CN219951527U - High-efficient cloth cutting mechanism - Google Patents

Abstract

The utility model relates to the technical field of cloth processing equipment, in particular to a high-efficiency cloth cutting mechanism which comprises a cutting part for cutting cloth and a driving part for driving the cutting part and the cloth on the cutting part to move together, wherein the cutting part comprises a cutting part for cutting the cloth and a feeding part for driving the cloth to move in the cutting part, the feeding part is fixedly arranged on the driving part, the cutting part is fixedly arranged on the feeding part and is positioned on the feeding side of the feeding part, and the cutting part and the cloth on the cutting part are simultaneously driven to move together by the driving part, so that the cloth can be cut at different positions. And simultaneously, the need of fixing and adjusting the cutting point before cutting is avoided.

Description

High-efficient cloth cutting mechanism

Technical Field

The utility model relates to the technical field of cloth processing equipment, in particular to a high-efficiency cloth cutting mechanism.

Background

In the garment manufacturing process, pockets of the garment are punched by using a fabric punching device, so that the quality of cloth of each pocket is consistent, the working efficiency is improved by using a fabric pattern punching machine, and the working load of workers is reduced.

The utility model discloses a fabric version type blanking machine in chinese patent of publication No. CN213896463U, including base, conveying mechanism, mobile motor, telescopic cylinder and motor, the inboard of base is provided with accepts the box, the support has all been welded to the left and right sides of base, cloth roller is installed on the top of base right side welded support, the last surface mounting of base has the work frame, mobile motor's output is connected with the lead screw, the lower fixed surface of connecting plate installs telescopic cylinder, connecting plate lower surface left end welding has the riser, the output of motor is connected with the diaphragm, and the limiting plate is installed to the right-hand member of diaphragm, the below of limiting plate is provided with the spring of fixing in the diaphragm bottom, and the top of spring is provided with the mounting panel to the right flank of mounting panel is connected with the pocket and dashes the cutter in an organic whole. The utility model has the advantages of conveniently separating the punched cloth from the residual materials, conveniently collecting the punched cloth and conveniently replacing the pocket punching knife. The cutting part is fixed or the cloth cannot move along with the cutting part, so that the punched cloth is stored or moved by the receiving box or the conveying belt, and the cutting part is not fixed, and the cutting point of the cutting part is adjusted to be at a position before cutting, then cutting and feeding are performed. This requires manual transfer when the punched cloth is to be lifted directly onto the work platform by means of an air cylinder.

Disclosure of Invention

In order to solve the problems, the utility model provides a high-efficiency cloth cutting mechanism capable of cutting at any position.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a high-efficient cloth cutting mechanism, includes to cut the cloth cut the part and drive cut the part and cut the part on the part cloth and remove the drive part together, cut the part including cut the part that the cloth cut and order about the material and remove the pay-off part in the part of cutting the material, pay-off part fixed mounting is in drive part, cut material part fixed mounting and be in on the pay-off part and be located the feeding one side of pay-off part.

As preferable, the material cutting component comprises a cutting seat fixedly arranged on the feeding component, four support columns are vertically arranged on the cutting seat, a cutting cylinder is fixedly arranged at the top of each support column, and the output end of each cutting cylinder is vertically downward and positioned among the four support columns; the output end of the cutting cylinder is fixedly provided with a cutting head, the cutting seat is provided with a cutting hole matched with the cutting head, and the vertical direction of the cutting hole penetrates through the cutting seat; the cutting seat is provided with a transversely penetrating cutting channel, and the cutting channel is in through connection with the cutting hole.

As a preferable mode of the utility model, an L-shaped transition groove and a feeding groove are fixedly arranged on the blanking part, one end of the transition groove is fixedly arranged on the clipping cylinder, the other end of the transition groove is fixedly arranged on the clipping seat and is positioned right above one side of the clipping channel, and the feeding groove is fixedly arranged on the clipping seat and is positioned right below the other side of the clipping channel; and the two ends of the transition groove and the feeding groove are fixedly provided with pressing rods.

As preferable, the feeding component comprises a fixed seat fixedly arranged on the driving component, a feeding motor is horizontally and fixedly arranged on the fixed seat, a feeding shaft is fixedly arranged at the output end of the feeding motor, a discharging groove is arranged right below the feeding shaft and fixedly arranged on the fixed seat, and a gap is arranged between the bottom of the discharging groove and the outer surface of the feeding shaft.

As a preferred mode of the utility model, the driving part comprises a hollow supporting seat and a cover plate fixedly arranged on the supporting seat, a movable seat is slidably arranged in the supporting seat, a movable hole matched with the cover plate is formed in the movable seat, the cover plate is inserted into the movable hole, the top surface of the movable seat is positioned on the outer side of the cover plate, and the feeding part is fixedly arranged on the top surface of the movable seat; one side of the supporting seat is fixedly provided with a power component for driving the movable seat to move in the supporting seat.

As the preferable mode of the utility model, the power component comprises a power seat fixedly arranged on the outer side of the supporting seat and a tensioning seat fixedly arranged in the supporting seat, a driving motor is fixedly arranged on the power seat, a main belt pulley is fixedly arranged at the output end of the driving motor, a slave belt pulley is rotatably arranged on the tensioning seat, a gear belt is sleeved between the main belt pulley and the slave belt pulley, and two ends of the gear belt are fixedly arranged at the bottom of a moving hole of the moving seat through a fixed cover.

As a preferable mode of the utility model, the tensioning seat is provided with a connecting groove and an adjusting hole which is communicated with the connecting groove, and the central line of the connecting groove is collinear with the central line of the adjusting hole; the adjusting hole is internally connected with an adjusting rod in a threaded manner, a rotating shaft is arranged in the connecting groove, and the middle part of the rotating shaft is rotationally connected with the slave belt pulley; the two ends of the rotating shaft are fixedly connected with the end parts of the adjusting rods.

As the preferable choice of the utility model, two left anti-collision posts with the same structure are fixedly arranged in the supporting seat, and the left anti-collision posts are adjacent to the power seat; two right anti-collision posts with the same structure as the left anti-collision post are fixedly arranged on the tensioning seat.

The utility model has the beneficial effects that: 1. the driving part drives the cutting part and the cloth on the cutting part to move together, so that cutting can be performed at different positions. And simultaneously, the need of fixing and adjusting the cutting point before cutting is avoided. 2. When the material cutting part cuts at one position, the material cutting part moves to the next position to cut, the cut material at the last position can be processed and moved in various modes, and the application range is wider and more selective.

Drawings

FIG. 1 is a schematic view of an isometric view of the utility model.

Fig. 2 is an exploded view of the driving member of the present utility model.

Reference numerals illustrate: 1. drive component, 101, support seat, 102, sliding guide, 103, main pulley, 104, drive motor, 105, left column, 106, gear belt, 107, cover, 108, stationary cover, 109, right column, 110, secondary pulley, 111, moving seat, 112, rotating shaft, 113, power seat, 114, tensioning seat, 115, adjustment aperture, 116, connecting slot, 2, cutting component, 201, stationary seat, 202, discharge slot, 203, feed shaft, 204, cutting cylinder, 205, swage rod, 206, feed motor, 207, transition slot, 208, cutting channel, 209, feed slot, 211, cutting head, 212, support column.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

The utility model relates to a high-efficiency cloth cutting mechanism, wherein the cloth belt cutting refers to cutting required cloth from a cloth belt in a belt-shaped cloth belt by punching and cutting mode, and the cut cloth can be cloth required by a pocket on clothes or other small pieces of cloth required by the clothes. The preferred embodiment of the present utility model will be described with reference to fig. 1-2.

Referring to fig. 1, the cloth cutting mechanism includes a cutting member 2 for cutting a cloth, and a driving member 1 for driving the cutting member 2 and the cloth on the cutting member to move together, wherein the driving member 1 is fixed on a frame. The cutting part 2 comprises a material cutting part for cutting the cloth and a feeding part for driving the cloth to move in the material cutting part, wherein the feeding part is fixedly arranged on the driving part 1, and the material cutting part is fixedly arranged on the feeding part and positioned on the feeding side of the feeding part.

The blanking part comprises a cutting seat 208 fixedly mounted on the feeding part, four support columns 212 are vertically mounted on the cutting seat 208, a cutting cylinder 204 is fixedly mounted on the top of each support column 212, and the output end of each cutting cylinder 204 is vertically downward and positioned among the four support columns 212. The output end of the cutting cylinder 204 is fixedly provided with a cutting head 211, and the cutting seat 208 is provided with a cutting hole matched with the cutting head 211, and the vertical direction of the cutting hole penetrates through the cutting seat 208. The cutting seat 208 is provided with a cutting channel 209 which transversely penetrates, and the cutting channel 209 is in penetrating connection with the cutting hole. In use, the cloth strip is penetrated from one side of the cutting channel 209, the cutting head 211 is driven to move by the cutting cylinder 204, and the cloth of a required product is cut from the cloth strip by the cooperation of the cutting head 211 and the cutting hole. The cut product cloth falls out of the cutting hole from the bottom of the cutting seat 208. The cut waste cloth tape is sent out from the other side of the cutting passage 209 and is sent away by the feeding member, so that the waste cloth tape is prevented from being accumulated on the driving member 1. And the driving part 1 drives the feeding part to move to the set position. The driving part 1 drives the material cutting part to move along with the material cutting part in the moving process, and when the driving part moves the cutting part to the setting for cutting. No manual adjustment is required before work at the cutting point. The material cutting part is informed to move to the next position to cut after finishing cutting at one position, the cloth cut at the last position can be processed and moved in various modes, and the application range is wider and more selective. For example, a bearing table is arranged right below the set position, an air cylinder is vertically arranged on the bearing table to push product cloth to move upwards, and when the material cutting part moves away, the cut cloth can move upwards. A collection device or a pushing device may be provided just below the cutter block 208 to collect the product cloth. The position of the feeding part is set to different positions according to production requirements in the whole cutting process, so that the cutting part stops at the set position and cuts. The whole process does not need manual work to cut, and compared with the traditional cutting speed, the cutting machine is faster, and labor cost is saved. Meanwhile, the feeding part is used for tensioning the cloth in the conveying process, so that the phenomenon that the cloth is wrinkled in the cutting process is avoided.

In order to prevent the cloth belt from shifting in the process of moving in the cutting channel 209, the quality of the cut product cloth is guaranteed, and the cloth moves along with the cutting part in the process of cutting, an L-shaped transition groove 207 and a feeding groove 210 are fixedly arranged on the cutting part, one end of the transition groove 207 is fixedly arranged on the cutting cylinder 204, the other end of the transition groove 207 is fixedly arranged on the cutting seat 208 and is positioned right above one side of the cutting channel 209, and the feeding groove 210 is fixedly arranged on the cutting seat 208 and is positioned right below the other side of the cutting channel 209. The two ends of the transition groove 207 and the feeding groove 210 are fixedly provided with a material pressing rod 205. The movement of the web remains constant within the feed chute 210 and transition chute 207 during the cutting of the web. The cloth strip is moved against the bottoms of the feed chute 210 and the transition chute 207 during movement by the arrangement of the press bar 205. In the use process, the cloth belt firstly enters the cutting channel 209 through the feeding groove 210 to be cut, and the waste cloth belt formed after cutting enters the feeding component through the transition groove 207 to be fed by the feeding component.

The feeding part comprises a fixed seat 201 fixedly arranged on the driving part 1, a feeding motor 206 is horizontally and fixedly arranged on the fixed seat 201, a feeding shaft 203 is fixedly arranged at the output end of the feeding motor 206, the outer surface of the feeding shaft 203 is gear-shaped, a discharging chute 202 is arranged right below the feeding shaft 203, the discharging chute 202 is fixedly arranged on the fixed seat 201, and a gap for a waste cloth belt to pass through is formed between the bottom of the discharging chute 202 and the outer surface of the feeding shaft 203. After entering the discharge chute 202, the waste cloth passes through the gap and is driven by the feeding motor 206 to move.

Referring to fig. 1-2, the driving component 1 includes a hollow supporting seat 101 and a cover plate 107 fixedly mounted on the supporting seat 101, a sliding rail 102 is fixedly mounted in the supporting seat 101, a moving seat 111 is fixedly mounted on the sliding rail 102, and the moving seat 111 is connected with the supporting seat 101 through the sliding rail 102, so that the moving seat 111 slides in the supporting seat 101. The movable seat 111 is provided with a movable hole matched with the cover plate 107, the cover plate 107 is inserted into the movable hole so that the top surface of the movable seat 111 is positioned at the outer side of the cover plate 107, and the feeding component is fixedly arranged on the movable seat 111 and positioned at the outer side of the cover plate 107. A power unit for driving the moving base 111 to move in the supporting base 101 is fixedly installed at one side of the supporting base 101. The power component comprises a power seat 113 fixedly arranged on the outer side of the supporting seat 101 and a tensioning seat 114 fixedly arranged in the supporting seat 101, a driving motor 104 is fixedly arranged on the power seat 113, a main belt pulley 103 is fixedly arranged at the output end of the driving motor 104, a slave belt pulley 110 is rotatably arranged on the tensioning seat 114, a gear belt 106 is sleeved between the main belt pulley 103 and the slave belt pulley 110, and two ends of the gear belt 106 are fixedly arranged at the bottom of a moving hole of the moving seat 111 through a fixed cover 108. The main belt pulley 103 is driven to rotate by the driving motor 104, so that the gear belt 106 is driven to move, and the moving seat 111 moves along the sliding guide rail 102 in the supporting seat 101.

The tension seat 114 is provided with a connecting groove 116 and an adjusting hole 115 which is communicated with the connecting groove 116, and the center line of the connecting groove 116 is collinear with the center line of the adjusting hole 115 and is arranged in parallel with the gear belt 106. An adjusting rod is connected to the adjusting hole 115 through an internal thread, the adjusting rod can be a bolt or a column with threads on the outer surface, a rotating shaft 112 is connected to the connecting groove 116, and a slave pulley 110 is connected to the middle part of the rotating shaft 112 in a rotating manner. Both ends of the rotation shaft 112 are fixedly connected with the ends of the adjustment lever. The rotation shaft 112 is moved in the connecting groove 116 by rotating the adjusting lever, thereby ensuring that the gear belt 106 is in a tensioned state at all times.

Two left anti-collision posts 105 with the same structure are fixedly arranged in the supporting seat 101, and the left anti-collision posts 105 are adjacent to the power seat 113. Two right anti-collision posts 109 with the same structure as the left anti-collision post 105 are fixedly arranged on the tensioning seat 114. By the arrangement of the left and right collision posts 105, 109, the moving seat 111 is prevented from striking the supporting seat and the tensioning seat 114 during movement.

In the use process, firstly, the cloth belt sequentially passes through the feed chute 210, the cutting passage 209, the transition chute 207 and the discharge chute 202, the driving motor 104 is started to drive the movable seat 111 to move to a set position on the supporting seat 101, and as the feeding component is fixedly arranged on the movable seat 111 and the feeding component is fixedly arranged on the feeding component. When the moving seat 111 is changed in position, the blanking member and the feeding member move simultaneously. After the blanking member is moved to the set position. The cutting cylinder on the cutting part drives the cutting head 211 to cut the cloth belt. The cut cloth belt forms a waste cloth belt, and the waste cloth belt is conveyed by the feeding component.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "one side," "top," "inner," "front," "center," "both ends," etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

The above embodiments are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the design of the present utility model.

Claims (8)

1. The utility model provides a high-efficient cloth cutting mechanism, its characterized in that includes the cutting part that cuts the cloth and drives the cutting part and the last cloth of cutting part are the drive part that removes together, the cutting part is including the cutting part that cuts the cloth and the pay-off part that drives the cloth and remove in the cutting part, pay-off part fixed mounting is in drive part, cutting part fixed mounting is in on the pay-off part and be located the feeding side of pay-off part.

2. The efficient cloth cutting mechanism of claim 1, wherein: the material cutting component comprises a cutting seat fixedly arranged on the feeding component, four support columns are vertically arranged on the cutting seat, a cutting cylinder is fixedly arranged at the top of each support column, and the output end of each cutting cylinder is vertically downward and positioned among the four support columns; the output end of the cutting cylinder is fixedly provided with a cutting head, the cutting seat is provided with a cutting hole matched with the cutting head, and the vertical direction of the cutting hole penetrates through the cutting seat; the cutting seat is provided with a transversely penetrating cutting channel, and the cutting channel is in through connection with the cutting hole.

3. The efficient cloth cutting mechanism of claim 2, wherein: the cutting device comprises a cutting seat, a cutting channel and a feeding groove, wherein an L-shaped transition groove and the feeding groove are fixedly arranged on the cutting part, one end of the transition groove is fixedly arranged on the cutting cylinder, the other end of the transition groove is fixedly arranged on the cutting seat and is positioned right above one side of the cutting channel, and the feeding groove is fixedly arranged on the cutting seat and is positioned right below the other side of the cutting channel; and the two ends of the transition groove and the feeding groove are fixedly provided with pressing rods.

4. A high efficiency cloth cutting mechanism as set forth in claim 3 wherein: the feeding component comprises a fixed seat fixedly mounted on the driving component, a feeding motor is horizontally and fixedly mounted on the fixed seat, a feeding shaft is fixedly mounted on the output end of the feeding motor, a discharging groove is arranged right below the feeding shaft, the discharging groove is fixedly mounted on the fixed seat, and a gap is formed between the bottom of the discharging groove and the outer surface of the feeding shaft.

5. The efficient cloth cutting mechanism of claim 1, wherein: the driving component comprises a hollow supporting seat and a cover plate fixedly mounted on the supporting seat, a movable seat is slidably mounted in the supporting seat, a movable hole matched with the cover plate is formed in the movable seat, the cover plate is inserted into the movable hole, the top surface of the movable seat is positioned on the outer side of the cover plate, and the feeding component is fixedly mounted on the top surface of the movable seat; one side of the supporting seat is fixedly provided with a power component for driving the movable seat to move in the supporting seat.

6. The efficient cloth cutting mechanism of claim 5, wherein: the power part comprises a power seat fixedly installed on the outer side of the supporting seat and a tensioning seat fixedly installed in the supporting seat, a driving motor is fixedly installed on the power seat, a main belt pulley is fixedly installed at the output end of the driving motor, a slave belt pulley is rotatably installed on the tensioning seat, a gear belt is sleeved between the main belt pulley and the slave belt pulley, and two ends of the gear belt are fixedly installed at the bottom of a moving hole of the moving seat through fixing covers.

7. The efficient cloth cutting mechanism of claim 6, wherein: the tensioning seat is provided with a connecting groove and a regulating hole which is communicated with the connecting groove, and the central line of the connecting groove is collinear with the central line of the regulating hole; the adjusting hole is internally connected with an adjusting rod in a threaded manner, a rotating shaft is arranged in the connecting groove, and the middle part of the rotating shaft is rotationally connected with the slave belt pulley; the two ends of the rotating shaft are fixedly connected with the end parts of the adjusting rods.

8. The efficient cloth cutting mechanism of claim 7, wherein: two left anti-collision posts with the same structure are fixedly arranged in the supporting seat, and the left anti-collision posts are adjacent to the power seat; two right anti-collision posts with the same structure as the left anti-collision post are fixedly arranged on the tensioning seat.