CN113976727A - Automatic production line integrating stamping and forming of metal plates and production process thereof - Google Patents

Abstract

The invention belongs to the technical field of metal plates, and particularly relates to an automatic production line integrating stamping and forming of metal plates and a production process thereof, wherein the automatic production line integrating stamping and forming of metal plates comprises: the cutting device is arranged on the bracket to cut the plate on the platform below the bracket; the cutting device is arranged in the cutter groove of the platform below the cutting device, and after the cutting device cuts the plate to form a cutting mark, the cutting device drives the cutting device to be pushed upwards so that the plate is broken along the cutting mark, so that the plate is bent again in the opposite direction after being cut, the plate is ensured to be completely broken, and the plate is cut to meet the cutting requirement.

Description

Automatic production line integrating stamping and forming of metal plates and production process thereof

Technical Field

The invention belongs to the technical field of sheet metal stamping, and particularly relates to an automatic production line integrating sheet metal stamping and forming and a production process thereof.

Background

Due to the thickness and the toughness of the plate, the plate is difficult to completely cut off in the cutting process, and the cut plate can be in a bent state and cannot be completely cut off, so that the production requirement is difficult to meet.

Therefore, a new automatic production line integrating sheet metal punch forming and a production process thereof need to be designed based on the technical problems.

Disclosure of Invention

The invention aims to provide an automatic production line integrating sheet metal punch forming and a production process thereof.

In order to solve the technical problem, the invention provides an automatic production line integrating sheet metal punch forming, which comprises:

the cutting device is arranged on the bracket to cut the plate on the platform below the bracket;

a cutting device arranged in the knife groove of the platform below the cutting device, wherein

After the cutting device cuts the plate to form a cut mark, the cutting device drives the cutting device to be jacked up so that the plate is broken along the cut mark.

Further, the cutting device includes: a drive mechanism, a tool holder, and a cutting blade;

the driving mechanism is connected with the tool rest;

the cutting blade is arranged on the tool holder;

the driving mechanism is suitable for driving the cutting blade to be obliquely close to the plate through the tool rest so as to cut the plate to form a cutting mark.

Further, the cutting device further includes: at least one pair of limiting slide blocks and limiting slide grooves;

the limiting sliding block is matched with the limiting sliding groove;

the limiting sliding block is fixed on the bracket;

the limiting sliding groove is obliquely arranged on the tool rest;

when the tool rest moves, the limiting sliding groove is driven to move relative to the limiting sliding block so as to limit the oblique movement position of the tool rest.

Further, the cutting device further includes: an alarm mechanism;

the alarm mechanism is arranged on the bracket;

after the limiting slide block slides out of the limiting slide groove, the alarming mechanism gives an alarm after the tool rest touches the alarming mechanism when moving.

Further, the cutting device further includes: eccentric wheels which are symmetrically arranged;

the eccentric wheel is arranged between the tool rest and the cutting blade;

the eccentric is adapted to maintain the cutting edge of the cutting blade level with the surface of the platform.

Further, the cutting device includes: the inflating mechanism and the plurality of cutting mechanisms;

the cutting mechanisms are equidistantly arranged in corresponding grooves on the bottom surface of the cutter groove, and the grooves are communicated through an air channel;

the inflation mechanism is suitable for inflating into the groove, so that the cutting mechanism is pushed upwards to enable the plate to be broken along the cutting mark.

Further, the inflation mechanism includes: the air bag, the limiting block, the flexible pipeline and the rigid pipeline;

the air bag is communicated with the limiting block;

the limiting block is communicated with the flexible pipeline;

the limiting block is provided with a limiting groove;

one end of the rigid pipeline is communicated with the flexible pipeline, and the other end of the rigid pipeline is communicated with the groove on the bottom surface of the cutter groove;

the gas enters the limiting block through the air bag, then leaves the limiting block through the flexible pipeline, and enters the groove through the rigid pipeline;

the direction of the gas entering the limiting block is vertical to the direction of the gas leaving the limiting block;

when the cutting blade obliquely moves to be close to the plate, the cutting blade is embedded into the limiting groove to drive the flexible pipeline to bend, gas cannot enter the groove to expand the air bag, when the cutting blade cuts the plate, the cutting blade moves out of the limiting groove, the flexible pipeline bends and recovers, at the moment, the gas in the expanded air bag enters the groove through the flexible pipeline and the rigid pipeline, and after the blowing cutting mechanism moves upwards, the blowing cutting mechanism props against the cut mark from the cutting direction to enable the plate to be broken along the cut mark; and

imbed the spacing inslot once more when cutting blade slant removes and keeps away from panel, drive the flexible pipeline to the cutting blade cutting time direction of buckling reverse buckling, gaseous messenger's gasbag inflation in the recess of unable entering this moment, flexible pipeline buckles when cutting blade continues the slant and recovers when moving out the spacing groove, the gas in the gasbag of inflation passes through flexible pipeline and rigid pipeline entering recess this moment, blows and withstands the cut mark from the opposite direction of cutting direction behind the rebound once more of shutdown mechanism and makes panel fracture along the cut mark.

Further, the cutting mechanism includes: the device comprises a top block, a cutting blade and an air deflector;

the cutting blade is arranged on the upper surface of the top block;

the air deflectors are obliquely and symmetrically arranged on the side wall of the top block;

when the top block is arranged in the groove, the air guide plate of the top block is in contact with the inner wall of the air duct of the groove, air is blown to the bottom surface of the top block through the air guide plate to drive the top block to move upwards, and the cutting blade is enabled to support the cut mark from the opposite direction of the cutting direction to enable the plate to be broken along the cut mark.

Furthermore, at least one sealing block is arranged on the inner wall of the flexible pipeline;

when the flexible pipeline is bent, the sealing blocks contact with the inner wall of the flexible pipeline or contact between the sealing blocks, so that gas is prevented from entering the groove.

On the other hand, the invention also provides a sheet metal stamping and forming integrated automatic production line production process adopting the sheet metal stamping and forming integrated automatic production line, which comprises the following steps:

the cutting device breaks the plate after the cutting device cuts the plate.

The cutting device is arranged on the support to cut the plate on the platform below the support; the cutting device is arranged in the cutter groove of the platform below the cutting device, and after the cutting device cuts the plate to form a cutting mark, the cutting device drives the cutting device to be pushed upwards so that the plate is broken along the cutting mark, so that the plate is bent again in the opposite direction after being cut, the plate is ensured to be completely broken, and the plate is cut to meet the cutting requirement.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic front structural view of an automatic production line integrated with sheet metal stamping and forming according to the present invention;

FIG. 2 is a schematic view of the reverse structure of the sheet metal stamping and forming integrated automatic production line according to the present invention;

FIG. 3 is a schematic view of a cutting apparatus according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of a cutting apparatus according to the present invention;

FIG. 6 is a schematic view of a cutting mechanism according to the present invention;

FIG. 7 is a schematic structural view of a flexible pipe according to the present invention;

FIG. 8 is a schematic view of a first bend of a flexible pipe according to the present invention;

figure 9 is a second schematic representation of a bend of a flexible pipe according to the present invention.

In the figure:

1 is a bracket;

2 is a platform, 21 is a cutter groove, 22 is a groove and 23 is an air channel;

3 is a cutting device, 31 is a driving mechanism, 32 is a tool rest, 33 is a cutting blade, 34 is a limiting slide block, 35 is a limiting chute, 36 is an alarm mechanism, and 37 is an eccentric wheel;

4 is a cutting device, 41 is an inflating mechanism, 411 is an air bag, 412 is a limiting block, 4121 is a limiting groove, 413 is a flexible pipeline, 4131 is a sealing block, 414 is a rigid pipeline, 42 is a cutting mechanism, 421 is a top block, 422 is a cutting blade, 423 is an air deflector.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. 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.

Example 1

This embodiment 1 provides a panel beating stamping forming integrated automatic production line, includes: the cutting device 3 is arranged on the support 1 to cut the plate on the platform 2 below the support 1; and the cutting device 4 is arranged in the cutter groove 21 of the platform 2 below the cutting device 3, and after the cutting device 3 cuts the plate to form a cutting mark, the cutting device 3 drives the cutting device 4 to jack up, so that the plate is broken along the cutting mark, the plate is bent again from the opposite direction after being cut, the plate is ensured to be completely broken, and the plate is cut to meet the cutting requirement.

Cutting device

The cutting device 3 comprises: a drive mechanism 31, a blade holder 32, and a cutting blade 33; the driving mechanism 31 is connected with the tool rest 32; the cutting blade 33 is provided on the blade holder 32; the driving mechanism 31 is suitable for driving the cutting blade 33 to obliquely approach the plate through the tool rest 32 so as to cut the plate to form a cut mark, and the length of the blade is greater than the width of the platform 2 because the blade obliquely moves; the driving mechanism 31 can drive the tool rest 32 to move obliquely to cut the plate, so that the oblique cutting can cut the plate to a greater extent compared with a vertical cutting mode, and the cutting device 4 can also cut the plate more easily when the plate is not cut.

In this embodiment, the cutting device 3 further includes: at least one pair of limiting slide blocks 34 and limiting slide grooves 35; the limiting sliding block 34 is matched with the limiting sliding groove 35; the limiting slide block 34 is fixed on the bracket 1; a back plate can be arranged, so that the tool rest 32 is positioned between the back plate and the bracket 1, the tool rest 32 is limited in a space through the back plate and the bracket 1, the tool rest 32 is prevented from moving in a direction perpendicular to the tool rest 32, and the back plate can be fixed with the bracket 1; the limiting sliding groove 35 is obliquely arranged on the tool rest 32; when the tool rest 32 moves, the limiting sliding groove 35 is driven to move relative to the limiting sliding block 34 so as to limit the position of the tool rest 32 in an inclined movement; in order to limit the moving range of the tool holder 32 more effectively, two pairs of limit sliding blocks 34 and limit sliding grooves 35 can be arranged, one pair is close to the left edge of the tool holder 32, and the other pair is close to the right edge of the tool holder 32 and has equal distance from the edges; the driving mechanism 31 drives the tool post 32 to move obliquely, and at this time, the limit slide block 34 moves relative to the limit slide groove 35 to limit the moving range and the moving direction of the tool post 32, so that the tool post 32 is close to or far away from the plate on the platform 2 along the direction of the limit slide groove 35, and the blade is close to the plate to complete cutting and is far away from the plate after cutting.

In this embodiment, the cutting device 3 further includes: an alarm mechanism 36; the alarm mechanism 36 is arranged on the bracket 1; after the limiting slide block 34 slides out of the limiting slide groove 35, the alarming mechanism 36 gives an alarm after the tool rest 32 touches the alarming mechanism 36 when moving; after the limiting slide block 34 is separated from the limiting slide groove 35, the knife rest 32 can touch the alarm mechanism 36 when the knife rest 32 continues to move, at the moment, the alarm mechanism 36 can give an alarm to remind the knife rest 32 to separate, and at the moment, the driving mechanism 31 can be immediately and automatically stopped to move the knife rest 32, so that the occurrence of subsequent danger is avoided.

In this embodiment, the cutting device 3 further includes: symmetrically arranged eccentric wheels 37; the eccentric 37 is disposed between the blade holder 32 and the cutting blade 33; said eccentric 37 being adapted to keep the cutting edge of the cutting blade 33 level with the surface of the platform 2; the cutting blade 33 on the corresponding side can be moved away from or closer to the platform 2 by adjusting the eccentric 37 so that the cutting blade 33 is kept horizontal, i.e. the left-hand cutting blade 33 can be moved upwards by adjusting the eccentric 37 on the left side so that the cutting blade 33 on the left side is kept horizontal when the cutting blade 33 on the left side is closer to the platform 2 than the cutting blade 33 on the right side, or the right-hand eccentric 37 can be adjusted so that the cutting blade 33 on the right side is moved downwards so that the cutting blade 33 is kept horizontal. The driving mechanism 31 drives the tool post 32 to move in the limiting sliding groove 35 so that the limiting sliding block 34 moves relative to the limiting sliding groove 35, and the tool post 32 is close to or far away from the plate on the platform 2 along the direction of the limiting sliding groove 35, so that the cutting blade 33 is close to the plate to complete cutting and is far away from the plate after cutting.

Cutting device

The cutting device 4 comprises: an inflation mechanism 41 and a plurality of cutting mechanisms 42; the cutting mechanisms 42 are equidistantly arranged in the corresponding grooves 22 on the bottom surface of the cutter groove 21, and the grooves 22 are communicated through the air channel 23; the inflating mechanism 41 is suitable for inflating the groove 22 to enable the cutting mechanism 42 to be pushed upwards to enable the plate to be broken along the cut mark after the cut mark is pushed; and after the cutting device 3 finishes cutting, the cutting device 4 finishes cutting, and the plate is ensured to be cut off.

In the present embodiment, the inflation mechanism 41 includes: an air bag 411, a limiting block 412, a flexible pipeline 413 and a rigid pipeline 414; the air bag 411 is communicated with the limiting block 412, and the air bag 411 is communicated with an external gas transmission device; the limiting block 412 is communicated with the flexible pipeline 413; the limiting block 412 is provided with a limiting groove 4121, and the limiting block 412 is of a hollow structure; one end of the rigid pipeline 414 is communicated with the flexible pipeline 413, and the other end is communicated with the groove 22 on the bottom surface of the cutter groove 21; after entering the limiting block 412 through the air bag 411, the gas leaves the limiting block 412 through the flexible pipeline 413 and enters the groove 22 through the rigid pipeline 414; the direction of gas entering the stopper 412 is perpendicular to the direction of gas leaving the stopper 412; when the cutting blade 33 obliquely moves to be close to the plate, the cutting blade 33 is embedded into the limiting groove 4121 to drive the flexible pipeline 413 to bend, at the moment, gas cannot enter the groove 22 to expand the air bag 411, when the cutting blade 33 cuts the plate, the cutting blade 33 moves out of the limiting groove 4121, the flexible pipeline 413 bends and recovers, at the moment, the gas in the expanded air bag 411 enters the groove 22 through the flexible pipeline 413 and the rigid pipeline 414, and after the blowing cutting mechanism 42 moves upwards, the cutting mark is propped against the cutting mark from the opposite direction of the cutting direction to break the plate along the cutting mark; when the cutting blade 33 moves obliquely away from the plate, the cutting blade 33 is embedded into the limiting groove 4121 again to drive the flexible pipeline 413 to bend reversely in the bending direction when the cutting blade 33 cuts, at the moment, gas cannot enter the groove 22 to expand the air bag 411, when the cutting blade 33 continues to move obliquely out of the limiting groove 4121, the flexible pipeline 413 bends and recovers, at the moment, gas in the expanded air bag 411 enters the groove 22 through the flexible pipeline 413 and the rigid pipeline 414, and the blowing cutting mechanism 42 pushes the cut mark against the cut mark from the reverse direction of the cutting direction after moving upward again to break the plate along the cut mark; the stopper 412 can be bent toward the moving direction of the cutting blade 33 by the flexible pipe 413 when the stopper 412 is pressed after the cutting blade 33 is inserted into the stopper groove 4121, and the air bag 411 can be always ensured to be communicated with the stopper 412 and an external gas transmission device due to the elasticity of the air bag 411.

In the present embodiment, the cutting mechanism 42 includes: a top block 421, a cutoff blade 422, and an air deflector 423; the cutting blade 422 is disposed on an upper surface of the top block 421; the air deflectors 423 are obliquely and symmetrically arranged on the side wall of the top block 421; when the top block 421 is disposed in the groove 22, the air deflector 423 of the top block 421 contacts with the inner wall of the air duct 23 of the groove 22, and air is blown to the bottom surface of the top block 421 through the air deflector 423 to drive the top block 421 to move upward, so that the cutting blade 422 cuts the plate from the cut mark of the plate in the opposite direction of the cutting direction.

In this embodiment, at least one sealing block 4131 is disposed on the inner wall of the flexible pipe 413; the seal blocks 4131 contact the inner wall of the flexible tubing 413 or between the seal blocks 4131 when the flexible tubing 413 is bent, preventing gas from entering the groove 22; in order to ensure the tightness of the flexible pipe 413 when being bent, a sealing block 4131 is arranged in the pipe to reduce the pipe diameter, for example, when only one sealing block 4131 is arranged, the sealing block 4131 contacts the inner wall of the flexible pipe 413 when the flexible pipe 413 is bent, so that the inside of the flexible pipe 413 cannot be ventilated; when the two sealing blocks 4131 are provided, the two sealing blocks 4131 are disposed opposite to each other, and the two sealing blocks 4131 disposed opposite to each other are in contact with each other when the flexible tube 413 is bent, so that the inside of the flexible tube 413 cannot be ventilated.

The driving mechanism 31 drives the tool holder 32 to move in the limiting sliding groove 35 so that the limiting sliding block 34 moves relative to the limiting sliding groove 35, the tool holder 32 approaches the plate on the platform 2 along the direction of the limiting sliding groove 35, the cutting blade 33 is embedded into the limiting groove 4121 so that the limiting block 412 bends towards the knife groove 21, the flexible pipeline 413 is sealed, the air bag 411 expands, the gas blowing groove 22 in the air bag 411 blows towards the bottom of the top block 421 through the air deflector 423 to enable the top block 421 to move towards the plate as the tool holder 32 continues to approach the plate cutting blade 33 on the platform 2 along the direction of the limiting sliding groove 35 and slide into the knife groove 21 from the limiting groove 4121, the cutting blade 33 leaves the limiting groove 4121 when the cutting blade 33 cuts the plate and bends back, the driving mechanism 31 drives the tool holder 32 to leave the plate cutting blade 33 and embed into the limiting groove 4121 again so that the limiting block 412 bends towards the direction far away from the knife groove 21, the flexible pipeline 413 is sealed, the air bag 411 is expanded, the cutting blade 33 leaves the limiting groove 4121 along with the continuous movement of the tool rest 32, the flexible pipeline 413 is bent and recovered, the air in the air bag 411 is blown into the groove 22 again, the air is blown to the bottom of the top block 421 through the air guide plate 423, the top block 421 moves towards the plate, the cutting blade 422 is driven to contact with the cutting mark of the plate again to cut the plate, and the plate is cut through two cutting operations.

Example 2

On the basis of embodiment 1, this embodiment 2 further provides a sheet metal stamping and forming integrated automatic production line production process using the sheet metal stamping and forming integrated automatic production line of embodiment 1, including: the cutting device 4 cuts the plate after the cutting device 3 cuts the plate, that is, the driving mechanism 31 drives the knife rest 32 to move the limit slider 34 relative to the limit sliding groove 35 in the limit sliding groove 35, so that the knife rest 32 approaches the plate on the platform 2 along the direction of the limit sliding groove 35, the cutting blade 33 is embedded into the limit groove 4121 to bend the limit block 412 towards the knife groove 21, so that the flexible pipeline 413 is sealed, the air bag 411 is expanded, when the cutting blade 33 cuts the plate, the cutting blade 33 leaves the limit groove 4121 to bend and recover the flexible pipeline 413, the air in the air bag 411 is blown into the groove 22 to the bottom of the top block 421 through the air deflector 423 to move the top block 421 towards the plate, so as to drive the cutting blade 422 to contact with the cutting mark of the plate to cut the plate, the driving mechanism 31 drives the knife rest 32 to be embedded into the limit groove 4121 again away from the plate 33 to bend the limit block 412 towards the direction away from the knife groove 21, so that the flexible pipeline 413 is sealed, the air bag 411 expands, the cutting blade 33 leaves the limiting groove 4121 along with the continuous movement of the knife rest 32, the flexible pipeline 413 is bent and recovered, the air in the air bag 411 is blown into the groove 22 again, the air guide plate 423 blows towards the bottom of the top block 421 to move the top block 421 towards the plate, the cutting blade 422 is driven to contact with the cutting mark of the plate again to cut the plate, and the plate is ensured to be cut through two cutting operations.

In summary, the cutting device 3 is arranged on the support 1 to cut the plate on the platform 2 below the support 1; and the cutting device 4 is arranged in the cutter groove 21 of the platform 2 below the cutting device 3, and after the cutting device 3 cuts the plate to form a cutting mark, the cutting device 3 drives the cutting device 4 to jack up, so that the plate is broken along the cutting mark, the plate is bent again from the opposite direction after being cut, the plate is ensured to be completely broken, and the plate is cut to meet the cutting requirement.

The components selected for use in the present application (components for which specific structures are not described) are all common standard components or components known to those skilled in the art, and their structures and distances can be known to those skilled in the art through technical manuals or through routine experimentation. Moreover, the software programs referred to in the present application are all prior art, and the present application does not refer to any improvement of the software programs.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides an automatic production line of panel beating stamping forming integration which characterized in that includes:

the cutting device is arranged on the bracket to cut the plate on the platform below the bracket;

a cutting device arranged in the knife groove of the platform below the cutting device, wherein

After the cutting device cuts the plate to form a cut mark, the cutting device drives the cutting device to be jacked up so that the plate is broken along the cut mark.

2. The automatic production line integrating sheet metal stamping and forming according to claim 1,

the cutting device includes: a drive mechanism, a tool holder, and a cutting blade;

the driving mechanism is connected with the tool rest;

the cutting blade is arranged on the tool holder;

the driving mechanism is suitable for driving the cutting blade to be obliquely close to the plate through the tool rest so as to cut the plate to form a cutting mark.

3. The automatic production line integrating sheet metal stamping and forming according to claim 2,

the cutting device further comprises: at least one pair of limiting slide blocks and limiting slide grooves;

the limiting sliding block is matched with the limiting sliding groove;

the limiting sliding block is fixed on the bracket;

the limiting sliding groove is obliquely arranged on the tool rest;

when the tool rest moves, the limiting sliding groove is driven to move relative to the limiting sliding block so as to limit the oblique movement position of the tool rest.

4. The automatic production line integrating sheet metal stamping and forming according to claim 3,

the cutting device further comprises: an alarm mechanism;

the alarm mechanism is arranged on the bracket;

after the limiting slide block slides out of the limiting slide groove, the alarming mechanism gives an alarm after the tool rest touches the alarming mechanism when moving.

5. The automatic production line integrating sheet metal stamping and forming as claimed in claim 4,

the cutting device further comprises: eccentric wheels which are symmetrically arranged;

the eccentric wheel is arranged between the tool rest and the cutting blade;

the eccentric is adapted to maintain the cutting edge of the cutting blade level with the surface of the platform.

6. The automatic production line integrating sheet metal stamping and forming according to claim 5,

the cutting device includes: the inflating mechanism and the plurality of cutting mechanisms;

the cutting mechanisms are equidistantly arranged in corresponding grooves on the bottom surface of the cutter groove, and the grooves are communicated through an air channel;

the inflation mechanism is suitable for inflating into the groove, so that the cutting mechanism is pushed upwards to enable the plate to be broken along the cutting mark.

7. The automatic production line integrating sheet metal stamping and forming according to claim 6,

the inflation mechanism includes: the air bag, the limiting block, the flexible pipeline and the rigid pipeline;

the air bag is communicated with the limiting block;

the limiting block is communicated with the flexible pipeline;

the limiting block is provided with a limiting groove;

one end of the rigid pipeline is communicated with the flexible pipeline, and the other end of the rigid pipeline is communicated with the groove on the bottom surface of the cutter groove;

the gas enters the limiting block through the air bag, then leaves the limiting block through the flexible pipeline, and enters the groove through the rigid pipeline;

the direction of the gas entering the limiting block is vertical to the direction of the gas leaving the limiting block;

when the cutting blade obliquely moves to be close to the plate, the cutting blade is embedded into the limiting groove to drive the flexible pipeline to bend, gas cannot enter the groove to expand the air bag, when the cutting blade cuts the plate, the cutting blade moves out of the limiting groove, the flexible pipeline bends and recovers, at the moment, the gas in the expanded air bag enters the groove through the flexible pipeline and the rigid pipeline, and after the blowing cutting mechanism moves upwards, the blowing cutting mechanism supports against the cut mark from the opposite direction of the cutting direction to break the plate along the cut mark; and

imbed the spacing inslot once more when cutting blade slant removes and keeps away from panel, drive the flexible pipeline to the cutting blade cutting time direction of buckling reverse buckling, gaseous messenger's gasbag inflation in the recess of unable entering this moment, flexible pipeline buckles when cutting blade continues the slant and recovers when moving out the spacing groove, the gas in the gasbag of inflation passes through flexible pipeline and rigid pipeline entering recess this moment, blows and withstands the cut mark from the opposite direction of cutting direction behind the rebound once more of shutdown mechanism and makes panel fracture along the cut mark.

8. The automatic production line of sheet metal stamping and forming integration according to claim 7,

the cutting mechanism includes: the device comprises a top block, a cutting blade and an air deflector;

the cutting blade is arranged on the upper surface of the top block;

the air deflectors are obliquely and symmetrically arranged on the side wall of the top block;

when the top block is arranged in the groove, the air guide plate of the top block is in contact with the inner wall of the air duct of the groove, air is blown to the bottom surface of the top block through the air guide plate to drive the top block to move upwards, and the cutting blade is enabled to support the cut mark from the opposite direction of the cutting direction to enable the plate to be broken along the cut mark.

9. The automatic production line of sheet metal stamping and forming integration according to claim 8,

at least one sealing block is arranged on the inner wall of the flexible pipeline;

when the flexible pipeline is bent, the sealing blocks contact with the inner wall of the flexible pipeline or contact between the sealing blocks, so that gas is prevented from entering the groove.

10. An automatic production line production process integrated with sheet metal stamping and forming, which adopts the automatic production line integrated with sheet metal stamping and forming according to any one of claims 1 to 9, and is characterized by comprising the following steps:

the cutting device breaks the plate after the cutting device cuts the plate.

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