CN220330276U - Dust-free cloth multi-specification laser transverse cutting machine - Google Patents

Abstract

The utility model provides a dust-free cloth multi-specification laser transverse cutting machine which comprises a frame, a cloth uncoiling frame, a cloth supporting roller, a feeding clamping mechanism, a pressing mechanism and a laser transverse cutting mechanism, wherein the cloth uncoiling frame, the cloth supporting roller, the feeding clamping mechanism, the pressing mechanism and the laser transverse cutting mechanism are arranged on the frame; the cloth enters the feeding and clamping mechanism from the cloth uncoiling frame through the cloth supporting roller; the feeding and clamping mechanism is arranged above the laser transverse cutting mechanism, and the pressing mechanism is arranged below the laser transverse cutting mechanism; the opposite side of laser crosscut mechanism is equipped with the ion pump, and the air outlet of ion pump is towards the cloth, through carrying out the down blowing to the cloth for the cloth does not play because its quality is light and wafts, has an auxiliary downward guide effect to the cloth, makes the cloth be in the state of being in very straight after second feed clamping mechanism and second feed clamping mechanism centre gripping with pressing device between.

Description

Dust-free cloth multi-specification laser transverse cutting machine

Technical Field

The utility model relates to the technical field of slitting transverse cutting machines, in particular to a dust-free cloth multi-specification laser transverse cutting machine.

Background

In the prior art, the cloth is firstly cut into strips and then transected, and generally laser transection and mechanical strip cutting are adopted, or ultrasonic transection is carried out after mechanical strip cutting.

In the production process of cloth, the cloth needs to be transversely cut, and an ultrasonic transverse cutting machine is generally adopted to cut the cloth in the prior art. However, since the surface of the cloth is soft, and the ultrasonic transverse cutting machine mainly uses ultrasonic waves to vibrate the cutter at high frequency, when the ultrasonic transverse cutting machine is used for cutting the cloth, the problems that the cutting is not smooth enough and the cutting is not rapid often exist, so that the cut of the cloth is not smooth enough, in addition, the cut of the cloth is caused to have burrs, the problem of scattering edges even occurs seriously, the quality of the cloth is seriously affected, and the production yield and the production efficiency are low are caused.

The prior art reference publication number is CN206680796U, which discloses a cloth feeding device of an ultrasonic dust-free cloth transverse cutting machine, comprising a frame, a cloth roll arranged on the frame, a cloth carrier roller, a feeding and clamping mechanism, a pressing mechanism and an ultrasonic transverse cutting mechanism; the feeding clamping mechanism comprises a first feeding clamping mechanism and a second feeding clamping mechanism; the first feeding and clamping mechanism comprises a first motor, a first conveyor belt and a first roller driven by the first conveyor belt; the second feeding and clamping mechanism comprises a second motor, a second conveyor belt and a second roller driven by the second conveyor belt; the first roller and the second roller are oppositely arranged and are both used for pressing and touching the cloth, and the first roller and the second roller roll in opposite directions and the rolling speed is set differently. The cloth feeding device of the ultrasonic dust-free cloth transverse cutting machine can enable cloth to be cut fast and cut smoothly, and has the advantages of being simple in structure, easy to control, high in production efficiency and low in energy consumption.

However, due to the softness and thinness of the cloth, the light is not capable of enabling the second feeding clamping mechanism and the second feeding clamping mechanism to clamp up and down with the pressing device due to self gravity, and the cloth cannot be completely in a straightened state between the two devices, so that the length of the cloth cut by the transverse cutting mechanism is not fixed, and the accuracy is low.

Disclosure of Invention

In view of this, in order to solve the problem that the cloth will not be in a straight state completely between the second feeding clamping mechanism 4 and the pressing device after clamping, the length of the cloth cut by adopting the transverse cutting mechanism will not be fixed, and the precision is low, the utility model provides a dust-free cloth multi-specification laser transverse cutting machine, which comprises a frame 1, a cloth uncoiling frame 2 arranged on the frame 1, a cloth carrier roller 3, a feeding clamping mechanism 4, a pressing mechanism 8 and a laser transverse cutting mechanism 13; the cloth enters the feeding and clamping mechanism 4 from the cloth uncoiling frame 2 through the cloth carrier roller 3; the feeding and clamping mechanism 4 is arranged above the laser transverse cutting mechanism 13, and the pressing mechanism 8 is arranged below the laser transverse cutting mechanism 13; the opposite side of the laser transverse cutting mechanism 13 is provided with an ion pump 14, the air outlet of the ion pump 14 faces the cloth, the cloth is blown downwards, so that the cloth does not float due to light weight, the cloth is provided with an auxiliary downward guiding function, and the cloth is completely in a straightened state between the second feeding clamping mechanism 4 and the pressing device after being clamped by the second feeding clamping mechanism 4.

A dust-free cloth multi-specification laser transverse cutting machine comprises a frame 1, a cloth uncoiling frame 2, a cloth supporting roller 3, a feeding and clamping mechanism 4, a pressing mechanism 8 and a laser transverse cutting mechanism 13, wherein the cloth uncoiling frame 2, the cloth supporting roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13 are arranged on the frame 1; the cloth enters the feeding and clamping mechanism 4 from the cloth uncoiling frame 2 through the cloth carrier roller 3; the feeding and clamping mechanism 4 is arranged above the laser transverse cutting mechanism 13, and the pressing mechanism 8 is arranged below the laser transverse cutting mechanism 13; the method is characterized in that: the opposite side of the laser transverse cutting mechanism 13 is provided with an ion pump 14, the air outlet of the ion pump 14 faces the cloth, and the cloth is blown downwards, so that the cloth does not float due to light weight, and the auxiliary downward guiding effect is provided for the cloth.

Further, a cloth limiting structure 21 is arranged on the cloth uncoiling frame 2 relatively, and is used for preventing the cloth from moving left and right when being stretched.

Further, the ion pump 14 is disposed opposite to the laser traverse mechanism 13.

Further, the laser transverse cutting mechanism 13 includes a plurality of laser cutting heads 131 and a slide bar 132 for moving the laser cutting heads 131, and the plurality of laser cutting heads 131 move on the slide bar 132 to make the cloth transverse.

In some embodiments, the feeding clamping mechanism 4 comprises a first feeding clamping mechanism 4 and a second feeding clamping mechanism 4 which are matched with each other and are oppositely arranged; the first feeding clamping mechanism 4 is a limiting roller 5 with two ends connected to the frame 1; the second feeding clamping mechanism 4 comprises a clamping cylinder 6 and a movable roller 7 in driving connection with the clamping cylinder 6, wherein two ends of the movable roller 7 are connected with the clamping cylinder 6, a body of the clamping cylinder 6 is arranged on the frame 1, and when the clamping mechanism works, the movable roller 7 driven by the clamping cylinder 6 moves to the limit roller 5 until clamping cloth.

Further, the outer rings of the limiting roller 5 and the movable roller 7 are wrapped with a layer of antistatic cloth, so that static electricity is prevented from being adsorbed on the limiting roller 5 and the movable roller 7 when the cloth passes through the limiting roller 5 and the movable roller 7.

In some embodiments, the pressing mechanism 8 includes a fixed block 9 fixed on the frame 1 and disposed on one side of the cloth, a pressing plate 10 disposed opposite to the fixed block 9 and disposed on the other side of the cloth, and a pressing cylinder in driving connection with the pressing plate 10.

Further, the press-contact cylinders are positioned at two ends of the pressing plate 10.

Further, the body of the pressing plate 10 is further provided with a plurality of air inlets 12 which are uniformly arranged and are used for connecting external air, and the pressure of the two ends of the pressing plate 10 is larger than the pressure of the middle part of the pressing plate 10 because the pressing cylinder is positioned at the two ends of the pressing plate 10, so that the pressure of the pressing plate 10 is enhanced and averaged through the air inlets 12 which are uniformly arranged on the body of the pressing plate 10, and the cloth stress is uniform.

Further, the surfaces of the pressing plate 10 and the fixing block 9 are coated with an anti-slip layer.

Further, a control mechanism 15 is arranged on one side of the frame 1 and is used for controlling the cloth carrier roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13.

In some embodiments, an extension roller 16 is further disposed between the cloth carrier roller 3 and the feeding clamping mechanism 4, so that the cloth is fed into the feeding clamping mechanism 4 after being spread neatly.

The utility model has the beneficial effects that: the utility model provides a dust-free cloth multi-specification laser transverse cutting machine which comprises a frame 1, a cloth uncoiling frame 2, a cloth supporting roller 3, a feeding and clamping mechanism 4, a pressing mechanism 8 and a laser transverse cutting mechanism 13, wherein the cloth uncoiling frame 2, the cloth supporting roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13 are arranged on the frame 1; the cloth enters the feeding and clamping mechanism 4 from the cloth uncoiling frame 2 through the cloth carrier roller 3; the feeding and clamping mechanism 4 is arranged above the laser transverse cutting mechanism 13, and the pressing mechanism 8 is arranged below the laser transverse cutting mechanism 13; the opposite side of the laser transverse cutting mechanism 13 is provided with an ion pump 14, the air outlet of the ion pump 14 faces the cloth, the cloth is blown downwards, so that the cloth does not float due to light weight, the cloth is provided with an auxiliary downward guiding function, and the cloth is completely in a straightened state between the second feeding clamping mechanism 4 and the pressing device after being clamped by the second feeding clamping mechanism 4.

Drawings

Fig. 1 is a side view of a dust-free cloth multi-gauge laser crosscutting machine of the present utility model.

Fig. 2 is a front view of the dust-free cloth multi-specification laser crosscutting machine of the utility model.

Fig. 3 is a top view of the dust-free cloth multi-specification laser crosscut machine of the utility model.

Fig. 4 is a perspective view of the dust-free cloth multi-specification laser crosscutting machine of the utility model.

Description of the main reference signs

Rack	1
		Cloth uncoiling frame	2
Cloth limit structure	21
		Cloth carrier roller	3
Feeding and clamping mechanism	4
		Limiting roller	5
Material clamping cylinder	6
		Movable roller	7
Material pressing mechanism	8
		Fixed block	9
Pressing plate	10
		Air inlet hole	12
Laser transverse cutting mechanism	13
		Laser cutting head	131
Sliding bar	132
		Ion pump	14
Control mechanism	15
		Extension roller	16

The utility model will be further described in the following detailed description in conjunction with the above-described figures.

Detailed Description

FIG. 1 is a side view of a dust-free cloth multi-specification laser crosscut machine of the present utility model; FIG. 3 is a top view of the dust-free cloth multi-specification laser crosscut machine of the utility model;

a dust-free cloth multi-specification laser transverse cutting machine comprises a frame 1, a cloth uncoiling frame 2, a cloth supporting roller 3, a feeding and clamping mechanism 4, a pressing mechanism 8 and a laser transverse cutting mechanism 13, wherein the cloth uncoiling frame 2, the cloth supporting roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13 are arranged on the frame 1; the cloth enters the feeding and clamping mechanism 4 from the cloth uncoiling frame 2 through the cloth carrier roller 3; the feeding and clamping mechanism 4 is arranged above the laser transverse cutting mechanism 13, the ion pump 14 is arranged opposite to the laser transverse cutting mechanism 13, the laser transverse cutting mechanism 13 comprises a plurality of laser cutting heads 131 and a sliding rod 132 for moving the laser cutting heads 131, the plurality of laser cutting heads 131 move on the sliding rod 132 to enable cloth to be transversely cut, and the pressing mechanism 8 is arranged below the laser transverse cutting mechanism 13; the opposite side of the laser transverse cutting mechanism 13 is provided with an ion pump 14, the air outlet of the ion pump 14 faces the cloth, and the cloth is blown downwards, so that the cloth does not float due to light weight, and the auxiliary downward guiding effect is provided for the cloth.

Fig. 2 is a front view of the dust-free cloth multi-specification laser transverse cutting machine of the utility model.

The cloth uncoiling frame 2 is provided with a cloth limiting structure 21 relatively for preventing the cloth from moving left and right when being stretched.

Fig. 4 is a perspective view of the dust-free cloth multi-specification laser transverse cutting machine of the utility model.

The feeding clamping mechanism 4 comprises a first feeding clamping mechanism 4 and a second feeding clamping mechanism 4 which are matched with each other and are oppositely arranged; the first feeding clamping mechanism 4 is a limiting roller 5 with two ends connected to the frame 1; the second feeding clamping mechanism 4 comprises a clamping cylinder 6 and a movable roller 7 in driving connection with the clamping cylinder 6, two ends of the movable roller 7 are respectively connected with the clamping cylinder 6, a body of the clamping cylinder 6 is arranged on the frame 1, during operation, the movable roller 7 driven by the clamping cylinder 6 moves towards the limit roller 5 until clamping cloth, the limit roller 5 and an outer ring of the movable roller 7 are respectively wrapped with a layer of antistatic cloth (not shown in the figure), the cloth is prevented from passing through the limit roller 5 and the movable roller 7 due to electrostatic adsorption, and the pressing mechanism 8 comprises a fixed block 9 fixed on one side of the frame 1, a pressing plate 10 arranged on the other side of the cloth in a relative manner and a pressing contact cylinder in driving connection with the pressing plate 10.

One side of the frame 1 is provided with a control mechanism 15 for controlling the cloth carrier roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13.

An extension roller 16 is further arranged between the cloth carrier roller 3 and the feeding clamping mechanism 4, so that cloth is conveniently and neatly paved and then fed into the feeding clamping mechanism 4.

FIG. 2 is a front view of the dust-free cloth multi-specification laser crosscut machine of the utility model; fig. 4 is a perspective view of the dust-free cloth multi-specification laser transverse cutting machine of the utility model.

The pressure contact cylinder is located the both ends of clamp plate 10, the body of clamp plate 10 still is equipped with a plurality of inlet port 12 that evenly set up for connect external gas, because the pressure contact cylinder is located the both ends of clamp plate 10, so can make the pressure at clamp plate 10 both ends be greater than the pressure at clamp plate 10 middle part, strengthen and average clamp plate 10's pressure through the inlet port 12 that the body of clamp plate 10 evenly set up for cloth atress is even, clamp plate 10 with the surface of fixed block 9 all cladding has the skid resistant course.

The utility model has the beneficial effects that: the utility model provides a dust-free cloth multi-specification laser transverse cutting machine which comprises a frame 1, a cloth uncoiling frame 2, a cloth supporting roller 3, a feeding and clamping mechanism 4, a pressing mechanism 8 and a laser transverse cutting mechanism 13, wherein the cloth uncoiling frame 2, the cloth supporting roller 3, the feeding and clamping mechanism 4, the pressing mechanism 8 and the laser transverse cutting mechanism 13 are arranged on the frame 1; the cloth enters the feeding and clamping mechanism 4 from the cloth uncoiling frame 2 through the cloth carrier roller 3; the feeding and clamping mechanism 4 is arranged above the laser transverse cutting mechanism 13, and the pressing mechanism 8 is arranged below the laser transverse cutting mechanism 13; the opposite side of the laser transverse cutting mechanism 13 is provided with an ion pump 14, the air outlet of the ion pump 14 faces the cloth, the cloth is blown downwards, so that the cloth does not float due to light weight, the cloth is provided with an auxiliary downward guiding function, and the cloth is completely in a straightened state between the second feeding clamping mechanism 4 and the pressing device after being clamped by the second feeding clamping mechanism 4.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A dust-free cloth multi-specification laser transverse cutting machine comprises a frame (1), a cloth uncoiling frame (2), a cloth supporting roller (3), a feeding clamping mechanism (4), a pressing mechanism (8) and a laser transverse cutting mechanism (13), wherein the cloth uncoiling frame (2) is arranged on the frame (1); the cloth enters the feeding and clamping mechanism (4) from the cloth uncoiling frame (2) through the cloth supporting roller (3); the feeding and clamping mechanism (4) is arranged above the laser transverse cutting mechanism (13), and the pressing mechanism (8) is arranged below the laser transverse cutting mechanism (13); the method is characterized in that: the opposite sides of the laser transverse cutting mechanism (13) are provided with ion pumps (14), and air outlets of the ion pumps (14) face the cloth.

2. The dust free cloth multi-gauge laser crosscutting machine of claim 1, wherein: the ion pump (14) is arranged opposite to the laser transverse cutting mechanism (13).

3. The dust free cloth multi-gauge laser crosscutting machine of claim 1, wherein: the feeding clamping mechanism (4) comprises a first feeding clamping mechanism (4) and a second feeding clamping mechanism (4) which are matched with each other and are oppositely arranged; the first feeding clamping mechanism (4) is a limiting roller (5) with two ends connected to the frame (1); the second feeding clamping mechanism (4) comprises a clamping cylinder (6), and a movable roller (7) which is in driving connection with the clamping cylinder (6), wherein two ends of the movable roller (7) are connected with the clamping cylinder (6), a body of the clamping cylinder (6) is arranged on the frame (1), and when the feeding clamping mechanism works, the movable roller (7) driven by the clamping cylinder (6) moves towards the limit roller (5) until cloth is clamped.

4. A dust free cloth multi-gauge laser crosscutting machine as claimed in claim 3, wherein: the outer rings of the limit roller (5) and the movable roller (7) are wrapped with a layer of antistatic cloth.

5. The dust free cloth multi-gauge laser crosscutting machine of claim 1, wherein: the pressing mechanism (8) comprises a fixed block (9) fixed on the frame (1) and arranged on one side of the cloth, a pressing plate (10) arranged opposite to the fixed block (9) and arranged on the other side of the cloth, and a pressing cylinder in driving connection with the pressing plate (10).

6. The dust cloth multi-specification laser crosscutting machine of claim 5, wherein: the press contact air cylinders are positioned at two ends of the pressing plate (10).

7. The dust cloth multi-specification laser crosscutting machine of claim 5, wherein: the body of clamp plate (10) still is equipped with a plurality of inlet port (12) that evenly set up for connect external gas, owing to press the both ends that touch cylinder was located clamp plate (10), so can make the pressure at clamp plate (10) both ends be greater than the pressure at clamp plate (10) middle part, strengthen and average clamp plate (10) pressure through inlet port (12) that the body of clamp plate (10) evenly set up, make cloth atress even.

8. The dust cloth multi-specification laser crosscutting machine of claim 5, wherein: the surfaces of the pressing plate (10) and the fixed block (9) are coated with an anti-slip layer.

9. The dust free cloth multi-gauge laser crosscutting machine of claim 1, wherein: one side of the frame (1) is provided with a control mechanism (15) for controlling the cloth carrier roller (3), the feeding and clamping mechanism (4), the pressing mechanism (8) and the laser transverse cutting mechanism (13).

10. The dust free cloth multi-gauge laser crosscutting machine of claim 1, wherein: an extension roller (16) is further arranged between the cloth supporting roller (3) and the feeding clamping mechanism (4), so that the cloth is conveniently and neatly paved and then fed into the feeding clamping mechanism (4).