CN216989399U - Stamping equipment for post-cast strip supporting baffle - Google Patents

Abstract

The utility model discloses stamping equipment for a post-cast strip support baffle, and belongs to the technical field of post-cast strip support baffle processing. The stamping equipment comprises a stamping equipment body, wherein the stamping equipment body is used for stamping a steel strip coil to form a plurality of protruding structures on the steel strip coil and form a plurality of skirt edges on one side of the steel strip coil, so that an intermediate body of the post-cast strip support baffle is manufactured; the stamping equipment body comprises a cylinder, an upper base, a lower base, an upper die block assembly and a lower die block assembly; the upper base is arranged above the lower base, the upper die block assembly and the lower die block assembly are arranged between the upper base and the lower base, and the upper die block assembly is positioned above the lower die block assembly. It can process longer stamping workpiece, and can not make the stamping workpiece card to the punching press grinding apparatus in, can be fine demold, guarantees stamping equipment's normal use processing, and can carry out fine collection to the piece of punching press shearing.

Description

Stamping equipment for post-cast strip supporting baffle

Technical Field

The utility model relates to the technical field of processing of a supporting baffle of a casting belt, in particular to stamping equipment for a supporting baffle of a post-casting belt.

Background

The punching machine is a punching press, and in national production, the punching process has the advantages of material and energy conservation, high efficiency, low technical requirement on operators and capability of manufacturing products which cannot be machined by applying various dies, so that the punching machine is more and more widely applied.

The stamping is a forming method for obtaining a workpiece with a required shape and size by applying external force to plates, strips, pipes, profiles and the like by a press and a die to cause plastic deformation or separation, and generally stamping and forming are carried out by using stamping equipment in the process of processing and forming each mechanical part.

The post-cast strip is a temporary construction joint set in a building, and the joint is cast after being retained for a period of time.

The conventional post-cast strip construction needs to be supported by using a template, in the existing construction mode, a reinforcing steel bar protection layer filler strip is usually laid on a bottom die, then a lower layer of reinforcing steel bars are bound, a lower layer of template is installed above the reinforcing steel bar protection layer filler strip, an upper layer of reinforcing steel bars is bound above the lower layer of template, and finally an upper layer of template is installed above the lower layer of template. After concrete pouring is finished, the upper-layer template, the lower-layer template and the reinforcing steel bar protection layer filler strip need to be disassembled. The existing post-cast strip construction pouring is troublesome.

The post-cast strip template used for post-cast strip construction pouring is improved, and the post-cast strip after improvement is longer.

The improved post-cast strip baffle is longer in length, and the existing stamping equipment cannot process the improved post-cast strip baffle; the existing stamping equipment can not well process longer stamping parts, the stamping parts can be clamped into a stamping grinding tool easily, demolding can not be carried out well, normal use and processing of the stamping equipment are guaranteed, and fragments generated by stamping shearing can not be collected well.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide stamping equipment for a post-cast strip supporting baffle, which can be used for processing a longer stamping part, can not clamp the stamping part into a stamping grinding tool, can well perform demoulding, ensures normal use and processing of the stamping equipment, and can well collect fragments sheared by stamping.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The stamping equipment comprises a stamping equipment body, wherein the stamping equipment body is used for stamping a steel strip coil to form a plurality of protruding structures on the steel strip coil and form a plurality of skirt edges on one side of the steel strip coil, so that an intermediate body of the post-cast strip support baffle is manufactured; the stamping equipment body comprises a cylinder, an upper base, a lower base, an upper die block assembly and a lower die block assembly; the upper base is arranged above the lower base, the upper pressing module assembly and the lower pressing module assembly are arranged between the upper base and the lower base, and the upper pressing module assembly is positioned above the lower pressing module assembly; the cylinder is arranged on the upper base, and the output end of the cylinder is fixedly connected with the upper die block assembly; the pressing module assembly is arranged on the lower base; the steel strip coil penetrates between the upper pressing module assembly and the lower pressing module assembly; the cylinder drives the upper die block assembly to move towards the direction close to the lower die block assembly, so that the steel strip coil is punched to form a plurality of protruding structures and one side of the steel strip coil is punched to form a plurality of skirt edges.

Preferably, the upper die block assembly comprises an upper die base, an upper clamping plate, a stripper plate, a plurality of springs, a row of punches and a plurality of protrusions; the upper clamping plate is connected to the bottom end of the upper die base, the stripper plate is arranged below the upper clamping plate, the plurality of springs are arranged between the upper clamping plate and the stripper plate, one end of each spring is fixedly connected with the upper clamping plate, and the other end of each spring is fixedly connected with the stripper plate; the plurality of bulges are arranged at the bottom end of the stripper plate; one row of punches are arranged on the front side of the bottom end of the upper clamping plate, one ends of the punches, far away from the upper clamping plate, can penetrate through the stripper plate and extend to the lower part of the stripper plate, and the row of punches are positioned on the front sides of the bulges; the lower pressing module assembly comprises a lower template, a lower die holder, a plurality of grooves and a row of first through holes; the lower template is connected above the lower die base, a plurality of grooves are formed in the top wall of the lower template, the shapes of the bulges and the grooves are matched, and the bulges move downwards into the grooves so that the steel strip is rolled up and stamped to form a plurality of bulge structures; a row of first through-holes are opened at the lower bolster roof, and the drift matches with first through-hole shape, and the drift can penetrate to in the first through-hole, and the drift penetrates to make one side of coil of strip in the first through-hole by the punching press shearing form a plurality of skirts.

Preferably, two groups of guide post and guide sleeves are arranged between the upper die holder and the lower die holder, the two groups of guide post and guide sleeves are respectively positioned on the front side and the rear side of the lower die plate, and the upper clamping plate and the stripper plate are positioned between the two groups of guide post and guide sleeves.

Preferably, two sets of inner guide pillars are installed on the upper clamp plate, inner guide pillar holes are formed in the lower die plate, one end, far away from the upper clamp plate, of each inner guide pillar penetrates through the stripper plate and extends to the position below the stripper plate, and the bottom end of each inner guide pillar can penetrate into each inner guide pillar hole.

Preferably, a plurality of stoppers are installed on the lower die holder top, and a plurality of stoppers averagely divide into two sets of stoppers, and two sets of stoppers are located both sides around the lower bolster respectively.

Preferably, two height-adjusting plates are arranged between the lower die holder and the lower base and are arranged in parallel along the width direction of the upper surface of the lower base.

Preferably, a group of blanking holes are formed in the lower die base, the group of blanking holes are formed in the top wall of the lower die base, the blanking holes are located right below the first through holes, and the size of the cross section of each blanking hole is not smaller than that of the cross section of each first through hole.

Preferably, the two heightening plates, the lower die holder and the lower base enclose a cavity with openings at the left end and the right end, and a material receiving box is placed in the cavity.

Preferably, a feeding flattening machine is installed at the right side end of the stamping equipment body, a feeding sensor is arranged on the feeding flattening machine, a position sensor is arranged between the upper base and the upper die block assembly, the position sensor is installed at the bottom end of the upper base, and the position sensor is used for monitoring the position of the upper die block assembly; the lower die plate is provided with a limiting pressing flat plate close to the top wall at one end of the feeding and pressing machine.

Preferably, install two sets of buoyancy-lift guide pins on the lower bolster at least, take off and be provided with on the flitch with buoyancy-lift guide pin top assorted buoyancy-lift guide pin spacing groove, two sets of buoyancy-lift guide pins are located the front and back both sides of steel tape roll respectively, and the notch has been seted up to buoyancy-lift guide pin right side wall, and the notch is the quad slit, and the notch is passed on the limit of steel tape roll, and the notch carries on spacingly to the limit of steel tape roll.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) according to the arrangement of the feeding flattening machine and the limiting pressing flat plate, on one hand, the feeding flattening machine is used for conveying the steel strip coil with the preset length between the upper pressing module component and the lower pressing module component, on the other hand, the bent steel strip coil is flattened, and the upper pressing module component and the lower pressing module component can conveniently process the steel strip coil; the combined action of the feeding flattening machine and the limiting pressing flat plate guarantees that the positions of the steel strip coil between the upward pressing module component and the downward pressing module component are consistent all the time, so that the produced longer stamped part is manufactured by stamping processing through stamping equipment at the same time, the lengths of the machined skirt rims are consistent, and the processing accuracy is high.

(2) Through the arrangement of the feeding sensor and the position sensor, when the feeding flatting mill carries out feeding, the feeding sensor can transmit information to the position sensor, and the position sensor controls the upper die block assembly not to move downwards; when the position sensor monitors that the upper die block assembly moves upwards, the collected information is transmitted to the feeding sensor, and the feeding sensor controls the starting of the feeding flattening machine to ensure the normal conveying of the steel strip coil; when the position sensor monitors that the upper die block assembly moves downwards, the collected information is transmitted to the feeding sensor, and the feeding sensor controls the feeding flatting machine to stop working, so that the feeding flatting machine and the stamping equipment are ensured to be carried out orderly.

(3) Through the arrangement of the spring, the stripper plate and the buoyancy lifting guide pin, when the upper die block component moves towards the direction close to the lower die block component, the buoyancy lifting guide pin moves into the top end to the buoyancy lifting guide pin limiting groove, the buoyancy lifting guide pin limiting groove limits the buoyancy lifting guide pin, when the upper die block component continues to move towards the direction close to the lower die block component, the bulge gradually moves towards the groove, so that the steel strip is rolled up and stamped to form a plurality of bulge structures, when the stripper plate continues to move downwards and gradually flattens and compresses the steel strip roll on the lower die plate, the top end of the buoyancy lifting guide pin moves downwards relative to the top wall of the lower die plate, when the upper clamp plate continues to move downwards, the upper clamp plate moves downwards relative to the stripper plate, the spring is compressed, the stripper plate is driven by the compression spring to compress the stripper plate, thereby the stripper plate compresses and flattens the steel strip roll, the row of punches move downwards relative to the stripper plate to shear the flattened steel strip coil to enable edges of the steel strip coil to form a plurality of skirt edges, after punching and shearing are completed, when the upper die block assembly moves towards a direction far away from the lower die block assembly, the upper clamping plate moves upwards, the row of punches move upwards relative to the stripper plate, when the spring returns to an initial position, the upper clamping plate can drive the stripper plate to move upwards through the spring when moving upwards, the limit of the buoyancy lifting guide pin is cancelled while the buoyancy lifting guide pin limiting groove moves upwards, and the buoyancy lifting guide pin moves upwards to drive the steel strip coil to move upwards to enable an intermediate to be separated from the groove and separate from the lower die block assembly as the edges of the steel strip coil pass through the notch; when the stripper plate continues to move upwards, the notches on the material guide pins are lifted in a floating manner to separate the intermediate from the upper die block assembly, so that demoulding is smoothly realized.

(4) The utility model discloses a two heightening boards and the setting that connects the workbin, heightening board is used for heightening on the one hand and goes up the distance between the module subassembly and push down the module subassembly, and on the other hand and die holder and base enclose into about one both ends all have the open-ended cavity, connect the workbin to place and be used for collecting the piece etc. that the punching press was cuted and is produced in this cavity, avoid the piece to make all everywhere, inconvenient clearance and clean.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion of the present invention;

FIG. 3 is a schematic structural view of a steel strip coil before and after punching;

FIG. 4 is a schematic view of the feed leveler of the present invention;

FIG. 5 is a schematic perspective view of the upper die block assembly, the lower die block assembly, the limiting block, the heightening plate and the material receiving box of the present invention;

FIG. 6 is a schematic structural view of the push down module assembly, the height adjusting plate, the material receiving box and the limiting block of the present invention;

FIG. 7 is a schematic structural view of the upper die block assembly of the present invention;

FIG. 8 is a schematic structural view of the height adjusting plate and the limiting block of the push-down module assembly of the present invention;

FIG. 9 is a schematic diagram of the structure of an intermediate of the present invention.

The reference numbers in the figures illustrate:

25 air cylinders, 26 upper bases, 27 lower bases, 28 upper die block assemblies, 281 upper die bases, 282 upper clamping plates, 283 stripper plates, 284 springs, 285 punches, 286 protrusions, 29 lower die block assemblies, 291 lower die plates, 292 lower die bases, 293 grooves, 294 first through holes, 295 blanking holes, 30 steel strip coils, 301 protrusion structures, 302 skirts, 31 guide post guide sleeves, 32 inner guide posts, 321 inner guide post holes, 33 limiting blocks, 34 heightening plates, 35 material receiving boxes, 36 material feeding flatters 371, 37 buoyancy lifting guide pins, buoyancy lifting guide pin limiting grooves and 38 intermediate bodies.

Detailed Description

Referring to fig. 1-9, the post-cast strip retaining plate punching device includes a punching device body, the punching device body is used for punching a steel strip coil 30 to punch the steel strip coil 30 to form a plurality of protrusion structures 301 and to form a plurality of skirt edges 302 on one side of the steel strip coil 30, so as to manufacture a middle body 38 of the post-cast strip retaining plate; the stamping equipment body comprises a cylinder 25, an upper base 26, a lower base 27, an upper die block assembly 28 and a lower die block assembly 29; the upper base 26 is arranged above the lower base 27, the upper die block assembly 28 and the lower press module assembly 29 are arranged between the upper base 26 and the lower base 27, and the upper die block assembly 28 is positioned above the lower press module assembly 29; the cylinder 25 is arranged on the upper base 26, and the output end of the cylinder 25 is fixedly connected with the upper die block assembly 28; the push-down module assembly 29 is disposed on the lower base 27; the steel strip coil 30 passes between the upper die block assembly 28 and the lower die block assembly 29; the cylinder 25 drives the upper die block assembly 28 to move towards the direction close to the lower die block assembly 29, so that a plurality of convex structures 301 are formed by stamping the steel strip coil 30, and a plurality of skirts 302 are formed by stamping one side of the steel strip coil 30.

The upper die block assembly 28 includes an upper die base 281, an upper clamping plate 282, a stripper plate 283, a plurality of springs 284, an array of punches 285, and a plurality of protrusions 286; the upper clamping plate 282 is connected with the bottom end of the upper die holder 281, the stripper plate 283 is arranged below the upper clamping plate 282, a plurality of springs 284 are arranged between the upper clamping plate 282 and the stripper plate 283, one end of each spring 284 is fixedly connected with the upper clamping plate 282, and the other end of each spring 284 is fixedly connected with the stripper plate 283; a plurality of protrusions 286 are arranged at the bottom end of the stripper plate 283; a row of punches 285 are arranged at the front side of the bottom end of the upper clamping plate 282, one ends of the punches 285 far away from the upper clamping plate 282 can extend below the stripper plate 283 through the stripper plate 283, and the row of punches 285 are positioned at the front side of the plurality of protrusions 286; the lower press module assembly 29 comprises a lower template 291, a lower die holder 292, a plurality of grooves 293 and a row of first through holes 294; the lower die plate 291 is connected above the lower die base 292, a plurality of grooves 293 are formed in the top wall of the lower die plate 291, the protrusions 286 are matched with the grooves 293 in shape, and the protrusions 286 move downwards into the grooves 293 so that the steel strip coil 30 is stamped to form a plurality of protrusion structures 301; a row of first through holes 294 are formed in the top wall of the lower die plate 291, the shape of the punch 285 is matched with that of the first through holes 294, the punch 285 can penetrate into the first through holes 294, and the punch 285 penetrates into the first through holes 294 to enable one side of the steel strip coil 30 to be punched and cut to form a plurality of skirts 302.

Two groups of guide post guide sleeves 31 are arranged between the upper die holder 281 and the lower die holder 292 and used for guiding the lower die holder 292 and the upper die holder 281 to ensure that the relative positions of the lower die holder 292 and the upper die holder 281 are accurate, the two groups of guide post guide sleeves 31 are respectively positioned at the front side and the rear side of the lower die plate 291, and the upper clamping plate 282 and the stripper plate 283 are positioned between the two groups of guide post guide sleeves 31.

Two groups of inner guide posts 32 are mounted on the upper clamping plate 282, inner guide post holes 321 are formed in the lower template 291, one ends, far away from the upper clamping plate 282, of the inner guide posts 32 penetrate through the stripper plate 283 to extend to the lower side of the stripper plate 283, and the bottom ends of the inner guide posts 32 can penetrate into the inner guide post holes 321.

A plurality of stoppers 33 are installed on lower bolster 292 top, and the roof of stopper 33 is located lower bolster 291 top, prevents to go up moulding-die block subassembly 28 and the high mistake that sets up of pushing down module subassembly 29, and damages the mould, protects the mould, and a plurality of stoppers 33 averagely divide into two sets of stoppers 33, and two sets of stoppers 33 are located lower bolster 291 front and back both sides respectively.

Two height-adjusting plates 34 are installed between the lower die holder 292 and the lower base 27, and the two height-adjusting plates 34 are arranged in parallel along the width direction of the upper surface of the lower base 27.

The lower die holder 292 is provided with a group of blanking holes 295, the group of blanking holes are formed in the top wall of the lower die holder 292, the blanking holes 295 are located right below the first through holes 294, and the cross section of the blanking holes 295 is not smaller than that of the first through holes 294.

The two height-adjusting plates 34, the lower die holder 292 and the lower base 27 form a chamber with openings at the left end and the right end, and a material receiving box 35 is placed in the chamber.

The right side end of the stamping device body is provided with a feeding flattening machine 36, and the feeding flattening machine 36 is a known existing product. A feeding sensor is arranged on the feeding flatting machine 36, a position sensor is arranged between the upper base 26 and the upper die block assembly 28, the position sensor is installed at the bottom end of the upper base 26, and the position sensor is used for monitoring the position of the upper die block assembly 28; the lower die plate 291 is provided with a limiting material pressing plate near the top wall of one end of the feeding flatting machine 36.

At least two groups of buoyancy lifting guide pins 37 are installed on the lower template 291, a buoyancy lifting guide pin limiting groove 371 matched with the top end of the buoyancy lifting guide pin 37 is arranged on the stripper plate 283, the two groups of buoyancy lifting guide pins 37 are respectively positioned on the front side and the rear side of the steel strip coil 30, a notch is formed in the right side wall of the buoyancy lifting guide pin 37 and is a square hole, the edge of the steel strip coil 30 penetrates through the notch, and the edge of the steel strip coil 30 is limited by the notch.

Starting the feeding flatting machine 36, flatly pressing the steel strip coil 30 by the feeding flatting machine 36, enabling the flatly pressed steel strip coil 30 to penetrate through a limiting material pressing flat plate, sending the steel strip coil 30 between the upper pressing module assembly 28 and the lower pressing module assembly 29, enabling the length of the sent steel strip coil 30 to be a preset length, and limiting the position of the steel strip coil 30 on the lower template 291 by the limiting material pressing flat plate; the cylinder 25 is started, the cylinder 25 drives the upper die block assembly 28 to move towards the direction close to the lower die block assembly 29, the inner guide post 32 firstly penetrates into the inner guide post hole 321, the positions of the lower die plate 291, the upper clamping plate 282 and the stripper plate 283 are guided, the accuracy of the lower die plate 291, the upper clamping plate 282 and the stripper plate 283 is ensured, the top end of the buoyancy lifting guide pin 37 moves into the buoyancy lifting guide pin limiting groove 371, and the buoyancy lifting guide pin limiting groove 371 limits the buoyancy lifting guide pin 37; when the upper die block assembly 28 moves towards the direction close to the lower die block assembly 29, the protrusions 286 gradually move towards the grooves 293, so that the steel strip coil 30 is stamped to form a plurality of protrusion structures 301, and when the stripper plate 283 continues to move downwards and gradually flattens and compacts the steel strip coil 30 on the lower die plate 291 again, the top end of the buoyancy lifting guide pin 37 moves downwards relative to the top wall of the lower die plate 291; when the upper clamping plate 282 continues to move downwards, the upper clamping plate 282 moves downwards relative to the stripper plate 283, the spring 284 is compressed, the stripper plate 283 is driven by the compression spring 284 to compress and flatten the steel strip coil 30, the punch 285 moves downwards relative to the stripper plate 283 to penetrate into the first through hole 294 to shear the flattened steel strip coil 30, so that one side of the steel strip coil 30 forms a skirt 302, the sheared fragments enter the material receiving box 35 through the first through hole 294 and the blanking hole 295, and after the punching shearing is completed, the steel strip coil 30 is punched and sheared to form the intermediate body 38; the upper clamping plate 282 continues to move upward, and the row of punches 285 move upward relative to the stripper plate 283; when the spring 284 returns to the initial position, the upper clamping plate 282 can drive the stripper plate 283 to move upwards through the spring 284 when moving upwards, the floating guide pin limiting groove 371 moves upwards and simultaneously cancels the limitation of the floating guide pin 37, and as the edge of the steel strip coil 30 passes through the groove opening, the floating guide pin 37 moves upwards to drive the steel strip coil 30 to move upwards, so that the middle body 38 is separated from the groove 293, and the middle body 38 is separated from the lower pressing module assembly 29; when the stripper plate 283 continues to move upwards, the notches on the guide pins 37 are lifted to separate the intermediate body 38 from the upper die block assembly 28, so that the stamped intermediate body 38 can be smoothly stripped.

During movement of the upper die block assembly 28 away from the lower die block assembly 29, a position sensor monitors the position of the upper die block assembly 28 and communicates information to a feed sensor which controls the actuation of a feed leveler 36, which feeds a coil of steel 30 and removes an intermediate body 38 from between the upper die block assembly 28 and the lower die block assembly 29.

Claims (10)

1. The utility model provides a baffle stamping equipment is strutted to post-cast strip which characterized in that: the post-cast strip supporting baffle plate manufacturing method comprises a stamping equipment body, wherein the stamping equipment body is used for stamping a steel strip coil (30) to enable the steel strip coil (30) to be stamped to form a plurality of protruding structures (301) and one side of the steel strip coil (30) to form a plurality of skirt edges (302), and then an intermediate body (38) of the post-cast strip supporting baffle plate is manufactured;

the stamping equipment body comprises a cylinder (25), an upper base (26), a lower base (27), an upper die block assembly (28) and a lower die block assembly (29);

the upper base (26) is arranged above the lower base (27), the upper die block assembly (28) and the lower pressing module assembly (29) are arranged between the upper base (26) and the lower base (27), and the upper die block assembly (28) is positioned above the lower pressing module assembly (29);

the cylinder (25) is arranged on the upper base (26), and the output end of the cylinder (25) is fixedly connected with the upper die block assembly (28);

the pressing module assembly (29) is arranged on the lower base (27);

the steel strip coil (30) penetrates between the upper die block assembly (28) and the lower die block assembly (29);

the cylinder (25) drives the upper die block assembly (28) to move towards the direction close to the lower die block assembly (29), so that the steel strip coil (30) is stamped to form a plurality of convex structures (301) and one side of the steel strip coil (30) is stamped to form a plurality of skirts (302).

2. The post-cast strip support baffle stamping equipment of claim 1, wherein:

the upper die block assembly (28) comprises an upper die base (281), an upper clamping plate (282), a stripper plate (283), a plurality of springs (284), a row of punches (285) and a plurality of protrusions (286);

the upper clamping plate (282) is connected to the bottom end of the upper die holder (281), the stripper plate (283) is arranged below the upper clamping plate (282), the plurality of springs (284) are arranged between the upper clamping plate (282) and the stripper plate (283), one end of each spring (284) is fixedly connected with the upper clamping plate (282), and the other end of each spring is fixedly connected with the stripper plate (283);

the plurality of protrusions (286) are arranged at the bottom end of the stripper plate (283);

a row of punches (285) are arranged on the front side of the bottom end of the upper clamping plate (282), one ends of the punches (285) far away from the upper clamping plate (282) can extend below the stripper plate (283) through the stripper plate (283), and the row of punches (285) are positioned on the front sides of the plurality of bulges (286);

the pressing module assembly (29) comprises a lower template (291), a lower die holder (292), a plurality of grooves (293) and a row of first through holes (294);

the lower die plate (291) is connected above the lower die base (292), a plurality of grooves (293) are formed in the top wall of the lower die plate (291), the protrusions (286) are matched with the grooves (293) in shape, and the protrusions (286) move downwards into the grooves (293) to enable the steel strip coil (30) to be stamped to form a plurality of protrusion structures (301);

a row of first through holes (294) are formed in the top wall of the lower die plate (291), the punch (285) is matched with the first through holes (294) in shape, the punch (285) can penetrate into the first through holes (294), and the punch (285) penetrates into the first through holes (294) to enable one side of the steel strip coil (30) to be punched and sheared to form a plurality of skirt edges (302).

3. The post-cast strip support baffle stamping equipment of claim 2, wherein: two groups of guide post guide sleeves (31) are arranged between the upper die holder (281) and the lower die holder (292), the two groups of guide post guide sleeves (31) are respectively positioned at the front side and the rear side of the lower die plate (291), and the upper clamping plate (282) and the stripper plate (283) are positioned between the two groups of guide post guide sleeves (31).

4. The post-cast strip support baffle stamping equipment of claim 2, wherein: two groups of inner guide posts (32) are mounted on the upper clamping plate (282), inner guide post holes (321) are formed in the lower template (291), one ends, far away from the upper clamping plate (282), of the inner guide posts (32) penetrate through the stripper plate (283) to extend to the lower side of the stripper plate (283), and the bottom ends of the inner guide posts (32) can penetrate into the inner guide post holes (321).

5. The post-cast strip support baffle stamping equipment of claim 2, wherein: a plurality of stopper (33) are installed on lower bolster (292) top, and a plurality of stopper (33) are evenly divided into two sets of stopper (33), and two sets of stopper (33) are located lower bolster (291) front and back both sides respectively.

6. The post-cast strip support baffle stamping equipment of claim 2, wherein: two height-adjusting plates (34) are arranged between the lower die holder (292) and the lower base (27), and the two height-adjusting plates (34) are arranged in parallel along the width direction of the upper surface of the lower base (27).

7. The post-cast strip support baffle stamping equipment of claim 2, characterized in that: a group of blanking holes (295) are formed in the lower die seat (292), the group of blanking holes are formed in the top wall of the lower die seat (292), the blanking holes (295) are located right below the first through holes (294), and the cross section size of the blanking holes (295) is not smaller than that of the first through holes (294).

8. The post-cast strip support baffle stamping equipment of claim 7, wherein: two heightening plates (34), a lower die holder (292) and a lower base (27) enclose a chamber with openings at the left end and the right end, and a material receiving box (35) is placed in the chamber.

9. The post-cast strip support baffle stamping equipment of claim 2, characterized in that: a feeding flattening machine (36) is installed at the right side end of the stamping equipment body, a feeding sensor is arranged on the feeding flattening machine (36), a position sensor is arranged between the upper base (26) and the upper die block assembly (28), the position sensor is installed at the bottom end of the upper base (26), and the position sensor is used for monitoring the position of the upper die block assembly (28); the lower die plate (291) is provided with a limiting material pressing flat plate close to the top wall of one end of the feeding flatting machine (36).

10. The post-cast strip support baffle stamping equipment of claim 2, characterized in that: at least two groups of buoyancy lifting guide pins (37) are installed on the lower template (291), a buoyancy lifting guide pin limiting groove (371) matched with the top end of the buoyancy lifting guide pin (37) is formed in the stripper plate (283), the two groups of buoyancy lifting guide pins (37) are respectively located on the front side and the rear side of the steel tape roll (30), notches are formed in the right side wall of the buoyancy lifting guide pin (37), the notches are square holes, the edges of the steel tape roll (30) penetrate through the notches, and the notches limit the edges of the steel tape roll (30).

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