CN221158203U - Flanging equipment - Google Patents

Abstract

The application relates to a flanging device, comprising: the fixing device is arranged on the frame and used for supporting and fixing the workpiece; the spinning flanging device is arranged on the frame and is used for carrying out inward flanging on the pipe orifice of the workpiece; and the pressing device comprises a pressing rod, a connecting rod and a first screw rod driving assembly, the first screw rod driving assembly is arranged on the frame, the first screw rod driving assembly comprises a first screw rod and a first motor, the first screw rod and the first motor are connected with one end of the connecting rod, the other end of the connecting rod is connected with the pressing rod, the connecting rod and the first screw rod are coaxially arranged, the first motor is used for driving the screw rod to lift so as to drive the connecting rod and the pressing rod to lift, and the pressing rod is used for extending into a pipe orifice and pressing a pipe inner part of a workpiece during flanging. The first screw rod driving assembly is arranged to drive the compression bar to move, and the screw rod of the first screw rod driving assembly drives the descending stroke of the compression bar to be accurately controlled, so that the stop position of the compression bar is accurately positioned, and the high quality requirement of the shock absorber processing is met.

Description

Flanging equipment

Technical Field

The application belongs to the technical field of pipe orifice flanging processing, and relates to flanging equipment which is mainly suitable for carrying out internal flanging operation on pipe orifices of workpieces such as storage pipes of shock absorbers.

Background

The storage tube of the shock absorber usually needs to be flanged at the tube orifice, and the flange can fix the cylinder tube, the guide and the oil seal ring of the shock absorber in the storage tube.

As disclosed in the patent application CN108213231a, the inflation flanging machine 10 further includes a compression bar power device 18, the compression bar power device 18 adopts the cylinder rod of the compression cylinder to abut against the compression connection rod 182, the compression rod 183 abuts against the oil seal 24 of the oil storage cylinder 21 of the workpiece 20, and the oil seal 24 abuts against the guide 23 of the oil storage cylinder 21, so as to press the guide 23 into the oil storage cylinder 21. The disadvantage is that the motion stroke of the compression cylinder cannot be accurately controlled, so that the height difference exists in the position of the oil seal 24, the position of the oil seal 24 cannot be accurately positioned, and the high quality requirement of the shock absorber processing cannot be met.

Disclosure of utility model

To overcome the problems in the related art, the present application is directed to a flanging apparatus.

The application is realized by the following technical scheme.

The technical scheme is to provide a flanging device, include:

The fixing device is arranged on the frame and used for supporting and fixing the workpiece;

The spinning flanging device is arranged on the frame and is used for carrying out inward flanging on the pipe orifice of the workpiece; and

The pressing device comprises a pressing rod, a connecting rod and a first screw rod driving assembly, wherein the first screw rod driving assembly is arranged on the frame and comprises a first screw rod connected with one end of the connecting rod and a first motor, the other end of the connecting rod is connected with the pressing rod, the connecting rod and the first screw rod are coaxially arranged, the first motor is used for driving the screw rod to lift so as to drive the connecting rod and the pressing rod to lift, and the pressing rod is used for extending into a pipe orifice and pressing an intraductal part of a workpiece during flanging.

The technical effect of this technical scheme is, drives the motion of depression bar through setting up first lead screw drive assembly, and the lead screw drive of first lead screw drive assembly can be accurate control depression bar's decline stroke to the stop position of accurate location depression bar satisfies the high quality requirement of bumper shock absorber processing.

In one embodiment of the technical scheme, the first screw rod driving assembly comprises a support sleeve, a rotating sleeve and a first screw rod nut, the support sleeve is arranged on the frame, the rotating sleeve is arranged in the support sleeve to rotate, the first screw rod nut is connected with the rotating sleeve and is matched with the first screw rod, and a first motor arranged on the frame drives the rotating sleeve to rotate through a first transmission structure.

In one embodiment of the present disclosure, the first transmission structure includes a first gear and a second gear, wherein the first gear is connected with a rotation shaft of the first motor, the second gear is connected with the rotation sleeve, and the first gear is meshed with the second gear.

In one embodiment of the technical scheme, the fixing device comprises an adjusting plate and a base, wherein the adjusting plate is movably arranged on the frame, the base is arranged on the adjusting plate, and the base is used for supporting and limiting a workpiece;

the machine frame is provided with a pressure detection part, the pressure detection part is propped against the regulating plate, and the pressure detection part is used for detecting the pressure applied by the pressing device to the workpiece.

Preferably, the pressure detecting member is a pressure sensor.

Therefore, the pressure applied to the workpiece by the pressing device can be accurately detected through the pressure detection component, when the pressure of the pressing device is detected by the pressure detection component to reach a preset value, the pressing motion of the pressing device is controlled to stop through the system, the pressure stabilization can be controlled and maintained in the flanging process, and the high quality requirement of the shock absorber processing is met.

In one embodiment of the technical scheme, the fixing device further comprises a clamping assembly, wherein the clamping assembly is connected to the adjusting plate through a bracket and is used for clamping and fixing a workpiece;

The clamping assembly comprises a finger cylinder and two clamping dies which are arranged on the bracket, the two clamping dies are respectively connected to two fingers of the finger cylinder, and the finger cylinder drives the two clamping dies to move so as to clamp a workpiece.

In one embodiment of the technical scheme, the spinning flanging device comprises a spinning mechanism and a pressure feeding mechanism, wherein the pressure feeding mechanism is used for driving the spinning mechanism to lift and providing a pressing acting force of the spinning mechanism;

The spinning mechanism comprises a second motor, a main shaft support sleeve, a spinning main shaft and a spinning assembly, wherein the main shaft support sleeve and the second motor are arranged on the pressure feeding mechanism, the spinning main shaft is arranged in the main shaft support sleeve to rotate, the second motor is used for driving the spinning main shaft to rotate, the spinning assembly is connected with the spinning main shaft, and the spinning assembly is used for carrying out inward flanging on a pipe orifice of a workpiece.

In one embodiment of the technical scheme, the pressure feeding mechanism comprises a lifting plate, a second screw rod, a third screw rod and a third motor, wherein the second screw rod and the third screw rod are arranged on a frame to rotate, the lifting plate is arranged on the frame to perform lifting movement, and the lifting plate is connected with a second screw rod nut on the second screw rod and a third screw rod nut on the third screw rod;

The third motor is arranged on the frame and is used for driving the second screw rod and the third screw rod to synchronously rotate so as to drive the lifting plate to lift;

the spinning mechanism is arranged on the lifting plate.

In one embodiment of the technical scheme, the spinning mechanism further comprises an outer cylinder sleeve connected between the spinning assembly and the spinning spindle, the pressing device further comprises an inner cylinder sleeve connected between the pressing rod and the connecting rod, the inner cylinder sleeve is located inside the outer cylinder sleeve, the inner cylinder sleeve and the outer cylinder sleeve are coaxially arranged, and open holes are formed in the side portions of the inner cylinder sleeve and the outer cylinder sleeve.

In one embodiment of the technical scheme, the connecting rod penetrates through the interior of the spinning main shaft, the connecting rod and the spinning main shaft are coaxially arranged, a plurality of bearings are fixedly arranged in the spinning main shaft, and an inner ring of each bearing is sleeved on the connecting rod in a sliding mode.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic cross-sectional structure of a shock absorber according to an embodiment of the present application.

Fig. 2 is a schematic view of the whole structure of the flanging device shown in an embodiment of the present application.

Fig. 3 is a schematic front view of a flanging apparatus shown in an embodiment of the present application.

Fig. 4 is a schematic view showing the overall structure of the pressing device in an embodiment of the present application.

Fig. 5 is a schematic view showing a partial cross-sectional structure of a pressing device in an embodiment of the present application.

Fig. 6 is a schematic view showing the overall structure of the spinning flanging device in an embodiment of the present application.

Fig. 7 is a schematic view showing a partial sectional structure of a spinning flanging device shown in an embodiment of the present application.

Fig. 8 is a schematic view showing the overall structure of a fixing device according to an embodiment of the present application.

Reference numerals illustrate:

10-a frame; 11-an upper panel; 12-fixing plates; 13-stand columns; 14-a pressure detecting part;

20-fixing means; 21-an adjusting plate; 22-a base; 23-a clamping assembly; 231-finger cylinder; 232-clamping the mold; 233-a scaffold;

30-a compacting device; 31-a compression bar; 32-connecting rods; 33-a first screw drive assembly; 331-a first screw rod; 332-a first lead screw nut; 333-supporting sleeve; 334-rotating the sleeve; 3341—load bearing; 335-a first motor; 336-a first gear; 337-a second gear; 34-an inner cylinder sleeve;

40-spinning flanging device; 41-spinning mechanism; 411-second motor; 412-spindle sleeve; 413-spinning the main shaft; 4131-bearings; 414-spinning an assembly; 415-a first sprocket; 416-a chain; 417-second sprocket; 418-an outer barrel sleeve; 401-fenestration;

42-a pressure feed mechanism; 421-lifting plate; 422-a second screw rod; 423-a third screw rod; 424-a second lead screw nut; 425-a third lead screw nut; 426—a third motor; 427-third transmission structure;

8-a damper; 81-a storage tube; 83-a guide; 84-an oil seal ring; 85-piston; 86-piston rod.

Detailed Description

The following description of the embodiments of the present application will be made with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The following describes the technical scheme of the embodiment of the present application in detail with reference to the accompanying drawings.

As shown in fig. 1, which is a structural diagram of the shock absorber 8, the shock absorber comprises a guide 83 and an oil seal 84 of a storage tube 81, a piston 85 is arranged in the storage tube 81, a piston rod 86 penetrates through the guide 83 and the oil seal 84 and extends out of a pipe orifice of the storage tube 81, the pipe orifice of the storage tube 81 is turned to fix the guide 83 and the oil seal 84 inside, liquid oil is filled in the storage tube 81, a valve for controlling the circulation of the liquid oil is arranged on the piston 85, the oil seal 84 is used for sealing the piston rod 86, and the guide 83 is used for guiding the movement of the piston rod 86.

As shown in fig. 2 to 8, the present embodiment is a flanging apparatus for performing a pipe orifice flanging operation of a storage pipe 81 of a shock absorber 8, the flanging apparatus including a frame 10, a fixing device 20, a spinning flanging device 40, and a pressing device 30. Illustratively, the frame 10 includes an upper panel 11, a fixing plate 12, and four posts 13, the posts 13 are connected between the upper panel 11 and the fixing plate 12, and the fixing device 20, the spin-flanging device 40, and the compacting device 30 are disposed on the frame 10.

In this embodiment, the fixing device 20 is disposed on the frame 10, the fixing device 20 is used for supporting and fixing the damper 8, the fixing device 20 includes an adjusting plate 21, a base 22 and a clamping assembly 23, the adjusting plate 21 is movably disposed on the frame 10, the base 22 is disposed on the adjusting plate 21, and the base 22 is used for supporting and limiting the damper 8. Specifically, the adjusting plate 21 is disposed on the upright post 13 of the stand 10 through a sliding sleeve, the adjusting plate 21 is further disposed in a sliding hole of the fixing plate 12 through a sliding rod, so that the adjusting plate 21 can be adjusted in position along the direction of the upright post 13, and the adjusting of the adjusting plate 21 can be achieved through an adjusting device, which is not shown in the figure.

In this embodiment, the bottom of the damper 8 is placed on the base 22 when the flanging device is in use, the pressure detecting member 14 is disposed on the fixing plate 12 of the frame 10, the pressure detecting member 14 abuts against the adjusting plate 21, and the pressure detecting member 14 is used for detecting the pressure applied to the damper 8 by the pressing device 30 and the spinning flanging device 40. Preferably, the pressure detecting member 14 includes a pressure sensor.

Therefore, the pressure applied to the shock absorber 8 by the pressure detection component 14 through the quasi-touch detection pressing device 30, when the pressure of the pressure detection component 14 detected by the pressing device 30 reaches a preset value, the pressing motion of the pressing device 30 is controlled to stop through a system, the pressure stabilization can be controlled and maintained in the flanging process, and the high quality requirement of the shock absorber 8 processing is met.

In this embodiment, the clamping assembly 23 is connected to the adjusting plate 21 through a bracket 233, and the clamping assembly 23 is used for clamping and fixing the damper 8; the clamping assembly 23 comprises a finger cylinder 231 and two clamping dies 232 which are arranged on a bracket 233, wherein the two clamping dies 232 are respectively connected to two fingers of the finger cylinder 231, and the finger cylinder 231 drives the two clamping dies 232 to move so as to clamp the shock absorber 8, so that the shock absorber 8 is kept vertically fixed so as to prevent side tilting.

In this embodiment, the pressing device 30 includes a pressing rod 31, a connecting rod 32 and a first screw driving component 33, where the first screw driving component 33 is disposed on the frame 10, the first screw driving component 33 includes a first screw 331 and a first motor 335 connected to one end of the connecting rod 32, the other end of the connecting rod 32 is connected to the pressing rod 31, the connecting rod 32 and the first screw 331 are coaxially disposed, and the first motor 335 is used to drive the screw to lift and drive the connecting rod 32 to lift and lower the pressing rod 31, and the pressing rod 31 is used to stretch into a pipe orifice and compress the oil seal ring 84 of the damper 8 during flanging. Preferably, the first motor 335 employs a combined servo motor, and the number of rotations thereof can be precisely controlled.

In this way, the first screw rod driving assembly 33 is arranged to drive the compression rod 31 to move, and the screw rod of the first screw rod driving assembly 33 can accurately control the descending stroke of the compression rod 31, so that the stop position of the compression rod 31 is accurately positioned, and the high quality requirement of the processing of the shock absorber 8 is met.

The pressing device 30 is designed to accommodate the piston rod 86 of the shock absorber 8 during pressing, wherein the pressing rod 31 and the connecting rod 32 are hollow, so that the piston rod 86 can extend into the pressing rod 31 and the connecting rod 32.

Specifically, the first screw driving assembly 33 further includes a supporting sleeve 333, a rotating sleeve 334 and a first screw nut 332, the supporting sleeve 333 is disposed on the upper panel 11 of the frame 10, the rotating sleeve 334 is disposed in the supporting sleeve 333 for rotation through two bearing bearings 3341, the first screw nut 332 is connected with the rotating sleeve 334 and cooperates with the first screw 331, and a first motor 335 disposed on the upper panel 11 of the frame 10 drives the rotating sleeve 334 to rotate through a first transmission structure. Illustratively, the first transmission structure includes a first gear 336 and a second gear 337, wherein the first gear 336 is coupled to the rotational axis of the first motor 335, the second gear 337 is coupled to the rotating sleeve 334, and the first gear 336 is meshed with the second gear 337.

In this way, the first motor 335 is utilized to drive the first gear 336 to rotate, the first gear 336 drives the second gear 337 to rotate the rotating sleeve 334 and the first screw nut 332 together, and the first screw 331 is limited to be non-rotatable due to the limited position of the first screw nut 332, so that the first screw 331 can perform lifting movement relative to the first screw nut 332 to drive the compression bar 31 to move.

In this embodiment, the spinning flanging device 40 is used for carrying out internal flanging on the pipe orifice of the damper 8, the spinning flanging device 40 includes a spinning mechanism 41 and a pressure feeding mechanism 42, and the pressure feeding mechanism 42 is used for driving the spinning mechanism 41 to lift and providing a pressing force of the spinning mechanism 41.

In this embodiment, the spinning mechanism 41 includes a second motor 411, a spindle support 412, a spinning spindle 413, and a spinning assembly 414, where the spindle support 412 and the second motor 411 are disposed on a lifting plate 421 of the pressure feeding mechanism 42, the spinning spindle 413 is disposed in the spindle support 412 through a bearing 4132 to rotate, the second motor 411 is used to drive the spinning spindle 413 to rotate, the spinning assembly 414 is connected to the spinning spindle 413, and the spinning assembly 414 is used to perform an inward flanging on a pipe orifice of the shock absorber 8.

Illustratively, the second motor 411 is configured to carry the spinning spindle 413 through a second transmission structure, where the second transmission structure includes a first sprocket 415, a chain 416, and a second sprocket 417, the first sprocket 415 with a smaller diameter is connected to the shaft of the second motor 411, the second sprocket 417 with a larger diameter is connected to the spinning spindle 413, and the first sprocket 415 is in transmission connection with the second sprocket 417 through the chain 416.

In this embodiment, the spinning assembly 414 adopts the prior art, and the structure thereof is referred to in the patent document with publication number CN108213231a, and will not be described in detail herein.

In this embodiment, the pressure feeding mechanism 42 includes a lifting plate 421, a second screw rod 422, a third screw rod 423, and a third motor 426, where the second screw rod 422 and the third screw rod 423 are disposed on a frame to rotate, the lifting plate 421 is disposed on the frame 10 to perform lifting movement, and the lifting plate 421 is connected to a second screw rod nut 424 on the second screw rod 422 and a third screw rod nut 425 on the third screw rod 423; the third motor 426 is disposed on the upper panel 11 of the rack 10, and the third motor 426 is used for driving the second screw rod 422 and the third screw rod 423 to synchronously rotate so as to drive the lifting plate 421 to perform lifting motion.

Specifically, the lifting plate 421 is slidably disposed on the four upright posts 13 through a sliding sleeve, the second screw nut 424 and the third screw nut 425 are fixed on the lifting plate 421, the upper portions of the second screw 422 and the third screw 423 are disposed on the upper panel 11 to rotate, and the second screw 422 and the third screw 423 are in transmission connection with the third motor 426 through the third transmission structure 427.

The third transmission structure 427 is a transmission structure of a pulley and belt structure, and the structure thereof is not described in detail herein with reference to patent document CN108213231 a.

In this embodiment, the spinning mechanism 41 further includes an outer cylinder sleeve 418 connected between the spinning assembly 414 and the spinning spindle 413, the pressing device 30 further includes an inner cylinder sleeve 34 connected between the pressing rod 31 and the connecting rod 32, the inner cylinder sleeve 34 is located inside the outer cylinder sleeve 418, the inner cylinder sleeve 34 and the outer cylinder sleeve 418 are coaxially arranged, and the side portions of the inner cylinder sleeve 34 and the outer cylinder sleeve 418 are respectively provided with a fenestration 401.

Thus, when the spinning mechanism 41 and the pressing device 30 stop operating, the operator can observe the flanging position of the damper 8 through the opening hole, and find out the trouble in time.

In this embodiment, in order to ensure stability of lifting movement of the connecting rod 32, the connecting rod 32 passes through the interior of the spinning spindle 413, the connecting rod 32 is coaxially disposed with the spinning spindle 413, a plurality of bearings 4131 are fixedly disposed in the interior of the spinning spindle 413, and an inner ring of the bearings 4131 is slidably sleeved on the connecting rod 32. Thus, the plurality of bearings 4131 can enable the spinning spindle 413 to rotate relative to the connecting rod 32, and also ensure stable guiding of the connecting rod 32, and keep the connecting rod 32 coaxial with the spinning spindle 413.

The foregoing description of embodiments of the application has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. A flanging apparatus, characterized by comprising:

The fixing device is arranged on the frame and used for supporting and fixing the workpiece;

The spinning flanging device is arranged on the frame and is used for carrying out inward flanging on the pipe orifice of the workpiece; and

The pressing device comprises a pressing rod, a connecting rod and a first screw rod driving assembly, wherein the first screw rod driving assembly is arranged on the frame and comprises a first screw rod connected with one end of the connecting rod and a first motor, the other end of the connecting rod is connected with the pressing rod, the connecting rod and the first screw rod are coaxially arranged, the first motor is used for driving the screw rod to lift so as to drive the connecting rod and the pressing rod to lift, and the pressing rod is used for extending into a pipe orifice and pressing an intraductal part of a workpiece during flanging.

2. The flanging apparatus of claim 1, wherein the first screw drive assembly comprises a sleeve, a rotating sleeve, and a first screw nut, the sleeve is disposed on the frame, the rotating sleeve is disposed in the sleeve for rotation, the first screw nut is connected with the rotating sleeve and cooperates with the first screw, and a first motor disposed on the frame drives the rotating sleeve to rotate through a first transmission structure.

3. The flanging apparatus of claim 2, wherein the first transmission structure comprises a first gear and a second gear, wherein the first gear is connected to a rotation shaft of the first motor, the second gear is connected to the rotation sleeve, and the first gear is meshed with the second gear.

4. The flanging apparatus of claim 1, wherein the fixing means comprises an adjusting plate movably disposed on the frame and a base disposed on the adjusting plate, the base for supporting the restraining workpiece;

the machine frame is provided with a pressure detection part, the pressure detection part is propped against the regulating plate, and the pressure detection part is used for detecting the pressure applied by the pressing device to the workpiece.

5. The flanging apparatus of claim 4, wherein the securing means further comprises a clamping assembly connected to the adjustment plate by a bracket, the clamping assembly being for clamping a securing workpiece;

The clamping assembly comprises a finger cylinder and two clamping dies which are arranged on the bracket, the two clamping dies are respectively connected to two fingers of the finger cylinder, and the finger cylinder drives the two clamping dies to move so as to clamp a workpiece.

6. The flanging apparatus of claim 1, wherein the spinning flanging device comprises a spinning mechanism and a pressure feed mechanism, the pressure feed mechanism being configured to drive the spinning mechanism to rise and fall and provide a pressing force of the spinning mechanism;

The spinning mechanism comprises a second motor, a main shaft support sleeve, a spinning main shaft and a spinning assembly, wherein the main shaft support sleeve and the second motor are arranged on the pressure feeding mechanism, the spinning main shaft is arranged in the main shaft support sleeve to rotate, the second motor is used for driving the spinning main shaft to rotate, the spinning assembly is connected with the spinning main shaft, and the spinning assembly is used for carrying out inward flanging on a pipe orifice of a workpiece.

7. The flanging apparatus of claim 6, wherein the pressure feed mechanism comprises a lifting plate, a second screw, a third screw, and a third motor, the second screw and the third screw are arranged on a frame to rotate, the lifting plate is arranged on the frame to perform lifting movement, and the lifting plate is connected with a second screw nut on the second screw and a third screw nut on the third screw;

The third motor is arranged on the frame and is used for driving the second screw rod and the third screw rod to synchronously rotate so as to drive the lifting plate to lift;

the spinning mechanism is arranged on the lifting plate.

8. The flanging apparatus of claim 6, wherein the spinning mechanism further comprises an outer cylinder jacket connected between the spinning assembly and the spinning spindle, the pressing device further comprises an inner cylinder jacket connected between the pressing rod and the connecting rod, the inner cylinder jacket is located inside the outer cylinder jacket, the inner cylinder jacket and the outer cylinder jacket are coaxially arranged, and fenestrations are formed on sides of the inner cylinder jacket and the outer cylinder jacket.

9. The flanging apparatus of claim 6, wherein the connecting rod passes through an interior of the spinning spindle, the connecting rod is coaxially disposed with the spinning spindle, a plurality of bearings are fixedly disposed in the interior of the spinning spindle, and an inner ring of the bearings is slidably sleeved on the connecting rod.