CN116713364B

CN116713364B - Groove type bridge stamping forming die and stamping method thereof

Info

Publication number: CN116713364B
Application number: CN202310495756.7A
Authority: CN
Inventors: 马少约; 舒红伟; 陈敬德; 陈继武; 姚泽伟
Original assignee: Guangdong Shenlian Industrial Co ltd
Current assignee: Guangdong Shenlian Industrial Co ltd
Priority date: 2023-05-05
Filing date: 2023-05-05
Publication date: 2024-02-27
Anticipated expiration: 2043-05-05
Also published as: CN116713364A

Abstract

The invention relates to a slot type bridge stamping forming die, which comprises: base, mounting panel, backup pad, first pneumatic cylinder, mould, briquetting and band conveyer, the base top is provided with the mounting panel, and the base passes through the backup pad with the mounting panel to be connected, and the backup pad bottom is provided with first pneumatic cylinder, and the output of first pneumatic cylinder is connected with the mould downwards, and the interval is provided with two briquettes on the base, and the briquetting left side is provided with band conveyer. A stamping method comprising the steps of: step one, placing a material plate on a belt conveyor to drive the material plate to move between two pressing blocks; step two, starting a first hydraulic cylinder to drive a die to punch a material plate downwards; and thirdly, starting a second hydraulic cylinder to drive a pressing block to punch the side wall of the groove-shaped bridge frame again, and forming the groove-shaped bridge frame. And the machining efficiency of the groove type bridge frame is improved through automatic stamping forming.

Description

Groove type bridge stamping forming die and stamping method thereof

Technical Field

The invention belongs to the technical field of slot type bridge processing, and particularly relates to a slot type bridge stamping forming die and a stamping method thereof.

Background

The slot bridge is a totally enclosed cable bridge, which is most suitable for laying computer cables, communication cables, thermocouple cables, control cables of other high-sensitivity systems, and the like, and has better effect on shielding interference of the control cables and protecting the cables in heavy corrosion environments. The slot bridge consists of a slot bridge body and a cover plate.

The invention discloses a stamping forming die for a cover plate of a slot type cable bridge and a stamping method thereof, and discloses a stamping forming die for a cover plate of a slot type cable bridge, which comprises a material supporting mechanism, a bending mechanism, an actuating mechanism and a bottom plate, wherein the problem that the cover plate subjected to forming processing at present is difficult to take due to the fact that internal stress generated by bending of two side edges expands outwards and rebounds to cause material clamping is solved; the forming die can only carry out extrusion forming treatment on raw material plates with one model size, and when the raw material plates with different widths, lengths or thicknesses are extruded, the corresponding forming die is required to be replaced, so that the production efficiency of a factory is reduced, and the production cost of the cover plate is increased; the raw material plates cannot be accurately positioned in the extrusion molding process, so that the position is deviated, the molded cable bridge cover plate is deviated in size, and the actual use requirement cannot be met; the raw material plate is easy to cause surface scratch in the extrusion molding process, and the molding quality of the cover plate is reduced

However, the above-mentioned patent has the following drawbacks in the actual use, because only the cover plate of the cable bridge is stamped, but the structure of the body of the slot-type cable bridge is not stamped, resulting in low efficiency of installing the cable bridge, and therefore, it is necessary to design a slot-type bridge stamping forming mold and a stamping method thereof.

Disclosure of Invention

Therefore, the invention aims to solve the problem of low efficiency of installing the cable bridge because only the cover plate of the cable bridge is stamped and the structure of the cable bridge body with the slot is not stamped in the prior art.

Therefore, the technical scheme is that the groove type bridge stamping forming die comprises: base, mounting panel, backup pad, first pneumatic cylinder, mould, briquetting and band conveyer, the base top is provided with the mounting panel, and the base passes through the backup pad with the mounting panel to be connected, and the backup pad bottom is provided with first pneumatic cylinder, and the output of first pneumatic cylinder is connected with the mould downwards, and the interval is provided with two briquettes on the base, and the briquetting left side is provided with band conveyer.

Preferably, two second hydraulic cylinders are arranged on the base, the output ends of the second hydraulic cylinders are connected with the pressing block, limiting strips are arranged on the top end of the pressing block, and guide wheels are arranged on one side, opposite to the two limiting strips, of the pressing block.

Preferably, the bottom end of the die and the side wall of the pressing block are provided with embossing.

Preferably, four support rods are symmetrically arranged at the bottom end of the base, and rollers are arranged at the bottom ends of the support rods.

Preferably, the automatic blanking device is further included, and the automatic blanking device includes: the automatic feeding device comprises a feeding plate, stop rods, feeding plates, grooves, guide rods, first fixing blocks, sliding sleeves, sliding rods and sliding blocks, wherein the feeding plates are arranged above a base and connected with the base, the stop rods are arranged at four corners of the feeding plates, a plurality of feeding plates are arranged on the feeding plates in a stacked mode, the bottoms of the feeding plates are provided with the grooves in the horizontal direction, the guide rods in the horizontal direction are arranged below the feeding plates, two ends of each guide rod are connected with the two first fixing blocks respectively, the first fixing blocks are connected with the base, the sliding sleeves are connected to the guide rods in a sliding mode, sliding rods in the vertical direction are arranged on the outer walls of the sliding sleeves, and the sliding blocks are connected to the sliding rods in the sliding mode.

Preferably, the slider top is provided with two and dials the post with L shape backup pad one end, and the interval is provided with the motor on the L shape backup pad other end, and the base top is provided with the motor, and the motor is connected with the base, and the motor output shaft is connected with the commentaries on classics piece, and the bull stick passes the commentaries on classics piece to with commentaries on classics piece sliding connection, bull stick one end is connected with L shape commentaries on classics board one end, and L shape commentaries on classics board other end and slider rotate to be connected, and the cover is equipped with first spring on the bull stick, and first spring one end is connected with the commentaries on classics piece, and the first spring other end is connected with L shape commentaries on classics board.

Preferably, one end of the discharging plate is provided with a guide plate, one end of the guide plate, which is far away from the discharging plate, is connected with one end of the inclined plate, and the other end of the inclined plate extends to the upper part of the belt conveyor.

Preferably, be provided with grinding device on the base, grinding device includes: the box, first supporting shoe, first pivot, the guide key, the polishing piece, the opening, slide rail and slide, be provided with the box on the base, the interval is provided with two first supporting shoes in the box, first pivot both ends are rotated with two first supporting shoes respectively and are connected, be provided with the guide key that extends along length direction on the outer wall of first pivot, the interval is provided with two polishing pieces in the first pivot, the polishing piece can be along the reciprocal slip of guide key, be provided with the opening on the box lateral wall, two polishing piece one side passes the opening and extends outside the box, be provided with the slide rail of horizontal direction in the box, the slide rail is connected with the box inner wall.

Preferably, sliding connection has the slide on the slide rail, is provided with the second supporting shoe on the slide, and second pivot one end rotates with the second supporting shoe to be connected, and the second pivot other end is connected with driving motor, driving motor and slide connection, and first pivot is parallel with the second pivot, is provided with two hemispheroids in the second pivot coaxially, and the sphere of two hemispheroids sets up relatively, and the sphere of hemispheroid contacts with polishing the circumference outer wall of piece, and the cover is equipped with the second spring in the first pivot, and second spring both ends contact with two polishing pieces, and the box inner wall is provided with accommodate motor, and accommodate motor output shaft is connected with screw rod one end, and the screw rod other end is connected with slide right-hand member screw thread.

The stamping method is suitable for the slot type bridge stamping forming die and comprises the following steps:

step one, placing a material plate on a belt conveyor to drive the material plate to move between two pressing blocks;

step two, starting a first hydraulic cylinder to drive a die to punch a material plate downwards;

and thirdly, starting a second hydraulic cylinder to drive a pressing block to punch the side wall of the groove-shaped bridge frame again, and forming the groove-shaped bridge frame.

The technical scheme of the invention has the following advantages: the invention relates to a slot type bridge stamping forming die, which comprises: base, mounting panel, backup pad, first pneumatic cylinder, mould, briquetting and band conveyer, the base top is provided with the mounting panel, and the base passes through the backup pad with the mounting panel to be connected, and the backup pad bottom is provided with first pneumatic cylinder, and the output of first pneumatic cylinder is connected with the mould downwards, and the interval is provided with two briquettes on the base, and the briquetting left side is provided with band conveyer. A stamping method comprising the steps of: step one, placing a material plate on a belt conveyor to drive the material plate to move between two pressing blocks; step two, starting a first hydraulic cylinder to drive a die to punch a material plate downwards; and thirdly, starting a second hydraulic cylinder to drive a pressing block to punch the side wall of the groove-shaped bridge frame again, and forming the groove-shaped bridge frame. And the machining efficiency of the groove type bridge frame is improved through automatic stamping forming.

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. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of a trough bridge of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic diagram of the structure of the pressing block, the limiting bar and the guide wheel in the invention;

FIG. 4 is a schematic structural view of an automatic blanking device in the present invention;

FIG. 5 is a schematic view of the construction of the polishing apparatus of the present invention;

FIG. 6 is a schematic view of the structure of the first shaft, the guide key and the polishing sheet according to the present invention;

the device comprises a 1-base, a 2-mounting plate, a 3-supporting plate, a 4-first hydraulic cylinder, a 5-die, a 6-pressing block, a 7-belt conveyor, a 8-second hydraulic cylinder, a 9-limit bar, a 10-guide wheel, a 11-supporting rod, a 12-roller, a 13-discharging plate, a 14-stop bar, a 15-discharging plate, a 16-groove, a 17-guide rod, a 18-first fixed block, a 19-sliding sleeve, a 20-sliding rod, a 21-sliding block, a 22-L-shaped supporting plate, a 23-shifting column, a 24-motor, a 25-rotating block, a 26-rotating rod, a 27-L-shaped rotating plate, a 28-first spring, a 29-guide plate, a 30-sloping plate, a 31-box, a 32-first supporting block, a 33-first rotating shaft, a 34-guide key, a 35-polishing piece, a 36-opening, a 37-sliding rail, a 38-sliding plate, a 39-second supporting block, a 40-second rotating shaft, a 41-hemispherical body, a 42-second spring, a 43-adjusting motor, a 44-screw and a 45-driving motor.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, 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 thus are not to be construed as limiting the invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The invention provides a slot bridge stamping forming die, as shown in figures 1-3, comprising: base 1, mounting panel 2, backup pad 3, first pneumatic cylinder 4, mould 5, briquetting 6 and band conveyer 7, base 1 top is provided with mounting panel 2, and base 1 passes through backup pad 3 with mounting panel 2 to be connected, and backup pad 3 bottom is provided with first pneumatic cylinder 4, and the output of first pneumatic cylinder 4 is connected with mould 5 downwards, and the interval is provided with two briquetting 6 on the base 1, and briquetting 6 left side is provided with band conveyer 7. Two second hydraulic cylinders 8 are arranged on the base 1, the output end of each second hydraulic cylinder 8 is connected with the corresponding pressing block 6, a limiting strip 9 is arranged at the top end of the pressing block 6, and a guide wheel 10 is arranged on one side opposite to the two limiting strips 9.

The technical scheme has the working principle and beneficial technical effects that: the material plate is placed on the belt conveyor 7, the material plate is driven to move to a position between the two limiting strips 9 through the transmission of the belt conveyor 7, the first hydraulic cylinder 4 is started, the die 5 is driven to be pressed down, the second hydraulic cylinder 8 is started again to drive the two pressing blocks 6 to be extruded mutually, the groove type bridge frame is formed, and the processing efficiency of the groove type bridge frame is improved.

In one embodiment, the bottom end of the die 5 and the side wall of the briquette 6 are provided with embossments so as to form a concave-convex pattern.

In one embodiment, four supporting rods 11 are symmetrically arranged at the bottom end of the base 1, and rollers 12 are arranged at the bottom ends of the supporting rods 11, so that movement of the forming die is facilitated.

In one embodiment, as shown in fig. 4, the automatic blanking device is further included, and the automatic blanking device includes: the automatic feeding device comprises a feeding plate 13, a stop lever 14, a feeding plate 15, grooves 16, guide rods 17, first fixed blocks 18, sliding sleeves 19, sliding rods 20 and sliding blocks 21, wherein the feeding plate 13 is arranged above a base 1, the feeding plate 13 is connected with the base 1, the stop levers 14 are arranged at four corners of the feeding plate 13, a plurality of the feeding plates 15 are arranged on the feeding plate 13 in a stacked mode, the grooves 16 in the horizontal direction are formed in the bottom end of the feeding plate 13, the guide rods 17 in the horizontal direction are arranged below the feeding plate 13, two ends of the guide rods 17 are respectively connected with the two first fixed blocks 18, the first fixed blocks 18 are connected with the base 1, the sliding sleeves 19 are connected to the guide rods 17 in a sliding mode, sliding rods 20 in the vertical direction are arranged on the outer walls of the sliding sleeves 19, and the sliding blocks 21 are connected to the sliding rods 20 in a sliding mode.

The top of the sliding block 21 is connected with one end of the L-shaped supporting plate 22, two poking columns 23 are arranged at intervals on the other end of the L-shaped supporting plate 22, a motor 24 is arranged above the base 1, the motor 24 is connected with the base 1, an output shaft of the motor 24 is connected with a rotating block 25, a rotating rod 26 penetrates through the rotating block 25 and is in sliding connection with the rotating block 25, one end of the rotating rod 26 is connected with one end of the L-shaped rotating plate 27, the other end of the L-shaped rotating plate 27 is rotationally connected with the sliding block 21, a first spring 28 is sleeved on the rotating rod 26, one end of the first spring 28 is connected with the rotating block 25, and the other end of the first spring 28 is connected with the L-shaped rotating plate 27. One end of the discharging plate 13 is provided with a guide plate 29, one end of the guide plate 29 away from the discharging plate 13 is connected with one end of the inclined plate 30, and the other end of the inclined plate 30 extends to the upper part of the belt conveyor 7.

The technical scheme has the working principle and beneficial technical effects that: the motor 24 is started to drive the rotating block 25 and the rotating rod 26 to rotate, the L-shaped rotating plate 27 is driven to move under the action of the elastic force of the first spring 28 and to reciprocate along the rotating block 25, the L-shaped rotating plate 27 reciprocates up and down along the sliding rod 20, the sliding sleeve 19 reciprocates left and right along the guide rod 17, the sliding block 21 translates along a rectangular track through the composite superposition of the motions, the two poking columns 23 translate along the rectangular track correspondingly, when the poking columns 23 move along the grooves 16, the lowest feeding plate 15 is poked to push the guide plate 29 and the inclined plate 30 and then falls onto the belt conveyor 7 to be conveyed below a die for punching, and the feeding plate 15 is intermittently pushed to the belt conveyor 7 through the continuous circular movement of the poking columns 23 along the rectangular track to automatically finish feeding.

In one embodiment, as shown in fig. 5 to 6, the base 1 is provided with a polishing device, which includes: the box 31, first supporting shoe 32, first pivot 33, guide key 34, polishing piece 35, opening 36, slide rail 37 and slide 38, be provided with box 31 on the base 1, the interval is provided with two first supporting shoes 32 in the box 31, first pivot 33 both ends are connected with two first supporting shoes 32 rotations respectively, be provided with the guide key 34 that extends along length direction on the outer wall of first pivot 33, the interval is provided with two polishing pieces 35 on the first pivot 33, polishing piece 35 can follow guide key 34 reciprocating sliding, be provided with opening 36 on the box 31 lateral wall, two polishing piece 35 one side passes opening 36 and extends outside box 31, be provided with horizontal direction's slide rail 37 in the box 31, slide rail 37 and box 31 inner wall connection.

The sliding rail 37 is slidably connected with a sliding plate 38, the sliding plate 38 is provided with a second supporting block 39, one end of a second rotating shaft 40 is rotationally connected with the second supporting block 39, the other end of the second rotating shaft 40 is connected with a driving motor 45, the driving motor 45 is connected with the sliding plate 38, the first rotating shaft 33 is parallel to the second rotating shaft 40, two hemispheres 41 are coaxially arranged on the second rotating shaft 40, the spherical surfaces of the two hemispheres 41 are oppositely arranged, the spherical surfaces of the hemispheres 41 are contacted with the circumferential outer wall of the polishing sheets 35, a second spring 42 is sleeved on the first rotating shaft 33, two ends of the second spring 42 are contacted with the two polishing sheets 35, an adjusting motor 43 is arranged on the inner wall of the box 31, an output shaft of the adjusting motor 43 is connected with one end of a screw 44, and the other end of the screw 44 is in threaded connection with the right end of the sliding plate 38.

The technical scheme has the working principle and beneficial technical effects that: the groove type bridge after stamping forming is placed between the two polishing sheets 35, the driving motor 45 is started to drive the two hemispheres 41 to rotate, the hemispheres 41 are contacted with the polishing sheets 35 to drive the two polishing sheets 35 to rotate simultaneously, the groove type bridge passes through the space between the two polishing sheets 35, the side wall of the groove type bridge is polished to remove rust and burrs, and the surface quality of the groove type bridge is ensured; when the width of the groove bridge varies, the adjusting motor 43 is started to drive the screw 44, the screw 44 and the sliding plate 38 are used for driving the sliding plate 38 to reciprocate left and right along the sliding rail 37, the hemispheroid 41 is driven to reciprocate left and right, under the elastic force of the second spring 42, the polishing sheets 35 are always contacted with the spherical surface of the hemispheroid 41, the two polishing sheets 35 are enabled to be close to or far away from each other along the guide key 34, and the distance between the two polishing sheets is changed, so that the groove bridge with different widths can be polished and derusted.

firstly, placing a material plate 15 on a belt conveyor 7, and driving the material plate 15 to move between two pressing blocks 6;

step two, starting a first hydraulic cylinder 4 to drive a die 5 to punch a material plate 15 downwards;

and thirdly, starting a second hydraulic cylinder 8 to drive a pressing block 6 to punch the side wall of the groove-shaped bridge frame again, and forming the groove-shaped bridge frame.

The technical scheme has the working principle and beneficial technical effects that: the first hydraulic cylinder is started to drive the die to press down, and the second hydraulic cylinder is started to drive the two pressing blocks to press, so that the groove type bridge is formed, and the machining efficiency of the groove type bridge is improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. The utility model provides a slot type crane span structure stamping forming mould which characterized in that includes: base (1), mounting panel (2), backup pad (3), first pneumatic cylinder (4), mould (5), briquetting (6) and band conveyer (7), base (1) top is provided with mounting panel (2), base (1) are connected through backup pad (3) with mounting panel (2), backup pad (3) bottom is provided with first pneumatic cylinder (4), the output of first pneumatic cylinder (4) is connected with mould (5) downwards, the interval is provided with two briquetting (6) on base (1), briquetting (6) left side is provided with band conveyer (7);

still include automatic unloader, automatic unloader includes: the automatic feeding device comprises a feeding plate (13), stop rods (14), feeding plates (15), grooves (16), guide rods (17), first fixing blocks (18), sliding sleeves (19), sliding rods (20) and sliding blocks (21), wherein the feeding plate (13) is arranged above a base (1), the feeding plate (13) is connected with the base (1), the stop rods (14) are arranged at four corners of the feeding plate (13), a plurality of feeding plates (15) are arranged on the feeding plate (13) in a stacked mode, the bottom ends of the feeding plates (13) are provided with the grooves (16) in the horizontal direction, the guide rods (17) in the horizontal direction are arranged below the feeding plates (13), two ends of each guide rod (17) are connected with the two first fixing blocks (18) respectively, the first fixing blocks (18) are connected with the base (1), the sliding sleeves (19) are connected onto the guide rods (17) in a sliding mode, the sliding rods (20) in the vertical direction are arranged on the outer walls of the sliding sleeves (19), and the sliding rods (20) are connected with the sliding blocks (21) in a sliding mode;

the top end of the sliding block (21) is connected with one end of the L-shaped supporting plate (22), two poking columns (23) are arranged at intervals on the other end of the L-shaped supporting plate (22), a motor (24) is arranged above the base (1), the motor (24) is connected with the base (1), an output shaft of the motor (24) is connected with the rotating block (25), a rotating rod (26) penetrates through the rotating block (25) and is in sliding connection with the rotating block (25), one end of the rotating rod (26) is connected with one end of the L-shaped rotating plate (27), the other end of the L-shaped rotating plate (27) is connected with the sliding block (21) in a rotating way, a first spring (28) is sleeved on the rotating rod (26), one end of the first spring (28) is connected with the rotating block (25), and the other end of the first spring (28) is connected with the L-shaped rotating plate (27);

one end of the discharging plate (13) is provided with a guide plate (29), one end of the guide plate (29) far away from the discharging plate (13) is connected with one end of the inclined plate (30), and the other end of the inclined plate (30) extends to the upper part of the belt conveyor (7).

2. The slot type bridge stamping forming die according to claim 1, wherein two second hydraulic cylinders (8) are arranged on the base (1), the output ends of the second hydraulic cylinders (8) are connected with the pressing blocks (6), limiting strips (9) are arranged at the top ends of the pressing blocks (6), and guide wheels (10) are arranged on opposite sides of the two limiting strips (9).

3. The slot bridge stamping forming die of claim 1, wherein embossing is arranged at the bottom end of the die (5) and the side wall of the pressing block (6).

4. The stamping forming die for the slot bridge frame according to claim 1, wherein four supporting rods (11) are symmetrically arranged at the bottom end of the base (1), and rollers (12) are arranged at the bottom ends of the supporting rods (11).

5. The slot bridge stamping forming die as claimed in claim 1, characterized in that the base (1) is provided with a grinding device comprising: the utility model discloses a box (31), first supporting shoe (32), first pivot (33), guide key (34), polishing piece (35), opening (36), slide rail (37) and slide (38), be provided with box (31) on base (1), the interval is provided with two first supporting shoe (32) in box (31), first pivot (33) both ends respectively with two first supporting shoe (32) rotate to be connected, be provided with guide key (34) along length direction extension on the outer wall of first pivot (33), the interval is provided with two polishing piece (35) on first pivot (33), polishing piece (35) can be along guide key (34) reciprocal slip, be provided with opening (36) on the lateral wall of box (31), two polishing piece (35) one side pass opening (36) and extend to the outside of box (31), be provided with slide rail (37) of horizontal direction in box (31), slide rail (37) are connected with the inner wall of box (31), sliding connection has (38) on slide rail (37), be provided with second supporting shoe (39) along length direction extension on the outer wall, second motor (40) are connected with second pivot (40) and second pivot (45) are connected with second pivot (40) and drive motor (40) are connected with the other end (45), the first rotating shaft (33) is parallel to the second rotating shaft (40), two hemispheres (41) are coaxially arranged on the second rotating shaft (40), the spherical surfaces of the two hemispheres (41) are oppositely arranged, the spherical surfaces of the hemispheres (41) are contacted with the circumferential outer wall of the polishing sheet (35), a second spring (42) is sleeved on the first rotating shaft (33), two ends of the second spring (42) are contacted with the two polishing sheets (35), an adjusting motor (43) is arranged on the inner wall of the box body (31), the output shaft of the adjusting motor (43) is connected with one end of a screw rod (44), and the other end of the screw rod (44) is in threaded connection with the right end of the sliding plate (38).

6. A stamping method, suitable for a slot bridge stamping die as claimed in any one of claims 1 to 5, comprising the steps of:

firstly, placing a material plate (15) on a belt conveyor (7) to drive the material plate (15) to move between two pressing blocks (6);

step two, starting a first hydraulic cylinder (4) to drive a die (5) to punch a material plate (15) downwards;

and thirdly, starting a second hydraulic cylinder (8) to drive a pressing block (6) to punch the side wall of the groove-shaped bridge frame again, and forming the groove-shaped bridge frame.