CN216127354U - Multi-angle cutting equipment is used in production - Google Patents

Abstract

The utility model discloses a multi-angle cutting device for production, which comprises: the conveying device comprises a pair of concave conveying tables, a telescopic limiting conveying table and a cutting support, wherein the pair of concave conveying tables are respectively arranged on two sides of the telescopic limiting conveying table, the cutting support is arranged at the top ends of the pair of concave conveying tables, conveying structures are arranged on the inner sides of the pair of concave conveying tables, a side wall extrusion conveying structure is arranged on the telescopic limiting conveying table, a lifting negative pressure fixing structure is arranged on the inner side of the telescopic limiting conveying table, and a cutting structure is arranged on the inner side of the cutting support; the utility model relates to the technical field of plate cutting, wherein a side wall extrusion conveying structure is matched with a lifting negative pressure fixing structure to fix a plate, the plate is cut by a cutting structure, and meanwhile, the cut plate is extruded and conveyed at two sides by the side wall extrusion conveying structure, so that the width change of the plate after cutting is avoided, and the extrusion conveying cannot be carried out.

Description

Multi-angle cutting equipment is used in production

Technical Field

The utility model relates to the technical field of plate cutting, in particular to multi-angle cutting equipment for production.

Background

When the plate is used and worked on the existing market, the corresponding cutting work is required to be carried out according to the use requirement, under the general condition, the cutting work is carried out manually, but only the straight edge cutting work can be carried out when the plate is worked, the cutting work at different angles is inconvenient to carry out, the difficulty of the work is increased, the work speed is slowed down, the work efficiency is influenced, meanwhile, the requirement on personal quality of workers is increased, the cost input during the work is improved, meanwhile, the existing side wall extrusion transportation cutting equipment cannot extrude and cut the two sides of the plate, the bottom end rotates transportation equipment, the bottom end of the plate is easily damaged in the cutting process, in view of the above, the scheme is generated by deep research aiming at the problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides multi-angle cutting equipment for production, which solves part of the problems of the prior art.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a multi-angle cutting apparatus for production, comprising: the conveying device comprises a pair of concave conveying tables, a telescopic limiting conveying table and a cutting support, wherein the pair of concave conveying tables are respectively arranged on two sides of the telescopic limiting conveying table, the cutting support is arranged at the top ends of the pair of concave conveying tables, conveying structures are arranged on the inner sides of the pair of concave conveying tables, a side wall extrusion conveying structure is arranged on the telescopic limiting conveying table, a lifting negative pressure fixing structure is arranged on the inner side of the telescopic limiting conveying table, and a cutting structure is arranged on the inner side of the cutting support;

the side wall extrusion transportation structure comprises: the device comprises a pair of concave horizontal extrusion limiting blocks, a plurality of horizontal extrusion sliding blocks, a plurality of horizontal extrusion slideways, a plurality of horizontal extrusion concave wheels, a plurality of horizontal extrusion chain wheels, a pair of horizontal extrusion chains, a pair of horizontal extrusion driving machines, a plurality of distance adjusting threaded pipes, a plurality of distance adjusting threaded rods, a plurality of distance adjusting chain wheels, a pair of distance adjusting chains and a pair of distance adjusting driving machines;

the top end of the telescopic limit transport platform is provided with a pair of telescopic concave grooves, a plurality of horizontal extrusion slide ways are respectively arranged at the inner sides of the pair of telescopic concave grooves, a plurality of horizontal extrusion slide blocks are respectively arranged at the outer sides of the pair of concave horizontal extrusion limit blocks, a plurality of horizontal extrusion slide blocks are respectively movably inserted at the outer sides of the plurality of horizontal extrusion slide ways, a plurality of distance adjusting threaded pipes are respectively inserted in the pair of telescopic concave grooves of the telescopic limit transport platform through bearings, a plurality of distance adjusting threaded rods are respectively movably inserted at the inner sides of the plurality of distance adjusting threaded pipes, the plurality of distance adjusting threaded rods are respectively connected with the pair of concave horizontal extrusion limit blocks through bearings, a pair of distance adjusting driving machines are respectively arranged at the two sides of the pair of telescopic limit transport platforms, the distance adjusting chain wheel is respectively installed in a plurality of the drive end of distance adjusting screwed pipe and a plurality of distance adjusting driving machine, and is a pair of the distance adjusting chain is respectively sleeved in a plurality of the distance adjusting chain wheel, a plurality of the horizontal extrusion concave wheel is respectively installed in a pair through the bearing in the inboard of concave type horizontal extrusion stopper, and is a pair of the horizontal extrusion driving machine is respectively installed in a pair of the outside of concave type horizontal extrusion stopper, a plurality of the horizontal extrusion chain wheel is respectively installed in a plurality of the horizontal extrusion concave wheel and a pair of on the drive end of the horizontal extrusion driving machine, it is a pair of the horizontal extrusion chain is respectively sleeved in a plurality of the horizontal extrusion chain wheel.

Preferably, the lifting negative pressure fixing structure comprises: the device comprises two pairs of lifting hydraulic push rods, a lifting support, a plurality of negative pressure female mould boxes, a plurality of negative pressure threaded pipes, a plurality of negative pressure threaded rods, a plurality of negative pressure drivers, a plurality of negative pressure driving helical gears, a plurality of negative pressure transmission helical gears and a plurality of negative pressure plates;

two pairs of the lifting hydraulic push rods are arranged at the bottom end of the telescopic limit transport table in parallel, the lifting support is arranged at the pushing ends of the two pairs of the lifting hydraulic push rods, a plurality of the negative pressure concave boxes are uniformly arranged on the lifting support, a plurality of the negative pressure screwed pipes are respectively inserted at the bottom ends of a plurality of the negative pressure concave boxes through bearings, a plurality of the negative pressure driving machines are respectively arranged at a plurality of the negative pressure concave boxes, a plurality of the negative pressure driving helical gears are respectively arranged at the driving ends of a plurality of the negative pressure driving machines, a plurality of the negative pressure transmission helical gears are respectively arranged at the outer sides of a plurality of the negative pressure screwed pipes, a plurality of the negative pressure transmission helical gears are respectively engaged with a plurality of the negative pressure driving helical gears, and a plurality of the negative pressure threaded rods are respectively movably inserted at the inner sides of a plurality of the negative pressure screwed pipes, the negative pressure plates are respectively arranged on the negative pressure threaded rods through bearings.

Preferably, the transportation structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a plurality of conveying sleeves, a pair of conveying chains and a pair of conveying driving machines;

the conveying shafts are inserted into the inner sides of the pair of conveying concave tables through bearings respectively, the pair of conveying driving machines are installed on the outer sides of the pair of conveying concave tables respectively, the plurality of conveying chain wheels are installed on the conveying shafts respectively and the driving ends of the pair of conveying driving machines, the conveying chains are sleeved on the conveying chain wheels, and the conveying sleeves are installed on the conveying shafts respectively.

Preferably, the cutting structure comprises: the cutting device comprises a longitudinal and transverse lead screw module, a cutting plate and a cutter;

the longitudinal and transverse type lead screw module is installed at the bottom end of the cutting support, the cutting plate is installed at the moving end of the longitudinal and transverse type lead screw module, and the cutter is installed on the cutting plate.

Preferably, the negative pressure concave boxes are respectively provided with a rubber pad.

Preferably, the inner sides of a plurality of negative pressure female mould boxes are respectively provided with a pressure sensor.

The utility model provides multi-angle cutting equipment for production. The method has the following beneficial effects: this multi-angle cutting equipment is used in production, through the cooperation of lateral wall extrusion transportation structure and lift negative pressure fixed knot structure, fix panel, cut panel through cutting structure, carry out both sides extrusion transportation through the panel after lateral wall extrusion transportation structure will cut simultaneously to avoided the cutting back, the width transform of panel, the way is not extrudeed the transportation.

Drawings

FIG. 1 is a schematic top cross-sectional view of a multi-angle cutting apparatus for production according to the present invention.

FIG. 2 is a schematic sectional side view of a multi-angle cutting apparatus for production according to the present invention.

Fig. 3 is an enlarged view of the structure of the portion "a" in fig. 2.

In the figure: 1. transporting the concave table; 2. a telescopic limit transport table; 3. cutting the stent; 4. a concave horizontal extrusion limiting block; 5. horizontally extruding the slide block; 6. horizontally extruding the slideway; 7. horizontally extruding the concave wheel; 8. Horizontally extruding the chain wheel; 9. horizontally extruding the chain; 10. a horizontal extrusion driver; 11. a distance adjusting threaded pipe; 12. a distance adjusting threaded rod; 13. a distance adjusting sprocket; 14. a distance adjusting chain; 15. distance adjusting driver.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

As shown in fig. 1-3, a pair of the conveying concave tables 1 are respectively installed at two sides of the telescopic limiting conveying table 2, the cutting support 3 is installed at the top end of the pair of the conveying concave tables 1, a conveying structure is installed at the inner side of the pair of the conveying concave tables 1, a side wall extrusion conveying structure is installed on the telescopic limiting conveying table 2, a lifting negative pressure fixing structure is installed at the inner side of the telescopic limiting conveying table 2, and a cutting structure is installed at the inner side of the cutting support 3; the side wall extrusion transportation structure comprises: the device comprises a pair of concave horizontal extrusion limiting blocks 4, a plurality of horizontal extrusion sliding blocks 5, a plurality of horizontal extrusion slideways 6, a plurality of horizontal extrusion concave wheels 7, a plurality of horizontal extrusion chain wheels 8, a pair of horizontal extrusion chains 9, a pair of horizontal extrusion driving machines 10, a plurality of distance adjusting threaded pipes 11, a plurality of distance adjusting threaded rods 12, a plurality of distance adjusting chain wheels 13, a pair of distance adjusting chains 14 and a pair of distance adjusting driving machines 15; a pair of telescopic concave grooves are formed at the top end of the telescopic limit transport platform 2, a plurality of horizontal extrusion slide ways 6 are respectively installed at the inner sides of the pair of telescopic concave grooves, a plurality of horizontal extrusion slide blocks 5 are respectively installed at the outer sides of the pair of concave horizontal extrusion limit blocks 4, a plurality of horizontal extrusion slide blocks 5 are respectively movably inserted at the outer sides of the plurality of horizontal extrusion slide ways 6, a plurality of distance adjusting threaded pipes 11 are respectively inserted at the pair of telescopic concave grooves of the telescopic limit transport platform 2 through bearings, a plurality of distance adjusting threaded rods 12 are respectively movably inserted at the inner sides of the plurality of distance adjusting threaded pipes 11, a plurality of distance adjusting threaded rods 12 are respectively connected to the pair of concave horizontal extrusion limit blocks 4 through bearings, a pair of distance adjusting driving machines 15 are respectively installed at the two sides of the pair of telescopic limit transport platform 2, the plurality of distance adjusting chain wheels 13 are respectively arranged at the driving ends of the plurality of distance adjusting threaded pipes 11 and the plurality of distance adjusting driving machines 15, a pair of distance adjusting chains 14 are respectively sleeved on the plurality of distance adjusting chain wheels 13, the plurality of horizontal extrusion concave wheels 7 are respectively arranged at the inner sides of the pair of concave horizontal extrusion limiting blocks 4 through bearings, the pair of horizontal extrusion driving machines 10 are respectively arranged at the outer sides of the pair of concave horizontal extrusion limiting blocks, the plurality of horizontal extrusion chain wheels 8 are respectively arranged at the driving ends of the plurality of horizontal extrusion concave wheels 7 and the pair of horizontal extrusion driving machines 10, and the pair of horizontal extrusion chains 9 are respectively sleeved on the plurality of horizontal extrusion chain wheels 8; the lift negative pressure fixed knot constructs and includes: the device comprises two pairs of lifting hydraulic push rods, a lifting support, a plurality of negative pressure female mould boxes, a plurality of negative pressure threaded pipes, a plurality of negative pressure threaded rods, a plurality of negative pressure drivers, a plurality of negative pressure driving helical gears, a plurality of negative pressure transmission helical gears and a plurality of negative pressure plates; two pairs of the lifting hydraulic push rods are arranged at the bottom end of the telescopic limit transport table 2 in parallel, the lifting support is arranged at the pushing end of the two pairs of the lifting hydraulic push rods, a plurality of the negative pressure concave boxes are uniformly arranged on the lifting support, a plurality of the negative pressure screwed pipes are respectively inserted at the bottom ends of a plurality of the negative pressure concave boxes through bearings, a plurality of the negative pressure driving machines are respectively arranged at a plurality of the negative pressure concave boxes, a plurality of the negative pressure driving helical gears are respectively arranged at the driving ends of a plurality of the negative pressure driving machines, a plurality of the negative pressure transmission helical gears are respectively arranged at the outer sides of a plurality of the negative pressure screwed pipes, a plurality of the negative pressure transmission helical gears are respectively engaged with a plurality of the negative pressure driving helical gears, and a plurality of the negative pressure threaded rods are respectively movably inserted at the inner sides of a plurality of the negative pressure screwed pipes, the negative pressure plates are respectively arranged on the negative pressure threaded rods through bearings; the transportation structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a plurality of conveying sleeves, a pair of conveying chains and a pair of conveying driving machines; the plurality of conveying shafts are respectively inserted into the inner sides of the pair of concave conveying tables 1 through bearings, the pair of conveying driving machines are respectively installed on the outer sides of the pair of concave conveying tables 1, the plurality of conveying chain wheels are respectively installed on the plurality of conveying shafts and the driving ends of the pair of conveying driving machines, the pair of conveying chains are sleeved on the plurality of conveying chain wheels, and the plurality of conveying sleeves are respectively installed on the plurality of conveying shafts; the cutting structure includes: the cutting device comprises a longitudinal and transverse lead screw module, a cutting plate and a cutter; the longitudinal and transverse lead screw module is arranged at the bottom end of the cutting bracket 3, the cutting plate is arranged at the moving end of the longitudinal and transverse lead screw module, and the cutter is arranged on the cutting plate; the negative pressure concave boxes are respectively provided with a rubber pad; and pressure sensors are respectively arranged on the inner sides of the negative pressure female mould boxes.

From the above, it follows: the conveying chain wheels on the driving ends of the pair of conveying driving machines are driven to rotate respectively by the operation of the pair of conveying driving machines, the conveying chains on the conveying chain wheels are driven to rotate respectively by the pair of conveying chain wheels, a plurality of conveying chain wheels on the conveying chain wheels are driven to rotate respectively, the conveying shafts on the conveying chain wheels are driven to rotate respectively by the plurality of conveying shafts, the plates on the conveying chain wheels are driven to rotate respectively by the plurality of conveying sleeve pipes, the distance adjusting chain wheels 13 on the distance adjusting driving machines are driven to rotate respectively by the pair of distance adjusting driving machines 15, the distance adjusting chain wheels 14 on the distance adjusting chain wheels are driven to rotate respectively by the pair of distance adjusting chain wheels 13, a plurality of distance adjusting threaded pipes 11 on the distance adjusting chain wheels are driven to rotate respectively by the plurality of distance adjusting chain wheels 13, the distance adjusting threaded rods 12 in the distance adjusting threaded pipes 11 are respectively driven by the distance adjusting threaded pipes, so that the distance adjusting threaded rods 12 drive a pair of concave horizontal extrusion limiting blocks 4 on the distance adjusting threaded rods to respectively drive a plurality of horizontal extrusion sliding blocks 5 on the distance adjusting threaded rods to respectively extend and retract in a plurality of horizontal extrusion sliding ways 6, thereby changing the distance between the concave horizontal extrusion limiting blocks 4, firstly, two pairs of lifting hydraulic push rods extend and retract to respectively drive lifting supports on the pushing ends of the two pairs of lifting hydraulic push rods, a plurality of negative pressure concave boxes on the lifting supports are driven by a plurality of negative pressure drivers on the negative pressure concave boxes to respectively drive negative pressure driving helical gears on the driving ends of a plurality of negative pressure drivers to rotate, and a plurality of negative pressure driving helical gears respectively drive negative pressure transmission helical gears engaged with the negative pressure driving helical gears to rotate, the negative pressure threaded pipes on the bevel gears are driven to rotate through the negative pressure transmission bevel gears respectively, the negative pressure threaded rods in the bevel gears are driven to rotate through the negative pressure threaded pipes respectively, so that the negative pressure threaded rods move along the inner sides of the negative pressure threaded pipes respectively, the negative pressure plates on the negative pressure threaded rods are driven to lift along the negative pressure concave boxes through the negative pressure threaded rods respectively, negative pressure is generated in the negative pressure concave boxes, the plate is adsorbed and fixed under negative pressure, meanwhile, a pair of concave horizontal extrusion limiting blocks 4 are moved through the side wall extrusion transportation structure, the plate is loosened, the horizontal extrusion concave wheels 7 on the two sides of the plate are separated, the two sides of the plate are cut through the matching of the side wall extrusion transportation structure, and the width change of the plate after cutting is avoided through the side wall extrusion transportation structure, normal extrusion transportation can not, through a pair of horizontal extrusion driving machine 10 operation, it rotates to drive horizontal extrusion sprocket 8 on the horizontal extrusion driving machine 10 drive end respectively, it rotates to drive horizontal extrusion chain 9 on it respectively through a pair of horizontal extrusion sprocket 8, drive a plurality of horizontal extrusion sprocket 8 on it respectively through a pair of horizontal extrusion chain 9 and rotate, it rotates to drive horizontal extrusion concave type wheel 7 on it respectively through a plurality of horizontal extrusion sprocket 8, through the rotation of a plurality of horizontal extrusion concave type wheel 7, carry out both sides extrusion transportation on the horizontal direction with panel.

Preferably, the lifting negative pressure fixing structure further comprises: the device comprises two pairs of lifting hydraulic push rods, a lifting support, a plurality of negative pressure female mould boxes, a plurality of negative pressure threaded pipes, a plurality of negative pressure threaded rods, a plurality of negative pressure drivers, a plurality of negative pressure driving helical gears, a plurality of negative pressure transmission helical gears and a plurality of negative pressure plates;

two pairs of the lifting hydraulic push rods are arranged at the bottom end of the telescopic limit transport table 2 in parallel, the lifting support is arranged at the pushing end of the two pairs of the lifting hydraulic push rods, a plurality of the negative pressure concave boxes are uniformly arranged on the lifting support, a plurality of the negative pressure screwed pipes are respectively inserted at the bottom ends of a plurality of the negative pressure concave boxes through bearings, a plurality of the negative pressure driving machines are respectively arranged at a plurality of the negative pressure concave boxes, a plurality of the negative pressure driving helical gears are respectively arranged at the driving ends of a plurality of the negative pressure driving machines, a plurality of the negative pressure transmission helical gears are respectively arranged at the outer sides of a plurality of the negative pressure screwed pipes, a plurality of the negative pressure transmission helical gears are respectively engaged with a plurality of the negative pressure driving helical gears, and a plurality of the negative pressure threaded rods are respectively movably inserted at the inner sides of a plurality of the negative pressure screwed pipes, the negative pressure plates are respectively arranged on the negative pressure threaded rods through bearings.

Preferably, the transportation structure further comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a plurality of conveying sleeves, a pair of conveying chains and a pair of conveying driving machines;

the conveying shafts are inserted into the inner sides of the pair of conveying concave tables 1 through bearings respectively, the pair of conveying driving machines are installed on the outer sides of the pair of conveying concave tables 1 respectively, the plurality of conveying chain wheels are installed on the conveying shafts respectively and the driving ends of the pair of conveying driving machines, and the conveying chain wheels and the conveying sleeves are installed on the conveying shafts respectively.

Preferably, the cutting structure further comprises: the cutting device comprises a longitudinal and transverse lead screw module, a cutting plate and a cutter;

the longitudinal and transverse lead screw module is arranged at the bottom end of the cutting support 3, the cutting plate is arranged at the moving end of the longitudinal and transverse lead screw module, and the cutter is arranged on the cutting plate.

Preferably, the plurality of negative pressure concave boxes are respectively provided with a rubber mat.

Preferably, the inner sides of a plurality of negative pressure drag boxes are respectively provided with a pressure sensor.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A multi-angle cutting apparatus for production, comprising: the cutting device comprises a pair of concave conveying tables, a telescopic limiting conveying table and a cutting support, and is characterized in that the concave conveying tables are respectively arranged on two sides of the telescopic limiting conveying table, the cutting support is arranged at the top end of the concave conveying tables, conveying structures are arranged on the inner sides of the concave conveying tables, a side wall extrusion conveying structure is arranged on the telescopic limiting conveying table, a lifting negative pressure fixing structure is arranged on the inner side of the telescopic limiting conveying table, and a cutting structure is arranged on the inner side of the cutting support;

the side wall extrusion transportation structure comprises: the device comprises a pair of concave horizontal extrusion limiting blocks, a plurality of horizontal extrusion sliding blocks, a plurality of horizontal extrusion slideways, a plurality of horizontal extrusion concave wheels, a plurality of horizontal extrusion chain wheels, a pair of horizontal extrusion chains, a pair of horizontal extrusion driving machines, a plurality of distance adjusting threaded pipes, a plurality of distance adjusting threaded rods, a plurality of distance adjusting chain wheels, a pair of distance adjusting chains and a pair of distance adjusting driving machines;

the top end of the telescopic limit transport platform is provided with a pair of telescopic concave grooves, a plurality of horizontal extrusion slide ways are respectively arranged at the inner sides of the pair of telescopic concave grooves, a plurality of horizontal extrusion slide blocks are respectively arranged at the outer sides of the pair of concave horizontal extrusion limit blocks, a plurality of horizontal extrusion slide blocks are respectively movably inserted at the outer sides of the plurality of horizontal extrusion slide ways, a plurality of distance adjusting threaded pipes are respectively inserted in the pair of telescopic concave grooves of the telescopic limit transport platform through bearings, a plurality of distance adjusting threaded rods are respectively movably inserted at the inner sides of the plurality of distance adjusting threaded pipes, the plurality of distance adjusting threaded rods are respectively connected with the pair of concave horizontal extrusion limit blocks through bearings, a pair of distance adjusting driving machines are respectively arranged at the two sides of the pair of telescopic limit transport platforms, the distance adjusting chain wheel is respectively installed in a plurality of the drive end of distance adjusting screwed pipe and a plurality of distance adjusting driving machine, and is a pair of the distance adjusting chain is respectively sleeved in a plurality of the distance adjusting chain wheel, a plurality of the horizontal extrusion concave wheel is respectively installed in a pair through the bearing in the inboard of concave type horizontal extrusion stopper, and is a pair of the horizontal extrusion driving machine is respectively installed in a pair of the outside of concave type horizontal extrusion stopper, a plurality of the horizontal extrusion chain wheel is respectively installed in a plurality of the horizontal extrusion concave wheel and a pair of on the drive end of the horizontal extrusion driving machine, it is a pair of the horizontal extrusion chain is respectively sleeved in a plurality of the horizontal extrusion chain wheel.

2. The multi-angle cutting machine for production as claimed in claim 1, wherein the lifting negative pressure fixing structure comprises: the device comprises two pairs of lifting hydraulic push rods, a lifting support, a plurality of negative pressure female mould boxes, a plurality of negative pressure threaded pipes, a plurality of negative pressure threaded rods, a plurality of negative pressure drivers, a plurality of negative pressure driving helical gears, a plurality of negative pressure transmission helical gears and a plurality of negative pressure plates;

two pairs of the lifting hydraulic push rods are arranged at the bottom end of the telescopic limit transport table in parallel, the lifting support is arranged at the pushing ends of the two pairs of the lifting hydraulic push rods, a plurality of the negative pressure concave boxes are uniformly arranged on the lifting support, a plurality of the negative pressure screwed pipes are respectively inserted at the bottom ends of a plurality of the negative pressure concave boxes through bearings, a plurality of the negative pressure driving machines are respectively arranged at a plurality of the negative pressure concave boxes, a plurality of the negative pressure driving helical gears are respectively arranged at the driving ends of a plurality of the negative pressure driving machines, a plurality of the negative pressure transmission helical gears are respectively arranged at the outer sides of a plurality of the negative pressure screwed pipes, a plurality of the negative pressure transmission helical gears are respectively engaged with a plurality of the negative pressure driving helical gears, and a plurality of the negative pressure threaded rods are respectively movably inserted at the inner sides of a plurality of the negative pressure screwed pipes, the negative pressure plates are respectively arranged on the negative pressure threaded rods through bearings.

3. The multi-angle cutting apparatus for production as claimed in claim 2, wherein the transportation structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a plurality of conveying sleeves, a pair of conveying chains and a pair of conveying driving machines;

the conveying shafts are inserted into the inner sides of the pair of conveying concave tables through bearings respectively, the pair of conveying driving machines are installed on the outer sides of the pair of conveying concave tables respectively, the plurality of conveying chain wheels are installed on the conveying shafts respectively and the driving ends of the pair of conveying driving machines, the conveying chains are sleeved on the conveying chain wheels, and the conveying sleeves are installed on the conveying shafts respectively.

4. The multi-angle cutting apparatus for production as claimed in claim 1, wherein the cutting structure comprises: the cutting device comprises a longitudinal and transverse lead screw module, a cutting plate and a cutter;

the longitudinal and transverse type lead screw module is installed at the bottom end of the cutting support, the cutting plate is installed at the moving end of the longitudinal and transverse type lead screw module, and the cutter is installed on the cutting plate.

5. The multi-angle cutting machine for production as claimed in claim 3, wherein a plurality of the concave negative pressure boxes are respectively provided with rubber pads.

6. The multi-angle cutting machine for production as claimed in claim 5, wherein the inside of a plurality of negative pressure female molds are respectively provided with a pressure sensor.

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