CN115787278A - Textile fabric cutting device - Google Patents

Abstract

The application provides a textile fabric cutting device which comprises a workbench, a cutting mechanism and a pulling mechanism, wherein the workbench is arranged perpendicular to the ground; the cutting mechanism and the material pulling mechanism are respectively arranged on the workbench, the cutting mechanism comprises a first support, a first driving assembly, a material pressing assembly, a cutting assembly and two groups of edge ironing assemblies, and the first support is detachably connected to the two sides of the workbench; the first driving assembly is arranged on the first support, and the pressing assembly, the cutting assembly and the edge ironing assembly are respectively arranged below the first driving assembly; the first driving assembly is used for pushing the pressing assembly, the cutting assembly and the edge ironing assembly to act on the textile fabric. The textile fabric cutting device provided by the embodiment of the application cuts by adopting a mode of stretching and pulling and the mode of the unidirectional movement of the blade, reduces cutting errors, avoids the situations of fiber expansion and thread falling at a cut, and ensures the quality of products.

Description

Textile fabric cutting device

Technical Field

The application relates to the technical field of spinning, especially, relate to a textile fabric cutting device.

Background

Textile fabrics include weft-knitted fabrics and warp-knitted fabrics according to the weaving method. The weft-knitted fabric is usually made of low-stretch polyester yarn or special-shaped polyester yarn, nylon yarn, cotton yarn, wool yarn and the like as raw materials, and is knitted on various weft knitting machines by adopting plain stitch, variable plain stitch, rib plain stitch, double rib plain stitch, jacquard weave, terry stitch and the like.

In addition, after the weaving of the textile fabric is finished, the textile fabric can be cut into products with uniform specifications according to requirements.

In the related art, when the textile fabric is cut, some straight knife blades perform reciprocating linear motion up and down at a high speed to cut, the blades lift the fabric upwards in the process to cause cutting errors, fibers at the edge of the textile fabric expand, even the yarn is off, and the quality of a product is influenced.

Disclosure of Invention

The present application aims to solve at least to some extent one of the technical problems in the above-mentioned technology.

Therefore, an object of the present application is to provide a textile fabric cutting device, which cuts by combining stretching and unidirectional movement of the blade, reduces cutting errors, avoids the fiber expansion and thread off at the cut, and ensures the quality of the product.

In order to achieve the above object, an embodiment of the first aspect of the present application provides a textile fabric cutting device, including: the cutting device comprises a workbench, a cutting mechanism and a pulling mechanism, wherein the workbench is arranged perpendicular to the ground; the cutting mechanism and the material pulling mechanism are respectively arranged on the workbench, the cutting mechanism comprises a first support, a first driving assembly, a material pressing assembly, a cutting assembly and two groups of edge ironing assemblies, and the first support is detachably connected to two sides of the workbench; the first driving assembly is arranged on the first support, and the pressing assembly, the cutting assembly and the edge ironing assembly are respectively arranged below the first driving assembly; the first driving assembly is used for pushing the pressing assembly, the cutting assembly and the edge ironing assembly to act on a textile fabric; the pressing component is used for flattening the textile fabric and moving the textile fabric to be cut, the cutting component is used for cutting the textile fabric to obtain a target fabric, and the edge ironing component is used for ironing the cut edges of the target fabric; the material pulling mechanism is used for pulling the textile fabric so as to collect the target fabric.

The textile fabric cutting device of this application embodiment stretches the textile fabric through pressing the material subassembly and draws, and drive assembly promotes the blade downstream and cuts, has avoided the blade to reciprocate from top to bottom to drive textile fabric upwards to lift and arouse the cutting error, recycles boiling hot limit subassembly and presses boiling hot to the incision department of surface fabric, has avoided incision department surface fabric fibre inflation to the condition of having avoided textile fabric to take off the line appears, and then has guaranteed the quality of product.

In addition, the textile fabric cutting device provided according to the above embodiment of the present application may further have the following additional technical features:

in one embodiment of the present application, the first driving assembly includes a plurality of first driving devices and a plate body, wherein the plurality of first driving devices are disposed on the first bracket, the push rods of the first driving devices penetrate through the first bracket, and the plate body is disposed on the plurality of push rods of the first driving devices.

In one embodiment of the application, the pressing assembly includes two groups of pressing devices and two tension springs, wherein the two groups of pressing devices are symmetrically arranged on the plate body, and a plurality of through holes are formed in the pressing devices; two the extension spring sets up respectively between two sets of press device, one end lock joint of extension spring is in the through-hole.

In one embodiment of the application, the pressing device comprises two supporting plates, a pressing roller shaft and a second driving device, wherein the two supporting plates are rotatably and symmetrically connected to the plate body; the material pressing roll shaft is rotatably arranged between the two supporting plates; the second driving device is arranged on one side of one supporting plate, and an output shaft of the second driving device is connected with one end of the material pressing roll shaft.

In one embodiment of the present application, the cutting assembly includes a first cutter, a backing plate, and a second cutter, wherein the first cutter is detachably connected to the plate body; the base plate is arranged on the workbench and is positioned below the first cutter; the backing plate is provided with a groove body, the second cutter is located in the groove body, and the first cutter and the second cutter are arranged oppositely.

In one embodiment of the present application, the edge iron assembly includes a heating box, a connecting member, and a pressing plate, wherein the heating box is disposed on the plate body; the connecting piece is movably arranged in the heating box; the pressing plate is arranged on the connecting piece.

In an embodiment of the application, the material pulling mechanism includes a third driving device, an extension plate, a second bracket, a second driving assembly and a material clamping assembly, wherein the extension plate is arranged on the workbench, and a chute is formed in the extension plate; the second bracket is arranged above the extension plate and can be arranged in the sliding groove in a sliding manner; the third driving device is arranged on the workbench, and a driving rod of the third driving device is connected with the second bracket; one end of the second driving assembly is arranged on the second bracket; the other end of the second driving assembly is also arranged on the material clamping assembly; the outer side of the clamping component is also arranged on the second bracket.

In one embodiment of the application, the material guiding device further comprises a material guiding mechanism, wherein the material guiding mechanism comprises two vertical plates and two material guiding roller shafts, and the two vertical plates are symmetrically arranged on the workbench; two the guide roller axle is rotationally connected between two the riser.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a textile fabric cutting apparatus according to one embodiment of the present application;

FIG. 2 is a schematic view of a first drive assembly and a cutting assembly of a textile fabric cutting apparatus according to one embodiment of the present application;

FIG. 3 is a schematic view of a connection structure of a first driving assembly and a material pressing assembly of the textile fabric cutting device according to one embodiment of the application;

FIG. 4 is a schematic view of a connection structure of a first driving assembly and an edge ironing assembly of the textile fabric cutting device according to one embodiment of the application;

FIG. 5 is a schematic view of a textile fabric cutting apparatus according to another embodiment of the present application;

fig. 6 is a schematic structural diagram of a textile fabric cutting device according to another embodiment of the application.

Reference numerals: 1. a work table; 2. a cutting mechanism; 20. a first bracket; 21. a first drive assembly; 211. a first driving device; 212. a plate body; 22. a material pressing component; 220. a through hole; 221. a pressing device; 2211. a supporting plate; 2212. a material pressing roll shaft; 2213. a second driving device; 222. a tension spring; 23. a cutting assembly; 230. a trough body; 231. a first cutter; 232. a base plate; 233. a second cutter; 24. an edge ironing component; 241. a heating cartridge; 242. a connecting member; 243. pressing a plate; 3. a material pulling mechanism; 31. a third driving device; 32. an extension plate; 33. a chute; 34. a second bracket; 35. a second drive assembly; 36. a material clamping component; 4. a material guiding mechanism; 41. a vertical plate; 42. a material guiding roll shaft.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application.

The textile fabric cutting device of the embodiment of the present application is described below with reference to the drawings.

The application provides a textile fabric cutting device mainly is applied to clothing factory and weaving light industry mill etc. can carry out the cutting of unified specification to textile fabric according to the product demand.

As shown in fig. 1 and fig. 2, the textile fabric cutting device according to the embodiment of the present application may include a workbench 1, a cutting mechanism 2, and a material pulling mechanism 3.

Wherein, workstation 1 perpendicular to ground is placed, cuts mechanism 2 and tears material mechanism 3 and set up respectively on workstation 1, cuts mechanism 2 and can include first support 20, first drive assembly 21, press material subassembly 22, cutting assembly 23 and two sets of boiling hot limit subassemblies 24.

It should be noted that, in the embodiment, the workbench 1 is further provided with an electrical control device (not shown), the cutting mechanism 2 and the material pulling mechanism 3 are respectively connected to the electrical control device, and the electrical control device may include a Programmable Logic Controller (PLC).

Wherein, first support 20 detachably connects in 1 both sides of workstation, first drive assembly 21 sets up on first support 20, press material subassembly 22, cutting assembly 23 and boiling hot limit subassembly 24 set up respectively in the below of first drive assembly 21, first drive assembly 21 is used for promoting and presses material subassembly 22, cutting assembly 23 and boiling hot limit subassembly 24 are used for on the textile fabric, press material subassembly 22 to be used for flattening textile fabric, and remove and wait to cut textile fabric, cutting assembly 23 is used for cutting textile fabric, in order to obtain the target surface fabric, boiling hot limit subassembly 24 is used for pressing the side cut of target surface fabric and scalds, it is used for dragging textile fabric to pull material mechanism 3, in order to collect the target surface fabric.

In the embodiment of the present application, the external commercial power can provide electric energy for the cutting mechanism 2 and the material pulling mechanism 3 in the device.

It should be noted that, in the embodiment, an unwinding device (not shown) or other devices are provided at one side of the working platform 1, for example: a textile fabric forming machine, a dryer, etc. (not shown in the figure).

In the embodiment of this application, the below of first support 20 is equipped with infrared sensor (not shown in the figure), and infrared sensor can respond to the tip position of cloth to with in signal transmission arrives electrical control device, electrical control device sends the running signal to tearing feed mechanism 3, makes and tears that feed mechanism 3 can accurately fix the one end of waiting to cut the textile fabric.

Specifically, according to the product demand, the worker inputs a set program (can confirm according to actual conditions) into the electrical control device, and places the textile fabric to be cut on the unwinding device, before the textile fabric is cut, the worker passes the one end of the textile fabric through the cutting mechanism 2, and then pulls the one end of the textile fabric to drag to a preset position by the material dragging mechanism 3.

Then, the electric control device sends an operation signal to the cutting mechanism 2, the first driving assembly 21 pushes the pressing assembly 22 to move downwards, and the pressing assembly 22 stretches and pulls the two sides of the fabric from the cutting position of the fabric to be cut until the cutting assembly 23 finishes cutting the textile fabric, so that the cutting error caused by the fact that the textile fabric is lifted upwards is avoided.

Because the material subassembly 22 of pressing is drawn stretching of textile fabric, there is certain resilience force in the textile fabric after the cutting for textile fabric's incision edge position kick-backs to boiling hot limit subassembly 24 under, and first drive assembly 21 continues the operation, makes boiling hot limit subassembly 24 press boiling hot to textile fabric's incision edge, has avoided incision department's surface fabric fibre inflation, thereby has avoided the condition of taking off the line to appear, has guaranteed the quality of product.

After finishing pressing and ironing the cut textile fabric, pulling the target fabric by the material pulling mechanism 3 for a certain distance (which can be set according to actual conditions), and temporarily storing the target fabric on the workbench 1.

The material pressing component 22 moves one end of the fabric to be cut, so that one end of the fabric to be cut extends out, the electric control device sends an operation signal to the material pulling mechanism 3 again, the material pulling mechanism 3 fixes one end of the fabric to be cut again, the steps are repeated, and finally a plurality of target fabrics are stacked on the workbench 1.

It is understood that, in the embodiment of the present application, the heights of the pressing assembly 22, the cutting assembly 23 and the edge ironing assembly 24 from the first driving assembly 21 are gradually decreased. So that the pressing process, the cutting process and the edge ironing process in the cutting mechanism 2 are sequentially carried out.

In one embodiment of the present application, as shown in fig. 2, the first driving assembly 21 may include a plurality of first driving devices 211 and a plate body 212.

Wherein, a plurality of first driving devices 211 are disposed on the first bracket 20, the push rods of the first driving devices 211 penetrate through the first bracket 20, and the plate body 212 is disposed on the push rods of the plurality of first driving devices 211.

It should be noted that the number of the plurality of first driving devices 211 described in this embodiment may be 2, 3, 4, etc., and is not limited herein, and in addition, the first driving device 211 may be a multi-stroke cylinder.

Specifically, when the first driving assembly 21 operates, the plurality of first driving devices 211 push the plate body 212 to move, and the plate body 212 drives the pressing assembly 22, the cutting assembly 23, and the edge ironing assembly 24 to move.

In one embodiment of the present application, as shown in fig. 3, the pressing assembly 22 may include two sets of pressing devices 221 and two tension springs 222.

The two pressing devices 221 are symmetrically disposed on the plate body 212, a plurality of through holes 220 are disposed on the pressing devices 221, two tension springs 222 are disposed between the two pressing devices 221, and one ends of the tension springs 222 are fastened in the through holes 220.

In one embodiment of the present application, the pressing device 221 may include two supporting plates 2211, a pressing roller shaft 2212, and a second driving device 2213.

Wherein, two fagging 2211 rotationally symmetrical connection are on plate body 212, press material roller 2212 rotationally to set up between two fagging 2211, and second drive arrangement 2213 sets up the one side of a fagging 2211, and the output shaft of second drive arrangement 2213 is connected with the one end of pressing material roller 2212.

It should be noted that the second driving device 2213 described in this embodiment may be a micro motor.

Specifically, when the pressing assembly 22 stretches the fabric, the first driving assembly 21 pushes the pressing assembly 22 to be close to the fabric to be cut, the first driving assembly 21 continues to move, the pressing roller shaft 2212 rolls on the surface of the fabric, the upper portions of the two pressing devices 221 rotate on the plate body 212, the distance between the bottoms of the two pressing devices 221 is increased, the tension spring 222 is stretched, and after the fabric is stretched and stretched, the cutting assembly 23 cuts the fabric, and then the cut portion is pressed and scalded.

After the pressing is accomplished, second drive arrangement 2213 moves, and then drives and presses material roller 2212 autonomous rotation, is close to the pressure material roller 2212 of target surface fabric and releases target surface fabric, is close to the pressure material roller 2212 of waiting to cut the surface fabric and promotes the surface fabric to another pressure material roller 2212's direction, and then will wait that the one end of cutting the surface fabric promotes to another opposite side of pressing material roller 2212, until pull the one end that feed mechanism 3 can treat to cut textile fabric and carry out the centre gripping fixed.

In the embodiment of the present application, in order to ensure that when the first driving assembly 21 pushes the pressing assembly 22 to move downward, the two pressing devices 221 move in opposite directions, and when the pressing assembly 22 is not in contact with the fabric, the two pressing devices 221 may be arranged statically in a shape of a Chinese character 'ba'.

In one embodiment of the present application, as shown in fig. 2, the cutting assembly 23 may include a first cutter 231, a backing plate 232, and a second cutter 233.

Wherein, first cutter 231 detachably connects on plate body 212, and backing plate 232 sets up on workstation 1, and is located the below of first cutter 231, has seted up cell body 230 on the backing plate 232, and second cutter 233 is located cell body 230, and first cutter 231 just sets up with second cutter 233.

For example, in order to ensure that the pressing roller 2212 can push the textile fabric to be cut to move on the surface of the backing plate 232, the surface roughness of the backing plate 232 is less than 3.2. In addition, it can be understood that the surface roughness of the pressing roller 2212 is greater than that of the backing plate 232, so that the pressing roller 2212 can push the textile fabric to move on the backing plate 232.

As a possible case, in order to increase the pressure between the first cutter 231, the textile fabric and the second cutter 233, the first cutter 231 may be arranged in an inclined shape in the horizontal direction, and the second cutter 233 is arranged symmetrically to the first cutter 231, so that when the first driving assembly 21 pushes the first cutter 231 to move downward, the first cutter 231 is in point contact with the textile fabric, thereby improving the cutting efficiency.

As another possible case, in order to further improve the cutting efficiency of the textile fabric, the speed of the first driving device 211 pushing the nip assembly 22 to move may be smaller than the speed of the first driving device 211 pushing the cutting assembly 23 to move.

As another possible situation, in order to prevent the air pollution caused by the lint fiber generated during the cutting process, the inside of the groove 230 may be communicated with an external purifying device (not shown), so as to collect the lint fiber generated during the cutting process.

Specifically, the first driving assembly 21 pushes the first cutter 231 to move downwards, and the textile fabric is cut under the combined action of the first cutter 231 and the second cutter 233.

In one embodiment of the present application, as shown in fig. 4, the hem assembly 24 may include a heating box 241, a connector 242, and a platen 243.

Wherein, the heating box 241 is disposed on the plate body 212, the connecting piece 242 is movably disposed in the heating box 241, and the pressing plate 243 is disposed on the connecting piece 242.

It should be noted that the heating box 241 can transmit heat to the pressing plate 243 through the connecting element 242, the heating box 241 can include a box body and an electric heating wire, the connecting element 242 is hollow, and a spring (not shown) is disposed between the connecting element 242 and the heating box 241, and the spring can make the connecting element 242 and the pressing plate 243 apply pressure to the cut of the target fabric.

In the embodiment of the present application, a temperature sensor (not shown in the figure) is further disposed at the pressing plate 243, the temperature sensor is connected to the electrical control device, when the temperature of the pressing plate 243 is greater than a preset temperature (which may be determined according to actual conditions), the heating box 241 stops heating the pressing plate 243, and when the temperature of the pressing plate 243 is less than the preset temperature, the heating box 241 starts to heat the pressing plate 243, so as to ensure the pressing effect.

As a possible scenario, the pressing plate 243 is provided with a plurality of protrusions (not shown), which can bend the fabric fibers, thereby avoiding the occurrence of yarn-off.

As another possible scenario, in order to enhance the pressing effect, a plurality of atomizers (not shown) may be further disposed on the plate body 212, and it is understood that an external water source provides a water source for the atomizers, and the atomizers spray water toward the cut of the textile fabric before pressing. In this way, the cut of the textile fabric can be leveled.

Specifically, because press material subassembly 22 to stretch and draw textile fabric, there is certain resilience force textile fabric between the material subassembly 22, cutting subassembly 23 cuts the completion back to textile fabric, textile fabric's incision is arranged in the below of clamp plate 243, first drive assembly 21 promotes heating box 241 motion, after clamp plate 243 contacts with textile fabric's incision, connecting piece 242 is at the inside motion of heating box 241, under the effect of spring elastic potential energy, clamp plate 243 presses boiling hot textile fabric's incision, keep predetermineeing the time (can confirm according to actual conditions), first drive assembly 21 pulling scalds limit subassembly 24 and shifts up, accomplish textile fabric's pressure and scald, the surface fabric fibre inflation of incision department has been avoided, thereby avoided the condition of taking off the line to appear, the quality of product has been guaranteed.

In one embodiment of the present application, as shown in fig. 5 and 6, the pulling mechanism 3 may include a third driving device 31, an extension plate 32, a second bracket 34, a second driving assembly 35, and a material clamping assembly 36.

Wherein, extension plate 32 sets up on workstation 1, the spout 33 has been seted up on the extension plate 32, second support 34 and with the top of extension plate 32, second support 34 slidable sets up in spout 33, third drive arrangement 31 installs on workstation 1, third drive arrangement 31's actuating lever and second support 34 are connected, the one end setting of second drive assembly 35 is on second support 34, the other end of second drive assembly 35 still sets up on pressing from both sides material subassembly 36, the outside of pressing from both sides material subassembly 36 still sets up on second support 34.

It should be noted that, in the embodiment, the third driving device 31 may be an electric push rod or a hydraulic rod, the second bracket 34 is provided with a position sensor (not shown in the figure), and the position sensor is connected to the electric control device, so that the third driving device 31 can drive the second bracket 34 and the material clamping assembly 36 to move according to a preset program (which can be determined according to actual conditions).

In addition, second drive assembly 35 may include a fourth drive (not specifically shown) and two hinged mounts (not specifically shown), and clip assembly 36 may include an upper clip panel (not specifically shown), a hinge (not specifically shown), and a lower clip panel (not specifically shown).

Specifically, the upper clamping plate of the second driving assembly 35 for pulling the clamping assembly 36 is opened, and under the combined action of the upper clamping plate and the lower clamping plate, one end of the fabric to be cut is clamped, the third driving device 31 drives the second support 34 to move in the sliding groove 33, and then the clamping assembly 36 and the fabric are driven to move, so that the cut fabric can be stacked on the workbench 1.

In one embodiment of the present application, as shown in fig. 5, a material guiding mechanism 4 may be further included, and the material guiding mechanism 4 may include two risers 41 and two material guiding roller shafts 42.

Wherein, two risers 41 symmetry sets up on workstation 1, and two guide roller 42 rotationally connect between two risers 41.

In the embodiment of the present application, the height of the textile fabric from the upper surface of the table 1 when passing through the two guide rollers 42 is equal to the thickness of the backing plate 232.

It can be understood that, when the textile fabric on the outside unwinding device is more, the textile fabric initial position of waiting to cut is higher, and textile fabric and backing plate 232 can not laminate completely, influences the cutting precision, and guide mechanism 4 can lead to the surface fabric of treating to cut for can laminate completely with backing plate 232 after textile fabric unreels, and then improve textile fabric's cutting precision.

The textile fabric cutting device of this application embodiment stretches the textile fabric through pressing the material subassembly and draws, and drive assembly promotes the blade downstream and cuts, has avoided the blade to reciprocate from top to bottom to drive textile fabric upwards to lift and arouse the cutting error, recycles boiling hot limit subassembly and presses boiling hot to the incision department of surface fabric, has avoided incision department surface fabric fibre inflation to the condition of having avoided textile fabric to take off the line appears, and then has guaranteed the quality of product.

In conclusion, the textile fabric cutting device provided by the embodiment of the application cuts by adopting a mode of simultaneously stretching and pulling and unidirectional movement of the blade, reduces cutting errors, avoids the conditions of fiber expansion and yarn separation at a cut and ensures the quality of products.

In the description of the present specification, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (8)

1. The utility model provides a textile fabric cutting device which characterized in that includes: a workbench, a cutting mechanism and a material pulling mechanism, wherein,

the workbench is arranged perpendicular to the ground;

the cutting mechanism and the material pulling mechanism are respectively arranged on the workbench, the cutting mechanism comprises a first bracket, a first driving component, a material pressing component, a cutting component and two groups of edge ironing components, wherein,

the first support is detachably connected to two sides of the workbench;

the first driving assembly is arranged on the first support, and the material pressing assembly,

The cutting assembly and the edge ironing assembly are respectively arranged below the first driving assembly;

the first driving assembly is used for pushing the pressing assembly, the cutting assembly and the edge ironing assembly to act on a textile fabric;

the pressing component is used for flattening the textile fabric and moving the textile fabric to be cut, the cutting component is used for cutting the textile fabric to obtain a target fabric, and the edge ironing component is used for ironing the cut edges of the target fabric;

the material pulling mechanism is used for pulling the textile fabric so as to collect the target fabric.

2. The textile fabric cutting apparatus of claim 1, wherein the first drive assembly includes a plurality of first drive devices and a plate body, wherein,

the plurality of first driving devices are arranged on the first support, the push rods of the first driving devices penetrate through the first support, and the plate bodies are arranged on the plurality of push rods of the first driving devices.

3. The textile fabric cutting device according to claim 2, wherein the pressing assembly comprises two groups of pressing devices and two tension springs, wherein,

the two groups of pressing devices are symmetrically arranged on the plate body, and a plurality of through holes are formed in the pressing devices;

two the extension spring sets up respectively between two sets of press device, one end lock joint of extension spring is in the through-hole.

4. The cutting device for textile fabric according to claim 3, wherein the pressing device comprises two supporting plates, a pressing roller shaft and a second driving device, wherein,

the two supporting plates are rotationally and symmetrically connected to the plate body;

the material pressing roll shaft is rotatably arranged between the two supporting plates;

the second driving device is arranged on one side of one supporting plate, and an output shaft of the second driving device is connected with one end of the pressing roll shaft.

5. The textile fabric cutting apparatus of claim 2, wherein the cutting assembly includes a first cutter, a backing plate, and a second cutter, wherein,

the first cutter is detachably connected to the plate body;

the base plate is arranged on the workbench and is positioned below the first cutter;

the backing plate is provided with a groove body, the second cutter is located in the groove body, and the first cutter and the second cutter are arranged oppositely.

6. The textile fabric cutting apparatus of claim 2, wherein the edge iron assembly includes a heating box, a connecting member, and a pressing plate, wherein,

the heating box is arranged on the plate body;

the connecting piece is movably arranged in the heating box;

the pressing plate is arranged on the connecting piece.

7. The textile fabric cutting device of claim 1, wherein the material pulling mechanism comprises a third driving device, an extension plate, a second bracket, a second driving component and a material clamping component, wherein,

the extension plate is arranged on the workbench, and a sliding groove is formed in the extension plate;

the second bracket is arranged above the extension plate and can be arranged in the sliding groove in a sliding manner;

the third driving device is arranged on the workbench, and a driving rod of the third driving device is connected with the second bracket;

one end of the second driving assembly is arranged on the second bracket;

the other end of the second driving assembly is also arranged on the material clamping assembly;

the outer side of the clamping component is also arranged on the second bracket.

8. The cutting device for textile fabrics according to claim 1, characterized in that it further comprises a material guiding mechanism, which comprises two vertical plates and two material guiding roller shafts, wherein,

the two vertical plates are symmetrically arranged on the workbench;

the two guide roll shafts are rotatably connected between the two vertical plates.

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