cylinder group 43 roll extrusion trade marks by belt transmissioning mode; Cutting unit comprises on cutting knife 44, knife rest and cutting knife cylinder 45; Knife rest is fixed on the top of the discharging opening of material unit; Cutting knife cylinder 45 connects cutting knife 44 and drives cutting knife 44 incisions; Pinch unit and comprise the first stroke part and the second stroke part; The first stroke part comprises lower plate 46, fixed block and send gas cylinder 48; Send gas cylinder 48 to be fixed on cabinet outside and to crosswise pushing; Send the piston rod of gas cylinder 48 to connect lower plate 46 by fixed block; On fixed block, also connect the second stroke part; The second stroke part comprises column, descending cylinder 49 and train wheel bridge 47; Column is anchored on fixed block; Descending cylinder 49 is fixed on the upper end of column; Descending cylinder 49 connects front end and connects clamping plate 47; Descending cylinder 49 promotes train wheel bridge 47 declines and makes train wheel bridge 47 coordinate clamping trade mark with lower plate 46.The course of work is: trade mark rolls and sends out through going out to roll mark cylinder group 43, process cutting unit below is to pinching on the lower plate 46 of unit, now cutting knife 44 incisions are cut into and need size, after cutting off operation and completing, descending cylinder 49 promotes train wheel bridge 47 and presses down with lower plate 46 and coordinates and clamp trade mark, finally by sending gas cylinder 48 crosswise pushings to bind off on device 1 to the front end in front.Auxiliary unit presses to the trade mark that pinches unit clamping on the surface of stratiform cloth; Auxiliary unit comprises depression bar member 50 and damping 51 cylinders; In the present embodiment, depression bar member is three wooden fork compositions that are mutually each other 120 degree, and the center of depression bar member is provided with a rotating shaft, and by this rotating shaft, depression bar member 50 is fixed on to base plate 23 tops in front end pipeline 1; Prop up on wooden fork on the top that damped cylinder 51 is connected in depression bar member 50; The front end of two wooden forks of bottom is provided with presses mark wheel 52; When damped cylinder 51 promote top prop up wooden fork make auxiliary unit rotate time, a wooden fork up time of bottom or inverse time rotation can be rolled into the backplate surface of its below, if when now pinching unit trade mark being pinched to stratiform design on fabric surface on base plate 23, just press mark wheel 52 can coordinate whole feed mechanism that trade mark and stratiform cloth synchronous transport are gone out to enter the next one operation of binding off.Very coherent of the whole course of work, need to not process by the mode of manually making, and has improved significantly operating efficiency; Meanwhile, simple in structure, easy to operate, easy care.

Cloth turning device comprises cloth turning machine structure 2 and Deng Bu mechanism 14; Wherein cloth turning machine structure 2 is positioned in the discharging direction of front end pipeline 1, and Deng Bu mechanism 14 is arranged on the below of cloth turning machine structure 2; Deng Bu mechanism 14 comprises cylinder and cloth component 28 such as grade, and the cloth components 28 such as this air cylinder driven move to the position that stratiform cloth falls; In the present embodiment, Deng Bu mechanism is a claw-like member, the top of this claw-like member is a connecting rod, the upper end of connecting rod by a rotating shaft be fixed on cloth turning machine structure under, on claw-like member, connect a cylinder, this cylinder promotes claw-like member and rotates around rotating shaft, and when cylinder advances, the claw hook of claw-like member is intercepted in the cloth descent path of turning under cloth structure, can hold like this cloth of whereabouts.Wait cloth component below be finished conveying device, after claw-like member is removed, cloth can be fallen on this finished product output device smoothly, simple in structure effectively, can be cost-saving.This finished product output device is mainly selected Belt Conveying structure or roller structure for conveying.As mentioned above, this finished conveying device is driven by the second link gear.

As Fig. 6,2 of cloth turning machine structures comprise the first pushing piece and the second pushing piece, and wherein the structure of the first pushing piece comprises push pedal 29, material ejection cylinder 30, link 31 and guide rod 32; The second pushing piece comprises push rod 33, material ejection cylinder 30, link 31 and guide rod 32.On link 31 suits and guide rod 32,30 of material ejection cylinders promote on links 31 slips and guide rod 32.The first pushing piece and the second pushing piece are two highly irregular up and down pushing pieces, and the propelling movement opposite direction of the second pushing piece and described the first pushing piece; The second pushing piece is positioned in the propelling movement direction of the first pushing piece, and the propelling movement height of the second pushing piece is lower than the propelling movement height of the first pushing piece; Stratiform cloth part after bilateral has bound off falls into etc. after cloth apparatus 14, and the end portion of cloth also falls within on the first pushing piece; Now the first pushing piece pushes the stratiform cloth device that binds off to the back-end, simultaneously the second pushing piece by reverse the bottom of cloth propelling movement to reach the object of cloth upset.Install machines to replace manual labor, not only saved manpower but also improved operating efficiency.

The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a stratiform cloth tailoring machine, is characterized in that: layered cloth apparatus for sewing comprises frame, symmetrical two front ends bind off device, cloth turning device, rear end bind off device and finished product output device; Stratiform cloth to be processed carries out two-side synchronous and binds off after processing and fall into cloth turning device through two described front ends device that binds off, and described cloth turning device is by cloth turn-over and send into the described rear end device that binds off; Described finished product output device is positioned at the bind off below of device, described rear end; The stratiform cloth processing is transferred out machine by described finished product output device.

2. a kind of stratiform cloth tailoring machine according to claim 1, is characterized in that: the bind off bottom of device of two described front ends is all connected with sliding table; Described sliding table coordinates guide rod and screw mandrel to realize spacing variation; The described front end device that binds off comprises that front end feeding linkage device, supplied materials flatten mechanism, automatic label delivering mechanism and front end serger; Described front end feeding linkage device comprises the first feed mechanism and the first link gear; Described the first feed mechanism is driven by described the first link gear; On the feeding path of described the first feed mechanism, set gradually supplied materials and flatten mechanism, automatic label delivering mechanism and front end serger; Described supplied materials flattens mechanism and is positioned at the charging aperture place of described the first feed mechanism front end; Described automatic label delivering mechanism and described front end serger are all positioned at the outside of described the first feed mechanism.

3. a kind of stratiform cloth tailoring machine according to claim 2, is characterized in that: described the first feed mechanism comprises that scroll-up/down is to the two roller groups of pressing and the servicing unit that is positioned at described roller group inner side; Described two roller groups are respectively upper roller group and lower roller group; Described upper roller group is provided with lift cylinder can drive this upper roller group upstream or downstream; Described servicing unit comprises base plate and roll extrusion unit; Described base plate is fixed on the inner side of described lower roller group; The height of described base plate is identical with the rolling surface height of described lower roller group; Described roll extrusion unit comprises driving wheel, multiple driven pulley, roll extrusion belt and pressing plate; Described driving wheel obtains power by the mode of belt wheel transmission from power source; Described roll extrusion belt sleeve is loaded on described driving wheel and described driven pulley; Described roll extrusion belt is pressed down and is fitted on described base plate by described pressing plate.

4. a kind of stratiform cloth tailoring machine according to claim 3, is characterized in that: described supplied materials flattens mechanism and comprises two material all in one piece parts that are oppositely arranged; Two described material all in one piece parts are respectively top material all in one piece part and bottom material all in one piece part; Described material all in one piece part comprises material all in one piece cylinder, connecting plate and pressure wheel; The front end fixed connecting plate of described material all in one piece cylinder; Described pressure wheel is installed on described connecting plate; Described material all in one piece cylinder forward pushes described pressure wheel, the pressure wheel in described top material all in one piece part and bottom material all in one piece part can fit roll extrusion make supplied materials flatten.

5. a kind of stratiform cloth tailoring machine according to claim 4, is characterized in that: described the first link gear comprises the first motor, main gear shaft and driving member; Described the first motor drives described main gear shaft to rotate; Described main gear shaft sends power to described the first feed mechanism by described driving member; Described driving member comprises the first rotating shaft, the second rotating shaft, the 3rd rotating shaft and double sided gear band; Described the second rotating shaft is between the first rotating shaft and the 3rd rotating shaft; Described the first rotating shaft and the 3rd rotating shaft are all set in described double sided gear band inner side; The outside of described double sided gear band is walked around described the second rotating shaft and is made the first rotating shaft and the second rotating shaft reverse turning mutually; Described the first rotating shaft drives the upper roller group in described the first feed mechanism; Described the second rotating shaft drives the lower roller group in described the first feed mechanism; Described the 3rd rotating shaft connects described main gear shaft.

6. a kind of stratiform cloth tailoring machine according to claim 5, is characterized in that: described automatic label delivering mechanism comprises successively material unit, cutting unit, pinches He Fuya unit, unit; Described in being positioned at, described cutting unit goes out in the discharging direction of material unit; Described go out material unit comprise the motor that is arranged in cabinet and roll a mark cylinder group; Described motor is driven and is rolled mark cylinder group roll extrusion trade mark by belt transmissioning mode; Described cutting unit comprises cutting knife and cutting knife cylinder; Described cutting knife cylinder connects described cutting knife and drives cutting knife incision; The described unit that pinches comprises the first stroke part and the second stroke part; Described the first stroke part comprises lower plate, fixed block and send gas cylinder; The described gas cylinder that send keeps crosswise pushing; The described gas cylinder that send connects described lower plate by described fixed block; On described fixed block, also connect described the second stroke part; Described the second stroke part comprises descending cylinder and the train wheel bridge of column, column upper end; Described column is anchored on described fixed block; Train wheel bridge described in termination before described descending cylinder connects; Described descending cylinder promotes train wheel bridge and declines; Described train wheel bridge coordinates clamping trade mark with described lower plate; Described auxiliary pressure unit presses to the trade mark that pinches unit clamping on the surface of stratiform cloth; Described auxiliary pressure unit comprises depression bar member and damped cylinder; Described depression bar member is fixed on the top of the described base plate in described the first feed mechanism; Described damped cylinder connects described depression bar member; The front end of described depression bar member is provided with presses mark wheel; Described damped cylinder promotes described depression bar member and presses down.

7. a kind of stratiform cloth tailoring machine according to claim 6, is characterized in that: the described rear end device that binds off comprises described rear end feeding linkage device and rear end serger; Described rear end feeding linkage device comprises the second feed mechanism and the second link gear; Described the second feed mechanism is identical with the structure of described the first feed mechanism; Described the second feed mechanism is driven by described the second link gear; Described the second feed mechanism outside is provided with rear end serger; Described the second link gear also synchronously drives described finished product output device.

8. a kind of stratiform cloth tailoring machine according to claim 7, is characterized in that: described the second link gear comprises the second motor, transition axis and described driving member; Described in described the second driven by motor, transition axis rotates; Described transition axis is connected with the second rotating shaft in described driving member by belt transmissioning mode; On described transition axis, also drive described finished product output device simultaneously; Described the second link gear is connected with described the second feed mechanism; Described the first rotating shaft drives the upper roller group of described the second feed mechanism; Described the second rotating shaft drives the lower roller group in described the second feed mechanism.

9. according to a kind of stratiform cloth tailoring machine described in any one in claim 1 to 8, it is characterized in that: described cloth turning device comprises cloth turning machine structure and Deng Bu mechanism; Described cloth turning machine structure is positioned at described front end and binds off in the discharging direction of device; Described Deng Bu mechanism is arranged on the below of described cloth turning machine structure; Described Deng Bu mechanism comprises cylinder and waits cloth component; The cloth components such as the piston rod driving of described cylinder move to the position that stratiform cloth falls.

10. a kind of stratiform cloth tailoring machine according to claim 9, is characterized in that: described cloth turning machine structure comprises the first pushing piece and the second pushing piece; Stratiform cloth is pushed to the described end device that binds off by described the first pushing piece; The propelling movement opposite direction of described the second pushing piece and described the first pushing piece; Described the second pushing piece is positioned in the propelling movement direction of described the first pushing piece; The propelling movement height of described the second pushing piece is lower than the propelling movement height of described the first pushing piece; Described the first pushing piece comprises that material ejection cylinder, guide rod and front end are provided with the link of push pedal; Described the second pushing piece comprises that described material ejection cylinder, described guide rod and front end are provided with the link of push rod; Described material ejection cylinder promotes link and slides on guide rod.