CN117299979A - Adjusting arm apparatus for producing - Google Patents

Abstract

The invention discloses an adjusting arm production device, which comprises a workbench and a die casting mechanism for forging and pressing an adjusting arm, wherein two limiting plates are horizontally arranged on the upper side surface of the workbench, a sliding gap is formed between the two limiting plates and the workbench, a limiting groove is formed in the workbench, a turnover mechanism arranged on the workbench comprises a die seat and a turnover module, the die seat is arranged between the two limiting plates in a sliding mode, the turnover module comprises a driving motor, a synchronous belt and sliding plates, the sliding plates are arranged between the two limiting plates and the workbench in a sliding mode, pull grooves are formed in the opposite side walls of the two sliding plates, the sliding plates are fixed with the corresponding synchronous belt, the driving motor drives the two sliding plates to synchronously translate through the synchronous belt, a rotating rod corresponding to the pull grooves is arranged on the side wall of the die seat, and the rotating rod is arranged in the corresponding pull grooves in a sliding mode. The translation of driving motor drive sliding plate and then drive the mould seat and remove, and realize the full-automatic vertical upset of mould seat through the spacing groove, can effectively improve upset efficiency and die-casting after the upset is firm.

Description

Adjusting arm apparatus for producing

Technical Field

The invention relates to the technical field of manufacturing of adjusting arms, in particular to an adjusting arm production device.

Background

The adjusting arm is an automatic adjusting arm for brake clearance, which is called an automatic adjusting arm for short, and can automatically and timely adjust the clearance increased by abrasion, so that the brake clearance is always kept within the design range. When braking is started, the adjusting arm drives the cam shaft to rotate through the clearance angle and the excessive clearance angle, and the generated abrasion is accurately recorded. At this time, the cam angular travel is in a clearance area, and the clearance area is characterized in that the braking moment is not changed greatly, and when the braking is continued, the cam angular travel enters an elastic deformation area, and the braking moment rises sharply until the vehicle stops. The pedal is released, the brake returns, the brake torque decreases, and the cam angle travel returns to the clearance area. The automatic adjusting arm drives the cam shaft to rotate a certain angle through the worm wheel according to the excessive gap recorded during braking, so that one-time adjustment is completed.

In the casting process of the adjusting arm in the prior art, the adjusting arm needs to be combined with a blank and a blank, wherein when the blank and the blank are combined, a casting which is horizontally placed needs to be erected for vertical pressing forging, and then the casting needs to be horizontally placed again for pressing forging. Most of the existing equipment manually moves and overturns castings, so that the die casting precision is low; meanwhile, some enterprises adopt mechanical claws to move and overturn, and the steps are complex although manual participation is reduced, so that the efficiency is improved only to a limited extent.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the adjusting arm production device is high in die casting production consistency, high in efficiency and high in stability.

In order to solve the technical problems, the invention is solved by the following technical scheme: the utility model provides an adjusting arm apparatus for producing, includes the workstation and is located the die casting mechanism of forging and pressing adjusting arm above the workstation, the workstation be provided with the tilting mechanism that is used for overturning adjusting arm, workstation upside level be provided with two relative limiting plates, two limiting plates and workstation between be provided with the slip clearance, the front end of workstation still is provided with the spacing groove that is located between two limiting plates, tilting mechanism include mould seat and turn over the mould subassembly, the mould seat slide and set up between two limiting plates, turn over the mould subassembly and include driving motor, hold-in range and sliding plate, two limiting plates and workstation between all slide and be provided with the sliding plate, two sliding plates set up relatively and opposite lateral wall all offer the draw-in groove, sliding plate and corresponding hold-in range phase fix, driving motor pass through synchronous belt drive two sliding plates synchronous translation, the lateral wall of mould seat be provided with the dwang corresponding with the draw-in groove, the dwang slide set up in the draw-in groove that corresponds; when the die seat is in a vertical state, the front end of the die seat is propped against the bottom of the limit groove, and the upper side surface of the die seat is propped against the inner side wall of the limit groove.

Furthermore, a connecting plate is arranged at the rear end part of the sliding plate, a limiting sleeve is rotatably arranged between the two opposite connecting plates, and the limiting sleeve synchronously moves along with the sliding plate and can be sleeved outside the die seat; the die seat has the advantages that the limiting sleeve can be sleeved outside the die seat, so that the workpiece and the die seat are kept matched in the actual use process, and the workpiece is prevented from falling off in the rotation process of the die seat and in the vertical state.

Further, two sides of the limiting sleeve are fixedly provided with rotating shafts which are in running fit with the corresponding connecting plates, auxiliary grooves corresponding to the pull grooves are formed in the rotating shafts, and the rotating rods can slide into the corresponding auxiliary grooves along the pull grooves; the die seat has the advantages that the reliable rotation of the limiting sleeve can be guaranteed through the rotating shaft, meanwhile, the rotating rod can move into the auxiliary groove through the auxiliary groove, so that the die seat is guaranteed to rotate in a consistent manner with the rotation of the limiting sleeve, interference phenomenon is avoided, and the synchronous and smooth rotation of the limiting sleeve along with the die seat is guaranteed.

Further, the bottom side of the limiting sleeve is opened, and the bottom side of the die seat is contacted with the workbench; the die seat and the workbench are reliably contacted by the limiting sleeve with the opening at the bottom side, so that the stability of the die seat in the stamping process is guaranteed, namely, the die seat is matched with the solid part of the workbench, the rotating rod on the die seat is prevented from bearing stamping force, the deformation caused by stamping is reduced, and the service life is prolonged.

Still further, the turnover mechanism further comprises a tightening assembly, the tightening assembly comprises a tension spring and a compression plate, the workbench is provided with a telescopic hole positioned in the limit groove, the compression plate can extend into the limit groove along the telescopic hole, and the tension spring is arranged in the telescopic hole and used for providing tension for the compression plate to enable the compression plate to shrink into the telescopic hole; when the die seat is in a vertical state, the pressing plate is abutted against the lower end part of the die seat; the mold base has the advantages that the stability of the mold base when the workpiece is subjected to secondary stamping in the vertical state can be effectively guaranteed through the arranged abutting assembly, and the bottom of the mold base is prevented from shaking.

Furthermore, the workbench is vertically provided with sliding grooves positioned at two sides of the die seat, two sides of the compacting plate are provided with fixing plates positioned in the sliding grooves, the fixing plates are provided with stop blocks, the lower side surface of the connecting plate is provided with a shifting block positioned in the sliding grooves, and the shifting block is aligned with the stop blocks; the pressing plate has the advantages that the sliding grooves are formed in the two sides, so that the part of the workbench, which is positioned below the die seat, is in a solid state, the supporting performance of the workbench in the stamping process is improved, meanwhile, the moving synchronism of the connecting plate can be guaranteed through the cooperation of the two side stop blocks and the shifting block, and the reliability of the sliding and extending action of the pressing plate is further guaranteed.

Furthermore, the fixing plates at two sides of the pressing plate are oppositely arranged, and a gap is arranged between the two oppositely arranged fixing plates; the die has the advantages that the notch is arranged between the two oppositely arranged fixing plates, so that the depth of the telescopic hole can be effectively reduced, most of the area of the workbench right below the die seat is solid, and the stamping bearing capacity is improved.

Furthermore, the inner side wall of the limit groove far away from the front end of the workbench is provided with an inclined surface, and the die seat can slide into the limit groove along the inclined surface; the advantage lies in that smooth and easy degree that slide in the spacing groove through the inclined plane that sets up can ensure the mould seat bottom, and the guarantee mould seat can reliably overturn vertically.

Further, the driving motor is fixed with the workbench, the workbench is further rotatably provided with two driving rods corresponding to the synchronous belt, the end part of one driving rod is connected with the output shaft of the driving motor through a first driving belt, the workbench is rotatably provided with a first gear, the driving motor drives the first gear to rotate through a second driving belt, and the end part of the other driving rod is provided with a second gear meshed with the first gear; the device has the advantages that the synchronous and stable movement of the two sliding plates can be ensured through the cooperation of the arranged driving motor, the synchronous belt and other parts, the stable movement of the die seat is ensured, and the stamping reliability is improved.

Compared with the prior art, the invention has the following beneficial effects: through the translation of the cooperation drivable sliding plate of driving motor and workstation that set up, and then drive the mould seat through the translation of sliding plate and remove to realize the full-automatic vertical upset of mould seat through the spacing groove that sets up, can effectively improve upset efficiency and die-casting after the upset firm, the translation stability of sliding plate can be ensured through the slip clearance that sets up in this design. After one-time die casting is finished, the die seat can slide into the limiting groove at the front end under the action of gravity, and the sliding plate continuously moves to drive the die seat to stand at the moment, so that the die seat has fewer parts and components, can effectively avoid the deformation of the parts in the die casting process, and can effectively avoid the influence on the die casting effect after the deformation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the cooperation of a table and a turnover mechanism of the present invention;

FIG. 2 is a schematic view of the structure of the workbench of the invention;

FIG. 3 is a schematic view of the internal structure of the workbench according to the invention;

FIG. 4 is a schematic view illustrating the disassembly of the overmolded assembly in accordance with the present invention;

FIG. 5 is a schematic diagram showing the cooperation between a mold base and a slide plate according to the present invention;

FIG. 6 is a schematic view of a sliding plate according to the present invention;

FIG. 7 is a schematic view of the stop collar of the present invention;

FIG. 8 is a schematic front view of FIG. 1;

FIG. 9 is a schematic cross-sectional view taken along line A-A of FIG. 8;

FIG. 10 is a schematic cross-sectional view taken along line B-B of FIG. 8;

fig. 11 is a schematic view of the usage state of fig. 1.

Description of the embodiments

The present invention is described in further detail below with reference to the accompanying drawings.

The following description is presented to enable one of ordinary skill in the art to practice the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the invention defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. indicate orientations or positions based on the orientation or positional relationship shown in the drawings, which are merely for convenience in describing the present simplified description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus the above terms are not to be construed as limiting the present invention.

The utility model provides an adjustment arm apparatus for producing as shown in fig. 1-11, includes workstation 1 and is located the die casting mechanism that is used for forging and pressing the adjustment arm above workstation 1, and workstation 1 is provided with the tilting mechanism that is used for overturning the adjustment arm, and workstation 1 upside level is provided with two relative limiting plates 1.1, is provided with sliding gap 1.2 between two limiting plates 1.1 and the workstation 1, workstation 1's front end still is provided with the spacing groove 1.3 that is located between two limiting plates 1.1, and tilting mechanism includes mould seat 2 and turnover module 3, and mould seat 2 slides and sets up between two limiting plates 1.1, and turnover module 3 includes driving motor 3.1, hold-in range 3.4 and sliding plate 3.2, all slides between two limiting plates 1.1 and the workstation 1 and is provided with sliding plate 3.2, and the draw-in groove 3.21 has all been seted up to the relative lateral wall, and sliding plate 3.2 is fixed with corresponding hold-in range 3.4 mutually, driving motor 3.1 through the corresponding draw-in range 3.4 drive two sliding plates 3.2, the side wall setting up corresponding draw-in groove 2.21. When the die casting device is used, a workpiece to be processed is placed in the die seat 2, a first blank is die-cast through the existing die casting mechanism, after the process is finished, the driving motor 3.1 and the synchronous belt 3.4 drive the two sliding plates 3.2 to translate towards the front end of the workbench 1, after a section of movement is formed, the rotating rod 2.1 of the die seat 2 is contacted with the rear part of the corresponding pull groove 3.21, so that the movement of the sliding plate 3.2 drives the rotating rod 2.1 to move so as to drive the die seat 2 to move forward from the rear, the front end of the die seat 2 slides into the limit groove 1.3 under the action of gravity, the sliding plate 3.2 continues to drive the rotating shaft 3.31 of the die seat 2 to translate, the front end of the die seat 2 is driven to completely enter the limit groove 1.3 to be erected, at the moment, the front end of the die seat 2 is propped against the bottom of the limit groove 1.3, the upper side surface of the die seat 2 is propped against the inner side wall of the limit groove 1.3 to be stable, the die seat is further subjected to second blank die casting through the die casting mechanism, and after the process is finished, the driving motor 3.1 is reversely drives the sliding plate 3.2 to drive the die seat 2 to translate backwards, so that the die is restored to be translated.

On the basis, in order to ensure the reliable matching of the workpiece to be processed and the die seat 2 in the overturning process of the die seat 2, the rear end part of the sliding plate 3.2 is provided with a connecting plate 3.22, a limiting sleeve 3.3 is rotationally arranged between the two opposite connecting plates 3.22, and the limiting sleeve 3.3 synchronously moves along with the sliding plate 3.2 and can be sleeved outside the die seat 2, so that the workpiece and the die seat 2 are kept relatively fixed in the actual use process, and the workpiece is prevented from falling off in the rotating process of the die seat 2 and in the vertical state. Specifically, the two sides of the limiting sleeve 3.3 are fixedly provided with a rotating shaft 3.31, the rotating shaft 3.31 is in running fit with a corresponding connecting plate 3.22, an auxiliary groove 3.32 corresponding to the pull groove 3.21 is formed in the rotating shaft 3.31, the rotating rod 2.1 can slide into the corresponding auxiliary groove 3.32 along the pull groove 3.21, the limiting sleeve 3.3 can reliably rotate through the moving shaft, meanwhile, the rotating rod 2.1 can move into the auxiliary groove 3.32 through the formed auxiliary groove 3.32, so that the rotation of the die holder 2 is kept consistent with that of the limiting sleeve 3.3, interference phenomenon is avoided, and the basic coaxial arrangement of the rotating rod 2.1 and the rotating shaft 3.31 is realized, so that the synchronous smooth rotation of the limiting sleeve 3.3 along with the die holder 2 is ensured. Further, the bottom side of the limiting sleeve 3.3 is opened, the bottom side of the die seat 2 is contacted with the workbench 1, and the reliable contact between the die seat 2 and the workbench 1 can be ensured by arranging the limiting sleeve 3.3 with the bottom side opened, so that the stability of the die seat 2 in the stamping process is ensured, namely, the die seat 2 is matched with the solid part of the workbench 1, the rotating rod 2.1 on the die seat 2 is prevented from bearing the stamping force, the deformation caused by stamping is reduced, and the service life is prolonged.

It should be noted that, in order to ensure the resetting and stability of the limiting sleeve 3.3, a reset torsion spring 3.5 may be disposed on the rotating shaft 3.31 fixed with the limiting sleeve 3.3, one end of the reset torsion spring 3.5 is inserted into the reset hole 3.33 of the rotating shaft 3.31, and the other end abuts against the connecting plate 3.22.

In order to ensure the stability of the vertical die seat 2 in the die casting process, the turnover mechanism of the design further comprises a supporting and tightening assembly 4, wherein the supporting and tightening assembly 4 comprises a tension spring 4.4 and a compression plate 4.1, the workbench 1 is provided with a telescopic hole 1.6 positioned in the limit groove 1.3, the compression plate 4.1 can extend into the limit groove 1.3 along the telescopic hole 1.6, and the tension spring 4.4 is arranged in the telescopic hole 1.6 and used for providing tension for the compression plate 4.1 so as to enable the compression plate 4.1 to shrink into the telescopic hole 1.6; when the die seat 2 is in a vertical state, the pressing plate 4.1 is abutted against the lower end part of the die seat 2, the stability of the die seat 2 when the die seat 2 performs two-blank stamping on a workpiece in the vertical state can be effectively guaranteed through the abutted-against assembly 4, and shaking of the bottom of the die seat 2 is avoided.

On the basis, the sliding grooves 1.5 positioned on two sides of the die seat 2 are vertically formed in the design workbench 1, the fixing plates 4.2 positioned in the sliding grooves 1.5 are arranged on two sides of the pressing plates 4.1, the stop blocks 4.3 are arranged on the fixing plates 4.2, the shifting blocks 3.23 positioned in the sliding grooves 1.5 are arranged on the lower side face of the connecting plate 3.22, and the shifting blocks 3.23 are aligned with the stop blocks 4.3. When the sliding plate 3.2 moves towards the front end, the shifting block 3.23 is synchronously driven to move forwards, and then the stop block 4.3 is driven to move forwards to drive the pressing plate 4.1 to synchronously move and press the bottom of the vertical rear die seat 2; when the sliding plate 3.2 moves backwards, the compacting plate 4.1 is retracted into the telescopic hole 1.6 under the action of the tension spring 4.4. The sliding grooves 1.5 are formed in the two sides, so that the part of the workbench 1, which is positioned below the die seat 2, is in a solid state, the supporting performance of the workbench 1 in the stamping process is improved, meanwhile, the moving synchronism of the connecting plate 3.22 can be ensured through the matching of the two side stop blocks 4.3 and the shifting blocks 3.23, and the reliability of the sliding and extending action of the compacting plate 4.1 is further ensured. Preferably, the fixing plates 4.2 on two sides of the compacting plate 4.1 are oppositely arranged, a gap is arranged between the two oppositely arranged fixing plates 4.2, and the depth of the telescopic hole 1.6 can be effectively reduced by arranging the gap between the two oppositely arranged fixing plates 4.2, so that most of the area of the workbench 1, which is located under the die seat 2, is solid, and the stamping bearing capacity is improved.

It should be noted that, to ensure reliable cooperation of the shift block 3.23 and the stopper 4.3, an auxiliary chute 1.7 along the moving direction of the shift block 3.23 may be disposed on the upper side of the table 1, where a portion of the auxiliary chute 1.7 coincides with the chute 1.5.

In order to ensure that the front end of the die seat 2 can smoothly enter the limit groove 1.3, an inclined surface 1.4 is arranged on the inner side wall of the limit groove 1.3 far away from the front end of the workbench 1, and the die seat 2 can slide into the limit groove 1.3 along the inclined surface 1.4, so that the smoothness of the bottom of the die seat 2 sliding into the limit groove 1.3 can be ensured through the inclined surface 1.4, and the die seat 2 can be reliably turned vertically.

The driving motor 3.1 of this design is fixed mutually with workstation 1, workstation 1 still rotates and is provided with two actuating levers 5 corresponding with hold-in range 3.4, the tip of one of them actuating lever 5 is connected with the output shaft of driving motor 3.1 through first actuating belt 6, workstation 1 rotates and is provided with first gear 8, driving motor 3.1 drives first gear through second actuating belt 7 and rotates 8, the tip of another actuating lever 5 is provided with the second gear 9 with first gear 8 engaged with, the cooperation through parts such as actuating motor 3.1 and hold-in range 3.4 that set up can ensure synchronous steady removal of two sliding plates 3.2, guarantee the steady removal of mould seat 2, improve the reliability of punching press.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are by way of example only and are not limiting. The objects of the present invention have been fully and effectively achieved. The functional and structural principles of the present invention have been shown and described in the examples and embodiments of the invention may be modified or practiced without departing from the principles described.

Claims (9)

1. The utility model provides an adjusting arm apparatus for producing, includes workstation (1) and is located the die casting mechanism that is used for forging and pressing adjusting arm above workstation (1), its characterized in that, workstation (1) be provided with the tilting mechanism that is used for overturning adjusting arm, workstation (1) upside level be provided with two relative limiting plates (1.1), two limiting plates (1.1) and workstation (1) between be provided with sliding gap (1.2), the front end of workstation (1) still is provided with spacing groove (1.3) that are located between two limiting plates (1.1), tilting mechanism include mould seat (2) and turnover module spare (3), mould seat (2) slide and set up between two limiting plates (1.1), turnover module spare (3) including driving motor (3.1), hold-in range (3.4) and sliding plate (3.2), two limiting plates (1.1) and workstation (1) between all be provided with sliding gap (1.2) between sliding plate (3.2) and the front end still be provided with spacing groove (1.3) between two limiting plates (1.1) and sliding plate (3.2), the corresponding side wall (3.2) and two side wall (3.2) sliding plate (3.2) are provided with corresponding to be provided with through the driving motor (3.2), the rotating rod (2.1) is arranged in the corresponding pull groove (3.21) in a sliding way; when the die seat (2) is in a vertical state, the front end of the die seat (2) is propped against the bottom of the limit groove (1.3), and the upper side surface of the die seat (2) is propped against the inner side wall of the limit groove (1.3).

2. The production device of the adjusting arm according to claim 1, wherein the rear end part of the sliding plate (3.2) is provided with a connecting plate (3.22), a limiting sleeve (3.3) is rotatably arranged between the two opposite connecting plates (3.22), and the limiting sleeve (3.3) synchronously moves along with the sliding plate (3.2) and can be sleeved outside the die seat (2).

3. An adjusting arm production device according to claim 2, characterized in that two sides of the limiting sleeve (3.3) are fixedly provided with rotating shafts (3.31), the rotating shafts (3.31) are in rotating fit with corresponding connecting plates (3.22), auxiliary grooves (3.32) corresponding to the pull grooves (3.21) are formed in the rotating shafts (3.31), and the rotating rods (2.1) can slide into the corresponding auxiliary grooves (3.32) along the pull grooves (3.21).

4. An adjusting arm production device according to claim 3, characterized in that the bottom side of the limit sleeve (3.3) is open, and the bottom side of the die holder (2) is in contact with the table (1).

5. An adjusting arm production device according to claim 2, wherein the turnover mechanism further comprises a tightening assembly (4), the tightening assembly (4) comprises a tension spring (4.4) and a compression plate (4.1), the workbench (1) is provided with a telescopic hole (1.6) positioned in the limit groove (1.3), the compression plate (4.1) can extend into the limit groove (1.3) along the telescopic hole (1.6), and the tension spring (4.4) is arranged in the telescopic hole (1.6) and is used for providing tension for the compression plate (4.1) to enable the compression plate (4.1) to shrink into the telescopic hole (1.6); when the die seat (2) is in a vertical state, the compacting plate (4.1) is abutted against the lower end part of the die seat (2).

6. The production device of the adjusting arm according to claim 5, wherein the workbench (1) is vertically provided with sliding grooves (1.5) positioned at two sides of the die seat (2), two sides of the pressing plate (4.1) are provided with fixing plates (4.2) positioned in the sliding grooves (1.5), the fixing plates (4.2) are provided with stop blocks (4.3), the lower side surface of the connecting plate (3.22) is provided with a shifting block (3.23) positioned in the sliding grooves (1.5), and the shifting block (3.23) is aligned with the stop blocks (4.3).

7. An adjusting arm production device according to claim 6, characterized in that the fixing plates (4.2) on both sides of the compacting plates (4.1) are arranged opposite each other, and a gap is arranged between the fixing plates (4.2) arranged opposite each other.

8. The device for producing the adjusting arm according to claim 1, wherein the limiting groove (1.3) is provided with an inclined surface (1.4) far away from the inner side wall of the front end of the workbench (1), and the die seat (2) can slide into the limiting groove (1.3) along the inclined surface (1.4).

9. An adjusting arm production device according to claim 1, characterized in that the driving motor (3.1) is fixed to the working table (1), the working table (1) is further rotatably provided with two driving rods (5) corresponding to the synchronous belt (3.4), the end part of one driving rod (5) is connected with the output shaft of the driving motor (3.1) through a first driving belt (6), the working table (1) is rotatably provided with a first gear (8), the driving motor (3.1) drives the first gear (8) to rotate through a second driving belt (7), and the end part of the other driving rod (5) is provided with a second gear (9) meshed with the first gear (8).