CN114273515B - Quick stamping production device for metal groove plate - Google Patents

Abstract

The invention provides a rapid stamping production device for a metal trough plate, which comprises a base structure; the feeding structure is provided with two groups which are the same in front and back, and the two groups of feeding structures are both slidably arranged on the base structure; the bearing structure is slidably arranged at the right side of the feeding structure, and the upper end of the bearing structure is connected with the stamping structure; the utility model provides a work or material rest, including bearing structure, adjustable drive plate and regulating axle, can make things convenient for the unified entering of flitch, after the position of bearing structure is transmitted to the flitch, parallel structure's mounting panel can realize stable effect of punching a hole to panel, the unified connection of connecting plate has more stable synchronism when two sets of mounting panels motion around, the flitch that is punched at this moment can be transported to the roof structure, the roof structure is pushing down the roof after pushing down, make the roof structure make the effect of tightening up the flitch buckle, accomplish whole quick punching press and the process of bending.

Description

Quick stamping production device for metal groove plate

Technical Field

The invention belongs to the technical field of stamping equipment, and particularly relates to a rapid stamping production device for a metal trough plate.

Background

The stamping process is a production technology for producing product parts with certain shapes, sizes and performances by directly applying deformation force to a plate in a die and deforming the plate by using the power of conventional or special stamping equipment. The sheet material, the mould and the equipment are three elements of stamping processing, wherein general channel steel is mainly produced directly, and channel steel used for decorating suspended ceilings and the like is produced by later stamping and bending.

Application number: the invention discloses a metal plate trimming die in the patent of CN201710988171.3, which comprises a lower die and an upper die matched with the lower die; the upper die comprises an upper die substrate, a film pressing column and a film pressing table, wherein the film pressing column is fixed on the lower end face of the upper die substrate, the film pressing table is movably sleeved on the film pressing column, and the film pressing table can axially move along the film pressing column; the lower die comprises a lower die substrate, a positioning die table and a supporting die table, wherein the positioning die table and the supporting die table are fixed on the lower die substrate; a stamping groove is formed between the positioning die table and the supporting die table, a stamping cutting block is detachably connected to the positioning die table, the stamping cutting block is located at the edge of the stamping groove right above the stamping through hole, and the edge of the stamping cutting block is a stamping cutting edge. The positioning die table of the metal plate trimming die is provided with the stamping cutting blocks, the stamping cutting edges of the stamping cutting blocks are favorable for rapidly cutting off the rim charge, the plate to be processed is prevented from being stretched and deformed, and further, the stamping cutting blocks are detachably connected, so that the metal plate trimming die can be replaced when the stamping cutting blocks are worn to a certain extent.

Based on the above, the existing metal groove-shaped structural plates are complex in the production process, cannot be rapidly formed at one time, and part of equipment is punched after bending, so that the punching position is not accurate enough, and the problems that plates in different batches are unnecessarily offset in feeding processing and the like are solved.

Accordingly, in view of the above, research and improvement on the existing structure and defects is performed to provide a rapid press production device for metal grooved plates, so as to achieve the purpose of more practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a rapid stamping production device for a metal groove plate, which solves the problems that the existing metal groove structure plate is complex in the production process, cannot be rapidly formed at one time, part of equipment is used for punching after bending, the punching position is not accurate enough, unnecessary deviation is generated in feeding processing of plates in different batches, and the like.

The invention is used for the purpose and the efficacy of a rapid stamping production device of a metal groove plate, and is achieved by the following specific technical means:

a rapid stamping production device for a metal trough plate comprises a base structure;

the feeding structure is provided with two groups which are the same in front and back, and the two groups of feeding structures are both slidably arranged on the base structure;

the bearing structure is slidably arranged at the right side of the feeding structure, the upper end of the bearing structure is connected with the stamping structure, and the stamping structure and the bearing structure are parallel to each other;

the bending structure is arranged at the rightmost end of the base structure in a sliding manner, and the adjusting structure is rotatably arranged in the bending structure;

the jacking structure is arranged into a rectangular plate shape of a strip, and the jacking structure is simultaneously installed at the top positions of the bending structure and the stamping structure.

Further, the base structure further includes:

the left side of the mounting seat is provided with a rectangular frame structure, and the right side of the mounting seat is provided with a king-shaped structure;

the transmission plate is provided with transmission belts which are symmetrically arranged front and back, and the transmission plate is directly and fixedly arranged at the upper end center position of the mounting seat;

the front end and the rear end of the adjusting shaft are both provided with threaded structures, the front end and the rear end of the adjusting shaft are provided with opposite threads, and the adjusting shaft is provided with two groups which are respectively rotatably arranged at the positions of a feeding structure and a bearing structure of the transmission plate.

Further, the feeding structure further comprises:

the adjusting plate is provided with three groups of holes with a horizontal structure, the holes on two sides are directly sleeved on the extending rod which is extended out of the transmission plate, the middle hole is mutually screwed with the adjusting shaft, and the plate surface of the adjusting plate is provided with an arc-shaped chute;

the guide block is wound with a sliding belt on the outer wall of the guide block, the root of the guide block is arranged on the adjusting plate in a swinging mode, and the tail end of the guide block is arranged in an arc-shaped chute of the adjusting plate in a sliding mode.

Further, the bearing structure further comprises:

the bearing plates are also arranged into two groups which are symmetrical in front and back, each group of bearing plates is provided with a chute which is penetrated up and down, and the left end and the right end of the bearing plate are provided with sliding grooves;

the connecting rods are provided with four groups, each two groups of connecting rods are respectively connected and installed at the left end and the right end of the bearing plate, and the two groups of connecting rods form a complete parallelogram structure;

the mounting plate is provided with a mounting groove on the plate surface, and the bottom of the mounting plate is connected with a parallelogram connecting rod;

the stamping head is of a T-shaped structure, a rubber pad is additionally arranged at the root part of the stamping head, and the stamping head is fixedly arranged on the mounting groove of the mounting plate through a top bolt.

Further, the punching structure further comprises:

the connecting plate is arranged to be of an H-shaped structure, the middle of the connecting plate is also provided with a stamping head, the bottom of the connecting plate slides on the mounting plate, and meanwhile the connecting plate is connected with the jacking structure.

Further, the bending structure further comprises:

the auxiliary plate is also provided with a driving belt, the left side of the auxiliary plate is slidably arranged on the right side of the driving plate, the bottom of the auxiliary plate is provided with a guide plate extending towards the lower end, the front end and the rear end of the auxiliary plate are provided with saw-tooth blocks, and the saw-tooth structure is provided with a through waist round chute;

the inner end of the bending plate is in a zigzag structure, and the zigzag structure of the bending plate is hinged to the zigzag structure of the auxiliary plate;

the backup pad, backup pad are provided with two sets of fore-and-aft symmetry, and two sets of backup pads equal joint are installed on being the mount pad of "king" word shape.

Further, the jacking structure further comprises

The left side of the top plate is fixed on the connecting plate, the right end of the top plate extends to the top of the bending structure, and the right end of the top plate is provided with a group of through waist round grooves;

the adjusting blocks are provided with four groups, and every two groups of adjusting blocks are rotatably arranged on one group of waist circular grooves;

the pressing plate is provided with two groups which are symmetrical front and back, and the top of each group of pressing plate is provided with two vertical screw rods, and the pressing plate is screwed and installed on the adjusting block through the screw rods.

Further, the adjusting structure further comprises:

the adjusting rod is rotatably arranged on the auxiliary plate, and three groups of worms are arranged on the auxiliary rod;

the transmission rods are provided with three groups, the front end and the rear end of each group of transmission rods are all of a screw rod structure, and meanwhile, the middle position of each transmission rod is provided with a worm wheel;

the sliding blocks are provided with six groups, the upper ends of each group of sliding blocks are connected with the adjusting blocks, and the bottoms of the sliding blocks are screwed and installed at the front end and the rear end of the transmission rod.

Compared with the prior art, the invention has the following beneficial effects:

in the feeding structure, as the processed plate batches are different, plates with different sizes are taken as entering equipment from the feeding structure, the adjusting plate with the guide blocks is arranged on the conveying plate, the purpose of adjusting the feeding position can be realized by the adjusting plate according to the adjusting rod, and the guide blocks arranged on the adjusting plate can directly swing along the arc-shaped sliding grooves, so that the effect of correspondingly guiding the plates is achieved.

In the bearing structure, firstly, the punching device of the plate is arranged on the mounting plate, so that in order to enable the punching device to be mutually parallel to the bearing plate, four groups of connecting rods are connected and arranged between the bearing plate and the mounting plate, the connecting rods can form two groups of parallelogram mechanisms with the same structure, the mounting plate and the bearing plate are mutually parallel, and therefore, the punching device arranged on the mounting plate can be better aligned with the position of a through chute of the bearing plate, the subsequent processing is convenient, firstly, the mounting groove on the mounting plate is arranged into a kidney-shaped structure, the fixed punching head can be adjusted and slid at will on the mounting groove through bolts, and the rubber pad arranged at the root of the punching head can play a role in limiting protection and the like of the plate in the punching process.

In the bending structure, the auxiliary plate with the driving belt can realize the effect of driving the plate in an auxiliary manner, the auxiliary plate which is in sliding installation and the guide plate which is arranged at the lower end position of the auxiliary plate have the effect of assisting in stably and parallelly lifting the auxiliary plate, the mutual connection positions of the bending plate and the auxiliary plate are set to be of a saw-tooth structure, so that the auxiliary plate of the bending structure can drive two groups of bending plates to descend when being pressed and descended, the descended bending plates can swing upwards under the action of the supporting plate, two sides of the plate can bend inwards, the shape of the groove plate is formed, the top plate is set to be of a rectangular long plate structure, the left side position of the top plate is fixedly arranged at the bottom of the connecting plate, the right side of the top plate is provided with a jacking structure, the top plate structure and the connecting plate are simultaneously lifted and pressed down when the top plate is pressed down, and the pressing plate arranged at the bottom of the top plate can be adjusted through the adjusting block, so that the pressing depth of the pressing plate is adjusted.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the pressing structure of the present invention.

FIG. 3 is a schematic diagram of a pressing structure and a supporting structure according to the present invention.

Fig. 4 is a schematic diagram of a bending structure of the present invention.

Fig. 5 is a schematic view of the base structure of the present invention.

Fig. 6 is a schematic view of the top plate structure of the present invention.

Fig. 7 is a schematic view of the mounting plate structure of the present invention.

Fig. 8 is a schematic view of a partially enlarged structure at a in fig. 4 according to the present invention.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a base structure; 101. a mounting base; 102. a drive plate; 103. an adjusting shaft; 2. a feed structure; 201. an adjusting plate; 202. a guide block; 3. a load bearing structure; 301. a carrying plate; 302. a connecting rod; 303. a mounting plate; 304. punching heads; 4. stamping the structure; 401. a connecting plate; 5. a bending structure; 501. an auxiliary plate; 502. a bending plate; 503. a support plate; 6. a jacking structure; 601. a top plate; 602. an adjusting block; 603. a pressing plate; 7. an adjustment structure; 701. an adjusting rod; 702. a transmission rod; 703. a sliding block.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples:

as shown in fig. 1 to 8:

the invention provides a rapid stamping production device for a metal trough plate, which comprises a base structure 1;

the feeding structure 2 is provided with two groups which are the same in front and back, and the two groups of feeding structures 2 are both slidably arranged on the base structure 1;

the bearing structure 3 is slidably arranged at the right side of the feeding structure 2, the upper end of the bearing structure 3 is connected with the stamping structure 4, and the stamping structure 4 and the bearing structure 3 are parallel to each other;

the bending structure 5 is arranged at the rightmost end position of the base structure 1 in a sliding manner, and the adjusting structure 7 is rotatably arranged in the bending structure 5;

the jacking structure 6, the jacking structure 6 is arranged into a rectangular plate shape of a strip, and the jacking structure 6 is simultaneously arranged at the top positions of the bending structure 5 and the stamping structure 4.

Wherein, base structure 1 still includes:

the mounting seat 101, the left side position of the mounting seat 101 is set to be in a rectangular frame structure, and the right side position of the mounting seat 101 is set to be in a 'king' shape structure;

the transmission plate 102 is provided with transmission belts which are symmetrically arranged front and back, and the transmission plate 102 is directly and fixedly arranged at the upper end center position of the mounting seat 101;

the adjusting shaft 103, the front and back ends of the adjusting shaft 103 are all set up to the structure of screw thread, and the front and back ends of the adjusting shaft 103 set up to the structure of silk, simultaneously, the adjusting shaft 103 is provided with two sets of feeding structure 2 and the loading structure 3 position of installing at the drive plate 102 respectively, at first, the drive plate 102 sets up to the group of panel and want conveyor, thereby install two sets of drive belts of fore-and-aft symmetry on the drive plate 102, let the panel can realize better transmission effect, and the mount pad 101 of left rectangle frame shape can play and let the whole of equipment have more firm effect, because can be applicable to more panels, all set up loading structure 3 and feeding structure 2 into two sets of symmetry, thereby rotate respectively on the position of loading structure 3 and feeding structure 2 and install adjusting shaft 103, let loading structure 3 and feeding structure 2 can adjust through adjusting shaft 103 respectively, make loading structure 3 and feeding structure 2 can have more stable symmetrical motion effect.

Wherein, feeding structure 2 still includes:

the adjusting plate 201 is provided with three groups of holes with a horizontal structure, the holes on two sides are directly sleeved on the extending rod extending out of the transmission plate 102, the holes in the middle are mutually screwed with the adjusting shaft 103, and the plate surface of the adjusting plate 201 is provided with an arc-shaped chute;

the guide block 202, the winding has the slip belt on the outer wall of guide block 202, and the root swing of guide block 202 is installed on regulating plate 201, and the end of guide block 202 then slidable mounting is in the arc spout of regulating plate 201, because the panel batch of processing is different, thereby there is the different plate of size to follow feeding structure 2 for entering equipment, will pass the regulating plate 201 that installs the guide block 202 on the board, and the regulating plate 201 can realize the purpose of adjusting the feeding position according to adjusting lever 701, and the guide block 202 of installing on regulating plate 201 can directly swing along the arc spout, thereby reach the effect of carrying out corresponding direction to the panel.

Wherein, bearing structure 3 still includes:

the bearing plates 301 are also arranged into two groups which are symmetrical in front and back, each group of bearing plates 301 is provided with a chute which is penetrated up and down, and the left and right ends of the bearing plates 301 are provided with sliding grooves;

the connecting rods 302, wherein four groups of connecting rods 302 are arranged, each two groups of connecting rods 302 are respectively connected and installed at the left end and the right end of the bearing plate 301, and the two groups of connecting rods 302 form a complete parallelogram structure;

the mounting plate 303, the surface of the mounting plate 303 is provided with a mounting groove, and the bottom of the mounting plate 303 is connected with the parallelogram-shaped connecting rod 302;

the stamping head 304 is of a T-shaped structure, a rubber pad is additionally arranged at the root position of the stamping head 304, the stamping head 304 is fixedly arranged on an installation groove of the installation plate 303 through a top bolt, firstly, a punching device of a plate is arranged on the installation plate 303, so that in order to enable the punching device to be mutually parallel to the bearing plate 301, four groups of connecting rods 302 are connected between the bearing plate 301 and the installation plate 303, the connecting rods 302 can form two groups of parallelogram mechanisms with the same structure, the installation plate 303 and the bearing plate 301 are mutually parallel, the punching device arranged on the installation plate 303 can be better aligned with the through chute position of the bearing plate 301, further follow-up processing is facilitated, firstly, the installation groove on the installation plate 303 is of a waist-round structure, the fixed stamping head 304 is screwed tightly through the bolt, the arbitrary adjustment sliding on the installation groove is realized, and the rubber pad additionally arranged at the root of the stamping head 304 can play a role in limiting protection of the plate in the stamping process.

Wherein, stamping structure 4 still includes:

the connecting plate 401, the connecting plate 401 is set to be H-shaped structure, and the middle of the connecting plate 401 is also provided with the stamping head 304, and the bottom of the connecting plate 401 slides on the mounting plate 303, meanwhile, the connecting plate 401 and the jacking structure 6 are mutually connected, and the mounting plate 303 connected through two groups of parallelogram structures cannot independently perform the pushing movement, so that the connecting plate 401 is arranged at the top of the mounting plate 303, the mounting plate 303 can perform the pushing movement through the connecting plate 401, and the connecting plate 401 which is slidably arranged between the connecting plate 303 can prevent the connecting plate 401 from being blocked when being pushed.

Wherein, the bending structure 5 further comprises:

the auxiliary plate 501, the auxiliary plate 501 is also provided with a driving belt, the left side of the auxiliary plate 501 is slidably arranged on the right side of the driving plate 102, the bottom of the auxiliary plate 501 is provided with a guide plate extending towards the lower end, the front end and the rear end of the auxiliary plate 501 are provided with saw-tooth blocks, and the saw-tooth structure is provided with a through oval chute;

the inner end position of the bending plate 502 is in a zigzag structure, and the zigzag structure position of the bending plate 502 is hinged on the zigzag structure position of the auxiliary plate 501;

the backup pad 503, backup pad 503 is provided with two sets of fore-and-aft symmetry, and two sets of backup pads 503 equal joint are installed on being the mount pad 101 of "king" word shape, with the accessory plate 501 of device with the drive belt, can realize assisting the effect that carries out the transmission to panel, and slidable mounting's accessory plate 501 and the deflector of setting in its lower extreme position have the effect that assists to let accessory plate 501 stable parallel lift, set up the interconnect position of bending plate 502 and accessory plate 501 into the sawtooth structure, make bending structure's accessory plate 501 when the pressurized descends, can drive two sets of bending plate 502 decline, the bending plate 502 of decline can upwards swing under the effect of backup pad 503, let the both sides of panel inwards buckle, thereby constitute the shape of frid.

Wherein the jacking structure 6 further comprises

The top plate 601, the left side of the top plate 601 is fixed on the connecting plate 401, the right end of the top plate 601 extends to the top of the bending structure, and the right end of the top plate 601 is provided with a group of through waist round grooves;

the adjusting blocks 602, the adjusting blocks 602 are provided with four groups, and every two groups of adjusting blocks 602 are rotatably arranged on one group of waist circular grooves;

the clamp plate 603, clamp plate 603 is provided with two sets of fore-and-aft symmetry, and every clamp plate 603 top of group is provided with the lead screw of twice vertical, clamp plate 603 passes through the lead screw and twists the installation on regulating block 602, set up roof 601 into the structure of rectangle rectangular plate, roof 601 left side position sets up and fixes the bottom at connecting plate 401, and roof 601's right side then installs roof pressure structure 6 for roof 601 lets roof 601 structure and connecting plate 401 do the effect of simultaneous depression motion when pushing down the motion, and the clamp plate 603 of setting in roof 601 bottom can be adjusted through regulating block 602, thereby realize the purpose of adjusting the depression degree of depth to clamp plate 603.

Wherein, adjust structure 7 still includes:

the adjusting rod 701, the adjusting rod 701 is rotatably installed on the auxiliary plate 501, and three sets of worms are arranged on the auxiliary rod;

the transmission rods 702 are provided with three groups, the front end and the rear end of each group of transmission rods 702 are respectively provided with a structure of a screw rod, and meanwhile, the middle position of each transmission rod 702 is provided with a worm wheel;

the sliding blocks 703, the sliding blocks 703 are provided with six groups, the upper ends of each group of sliding blocks 703 are all connected with the adjusting block 602, the bottoms of the sliding blocks 703 are screwed and installed at the front end and the rear end of the transmission rod 702, firstly, because the sliding blocks 703 are connected with the adjusting block 602, the sliding blocks 703 are screwed and installed on the transmission rod 702, the sliding blocks 703 can be directly controlled to move through the transmission rod 702 after the adjusting rod 701 is rotated, so that the positions of the adjusting blocks 602 are achieved, and the purpose of effectively controlling the bending of the plates is achieved.

Specific use and action of the embodiment:

in the invention, as the processed plate batches are different, plates with different sizes are taken as entering equipment from a feeding structure 2, an adjusting plate 201 with a guide block 202 is arranged on a transfer plate, the adjusting plate 201 can realize the aim of adjusting the feeding position according to an adjusting rod 701, the guide block 202 arranged on the adjusting plate 201 can directly swing along an arc chute so as to achieve the effect of correspondingly guiding the plate, firstly, a punching device of the plate is arranged on a mounting plate 303, so that in order to enable the punching device to be parallel to a bearing plate 301, four groups of connecting rods 302 are arranged between the bearing plate 301 and the mounting plate 303, the connecting rods 302 can form a parallelogram mechanism with two groups of identical structures, the mounting plate 303 and the bearing plate 301 are parallel to each other, the punching device arranged on the mounting plate 303 can better align the through chute position of the bearing plate 301, thereby achieving the purpose of facilitating subsequent processing, firstly, the mounting groove on the mounting plate 303 is set to be in a waisted structure, the stamping head 304 which is fixed by tightening the bolts can be arbitrarily adjusted and slid on the mounting groove, the rubber pad which is additionally arranged at the root of the stamping head 304 can play a role in limiting and protecting the plate in the stamping process, the auxiliary plate 501 with the driving belt can realize the effect of assisting the driving of the plate, the auxiliary plate 501 which is slidingly arranged and the guide plate which is arranged at the lower end position have the effect of assisting the auxiliary plate 501 to stably and parallelly lift, the interconnecting position of the bending plate 502 and the auxiliary plate 501 is set to be in a saw-tooth structure, so that the auxiliary plate 501 with the bending structure can drive the two groups of bending plates 502 to descend when being pressed and the descending bending plate 502 can swing upwards under the action of the supporting plate 503, let the both sides of panel inwards buckle to constitute the shape of frid, set up roof 601 into the structure of rectangle rectangular plate, roof 601 left side position sets up to fix in the bottom of connecting plate 401, and roof 601's right side then installs roof pressure structure 6, make roof 601 when pushing down the motion, let roof 601 structure and connecting plate 401 do the effect of pushing down the motion simultaneously, and the clamp plate 603 of setting in roof 601 bottom can be adjusted through regulating block 602, thereby realize the purpose of adjusting the push down degree of depth of clamp plate 603.

When using, firstly put into the flitch from feeding structure 2 position, adjustable drive plate 102 and regulating spindle 103, can make things convenient for the unified entering of flitch, after the flitch is transmitted to bearing structure 3's position, parallel structure's mounting panel 303 can realize stable effect of punching a hole to the panel, the unified of connecting plate 401 is connected for have more stable synchronism when two sets of mounting panel 303 motion around, the flitch that is punched this moment can transport roof pressure structure 6, roof pressure structure 6 is pushing down the back, can be synchronous push down roof 601, make roof pressure structure 6 make the flitch tighten up the effect of buckling, accomplish whole quick punching press and the process of bending.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. A quick punching press apparatus for producing for metal frid, its characterized in that: comprises a base structure (1);

the feeding structure (2) is provided with two groups which are the same in front and back, and the two groups of feeding structures (2) are both slidably mounted on the base structure (1);

the bearing structure (3) is slidably arranged at the right side of the feeding structure (2), the upper end of the bearing structure (3) is connected with the stamping structure (4), and the stamping structure (4) and the bearing structure (3) are parallel to each other;

the bending structure (5) is arranged at the rightmost end position of the base structure (1) in a sliding manner, and the adjusting structure (7) is rotatably arranged in the bending structure (5);

the jacking structure (6) is in a rectangular plate shape, and the jacking structure (6) is simultaneously arranged at the top positions of the bending structure (5) and the stamping structure (4);

the stamping structure (4) further comprises:

the connecting plate (401), the connecting plate (401) is of an H-shaped structure, the middle of the connecting plate (401) is also provided with a stamping head (304), the bottom of the connecting plate (401) slides on the mounting plate (303), and the connecting plate (401) is connected with the jacking structure (6);

the bending structure (5) further comprises:

the auxiliary plate (501) is also provided with a driving belt, the left side of the auxiliary plate (501) is arranged on the right side of the driving plate (102), the bottom of the auxiliary plate (501) is provided with a guide plate extending towards the lower end, the front end and the rear end of the auxiliary plate (501) are provided with saw-tooth blocks, and the saw-tooth structure is provided with a through oval chute;

the bending plate (502), the inner end position of the bending plate (502) is in a zigzag structure, and the zigzag structure position of the bending plate (502) is hinged on the zigzag structure position of the auxiliary plate (501);

the support plates (503), the support plates (503) are provided with two groups of symmetrical front and back, and the two groups of support plates (503) are all clamped and installed on the installation seat (101) in the shape of a Chinese character 'wang';

the jacking structure (6) also comprises

The left side of the top plate (601) is fixed on the connecting plate (401), the right end of the top plate (601) extends to the top of the bending structure, and the right end of the top plate (601) is provided with a group of through waist round grooves;

the adjusting blocks (602), the adjusting blocks (602) are provided with four groups, and every two groups of adjusting blocks (602) are rotatably arranged on one group of waist circular grooves;

the pressing plates (603), wherein the pressing plates (603) are provided with two groups which are symmetrical in front-back direction, two vertical screw rods are arranged at the top of each group of pressing plates (603), and the pressing plates (603) are installed on the adjusting block (602) through screw rod screwing;

the adjusting structure (7) further comprises:

the adjusting rod (701), the adjusting rod (701) is rotatably arranged on the auxiliary plate (501), and three groups of worms are arranged on the auxiliary rod;

the transmission rods (702) are arranged in three groups, the front end and the rear end of each group of transmission rods (702) are respectively provided with a structure of a screw rod, and meanwhile, the middle position of each transmission rod (702) is provided with a worm wheel;

the sliding blocks (703), the sliding blocks (703) are provided with six groups, the upper ends of each group of sliding blocks (703) are connected with the adjusting block (602) mutually, and the bottoms of the sliding blocks (703) are screwed and installed at the front end and the rear end of the transmission rod (702).

2. The rapid tooling apparatus for producing metal channel plates of claim 1, wherein: the base structure (1) further comprises:

the mounting seat (101), the left side position of the mounting seat (101) is set to be in a rectangular frame structure, and the right side position of the mounting seat (101) is set to be in a 'king' -shaped structure;

the transmission plate (102), the transmission plate (102) is provided with the transmission belt which is arranged in a front-back symmetrical way, and the transmission plate (102) is directly and fixedly arranged at the upper end center position of the mounting seat (101).

3. The rapid tooling apparatus for producing metal channel plates of claim 1, wherein: the base structure (1) further comprises:

the adjusting shaft (103), the front and back ends of the adjusting shaft (103) are all arranged to be of threaded structures, the front and back ends of the adjusting shaft (103) are arranged to be of opposite threads, and meanwhile, the adjusting shaft (103) is provided with two groups which are respectively installed at the positions of a feeding structure (2) and a bearing structure (3) of the transmission plate (102) in a rotating mode.

4. The rapid tooling apparatus for producing metal channel plates of claim 1, wherein: the feeding structure (2) further comprises:

the adjusting plate (201), three groups of holes with a horizontal structure are formed in the adjusting plate (201), the holes on two sides are directly sleeved on an extension rod which is extended out of the transmission plate (102), the middle hole is mutually screwed with the adjusting shaft (103), and an arc-shaped chute is formed in the plate surface of the adjusting plate (201);

the guide block (202) is wound with a sliding belt on the outer wall of the guide block (202), the root of the guide block (202) is arranged on the adjusting plate (201) in a swinging mode, and the tail end of the guide block (202) is arranged in an arc-shaped chute of the adjusting plate (201) in a sliding mode.

5. The rapid tooling apparatus for producing metal channel plates of claim 1, wherein: the carrying structure (3) further comprises:

the bearing plates (301) are also arranged into two groups which are symmetrical in front and back, sliding grooves which are vertically penetrated are formed in each group of bearing plates (301), and sliding grooves are formed in the left end and the right end of each bearing plate (301);

the connecting rods (302), the connecting rods (302) are provided with four groups, each two groups of connecting rods (302) are respectively connected and installed at the left end and the right end of the bearing plate (301), and the two groups of connecting rods (302) form a complete parallelogram structure;

the mounting plate (303) is provided with a mounting groove on the plate surface of the mounting plate (303), and the bottom of the mounting plate (303) is connected with the parallelogram-shaped connecting rod (302).

6. The rapid tooling apparatus for producing metal channel plates of claim 1, wherein: the carrying structure (3) further comprises:

the stamping head (304), the stamping head (304) is of a T-shaped structure, a rubber pad is additionally arranged at the root position of the stamping head (304), and the stamping head (304) is fixedly arranged on the mounting groove of the mounting plate (303) through a top bolt.