CN218837909U - High-efficient slitter - Google Patents

Abstract

The utility model belongs to the clothing production field, especially, high-efficient slitter to current when being to the ready-made roll cloth slitting, its slitting degree of depth can not adjust according to cloth thickness, and the cutting dish cuts inside roll body easily, can cause the cutting dish to take place the problem of harm, now proposes following scheme, and it includes two backup pads, cloth roller, installation component, control slide, cutting machine and control assembly, the cloth roller sets up between two backup pads, installation component sets up in the backup pad, installation component is connected with the cloth roller, and the fixed slot has all been seted up to one side that two backup pads are close to each other, control slide slidable mounting is in two fixed slots. The utility model discloses a slitter is when to the ready-made roll cloth slitting, and its slitting degree of depth can adjust according to cloth thickness, and the cutting dish can not cut inside roll body, avoids the cutting dish to take place the harm.

Description

High-efficient slitter

Technical Field

The utility model relates to a clothing production technical field especially relates to a high-efficient slitter.

Background

When carrying out clothing production, need carry out the slitting to the clothing, the slitter is cut the bundle strip machine again and is applicable to the clothing auxiliary material and have: the non-woven adhesive interlining comprises adhesive interlining, double-sided adhesive interlining, cloth strip bags and other strips with different widths in various industries, and is cut straightly and obliquely;

in the prior art, cutters on a slitter for cutting different widths are not fixed well and accurate spacing is not easy to set, and application number 202121175960.3 for solving the problems discloses a high-efficiency slitter for clothing production, which comprises a workbench, wherein two ends of the right side of the top of the workbench are movably connected with a first screw rod, the outer rings of the first screw rods are connected with supporting rods in a threaded manner, and the inner sides of the supporting rods are movably connected with the middle part of one surface of a pressing wheel; however, in the actual use process, when the finished-roller cloth is subjected to slitting, the slitting depth cannot be adjusted according to the cloth thickness, and the cutting disc is easy to cut the inner roller body, so that the cutting disc is damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a high-efficiency slitter.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high-efficient slitter, includes two backup pads, cloth roller, installation component, control slide, cutting machine and control assembly, the cloth roller sets up between two backup pads, installation component sets up in the backup pad, installation component is connected with the cloth roller, and the fixed slot has all been seted up to one side that two backup pads are close to each other, control slide slidable mounting is in two fixed slots, cutting machine slidable mounting is on the control slide, control assembly sets up in the backup pad, control assembly includes two pick-up plates, two telescopic sliding plate, two rotating gear, two limit baffle and two lead screw ones, and the mounting groove has all been seted up to one side of two backup pads, and equal slidable mounting has the pick-up plate in two mounting grooves, and two pick-up plates all contact with the cloth roller, and the equal fixed mounting has telescopic sliding plate in one side of two pick-up plates, has all seted up the shifting chute on the inner wall of two mounting grooves, and telescopic sliding plate slidable mounting is in the shifting chute that corresponds, and equal fixedly connected with rack one on two telescopic sliding plate, rotate on the inner wall of fixed slot and install lead screw one, threaded hole one has seted up screw thread hole on the control slide, a threaded hole is installed in one, bevel gear and bevel gear meshes with two bevel gears.

Preferably, the mounting assembly comprises two limiting rods, two third lead screws, two rotating gears, two second racks and a control side plate, limiting grooves are formed in the two ends of the distributing roller, grooves are formed in one sides of the two supporting plates, the limiting rods are slidably mounted in the two grooves, the limiting rods are mounted in the corresponding limiting grooves, threaded grooves are formed in one ends of the two limiting rods, the third lead screws are rotatably mounted in the two grooves, and the three lead screws are threadedly mounted in the corresponding threaded grooves.

Preferably, rotating gears are fixedly mounted on the three screw rods, sliding holes are formed in the inner walls of the two grooves, racks II are slidably mounted in the two sliding holes, the racks II are meshed with the corresponding rotating gears, and one end of each rack II is fixedly mounted with the same control side plate.

Preferably, the spring is fixedly connected to the inner wall of one side of each of the two mounting grooves and fixedly mounted on one side of the detection plate.

Preferably, two threaded holes II are formed in one side of the control sliding plate, a screw rod II is rotatably mounted in the two fixing grooves, the screw rod II is mounted in the corresponding threaded hole II in a threaded manner, chain wheels are fixedly mounted at one ends of the two screw rods II, and the two chain wheels are connected with the same chain in a transmission manner.

Preferably, a first connecting gear is fixedly mounted on the chain wheel, a stepping motor is fixedly mounted on one side of the supporting plate, a second connecting gear is fixedly connected to an output shaft of the stepping motor, and the second connecting gear is meshed with the first connecting gear.

Preferably, a sliding groove is formed in the inner wall of the mounting groove, a sliding block is fixedly mounted on the detection plate, and the sliding block is connected in the sliding groove in a sliding mode.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) The utility model discloses a high-efficient slitter can carry out automated inspection to the size of material roller, and but the cutting stroke of automatic adjustment cutting machine, can adjust the cutting size of cutting machine in a flexible way to avoid cutting the material roller.

(2) The utility model discloses a high-efficient slitter conveniently carries out quick replacement to the cloth roller, labour saving and time saving when equipment and dismantlement material roller.

Drawings

Fig. 1 is a schematic view of a high-efficiency slitter according to the present invention;

fig. 2 is a schematic view of a three-dimensional structure of a distributing roller and a limiting rod of the high-efficiency slitter of the present invention;

fig. 3 is a schematic structural view of a part a of the high-efficiency slitter of the present invention;

fig. 4 is a schematic structural view of a part B of the high-efficiency slitter according to the present invention;

fig. 5 is a schematic view of the structure of part C of the high-efficiency slitter of the present invention.

In the figure: 1. a support plate; 2. a distributing roller; 3. detecting a plate; 4. a spring; 5. a telescopic sliding plate; 6. a rotating gear; 7. a first bevel gear; 8. a limit baffle; 9. a first screw rod; 10. a second bevel gear; 11. controlling the sliding plate; 12. a cutter; 13. a second screw rod; 14. a sprocket; 15. a chain; 16. a first connecting gear; 17. a stepping motor; 18. a second connecting gear; 19. a limiting rod; 20. a third screw rod; 21. a rotating gear; 22. a second rack; 23. and controlling the side plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

Referring to fig. 1 to 5, a high-efficiency slitter comprises two support plates 1, a distribution roller 2, a control slide plate 11 and a cutter 12, wherein the distribution roller 2 is disposed between the two support plates 1, fixing grooves are formed in both sides of the two support plates 1 adjacent to each other, the control slide plate 11 is slidably mounted in the two fixing grooves, the cutter 12 is slidably mounted on the control slide plate 11, mounting grooves are formed in both sides of the two support plates 1, a detection plate 3 is slidably mounted in both the mounting grooves, both the detection plates 3 are in contact with the distribution roller 2, a slide plate 5 is fixedly mounted on both sides of the two detection plates 3, moving grooves are formed in both inner walls of the two mounting grooves, the slide plate 5 is slidably mounted in the corresponding moving grooves, a first rack is fixedly connected to both the slide plates 5, a first screw rod 9 is rotatably mounted on the inner walls of the fixing grooves, a first screw rod 9 is disposed on the control slide plate 11, a first screw rod 9 is threadedly mounted in the first screw hole, a second screw rod 10 is fixedly mounted on the first screw rod 9, connecting rods are rotatably mounted on the inner walls of the fixing grooves, a first connecting rod 7 and a second screw rod 19 are rotatably mounted on the inner walls of the fixing grooves, a third screw rod 19 is mounted on the corresponding fixing grooves, a third screw rod 19 is mounted on the support plate 19, and a limiting groove 19 is mounted on the fixing groove 19, and a limiting rod 19 is mounted on the fixing groove 19, the inner walls of the two grooves are provided with sliding holes, the two sliding holes are internally provided with a second rack 22 in a sliding mode, the second rack 22 is meshed with the corresponding rotating gear 21, and one end of each second rack 22 is fixedly provided with the same control side plate 23.

In this embodiment, equal fixedly connected with spring 4 on the one side inner wall of two mounting grooves, spring 4 fixed mounting is in one side of pick-up plate 3.

In this embodiment, two screw holes two are seted up to one side of control slide 11, all rotate in two fixed slots and install two lead screw 13, and two 13 screw threads of lead screw are installed in two corresponding screw holes, and the equal fixed mounting of the one end of two 13 lead screw has sprocket 14, and the transmission is connected with same chain 15 on two sprocket 14, fixed mounting has connecting gear 16 on the sprocket 14, one side fixed mounting of backup pad 1 has step motor 17, and fixedly connected with connecting gear 18 on the output shaft of step motor 17, connecting gear 18 meshes with connecting gear 16.

In this embodiment, seted up the spout on the inner wall of mounting groove, fixed mounting has the slider on the pick-up plate 3, and slider sliding connection is in the spout.

In this embodiment, the distributing roller 2 is installed between two supporting plates 1, the control side plate 23 is pulled, the control side plate 23 drives two racks two 22 to move, the racks two 22 drive corresponding rotating gears 21 to rotate, the rotating gears 21 drive corresponding screw rods three 20 to rotate, the screw rods three 20 drive corresponding limiting rods 19 to move, the limiting rods 19 are inserted into corresponding limiting grooves, the position of the distributing roller 2 can be stabilized, the distributing roller 2 can extrude the detecting plate 3 after being installed, the detecting plate 3 moves and extrudes the springs 4, the detecting plate 3 drives the telescopic sliding plates 5 to move, the telescopic sliding plates 5 drive the rotating gears 6 to rotate, the rotating gears 6, the bevel gears 7, the corresponding bevel gears two 10, the corresponding screw rods one 9, the corresponding limiting baffles 8, the limiting baffles 8 slide in corresponding fixed grooves, the stepping motor 17 controls the connecting gears two 18 to rotate after the cutting machine 12 is started, the connecting gears 18 drive the connecting gears one 16 to rotate, the connecting gears one 16 drive the rotating, the chain 14, the chain wheel 14 drives the chain wheel 13, the two chain wheels, the chain wheel 13 drives the screw rods, the chain wheel 11 to control the movement of the cutting machine 11, and the distribution roller 11 to move.

The utility model discloses the technological progress that prior art obtained relatively is: the utility model discloses a slitter is when to the ready-made roll cloth slitting, and its slitting degree of depth can adjust according to cloth thickness, and the cutting dish can not cut inside roll body, avoids the cutting dish to take place the harm.

Claims (7)

1. A high-efficiency slitter is characterized by comprising two supporting plates (1), a material distribution roller (2), a mounting assembly, a control sliding plate (11), a cutting machine (12) and a control assembly, wherein the material distribution roller (2) is arranged between the two supporting plates (1), the mounting assembly is arranged on the supporting plates (1), the mounting assembly is connected with the material distribution roller (2), one sides of the two supporting plates (1) which are close to each other are respectively provided with a fixed groove, the control sliding plate (11) is slidably mounted in the two fixed grooves, the cutting machine (12) is slidably mounted on the control sliding plate (11), the control assembly is arranged on the supporting plates (1), the control assembly comprises two detection plates (3), two telescopic sliding plates (5), two rotating gears (6), two limit baffles (8) and two screw rods (9), one sides of the two supporting plates (1) are respectively provided with a mounting groove, the detection plates (3) are respectively slidably mounted in the two mounting grooves, the two detection plates (3) are respectively contacted with the material distribution roller (2), one sides of the two detection plates (3) are respectively fixedly provided with the telescopic sliding plates (5), the inner walls of the two sliding plates are respectively provided with a moving groove, the two sliding plates are respectively mounted in the corresponding to the fixed grooves (5), the inner walls of the two fixed grooves (9) are connected with the telescopic screw rods (9), the novel screw rod is characterized in that a first threaded hole is formed in the control sliding plate (11), a first screw rod (9) is installed in the first threaded hole in a threaded mode, a second bevel gear (10) is fixedly installed on the first screw rod (9), a connecting rod is installed on the inner wall of the fixing groove in a rotating mode, a first bevel gear (7) and a rotating gear (6) are fixedly installed at the two ends of the connecting rod respectively, the rotating gear (6) is meshed with a first rack, and the first bevel gear (7) is meshed with the corresponding second bevel gear (10).

2. The efficient slitter as defined in claim 1, wherein the mounting assembly comprises two limiting rods (19), two third screw rods (20), two rotating gears (21), two second racks (22) and a control side plate (23), limiting grooves are formed in both ends of the distributing roller (2), grooves are formed in one sides of the two support plates (1), the limiting rods (19) are slidably mounted in the two grooves, the limiting rods (19) are mounted in the corresponding limiting grooves, thread grooves are formed in one ends of the two limiting rods (19), the third screw rods (20) are rotatably mounted in the two grooves, and the third screw rods (20) are threadedly mounted in the corresponding thread grooves.

3. The efficient slitter as defined in claim 2, wherein the two third screw rods (20) are fixedly provided with rotating gears (21), the inner walls of the two grooves are provided with sliding holes, the two sliding holes are slidably provided with second racks (22), the second racks (22) are engaged with the corresponding rotating gears (21), and one end of each of the two second racks (22) is fixedly provided with a same control side plate (23).

4. A high efficiency slitter as claimed in claim 1 wherein a spring (4) is fixedly attached to an inner wall of one side of each of the two mounting grooves, the spring (4) being fixedly mounted to one side of the detection plate (3).

5. The efficient bar cutting machine according to claim 1, wherein one side of the control sliding plate (11) is provided with two second threaded holes, two second screw rods (13) are rotatably mounted in two fixed grooves, the second screw rods (13) are threadedly mounted in the corresponding second threaded holes, one ends of the two second screw rods (13) are fixedly mounted with chain wheels (14), and the two chain wheels (14) are in transmission connection with a same chain (15).

6. A high-efficiency slitter as claimed in claim 5, wherein a first connecting gear (16) is fixedly mounted on the chain wheel (14), a stepping motor (17) is fixedly mounted on one side of the supporting plate (1), a second connecting gear (18) is fixedly connected to an output shaft of the stepping motor (17), and the second connecting gear (18) is meshed with the first connecting gear (16).

7. A high-efficiency slitter as claimed in claim 1, wherein a sliding groove is formed on an inner wall of the mounting groove, a sliding block is fixedly mounted on the detection plate (3), and the sliding block is slidably connected in the sliding groove.

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