CN210878129U

CN210878129U - Automatic material cutting equipment

Info

Publication number: CN210878129U
Application number: CN201921691474.XU
Authority: CN
Inventors: 王俊锋; 石和喜
Original assignee: Guangdong Ucan Robot Technology Co Ltd
Current assignee: Guangdong Ucan Robot Technology Co Ltd
Priority date: 2019-10-10
Filing date: 2019-10-10
Publication date: 2020-06-30
Anticipated expiration: 2029-10-10

Abstract

The utility model relates to the technical field of material cutting, in particular to an automatic material cutting device, which comprises a machine table, a first conveying mechanism and a first cutting mechanism, wherein the first conveying mechanism and the first cutting mechanism are arranged on the machine table; the first conveying mechanism comprises a first endless belt and a first driving piece for driving the first endless belt to rotate, and a first bearing part is formed on the first endless belt; the adjusting mechanism is used for adjusting the length of the first bearing part, the rotating first ring belt enables the materials to move along the length direction of the first bearing part, and the first cutting mechanism automatically cuts the materials borne by the first bearing part; the first conveying mechanism realizes automatic conveying of materials, the first cutting mechanism realizes automatic cutting of the materials, manual operation of operators is not needed, and cutting efficiency and cutting yield of the materials are improved; according to the size of a material, the length of the first bearing part is adjusted by the adjusting mechanism, so that the first bearing part can bear and convey materials of various sizes, and the use performance of the automatic material cutting equipment is improved.

Description

Automatic material cutting equipment

Technical Field

The utility model relates to a material cutting technical field especially discloses a material automatic cutout equipment.

Background

In the production process of materials, various processing treatments need to be performed on the materials, for example, in the production process of a flexible printed circuit board (FPC for short), the FPC needs to be cut, when the FPC is cut, the FPC needs to be conveyed to a cutting station, in the prior art, the FPC is mainly conveyed to the cutting station manually by an operator, then the FPC is cut by manually operating the cutting station, and then the cut FPC is manually moved away, so that the conveying efficiency and the cutting efficiency of the FPC are relatively low, and the cutting yield is relatively low due to the manual operation of the operator.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects and shortcomings in the prior art, the utility model aims to provide an automatic material cutting device, which realizes automatic conveying and automatic cutting of materials, does not need manual operation of operators, and improves the cutting efficiency and the cutting yield of the materials; according to the size of a material, the length of the first bearing part is adjusted by the adjusting mechanism, so that the first bearing part can bear and convey materials of various sizes, and the use performance of the automatic material cutting equipment is improved.

In order to achieve the above purpose, the utility model discloses an automatic material cutting device, which comprises a machine table, a first conveying mechanism and a first cutting mechanism, wherein the first conveying mechanism and the first cutting mechanism are arranged on the machine table; the first conveying mechanism comprises a first endless belt and a first driving piece, the first endless belt is rotatably arranged, the first driving piece is used for driving the first endless belt to rotate, and a first bearing part for bearing materials is formed on the first endless belt; the adjusting mechanism is used for adjusting the length of the first bearing part, the first driving piece drives the first endless belt to rotate so that the materials move along the length direction of the first bearing part, and the first cutting mechanism is used for automatically cutting the materials borne by the first bearing part.

Preferably, the machine table is provided with a first wheel body in a rotating manner, the adjusting mechanism comprises a second wheel body and a second driving piece, the second wheel body is arranged in a rotating manner, the second driving piece is used for driving the second wheel body to be close to or far away from the first wheel body, the rotating axis of the first wheel body is parallel to the rotating axis of the second wheel body, the first ring belt is sleeved on the outer side of the first wheel body and the outer side of the second wheel body, and a first bearing portion located between the first wheel body and the second wheel body is formed on the first ring belt.

Preferably, the machine platform is provided with a supporting member, the supporting member is slidably provided with a bearing member, the second driving member drives the bearing member to slide along the supporting member, the sliding direction of the bearing member is parallel to the length direction of the first bearing portion, and the second wheel is rotatably disposed on the bearing member.

Preferably, the adjusting mechanism further includes a counterweight wheel movably disposed relative to the machine platform, the counterweight wheel is disposed below the first wheel body and below the second wheel body, a connecting line between the counterweight wheel, the first wheel body and the second wheel body is triangular, and the first ring belt is sleeved on the outer sides of the first wheel body, the second wheel body and the counterweight wheel.

Preferably, the machine table is provided with a sliding part in a sliding manner, the sliding direction of the sliding part and the length direction of the first bearing part are arranged in a crossed manner, the counterweight wheel is arranged on the sliding part in a rotating manner, and the rotating axis of the counterweight wheel is parallel to the rotating axis of the first wheel body.

Preferably, the machine table is provided with a second conveying mechanism for conveying materials, the first conveying mechanism and the second conveying mechanism are identical in structure, the first bearing portion of the first conveying mechanism and the first bearing portion of the second conveying mechanism are arranged in a collinear manner, the adjusting mechanism synchronously adjusts the lengths of the first bearing portions of the two conveying mechanisms, and the lengths of the two conveying mechanisms adjusted by the adjusting mechanism are respectively extended and shortened.

Preferably, the automatic material cutting equipment further comprises a calibration mechanism, the calibration mechanism comprises two calibration assemblies respectively arranged on the machine table, the two calibration assemblies are respectively located on two sides of the second conveying mechanism, the calibration assemblies comprise third driving pieces and clamping plates connected with output ends of the third driving pieces, the clamping plates are driven by the third driving pieces of the two calibration assemblies to be close to or far away from each other, the clamping plates of the two calibration assemblies are respectively used for abutting against two sides of the material borne by the first bearing portion of the second conveying mechanism, and the material calibrated by the calibration mechanism is conveyed to the first conveying mechanism by the second conveying mechanism.

Preferably, the first cutting mechanism includes two cutting assemblies, the two cutting assemblies respectively cut two ends of the material borne by the first bearing portion of the first conveying mechanism, the cutting assemblies include a support frame arranged on the machine table, a laser cutting head slidably arranged on the support frame, a fourth driving member for driving the laser cutting head to slide back and forth along the support frame, a fifth driving member arranged on the support frame, and a pressing plate connected with an output end of the fifth driving member, the fifth driving member drives the pressing plate to press the material borne by the first bearing portion of the first conveying mechanism, the laser cutting head is used for performing laser cutting on the material pressed and held by the pressing plate, and the sliding direction of the laser cutting head is crossed with the length direction of the first bearing portion of the first conveying mechanism.

Preferably, the machine table is provided with a second cutting mechanism and a third conveying mechanism, the first cutting mechanism and the second cutting mechanism are identical in structure, the third conveying mechanism is used for conveying the materials conveyed by the first conveying mechanism, the second cutting mechanism automatically cuts the materials conveyed by the third conveying mechanism, the first cutting mechanism respectively cuts the front end and the rear end of the materials, and the second cutting mechanism respectively cuts the left end and the right end of the materials.

Preferably, the third conveying mechanism comprises a plurality of conveying assemblies arranged in parallel, each conveying assembly comprises a second endless belt arranged in a rotating manner and a sixth driving piece for driving the second endless belt to rotate, a second bearing part for bearing and conveying materials is formed on the second endless belt, and the first bearing part and the second bearing part are arranged in parallel; the machine table is provided with a stopping mechanism positioned between two adjacent conveying assemblies, the stopping mechanism comprises a seventh driving piece and a stopping piece connected with the output end of the seventh driving piece, the stopping piece is used for stopping the materials conveyed by the second bearing part, and the second cutting mechanism cuts the materials stopped by the stopping piece.

The utility model has the advantages that: the first conveying mechanism realizes automatic conveying of materials, the first cutting mechanism realizes automatic cutting of the materials, manual operation of operators is not needed, and cutting efficiency and cutting yield of the materials are improved; according to the size of a material, the length of the first bearing part is adjusted by the adjusting mechanism, so that the first bearing part can bear and convey materials of various sizes, and the use performance of the automatic material cutting equipment is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

FIG. 3 is a partially enlarged view of portion A of FIG. 1;

fig. 4 is a schematic structural diagram of the first conveying mechanism and the second conveying mechanism of the present invention.

The reference numerals include:

1-machine table 2-first conveying mechanism 3-first cutting mechanism

4-adjusting mechanism 5-first endless belt 6-first bearing part

7-first wheel 8-second wheel 9-support

11-carrier 12-counterweight wheel 13-sliding part

14-slide hole 15-second conveying mechanism 16-calibration mechanism

17-clamping plate 18-supporting frame 19-laser cutting head

21-fifth driving piece 22-pressing plate 23-second cutting mechanism

24-third conveying mechanism 25-second endless belt 26-second carrying part

27-barrier 111-material.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

Please refer to fig. 1 to 4, the utility model discloses a material automatic cutting equipment, including board 1, board 1 includes metal crate and installs the metal flat plate on metal crate top, disposes the electric cabinet in the metal crate, installs first conveying mechanism 2 and the first cutting mechanism 3 that sets up on the metal flat plate of board 1, and first conveying mechanism 2 is used for bearing and automatic conveying external material 111, and first cutting mechanism 3 is used for carrying out the automatic cutout to the material 111 of first conveying mechanism 2 transport.

The first conveying mechanism 2 comprises a first endless belt 5 which is rotatably arranged relative to the machine table 1 and a first driving piece for driving the first endless belt 5 to rotate, the first endless belt 5 is provided with a first bearing part 6 for bearing the material 111, and preferably, the first bearing part 6 is arranged parallel to the horizontal plane.

The adjusting mechanism 4 is used for adjusting the length of the first bearing part 6, that is, the adjusting mechanism 4 is used for adjusting the first endless belt 5 to extend or shorten the length of the first bearing part 6, the first driving member drives the first endless belt 5 to rotate so as to move the material 111 along the length direction of the first bearing part 6, and the first cutting mechanism 3 is used for automatically cutting the material 111 carried by the first bearing part 6.

When the material 111 needs to be cut, the material 111 is placed on the first bearing part 6 of the first conveying mechanism 2, the first endless belt 5 of the first conveying mechanism 2 rotates, so that the material 111 is automatically conveyed, the first cutting mechanism 3 automatically cuts the material 111 conveyed by the first conveying mechanism 2, manual operation of an operator is not needed, the reject ratio generated by manual operation of the operator is reduced, and the cutting efficiency and the cutting yield of the material 111 are improved; according to the size of the material 111, the adjusting mechanism 4 adjusts the length of the first bearing part 6, so that the first bearing part 6 is extended or shortened, the first bearing part 6 can bear and convey the material 111 with various sizes, and the use performance of the automatic material cutting equipment is improved.

The machine table 1 is rotatably provided with a first wheel body 7, the adjusting mechanism 4 includes a second wheel body 8 which is rotatably provided, and a second driving member which is used for driving the second wheel body 8 to approach or be away from the first wheel body 7, in this embodiment, the first driving member is a motor, an output shaft of the motor is connected with the first wheel body 7 and is used for driving the first wheel body 7 to rotate, the first wheel body 7 which rotates drives the first endless belt 5 to rotate, a rotation axis of the first wheel body 7 and a rotation axis of the second wheel body 8 are spaced and arranged in parallel, the first endless belt 5 is sleeved on an outer side of the first wheel body 7 and an outer side of the second wheel body 8, the first endless belt 5 is formed with a first bearing portion 6 which is located between the first wheel body 7 and the second wheel body 8, that is to say, a part of the first endless belt 5 which is located between the first wheel body 7 and the second wheel body 8 is.

Install support piece 9, support piece 9 on the metal flat plate of board 1 and slide and be provided with and hold carrier 11, second driving piece drive holds carrier 11 and slides along support piece 9, holds the length direction that the sliding direction of carrier 11 is parallel to first bearing part 6, and second wheel 8 rotates and sets up on holding carrier 11. The second wheel 8 may be hinged on the bearing member 11 via a bearing, and preferably, the second driving member includes a motor and a screw nut assembly, the motor drives the bearing member 11 to move via the screw nut assembly, and the moving bearing member 11 can drive the second wheel 8 to approach or separate from the first wheel 7, so as to change the length of the first bearing portion 6 between the first wheel 7 and the second wheel 8.

According to actual needs, the first endless belt 5 may be made of an elastic material, when the second driving member drives the second wheel 8 to move via the bearing member 11, the moving second wheel 8 may drive the first endless belt 5 to elastically deform and extend or shorten, and the self-elasticity of the first endless belt 5 is utilized to change the self-length, thereby changing the length of the first bearing portion 6.

The adjusting mechanism 4 further includes a counterweight wheel 12 movably disposed relative to the machine table 1, preferably, the counterweight wheel 12 is vertically raised or lowered relative to the machine table 1, the counterweight wheel 12 is located below the first wheel body 7 and below the second wheel body 8, a connecting line among the counterweight wheel 12, the first wheel body 7 and the second wheel body 8 is triangular, and the first endless belt 5 is sleeved on an outer side of the first wheel body 7, an outer side of the second wheel body 8 and an outer side of the counterweight wheel 12.

When the adjusting mechanism 4 drives the second wheel body 8 to move, the moving second wheel body 8 moves away from or approaches the first wheel body 7, so that the length of the first bearing portion 6 between the first wheel body 7 and the second wheel body 8 is extended or shortened, when the length of the first bearing portion 6 changes, the counterweight wheel 12 is lifted or lowered, the first endless belt 5 is kept at a preset tension by the counterweight wheel 12, and the first endless belt 5 is ensured to be capable of stably conveying the materials 111 to move.

Preferably, the machine table 1 is provided with a sliding part 13 in a sliding manner, the sliding direction of the sliding part 13 is crossed with the length direction of the first bearing part 6, preferably, the sliding direction of the sliding part 13 is perpendicular to the length direction of the first bearing part 6, the first bearing part 6 is parallel to the horizontal plane, the sliding part 13 moves up and down along the vertical direction, the counterweight wheel 12 is rotatably arranged on the sliding part 13, and the rotation axis of the counterweight wheel 12 is parallel to the rotation axis of the first wheel body 7.

When the length of the first bearing part 6 changes, the weight wheel 12 drives the sliding member 13 to slide up and down relative to the machine table 1, preferably, a sliding hole 14 is formed in the machine table 1, the sliding hole 14 is formed in the vertical direction, the sliding member 13 is a rolling bearing, an inner ring of the rolling bearing is sleeved on the outer side of the weight wheel 12, and an outer ring of the rolling bearing is located in the sliding hole 14.

In the up-and-down movement process of the weight wheel 12, the sliding friction between the sliding part 13 and the machine table 1 is converted into the rolling friction between the rolling bearing and the machine table 1, so that the abrasion of the machine table 1 is reduced, the up-and-down movement fluency of the weight wheel 12 is ensured, and the situation that the length of the first bearing part 6 cannot be adjusted due to the fact that the sliding part 13 is clamped is avoided.

The second conveying mechanism 15 for conveying the material 111 is installed on the metal flat plate of the machine table 1, the first conveying mechanism 2 and the second conveying mechanism 15 are identical in structure, the first bearing portion 6 of the first conveying mechanism 2 and the first bearing portion 6 of the second conveying mechanism 15 are arranged in a collinear mode, long-distance conveying of the material 111 is achieved through cooperation of the first conveying mechanism 2 and the second conveying mechanism 15, in practical use, the material 111 is placed on the first bearing portion 6 of the second conveying mechanism 15, and the material 111 is conveyed to the first bearing portion 6 of the first conveying mechanism 2 from the first bearing portion 6 of the second conveying mechanism 15.

The adjusting mechanism 4 synchronously adjusts the lengths of the first bearing parts 6 of the two conveying mechanisms, and the lengths of the two conveying mechanisms adjusted by the adjusting mechanism 4 are respectively extended and shortened. That is, when the adjusting mechanism 4 adjusts the length of the first bearing part 6 of the first conveying mechanism 2, the length of the first bearing part 6 of the second conveying mechanism 15 changes simultaneously, and when the length of the first bearing part 6 of the first conveying mechanism 2 extends, the length of the first bearing part 6 of the second conveying mechanism 15 shortens, so that the width of the gap between the first bearing part 6 of the first conveying mechanism 2 and the first bearing part 6 of the second conveying mechanism 15 is kept unchanged, and the phenomenon that the material 111 borne by the first bearing part 6 falls into the gap due to the change of the gap between the first bearing parts 6 of the two conveying mechanisms is avoided.

Automatic material cutting equipment still includes aligning gear 16, aligning gear 16 is including setting up two calibration subassemblies on the metal flat plate of board 1 respectively, two calibration subassemblies are located the left and right sides of second conveying mechanism 15 respectively, the calibration subassembly includes the third driving piece, splint 17 of being connected with the output of third driving piece, the third driving piece is the cylinder, splint 17 is connected with the piston rod of cylinder, the third driving piece drive splint 17 of two calibration subassemblies is close to each other or keep away from each other, splint 17 of two calibration subassemblies are used for conflicting respectively on the left and right sides of the material 111 that bears at the first bearing part 6 of second conveying mechanism 15, material 111 after second conveying mechanism 15 will calibrate mechanism 16 carries to first conveying mechanism 2. The calibration process of the material 111 by the calibration mechanism 16 enables the material 111 to accurately move to a position required by the first cutting mechanism 3, thereby improving the cutting yield of the material 111.

The first cutting mechanism 3 comprises two cutting assemblies which are arranged in parallel at intervals, the two cutting assemblies respectively cut the front end and the rear end of the material 111 carried by the first carrying part 6 of the first conveying mechanism 2, the cutting assemblies comprise a supporting frame 18 arranged on the machine table 1, a laser cutting head 19 arranged on the supporting frame 18 in a sliding manner, a fourth driving part used for driving the laser cutting head 19 to slide back and forth along the supporting frame 18, a fifth driving part 21 arranged on the supporting frame 18, and a pressing plate 22 connected with the output end of the fifth driving part 21, the fifth driving part 21 is a telescopic cylinder, the fifth driving part 21 drives the pressing plate 22 to press and hold the material 111 carried by the first carrying part 6 of the first conveying mechanism 2, the laser cutting head 19 is used for carrying out laser cutting on the material 111 pressed and held by the pressing plate 22, and avoiding the material 111 from moving in position in the cutting process, the cutting yield of the material 111 is improved.

The sliding direction of the laser cutting head 19 is crossed with the length direction of the first bearing part 6 of the first conveying mechanism 2, preferably, the sliding direction of the laser cutting head 19 is perpendicular to the length direction of the first bearing part 6 of the first conveying mechanism 2, the laser cutting heads 19 of the two cutting assemblies synchronously move or synchronously stop, the cutting consistency of the material 111 is ensured, and the poor cutting caused by unbalanced stress at the two ends of the material 111 is avoided.

In this embodiment, the laser cutting head 19 of one cutting assembly cuts the material 111 protruding from the end of the first bearing portion 6 of the first conveying mechanism 2 away from the second conveying mechanism 15, and the laser cutting head 19 of the other cutting assembly cuts the gap between the first bearing portion 6 of the first conveying mechanism 2 and the first bearing portion 6 of the second conveying mechanism 15, so as to avoid the laser cutting head 19 from cutting the first endless belt 5.

A second cutting mechanism 23 and a third conveying mechanism 24 are installed on a metal flat plate of the machine table 1, the first cutting mechanism 3 and the second cutting mechanism 23 have the same structure, the third conveying mechanism 24 is used for conveying the materials 111 conveyed by the first conveying mechanism 2, the second cutting mechanism 23 automatically cuts the materials 111 conveyed by the third conveying mechanism 24, the first cutting mechanism 3 respectively cuts the front end and the rear end of the materials 111, the second cutting mechanism 23 respectively cuts the left end and the right end of the materials 111, the sliding direction of the laser cutting head 19 of the second cutting mechanism 23 is parallel to the length direction of the first bearing part 6, the sliding direction of the laser cutting head 19 of the first cutting mechanism 3 is perpendicular to the sliding direction of the laser cutting head 19 of the second cutting mechanism 23, and the sliding direction of the laser cutting head 19 of the first cutting mechanism 3 is perpendicular to the length direction of the first bearing part 6.

The third conveying mechanism 24 comprises a plurality of conveying assemblies arranged in parallel, each conveying assembly comprises a second endless belt 25 arranged in a rotating mode and a sixth driving piece used for driving the second endless belt 25 to rotate, a second bearing portion 26 used for bearing and conveying the materials 111 is formed on the second endless belt 25, and the first bearing portion 6 and the second bearing portion 26 are arranged in parallel; the laser cutting head 19 of the second cutting mechanism 23 is positioned between two adjacent conveying assemblies or outside the conveying assemblies, so that the laser cutting head 19 of the second cutting mechanism 23 is prevented from cutting the second ring belt 25.

A stopping mechanism located between two adjacent conveying assemblies is installed on the metal flat plate of the machine table 1, the stopping mechanism includes a seventh driving element and a stopping element 27 connected to an output end of the seventh driving element, the stopping element 27 is used for stopping the material 111 conveyed by the second bearing portion 26, and the second cutting mechanism 23 cuts the material 111 stopped by the stopping element 27. After the first conveying mechanism 2 conveys the quantity to the third conveying mechanism 24, the second bearing portion 26 of the third conveying mechanism 24 drives the material 111 to move continuously, the seventh driving member drives the blocking member 27 to protrude out of the upper surface of the second bearing portion 26 until the material 111 conveyed by the second bearing portion 26 collides against the blocking member 27, and then the laser cutting head 19 of the second cutting mechanism 23 starts to automatically cut the material 111 carried by the second bearing portion 26 with a polarity, so as to improve the cutting yield of the material 111.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. The automatic material cutting equipment comprises a machine table, a first conveying mechanism and a first cutting mechanism, wherein the first conveying mechanism and the first cutting mechanism are arranged on the machine table; the method is characterized in that: the first conveying mechanism comprises a first endless belt and a first driving piece, the first endless belt is rotatably arranged, the first driving piece is used for driving the first endless belt to rotate, and a first bearing part for bearing materials is formed on the first endless belt; the adjusting mechanism is used for adjusting the length of the first bearing part, the first driving piece drives the first endless belt to rotate so that the materials move along the length direction of the first bearing part, and the first cutting mechanism is used for automatically cutting the materials borne by the first bearing part.

2. The automatic material cutting device according to claim 1, characterized in that: the machine table is provided with a first wheel body in a rotating mode, the adjusting mechanism comprises a second wheel body and a second driving piece, the second wheel body is arranged in a rotating mode, the second wheel body is used for driving the second wheel body to be close to or far away from the first wheel body, the rotating axis of the first wheel body is parallel to the rotating axis of the second wheel body, the first ring belt is sleeved on the outer side of the first wheel body and the outer side of the second wheel body, and a first bearing portion located between the first wheel body and the second wheel body is formed in the first ring belt.

3. The automatic material cutting device according to claim 2, characterized in that: the machine table is provided with a supporting piece, the supporting piece is provided with a bearing piece in a sliding mode, the second driving piece drives the bearing piece to slide along the supporting piece, the sliding direction of the bearing piece is parallel to the length direction of the first bearing portion, and the second wheel body is arranged on the bearing piece in a rotating mode.

4. The automatic material cutting device according to claim 2, characterized in that: the adjusting mechanism further comprises a counterweight wheel movably arranged relative to the machine table, the counterweight wheel is positioned below the first wheel body and below the second wheel body, a connecting line among the counterweight wheel, the first wheel body and the second wheel body is triangular, and the first ring belt is sleeved on the outer sides of the first wheel body, the second wheel body and the counterweight wheel.

5. The automatic material cutting device according to claim 4, characterized in that: the board slides and is provided with the slider, and the slip direction of slider and the length direction cross arrangement of first bearing part, the counter weight wheel rotate and set up in the slider, and the axis of rotation of counter weight wheel sets up with the axis of rotation parallel of first wheel body.

6. The automatic material cutting device according to claim 1, characterized in that: the machine table is provided with a second conveying mechanism for conveying materials, the first conveying mechanism and the second conveying mechanism are identical in structure, a first bearing portion of the first conveying mechanism and a first bearing portion of the second conveying mechanism are arranged in a collinear mode, the adjusting mechanism synchronously adjusts the lengths of the first bearing portions of the two conveying mechanisms, and the lengths of the two conveying mechanisms adjusted by the adjusting mechanism are respectively extended and shortened.

7. The automatic material cutting device according to claim 6, characterized in that: the automatic material cutting equipment further comprises a calibration mechanism, the calibration mechanism comprises two calibration assemblies which are arranged on the machine table respectively, the two calibration assemblies are located on two sides of the second conveying mechanism respectively, each calibration assembly comprises a third driving piece and a clamping plate connected with the output end of the third driving piece, the clamping plates driven by the third driving pieces of the two calibration assemblies are close to or far away from each other, the clamping plates of the two calibration assemblies are used for abutting against two sides of a material borne by the first bearing portion of the second conveying mechanism respectively, and the material calibrated by the calibration mechanism is conveyed to the first conveying mechanism by the second conveying mechanism.

8. The automatic material cutting device according to claim 1, characterized in that: the first cutting mechanism comprises two cutting assemblies, the two cutting assemblies respectively cut two ends of a material borne by a first bearing part of the first conveying mechanism, the cutting assemblies comprise a support frame arranged on a machine table, a laser cutting head arranged on the support frame in a sliding mode, a fourth driving piece used for driving the laser cutting head to slide back and forth along the support frame, a fifth driving piece arranged on the support frame, and a pressing plate connected with the output end of the fifth driving piece, the fifth driving piece drives the pressing plate to press the material borne by the first bearing part of the first conveying mechanism, the laser cutting head is used for carrying out laser cutting on the material pressed and held by the pressing plate, and the sliding direction of the laser cutting head and the length direction of the first bearing part of the first conveying mechanism are arranged in a crossed mode.

9. The automatic material cutting device according to claim 1, characterized in that: the machine table is provided with a second cutting mechanism and a third conveying mechanism, the first cutting mechanism and the second cutting mechanism are identical in structure, the third conveying mechanism is used for conveying materials conveyed by the first conveying mechanism, the second cutting mechanism automatically cuts the materials conveyed by the third conveying mechanism, the first cutting mechanism respectively cuts the front end and the rear end of the materials, and the second cutting mechanism respectively cuts the left end and the right end of the materials.

10. The automatic material cutting device according to claim 9, characterized in that: the third conveying mechanism comprises a plurality of conveying assemblies which are arranged in parallel, each conveying assembly comprises a second endless belt which is arranged in a rotating mode and a sixth driving piece which is used for driving the second endless belt to rotate, a second bearing portion which is used for bearing and conveying materials is formed on the second endless belt, and the first bearing portion and the second bearing portion are arranged in parallel; the machine table is provided with a stopping mechanism positioned between two adjacent conveying assemblies, the stopping mechanism comprises a seventh driving piece and a stopping piece connected with the output end of the seventh driving piece, the stopping piece is used for stopping the materials conveyed by the second bearing part, and the second cutting mechanism cuts the materials stopped by the stopping piece.