CN214866779U - Continuous forming progressive die for chassis - Google Patents

Continuous forming progressive die for chassis Download PDF

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Publication number
CN214866779U
CN214866779U CN202120957210.5U CN202120957210U CN214866779U CN 214866779 U CN214866779 U CN 214866779U CN 202120957210 U CN202120957210 U CN 202120957210U CN 214866779 U CN214866779 U CN 214866779U
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plate
rod
bolted
workbench
square
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CN202120957210.5U
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王伟强
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Tianjin Guangfu Ruida Technology Development Co ltd
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Tianjin Guangfu Ruida Technology Development Co ltd
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Abstract

The utility model provides a chassis continuous forming progressive die, which comprises a control panel, a workbench, a collecting box, a supporting rod, a top plate, a hydraulic cylinder, an upper die, a supporting plate, a guide plate, a material plate, an adjustable clamping roller structure, a small friction force positioning rod structure and a crush-free pressing plate structure, wherein the control panel is connected with the middle part of the front end of the workbench through a bolt; the collecting box is independently arranged on the right side of the workbench; one end of each support rod is respectively bolted at the four corners of the upper end of the workbench, and the other end of each support rod is respectively bolted at the four corners of the lower end of the top plate; the two hydraulic cylinders are respectively connected to the left side and the right side of the upper end of the top plate through bolts, and telescopic rods of the two hydraulic cylinders respectively penetrate through the left side and the right side of the inside of the top plate. The utility model discloses vertical support, mounting panel, drive roller, driving motor, electric putter, the setting of type of falling U seat and pinch roller is favorable to realizing pressing from both sides the function of the panel of tight multiple thickness of transport.

Description

Continuous forming progressive die for chassis
Technical Field
The utility model belongs to the technical field of the mould, especially, relate to a continuous shaping of chassis upgrades mould.
Background
The progressive die is a die consisting of a plurality of stations, and various different punching processes can be completed through one-time punching of the punching machine.
At present, progressive dies are widely applied.
However, the existing progressive die also has the problems that the plates with various thicknesses are inconvenient to clamp and convey, the moving friction force of the plates is large, and the plates are inconvenient to press without damage.
Therefore, the invention is very necessary for the chassis continuous forming progressive die.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem that exists, the utility model provides a continuous shaping in chassis upgrades mould, wherein the utility model discloses a can realize through following technical scheme:
a chassis continuous forming progressive die comprises a control panel, a workbench, a collecting box, a supporting rod, a top plate, a hydraulic cylinder, an upper die, a supporting plate, a guide plate, a material plate, an adjustable clamping roller structure, a small friction force positioning rod structure and a crush-free pressing plate structure, wherein the control panel is connected to the middle part of the front end of the workbench through bolts; the collecting box is independently arranged on the right side of the workbench; one end of each support rod is respectively bolted at the four corners of the upper end of the workbench, and the other end of each support rod is respectively bolted at the four corners of the lower end of the top plate; the two hydraulic cylinders are respectively bolted on the left side and the right side of the upper end of the top plate, the telescopic rods of the two hydraulic cylinders respectively penetrate through the left side and the right side inside the top plate, and the telescopic rods of the two hydraulic cylinders respectively extend to the lower side of the top plate; the left side and the right side of the upper end of the upper die are respectively connected with the telescopic rod bolts of the two hydraulic cylinders; one end of the supporting plate is bolted to the right side of the upper end of the workbench, and the other end of the supporting plate is bolted to the left side of the middle part of the lower end of the guide plate; the left end of the guide plate is arranged in an upward inclined manner; the adjustable clamping roller structure is connected with the workbench; the small friction force positioning rod structure is connected with the workbench; the compression plate structure without being damaged by pressure is connected with the upper die; the adjustable clamping roller structure comprises longitudinal supports, a mounting plate, a driving roller, a driving motor, an electric push rod, an inverted U-shaped seat and a pressing roller, wherein the upper ends of the two longitudinal supports are respectively connected to the front side and the rear side of the lower end of the mounting plate through bolts; the rear end bearing of the driving roller is connected with the middle lower side in the longitudinal support arranged at the rear side; the driving motor is connected with the middle lower side of the front end of the longitudinal support arranged on the front side through a bolt, and an output shaft of the driving motor penetrates through the middle lower side of the interior of the longitudinal support arranged on the front side and is connected with the front end key of the driving roller; the electric push rod is connected to the middle part of the upper end of the mounting plate through a bolt, and a telescopic rod of the electric push rod penetrates through the middle part inside the mounting plate and extends to the lower side of the mounting plate; the middle part of the upper end of the inverted U-shaped seat is connected with a telescopic rod bolt of the electric push rod; the compressing roller is connected to the middle lower side in the inverted U-shaped seat.
Preferably, the positioning rod structure with small friction force comprises positioning rods, a lower die, circular stop blocks, a sleeve and annular stop blocks, wherein one ends of the positioning rods are sequentially bolted on the front side and the rear side of the upper end of the lower die from left to right respectively, and the other ends of the positioning rods are respectively bolted on the middle parts of the lower ends of the circular stop blocks; the plurality of sleeves are respectively sleeved on the outer walls of the plurality of positioning rods; the annular stop blocks are respectively sleeved in the middle parts of the outer walls of the sleeves, and the annular stop blocks and the sleeves are respectively integrally connected.
Preferably, the compression plate structure without being damaged by pressure is provided with a plurality of compression plate structures, and each compression plate structure comprises a square compression rod, a square stop block, a compression plate, a sleeve shaped like a Chinese character 'hui', a spring and a scratch-proof layer, wherein one end of each square compression rod is connected to the middle part of the lower end of the square stop block through a bolt, and the other end of each square compression rod is connected to the middle part of the upper end of the compression plate through a bolt; the square compression rod is sleeved with the square sleeve; the spring is sleeved on the outer wall of the square pressing rod and is positioned between the square sleeve and the pressing plate; the scratch-proof layer is glued at the lower end of the pressure strip.
Preferably, the two longitudinal supports are arranged, the lower ends of the two longitudinal supports are connected to the front side and the rear side of the left side of the upper end of the workbench through bolts, and the two longitudinal supports are located on the inner sides of the plurality of supporting rods.
Preferably, the lower end of the lower die is connected to the middle part of the upper end of the workbench through a bolt.
Preferably, the number of the square-shaped sleeves is multiple, and the inner ends of the square-shaped sleeves are sequentially bolted to the middle parts of the front end and the rear end of the upper die from left to right.
Preferably, the driving roller and the pinch roller are both stainless steel rollers, and the outer walls of the driving roller and the pinch roller are both glued with rubber anti-slip layers.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses in, vertical support, mounting panel, drive roller, driving motor, electric putter, the setting of type of falling U seat and pinch roller is favorable to realizing pressing from both sides the function of pressing from both sides the panel of tight multiple thickness of transport.
2. The utility model discloses in, locating lever, bed die, circular dog, the setting of sleeve pipe and annular dog is favorable to reducing the frictional force when panel removes.
3. The utility model discloses in, square compressing tightly the pole, square dog, pressure strip, return style of calligraphy sleeve pipe, the spring with prevent the setting on fish tail layer, be favorable to realizing not having the function that hinders compressing tightly panel.
4. The utility model discloses in, the setting of baffle, be favorable to realizing the function of guide.
5. The utility model discloses in, the setting of collecting box, be favorable to collecting the part that the punching press finishes.
6. The utility model discloses in, control panel's setting, be favorable to each electric among the controlgear, realize continuous stamping forming's function through each electric cooperation.
7. The utility model discloses in, drive roller and pinch roller all adopt the stainless steel roller to the outer wall of drive roller and pinch roller all splices the setting that has the rubber skid resistant course, is favorable to the frictional force between increase and the flitch.
8. The utility model discloses in, locating lever and sheathed tube setting, be favorable to realizing the function of location flitch.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the adjustable pinch roller structure of the present invention.
Fig. 3 is a schematic structural diagram of the positioning rod structure with small friction force of the present invention.
Fig. 4 is a schematic structural view of the crush-free pressing plate structure of the present invention.
In the figure:
1. a control panel; 2. a work table; 3. a collection box; 4. a support bar; 5. a top plate; 6. a hydraulic cylinder; 7. an upper die; 8. a support plate; 9. a guide plate; 10. a material plate; 11. an adjustable pinch roller configuration; 111. a longitudinal support; 112. mounting a plate; 113. a drive roller; 114. a drive motor; 115. an electric push rod; 116. an inverted U-shaped seat; 117. a pressure roller; 12. a small friction force positioning rod structure; 121. positioning a rod; 122. a lower die; 123. a circular stopper; 124. a sleeve; 125. an annular stop block; 13. the pressing plate structure is free from being damaged by pressure; 131. a square hold down bar; 132. a square stop block; 133. a compression plate; 134. a square sleeve; 135. a spring; 136. and a scratch-proof layer.
Detailed Description
The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a chassis continuous forming progressive die comprises a control panel 1, a workbench 2, a collecting box 3, a support rod 4, a top plate 5, a hydraulic cylinder 6, an upper die 7, a support plate 8, a guide plate 9 and a material plate 10, wherein the control panel 1 is connected with the middle part of the front end of the workbench 2 through bolts; the collecting box 3 is independently arranged on the right side of the workbench 2 and plays a role in collecting finished parts; one end of each of the support rods 4 is respectively bolted to the four corners of the upper end of the workbench 2, and the other end of each of the support rods is respectively bolted to the four corners of the lower end of the top plate 5; the two hydraulic cylinders 6 are respectively bolted on the left side and the right side of the upper end of the top plate 5, the telescopic rods of the two hydraulic cylinders 6 respectively penetrate through the left side and the right side of the inside of the top plate 5, and the telescopic rods of the two hydraulic cylinders 6 respectively extend to the lower side of the top plate 5; the left side and the right side of the upper end of the upper die 7 are respectively connected with the telescopic rod bolts of the two hydraulic cylinders 6; one end of the supporting plate 8 is bolted to the right side of the upper end of the workbench 2, and the other end of the supporting plate is bolted to the left side of the middle part of the lower end of the guide plate 9; the left end of the guide plate 9 is arranged in an upward inclined mode to play a role in guiding.
The chassis continuous forming progressive die further comprises an adjustable clamping roller structure 11, a small friction force positioning rod structure 12 and a crush-free pressing plate structure 13, wherein the adjustable clamping roller structure 11 is connected with the workbench 2; the small friction force positioning rod structure 12 is connected with the workbench 2; the crush-free pressing plate structure 13 is connected with the upper die 7, and is beneficial to processing plates with various thicknesses, reducing friction force and avoiding crush damage.
The adjustable clamping roller structure 11 comprises longitudinal supports 111, a mounting plate 112, a driving roller 113, a driving motor 114, an electric push rod 115, an inverted U-shaped seat 116 and a pressing roller 117, wherein the upper ends of the two longitudinal supports 111 are respectively bolted on the front side and the rear side of the lower end of the mounting plate 112; the rear end of the driving roller 113 is connected with the middle lower side in the longitudinal bracket 111 arranged at the rear side through a bearing; the driving motor 114 is bolted on the middle lower side of the front end of the longitudinal bracket 111 arranged on the front side, and the output shaft of the driving motor 114 penetrates through the middle lower side of the interior of the longitudinal bracket 111 arranged on the front side and is in key connection with the front end of the driving roller 113; the electric push rod 115 is connected to the middle part of the upper end of the mounting plate 112 through a bolt, and the telescopic rod of the electric push rod 115 penetrates through the middle part of the inside of the mounting plate 112 and extends to the lower side of the mounting plate 112; the middle part of the upper end of the inverted U-shaped seat 116 is connected with a telescopic rod bolt of the electric push rod 115; the compressing roller 117 is axially connected to the middle lower side inside the inverted U-shaped seat 116, when the flitch 10 is conveyed, the flitch 10 can be firstly placed between the driving roller 113 and the compressing roller 117, then the telescopic rod of the electric push rod 115 is controlled by the control panel 1 to move downwards for a proper distance, and the compressing roller 117 compresses the flitch 10, and the telescopic rod of the electric push rod 115 moves downwards for a controllable distance, so that the function of clamping flitch 10 with various thicknesses can be realized.
In this embodiment, referring to fig. 3, the positioning rod structure 12 with small friction force includes a positioning rod 121, a lower mold 122, a circular stopper 123, a sleeve 124 and an annular stopper 125, wherein one end of each of the positioning rods 121 is sequentially bolted to the front and rear sides of the upper end of the lower mold 122 from left to right, and the other end is bolted to the middle of the lower end of the circular stopper 123; the plurality of sleeves 124 are respectively sleeved on the outer walls of the plurality of positioning rods 121; the plurality of annular stoppers 125 are respectively sleeved at the middle parts of the outer walls of the plurality of sleeves 124, the plurality of annular stoppers 125 and the plurality of sleeves 124 are respectively integrally connected, when the flitch 10 moves, the front end and the rear end of the flitch 10 can be in contact with the sleeves 124, and when the flitch 10 moves rightwards, the sleeves 124 can rotate, so that the friction force between the flitch 10 and the positioning rod 121 is reduced, the function of moving with small friction force is realized, and the sleeves 124 can move upwards and downwards on the outer wall of the positioning rod 121, so that the flitch 10 with various thicknesses can be processed.
In this embodiment, as shown in fig. 4, the crush-free compression plate structure 13 is provided with a plurality of structures, each structure includes a square compression rod 131, a square stopper 132, a compression plate 133, a square sleeve 134, a spring 135 and a scratch-proof layer 136, one end of the square compression rod 131 is bolted to the middle of the lower end of the square stopper 132, and the other end of the square compression rod 131 is bolted to the middle of the upper end of the compression plate 133; the square pressing rod 131 is sleeved with the square sleeve 134; the spring 135 is sleeved on the outer wall of the square pressing rod 131, and the spring 135 is positioned between the square sleeve 134 and the pressing plate 133; prevent that fish tail layer 136 splice at pressure strip 133 lower extreme, when last mould 7 moves down, at first prevent fish tail layer 136 can with flitch 10 upside contact, move down along with last mould 7 continues, return word type sleeve 134 can compress spring 135 gradually, the power that pressure strip 133 applyed on flitch 10 this moment also can be bigger and bigger to can compress tightly flitch 10, avoid flitch 10 to produce the problem that removes when the punching press, can avoid the pressure strip 133 to press the problem of hindering flitch 10 through preventing fish tail layer 136.
In this embodiment, specifically, two longitudinal brackets 111 are provided, and the lower ends of the two longitudinal brackets 111 are respectively bolted to the front side and the rear side of the left side of the upper end of the workbench 2, and the two longitudinal brackets 111 are located inside the plurality of support rods 4.
In this embodiment, specifically, the lower end of the lower mold 122 is bolted to the middle of the upper end of the worktable 2.
In this embodiment, specifically, the number of the loop-shaped sleeves 134 is multiple, and the inner ends of the multiple loop-shaped sleeves are sequentially bolted to the middle parts of the front end and the rear end of the upper mold 7 from left to right.
In this embodiment, specifically, the supporting plate 8 is located inside the plurality of supporting rods 4.
In this embodiment, specifically, the lower mold 122 and the upper mold 7 are arranged in a facing and matching manner.
In this embodiment, specifically, the upper mold 7 is located between the plurality of annular stoppers 125.
In this embodiment, specifically, the material plate 10 is located between the driving roller 113 and the pressing roller 117, and the material plate 10 is further located between the lower mold 122 and the plurality of annular stoppers 125.
In this embodiment, specifically, the driving roller 113 and the pinch roller 117 both adopt stainless steel rollers, and the outer walls of the driving roller 113 and the pinch roller 117 are both glued with rubber anti-slip layers.
In this embodiment, specifically, the positioning rod 121 is a stainless steel rod with a circular cross section.
In this embodiment, specifically, the scratch-proof layer 136 is a rubber layer.
In this embodiment, specifically, the hydraulic cylinders 6 are provided with two hydraulic cylinders, and the two hydraulic cylinders are respectively connected with the electromagnetic valve pipelines of the external hydraulic pump station.
In this embodiment, the driving motor 114 is an AKM2G-4X type servo motor.
In this embodiment, the electric ram 115 is an HLT80-a-S1000-Q-D-Z servo electric ram.
In this embodiment, specifically, the driving motor 114 and the electric push rod 115 are respectively electrically connected to the control panel 1.
Principle of operation
In the utility model, when the flitch 10 is conveyed, the flitch 10 can be firstly placed between the driving roller 113 and the compressing roller 117, then the telescopic rod of the electric push rod 115 is controlled by the control panel 1 to move downwards for a proper distance, and the compressing roller 117 compresses the flitch 10, and the telescopic rod of the electric push rod 115 moves downwards for a controllable distance, so that the function of clamping flitch 10 with various thicknesses can be realized; when the flitch 10 moves, the front end and the rear end of the flitch 10 can be in contact with the sleeve 124, and when the flitch 10 moves rightwards, the sleeve 124 can rotate, so that the friction force between the flitch 10 and the positioning rod 121 is reduced, the function of small friction force movement is realized, and the sleeve 124 can move up and down on the outer wall of the positioning rod 121, so that flitches 10 with various thicknesses can be processed; when the upper die 7 moves downwards, the scratch-proof layer 136 is firstly contacted with the upper side of the material plate 10, the return-shaped sleeve 134 can gradually compress the spring 135 along with the fact that the upper die 7 continues to move downwards, the force exerted on the material plate 10 by the pressing plate 133 is larger and larger at the moment, so that the material plate 10 can be pressed, the problem that the material plate 10 moves during stamping is avoided, and the problem that the material plate 10 is pressed by the pressing plate 133 can be avoided through the scratch-proof layer 136.
Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (6)

1. The progressive die for continuously forming the chassis is characterized by comprising a control panel (1), a workbench (2), a collecting box (3), a supporting rod (4), a top plate (5), a hydraulic cylinder (6), an upper die (7), a supporting plate (8), a guide plate (9), a material plate (10), an adjustable clamping roller structure (11), a small-friction positioning rod structure (12) and a crush-free pressing plate structure (13), wherein the control panel (1) is connected to the middle part of the front end of the workbench (2) through bolts; the collecting box (3) is independently arranged on the right side of the workbench (2); one end of each support rod (4) is respectively bolted at the four corners of the upper end of the workbench (2), and the other end of each support rod is respectively bolted at the four corners of the lower end of the top plate (5); the two hydraulic cylinders (6) are respectively connected to the left side and the right side of the upper end of the top plate (5) through bolts, telescopic rods of the two hydraulic cylinders (6) respectively penetrate through the left side and the right side of the inside of the top plate (5), and the telescopic rods of the two hydraulic cylinders (6) respectively extend to the lower side of the top plate (5); the left side and the right side of the upper end of the upper die (7) are respectively connected with the telescopic rod bolts of the two hydraulic cylinders (6); one end of the supporting plate (8) is bolted to the right side of the upper end of the workbench (2), and the other end of the supporting plate is bolted to the left side of the middle part of the lower end of the guide plate (9); the left end of the guide plate (9) is arranged in an upward inclined manner; the adjustable clamping roller structure (11) is connected with the workbench (2); the small friction positioning rod structure (12) is connected with the workbench (2); the crush-free compression plate structure (13) is connected with the upper die (7); the adjustable clamping roller structure (11) comprises longitudinal supports (111), a mounting plate (112), a driving roller (113), a driving motor (114), an electric push rod (115), an inverted U-shaped seat (116) and a pressing roller (117), wherein the upper ends of the two longitudinal supports (111) are respectively connected to the front side and the rear side of the lower end of the mounting plate (112) through bolts; the rear end bearing of the driving roller (113) is connected with the middle lower side in the longitudinal bracket (111) arranged at the rear side; the driving motor (114) is connected with the middle lower side of the front end of the longitudinal support (111) arranged on the front side through a bolt, and an output shaft of the driving motor (114) penetrates through the middle lower side of the interior of the longitudinal support (111) arranged on the front side and is connected with the front end key of the driving roller (113); the electric push rod (115) is connected to the middle part of the upper end of the mounting plate (112) through a bolt, and a telescopic rod of the electric push rod (115) penetrates through the middle part inside the mounting plate (112) and extends to the lower side of the mounting plate (112); the middle part of the upper end of the inverted U-shaped seat (116) is connected with a telescopic rod bolt of the electric push rod (115); the pressing roller (117) is axially connected with the middle lower side in the inverted U-shaped seat (116).
2. The progressive die for continuously molding a chassis according to claim 1, wherein the positioning rod structure (12) with small friction force comprises a plurality of positioning rods (121), a lower die (122), a circular stopper (123), a sleeve (124) and an annular stopper (125), one end of each of the plurality of positioning rods (121) is sequentially bolted from left to right on the front side and the rear side of the upper end of the lower die (122), and the other end of each of the plurality of positioning rods is bolted to the middle of the lower end of the circular stopper (123); the plurality of sleeves (124) are respectively sleeved on the outer walls of the plurality of positioning rods (121); the annular stop blocks (125) are respectively sleeved at the middle parts of the outer walls of the sleeves (124), and the annular stop blocks (125) and the sleeves (124) are respectively integrally connected.
3. The progressive die for continuously forming the chassis according to claim 1, wherein a plurality of compression plate structures (13) without compression damage are provided, and each compression plate structure comprises a square compression rod (131), a square stop block (132), a compression plate (133), a square sleeve (134), a spring (135) and a scratch-proof layer (136), one end of each square compression rod (131) is bolted to the middle part of the lower end of the square stop block (132), and the other end of each square compression rod is bolted to the middle part of the upper end of the compression plate (133); the square pressing rod (131) is sleeved with the square sleeve (134); the spring (135) is sleeved on the outer wall of the square pressing rod (131), and the spring (135) is positioned between the square sleeve (134) and the pressing plate (133); the scratch-proof layer (136) is glued to the lower end of the pressure plate (133).
4. The progressive die for continuous molding of undercarriage according to claim 1, wherein said longitudinal supports (111) are provided in two numbers, respectively bolted at lower ends thereof to the left side and the front and rear sides of the upper end of the table (2), and two of said longitudinal supports (111) are located inside the plurality of said supporting bars (4).
5. The progressive die for continuous molding of a base pan as claimed in claim 2, wherein the lower end of the lower die (122) is bolted to the upper middle portion of the table (2).
6. The progressive die for continuously forming a chassis as claimed in claim 3, wherein a plurality of the loop-shaped sleeves (134) are provided, and the inner ends thereof are respectively bolted to the middle portions of the front and rear ends of the upper die (7) in sequence from left to right.
CN202120957210.5U 2021-05-07 2021-05-07 Continuous forming progressive die for chassis Active CN214866779U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120957210.5U CN214866779U (en) 2021-05-07 2021-05-07 Continuous forming progressive die for chassis

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120957210.5U CN214866779U (en) 2021-05-07 2021-05-07 Continuous forming progressive die for chassis

Publications (1)

Publication Number Publication Date
CN214866779U true CN214866779U (en) 2021-11-26

Family

ID=78889974

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120957210.5U Active CN214866779U (en) 2021-05-07 2021-05-07 Continuous forming progressive die for chassis

Country Status (1)

Country Link
CN (1) CN214866779U (en)

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