CN117923214B - Leather fabric tailoring material conveying device based on sofa production - Google Patents

Abstract

The application provides a leather fabric cutting material conveying device based on sofa production, which belongs to the field of material conveying device equipment, and comprises: frame, crease-resist subassembly and conveying subassembly, crease-resist subassembly includes rotatory press frame, first crane, live-rollers and screw pole, the live-rollers with the screw pole is all close to the conveying platform that the frame set up, conveying subassembly includes second crane and conveyer, second crane elevating end with conveyer upper portion fixed connection, the conveyer bottom is close to the conveying platform that the frame set up, in the in-process of whole use, realized utilizing the rotation of live-rollers and screw pole, pulled the both sides edge of surface fabric towards the surface fabric, realized removing the wrinkle of surface fabric, and then reduced the surface fabric fold phenomenon appears at the conveying surface fabric in-process, and then reduced the defective rate of tailorring the surface fabric.

Description

Leather fabric tailoring material conveying device based on sofa production

Technical Field

The application relates to the field of material conveying devices, in particular to a material conveying device for cutting leather fabrics based on sofa production.

Background

Generally, the artificial leather fabric is widely applied to the production of a sofa, but the fabric is rolled into a roll in the production process of the artificial leather fabric, and then the whole roll of the leather fabric is transported to a fabric cutting workshop for sofa production for cutting, and as the production sofa is often made of soft materials, when the leather fabric is transported to the upper part of cutting equipment, the phenomenon of wrinkling can occur, but the conventional partial fabric transporting equipment is inconvenient for carrying out wrinkle removal treatment on the fabric, and further the wrinkling of the cut fabric can occur, so that the defective rate of the cut fabric is improved, and a lot of artificial leather fabrics are rolled into a roll after production, and the production process of the sofa possibly needs a plurality of different leather materials, so that different fabrics are needed to be cut, and then different fabrics are needed to be transported, or when the sofa is produced in batches, the multi-roll leather fabric is needed to be cut, and therefore when different fabrics or the multi-roll fabric is transported, one end of the fabric is firstly needed to be placed on the side of the feeding end of the conveying device, and the labor burden is increased on the side of the manual conveying device.

Disclosure of Invention

The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the leather fabric cutting material conveying device based on sofa production can pull the fabric towards the edge of the fabric when the fabric is conveyed again, so that wrinkle removal treatment is realized, the phenomenon of fabric wrinkles in the fabric conveying process is reduced, and the defective rate of the cut fabric is further reduced.

According to the embodiment of the application, the leather fabric cutting material conveying device based on sofa production comprises: frame and feeding device, feeding device include crease-resist subassembly, conveying subassembly and material loading subassembly, the crease-resist subassembly with conveying subassembly all can go up and down, the material loading subassembly with the one end of surface fabric go up to the crease-resist subassembly with conveying subassembly below, the crease-resist subassembly with conveying subassembly all descends the step down in the surface fabric top, the crease-resist subassembly carries out the wrinkle removal to the surface fabric, conveying subassembly carries out the surface fabric.

According to the application, the rack comprises a bottom frame, a vertical frame, an L-shaped frame, a door-shaped frame, an upper transverse frame, a lower transverse frame and a bedplate, wherein a plurality of vertical frames are arranged, the vertical frames are fixedly connected with the upper parts of the bottom frame, the upper transverse frame and the lower transverse frame are fixedly connected with the vertical frames, the upper transverse frame is positioned above the lower transverse frame, one side of the L-shaped frame is fixedly connected with the upper parts of one side of the upper transverse frame, the other side of the L-shaped frame is fixedly connected with one side of the door-shaped frame, two door-shaped frames are arranged, the bottoms of the door-shaped frames are fixedly connected with the upper parts of one side of the upper transverse frame, and the bedplate is respectively positioned below the L-shaped frame and the door-shaped frame and is fixedly connected with the vertical frames.

According to the application, the crease-resist assembly comprises a rotary pressing frame, a first lifting frame, a rotating roller and a screw shaft rod, wherein one side of the rotary pressing frame is in rotary connection with one side of the door-shaped frame, the other side of the rotary pressing frame is propped against the upper part of the bedplate, the rotating roller is in rotary connection with the bottom of the first lifting frame, the upper part of the first lifting frame is fixedly connected with the L-shaped frame, a plurality of screw shaft rods are arranged, the screw shaft rod is in rotary connection with the rotating roller, the screw shaft rod is in transmission connection with the first lifting frame, and the rotating roller and the screw shaft rod are both close to the upper part of the bedplate.

According to the application, the conveying assembly comprises a second lifting frame and a conveyor, wherein the upper part of the second lifting frame is fixedly connected with the bottom of the door-shaped frame, the lifting end of the second lifting frame is fixedly connected with the upper part of the conveyor, and the bottom of the conveyor is close to the upper part of the bedplate.

According to the application, the rotary pressing frame comprises a first telescopic piece and a first frame body, wherein the end part of the first telescopic piece is rotationally connected with one side of the door-shaped frame, the output end of the first telescopic piece is rotationally connected with one side of the first frame body, one side of the first frame body is rotationally connected with one side of the upper transverse frame, and the other side of the first frame body is propped against the upper surface of the bedplate.

According to the application, an anti-skid sleeve is arranged on one side of the first frame body, which is close to the bedplate, the first lifting frame comprises a second telescopic piece, a second frame body and a third frame body, one end of the upper part of the third frame body is fixedly connected with the bottom of the L-shaped frame, one end of the second frame body is in sliding connection with the inside of the other end of the third frame body, the end part of the second telescopic piece is fixedly connected with the bottom of the L-shaped frame, the output end of the second telescopic piece is fixedly connected with the second frame body, the rotating roller is in rotating connection with the second frame body, and the spiral shaft rod is in transmission connection with the second frame body.

According to the application, the rotating roller comprises a first motor and a roller body, the roller body is rotationally connected with the second frame body, the first motor is fixedly connected with one side of the second frame body, the output end of the first motor is fixedly connected with one side of the roller body, and the spiral shaft lever is rotationally connected with the roller body.

According to the application, the roller body and the screw shaft rod are symmetrically arranged, the roller body and the screw shaft rod are obliquely arranged, the second frame body is provided with a gear ring, one side of the screw shaft rod is provided with a gear, and the gear is in meshed connection with the gear ring.

According to the application, the spiral shaft lever comprises a shaft body and a spiral soft strip, the shaft body is rotationally connected with the roller body, the gear is fixedly connected with one side of the shaft body, and the spiral soft strip is fixedly sleeved outside the shaft body.

According to the application, the second lifting frame comprises a third telescopic member, a fourth frame body and a fifth frame body, wherein the ends of the fifth frame body and the third telescopic member are fixedly connected with the door-shaped frame, one side of the fourth frame body is slidably connected inside the other side of the fifth frame body, the output end of the third telescopic member is fixedly connected with one side of the conveyor, and the other side of the fourth frame body is fixedly connected with the upper part of the conveyor.

Many artificial leather fabrics are rolled into rolls after being produced, and the production process of the sofa possibly needs a plurality of different leather materials, so that different fabrics need to be cut, and therefore, different fabrics need to be conveyed, or when the sofa is produced in batches, a plurality of rolls of leather fabrics need to be cut, and then, a plurality of rolls of leather fabrics need to be conveyed, therefore, when different fabrics or a plurality of rolls of fabrics are conveyed, one end of the fabrics needs to be firstly placed at one side of a feeding end of a conveying device, and many times, one end of the fabrics needs to be manually placed at one side of the conveying device, so that the manual workload is increased;

According to the application, the feeding component comprises a first linear slide rail, a third lifting frame, a clamping frame, a second linear slide rail, a fourth lifting frame, a third linear slide rail, a rotating head, a fourth linear slide rail and shielding cloth, wherein a guide rod is rotatably arranged at the sliding end of the fourth linear slide rail, a winding wheel is arranged at one side of the shielding cloth, the sliding end of the first linear slide rail is in sliding connection with one side of the upper transverse frame, one side of the upper part of the third lifting frame is in rotary connection with the sliding end of the first linear slide rail, one side of the clamping frame is in rotary connection with the bottom of the third lifting frame, the other side of the clamping frame is propped against one side of the bottom of the third lifting frame, the clamping frame and the lifting end of the third lifting frame can extend to the upper part of the bedplate, one end of the fabric is clamped by the clamping frame and the third lifting frame, the sliding end of the second linear slide rail is in sliding connection with one side of the upper transverse frame, the upper part of the fourth lifting frame is in sliding connection with one side of the second linear slide rail, one side of the upper part of the third lifting frame is fixedly connected with one side of the second linear slide rail, the central shaft is fixedly connected with one side of the fourth linear slide rail, the central shaft is fixedly connected with one side of the rotating end of the fourth linear slide rail is in rotary connection with the rotating end of the upper transverse frame, the fourth linear slide rail is in sliding connection with one side of the rotating head is fixedly connected with the rotating end of the fourth linear slide rail, the upper end is in sliding end is connected with the rotating head is in sliding end of the upper end of the fourth linear slide rail, and the upper end is fixedly connected with one end is in sliding connection with the upper end is in front of the upper end, and lower end is in front. And the other side of the shielding cloth is wound outside the winding wheel.

The method comprises the steps of firstly taking out wrapping paper outside the whole roll of fabric, separating one end of the fabric from the whole roll of fabric, automatically hanging down under the action of gravity, transferring the whole roll of fabric to the lower part of the sliding end of the first linear slide rail, simultaneously transferring a plurality of rolls of fabric to the lower part of the sliding end of the first linear slide rail, moving the third lifting frame by the sliding end of the first linear slide rail, moving the third lifting frame to the upper part of one side of the fabric naturally hanging down, moving the lifting end of the third lifting frame to the lower part of the clamping frame, rotating the clamping frame after the clamping frame is lowered to one side of the whole roll of fabric, forming a neutral zone between the clamping frame and the lifting end of the third lifting frame, moving the sliding end of the second linear slide rail to the fourth lifting frame at the moment, moving the lifting end of the fourth lifting frame to the lifting of the third linear slide rail, moving the rotating head to one side of the whole roll of fabric, limiting and inserting the rotating end of the third lifting frame into the inner part of a central shaft of the whole roll of fabric, moving the rotating head to the side of the whole roll of fabric, moving the rolling frame to the rolling head to the side of the fabric, rotating the rolling head to the side of the fabric continuously rotate towards the first lifting frame, rotating the lifting frame to the lifting end of the third lifting frame continuously rotates, rotating the clamping frame is located in the whole roll of the fabric, rotating frame is located in the first lifting frame is located in the middle of the lifting frame, and continuously rotates, and the lifting frame is continuously rotates towards the lifting end of the lifting frame is located in the lifting frame, and the lifting frame is located in the lifting frame is gradually reaches the lifting end, and has a lifting end is formed. That is, the one end of drive surface fabric removes, simultaneously, the sliding end of fourth linear slide rail drives the removal of guide bar, and also drive the removal of shielding cloth, support the removal at the surface fabric with the guide bar, implement the direction to the surface fabric, under the continuous drive of first linear slide rail sliding end, the surface fabric can be transmitted the vicinity of rotatory pressing frame, the lifting end of first lifting frame has lifted rotor and screw shaft pole at this moment, the second lifting frame lifting end carries out the lifting with the conveyer, rotatory pressing frame presses the surface fabric in the conveying platform upper portion that the frame set up, the centre gripping frame rotates this moment, no longer carry out the centre gripping to the surface fabric, the lifting end of third lifting frame lasts to extend, after the surface fabric breaks away from thoroughly from one side of centre gripping frame, and guarantee that the length of surface fabric can extend to the below of conveyer, the lifting end of third lifting frame drives the removal of centre gripping frame, and first lifting frame drives the decline of rotor and screw shaft pole, the lifting end of second lifting frame drives the conveyer and carries out the transportation of conveyer, rotor and screw shaft pole carries out the removal processing, the carrier carries out the manual work and removes the processing, the surface fabric to carry out the lifting frame again, the lifting frame carries out the manual work in order to carry out the lifting of the surface fabric in the same way.

According to the application, the first linear slide rail, the second linear slide rail and the fourth linear slide rail comprise a second motor, a threaded rod and a sliding block, one threaded rod is in rotary connection with the inside of the upper transverse frame, one threaded rod is in rotary connection with one side of the upper transverse frame, one threaded rod is in rotary connection with the lower transverse frame, one sliding block is in sliding connection with the inside of the upper transverse frame, one sliding block is in sliding connection with one side of the upper transverse frame, one sliding block is in sliding connection with the lower transverse frame, one sliding block is in threaded connection with the threaded rod, one second motor is in fixed connection with the upper transverse frame, one second motor is in fixed connection with the vertical frame, one second motor output end is in transmission connection with the threaded rod, one sliding block is in rotary connection with one side of the third lifting frame, one sliding block is in fixed connection with one side of the fourth lifting frame, one sliding block is in rotary connection with one side of the guide bar, and one side of the guide bar is in fixed connection with one side of the sliding block.

According to the application, the third lifting frame comprises a fourth telescopic member, a fifth telescopic member, a sixth frame body and a seventh frame body, one side of the seventh frame body is rotationally connected with one sliding block, one side of the sixth frame body is slidingly connected in the seventh frame body, the end part of the fourth telescopic member is fixedly connected with one side of the seventh frame body, the output end of the fourth telescopic member is fixedly connected with one side of the sixth frame body, the end part of the fifth telescopic member is rotationally connected with one side of the sliding block, the output end of the fifth telescopic member is rotationally connected with the seventh frame body, and one side of the clamping frame is rotationally connected with the sixth frame body.

According to the application, the clamping frame comprises a sixth telescopic piece and a clamping rod, one side of the clamping rod is rotationally connected with the bottom of the sixth frame body, the end part of the sixth telescopic piece is rotationally connected with the sixth frame body, and the output end of the sixth telescopic piece is rotationally connected with the clamping rod.

According to the application, the fourth lifting frame comprises a seventh telescopic member, an eighth frame body and a ninth frame body, one side of the ninth frame body is fixedly connected with one sliding block, one side of the eighth frame body is slidably connected inside the other side of the ninth frame body, the end part of the seventh telescopic member is fixedly connected with one side of the ninth frame body, the output end of the seventh telescopic member is fixedly connected with one side of the eighth frame body, and the third linear sliding rail is arranged on one side of the bottom of the eighth frame body.

According to the application, the third linear sliding rail comprises a sliding plate and an eighth telescopic part, the end part of the eighth telescopic part is fixedly connected with one side of the eighth frame body, the output end of the eighth telescopic part is fixedly connected with one side of the sliding plate, the sliding plate is in sliding connection with the eighth frame body, and the driving end of the rotating head is fixedly connected with the upper part of the sliding plate.

According to the application, the rotating head comprises a third motor and a polygonal block, wherein the third motor is fixedly connected with the upper part of the sliding plate, and the polygonal block is fixedly connected with the output end of the third motor.

According to the application, the winding wheel comprises a fourth motor and a wheel body, the fourth motor is fixedly connected with the underframe, the wheel body is rotationally connected with the underframe, the output end of the fourth motor is fixedly connected with one side of the wheel body, reinforcing ribs are arranged in the shielding cloth at intervals, and one side of the shielding cloth is wound outside the wheel body.

Because the weight of the leather fabric of the whole roll is heavier, a fork truck is often needed in the transferring process, so that the transferring cost is increased;

According to the application, the transfer assembly comprises a movable car body, a pedal type telescopic cylinder, a supporting head, a supporting rod and a fabric roll, wherein a central shaft is arranged at the center of the fabric roll, a limit groove is formed in the bottom surface of the underframe, wheels at the bottom of the movable car body are positioned in the limit groove, a rotating end of the rotating head is limited and inserted into one end of the central shaft, the telescopic ends of the pedal type telescopic cylinder are symmetrically arranged on two sides of the fabric roll, one telescopic end of the pedal type telescopic cylinder is fixedly connected with one side of the movable car body, one telescopic end of the pedal type telescopic cylinder is fixedly connected with one side of the supporting rod, the supporting head is fixedly connected with the upper part of the telescopic end of the pedal type telescopic cylinder, one end of the central shaft is rotatably connected with one supporting head, the other end of the central shaft is rotatably connected with the other supporting head, one side of the supporting rod is rotatably connected with one side of the movable car body, and the other side of the supporting rod is abutted against the upper part of the other side of the movable car body;

The center shaft is inserted into the center position of the fabric roll, the car body is moved to two sides of the fabric roll, one telescopic end of the pedal type telescopic cylinder is located below one end of the center shaft, the supporting rod is rotated, the other side of the supporting rod is propped against the upper portion of the car body, meanwhile, the other telescopic end of the pedal type telescopic cylinder is located below the other end of the center shaft, the telescopic end of the pedal type telescopic cylinder is lifted to drive the lifting of the supporting head, in the continuous lifting process, the center shaft is lifted, the fabric roll is separated from the ground, the fabric roll is moved to the position below the first linear sliding rail by utilizing the moving convenience of the car body, wheels arranged below the car body are simultaneously moved inside the limiting grooves, limiting of the car body is implemented, the lifting of the fabric roll is realized by utilizing the cooperation of the car body and the pedal type telescopic cylinder in the whole using process, the moving convenience of the car body is utilized to realize the movement of the fabric roll, and further the movement of the fabric roll is not required to realize the movement of the fabric roll by utilizing the moving convenience of the car body, and the transfer cost can be reduced.

According to the application, the bottom of the movable vehicle body is respectively provided with the universal wheel and the travelling wheel, the universal wheel and the travelling wheel are both positioned in the limiting groove for travelling, one side of the movable vehicle body is provided with the limiting pin, and the bottom of the limiting pin is inserted in the underframe.

According to the embodiment of the application, the leather fabric cutting material conveying device based on sofa production has the beneficial effects that:

1. The arrangement of the rotary pressing frame can press the fabric on the upper part of the conveying table when one end of the fabric is placed on the upper part of the conveying table arranged on the frame, so that one end of the fabric is conveniently placed below the rotating roller and the spiral shaft rod, and one end of the fabric is conveniently placed below the conveyor, and the convenience in feeding is realized;

2. The lifting end of the first lifting frame can drive the rotating roller and the spiral shaft rod to lift and descend, so that one end of the fabric is placed below the rotating roller and the spiral shaft rod conveniently, and the rotating roller and the spiral shaft rod are utilized to remove wrinkles of the fabric, so that the fabric is pulled towards two sides of the edge of the fabric, and the wrinkle removal treatment is realized;

3. the lifting end of the second lifting frame drives the conveyor to lift and descend, when a new roll of fabric is fed, the conveyor is lifted, one end of the fabric is paved below the conveyor conveniently, meanwhile, the rotating end of the conveyor can be abutted against the upper surface of the fabric by the descending of the conveyor, and the conveying of the fabric is realized when the conveyor rotates;

In the whole use process, the fabric is pulled towards the edges of the two sides of the fabric by utilizing the rotation of the rotating roller and the spiral shaft rod, the wrinkle of the fabric is removed, the phenomenon of the wrinkle of the fabric in the fabric conveying process is reduced, and the defective rate of the cut fabric is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a first view angle of a leather fabric cutting and feeding device based on sofa production according to an embodiment of the present application;

fig. 2 is a schematic diagram of the overall structure of a rack according to an embodiment of the present application;

FIG. 3 is a partial block diagram of the positions of a rotary press frame, a first crane, a rotating roller, a second crane, and a conveyor provided in an embodiment of the application;

FIG. 4 is a schematic view of a portion of a structure providing a connection between a rotary press frame and a frame according to an embodiment of the present application;

FIG. 5 is a schematic view showing a part of the structure of a rotary pressing frame according to an embodiment of the present application;

FIG. 6 is a schematic view of a portion of a construction of a wrinkle resistant assembly according to an embodiment of the present application;

Fig. 7 is a schematic view of a part of the structure of a first lifting frame and a rotating roller according to an embodiment of the present application;

FIG. 8 is a schematic view of a portion of a construction of a turning roll and a screw shaft according to an embodiment of the present application;

FIG. 9 is a schematic view of a portion of a structure of a first crane, a rotating roller and a screw shaft according to an embodiment of the present application;

FIG. 10 is a schematic view of a portion of a structure of a second crane and conveyor provided in accordance with an embodiment of the present application;

fig. 11 is a schematic view of a part of structures of a first linear slide rail, a third lifting frame, a second linear slide rail, a fourth linear slide rail and shielding cloth according to an embodiment of the present application;

fig. 12 is a schematic view of a part of structures of a first linear rail and a third lifting frame according to an embodiment of the present application;

FIG. 13 is a schematic view of a portion of a third lifting frame and a clamping frame according to an embodiment of the present application;

Fig. 14 is a schematic view of a part of the structure of a second linear rail and a fourth lifting frame according to an embodiment of the present application;

fig. 15 is a schematic view of a part of the structure of a third linear sliding rail and a rotating head according to an embodiment of the present application;

FIG. 16 is a schematic view of a portion of a fourth linear rail and a shielding cloth according to an embodiment of the present application;

FIG. 17 is a schematic view of a portion of a structure of a shade fabric according to an embodiment of the present application;

FIG. 18 is a schematic view of a portion of a transfer assembly according to an embodiment of the present application;

FIG. 19 is a schematic view showing a part of the structure of a mobile vehicle body according to an embodiment of the present application;

FIG. 20 is a schematic view of a portion of the structure of a bottom bracket and a support head according to an embodiment of the present application.

In the figure: 100-frames; 110-a chassis; 120-vertical frames; 130-L-shaped rack; 140-door-type frames; 150-upper cross frame; 160-lower cross frames; 170-platen; 180-limit grooves; 200-a wrinkle resistant assembly; 210-rotating the pressing frame; 211-a first telescoping member; 212-a first frame; 213-an anti-skid sleeve; 220-a first crane; 221-a second telescoping member; 222-a second frame; 223-a third frame; 224-ring gear; 230-rotating a roller; 231-a first motor; 232-roller body; 240-screw shaft; 241-gear; 242-shaft body; 243-spiral soft strips; 300-a transfer assembly; 310-a second lifting frame; 311-a third telescoping member; 312-fourth frame; 313-a fifth frame; 320-conveyor; 400-feeding components; 410-a first linear slide; 411-second motor; 412-a threaded rod; 413-a slider; 420-a third lifting frame; 421-fourth telescoping members; 422-fifth telescoping member; 423-a sixth frame; 424-seventh frame; 430-a clamping frame; 431-sixth telescoping member; 432-clamping bars; 440-a second linear slide; 450-fourth lifting frame; 451-seventh telescoping members; 452-eighth frame; 453-ninth frame; 460-a third linear slide; 461-sliding plate; 462-eighth telescoping member; 470-rotating the head; 471-third motor; 472-polygonal blocks; 480-fourth linear slide rail; 481-guide bar; 490-shade cloth; 491-a winding wheel; 4911-a fourth motor; 4912-wheel body; 492-reinforcing bars; 500-a transport assembly; 510-moving the vehicle body; 511-universal wheels; 512-travelling wheel; 513-stop pins; 520-pedal type telescopic cylinder; 530-a support head; 540-supporting rods; 550-fabric roll; 551-middle axis.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, based on the embodiments of the application, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the application.

A leather fabric cutting and feeding device based on sofa production according to an embodiment of the present application is described below with reference to the accompanying drawings.

As shown in fig. 1 to 20, a material conveying device for cutting leather fabrics based on sofa production according to an embodiment of the present application includes a frame 100 and a material conveying device.

Wherein, the feeding device includes crease-resist subassembly 200, conveying subassembly 300 and material loading subassembly 400, crease-resist subassembly 200 and conveying subassembly 300 all can go up and down, and material loading subassembly 400 is with the one end material loading of surface fabric to crease-resist subassembly 200 and conveying subassembly 300 below, and crease-resist subassembly 200 and conveying subassembly 300 all descend in the surface fabric top, and crease-resist subassembly 200 carries out the wrinkle removal to the surface fabric, and conveying subassembly 300 carries out the surface fabric.

The following describes the working process of a leather fabric cutting and feeding device based on sofa production according to a specific embodiment of the application with reference to the accompanying drawings;

Firstly, the lifting end of the first lifting frame 220 lifts the rotating roller 230 and the screw shaft lever 240, and the lifting end of the second lifting frame 310 drives the conveyor 320 to lift;

then, one side of the fabric is placed on the upper part of the bedplate 170, the output end of the first telescopic piece 211 is utilized to push the first frame 212 to rotate, one side of the anti-slip sleeve 213 and one side of the first frame 212 are abutted against the upper part of the fabric, the pressing of the fabric is implemented, and the limiting of the fabric is realized;

Then, one end of the fabric is laid on the upper part of the bedplate 170, that is, below the rotating roller 230 and the conveyor 320 respectively, at this time, the lifting end of the first lifting frame 220 descends the rotating roller 230 and the spiral shaft 240, the rotating roller 230 and the spiral shaft 240 are abutted against the upper surface of the fabric, and the lifting end of the second lifting frame 310 drives the conveyor 320 to descend, and the rotating end of the conveyor 320 is abutted against the upper surface of the fabric;

Then, the rotating roller 230 rotates to drive the spiral shaft lever 240 to rotate, the fabric is pulled towards the edges of the two sides of the fabric, the pulled fabric is conveyed by the conveyor 320, and meanwhile, the output end of the first telescopic piece 211 drives the first frame 212 to lift, and one side of the first frame 212 does not press the fabric any more;

Therefore, in the whole use process, the rotation of the rotating roller 230 and the spiral shaft lever 240 is utilized to pull the fabric towards the two side edges of the fabric, the wrinkle removal of the fabric is realized, the phenomenon of fabric wrinkle in the fabric conveying process is reduced, and the defective rate of fabric cutting is further reduced.

In addition, the leather fabric cutting material conveying device based on sofa production provided by the embodiment of the application has the following additional technical characteristics:

According to the present application, as shown in fig. 2, the rack 100 includes a base frame 110, a vertical frame 120, an L-shaped frame 130, a door-shaped frame 140, an upper horizontal frame 150, a lower horizontal frame 160 and a platen 170, the vertical frame 120 is provided in plurality, the vertical frame 120 is fixedly connected to the upper portion of the base frame 110, the upper horizontal frame 150 and the lower horizontal frame 160 are fixedly connected to the vertical frame 120, the upper horizontal frame 150 is positioned above the lower horizontal frame 160, one side of the L-shaped frame 130 is fixedly connected to the upper portion of one side of the upper horizontal frame 150, the other side of the L-shaped frame 130 is fixedly connected to one side of the door-shaped frame 140, the door-shaped frame 140 is provided in two, the bottom of the door-shaped frame 140 is fixedly connected to the upper portion of one side of the upper horizontal frame 150, and the platen 170 is respectively positioned below the L-shaped frame 130 and the door-shaped frame 140 to the vertical frame 120.

According to the present application, as shown in fig. 3, the wrinkle preventing assembly 200 includes a rotary pressing frame 210, a first lifting frame 220, a rotating roller 230 and a screw shaft 240, one side of the rotary pressing frame 210 is rotatably connected with one side of the door-type frame 140, the other side of the rotary pressing frame 210 is abutted against the upper portion of the platen 170, the rotating roller 230 is rotatably connected with the bottom of the first lifting frame 220, the upper portion of the first lifting frame 220 is fixedly connected with the L-type frame 130, the screw shaft 240 is provided with a plurality of screw shafts 240 which are rotatably connected with the rotating roller 230, the screw shaft 240 is in driving connection with the first lifting frame 220, and both the rotating roller 230 and the screw shaft 240 are close to the upper portion of the platen 170.

According to the present application, as shown in fig. 3, the transfer assembly 300 includes a second lifting frame 310 and a conveyor 320, wherein the upper portion of the second lifting frame 310 is fixedly connected to the bottom of the door-shaped frame 140, the lifting end of the second lifting frame 310 is fixedly connected to the upper portion of the conveyor 320, and the bottom of the conveyor 320 is close to the upper portion of the platen 170.

According to the present application, as shown in fig. 3 and 4, the rotary pressing frame 210 includes a first telescopic member 211 and a first frame body 212, an end of the first telescopic member 211 is rotatably connected to one side of the door frame 140, an output end of the first telescopic member 211 is rotatably connected to one side of the first frame body 212, one side of the first frame body 212 is rotatably connected to one side of the upper cross frame 150, and the other side of the first frame body 212 is abutted against an upper surface of the platen 170.

According to the present application, as shown in fig. 4, an anti-slip cover 213 is disposed on one side of the first frame 212 near the platen 170, the first lifting frame 220 comprises a second telescopic member 221, a second frame 222 and a third frame 223, one end of the upper portion of the third frame 223 is fixedly connected with the bottom of the L-shaped frame 130, one end of the second frame 222 is slidably connected with the inside of the other end of the third frame 223, the end of the second telescopic member 221 is fixedly connected with the bottom of the L-shaped frame 130, the output end of the second telescopic member 221 is fixedly connected with the second frame 222, the rotating roller 230 is rotatably connected with the second frame 222, and the screw shaft 240 is in transmission connection with the second frame 222.

According to the present application, as shown in fig. 5 to 7, the rotating roller 230 includes a first motor 231 and a roller body 232, the roller body 232 is rotatably connected with the second frame 222, the first motor 231 is fixedly connected with one side of the second frame 222, an output end of the first motor 231 is fixedly connected with one side of the roller body 232, and the screw shaft 240 is rotatably connected with the roller body 232.

According to the present application, as shown in fig. 6, the roller 232 and the screw shaft 240 are symmetrically disposed, the roller 232 and the screw shaft 240 are obliquely disposed, the second frame 222 is provided with the gear ring 224, one side of the screw shaft 240 is provided with the gear 241, and the gear 241 is engaged with the gear ring 224.

According to the present application, as shown in fig. 9, the screw shaft 240 includes a shaft body 242 and a screw soft strip 243, the shaft body 242 is rotatably connected with the roller body 232, the gear 241 is fixedly connected with one side of the shaft body 242, and the screw soft strip 243 is fixedly sleeved outside the shaft body 242.

According to the present application, as shown in fig. 10, the second lifting frame 310 includes a third telescopic member 311, a fourth frame 312 and a fifth frame 313, the ends of the fifth frame 313 and the third telescopic member 311 are fixedly connected to the door frame 140, one side of the fourth frame 312 is slidably connected to the inside of the other side of the fifth frame 313, the output end of the third telescopic member 311 is fixedly connected to one side of the conveyor 320, and the other side of the fourth frame 312 is fixedly connected to the upper portion of the conveyor 320.

Many artificial leather fabrics are rolled into rolls after production, and the production process of the sofa probably needs several different leather materials, so that different fabrics need to be cut, and therefore different fabrics need to be conveyed, or when the sofa is produced in batches, a plurality of rolls of leather fabrics need to be cut, and then a plurality of rolls of leather fabrics need to be conveyed, so that when different fabrics or a plurality of rolls of fabrics are conveyed, one end of the fabrics needs to be placed on one side of the feeding end of the conveying device at first, and many times, one end of the fabrics needs to be placed on one side of the conveying device manually, so that the artificial workload can be increased.

According to the present application, as shown in fig. 11 to 17, the feeding assembly 400 includes a first linear rail 410, a third lifting frame 420, a clamping frame 430, a second linear rail 440, a fourth lifting frame 450, a third linear rail 460, a rotating head 470, a fourth linear rail 480 and a shielding cloth 490, wherein a guide bar 481 is rotatably provided at a sliding end of the fourth linear rail 480, a winding wheel 491 is provided at one side of the shielding cloth 490, a sliding end of the first linear rail 410 is slidably connected to one side of the upper transverse frame 150, one side of an upper portion of the third lifting frame 420 is rotatably connected to a sliding end of the first linear rail 410, one side of the clamping frame 430 is rotatably connected to a bottom of the third lifting frame 420, the other side of the clamping frame 430 is abutted to one side of the bottom of the third lifting frame 420, the lifting ends of the clamping frame 430 and the third lifting frame 420 can be extended above the platen 170, the clamping frame 430 and the third lifting frame 420 implement clamping of one end of the fabric, the sliding end of the second linear sliding rail 440 is slidably connected with one side of the upper transverse frame 150, the upper portion of the fourth lifting frame 450 is fixedly connected with one side of the sliding end of the second linear sliding rail 440, the sliding end of the third linear sliding rail 460 is slidably connected with the lifting end of the fourth lifting frame 450, the driving end of the rotating head 470 is fixedly connected with the upper portion of the sliding end of the third linear sliding rail 460, the rotating end of the rotating head 470 is inserted into one side of the center shaft of the whole roll of fabric, the rotating end of the rotating head 470 is in limit setting with the center shaft of the whole roll of fabric, the sliding end of the fourth linear sliding rail 480 is slidably connected with the lower transverse frame 160, the guide rod 481 is rotatably connected with the sliding end of the fourth linear sliding rail 480, one side of the shielding cloth 490 is fixedly connected with the sliding end of the fourth linear sliding rail 480, the winding wheel 491 is rotatably connected with one side of the frame 100, and the other side of the shielding cloth 490 is wound outside the winding wheel 491.

Firstly, the wrapping paper outside the whole roll of fabric is removed, so that one end of the fabric is separated from the whole roll of fabric, the whole roll of fabric is automatically sagged under the action of gravity, the whole roll of fabric is transported to the lower part of the sliding end of the first linear slide rail 410, meanwhile, a plurality of rolls of fabric can be transported to the lower part of the sliding end of the first linear slide rail 410, at the moment, the sliding end of the first linear slide rail 410 drives the third lifting frame 420 to move, the third lifting frame 420 is moved to the upper part of one side of the whole roll of fabric, which naturally sags to the upper part of one side of the fabric, the lifting end of the third lifting frame 420 drives the clamping frame 430 to descend, and after the clamping frame 430 descends to one side of the whole roll of fabric, the clamping frame 430 rotates to form a neutral zone between the clamping frame 430 and the lifting end of the third lifting frame 420, at this time, the sliding end of the second linear sliding rail 440 drives the fourth lifting frame 450 to move, the lifting end of the fourth lifting frame 450 drives the third linear sliding rail 460 to lift, the rotating head 470 is lowered to one side of the whole roll of fabric, the sliding end of the third linear sliding rail 460 drives the rotating end of the rotating head 470 to be inserted into one side of the middle shaft 551 of the whole roll of fabric in a limited manner, the rotating head 470 drives the whole roll of fabric to rotate, and the rotating head 470 rotates anticlockwise in advance, when one end of the whole roll of fabric which is scattered is close to the position near the clamping frame 430, and then the whole roll of fabric is rotated clockwise, at this time, under the action of gravity, one end of the whole roll of fabric naturally sags and enters the neutral zone, at this time, the clamping frame 430 rotates to clamp one end of the fabric between the clamping frame 430 and the lifting end of the third lifting frame 420, the lifting end of the third lifting frame 420 is lifted and rotated to rotate the fabric towards one side of the rotating roller 230, the rotating head 470 continuously drives the whole roll of fabric to rotate, the rolled fabric is released gradually, the sliding end of the first linear sliding rail 410 drives the third lifting frame 420 and the clamping frame 430 to move, that is, one end of the fabric is driven to move, meanwhile, the sliding end of the fourth linear slide 480 drives the guide bar 481 to move and also drives the shielding cloth 490 to move, the guide bar 481 is abutted against the movement of the fabric, the fabric is guided, the fabric is transferred to the vicinity of the rotary pressing frame 210 under the continuous driving of the sliding end of the first linear slide 410, at this time, the lifting end of the first lifting frame 220 lifts the rotating roller 230 and the screw shaft 240, the lifting end of the second lifting frame 310 lifts the conveyor 320, the rotary pressing frame 210 presses the fabric on the upper part of the platen 170, at this time, the clamping frame 430 rotates, the fabric is not clamped any more, the lifting end of the third lifting frame 420 continuously extends, when the fabric is completely separated from one side of the clamping frame 430, and the length of the fabric is ensured to extend below the conveyor 320, the lifting end of the third lifting frame 420 drives the clamping frame 430 to move, the first lifting frame 220 drives the rotating roller 230 and the screw shaft rod 240 to descend, the lifting end of the second lifting frame 310 drives the conveyor 320 to descend, the conveyor 320 carries out conveying of the fabric, the rotating roller 230 and the screw shaft rod 240 carry out wrinkle removal treatment, the rotary pressing frame 210 is lifted to press the fabric no longer, at this time, the lifting end of the third lifting frame 420 drives the clamping frame 430 to reset, and the like, different fabrics can be fed, and multiple rolls of fabrics can be fed, so that one end of the fabrics is fed to the lower part of the conveyor 320 mechanically in the whole use process, and further, the manual work load is reduced.

According to the present application, as shown in fig. 11 and 12, each of the first linear slide 410, the second linear slide 440 and the fourth linear slide 480 includes a second motor 411, a threaded rod 412 and a slider 413, one threaded rod 412 is rotatably connected to the inside of the upper cross frame 150, one threaded rod 412 is rotatably connected to one side of the upper cross frame 150, one threaded rod 412 is rotatably connected to the lower cross frame 160, one slider 413 is slidably connected to the inside of the upper cross frame 150, one slider 413 is slidably connected to the lower cross frame 160, one slider 413 is in threaded connection with the threaded rod 412, one second motor 411 is fixedly connected to the upper cross frame 150, one second motor 411 is fixedly connected to the vertical frame 120, one second motor 411 is fixedly connected to the lower cross frame 160, the output end of the second motor 411 is in driving connection with the threaded rod 412, one slider 413 is rotatably connected to one side of the third lifting frame 420, one slider 413 is fixedly connected to one side of the fourth lifting frame 450, one slider 413 is rotatably connected to the guide bar 481, and one side of the slider 413 is fixedly connected to the shielding cloth 490.

According to the present application, as shown in fig. 12 and 13, the third lifting frame 420 includes a fourth telescopic member 421, a fifth telescopic member 422, a sixth frame 423 and a seventh frame 424, wherein one side of the seventh frame 424 is rotatably connected to one slider 413, one side of the sixth frame 423 is slidably connected to the inside of the seventh frame 424, an end portion of the fourth telescopic member 421 is fixedly connected to one side of the seventh frame 424, an output end of the fourth telescopic member 421 is fixedly connected to one side of the sixth frame 423, an end portion of the fifth telescopic member 422 is rotatably connected to one slider 413, an output end of the fifth telescopic member 422 is rotatably connected to the seventh frame 424, and one side of the clamping frame 430 is rotatably connected to the sixth frame 423.

According to the present application, as shown in fig. 13, the clamping frame 430 includes a sixth telescopic member 431 and a clamping rod 432, one side of the clamping rod 432 is rotatably connected to the bottom of the sixth frame 423, the end of the sixth telescopic member 431 is rotatably connected to the sixth frame 423, and the output end of the sixth telescopic member 431 is rotatably connected to the clamping rod 432.

According to the present application, as shown in fig. 14 and 15, the fourth lifting frame 450 includes a seventh telescopic member 451, an eighth frame 452 and a ninth frame 453, one side of the ninth frame 453 is fixedly connected with a slider 413, one side of the eighth frame 452 is slidably connected to the other side of the ninth frame 453, an end of the seventh telescopic member 451 is fixedly connected to one side of the ninth frame 453, an output end of the seventh telescopic member 451 is fixedly connected to one side of the eighth frame 452, and a third linear sliding rail 460 is disposed at one side of the bottom of the eighth frame 452.

According to the present application, as shown in fig. 15, the third linear rail 460 includes a sliding plate 461 and an eighth telescopic member 462, the end of the eighth telescopic member 462 is fixedly connected to one side of the eighth frame 452, the output end of the eighth telescopic member 462 is fixedly connected to one side of the sliding plate 461, the sliding plate 461 is slidably connected to the eighth frame 452, and the driving end of the rotating head 470 is fixedly connected to the upper portion of the sliding plate 461.

According to the present application, as shown in fig. 15, the rotary head 470 includes a third motor 471 and a polygonal block 472, the third motor 471 is fixedly connected to the upper portion of the sliding plate 461, and the polygonal block 472 is fixedly connected to the output end of the third motor 471.

According to the application, as shown in fig. 17, the winding wheel 491 comprises a fourth motor 4911 and a wheel body 4912, the fourth motor 4911 is fixedly connected with the chassis 110, the wheel body 4912 is rotatably connected with the chassis 110, the output end of the fourth motor 4911 is fixedly connected with one side of the wheel body 4912, reinforcing ribs 492 are arranged in the shielding cloth 490 at intervals, and one side of the shielding cloth 490 is wound outside the wheel body 4912.

Because the weight of the leather fabric of the whole roll is heavier, a fork truck is often needed in the transferring process, and the transferring cost is increased.

According to the present application, as shown in fig. 18-20, the transfer assembly 500 further includes a transfer assembly 500, the transfer assembly 500 includes a moving car body 510, a foot-operated telescopic cylinder 520, a supporting head 530, a supporting rod 540 and a fabric roll 550, a center shaft 551 is provided at the center of the fabric roll 550, a limit groove 180 is provided on the bottom surface of the chassis 110, the wheels at the bottom of the moving car body 510 are located in the limit groove 180, the rotating end of the rotating head 470 is inserted in one end of the center shaft 551, the telescopic end of the foot-operated telescopic cylinder 520 is symmetrically located at two sides of the fabric roll 550, the telescopic end of one foot-operated telescopic cylinder 520 is fixedly connected with one side of the moving car body 510, the telescopic end of one foot-operated telescopic cylinder 520 is fixedly connected with one side of the supporting rod 540, the supporting head 530 is fixedly connected with the upper part of the telescopic end of the foot-operated telescopic cylinder 520, one end of the center shaft 551 is rotatably connected with the other supporting head 530, one side of the supporting rod 540 is rotatably connected with one side of the moving car body 510, and the other side of the supporting rod 540 is abutted against the other side upper part of the moving car body 510.

The center shaft 551 is inserted into the center position of the fabric roll 550, the movable car body 510 is moved to two sides of the fabric roll 550, one telescopic end of the pedal type telescopic cylinder 520 is located below one end of the center shaft 551, the supporting rod 540 is rotated, the other side of the supporting rod 540 is propped against the upper part of the movable car body 510, meanwhile, the other telescopic end of the pedal type telescopic cylinder 520 is located below the other end of the center shaft 551, the telescopic end of the pedal type telescopic cylinder 520 is lifted to drive the lifting of the supporting head 530, and in the continuous lifting process, the center shaft 551 is lifted, thereby lifting the fabric roll 550, separating the fabric roll 550 from the ground, moving convenience of the movable car body 510 is utilized, the fabric roll 550 is moved to the position below the first linear slide rail 410, the universal wheels 511 and the travelling wheels 512 arranged below the movable car body 510 are respectively located inside the limiting grooves 180, the bottoms of the limiting pins 513 are inserted inside the underframe 110, limiting of the movable car body 510 is implemented, in the whole using process, the telescopic ends of the movable car body 510 and the telescopic cylinder 520 are lifted, the fabric roll 550 is removed by the aid of the movable car body 550 is removed, the moving car body 550 is realized, the fabric roll is removed by the convenience of the moving car body 550, and the fabric roll is realized, and the fabric roll can be moved by the convenience of the forklift, and the fabric roll is removed.

According to the present application, as shown in fig. 19, a universal wheel 511 and a traveling wheel 512 are respectively provided at the bottom of a moving body 510, the universal wheel 511 and the traveling wheel 512 are all located inside a limit groove 180 to travel, a limit pin 513 is provided at one side of the moving body 510, and the bottom of the limit pin 513 is inserted inside a chassis 110.

The foot-operated telescopic cylinder 520 is a foot-operated hydraulic pump, one of which is a cam for converting mechanical energy of the power machine into pressure energy of liquid and is rotated by an electric motor. When the cam pushes the plunger to move upwards, the sealing volume formed by the plunger and the cylinder body is reduced, and oil is extruded from the sealing volume and discharged to a required place through the one-way valve. When the cam rotates to the descending part of the curve, the spring forces the plunger downwards to form a certain vacuum degree, and oil in the oil tank enters the sealing volume under the action of atmospheric pressure. The cam causes the plunger to rise and fall continuously, the sealing volume decreases and increases periodically, and the pump is constantly sucking and discharging oil, which is also known in the art and therefore not described in detail.

Further, the first telescopic member 211, the second telescopic member 221, the third telescopic member 311, the fourth telescopic member 421, the fifth telescopic member 422, the sixth telescopic member 431, the seventh telescopic member 451 and the eighth telescopic member 462 are all electric push rods, electric cylinders, hydraulic cylinders and air cylinders.

Other configurations and operations of a sofa-based leather material cutting delivery device according to embodiments of the present application are known to those of ordinary skill in the art and will not be described in detail herein.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The device embodiments described above are merely illustrative.

The foregoing is merely illustrative embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present application, and the application should be covered. Therefore, the protection scope of the application is subject to the protection scope of the claims.

Claims (5)

1. Leather fabric tailors and uses conveyer based on sofa production, its characterized in that includes:

The device comprises a rack (100), wherein the rack (100) comprises a bottom frame (110), a vertical frame (120), an L-shaped frame (130), a door-shaped frame (140), an upper transverse frame (150), a lower transverse frame (160) and a bedplate (170);

The feeding device comprises a crease-resistant component (200), a conveying component (300) and a feeding component (400), wherein the crease-resistant component (200) and the conveying component (300) can be lifted, one end of a fabric is fed to the lower part of the crease-resistant component (200) and the lower part of the conveying component (300) by the feeding component (400), the crease-resistant component (200) and the conveying component (300) are both lowered down above the fabric, the crease-resistant component (200) is used for removing the crease of the fabric, and the conveying component (300) is used for conveying the fabric;

The anti-wrinkling assembly (200) comprises a rotary pressing frame (210), a first lifting frame (220), a rotating roller (230) and a spiral shaft rod (240), wherein one side of the rotary pressing frame (210) is rotationally connected with one side of the door-shaped frame (140), the other side of the rotary pressing frame (210) is propped against the upper portion of the bedplate (170), the rotating roller (230) is rotationally connected with the bottom of the first lifting frame (220), the upper portion of the first lifting frame (220) is fixedly connected with the L-shaped frame (130), the spiral shaft rods (240) are provided with a plurality of spiral shaft rods, the spiral shaft rods (240) are rotationally connected with the rotating roller (230), and the rotating roller (230) and the spiral shaft rods (240) are in transmission connection with the first lifting frame (220) and are close to the upper portion of the bedplate (170);

The rotary pressing frame (210) comprises a first telescopic piece (211) and a first frame body (212), wherein the end part of the first telescopic piece (211) is rotationally connected with one side of the door-shaped frame (140), the output end of the first telescopic piece (211) is rotationally connected with one side of the first frame body (212), one side of the first frame body (212) is rotationally connected with one side of the upper transverse frame (150), and the other side of the first frame body (212) is propped against the upper surface of the bedplate (170);

The first lifting frame (220) comprises a second telescopic piece (221), a second frame body (222) and a third frame body (223), one end of the upper portion of the third frame body (223) is fixedly connected with the bottom of the L-shaped frame (130), one end of the second frame body (222) is in sliding connection with the inside of the other end of the third frame body (223), the end of the second telescopic piece (221) is fixedly connected with the bottom of the L-shaped frame (130), the output end of the second telescopic piece (221) is fixedly connected with the second frame body (222), the rotating roller (230) is in rotating connection with the second frame body (222), and the spiral shaft rod (240) is in transmission connection with the second frame body (222).

The rotating roller (230) comprises a first motor (231) and a roller body (232), the roller body (232) is rotationally connected with a second frame body (222), the first motor (231) is fixedly connected with one side of the second frame body (222), the output end of the first motor (231) is fixedly connected with one side of the roller body (232), a spiral shaft lever (240) is rotationally connected with the roller body (232), the roller body (232) and the spiral shaft lever (240) are symmetrically arranged, the roller body (232) and the spiral shaft lever (240) are obliquely arranged, a gear ring (224) is arranged on the second frame body (222), a gear (241) is arranged on one side of the spiral shaft lever (240), and the gear (241) is in meshed connection with the gear ring (224).

The spiral shaft lever (240) comprises a shaft body (242) and a spiral soft strip (243), the shaft body (242) is rotationally connected with the roller body (232), the gear (241) is fixedly connected with one side of the shaft body (242), and the spiral soft strip (243) is fixedly sleeved outside the shaft body (242).

2. The leather fabric cutting and feeding device based on sofa production according to claim 1, wherein the vertical frames (120) are provided with a plurality of, the vertical frames (120) are fixedly connected with the upper portions of the bottom frames (110), the upper transverse frames (150) and the lower transverse frames (160) are fixedly connected with the vertical frames (120), the upper transverse frames (150) are located above the lower transverse frames (160), one side of each L-shaped frame (130) is fixedly connected with the upper portion of one side of each upper transverse frame (150), the other side of each L-shaped frame (130) is fixedly connected with one side of each door-shaped frame (140), the two door-shaped frames (140) are arranged, the bottoms of the door-shaped frames (140) are fixedly connected with the upper portions of one sides of the upper transverse frames (150), and the bedplate (170) is located below the L-shaped frames (130) and the door-shaped frames (140) and is fixedly connected with the vertical frames (120).

3. The leather fabric cutting and conveying device based on sofa production according to claim 1, wherein the conveying assembly (300) comprises a second lifting frame (310) and a conveyor (320), the upper portion of the second lifting frame (310) is fixedly connected with the bottom of the door-shaped frame (140), the lifting end of the second lifting frame (310) is fixedly connected with the upper portion of the conveyor (320), and the bottom of the conveyor (320) is close to the upper portion of the bedplate (170).

4. The sofa-based leather fabric cutting and feeding device according to claim 3, wherein the feeding assembly (400) comprises a first linear slide rail (410), a third lifting frame (420), a clamping frame (430), a second linear slide rail (440), a fourth lifting frame (450), a third linear slide rail (460), a rotating head (470), a fourth linear slide rail (480) and shielding cloth (490), a guide rod (481) is rotatably arranged at the sliding end of the fourth linear slide rail (480), a winding wheel (491) is arranged at one side of the shielding cloth (490), the sliding end of the first linear slide rail (410) is in sliding connection with one side of the upper transverse frame (150), one side of the upper part of the third lifting frame (420) is in rotating connection with the sliding end of the first linear slide rail (410), one side of the clamping frame (430) is in rotating connection with the bottom of the third lifting frame (420), the other side of the clamping frame (430) is abutted against one side of the bottom of the third lifting frame (420), the clamping frame (430) and the third lifting frame (420) can be extended to the upper side of the upper transverse frame (150) at the sliding end of the upper transverse frame (150), fourth crane (450) upper portion with second linear slide rail (440) sliding end one side fixed connection, third linear slide rail (460) sliding end with fourth crane (450) lifting end sliding connection, rotating head (470) drive end with third linear slide rail (460) sliding end upper portion fixed connection, rotating head (470) rotating end inserts in whole volume surface fabric center pin one side inside, just spacing setting between rotating head (470) rotating end and the whole volume surface fabric center pin, fourth linear slide rail (480) sliding end with lower crossbearer (160) sliding connection, guide bar (481) with fourth linear slide rail (480) sliding end rotation connection, shelter from cloth (490) one side with fourth linear slide rail (480) sliding end fixed connection, rolling wheel (491) with frame (100) one side rotation connection, shelter from cloth (490) opposite side rolling is in rolling wheel (491) outside.

5. The leather fabric cutting and feeding device based on sofa production according to claim 3, wherein the second lifting frame (310) comprises a third telescopic member (311), a fourth frame body (312) and a fifth frame body (313), the ends of the fifth frame body (313) and the third telescopic member (311) are fixedly connected with the door-shaped frame (140), one side of the fourth frame body (312) is slidingly connected inside the other side of the fifth frame body (313), the output end of the third telescopic member (311) is fixedly connected with one side of the conveyor (320), and the other side of the fourth frame body (312) is fixedly connected with the upper part of the conveyor (320).