CN114618934A - Synchronous push type stamping device - Google Patents

Abstract

The invention discloses a synchronous push type stamping device, belonging to the field of alloy metal stamping, comprising a pressure applying end cylinder, wherein the outer side surface of the pressure applying end cylinder is provided with a fixed end, the bottom end of the fixed end is fixedly connected with a lower pressing end, the bottom end surface of the lower pressing end is provided with a rod fixing table, the bottom end of the rod fixing table is provided with a hydraulic rod, the bottom end of the hydraulic rod is connected with a pressure bearing end, the bottom end of the pressure bearing end is provided with a bottom box, the rear end of the bottom box is fixed with an auxiliary platform, the upper surface of the auxiliary platform is provided with a conveying end, which can realize that materials are fed into a processing assembly to facilitate the control of the cutting distance, with reduce material consumption, simplify holistic processing structure and work efficiency to the size of adaptation panel has better adaptability, has higher pressure so that the higher material of cutting strength, can change the subassembly of cutting forming simultaneously.

Description

Synchronous push type stamping device

Technical Field

The invention relates to the field of alloy metal stamping, in particular to a synchronous pushing type stamping device.

Background

The structure and properties of the constituent phases in the alloy play a decisive role in the performance of the alloy. Meanwhile, the change of the alloy structure, namely the change of the relative quantity of the phases in the alloy, the grain size, the shape and the distribution of each phase, also has great influence on the performance of the alloy. Therefore, various alloy phases are formed by combining various elements, and various performance requirements can be met through proper treatment, the alloy-made plates are commonly used for processing and manufacturing parts, most alloy plates are processed by stamping, a die used for stamping is called as a stamping die, which is called as a stamping die for short, the stamping die is a special tool for processing materials (metal or nonmetal) into required stamping parts in batches, the stamping die is very important in stamping, the stamping die meeting the requirements does not exist, batch stamping production is difficult to perform, and the advanced stamping process cannot be realized without the advanced stamping die.

The punching process, a die, punching equipment and a punching material form three elements of punching processing, a punching part can be obtained only by combining the three elements, the strength and the rigidity of an alloy plate are high, when pressure is applied, synchronous pressing is needed to be carried out by matching with a component to achieve the cutting-off effect, the cutting space between the plates is controlled by controlling a pushing mode to save the material resources of the plate, the existing partial punching device is difficult to accurately control the alloy pushing while the alloy metal is punched, the cutting space is difficult to control, the material consumption is increased, and the synchronous pushing type punching device is provided aiming at the purposes.

Disclosure of Invention

The invention aims to provide a synchronous pushing type stamping device, which can realize that materials are sent into a processing assembly, so that the cutting distance is convenient to control, the material consumption is reduced, the simultaneous work of fastening and pushing can be realized during processing, the fastening and the pushing can be realized, the fastening and the pushing do not interfere with each other, and the overall processing structure and the working efficiency are further simplified; so that the size of adaptation panel has better adaptability, has higher pressure so that the higher material of cutting strength, is convenient for separate the material part of intercepting and panel, stores the material of intercepting through the mode of carrying and accomodates, can change the subassembly that the cutting takes shape.

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

The utility model provides a synchronous propelling movement formula stamping device, is including exerting pressure and holding a section of thick bamboo, the outside surface that exerts pressure and holding a section of thick bamboo is provided with the stiff end, the bottom fixedly connected with of stiff end pushes down the end, the bottom surface that pushes down the end is provided with solid pole platform, the hydraulic stem is installed to the bottom of solid pole platform, the bottom side end-to-end connection of hydraulic stem has the pressure-bearing end, the under casing is installed to the bottom of pressure-bearing end, the rear end of under casing is fixed with auxiliary platform, auxiliary platform's upper surface is provided with carries the end.

Furthermore, an end section of thick bamboo and stiff end welded connection exert pressure, stiff end and pushing down the end through screw thread interconnect, pushing down the end and solid pole platform welded connection, gu the detachable fixed connection of pole platform and hydraulic stem, welded connection between hydraulic stem, pressure-bearing end and the under casing, the under casing passes through screw thread interconnect with the auxiliary platform, auxiliary platform and delivery end sliding connection.

Furthermore, a pressure bar groove penetrating through the rod fixing table is formed in the center of the rod fixing table;

the material plate groove is formed in the front end and the rear end of the pressure-bearing end, the material plate groove and the pressure-bearing end are communicated with each other, the punching groove is formed in the inner side of the pressure-bearing end, the whole shape of the punching groove is circular, an inwards-concave die notch is formed in the front end of the pressure-bearing end, the die notch penetrates through the inside of the pressure-bearing end, and the convex strips are fixed to the side faces of the two ends of the die notch.

Furthermore, a hydraulic port is fixed on the right side surface of the pressure bearing end, and the hydraulic rod, the pressure bearing end and the hydraulic port are communicated with each other.

The utility model discloses a mould, including mould notch, mould board, side spout, sand grip, fixed connection, the internally mounted of mould notch has the mould board, and the mould board is identical with mould notch overall structure size, the inboard of mould board is provided with the cutting ring, and constitutes fixed connection between cutting ring and the mould board, the left and right sides of mould board all is provided with the side spout, and sideslip groove and sand grip sliding connection, the front end fixed connection of mould board has the front end solid board, and the front end solid board passes through screw thread interconnect with the pressure-bearing end.

Furthermore, a disc fixing rod is arranged at the tail end of the bottom side of the pressure applying end cylinder and is in sliding connection with the pressure applying end cylinder, a pressure applying disc is connected to the tail end of the disc fixing rod in a welding mode, and a lower pressure shaft rod is fixedly connected to the center of the pressure applying disc.

Furthermore, the outer side of the lower pressure shaft rod is sleeved with a pressure applying spring, the pressure applying spring is fixedly connected with the pressure applying disc, and the other end of the pressure applying spring is connected with the pressure applying end barrel in a welding mode.

Further, the carriage release lever is installed to the top surface rear end of under casing, and carriage release lever and under casing sliding connection, two the top threaded connection that just lies in between the carriage release lever has the gangbar, and the gangbar passes through screw thread interconnect with solid pole platform, and the top surface of under casing has seted up interior solid groove, and interior solid groove is identical with the overall dimension of pressure-bearing end, the bottom side end of gangbar links to be connected with down the pinion rack, and moves down pinion rack and gangbar welded connection, the preceding side surface that moves down the pinion rack installs the pinion rack, and the pinion rack gear with move down for the meshing connection between the pinion rack to the pinion rack gear rotates with the under casing and is connected.

Further, the surface of pinion rack gear is provided with and is used for driven transmission band, the opposite side transmission that just is located the pinion rack gear on the transmission band is provided with the deflector roll, the pinion rack gear passes through the transmission band transmission with the deflector roll and is connected, the deflector roll rotates the inside of installing at the under casing.

Furthermore, fixing screw rods are fixed at the left end and the right end of the conveying end, an upper fixing pressing plate is arranged on the inner side of the conveying end, the upper fixing pressing plate is in threaded connection with the fixing screw rods, a lower fixing pressing plate is arranged under the upper fixing pressing plate and is in sliding connection with the bottom box, a core column is fixed on the upper surface of the lower fixing pressing plate and penetrates through the upper surface of the upper fixing pressing plate, an elastic spring is sleeved between the upper fixing plate and the lower fixing plate on the outer side of the core column, two ends of the elastic spring are fixed to the side walls of the upper fixing plate and the lower fixing plate respectively, and a bottom fixing plate fixedly connected with the lower fixing pressing plate is arranged under the lower fixing pressing plate.

Further, the front side end-to-end connection of transport end has the guide roller, and transport end and guide roller rotation connection, the bottom internally mounted of transport end has the screw rod fluted disc, and carries the end and rotate with the screw rod fluted disc and be connected, the rear side of screw rod fluted disc is connected with driving motor, the top surface of screw rod fluted disc is provided with the meshing fluted disc, and is connected for the meshing between screw rod fluted disc and the meshing fluted disc, the both ends side meshing of meshing fluted disc is connected with the bull stick gear, and bull stick gear and clamping screw welded connection, the front end threaded connection of screw rod fluted disc has the screw rod to the front end and the bearing end of screw rod are connected.

Compared with the prior art, the invention has the advantages that:

in the scheme, an alloy metal plate is placed on a conveying end, so that the plate is positioned between a lower fixed pressing plate and a bottom fixed plate, when a driving motor in the conveying end rotates, a screw fluted disc is driven to rotate through the driving motor, a meshing fluted disc above the screw fluted disc is driven to rotate, a fixed screw is driven to rotate through meshing of the meshing fluted disc and a rotating rod gear, when the fixed screw rotates, the upper fixed pressing plate and the lower fixed pressing plate gradually approach to the bottom fixed plate, when the screw fluted disc rotates, materials can be conveyed to the inner side of a processing assembly through a guide roller by the sliding of the conveying end and an auxiliary platform through the structural contraction of the screw fluted disc and a threaded sleeve rod, the distance between the conveying end and a pressure bearing end is shortened, when the lower fixed pressing plate and the bottom fixed plate are both contacted with the plate, the screw fluted disc continuously rotates, and at the moment, the lower fixed pressing plate continuously moves downwards to keep the opposite position still, the lower solid pressing plate is under pressure, the distance between the lower solid pressing plate and the upper solid pressing plate is shortened through the core column and the elastic spring until the lower solid pressing plate and the upper solid pressing plate cannot be moved forward, the screw fluted disc does not rotate any more at the moment, the structure can pressurize and fix materials and send the materials into the processing assembly, and the lower solid pressing plate can work while being fastened and pushed during processing, so that the lower solid pressing plate and the screw fluted disc do not interfere with each other, and the whole processing structure and the working efficiency are further simplified.

In the scheme, the material is pushed down to enter a stamping groove through a material plate groove at the rear side of a bearing end, then the contraction of a hydraulic rod is controlled through the liquid flow of a hydraulic port at the right side of the bearing end, when the hydraulic rod contracts to enable a rod fixing table to move downwards, when the position of the rod fixing table moves to a proper position, a pressure applying plate at the bottom side of a pressure applying end cylinder is in contact with the material, the pressure applying plate can be pressed downwards through the contraction of the whole pressure applying end cylinder, when the pressure applying end cylinder fixed at a fixed end begins to apply pressure, the contraction process of the pressure applying end cylinder is not in contact with a lower pressing end and a pressure rod groove of the rod fixing table, a pressure applying spring is stressed under the pressure of the pressure applying plate, meanwhile, the pressure fixing plate rod and the lower pressing shaft rod contract towards the inner side of the tail end of the pressure applying end cylinder, when the material with the same shape is extruded, only the contraction of the pressure applying end cylinder needs to be controlled repeatedly, the structure is convenient for up-down regulation so as to adapt to the size of the plate, has better adaptability.

This scheme, exert pressure with the material afterwards, when the material contacts with the cutting ring of mould inboard, cooperation through extruded pressure and cutting ring, cut off the part from the material, the part that cuts off enters into the inside of under casing through interior solid groove, and then fall on the transmission band, when solid pole platform upwards lifts up, it removes to drive the carriage release lever through the gangbar, the carriage release lever upwards slides and then drives down pinion rack and pinion rack gear engagement and rotate, let the pinion rack gear drive the transmission band and rotate, and then let the part remove along with the rotation of transmission band, move to the below through the deflector roll afterwards and accomodate the structure, this structure is convenient for separate the material part of intercepting with panel, the material of intercepting is stored and is accomodate through the mode of carrying afterwards, so that going on of next processing.

The scheme is that when the shape of the inner side of the die plate needs to be changed, screws on the front end fixing plate on the front side of the pressure bearing end are dismounted, the die plate is taken out in a sliding mode through the side face side sliding grooves and the convex strips on the inner side of the die notch, then the die plates of the cutting rings with other shapes are placed into the inner side of the die notch, the replacement can be completed, materials are sent into the processing assembly, the cutting distance is convenient to control, the material consumption is reduced, the simultaneous working of fastening and pushing can be realized during processing, the fastening and the pushing do not interfere with each other, the overall processing structure and the working efficiency are further simplified, the size of the plate is convenient to adapt to, the adaptability is good, the material with high pressure is convenient for cutting off materials with high strength, the intercepted material part is convenient to be separated from the plate, the intercepted material is stored and stored in a conveying mode, and the assembly formed by cutting can be changed, so as to be convenient for producing parts with different shapes, and has certain practicability.

Drawings

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

FIG. 2 is a schematic perspective view of a pressure end of the present invention;

FIG. 3 is a schematic perspective view of the pressing plate of the present invention;

FIG. 4 is a schematic view of the internal structure of the bottom case of the present invention;

FIG. 5 is a perspective view of the delivery end of the present invention;

fig. 6 is a schematic diagram of a conveying end driving structure according to the present invention.

The numbering in the figures illustrates:

1. a pressure applying end barrel; 2. a fixed end; 3. pressing the end down; 4. a rod fixing table; 5. a hydraulic lever; 6. a pressure-bearing end; 7. a bottom box; 8. an auxiliary platform; 9. c; 10. a pressure bar groove; 11. a material plate groove; 12. punching a groove; 13. a die slot; 14. a convex strip; 15. a hydraulic port; 16. a mold plate; 17. cutting with a ring cutter; 18. a side chute; 19. fixing the front end plate; 20. a disc fixing rod; 21. pressing the shaft lever downwards; 22. a pressure applying spring; 23. pressing a plate; 24. a travel bar; 25. a linkage rod; 26. an inner fixing groove; 27. a toothed plate is moved downwards; 28. a toothed plate gear; 29. a conveyor belt; 30. a guide roller; 31. fixing the screw rod; 32. fixing a pressing plate; 33. a lower fixed pressing plate; 34. a stem; 35. an elastic spring; 36. a bottom fixing plate; 37. a guide roller; 38. a screw fluted disc; 39. a drive motor; 40. meshing a fluted disc; 41. a rotating rod gear; 42. a threaded sleeve rod.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Referring to fig. 1-6, a synchronous pushing type stamping device includes a pressure applying end cylinder 1, a fixed end 2 is disposed on the outer side surface of the pressure applying end cylinder 1, a pressing end 3 is fixedly connected to the bottom end of the fixed end 2, a rod fixing table 4 is disposed on the bottom end surface of the pressing end 3, a hydraulic rod 5 is mounted at the bottom end of the rod fixing table 4, a pressure bearing end 6 is connected to the bottom end of the hydraulic rod 5, a bottom box 7 is mounted at the bottom end of the pressure bearing end 6, an auxiliary platform 8 is fixed to the rear end of the bottom box 7, and a conveying end 9 is disposed on the upper surface of the auxiliary platform 8.

Referring to fig. 1, a pressure applying end cylinder 1 is connected with a fixed end 2 in a welding mode, the fixed end 2 is connected with a pressing end 3 through threads, the pressing end 3 is connected with a fixed rod table 4 in a welding mode, the fixed rod table 4 is connected with a hydraulic rod 5 in a detachable and fixed mode, the hydraulic rod 5, a pressure bearing end 6 and a bottom box 7 are connected in a welding mode, the bottom box 7 is connected with an auxiliary platform 8 through threads, and the auxiliary platform 8 is connected with a conveying end 9 in a sliding mode.

Referring to fig. 2, a pressure bar groove 10 penetrating through the rod fixing table 4 is formed in the center of the rod fixing table 4;

the front end and the rear end of the pressure-bearing end 6 are both provided with a material plate groove 11, the material plate groove 11 is communicated with the pressure-bearing end 6, the inner side of the pressure-bearing end 6 is provided with a stamping groove 12, the overall shape of the stamping groove 12 is circular, the front end of the pressure-bearing end 6 is provided with an inward-concave die notch 13, the die notch 13 penetrates through the pressure-bearing end 6, and the side faces of the two ends of the die notch 13 are fixedly provided with convex strips 14.

Referring to fig. 2, a hydraulic port 15 is fixed on the right side surface of the pressure-bearing end 6, and the hydraulic rod 5, the pressure-bearing end 6 and the hydraulic port 15 are communicated with each other;

the internally mounted of mould notch 13 has mould board 16, and mould board 16 is identical with 13 appearance structure size of mould notch, the inboard of mould board 16 is provided with cutting ring 17, and constitutes fixed connection between cutting ring 17 and the mould board 16, the left and right sides of mould board 16 all is provided with side spout 18, and side spout 18 and sand grip 14 sliding connection, and the front end fixedly connected with front end solid board 19 of mould board 16, and front end solid board 19 passes through screw thread interconnect with pressure-bearing end 6.

Referring to fig. 3-4, a disk fixing rod 20 is arranged at the bottom end of the pressure applying end cylinder 1, the disk fixing rod 20 is connected with the pressure applying end cylinder 1 in a sliding manner, a pressure applying disk 23 is welded to the end of the disk fixing rod 20, and a lower pressure shaft rod 21 is fixedly connected to the center of the pressure applying disk 23.

Referring to fig. 3-4, a pressing spring 22 is sleeved on the outer side of the lower pressing shaft 21, the pressing spring 22 is fixedly connected with a pressing disc 23, and the other end of the pressing spring 22 is welded with the pressing end cylinder 1.

Referring to fig. 4, the movable rod 24 is installed at the rear end of the top surface of the bottom case 7, the movable rod 24 is slidably connected with the bottom case 7, two top threads located between the movable rods 24 are connected with a linkage rod 25, the linkage rod 25 is connected with the fixed rod table 4 through threads, an inner fixed groove 26 is formed in the top surface of the bottom case 7, the inner fixed groove 26 is matched with the shape and size of the pressure bearing end 6, a downward moving toothed plate 27 is connected to the bottom end of the bottom side of the linkage rod 25 in a connected mode, the downward moving toothed plate 27 is connected with the linkage rod 25 in a welded mode, a toothed plate gear 28 is installed on the front side surface of the downward moving plate 27, the toothed plate gear 28 is connected with the downward moving toothed plate 27 in a meshed mode, and the toothed plate gear 28 is rotatably connected with the bottom case 7.

Referring to fig. 5, a transmission belt 29 for transmission is disposed on an outer surface of the tooth plate gear 28, a guide roller 30 is disposed on the transmission belt 29 and located on an opposite side of the tooth plate gear 28, the tooth plate gear 28 and the guide roller 30 are in transmission connection through the transmission belt 29, and the guide roller 30 is rotatably mounted inside the bottom case 7.

Further, a guide plate for assisting discharging is further installed inside the bottom box 7 corresponding to the guide roller 30.

Referring to fig. 5-6, fixing screws 31 are fixed at both left and right ends of a conveying end 9, an upper fixed pressing plate 32 is arranged inside the conveying end 9, the upper fixed pressing plate 32 and the fixing screws 31 form a threaded connection, a lower fixed pressing plate 33 is arranged right below the upper fixed pressing plate 32, the lower fixed pressing plate 33 is slidably connected with the bottom box 7, a core column 34 is fixed on the upper surface of the lower fixed pressing plate 33, the core column 34 penetrates through the upper surface of the upper fixed pressing plate 32, an elastic spring 35 is sleeved between the upper fixed plate 32 and the lower fixed plate 33 on the outer side of the core column 34, both ends of the elastic spring 35 are respectively fixed on the side walls of the upper fixed plate 32 and the lower fixed plate 33, and a bottom fixed plate 36 fixedly connected with the lower fixed pressing plate 33 is arranged right below the lower fixed pressing plate 33.

Referring to fig. 5-6, the end of the front side of the conveying end 9 is connected with a guide roller 37, the conveying end 9 is rotatably connected with the guide roller 37, a screw fluted disc 38 is installed inside the bottom end of the conveying end 9, the conveying end 9 is rotatably connected with the screw fluted disc 38, the rear side of the screw fluted disc 38 is connected with a driving motor 39, the top end surface of the screw fluted disc 38 is provided with an engaging fluted disc 40, the screw fluted disc 38 is in engaging connection with the engaging fluted disc 40, the side surfaces of the two ends of the engaging fluted disc 40 are in engaging connection with a rotating rod gear 41, the rotating rod gear 41 is welded to the fixed screw 31, the front end of the screw fluted disc 38 is in threaded connection with a threaded sleeve rod 42, and the front end of the threaded sleeve rod 42 is connected with the pressure-bearing end 6, so as to feed the material into the processing assembly, thereby facilitating the control of the cutting distance, reducing the material consumption, and realizing the simultaneous work of fastening and pushing during processing, the two parts are not interfered with each other, and the whole processing structure and the working efficiency are further simplified; so that adapt to the size of panel, have better adaptability, have higher pressure so that the higher material of cutting strength, be convenient for separate the material part of intercepting and panel, store the material of intercepting through the mode of carrying and accomodate, can change the subassembly of cutting into shape.

When in use: firstly, an alloy metal plate is placed on the conveying end 9, the plate is positioned between the lower fixed pressing plate 33 and the bottom fixed plate 36, when the driving motor 39 in the conveying end 9 rotates, the driving motor 39 drives the screw fluted disc 38 to rotate, the meshing fluted disc 40 above the screw fluted disc 38 is driven to rotate, the fixed screw 31 is driven to rotate through the meshing of the meshing fluted disc 40 and the rotating rod gear 41, the upper fixed pressing plate 32 and the lower fixed pressing plate 33 gradually approach to the bottom fixed plate 36 when the fixed screw 31 rotates, when the screw fluted disc 38 rotates, the screw fluted disc 38 and the threaded sleeve rod 42 are contracted through the structure, at the moment, the conveying end 9 and the auxiliary platform 8 can slide to convey materials to the inner side of the processing assembly through the guide roller 37, the distance between the conveying end 9 and the pressure-bearing end 6 is shortened, when the lower fixed pressing plate 33 and the bottom fixed plate 36 are both contacted with the plate, the screw fluted disc 38 continuously rotates, at this time, the relative position of the lower fixed pressing plate 33 is kept still by continuously moving downwards, the lower fixed pressing plate 33 is under pressure, the distance between the lower fixed pressing plate 33 and the upper fixed pressing plate 32 is drawn by the stem 34 and the elastic spring 35 until the lower fixed pressing plate can not move any more, at this time, the screw fluted disc 38 will not rotate any more, then the material is pushed downwards by the material through the material plate groove 11 at the rear side of the pressure-bearing end 6 to enter the stamping groove 12, then the contraction of the hydraulic rod 5 is controlled by the liquid flow of the hydraulic port 15 at the right side of the pressure-bearing end 6, when the hydraulic rod 5 contracts to move the fixed rod table 4 downwards, when the position of the fixed rod table 4 is moved to a proper position, the pressing disc 23 at the bottom side of the pressing end cylinder 1 is contacted with the material, that is pressed downwards by the contraction of the whole pressing end cylinder 1, when the pressing end cylinder 1 fixed at the fixed end 2 starts to press, the contraction process of the pressing end cylinder 1 is not contacted with the pressing end 3 and the pressing rod groove 10 of the fixed rod table 4, the pressing spring 22 is stressed under the pressure of the pressing disc 23, and meanwhile, the disc fixing rod 20 and the pressing shaft rod 21 contract towards the inner side of the tail end of the pressing end cylinder 1;

then the material is pressed downwards, when the material contacts with a cutting ring 17 on the inner side of a die plate 16, a part is cut off from the material through the matching of the extrusion pressure and the cutting ring 17, the cut part enters the inside of a bottom box 7 through an inner fixing groove 26 and then falls onto a conveying belt 29, when a fixing rod table 4 is lifted upwards, a moving rod 24 is driven to move through a linkage rod 25, the moving rod 24 slides upwards to drive a lower toothed plate 27 to be meshed with a toothed plate gear 28 to rotate, the toothed plate gear 28 drives the conveying belt 29 to rotate, the part moves along with the rotation of the conveying belt 29 and then moves into a lower receiving structure through a guide roller 30, when the shape of the inner side of the die plate 16 needs to be changed, a screw on a front end fixing plate 19 on the front side of a pressure bearing end 6 is dismounted, the die plate 16 slides out through a side face side sliding groove 18 and a convex strip 14 on the inner side of a die notch 13, the replacement can then be completed by placing the die plate 16 of the ring knife 17 of another shape inside the die slot 13.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (9)

1. The utility model provides a synchronous propelling movement formula stamping device, includes and exerts pressure end section of thick bamboo (1), its characterized in that: a fixed end (2) is arranged on the outer side surface of the pressure applying end cylinder (1), a lower pressure end (3) is fixedly connected to the bottom end of the fixed end (2), a rod fixing table (4) is arranged on the bottom end surface of the lower pressure end (3), a hydraulic rod (5) is installed at the bottom end of the rod fixing table (4), a pressure bearing end (6) is connected to the bottom end of the hydraulic rod (5), a bottom box (7) is installed at the bottom end of the pressure bearing end (6), an auxiliary platform (8) is fixed to the rear end of the bottom box (7), and a conveying end (9) is arranged on the upper surface of the auxiliary platform (8);

the utility model discloses a portable electronic device, including under casing (7), bottom case (7) and fixed rod platform (4), the top surface rear end of under casing (7) installs carriage release lever (24), and carriage release lever (24) and under casing (7) sliding connection, two between carriage release lever (24) and the top threaded connection who is located have gangbar (25), and gangbar (25) pass through screw thread interconnect with fixed rod platform (4), and interior solid groove (26) have been seted up to the top surface of under casing (7), and interior solid groove (26) are identical with the overall dimension of pressure-bearing end (6), the terminal antithetical couplet of bottom side of gangbar (25) is connected down and moves pinion rack (27), and moves pinion rack (27) and gangbar (25) welded connection down, move down the preceding side surface of pinion rack (27) and install pinion rack gear (28), and pinion rack gear (28) and move down and be connected for the meshing between pinion rack (27) to pinion gear (28) rotate with under casing (7).

2. The synchronized push ram of claim 1, wherein: the utility model discloses a hydraulic pressure bearing device, including pressing end section of thick bamboo (1) and stiff end (2) welded connection, stiff end (2) and push down end (3) through screw thread interconnect, push down end (3) and solid pole platform (4) welded connection, gu pole platform (4) and the detachable fixed connection of hydraulic stem (5), welded connection between hydraulic stem (5), pressure-bearing end (6) and under casing (7), under casing (7) and auxiliary platform (8) pass through screw thread interconnect, auxiliary platform (8) and delivery end (9) sliding connection.

3. The synchronized push ram of claim 1, wherein: a rod pressing groove (10) penetrating through the rod fixing table (4) is formed in the center of the rod fixing table (4);

the material plate groove (11) is formed in the front end and the rear end of the pressure-bearing end (6), the material plate groove (11) is communicated with the pressure-bearing end (6), the punching groove (12) is formed in the inner side of the pressure-bearing end (6), the whole shape of the punching groove (12) is circular, an inwards-concave die notch (13) is formed in the front end of the pressure-bearing end (6), the die notch (13) penetrates through the pressure-bearing end (6), and protruding strips (14) are fixed to the side faces of the two ends of the die notch (13).

4. A synchronized push ram according to claim 3, wherein: a hydraulic port (15) is fixed on the right side surface of the pressure bearing end (6), and the hydraulic rod (5), the pressure bearing end (6) and the hydraulic port (15) are communicated with each other;

the utility model discloses a mould, including mould notch (13), mould board (16) and mould notch (13), the inboard of mould board (16) is provided with cutting ring (17), and constitutes fixed connection between cutting ring (17) and mould board (16), the left and right sides of mould board (16) all is provided with side spout (18), and side spout (18) and sand grip (14) sliding connection, the front end fixedly connected with front end solid board (19) of mould board (16), and front end solid board (19) and pressure-bearing end (6) pass through screw thread interconnect.

5. The synchronized push ram of claim 1, wherein: the pressure applying device is characterized in that a disc fixing rod (20) is arranged at the tail end of the bottom side of the pressure applying end cylinder (1), the disc fixing rod (20) is connected with the pressure applying end cylinder (1) in a sliding mode, a pressure applying disc (23) is connected to the tail end of the disc fixing rod (20) in a welding mode, and a pressing shaft rod (21) is fixedly connected to the center of the pressure applying disc (23).

6. A synchronous push ram as claimed in claim 5 wherein: the outer side of the lower pressure shaft rod (21) is sleeved with a pressure applying spring (22), the pressure applying spring (22) is fixedly connected with a pressure applying plate (23), and the other end of the pressure applying spring (22) is connected with the pressure applying end barrel (1) in a welding mode.

7. The synchronized push ram of claim 1, wherein: the surface of pinion rack gear (28) is provided with and is used for driven transmission band (29), the opposite side transmission that just is located pinion rack gear (28) on transmission band (29) is provided with deflector roll (30), pinion rack gear (28) is connected through transmission band (29) transmission with deflector roll (30), deflector roll (30) rotate the inside of installing at under casing (7).

8. The synchronized push ram of claim 1, wherein: the left end and the right end of the conveying end (9) are both fixed with fixed screws (31), the inner side of the conveying end (9) is provided with an upper fixed pressing plate (32), the upper fixed pressing plate (32) is in threaded connection with the fixed screw (31), a lower fixed pressing plate (33) is arranged right below the upper fixed pressing plate (32), and the lower fixed pressing plate (33) is connected with the bottom box (7) in a sliding way, the upper surface of the lower fixed pressing plate (33) is fixed with a core column (34), the core column (34) penetrates through the upper surface of the upper fixed pressing plate (32), an elastic spring (35) is sleeved between the upper fixed plate (32) and the lower fixed plate (33) at the outer side of the core column (34), and two ends of the elastic spring (35) are respectively fixed on the side walls of the upper fixing plate (32) and the lower fixing plate (33), a bottom fixing plate (36) fixedly connected with the lower fixing pressing plate (33) is arranged right below the lower fixing pressing plate (33).

9. The synchronized push ram of claim 1, wherein: the utility model discloses a conveying end (9) and guide roller (37) rotate to be connected, the bottom internally mounted of conveying end (9) has screw rod fluted disc (38), and conveying end (9) and screw rod fluted disc (38) rotate to be connected, the rear side of screw rod fluted disc (38) is connected with driving motor (39), the top surface of screw rod fluted disc (38) is provided with meshing fluted disc (40), and is connected for the meshing between screw rod fluted disc (38) and the meshing fluted disc (40), the both ends side meshing of meshing fluted disc (40) is connected with bull stick gear (41), and bull stick gear (41) and fixed screw (31) welded connection, the front end threaded connection of screw rod fluted disc (38) has screw loop pole (42) to the front end and the pressure-bearing end (6) of screw loop pole (42) are connected.

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