CN111299874A - Belt conveyor and laser cutting machine with follow-up chip removal function - Google Patents

Abstract

The invention provides a belt conveyor with a follow-up chip removal function and a laser cutting machine, wherein the belt conveyor mainly comprises an upper moving mechanism, an upper moving driving device, a chip removal groove and a lower moving mechanism, wherein the upper moving mechanism comprises two upper connecting pieces, an upper front rotating roller and an upper rear rotating roller which are rotatably arranged between the two upper connecting pieces, and a chip removal gap is formed between the upper front rotating roller and the upper rear rotating roller; the chip groove is connected between the two upper connecting pieces, and the upper moving driving device drives the upper moving mechanism to move with the chip groove; the lower moving mechanism comprises two lower connecting pieces, and a lower front rotating roller and a lower rear rotating roller which are rotatably arranged between the two lower connecting pieces. The material slag generated in the processing process can fall into a chip groove from a chip removing gap; the upper connecting piece and the lower connecting piece are separated, so that the weight of the equipment can be reduced, the running stability of the equipment is improved, and the arrangement of the chip grooves is facilitated.

Description

Belt conveyor and laser cutting machine with follow-up chip removal function

Technical Field

The invention relates to the technical field of laser cutting equipment, in particular to a belt type conveying device with a follow-up chip removal function. Meanwhile, the invention also relates to a laser cutting machine provided with the belt type conveying device with the follow-up chip removal function.

Background

The laser cutting is to focus the laser emitted from the laser into laser beam with high power density via the optical path system, and then to irradiate the laser beam onto the surface of the workpiece to reach the melting point or boiling point of the workpiece, and simultaneously to blow away the molten or gasified metal with the high pressure gas coaxial with the laser beam. And finally, the material is cut along with the movement of the relative position of the light beam and the workpiece, so that the cutting purpose is achieved.

According to the existing laser cutting machine, a needle-shaped metal frame in a multi-purpose lattice layout supports a cut product, laser penetrates through the product and then is bound to cut a support piece, and fused metal is welded together with the product, so that the product and the support piece are welded together, burrs or other defects are attached to the product, and the product quality is affected.

Disclosure of Invention

In view of this, the present invention is directed to a belt conveyor with a follow-up chip removal function, in the process of implementing complete processing by a processing device, the chip removal device can move along with a processing mechanism and operate stably.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the utility model provides a belt conveyor with follow-up chip removal function, is applied to the processing equipment on, the processing equipment includes the frame, and can follow the processing agency of frame length direction motion, belt conveyor includes:

the upper moving mechanism moves along the length direction of the rack along with the processing mechanism, and comprises two upper connecting pieces which are oppositely arranged at the upper part of the rack, and an upper front rotating roller and an upper rear rotating roller which are rotatably arranged between the two upper connecting pieces; the two upper connecting pieces are respectively arranged at two ends of the frame in the width direction; the upper front rotating roller and the upper rear rotating roller are arranged at intervals in the length direction of the rack, and a chip removal gap is formed between the upper front rotating roller and the upper rear rotating roller;

the upper moving driving device forms the driving of the upper moving mechanism to move along the length direction of the rack;

the chip removal groove is fixedly connected between the two upper connecting pieces and is positioned below the chip removal gap so as to receive the material slag falling from the chip removal gap;

the lower moving mechanism moves along the length direction of the rack synchronously with the upper moving mechanism, and comprises two lower connecting pieces which are oppositely arranged at the lower part of the rack, and a lower front rotating roller and a lower rear rotating roller which are rotatably arranged between the two lower connecting pieces; the two lower connecting pieces are respectively arranged at two ends of the width direction of the rack.

Further, in the above-mentioned case,

the front rotating roller group comprises a front upper rotating roller and a front lower rotating roller which are rotatably arranged at the front part of the rack, and the front upper rotating roller and the front lower rotating roller both extend along the width direction of the rack;

the rear rotating roller group comprises a rear upper rotating roller and a rear lower rotating roller which are rotatably arranged at the rear part of the rack, and the rear upper rotating roller and the rear lower rotating roller both extend along the width direction of the rack;

the steering roller group comprises a front steering roller and a rear steering roller which are rotatably arranged on the rack, and the front steering roller and the rear steering roller are arranged in an extending manner along the width direction of the rack;

the front belt is sequentially wound on the front upper rotating roller, the front lower rotating roller, the lower front rotating roller, the front steering rotating roller and the upper front rotating roller;

the front belt rotation driving device is fixedly arranged on the rack and drives one of the front upper rotating roller, the front lower rotating roller and the front steering rotating roller to rotate;

the rear belt is sequentially wound on the rear lower rotating roller, the rear upper rotating roller, the upper rear rotating roller, the rear rotating roller and the lower rear rotating roller;

and the rear belt rotation driving device is fixedly arranged on the rack and drives one of the rear upper rotating roller, the rear lower rotating roller and the rear steering rotating roller to rotate.

Further, in the above-mentioned case,

the front rotating roller group comprises a front upper rotating roller and a front lower rotating roller which are rotatably arranged at the front part of the rack, and the front upper rotating roller and the front lower rotating roller both extend along the width direction of the rack;

the rear rotating roller group comprises a rear upper rotating roller and a rear lower rotating roller which are rotatably arranged at the rear part of the rack, and the rear upper rotating roller and the rear lower rotating roller both extend along the width direction of the rack;

the belt is sequentially wound on the front upper rotating roller, the front lower rotating roller, the rear upper rotating roller, the upper rear rotating roller, the lower front rotating roller and the upper front rotating roller;

and the belt rotation driving device is fixedly arranged on the rack and drives one of the front upper rotating roller, the front lower rotating roller, the rear upper rotating roller and the rear lower rotating roller to rotate.

Furthermore, an upper guide mechanism is respectively arranged between each upper connecting piece and the rack, and the upper guide mechanism forms the guide of the movement of the upper connecting pieces along the length direction of the rack; and upper driving fitting pieces extending along the length direction of the rack are fixedly arranged on two sides of the width direction of the rack respectively, the upper moving driving device comprises upper driving devices fixedly arranged on the two upper connecting pieces respectively, and an upper driving piece in transmission connection with the upper driving fitting pieces on the corresponding side is fixedly arranged at the power output end of each upper driving device.

Furthermore, the upper guide mechanism comprises two upper slide rails which are fixedly arranged on two sides of the width direction of the rack respectively and extend along the length direction of the rack, and upper slide blocks which are matched with the upper slide rails and are fixedly arranged on the two upper connecting pieces respectively.

Furthermore, lower guide mechanisms are respectively arranged between each lower connecting piece and the rack, and the lower guide mechanisms form the guide of the movement of the lower connecting pieces along the length direction of the rack.

Furthermore, the lower guide mechanism comprises two lower slide rails which are respectively fixedly arranged on two sides of the width direction of the rack and extend along the length direction of the rack, and lower slide blocks which are matched with the lower slide rails and are respectively fixedly arranged on the two lower connecting pieces.

The lower moving driving device comprises lower driving devices which are fixedly arranged on the two lower connecting pieces respectively, and lower driving pieces which are in transmission connection with the lower driving matching pieces on the corresponding side are fixedly arranged at power output ends of the lower driving devices.

(1) According to the belt type conveying device with the follow-up chip removal function, the upper moving driving device is arranged to drive the upper moving mechanism to move along the length direction of the rack, and meanwhile, the upper moving mechanism can drive the chip removal groove to move along the length direction of the rack, so that the chip removal groove can move along the length direction of the rack along with the processing mechanism, and material residues generated in the processing process can fall into the chip removal groove from a chip removal gap; through the separate arrangement of the upper connecting piece and the lower connecting piece, the weight of the equipment can be reduced, the running stability of the equipment is improved, the chip grooves can be conveniently arranged, and the practicability is better.

(2) Through the arrangement of the front rotary roller group, the rear rotary roller group, the steering rotary roller group, the front belt and the rear belt, the upper moving mechanism and the lower moving mechanism can synchronously and reversely move along the length direction of the rack, and linear conveying can be realized; the increase turns to the roller set and can make the chip groove have great arrangement space, therefore can increase the chip groove volume, reduce the material sediment clearance number of times, it is more convenient to use.

(3) Through the arrangement of the front roller group, the rear roller group and the belt, the upper moving mechanism and the lower moving mechanism can synchronously move in the same direction along the length direction of the rack, and the conveying of workpieces can be realized.

(4) An upper guide mechanism is arranged and can guide the upper moving mechanism to move along the length direction of the rack; the upper moving drive device comprises two upper drive devices, so that the movement of the upper moving mechanism is more stable.

(5) A lower guide mechanism is arranged and can guide the movement of the lower moving mechanism along the length direction of the rack; the lower moving drive device comprises two lower driving devices, so that the lower moving mechanism moves more stably.

Another object of the present invention is to provide a laser cutting machine, which includes the belt conveyor with the follow-up chip removal function.

Further, the processing agency includes the edge the crossbeam that the frame width direction extends the setting, and follows the frame width direction slides and locates the finished piece processing portion on the crossbeam, two the upper portion connecting piece link firmly respectively in the both ends of crossbeam.

Compared with the prior art, the laser cutting machine has the same beneficial effects as the belt type conveying device with the follow-up chip removal function, and the detailed description is omitted.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a front view of a belt conveyor with a follow-up chip removal function according to a first embodiment of the invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic structural diagram of a belt conveyor with a follow-up chip removal function according to a second embodiment of the present invention in an application state;

description of reference numerals:

1-upper link, 2-upper front roll, 3-upper rear roll, 4-lower link, 5-lower front roll, 6-lower rear roll, 7-front upper roll, 8-front lower roll, 9-rear upper roll, 10-rear lower roll, 11-front steering roll, 12-rear steering roll, 13-front belt, 14-rear belt, 15-front belt rotation drive, 16-rear belt rotation drive, 17-upper drive, 18-upper drive, 19-lower drive, 20-lower drive, 21-cross beam, 22-laser head, 23-belt, 24-chip space.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example one

The embodiment relates to a belt type conveying device with a follow-up chip removal function, which is applied to a processing mechanism and mainly comprises an upper moving mechanism, a chip removal groove 24 fixedly arranged on the upper moving mechanism, an upper moving driving device for driving the upper moving mechanism to move along the length direction of a rack and a lower moving driving mechanism.

Based on the above overall structure description, the structure of the belt conveyor with follow-up chip removal function of the present embodiment is shown in fig. 1 to fig. 2, and for convenience of description of the present embodiment, a brief description is given below by taking a processing mechanism as a laser cutting machine as an example, where the laser cutting machine mainly includes a frame and a processing mechanism moving along a length direction of the frame. Here, the processing mechanism of the present embodiment is not limited to the laser cutting machine.

The frame is a mounting base for the rest of the components, and can be formed by welding the existing section steel, steel plates and other section steel, so as to mount the rest of the components, and therefore, the frame is not shown in the figure. In this embodiment, referring to the state shown in fig. 2, the left-right direction refers to the longitudinal direction of the rack, the up-down direction refers to the height direction of the rack, and the direction orthogonal to the longitudinal direction and the height direction is the width direction of the rack.

The structure of the processing mechanism can refer to the existing mechanism, and as in the embodiment, the processing mechanism comprises a cross beam 21 extending along the width direction of the rack, and a workpiece processing part arranged on the cross beam 21 in a sliding manner along the width direction of the rack. In particular, the cross beam 21 has an inverted U-shape and is movable along the length of the frame in a manner that is well known in the art. The workpiece processing part adopts the existing laser cutting head which can move along the beam 21 along the width direction of the frame, and the specific movement mode can refer to the prior art. It should be noted that the workpiece processing portion is not limited to the laser cutting head, and may also be other existing components that can process a workpiece, such as a turning tool, a milling cutter, a drilling tool, and the like. The way of mounting the work piece processing part is also not limited to having a movement in the width direction of the frame, e.g. it may also be fixed to the cross beam 21 or have a movement in the height direction of the frame on the cross beam 21.

The main improvement of the embodiment is that an upper moving mechanism which moves along the length direction of the frame along with the processing mechanism is added. Specifically, the upper moving mechanism comprises two upper connecting pieces 1 which are oppositely arranged at the upper part of the frame, and an upper front roller 2 and an upper rear roller 3 which are rotatably arranged between the two upper connecting pieces 1; two upper portion connecting pieces 1 are arranged at two ends of the frame in the width direction respectively, and the two upper portion connecting pieces 1 are fixedly connected to two ends of the cross beam 21.

The upper front roller 2 and the upper rear roller 3 are arranged at intervals in the length direction of the frame, and a chip removal gap is formed between the upper front roller and the upper rear roller; a chip removal groove 24 is fixedly connected between the two upper connecting pieces 1, the chip removal groove 24 is positioned below the chip removal gap, and a feeding port of the chip removal groove 24 faces upwards to receive material slag falling from the chip removal gap. In a preferred embodiment, the chip grooves 24 are detachably connected with the two upper connecting pieces 1, such as clamping connection or bolt connection, so as to facilitate the pouring of the slag.

Upper guide mechanisms, not shown in the figure, are respectively arranged between each upper connecting piece 1 and the frame, and the upper guide mechanisms form the guide of the movement of the upper connecting pieces 1 along the length direction of the frame. Specifically, the upper guide mechanism includes two upper slide rails respectively fixed to both sides of the frame in the width direction and extending in the length direction of the frame, and upper slide blocks respectively fixed to the two upper connecting members 1 in such a manner as to be matched with the upper slide rails.

In order to facilitate driving the upper moving mechanism to move, the belt conveyor with the follow-up chip removal function of the embodiment further comprises an upper moving driving device for driving the upper moving mechanism to move along the length direction of the rack. Specifically, upper driving mating members extending in the longitudinal direction of the frame are respectively fixed to both sides in the width direction of the frame, the upper moving driving means includes two upper driving means 17 respectively fixed to the two upper connecting members 1, and an upper driving member 18 drivingly connected to the upper driving mating member on the corresponding side is fixed to a power output end of each upper driving means 17. In this structure, the upper driving device 17 preferably employs an existing motor having a rotary power output end, the upper driving member 18 preferably employs a gear fixedly disposed at the power output end of the motor, and the upper driving mating member preferably employs a rack. Of course, in addition to this, the upper driving device 17 may have other structures, such as a linear motor, a cylinder, an oil cylinder, etc., and the upper driving member 18 and the upper driving mating member may have other structures, such as a ball screw, for driving the upper moving mechanism to move along the length direction of the frame along with the processing mechanism.

In order to further ensure the equipment to run stably when conveying the workpieces, a lower moving mechanism is arranged at the lower part of the rack and moves along the length direction of the rack. Specifically, the lower moving mechanism comprises two lower connecting pieces 4 which are oppositely arranged at the lower part of the frame, and a lower front roller 5 and a lower rear roller 6 which are rotatably arranged between the two lower connecting pieces 4, the two lower connecting pieces 4 are respectively arranged at two ends of the width direction of the frame, the lower front roller 5 and the lower rear roller 6 are both arranged in an extending way along the width direction of the frame, and the lower front roller 5 and the lower rear roller 6 are arranged at intervals in the length direction of the frame.

In addition, in order to realize the conveying of the product, as shown in fig. 1 to 2, the belt conveyor with the follow-up chip removal function of the embodiment further includes a front turning roller group, a rear turning roller group, and a steering turning roller group. Specifically, the front roll group includes a front upper roll 7 and a front lower roll 8 rotatably disposed in the front of the frame, the front upper roll 7 and the front lower roll 8 are disposed up and down in the height direction of the frame, and both the front upper roll 7 and the front lower roll 8 extend in the width direction of the frame. The rear turning roll group comprises a rear upper turning roll 9 and a rear lower turning roll 10 which are rotatably arranged at the rear part of the rack, the rear upper turning roll 9 and the rear lower turning roll 10 are arranged up and down in the height direction of the rack, and the rear upper turning roll 9 and the rear lower turning roll 10 extend along the width direction of the rack. The steering roller group comprises a front steering roller 11 and a rear steering roller 12 which are rotatably arranged on the frame, the front steering roller 11 and the rear steering roller 12 are respectively arranged close to the two ends of the length direction of the frame, and the front steering roller 11 and the rear steering roller 12 extend along the width direction of the frame.

In addition, the present embodiment further includes two belts, which are hereinafter referred to as a front belt 13 and a rear belt 14, respectively, for convenience of distinction. In a specific structure, a front belt 13 is sequentially wound on the front upper rotating roller 7, the front lower rotating roller 8, the lower front rotating roller 5, the front steering roller 11 and the upper front rotating roller 2; the front belt rotation driving device 15 is fixed to the frame and configured to drive rotation of one of the front upper roller 7, the front lower roller 8, and the front steering roller 11. In the preferred embodiment, the front belt rotation driving device 15 uses an existing motor, which is configured to drive the front lower rotating roller 8, and in this embodiment, in addition to driving the front lower rotating roller 8 to rotate, the motor can also drive the front upper rotating roller 7 or the front steering roller 11 to rotate.

The rear belt 14 is sequentially wound on the rear lower rotating roller 10, the rear upper rotating roller 9, the upper rear rotating roller 3, the rear steering rotating roller 12 and the lower rear rotating roller 6; the rear belt rotation driving device 16 is fixedly arranged on the frame and drives one of the rear upper rotating roller 9, the rear lower rotating roller 10 and the rear steering rotating roller 12 to rotate. In a preferred embodiment, the rear belt rotation driving device 16 is preferably an existing motor, which drives the rear upper rotating roller 9, and in this embodiment, in addition to rotating the motor-driven rear upper rotating roller 9, the motor-driven rear lower rotating roller 10 or the rear steering rotating roller 12 can also be rotated.

In order to facilitate the movement of the lower moving mechanism along the length direction of the frame, a lower guide mechanism, not shown in the figure, is respectively arranged between each lower connecting piece 4 and the frame, and the lower guide mechanism forms a guide for the movement of the lower connecting piece 4 along the length direction of the frame. Specifically, the lower guide mechanism includes two lower slide rails respectively fixed to both sides of the frame in the width direction and extending in the length direction of the frame, and lower slide blocks respectively fixed to the two lower connecting members 4 in a manner of being matched with the lower slide rails.

In addition, the embodiment also comprises a lower driving device for driving the lower moving mechanism to move along the length direction of the frame. Specifically, lower driving mating members extending in the longitudinal direction of the frame are respectively fixed to both sides in the width direction of the frame, the lower moving driving means includes lower driving means 19 respectively fixed to the two lower connecting members 4, and a lower driving member 20 drivingly connected to the lower driving mating member on the corresponding side is fixed to a power output end of each lower driving means 19. In a preferred embodiment, the lower driving device 19 is preferably an existing motor having a rotary power output end, the lower driving member 20 is preferably a gear fixedly arranged at the power output end of the motor, and the lower driving mating member is preferably a rack, and because the motor and the lower guide mechanism are arranged on both sides of the frame in the width direction, the lower moving mechanism can move along the length direction of the frame and operate smoothly under the synchronous driving of the two motors. Of course, in addition to this, the lower driving device 19 may also have other structures, such as a linear motor, a cylinder, an oil cylinder, etc., and the lower driving member 20 and the lower driving mating member may also have other structures, such as a ball screw, for driving the lower moving mechanism to move along the length direction of the frame along with the processing mechanism.

In the belt conveyor with follow-up chip removal function of the embodiment, under the action of the upper driving device 17 and the lower driving device 19, the upper moving mechanism moves synchronously and in the same direction along the length direction of the frame along with the processing mechanism, and simultaneously, the upper moving mechanism and the lower moving mechanism move synchronously and reversely along the length direction of the frame.

Finally, the belt conveyor with the follow-up chip removal function of the embodiment is provided with the upper movement driving device to drive the upper movement mechanism to move along the length direction of the rack, and meanwhile, the upper movement mechanism can drive the chip removal groove to move along the length direction of the rack, so that the chip removal groove can move along the length direction of the rack along with the processing mechanism, and then material slag generated in the processing process can fall into the chip removal groove from a chip removal gap; through the separate arrangement of the upper connecting piece and the lower connecting piece, the weight of the equipment can be reduced, the running stability of the equipment is improved, the chip grooves can be conveniently arranged, and the practicability is better.

Example two

The present embodiment relates to a belt conveyor having a follow-up chip removal function, and the present embodiment is mainly different from the first embodiment in that a steering roller group is not provided, but a front roller group and a rear roller group are provided, and two belts in the first embodiment are replaced by one belt.

In a specific structure, the front rotary roller group comprises a front upper rotary roller 7 and a front lower rotary roller 8 which are rotatably arranged at the front part of the frame, and the front upper rotary roller 7 and the front lower rotary roller 8 both extend along the width direction of the frame; the rear turning roll group comprises a rear upper turning roll 9 and a rear lower turning roll 10 which are rotatably arranged at the rear part of the frame, and the rear upper turning roll 9 and the rear lower turning roll 10 both extend along the width direction of the frame; the belt 23 is sequentially wound on the front upper rotating roller 7, the front lower rotating roller 8, the rear lower rotating roller 10, the rear upper rotating roller 9, the upper rear rotating roller 3, the lower rear rotating roller 6, the lower front rotating roller 5 and the upper front rotating roller 2.

The belt rotation driving device is fixedly arranged on the frame and forms a drive for rotating one of the front upper rotating roller 7, the front lower rotating roller 8, the rear upper rotating roller 9 and the rear lower rotating roller 10. In a preferred embodiment, the belt rotation driving device can adopt an existing motor to drive any one of the front upper rotating roller 7, the front lower rotating roller 8, the rear upper rotating roller 9 and the rear lower rotating roller 10 to rotate.

In the belt conveyor with follow-up chip removal function of the embodiment, the upper moving mechanism and the lower moving mechanism synchronously move in the same direction along the length direction of the frame along with the processing mechanism under the action of the upper driving device 17 and the lower driving device 19.

EXAMPLE III

The embodiment relates to a laser cutting machine, which is shown in fig. 3 and comprises a belt type conveying device with a follow-up chip removal function according to the first embodiment or the second embodiment. It should be noted that the laser cutting machine mainly includes a machine frame and a processing mechanism, and the structure of the machine frame and the processing mechanism can refer to the description in the first embodiment.

In a preferred embodiment, the processing mechanism includes a cross beam 21 extending along the width direction of the rack, and a workpiece processing portion slidably disposed on the cross beam 21 along the width direction of the rack, the two upper connecting members 1 are respectively fixedly connected to two ends of the cross beam 21, and the two upper driving devices 17 are respectively fixedly disposed on the two upper connecting members 1 to drive the processing mechanism and the upper moving mechanism to synchronously move along the length direction of the rack.

According to the laser cutting machine, the belt type conveying device with the follow-up chip removal function in the first embodiment or the second embodiment is applied, so that chip removal grooves can be conveniently arranged, the weight of equipment can be reduced, the running stability of the equipment is improved, and the laser cutting machine has better practicability.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a belt conveyor with follow-up chip removal function, is applied to the processing equipment on, the processing equipment includes the frame, and can follow the processing agency of frame length direction motion, its characterized in that, belt conveyor includes:

the upper moving mechanism moves along the length direction of the rack along with the processing mechanism, and comprises two upper connecting pieces (1) which are oppositely arranged at the upper part of the rack, and an upper front rotating roller (2) and an upper rear rotating roller (3) which are rotatably arranged between the two upper connecting pieces (1); the two upper connecting pieces (1) are respectively arranged at two ends of the rack in the width direction; the upper front rotating roller (2) and the upper rear rotating roller (3) are arranged at intervals in the length direction of the rack, and a chip removal gap is formed between the upper front rotating roller and the upper rear rotating roller;

the upper moving driving device forms the driving of the upper moving mechanism to move along the length direction of the rack;

the chip removal grooves (24) are fixedly connected between the two upper connecting pieces (1) and are positioned below the chip removal gaps so as to receive the material slag falling from the chip removal gaps;

the lower moving mechanism moves along the length direction of the rack synchronously with the upper moving mechanism, and comprises two lower connecting pieces (4) which are oppositely arranged at the lower part of the rack, and a lower front rotating roller (5) and a lower rear rotating roller (6) which are rotatably arranged between the two lower connecting pieces (4); the two lower connecting pieces (4) are respectively arranged at two ends of the frame in the width direction.

2. The belt conveyor with follow-up chip removal function according to claim 1, characterized by comprising:

the front roller group comprises a front upper roller (7) and a front lower roller (8) which are rotatably arranged at the front part of the frame, and the front upper roller (7) and the front lower roller (8) both extend along the width direction of the frame;

the rear rotating roller group comprises a rear upper rotating roller (9) and a rear lower rotating roller (10) which are rotatably arranged at the rear part of the rack, and the rear upper rotating roller (9) and the rear lower rotating roller (10) both extend along the width direction of the rack;

the steering and rotating roller group comprises a front steering and rotating roller (11) and a rear steering and rotating roller (12) which are rotatably arranged on the rack, and the front steering and rotating roller (11) and the rear steering and rotating roller (12) are arranged in an extending manner along the width direction of the rack;

the front belt (13) is sequentially wound on the front upper rotating roller (7), the front lower rotating roller (8), the lower front rotating roller (5), the front steering rotating roller (11) and the upper front rotating roller (2);

the front belt rotation driving device (15) is fixedly arranged on the rack and drives one of the front upper rotating roller (7), the front lower rotating roller (8) and the front steering rotating roller (11) to rotate;

the rear belt (14) is sequentially wound on the rear lower rotating roller (10), the rear upper rotating roller (9), the upper rear rotating roller (3), the rear steering rotating roller (12) and the lower rear rotating roller (6);

and the rear belt rotation driving device (16) is fixedly arranged on the rack and drives one of the rear upper rotating roller (9), the rear lower rotating roller (10) and the rear steering rotating roller (12) to rotate.

3. The belt conveyor with follow-up chip removal function according to claim 1, characterized by comprising:

the front roller group comprises a front upper roller (7) and a front lower roller (8) which are rotatably arranged at the front part of the frame, and the front upper roller (7) and the front lower roller (8) both extend along the width direction of the frame;

the rear rotating roller group comprises a rear upper rotating roller (9) and a rear lower rotating roller (10) which are rotatably arranged at the rear part of the rack, and the rear upper rotating roller (9) and the rear lower rotating roller (10) both extend along the width direction of the rack;

the belt (23) is sequentially wound on the front upper rotating roller (7), the front lower rotating roller (8), the rear lower rotating roller (10), the rear upper rotating roller (9), the upper rear rotating roller (3), the lower rear rotating roller (6), the lower front rotating roller (5) and the upper front rotating roller (2);

and the belt rotation driving device is fixedly arranged on the rack and drives one of the front upper rotating roller (7), the front lower rotating roller (8), the rear upper rotating roller (9) and the rear lower rotating roller (10) to rotate.

4. The belt conveyor with follow-up chip removal function according to any one of claims 1 to 3, wherein: an upper guide mechanism is respectively arranged between each upper connecting piece (1) and the rack, and the upper guide mechanism forms the guide of the movement of the upper connecting pieces (1) along the length direction of the rack; and upper driving matching parts extending along the length direction of the rack are fixedly arranged on two sides of the width direction of the rack respectively, the upper moving driving device comprises upper driving devices (17) fixedly arranged on the two upper connecting pieces (1) respectively, and an upper driving piece (18) in transmission connection with the upper driving matching parts on the corresponding side is fixedly arranged at the power output end of each upper driving device (17).

5. The belt conveyor with follow-up chip removal function according to claim 4, wherein: the upper portion guiding mechanism comprises two upper sliding rails which are fixedly arranged on two sides of the width direction of the rack respectively and extend along the length direction of the rack, and upper sliding blocks which are matched with the upper sliding rails and are fixedly arranged on the two upper portion connecting pieces (1) respectively.

6. The belt conveyor with follow-up chip removal function according to any one of claims 1 to 3, wherein: lower guide mechanisms are respectively arranged between each lower connecting piece (4) and the rack, and the lower guide mechanisms form the guide of the movement of the lower connecting pieces (4) along the length direction of the rack.

7. The belt conveyor with follow-up chip removal function according to claim 6, wherein: the lower guide mechanism comprises two lower slide rails which are fixedly arranged on two sides of the width direction of the rack respectively and extend along the length direction of the rack, and lower slide blocks which are matched with the lower slide rails and are fixedly arranged on the two lower connecting pieces (4) respectively.

8. The belt conveyor with follow-up chip removal function according to claim 7, wherein: the lower part moving mechanism is characterized by further comprising a lower part driving device for driving the lower part moving mechanism to move along the length direction of the rack, lower part driving fitting pieces extending along the length direction of the rack are fixedly arranged on two sides of the width direction of the rack respectively, the lower part moving driving device comprises lower part driving devices (19) fixedly arranged on the two lower part connecting pieces (4) respectively, and lower part driving pieces (20) in transmission connection with the lower part driving fitting pieces on the corresponding sides are fixedly arranged at power output ends of the lower part driving devices (19).

9. A laser cutting machine is characterized in that: the belt conveyor with the follow-up chip removal function, which comprises any one of claims 1 to 8.

10. The laser cutting machine according to claim 9, characterized in that: the processing mechanism includes the edge crossbeam (21) that the frame width direction extends the setting, and follows the frame width direction slides and locates the finished piece processing portion on crossbeam (21), two upper portion connecting piece (1) link firmly respectively in the both ends of crossbeam (21).

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