CN220259292U - Oblique iron stamping device - Google Patents

Abstract

The application relates to a wedge stamping device belongs to stamping device's field, and it includes the supporting seat, fixedly connected with punching press layer board on the supporting seat, the supporting seat top is equipped with the holding down plate, one side of holding down plate is connected with and is used for driving the lift pneumatic cylinder that the holding down plate removed, one side of holding down plate be connected with be used for with the butt board that the punching press layer board contacted, butt board with be connected with a plurality of compression springs between the holding down plate, one side fixedly connected with of holding down plate a plurality of punching press pieces, butt board with all be equipped with the confession on the holding down plate the through-hole that the punching press piece passed, the supporting seat is connected with and is used for driving to place steel band on the punching press layer board removes the material subassembly that moves. The method has the effect of facilitating the process of moving the steel strip in the stamping process.

Description

Oblique iron stamping device

Technical Field

The application relates to the field of stamping devices, in particular to a wedge stamping device.

Background

The oblique iron is a limiting piece for connecting the square column buckle and the beam clamp. The cross section of the oblique iron is isosceles triangle, which is mainly formed by punching.

In the production process of the square column buckle, steel strips are generally adopted as raw materials for stamping, and the moving distance of the steel strips is manually controlled by staff in the stamping process, so that the continuous stamping process is realized.

Through the manual travel distance who controls the steel band of staff, need the staff to hold the steel band and remove the steel band to the suitable position in the in-process of production continuously, it is comparatively troublesome.

Disclosure of Invention

In order to facilitate the process of moving the steel strip in the stamping process, the application provides a diagonal iron stamping device.

The application provides a wedge stamping device adopts following technical scheme:

the utility model provides a diagonal iron stamping device, includes the supporting seat, fixedly connected with punching press layer board on the supporting seat, the supporting seat top is equipped with the holding down plate, one side of holding down plate is connected with and is used for driving the lift pneumatic cylinder that the holding down plate removed, one side of holding down plate be connected with be used for with the butt board of punching press layer board contact, butt board with be connected with a plurality of compression springs between the holding down plate, one side fixedly connected with punching press piece of holding down plate, butt board with all be equipped with the confession on the holding down plate the through-hole that the punching press piece passed, the supporting seat is connected with and is used for driving place steel band on the punching press layer board removes the material subassembly that moves.

Through adopting above-mentioned technical scheme, place the steel band on the punching press layer board, afterwards start the butt board and the punching press piece that lift pneumatic cylinder drove holding down plate and holding down plate one side connection move to being close to one side of punching press layer board, afterwards make butt board and punching press layer board carry out the butt, the holding down plate drives butt board and continues to move downwards, make the punching press piece can pass in the butt board pegging graft the through-hole to the punching press layer board, thereby realize the punching process to the steel band, after punching a hole, the material subassembly is moved in the opening and is moved the steel band and remove, thereby carry out subsequent punching process, drive the steel band through the material subassembly and remove, thereby reduce the trouble that needs the staff to move the steel band by the people.

Optionally, move the material subassembly include with punching press layer board fixed connection move the material and prolong the board, move the material and prolong board upper side sliding connection and move the material piece, it is connected with and is used for driving to move the material piece and be close to or keep away from the removal pneumatic cylinder that one side of punching press layer board removed to move the material piece, move on the material piece along with move the direction looks vertically of material piece direction sliding connection have the movable block, move the material piece be connected with run through the movable block and with movable block threaded connection move the material lead screw, move the one end of material lead screw be connected with be used for driving move the pivoted material motor of material lead screw, one side of movable block is connected with can drive move the material board that moves of steel band on the butt board.

Through adopting above-mentioned technical scheme, when the steel band on the punching press layer board is removed to the material subassembly that needs to move, starts and moves the pneumatic cylinder and drive the movable block and move the flitch to being connected with the movable block and remove to being close to one side of punching press layer board to make to move the flitch and can contact with the steel band on the punching press layer board, later start and move the material motor, move the material motor and drive the movable block through moving the material lead screw and remove, the in-process that the movable block removed drives and moves the flitch, moves the flitch and drives the steel band and remove, thereby realize the process that moves the steel band through moving the material subassembly and drive.

Optionally, a plurality of material moving rollers are installed to the material moving board downside, and a plurality of material moving rollers's one side all can contact with the steel band of placing on the punching press layer board, and every material moving roller all sets up perpendicularly with the material moving lead screw that is connected.

Through adopting above-mentioned technical scheme, owing to move the existence of material gyro wheel for move the flitch in the in-process of removing to the steel band top, can make through the roll of moving the material gyro wheel move the flitch can be more convenient remove to the steel band on, and move the flitch and drive the in-process of steel band owing to gyro wheel and the perpendicular setting of the direction of movement of steel band, consequently make to move the flitch and can drive the steel band and remove.

Optionally, a plurality of butt balls are installed to the upper surface of punching press layer board, and every butt ball can all carry out the butt with the steel band.

By adopting the technical scheme, due to the existence of the abutting balls, the phenomenon that the steel belt is difficult to drive to move due to the fact that the material moving plate is difficult to drive the steel belt to move due to the fact that larger friction exists between the steel belt and the punching supporting plate in the moving process is reduced.

Optionally, a blanking assembly for receiving the waste on the stamping supporting plate is arranged on one side of the supporting seat.

By adopting the technical scheme, the trouble that the staff collects the steel strip waste after stamping is finished is reduced due to the existence of the blanking component.

Optionally, the unloading subassembly is including arranging in the sediment storehouse of storing up of supporting seat one side, one side of butt board be connected with one end with the unloading board that the sediment storehouse links to each other, equal fixedly connected with can block the flange that the waste material dropped on two opposite lateral walls of unloading board.

Through adopting above-mentioned technical scheme, after the steel band punching press is accomplished, abandonment steel band removes to flitch department under the drive of moving the material subassembly, and the steel band drops to the sediment storehouse inside storing up from flitch department afterwards to the realization is to abandonment steel band's collection process.

Optionally, each of the flanges is provided with a plurality of blanking rollers, one side of each of the blanking rollers can be abutted with waste materials on the blanking plate, the plurality of blanking rollers connected to the same flange are connected with the belt wheel through the belt, and one side of each of the plurality of blanking rollers connected to each flange, which is provided with one blanking roller, is connected with a blanking motor for driving the connected blanking rollers to rotate.

Through adopting above-mentioned technical scheme, at the in-process of unloading, start two unloading motors, every unloading motor drives a plurality of unloading rollers that are connected through belt and band pulley and rotates when driving the unloading roller pivoted that is connected to make a plurality of unloading rollers homoenergetic drive the abandonment steel band on the flitch and remove at pivoted in-process, thereby reduced the steel band and blockked up the emergence that is difficult to remove to the inside phenomenon of sediment storehouse on the flitch.

Optionally, one side fixedly connected with a plurality of direction depression bars of holding down plate, and the one end of every direction depression bar all runs through the butt board and with butt board sliding connection, set up on the punching press layer board a plurality of confession a plurality of the direction indent of direction depression bar grafting.

Through adopting above-mentioned technical scheme, owing to the existence of guide depression bar for can be through the guide depression bar with punch a hole the guide indent that sets up on the clamp plate and guide the butt plate with punch a hole the clamp plate before butt plate and punch a hole the clamp plate, thereby make the process of punching a hole can be more accurate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the steel belt on the stamping supporting plate is moved through the material moving assembly, so that a worker can conveniently punch the steel belt;

2. by the aid of the blanking assembly, the blanking and collecting processes of the steel strip waste can be achieved under the cooperation of the blanking assembly and the material moving assembly, and the process of collecting the waste steel strips by workers is reduced;

3. due to the existence of the plurality of blanking rollers, when the steel belt is moved onto the blanking plate, the steel belt can be driven to move through the rotation of the plurality of blanking rollers, so that the process of blocking the blanking plate by the waste steel belt is reduced.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a cross-sectional view of the overall structure of an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a blanking component in an embodiment of the present application.

Reference numerals illustrate: 1. a support base; 11. stamping the supporting plate; 111. punching a hole; 112. a guide pressing groove; 113. abutting the ball; 12. a blanking cavity; 13. a material conveying belt; 2. a lower pressing plate; 21. an abutting plate; 211. punching and perforating; 22. a pressure spring; 23. a guide compression bar; 24. stamping blocks; 3. a lifting hydraulic cylinder; 4. a material moving assembly; 41. a material moving and extending plate; 411. a moving port; 42. a material transferring block; 421. a connecting plate; 422. a material transferring groove; 43. a moving hydraulic cylinder; 44. a moving block; 45. a material moving screw rod; 46. a material moving motor; 47. a material moving plate; 471. a material moving roller; 5. a blanking assembly; 51. a slag storage bin; 52. a blanking plate; 521. a flange; 53. a blanking roller; 531. a blanking belt wheel; 54. a blanking belt; 55. and (5) blanking a motor.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-3.

The embodiment of the application discloses angle iron stamping device, refer to fig. 1, including supporting seat 1, the upper surface level of supporting seat 1 sets up, and the upper surface fixedly connected with of supporting seat 1 is the punching press layer board 11 of level setting. The upper side of supporting seat 1 is equipped with holding down plate 2, and holding down plate 2 level sets up and is located the punching press layer board 11 directly over, and the intermediate position of holding down plate 2 side of keeping away from punching press layer board 11 is connected with the lift pneumatic cylinder 3 that is used for driving holding down plate 2 and reciprocates. One side of the lower pressure plate 2 far away from the lifting hydraulic cylinder 3 is provided with an abutting plate 21 which is arranged in parallel with the lower pressure plate 2, and the abutting plate 21 is arranged opposite to the stamping supporting plate 11. A plurality of pressure springs 22 are connected between the lower pressure plate 2 and the abutting plate 21, each pressure spring 22 is vertically arranged, and the end part of each pressure spring is fixedly connected with the adjacent lower pressure plate 2 or abutting plate 21.

Referring to fig. 2, a plurality of punching blocks 24 are fixedly connected to one side of the lower pressing plate 2, which is close to the abutting plate 21, and each punching block 24 is adapted to the shape of the diagonal iron to be manufactured. The abutting plate 21 is provided with a plurality of punching holes 211 through which a plurality of punching blocks 24 pass, and the punching pallet 11 is also provided with a plurality of punching holes 111 through which a plurality of punching blocks 24 pass in the punching process. The supporting seat 1 is provided with a plurality of blanking cavities 12 which are formed in the inner side wall of the supporting seat 1 along the horizontal direction, in the embodiment, the number of the blanking cavities 12 and the number of the stamping blocks 24 are three, each blanking cavity 12 is communicated with one of the stamping holes 111 above, so that the stamped iron can pass through the corresponding stamping hole 111 to fall into the blanking cavity 12 communicated with the stamping hole 111. A material conveying belt 13 is arranged in each blanking cavity 12, so that the chute falling into the blanking cavity 12 can be conveyed under the action of the material conveying belt 13.

Four corners of the lower pressing plate 2 are fixedly connected with guide pressing rods 23, and each guide pressing rod 23 is perpendicular to the lower pressing plate 2. One side of each guide compression bar 23 far away from the lower compression plate 2 penetrates through the abutting plate 21 and is in sliding connection with the abutting plate 21. The corresponding positions of the stamping supporting plate 11 and each guiding pressing rod 23 are provided with guiding pressing grooves 112 for the guiding pressing rods 23 to be inserted.

One side of the abutting plate 21 is also connected with a material moving assembly 4, and the material moving assembly 4 can drive a steel belt placed on the abutting plate 21 to move.

When the operation of stamping the oblique iron is needed, the steel strip is placed on the abutting plate 21, then the lifting hydraulic cylinder 3 is started, the lifting hydraulic cylinder 3 drives the lower pressing plate 2 and three stamping blocks 24 connected with one side of the lower pressing plate 2 to move, the guide pressing rod 23 and the abutting plate 21 are simultaneously driven to move in the moving process of the lower pressing plate 2, the guide pressing rod 23 is firstly inserted into the guide pressing groove 112 on the stamping supporting plate 11, then the lifting hydraulic cylinder 3 continuously drives the lower pressing plate 2 to move, so that the abutting plate 21 is abutted with the stamping supporting plate 11, then in the continuously downward moving process of the lower pressing plate 2, the pressure springs 22 between the lower pressing plate 2 and the abutting plate 21 are compressed, so that a plurality of stamping blocks 24 on one side of the lower pressing plate 2 penetrate out of the stamping through holes 211 formed in the abutting plate 21, and the stamping blocks 24 can be abutted on the steel strip, and then the lifting hydraulic cylinder 3 continuously drives the stamping blocks 24 to downwards move to abut against the steel strip, so that the oblique iron is stamped from the steel strip to the inside the stamping holes 111.

The chute falling into the punching hole 111 falls onto the material conveying belt 13 inside the blanking cavity 12 along the punching hole 111, and then moves out of the blanking cavity 12 under the rotation of the material conveying belt 13, thereby realizing the punching process. After the single stamping is completed, the lifting hydraulic cylinder 3 drives the lower pressing plate 2, the abutting plate 21 and the stamping hole 111 to move upwards, the material moving assembly 4 is started, and the material moving assembly 4 drives the steel strip on the abutting plate 21 to move, so that the steel strip can be stamped again, and the continuous stamping process of the steel strip is realized.

The steel belt on the abutting plate 21 is driven to move through the material moving assembly 4, so that a worker can conveniently move the steel belt on the abutting plate 21, and the stamping process is easier.

The material moving assembly 4 comprises a material moving and extending plate 41 fixedly connected with one side wall of the abutting plate 21, and the material moving and extending plate 41 is arranged at a position perpendicular to the moving path of the steel belt. The upper surface of the material moving and extending plate 41 is provided with a material moving block 42, and the length direction of the material moving block 42 is parallel to the moving path of the steel belt. The lower surface of the material moving block 42 is fixedly connected with a connecting plate 421, and the material moving extension plate 41 is provided with a moving opening 411 for the connecting plate 421 to penetrate and move along one side far away from the abutting plate 21 to one side close to the abutting plate 21. A movable hydraulic cylinder 43 is fixedly connected to one side wall of the movable material extension plate 41 far away from the supporting seat 1, a piston rod of the movable hydraulic cylinder 43 is horizontally inserted into the movable opening 411 to be arranged at one side close to the supporting seat 1, and one side of the movable hydraulic cylinder 43 far away from the supporting seat 1 is fixedly connected with one end of the connecting plate 421 penetrating through the movable opening 411.

A material moving groove 422 is arranged at the middle position of the material moving block 42, and the material moving groove 422 is arranged along the length direction of the material moving block 42. The moving block 44 is arranged in the moving groove 422, and the moving block 44 is in sliding connection with the inner wall of the moving groove 422. The material moving block 42 is penetrated and rotatably connected with a material moving screw 45, and the material moving screw 45 penetrates through a moving block 44 positioned in the material moving groove 422 and is in threaded connection with the moving block 44. One end of the material moving screw 45 is fixedly connected with a material moving motor 46, and the material moving motor 46 is arranged on one side of the material moving block 42. One side of the moving block 44, which is close to the supporting seat 1, is fixedly connected with a material moving plate 47, the material moving plate 47 is perpendicular to the length direction of the material moving block 42, and the material moving plate 47 can drive the steel belt on the abutting plate 21 to move.

When the steel belt on the abutting plate 21 needs to be driven to move through the material moving assembly 4, the moving hydraulic cylinder 43 is started firstly, the moving hydraulic cylinder 43 can drive the material moving block 42 to move to the side close to the abutting plate 21, so that the material moving plate 47 can move to the upper side of the steel belt and abut against the steel belt, then the material moving motor 46 is started, the material moving motor 46 drives the material moving screw 45 to rotate, the material moving screw 45 drives the moving block 44 to move in the rotating process, and the moving block 44 drives the material moving plate 47 to move in the moving process, so that the material moving plate 47 can drive the steel belt to move, and the steel belt moving process is realized.

The middle position of the material moving plate 47 is penetrated, a plurality of material moving rollers 471 which are arranged in parallel are arranged along the vertical direction, the lower surfaces of the plurality of material moving rollers 471 are flush, and each material moving roller 471 is arranged in parallel with the length direction of the material moving plate 47.

When the moving hydraulic cylinder 43 drives the material moving plate 47 to move to the rigid belt, the material moving plate 47 can move to the steel belt more conveniently due to the plurality of material moving rollers 471, and then in the process of driving the steel belt to move through the material moving plate 47, the material moving rollers 471 are perpendicular to the moving direction of the steel belt, so that the plurality of material moving rollers 471 can drive the steel belt to move, and the process of driving the steel belt to move by the material moving plate 47 is more stable.

The punch pallet 11 is provided with a plurality of abutment balls 113, and the upper surfaces of the plurality of abutment balls 113 and the upper surface of the punch pallet 11 are disposed in the same horizontal plane, so that the plurality of abutment balls 113 can each abut against a steel strip placed on the upper side of the punch pallet 11.

Due to the existence of the abutting balls 113, the movement of the steel belt can be more stable in the process of driving the steel belt to move by the material moving plate 47.

Referring to fig. 1 and 3, a blanking assembly 5 is further disposed on one side of the supporting seat 1, and the blanking assembly 5 can receive the punched waste steel strip falling on the punching supporting plate 11.

The blanking assembly 5 comprises a slag storage bin 51 positioned on one side of a steel belt moving path of the supporting seat 1, a blanking plate 52 is fixedly connected to one side, close to the slag storage bin 51, of the abutting plate 21, and the blanking plate 52 is gradually and downwards inclined along one side, close to the stamping supporting plate 11, to one side, far away from the stamping supporting plate 11, so that waste steel belts on the blanking plate 52 can fall into the slag storage bin 51.

Flanges 521 are fixedly connected to two opposite side walls of the blanking plate 52, and each flange 521 is arranged perpendicular to the blanking plate 52. An opening is formed in the middle of each flange 521, a plurality of blanking rollers 53 are installed in each opening, and each blanking roller 53 is perpendicular to the blanking plate 52 and is rotationally connected with the side wall of the opening of the flange 521. The plurality of discharging rollers 53 attached to each flange 521 are all in the same vertical plane on the side near the other flange 521.

The downside of each blanking roller 53 runs through the downside of flange 521 and blanking plate 52 and is rotationally connected with blanking plate 52 and flange 521, and the one end of each blanking roller 53 that runs through blanking plate 52 all fixedly cup joints blanking pulley 531, and the outside cover of a plurality of blanking pulleys 531 that connect in same flange 521 is equipped with same root blanking belt 54, and in a plurality of blanking rollers 53 that connect on each flange 521, one of them blanking roller 53 runs through the one end fixedly connected with blanking motor 55 of blanking plate 52, and blanking motor 55 installs on blanking plate 52.

In the process of blanking after the steel belt punching is completed, the steel belt moves onto the blanking plate 52 under the driving of the material moving plate 47, then the two blanking motors 55 are started, the two blanking motors 55 drive the two connected blanking rollers 53 to rotate, the two blanking rollers 53 drive the two blanking belt pulleys 531 and the blanking belt 54 to rotate in the rotating process, and the two blanking belt 54 rotates to drive the plurality of blanking belt pulleys 531 connected with the blanking belt pulleys 531 and the blanking roller 53 connected with the blanking belt pulleys 531 to rotate, so that the blanking process of the waste steel belt on the blanking plate 52 is realized, and the steel belt on the blanking plate 52 can stably move into the slag storage bin 51.

The implementation principle of the wedge stamping device in the embodiment of the application is as follows: when the punching diagonal iron is needed, the lifting hydraulic cylinder 3 is started, the lifting hydraulic cylinder 3 drives the plurality of punching blocks 24 to punch the steel belt placed on the punching supporting plate 11, and the punched diagonal iron can be transported under the drive of the material transporting belt 13.

After the single stamping is completed, the moving hydraulic cylinder 43 is started to drive the moving plate 47 to move onto the steel belt, the plurality of moving rollers 471 are abutted against the steel belt, and then the moving motor 46 is started to drive the moving plate 47 to move through the moving screw 45, so that the moving process of driving the steel belt through the moving plate 47 is realized.

After the stamping of the steel belt is completed, the steel belt is driven by the material moving plate 47 to move onto the blanking plate 52, and then the two blanking motors 55 are started to drive the plurality of blanking rollers 53 on two sides of the blanking plate 52 to rotate, so that the blanking plate 52 is driven by the blanking rollers 53 to move into the slag storage bin 51, and the blanking process of the waste materials of the steel belt is realized.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a wedge stamping device which characterized in that: including supporting seat (1), fixedly connected with punching press layer board (11) on supporting seat (1), supporting seat (1) top is equipped with holding down plate (2), one side of holding down plate (2) is connected with and is used for driving lift pneumatic cylinder (3) that holding down plate (2) removed, one side of holding down plate (2) be connected with be used for with butt plate (21) of punching press layer board (11) contact, butt plate (21) with be connected with a plurality of compression springs (22) between holding down plate (2), one side fixedly connected with a plurality of punching press piece (24) of holding down plate (2), butt plate (21) with all be equipped with the confession on punching press layer board (11) punching press piece (24) pass the through-hole, supporting seat (1) are connected with and are used for driving place steel band on punching press layer board (11) carries out removal material subassembly (4).

2. A ramp stamping apparatus as defined in claim 1, wherein: the material moving assembly (4) comprises a material moving extending plate (41) fixedly connected with the stamping supporting plate (11), a material moving block (42) is connected to the upper side of the material moving extending plate (41) in a sliding mode, a moving hydraulic cylinder (43) used for driving the material moving block (42) to move towards one side close to or far away from the stamping supporting plate (11) is connected to the material moving block (42), a moving block (44) is connected to the material moving block (42) in a sliding mode along the direction perpendicular to the moving direction of the material moving block (42), a material moving screw (45) penetrating through the moving block (44) and in threaded connection with the moving block (44) is connected to one end of the material moving screw (45), a material moving motor (46) used for driving the material moving screw (45) to rotate is connected to one side of the moving block (44), and a material moving plate (47) capable of driving a steel belt on the abutting plate (21) to move is connected to one side of the moving block.

3. A ramp stamping apparatus as defined in claim 2, wherein: a plurality of material moving rollers (471) are arranged on the lower side of the material moving plate (47), one sides of the material moving rollers (471) can be contacted with a steel belt placed on the stamping supporting plate (11), and each material moving roller (471) is vertically arranged with a material moving screw rod (45) which is connected.

4. A ramp stamping apparatus as claimed in any one of claims 2 or 3, wherein: a plurality of abutting balls (113) are mounted on the upper surface of the stamping supporting plate (11), and each abutting ball (113) can abut against the steel belt.

5. A ramp stamping apparatus as defined in claim 4, wherein: one side of the supporting seat (1) is provided with a blanking component (5) for carrying waste materials on the stamping supporting plate (11).

6. A ramp stamping apparatus as defined in claim 5, wherein: the blanking assembly (5) comprises a slag storage bin (51) arranged on one side of the supporting seat (1), one side of the abutting plate (21) is connected with a blanking plate (52) with one end connected with the slag storage bin (51), and flanges (521) capable of blocking waste from falling are fixedly connected to two opposite side walls of the blanking plate (52).

7. The angle iron stamping device of claim 6, wherein: a plurality of blanking rollers (53) which are arranged on one side of each flange (521) and can be abutted against waste materials on the blanking plates (52) are arranged on each flange, the plurality of blanking rollers (53) connected to the same flange (521) are connected with pulleys through belts, and one side of each blanking roller (53) connected to each flange (521) is connected with a blanking motor (55) for driving the connected blanking roller (53) to rotate.

8. A ramp stamping apparatus as defined in claim 1, wherein: one side of the lower pressing plate (2) is fixedly connected with a plurality of guide pressing rods (23), one end of each guide pressing rod (23) penetrates through the abutting plate (21) and is in sliding connection with the abutting plate (21), and a plurality of guide pressing grooves (112) for inserting the guide pressing rods (23) are formed in the stamping supporting plate (11).