CN113389034A

CN113389034A - Cutting equipment for garment materials

Info

Publication number: CN113389034A
Application number: CN202110486154.6A
Authority: CN
Inventors: 崔晟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-09-14

Abstract

The invention discloses cutting equipment for garment materials, which consists of a machine body, a roller shaft body, a cutting mechanism, an adsorption mechanism, a waste box and a collection box, wherein the roller shaft body is arranged on the machine body; swing joint between the first drive group that sets up and the track, be convenient for drive the fore-and-aft ascending removal of cutting tool, cooperation between first guide rail and the first guide arm is convenient for first movable block drive cutting tool and carries out horizontal ascending motion, drive assembly can make the cutting tool go up and down, improve the motion range of cutting tool, realize that no dead angle cuts the surface fabric, fixedly connected with second guide rail between two sets of second drive groups, one side of second guide rail and two sets of second guide arms of fixedly connected with between two sets of second drive groups, set up second drive group equally and the track between swing joint, be convenient for drive the adsorption cylinder and carry out vertical removal, be convenient for the second movable block drive the adsorption cylinder through the cooperation between second guide rail and the second guide arm and carry out horizontal ascending movement, the motion range is improved, adsorb the collecting box with the surface fabric that cuts and collect.

Description

Cutting equipment for garment materials

Technical Field

The invention relates to the technical field of cutting of garment materials, in particular to cutting equipment of garment materials.

Background

The cutting machine is used for cutting and cutting sheets, is a necessary cutting device for cutting in many industries, does not need any die, is controlled by system software, and directly cuts products, only needs to set corresponding parameters on an operation platform, and transmits corresponding instructions to the cutting machine by a computer, and the cutting machine can quickly cut according to received design drawings, and has the advantages of high automation program, simple operation and the like, so that the cutting machine is widely used in various industries, wherein a clothing factory adopts the cutting machine to cut fabrics, most of the cutting machines are designed for laser cutting, and the laser cutting is more accurate, fast and simple to operate.

Then traditional guillootine single structure, the cutter can not realize diversified motion, probably leads to the surface fabric to cut incompletely, perhaps cuts out the pattern that wants, cuts the surface fabric of accomplishing simultaneously and needs the manual work to collect, and the staff suffers the injury of cutting the cutter because of negligence very probably when collecting on the conveyer belt, has very big potential safety hazard, cuts remaining waste material and directly carries on the ground through the conveyer belt, and the staff still need manage to find time to sweep and pile up the waste material, wastes time and energy.

Disclosure of Invention

The invention provides cutting equipment for garment materials, and aims to solve the problems in the prior art.

In order to solve the problems, the invention adopts the following technical scheme:

cutting equipment of garment materials comprises a machine body, a roll shaft body, a cutting mechanism, an adsorption mechanism, a waste box and a collecting box.

Wherein the machine body mainly comprises two groups of supporting tables, the two groups of supporting tables are arranged correspondingly, a first supporting leg is fixedly arranged below one side of each supporting table, a second supporting leg is fixedly arranged below the other side of each supporting table, supporting plates are fixedly connected below the first supporting leg and the second supporting leg, a support is fixedly connected to the side surface of each supporting table, a control panel is fixedly arranged above each support, a driving box is fixedly connected below the inner wall of one side of each supporting table, a heat dissipation port is formed in one end of each driving box, roller shaft supports are vertically arranged above one side of each supporting table correspondingly, supporting grooves are formed above the two groups of roller shaft supports, a conveying belt is arranged between the two groups of supporting tables, a pressing plate is transversely arranged above one side of the conveying belt and is transversely arranged between the two groups of supporting tables, a first pair of interfaces is formed between the first supporting leg and the second supporting leg, two groups of clamping components are fixedly connected on the inner side walls of the first supporting leg and the second supporting leg, chutes are formed in the inner walls of the other sides of the two groups of supporting tables, a second pair of interfaces is formed between the two groups of chutes, tracks are fixedly connected above the outer side walls of the two groups of supporting tables, the device performs integral operation through a control panel input program, a coiled fabric is installed on a roller shaft body and then clamped on a roller shaft support, the fabric is conveyed to one side through a conveyor belt, when the fabric is conveyed to a pressing plate, the pressing plate drives the pressing plate to press the fabric through a pushing cylinder to push a connecting block so as to fix the fabric during cutting, the integrity of cutting is ensured, after the fabric is cut through a cutting mechanism, an adsorption mechanism moves to the upper part of the cut fabric and adsorbs the fabric, the adsorption mechanism returns to the upper part of the collection box to place the cloth in the second box body for centralized collection, when one side of the cloth is cut, the pressing plate is lifted, the conveying belt conveys the rest fabric into the waste box, and finally the waste is subjected to centralized treatment, so that the collection and recovery efficiency is improved;

the roll shaft body mainly comprises a rolling shaft, the roll shaft body is connected in the support groove in a rolling mode through the rolling shaft, the two ends of the rolling shaft are fixedly connected with limiting blocks, the arranged rolling shaft is attached to the inner wall of the support groove, and the roll shaft body is fixed through the limiting blocks at the two ends, so that coiled fabrics can be conveniently fixed and conveyed;

the cutting mechanism mainly comprises two groups of first driving groups which are oppositely arranged, the cutting mechanism is movably connected to the machine body through the matching between the two groups of first driving groups and the track, a first guide rail is fixedly connected between the two groups of first driving groups, two groups of first guide rods are fixedly connected to one side of the first guide rail and between the two groups of first driving groups, the arranged first driving groups are movably connected with the track, so that the cutting tool can be conveniently driven to move longitudinally, a first moving block can conveniently drive the cutting tool to move transversely through the matching between the first guide rail and the first guide rod, the movement range of the cutting tool is improved, and the fabric can be cut without dead angles;

the adsorption mechanism mainly comprises two groups of second driving groups which are oppositely arranged, the adsorption mechanism and the cutting mechanism are correspondingly and movably arranged on the machine body, a second guide rail is fixedly connected between the two groups of second driving groups, two groups of second guide rods are fixedly connected between one side of the second guide rail and the two groups of second driving groups, the arranged second driving groups are also movably connected with the rails, so that the adsorption cylinder can be driven to move longitudinally, the second moving block can drive the adsorption cylinder to move transversely due to the matching between the second guide rail and the second guide rods, the movement range is improved, and the cut fabrics are adsorbed to the collection box to be collected;

the waste material box is connected in the first pair of connectors in a sliding mode, the first box body is convenient to pull out and push in through the handle, the first box body is arranged below the conveyor belt, the conveyor belt is convenient to convey the residual fabric into the waste material box, and finally the waste materials are subjected to centralized treatment, so that the recovery efficiency is improved;

wherein, collecting box sliding connection pulls out and pushes away the second box through what the barre can be relaxed in the second is to the interface, is convenient for collect the surface fabric that cuts to the second box in through adsorption apparatus, improves the collection efficiency after cutting.

As a preferable scheme of the present invention, a first tow chain groove is formed above a first guide rail in the cutting mechanism, a first moving block is movably disposed on the first guide rail and a first guide rod, a first tow chain is disposed in the first tow chain groove, the other end of the first tow chain is fixedly connected to the first moving block, a driving assembly is disposed on one side of the first moving block, a lifting groove is formed on one side of the driving assembly, and a cutting tool is movably disposed in the lifting groove.

As a preferable scheme of the present invention, a second tow chain groove is formed above a second guide rail in the adsorption mechanism, a second moving block is movably disposed on the second guide rail and the second guide rod, a second tow chain is disposed in the second tow chain groove, the other end of the second tow chain is fixedly connected to the second moving block, an adsorption cylinder is disposed on one side of the second moving block, and an adsorption port is disposed at an output end of the bottom of the adsorption cylinder.

As a preferred scheme of the invention, the first driving group and the second driving group have the same shape, a T-shaped groove is formed in the middle of the inner wall of the first driving group and the second driving group, the T-shaped groove and the rail are arranged in a fitting manner, buffer grooves are formed in the upper end and the lower end of the T-shaped groove, the buffer grooves extend into the first driving group and the second driving group, a buffer rod is vertically arranged in the buffer grooves, one end of the buffer rod is fixedly connected with a connecting rod, a buffer spring is sleeved on the connecting rod, and two groups of rollers are oppositely arranged at the other end of the buffer rod.

As a preferable scheme of the invention, the waste box mainly comprises a first box body, a waste inlet is formed above the first box body, an arc-shaped plate is arranged in the inner wall of one side of the first box body, a handle is arranged on the surface of one side of the first box body, and first universal wheels are fixedly connected at the peripheral corners of the bottom of the first box body.

As a preferred scheme of the invention, two ends of the first box body are fixedly connected with two groups of clamping convex blocks, four groups of clamping convex blocks are in sliding connection with each group of clamping components, and the waste bin is arranged in the first pair of interfaces.

As a preferable scheme of the invention, the collecting box mainly comprises a second box body, a fabric inlet is formed above the second box body, a handle rod is fixedly connected above one side of the second box body, and second universal wheels are fixedly connected at the peripheral corners of the bottom of the second box body.

As a preferable scheme of the invention, the outer walls of two sides above the second box body are fixedly connected with sliding blocks, two groups of sliding blocks are in sliding connection with the sliding grooves, and the collecting box is arranged in the second pair of interfaces.

As a preferable scheme of the invention, notches are formed in the inner side walls of the two groups of supporting tables, a pushing cylinder is fixedly connected to the top of each notch, and third guide rods are vertically arranged on two sides of each pushing cylinder.

As a preferable scheme of the invention, connecting blocks are arranged between the two groups of third guide rods and below the output end of the pushing cylinder in a sliding manner, a return spring is vertically and fixedly connected below the connecting blocks, and one side of each connecting block is fixedly connected with the pressure plate.

Compared with the prior art, the invention has the advantages that:

(1) the cutting mechanism mainly comprises a first driving group, the first driving group is relatively provided with two groups, the cutting mechanism is movably connected to the machine body through matching between the two groups of first driving groups and the track, a first guide rail fixedly connected between the two groups of first driving groups, one side of the first guide rail and two groups of first guide rods fixedly connected between the two groups of first driving groups, the first driving group and the track are movably connected, the cutting tool is convenient to drive to move longitudinally, a first moving block is convenient to drive the cutting tool to move transversely through matching between the first guide rail and the first guide rod, the cutting tool can be driven to lift by the driving assembly, the moving range of the cutting tool is improved, and the dead-angle-free cutting of the fabric is realized.

(2) Adsorption apparatus constructs mainly including the second drive group, the second drive group is provided with two sets ofly relatively, adsorption apparatus constructs and cuts corresponding activity between the mechanism and set up on the organism, fixedly connected with second guide rail between two sets of second drive groups, two sets of second guide arms of fixedly connected with between one side of second guide rail and two sets of second drive groups, the second drive group of setting is same and swing joint between the track, be convenient for drive adsorption cylinder carries out vertical ascending removal, it drives adsorption cylinder and carries out horizontal ascending removal to be convenient for the second movable block through the cooperation between second guide rail and the second guide arm, and the motion range is improved, the surface fabric that will cut adsorbs to the collecting box and collects.

(3) The waste material box is connected in the first pair of connectors in a sliding mode, the first box body is convenient to pull out and push in through the handle, the first box body is arranged below the conveyor belt, the conveyor belt is convenient to convey the residual fabric into the waste material box, and finally the waste material is subjected to centralized treatment, so that the recovery efficiency is improved; collecting box sliding connection pulls out and pushes away the second box through what the barre can be relaxed in the second is to the interface, is convenient for collect the surface fabric that will cut to the second box in through adsorption apparatus, improves the collection efficiency after cutting.

Drawings

FIG. 1 is a schematic perspective view of the body of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is an enlarged schematic view of the other side of the three-dimensional structure of the present invention;

FIG. 4 is a schematic perspective view of a cutting mechanism according to the present invention;

FIG. 5 is a schematic perspective view of the adsorption mechanism of the present invention;

FIG. 6 is a schematic perspective view of the waste bin of the present invention;

FIG. 7 is a schematic cross-sectional view of the driving group structure of the present invention;

FIG. 8 is a cross-sectional view of the inner side of the supporting table of the present invention.

The reference numbers in the figures illustrate:

1. a body; 101. a support table; 1011. a notch; 1012. a push cylinder; 1013. a third guide bar; 1014. connecting blocks; 1015. a return spring; 102. a first leg; 103. a second leg; 104. a support plate; 105. a support; 106. a control panel; 107. a drive box; 108. a heat dissipation port; 109. a roll shaft bracket; 110. a support groove; 111. a conveyor belt; 112. pressing a plate; 113. a clamping piece; 114. a chute; 115. a track; 116. a first pair of interfaces; 117. a second pair of interfaces; 2. a roll shaft body; 201. a roll axis; 202. a limiting block; 3. a cutting mechanism; 301. a first drive group; 302. a first guide rail; 303. a first drag chain slot; 304. a first guide bar; 305. a first moving block; 306. a first tow chain; 307. a drive assembly; 308. a lifting groove; 309. cutting tools; 4. an adsorption mechanism; 401. a second drive group; 402. a second guide rail; 403. a second tow chain groove; 404. a second guide bar; 405. a second moving block; 406. a second tow chain; 407. an adsorption cylinder; 408. an adsorption port; 5. a waste bin; 501. a first case; 502. a waste inlet; 503. an arc-shaped plate; 504. a handle; 505. a first universal wheel; 506. clamping the convex block; 6. a collection box; 601. a second case; 602. a fabric inlet; 603. a handle bar; 604. a second universal wheel; 605. a slider; 7. a T-shaped slot; 8. a buffer tank; 9. a buffer rod; 10. a connecting rod; 11. a buffer spring; 12. and a roller.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Example (b):

referring to fig. 1-8, a cutting device for clothing material comprises a machine body 1, a roller shaft body 2, a cutting mechanism 3, an adsorption mechanism 4, a waste bin 5 and a collection bin 6.

Wherein, the machine body 1 mainly comprises two groups of supporting platforms 101, the two groups of supporting platforms 101 are correspondingly arranged, a first supporting leg 102 is fixedly arranged below one side of the supporting platform 101, a second supporting leg 103 is fixedly arranged below the other side of the supporting platform 101, supporting plates 104 are fixedly connected below the first supporting leg 102 and the second supporting leg 103, a bracket 105 is fixedly connected on the side surface of the supporting platform 101, a control panel 106 is fixedly arranged above the bracket 105, a driving box 107 is fixedly connected below the inner wall of one side of the supporting platform 101, one end of the driving box 107 is provided with a heat dissipation port 108, roller shaft brackets 109 are correspondingly and vertically arranged above one side of the two groups of supporting platforms 101, a supporting groove 110 is arranged above the two groups of roller shaft brackets 109, a conveying belt 111 is arranged between the two groups of supporting platforms 101, a pressing plate 112 is transversely arranged above one side, a first pair of interfaces 116 is formed between the first supporting leg 102 and the second supporting leg 103, two sets of clamping components 113 are fixedly connected to the inner side walls of the first supporting leg 102 and the second supporting leg 103, sliding grooves 114 are formed in the inner wall of the other side of the two sets of supporting tables 101, a second pair of interfaces 117 is formed between the two sets of sliding grooves 114, rails 115 are fixedly connected to the upper portions of the outer side walls of the two sets of supporting tables 101, the device inputs programs through a control panel 106 to perform integral operation, coiled fabrics are installed on the roller shaft body 2 and then clamped on the roller shaft support 109, the fabrics are conveyed to one side through a conveying belt 111, when the fabrics are conveyed to a pressing plate 112, the pressing plate 112 pushes a connecting block 1014 through a pushing cylinder 1012 to drive the pressing plate 112 to tightly press the fabrics so as to fix the fabrics during cutting and ensure the integrity of the cutting, after the fabrics are cut through the cutting mechanism 3, the adsorption mechanism 4 moves to the upper portions of the cut fabrics, adsorbing the cloth, returning the adsorption mechanism 4 to the upper part of the collection box 6 to place the cloth in the second box 601 for centralized collection, lifting the pressing plate 112 after one side of the cloth is cut, conveying the rest of the cloth to the waste box 5 by the conveying belt 111, and finally performing centralized treatment on the waste materials to improve the collection and recovery efficiency;

the roll shaft body 2 mainly comprises a rolling shaft 201, the roll shaft body 2 is connected in the support groove 110 in a rolling mode through the rolling shaft 201, two ends of the rolling shaft 201 are fixedly connected with limiting blocks 202, the arranged rolling shaft 201 is attached to the inner wall of the support groove 110, and the roll shaft body 2 is fixed through the limiting blocks 202 at the two ends, so that rolled fabric can be conveniently fixed and conveyed;

the cutting mechanism 3 mainly comprises a first driving group 301, two groups of the first driving group 301 are oppositely arranged, the cutting mechanism 3 is movably connected to the machine body 1 through the matching between the two groups of the first driving group 301 and the track 115, a first guide rail 302 is fixedly connected between the two groups of the first driving group 301, two groups of first guide rods 304 are fixedly connected to one side of the first guide rail 302 and between the two groups of the first driving group 301, the arranged first driving group 301 is movably connected with the track 115 to drive the cutting tool 309 to move longitudinally, a first moving block 305 is convenient to drive the cutting tool 309 to move transversely through the matching between the first guide rail 302 and the first guide rods 304, the moving range of the cutting tool 309 is improved, and the dead-corner-free fabric cutting is realized;

the adsorption mechanism 4 mainly comprises a second driving group 401, two groups of second driving groups 401 are oppositely arranged, the adsorption mechanism 4 and the cutting mechanism 3 are correspondingly and movably arranged on the machine body 1, a second guide rail 402 is fixedly connected between the two groups of second driving groups 401, two groups of second guide rods 404 are fixedly connected to one side of the second guide rail 402 and between the two groups of second driving groups 401, the arranged second driving groups 401 are also movably connected with the track 115, so that the adsorption cylinder 407 is driven to move longitudinally, the second moving block 405 is driven by the adsorption cylinder 407 to move transversely through the matching between the second guide rail 402 and the second guide rods 404, the movement range is improved, and the cut fabrics are adsorbed to the collection box 6 for collection;

the waste box 5 is slidably connected into the first pair of connectors 116, the first box 501 is convenient to pull out and push in through the handle 504, the first box 501 is arranged below the conveyor belt 111, the conveyor belt 111 is convenient to convey the residual fabric into the waste box 5, and finally, the waste materials are subjected to centralized treatment, so that the recovery efficiency is improved;

wherein, collecting box 6 sliding connection is in the second is to interface 117, through pulling out and pushing second box 601 that the barre 603 can be relaxed, is convenient for collect the surface fabric that cuts to second box 601 through adsorption apparatus 4 in, improves the collection efficiency after cutting.

Specifically, a first drag chain groove 303 is formed above a first guide rail 302 in the cutting mechanism 3, a first moving block 305 is movably arranged on the first guide rail 302 and a first guide rod 304, a first drag chain 306 is arranged in the first drag chain groove 303, the other end of the first drag chain 306 is fixedly connected with the first moving block 305, a driving assembly 307 is arranged on one side of the first moving block 305, a lifting groove 308 is formed in one side of the driving assembly 307, and a cutting tool 309 is movably arranged in the lifting groove 308.

In a further embodiment, the first driving set 301 is movably connected with the track 115, so as to drive the cutting tool 309 to move longitudinally, the first moving block 305 is convenient to drive the cutting tool 309 to move transversely through the cooperation between the first guide rail 302 and the first guide rod 304, and meanwhile, the driving assembly 307 can enable the cutting tool 309 to lift, so that the movement range of the cutting tool 309 is increased, and the purpose of cutting the fabric without dead angles is achieved.

Specifically, a second tow chain groove 403 is formed above a second guide rail 402 in the adsorption mechanism 4, a second moving block 405 is movably arranged on the second guide rail 402 and a second guide rod 404, a second tow chain 406 is arranged in the second tow chain groove 403, the other end of the second tow chain 406 is fixedly connected with the second moving block 405, an adsorption air cylinder 407 is arranged on one side of the second moving block 405, and an adsorption port 408 is formed in the bottom output end of the adsorption air cylinder 407.

In a further embodiment, the second driving group 401 is also movably connected with the track 115, so that the adsorption cylinder 407 is driven to move longitudinally, the second moving block 405 is driven to move transversely by matching the second guide rail 402 with the second guide rod 404, the movement range is increased, and cut fabrics are adsorbed to the collecting box 6 through the adsorption port 408 for collection.

Specifically, first drive group 301 and second drive group 401 shape are the same, T-slot 7 has been seted up in the middle of first drive group 301 and second drive group 401's the inner wall, be the laminating setting between T-slot 7 and the track 115, buffer tank 8 has been seted up at the upper and lower both ends of T-slot 7, buffer tank 8 extends to the inside of first drive group 301 and second drive group 401, vertically be provided with buffer beam 9 in the buffer tank 8, the one end fixedly connected with connecting rod 10 of buffer beam 9, buffer spring 11 has been cup jointed on the connecting rod 10, the other end of buffer beam 9 is provided with two sets of gyro wheels 12 relatively.

In further embodiment, the rollers 12 arranged at the upper end and the lower end improve the motion efficiency of the first driving group 301 and the second driving group 401 of the two driving groups, if impurities fall into the track 115, the damping and buffering can be carried out through the cooperation between the buffer rod 9 and the buffer spring 11, and the motion process of the driving groups is not influenced.

Specifically, the waste bin 5 mainly includes first box 501, and waste material entry 502 has been seted up to the top of first box 501, is provided with arc 503 in the inner wall of one side in the first box 501, and one side of first box 501 is provided with handle 504 on the surface, and the equal fixedly connected with first universal wheel 505 of bottom all around the edge of first box 501.

In a further embodiment, the waste is conveyed to the inside of the first box 501 by the conveyor belt 111, the surface of the arc-shaped plate 503 is set to be smooth, the waste can be prevented from blocking the waste inlet 502, and then the first box 501 can be easily pulled out, pushed in or transported by the cooperation between the handle 504 and the first universal wheel 505.

Specifically, two sets of clamping protrusions 506 are fixedly connected to two ends of the first box 501, four sets of clamping protrusions 506 are slidably connected to each clamping member 113, and the waste bin 5 is disposed in the first pair of interfaces 116.

In a further embodiment, the structure and the structure are reasonably arranged, when the fabric is cut, the waste bin 5 is fixed through the matching between the clamping convex block 506 and the clamping piece 113, so that the waste materials can be conveyed and stored, and after the fabric is cut, the waste bin 5 can be easily pulled out from the first pair of interfaces 116 to process the waste materials.

Specifically, the collecting box 6 mainly comprises a second box 601, a fabric inlet 602 is formed in the upper portion of the second box 601, a handle 603 is fixedly connected to the upper portion of one side of the second box 601, and second universal wheels 604 are fixedly connected to the peripheral corners of the bottom of the second box 601.

In a further embodiment, the cut fabric is conveyed to the inside of the second box 601 by the adsorption mechanism 4 for centralized collection, and the second box 601 can be easily pulled out, pushed in or transported by the cooperation between the rod 603 and the second universal wheel 604.

Specifically, the outer walls of two sides above the second box 601 are fixedly connected with sliders 605, and the two sets of sliders 605 are slidably connected with the sliding grooves 114, so that the collecting box 6 is disposed in the second pair of ports 117.

In a further embodiment, the collecting box 6 can be fixed in the second pair of interfaces 117 by the cooperation between the sliding block 605 and the sliding groove 114 when the fabric is cut, and can be easily pulled out of the second pair of interfaces 117 after the cutting is finished.

Specifically, notches 1011 are formed in inner side walls of the two support tables 101, a push cylinder 1012 is fixedly connected to the top of each notch 1011, and third guide rods 1013 are vertically arranged on two sides of the push cylinder 1012.

In a further embodiment, the fabric is conveyed to one side through the conveying belt 111, when the fabric is conveyed to the pressing plate 112, the pressing plate 112 pushes the connecting block 1014 through the pushing cylinder 1012, the connecting block 1014 can be lifted smoothly through the third guide rod 1013, the pressing plate 112 is driven to press the fabric, so that the fabric is fixed during cutting, and the cutting integrity is guaranteed.

Specifically, connecting blocks 1014 are slidably arranged between the two groups of third guide rods 1013 and below the output end of the pushing cylinder 1012, a return spring 1015 is vertically and fixedly connected below the connecting blocks 1014, and one side of the connecting blocks 1014 is fixedly connected with the pressure plate 112.

In a further embodiment, the connecting block 1014 and the pressing plate 112 are arranged integrally, the pushing cylinder 1012 pushes the connecting block 1014, and the connecting block 1014 can be lifted smoothly through the third guide rod 1013 to drive the pressing plate 112 to compress the cloth, so that the cloth is fixed during cutting, and the cutting integrity is ensured.

The working principle of the embodiment is as follows:

when the device is used, rolled fabrics are installed on the roller shaft body 2 and then are clamped on the roller shaft support 109, the waste bin 5 and the collecting bin 6 are installed corresponding to the first pair of interfaces 116 and the second pair of interfaces 117 respectively, and then the whole device is started and operated by inputting programs through the control panel 106.

The fabric is conveyed to one side through the conveying belt 111, when the fabric is conveyed to the pressing plate 112, the pressing plate 112 pushes the connecting block 1014 through the pushing cylinder 1012 to drive the pressing plate 112 to press the fabric tightly so as to fix the fabric during cutting and ensure the integrity of cutting, the arranged first driving group 301 is movably connected with the track 115 so as to drive the cutting tool 309 to move longitudinally, the first moving block 305 is convenient to drive the cutting tool 309 to move transversely through the matching between the first guide rail 302 and the first guide rod 304, meanwhile, the driving component 307 can enable the cutting tool 309 to lift, the moving range of the cutting tool 309 is improved, the fabric can be cut without dead corners, the arranged second driving group 401 is also movably connected with the track 115 so as to drive the adsorption cylinder 407 to move longitudinally, and the second moving block 405 is convenient to drive the adsorption cylinder 407 to move transversely through the matching between the second guide rail 402 and the second guide rod 404, the movement range is increased, the cut fabrics are adsorbed to the collecting box 6 through the adsorption port 408 to be collected, the pressing plate 112 is lifted up finally, the conveying belt 111 conveys the rest fabrics to the waste box 5, and finally the waste materials are subjected to centralized treatment, so that the collection and recovery efficiency is improved.

Claims

1. Garment materials's cutting equipment, its characterized in that includes: the roller shaft cutting machine comprises a machine body (1), a roller shaft body (2), a cutting mechanism (3), an adsorption mechanism (4), a waste box (5) and a collection box (6); organism (1) mainly includes two sets of brace tables (101), and is two sets of brace table (101) corresponding the setting, the fixed first landing leg (102) that is provided with in one side below of brace table (101), the fixed second landing leg (103) that is provided with in opposite side below of brace table (101), the equal fixedly connected with extension board (104) in below of first landing leg (102) and second landing leg (103), fixedly connected with support (105) on the side surface of brace table (101), the fixed control panel (106) that is provided with in top of support (105), one side inner wall below fixedly connected with drive box (107) of brace table (101), thermovent (108) have been seted up to the one end of drive box (107).

2. The garment material cutting apparatus of claim 1, further comprising: roll shaft brackets (109) are correspondingly and vertically arranged above one side of the two groups of supporting tables (101), supporting grooves (110) are arranged above the two groups of roll shaft brackets (109), a conveying belt (111) is arranged between the two groups of supporting tables (101), a pressing plate (112) is transversely arranged above one side of the conveyor belt (111), the pressing plate (112) is transversely arranged between the two groups of supporting tables (101), a first pair of interfaces (116) is formed between the first leg (102) and the second leg (103), two groups of clamping components (113) are fixedly connected to the inner side walls of the first supporting leg (102) and the second supporting leg (103), sliding grooves (114) are formed in the inner wall of the other side of each supporting platform (101), a second pair of interfaces (117) are formed between the two groups of sliding grooves (114), and tracks (115) are fixedly connected to the upper portions of the outer side walls of the two groups of supporting platforms (101); the roll shaft comprises a roll shaft body (2), wherein the roll shaft body (2) mainly comprises a rolling shaft (201), the roll shaft body (2) is connected in a supporting groove (110) in a rolling mode through the rolling shaft (201), and two ends of the rolling shaft (201) are fixedly connected with limiting blocks (202); the cutting mechanism (3) mainly comprises a first driving group (301), the first driving group (301) is oppositely provided with two groups, the cutting mechanism (3) is movably connected to the machine body (1) through the matching between the two groups of first driving groups (301) and the track (115), a first guide rail (302) is fixedly connected between the two groups of first driving groups (301), and two groups of first guide rods (304) are fixedly connected to one side of the first guide rail (302) and between the two groups of first driving groups (301); the adsorption mechanism (4) mainly comprises a second driving group (401), the second driving group (401) is oppositely provided with two groups, the adsorption mechanism (4) and the cutting mechanism (3) are correspondingly and movably arranged on the machine body (1), a second guide rail (402) is fixedly connected between the two groups of second driving groups (401), and two groups of second guide rods (404) are fixedly connected between one side of the second guide rail (402) and the two groups of second driving groups (401); a waste bin (5), the waste bin (5) slidably connected in a first pair of ports (116); a collection box (6), the collection box (6) being slidably connected in the second pair of interfaces (117).

3. The garment material cutting apparatus of claim 2, wherein: a first drag chain groove (303) is formed in the cutting mechanism (3) above a first guide rail (302), a first moving block (305) is movably arranged on the first guide rail (302) and a first guide rod (304), a first drag chain (306) is arranged in the first drag chain groove (303), the other end of the first drag chain (306) is fixedly connected with the first moving block (305), a driving component (307) is arranged on one side of the first moving block (305), a lifting groove (308) is formed in one side of the driving component (307), and a cutting tool (309) is movably arranged in the lifting groove (308).

4. The garment material cutting apparatus of claim 2, wherein: a second drag chain groove (403) is formed in the adsorption mechanism (4) above a second guide rail (402), a second moving block (405) is movably arranged on the second guide rail (402) and a second guide rod (404), a second drag chain (406) is arranged in the second drag chain groove (403), the other end of the second drag chain (406) is fixedly connected with the second moving block (405), an adsorption air cylinder (407) is arranged on one side of the second moving block (405), and an adsorption port (408) is formed in the output end of the bottom of the adsorption air cylinder (407).

5. The garment material cutting apparatus of claim 2, wherein: first drive group (301) and second drive group (401) shape is the same, T-slot (7) have been seted up in the middle of the inner wall of first drive group (301) and second drive group (401), be the laminating setting between T-slot (7) and track (115), dashpot (8) have been seted up at the upper and lower both ends of T-slot (7), dashpot (8) extend to the inside of first drive group (301) and second drive group (401), the vertical buffer beam (9) that is provided with in dashpot (8), the one end fixedly connected with connecting rod (10) of buffer beam (9), buffer spring (11) have been cup jointed on connecting rod (10), the other end of buffer beam (9) is provided with two sets of gyro wheels (12) relatively.

6. The garment material cutting apparatus of claim 2, wherein: the waste bin (5) mainly comprises a first box body (501), a waste inlet (502) is formed in the top of the first box body (501), an arc-shaped plate (503) is arranged in the inner wall of one side of the first box body (501), a handle (504) is arranged on the surface of one side of the first box body (501), and first universal wheels (505) are fixedly connected to the peripheral corners of the bottom of the first box body (501).

7. The garment material cutting apparatus of claim 6, wherein: the equal two sets of joint lugs (506) of both ends fixedly connected with of first box (501), four groups altogether joint lug (506) all with every group joint spare (113) between sliding connection, will dump bin (5) set up in first pair of interface (116).

8. The garment material cutting apparatus of claim 2, wherein: the collecting box (6) mainly comprises a second box body (601), a fabric inlet (602) is formed in the upper portion of the second box body (601), a handle bar (603) is fixedly connected to the upper portion of one side of the second box body (601), and second universal wheels (604) are fixedly connected to the peripheral corners of the bottom of the second box body (601).

9. The apparatus for cutting a garment material as claimed in claim 8, wherein: the outer walls of two sides above the second box body (601) are fixedly connected with sliding blocks (605), the two groups of sliding blocks (605) are in sliding connection with the sliding grooves (114), and the collecting box (6) is arranged in the second pair of interfaces (117).

10. The garment material cutting apparatus of claim 2, wherein: notches (1011) are formed in the inner side walls of the two groups of supporting tables (101), a pushing cylinder (1012) is fixedly connected to the top of each notch (1011), and third guide rods (1013) are vertically arranged on two sides of each pushing cylinder (1012); connecting blocks (1014) are arranged between the two groups of third guide rods (1013) and below the output end of the pushing cylinder (1012) in a sliding manner, a return spring (1015) is vertically and fixedly connected below the connecting blocks (1014), and one side of the connecting blocks (1014) is fixedly connected with the pressure plate (112).