CN220311657U - A double-station riveting machine - Google Patents

Abstract

This application discloses a dual-station riveting machine, which includes a frame, two lathes, two arms and two riveting head assemblies. The lathes are fixed in the frame, and the arms Both are installed on the side of the bed away from the frame. The support arm and the rivet head assembly are fixed to each other. The end of the rivet head assembly is provided with a rivet head. The support arm is away from the rivet head. A riveting motor is provided on one side of the bed, a Y-axis module is provided on the side of the bed away from the riveting joint, an X-axis module is provided on one side of the Y-axis module, and the X-axis module is located away from the A tooling pad is provided on one side of the Y-axis module, and a tooling plate is provided on a side of the tooling pad away from the X-axis module. This application has the effect of increasing the riveting point range of the riveting machine.

Description

Duplex position riveter

Technical Field

The application relates to the field of machining, in particular to a double-station riveting machine.

Background

The riveting machine is a novel riveting device developed according to the cold rolling principle, namely mechanical equipment capable of riveting objects by rivets, has compact structure, stable performance and convenient and safe operation, is mainly assembled by rotation and pressure, and is widely applied to numerous industries such as precision machinery, steel furniture, building hardware, hardware tools, automobile accessories and the like.

In the prior art, as in patent number CN214719975U, the utility model patent named as a riveting machine, discloses a riveting machine, which comprises a frame, a workbench arranged on the frame, a positioning component arranged on the workbench, a die arranged on the frame and positioned above the workbench, and a driving mechanism for driving the die to move vertically; the die comprises a rivet head and a shaping head, wherein the lower part of the rivet head is a round table or a cone with a large end positioned above a small end, and the lower end surface of the shaping head is a transversely arranged plane; the positioning component comprises a first positioning column and a second positioning column, wherein the first positioning column is arranged corresponding to the rivet head, and the second positioning column is arranged corresponding to the shaping head.

The first positioning column and the second positioning column of the riveting machine respectively position the handrail support in the riveting and shaping process, the driving mechanism drives the riveting head and the shaping head to vertically move for riveting or shaping, both the riveting and the shaping are arranged on the riveting machine, but the riveting machine can only rivet workpieces at the riveting point in one direction, and the riveting machine is inconvenient to use.

Disclosure of Invention

In order to overcome the defect of single riveting point of the riveting machine, the application provides a double-station riveting machine.

The application provides a duplex position riveter adopts following technical scheme:

the utility model provides a duplex position riveter, includes framework, two lathe beds, two support arms and two die assemblies, its characterized in that: the lathe bed is all fixed in the framework, the support arm all install in the lathe bed is kept away from one side of framework, the support arm is fixed mutually with the die assembly, the tip of die assembly is equipped with the rivet head, the support arm is kept away from one side of rivet head all is equipped with the riveting motor, the lathe bed is kept away from one side of rivet head is equipped with Y axle module, Y axle module includes motor Y, bottom plate Y, linear rail Y and slider Y, slider Y is kept away from one side of bottom plate Y is equipped with X axle module, X axle module includes motor X, bottom plate X, linear rail X and slider X, slider X is kept away from one side of bottom plate X is equipped with the frock backing plate, one side that the frock backing plate was kept away from the X axle module is equipped with the frock board.

Through adopting above-mentioned technical scheme, a duplex position riveter, including the framework, two lathes, two support arms and two die assemblies, lathe bed welded connection is in the framework, two support arms are bolted connection respectively in two lathe beds one side of keeping away from the framework, two support arms are respectively with two die assemblies mutual bolted connection, two support arms keep away from the equal fixed mounting of one side of cat street head and have the riveting motor, one side bolted connection that the lathe bed kept away from the riveting head has Y axle module, Y axle module includes motor Y, bottom plate Y, linear rail Y and slider Y, slider Y installs X axle module in one side that bottom plate Y was kept away from, X axle module includes motor X, bottom plate X, linear rail X and slider X, slider X is kept away from one side of bottom plate installs the frock backing plate, one side bolted connection that the frock backing plate kept away from X axle module has the frock board, wait to rivet the work piece to be fixed on the frock plate, X axle module is in the X direction removal of control frock in Y direction, Y axle module is removed in the Y direction, the work piece that is fixed on the frock is along with the movement of X axle module and Y axle module in Y direction, the riveting die set has improved any riveting position to rivet the work piece, the riveting machine range has been used to be convenient.

Preferably, a Y-axis sliding plate is arranged between the sliding block X and the tool base plate.

Through adopting above-mentioned technical scheme, install Y axle slide between slider X and the frock backing plate, bolted connection between Y axle and the slider X, Y axle slide and frock backing plate welded connection each other, Y axle slide both sides respectively with slider X and frock backing plate fixed connection each other, the area of contact between frock backing plate and the Y axle slide is greater than the area of contact between frock backing plate and the slider X, reduce the pressure of frock backing plate to slider X, guarantee slider X's safety in utilization, extension slider X's life.

Preferably, the fixture plate both sides are equipped with cushion clamp plate, cylinder cushion and corner cushion, the cylinder cushion respectively with the cushion clamp plate with the corner cushion interconnect, the corner cushion keep away from one side of cylinder cushion with Y axle slide interconnect.

Through adopting above-mentioned technical scheme, cushion clamp plate, cylinder cushion and corner cushion are installed to the frock board both sides, and wherein corner cushion welded connection is close to one side of frock cushion at the Y slide, and corner cushion and cylinder cushion bolted connection, cushion clamp plate bolted connection are close to one side of frock board in the cylinder cushion, and the cushion clamp plate is laminated mutually with the frock board, and the work piece is fixed on the frock board, and the backing plate clamp plate compresses tightly the work piece on the frock board, prevents that the work piece from flying out and hits the user, the safety in utilization of protection user.

Preferably, a stripper plate is arranged on one side, close to the tooling plate, of the tooling base plate, a stripper cylinder is arranged on one side, close to the stripper plate, of the Y-axis sliding plate, and a plurality of optical axes are arranged on the periphery of the stripper plate.

Through adopting above-mentioned technical scheme, the frock backing plate is close to the stripper after the one side installation of frock board, and stripper cover is in frock board week side, and one side fixed mounting that the Y axle slide is close to the stripper has the discharge cylinder, and a plurality of optical axes are installed to stripper week side, and optical axis one end and Y axle slide bolted connection, the stripper is worn out to the optical axis other end, and the work piece fastening of riveting completion is on the frock board, and the discharge cylinder is outside with stripper ejection frock board, and the work piece is ejecting, improves the convenience of dismantling the work piece of riveting completion.

Preferably, a module support is arranged between the Y-axis module and the frame body.

Through adopting above-mentioned technical scheme, fixed mounting has the module support between Y axle module and the framework, and module support both ends respectively with bottom plate Y and framework bolted connection, and module support installs in bottom plate Y keeps away from the one end of lathe bed, improves the installation stability of Y axle module.

Preferably, an X-axis sliding plate is arranged between the sliding block Y and the bottom plate X.

Through adopting above-mentioned technical scheme, fixed mounting has X axle slide between slider Y and the bottom plate X, and X axle slide is mutual bolted connection with slider Y and bottom plate X respectively, and the area of contact between slider Y and the X axle slide is greater than the area of contact between slider Y and the bottom plate X, reduces bottom plate X to slider Y's pressure, ensures slider Y's safety in utilization, extension slider Y's life.

Preferably, a fine adjustment nut is arranged on the periphery of the rivet head assembly.

Through adopting above-mentioned technical scheme, die week side bolted connection has the fine setting nut, under the shut down state, anticlockwise unscrewing fine setting nut, and the slow rotation die assembly can be changed the rivet head, improves the convenience of changing the rivet head.

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

1. the two sides of the tooling plate are provided with cushion block pressing plates, air cylinder cushion blocks and corner cushion blocks, wherein the corner cushion blocks are welded on one side of the Y slide plate, which is close to the tooling cushion blocks, the corner cushion blocks are connected with the air cylinder cushion blocks through bolts, the cushion block pressing plates are connected with one side of the air cylinder cushion blocks, which is close to the tooling plate through bolts, the cushion block pressing plates are mutually attached to the tooling plate, a workpiece is fixed on the tooling plate, the workpiece is pressed on the tooling plate through the cushion plate pressing plates, the workpiece is prevented from flying out to hit a user, and the use safety of the user is protected;

2. the utility model provides a frock backing plate is close to stripper after one side installation of frock board, stripper cover is in frock board week side, and one side fixed mounting that the Y axle slide is close to stripper has the discharge cylinder, and a plurality of optical axes are installed to stripper week side, optical axis one end and Y axle slide bolted connection, and the stripper is worn out to the optical axis other end, and the work piece fastening of riveting completion is on the frock board, and the discharge cylinder is outside with stripper ejection frock board, and the work piece is ejected, improves the convenience of dismantling the work piece of riveting completion. The method comprises the steps of carrying out a first treatment on the surface of the

3. The fine-tuning nut is connected to the bolt on the periphery of the rivet, and in the stop state, the fine-tuning nut is screwed down anticlockwise, the rivet assembly is rotated slowly, the rivet head can be replaced, and the convenience of replacing the rivet head is improved.

Drawings

FIG. 1 is an overall schematic diagram of a dual station riveter;

FIG. 2 is a general diagram of a double station riveter rivet;

FIG. 3 is a diagram showing the fit of the Y-axis module and the machine tool;

FIG. 4 is a diagram showing the cooperation of the stripper plate and the tooling plate;

FIG. 5 is a diagram of the tooling plate mated with the pad platen;

FIG. 6 is a drawing of a rivet head assembly

Reference numerals: 1. a frame; 2. a bed body; 3. a support arm; 4. a rivet head assembly; 5. a rivet joint; 6. riveting a motor; 7. a Y-axis module; 8. a motor Y; 9. a bottom plate Y; 10. a wire rail Y; 11. a slider Y; 12. an X-axis module; 13. a motor X; 14. a bottom plate X; 15. a wire rail X; 16. a slider X; 17. a tooling backing plate; 18. a tooling plate; 19. a Y-axis sliding plate; 20. a cushion block pressing plate; 21. a cylinder cushion block; 22. a corner cushion block; 23. a stripper plate; 24. a discharging cylinder; 25. an optical axis; 26. a module support; 27. an X-axis sliding plate; 28. and (5) fine tuning the nut.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a double-station riveting machine.

Referring to fig. 1, 2 and 3, a double-station riveting machine comprises a frame 1, two lathes 2, two support arms 3 and two rivet assemblies 4, wherein the lathes 2 are welded in the frame 1, the two support arms 3 are respectively connected with one side of the two lathes 2 far away from the frame 1 by bolts, the two support arms 3 are respectively connected with the two rivet assemblies 4 by bolts, a rivet motor 6 is fixedly arranged on one side of the two support arms 3 far away from the street, a Y-axis module 7 is connected with one side of the lathes 2 far away from the rivet 5 by bolts, the Y-axis module 7 comprises a motor Y8, a bottom plate Y9, a linear rail Y10 and a sliding block Y11, the bottom plate Y9 and the linear rail Y10 are connected by bolts, the linear rail Y10 is embedded into the sliding block Y11, the motor Y8 drives the sliding block Y11 to horizontally move on the linear rail Y10, one side of the sliding block Y11 far away from the bottom plate Y9 is connected with the X-axis sliding plate 27 through bolts, one side of the X-axis sliding plate 27 far away from the Y-axis module 7 is provided with the X-axis module 12, the X-axis module 12 comprises a motor X13, a bottom plate X14, a linear rail X15 and a sliding block X16, wherein the bottom plate X14 is connected with the X-axis sliding plate 27 through bolts, the linear rail X15 is embedded into the sliding block X16, the motor X13 drives the sliding block X16 to horizontally move on the linear rail X15, a workpiece fixed on the tooling plate 18 can randomly move along the X-axis module 12 and the Y-axis module 7 in the X and Y directions, any position of the workpiece can be riveted, the riveting point range of the riveting machine is improved, and the riveting machine is convenient to use.

And a module support 26 is fixedly arranged between the Y-axis module 7 and the frame body 1, two ends of the module support 26 are respectively connected with the bottom plate Y9 and the frame body 1 through bolts, and the module support 26 is arranged at one end, far away from the lathe bed 2, of the bottom plate Y9, so that the installation stability of the Y-axis module 7 is improved.

Referring to fig. 4 and 5, a tooling backing plate 17 is installed on one side of the sliding block X16 away from the bottom plate, a tooling plate 18 is connected to one side of the tooling backing plate 17 away from the X-axis module 12 through bolts, a Y-axis sliding plate 19 is installed between the sliding block X16 and the tooling backing plate 17, a Y-axis sliding plate 19 is connected with the sliding block X16 through bolts, the Y-axis sliding plate 19 is connected with the tooling backing plate 17 through welding, two sides of the Y-axis sliding plate 19 are respectively connected with the sliding block X16 and the tooling backing plate 17 through fixing, a cushion block pressing plate 20, a cylinder cushion block 21 and a corner cushion block 22 are installed on two sides of the tooling plate 18, the corner cushion block 22 is connected with the cylinder cushion block 21 through bolts, the cushion block pressing plate 20 is connected to one side of the cylinder cushion block 21 close to the tooling plate 18 through bolts, the cushion block pressing plate 20 is mutually attached to the tooling plate 18, a workpiece is fixed on the tooling plate 18, the cushion pressing plate presses the workpiece on the tooling plate 18, a workpiece is prevented from flying out of a user, and the use safety of the user is protected.

The back stripper plate 23 is installed to one side that frock backing plate 17 is close to frock board 18, stripper plate 23 cover is in frock board 18 week side, and stripper plate 23 and the surface of frock board 18 are on the coplanar, one side that the Y axle slide 19 is close to stripper plate 23 fixed mounting has the shedding cylinder 24, four optical axes 25 are installed to stripper plate 23 week side, four optical axes 25 evenly distributed is in the four corners of stripper plate 23, optical axis 25 one end and Y axle slide 19 bolted connection, the stripper plate 23 is worn out to the optical axis 25 other end, stripper plate 23 reciprocates along the vertical direction of optical axis 25, the work piece fastening of riveting completion is on frock board 18, shedding cylinder 24 is with stripper plate 23 outside the top frock board 18, the work piece is ejecting, the convenience of dismantling the work piece of riveting completion is improved.

Referring to fig. 6, the fine adjustment nut 28 is screwed on the periphery of the rivet, and in the stopped state, the fine adjustment nut 28 is screwed off counterclockwise, and the rivet assembly 4 is rotated slowly, so that the rivet head 5 can be replaced, and the convenience of replacing the rivet head 5 is improved.

The implementation principle of the double-station riveting machine disclosed by the embodiment of the application is as follows: firstly, placing a workpiece to be riveted on a tooling plate 18, adjusting the heights of a cylinder cushion block 21 and a cushion block pressing plate 20, enabling the workpiece to be riveted to be pressed on the tooling plate 18 by the cushion block pressing plate 20, then using an X-axis module 12 to control the tooling plate 18 to move in the X direction, using a Y-axis module 7 to control the tooling plate 18 to move in the Y direction until the workpiece to be riveted is adjusted to a required position, riveting the workpiece by a riveting head 5, finally, pushing a stripper plate 23 upwards by a stripper cylinder 24, enabling the stripper plate 23 to move vertically upwards along an optical axis 25, and enabling the riveted workpiece to be ejected out of the tooling plate 18.

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

Claims (7)

1. The utility model provides a duplex position riveter, includes framework (1), two lathe bed (2), two support arms (3) and two die assemblies (4), its characterized in that: lathe bed (2) all fix in framework (1), support arm (3) all install in lathe bed (2) are kept away from one side of framework (1), support arm (3) are fixed mutually with die assembly (4), the tip of die assembly (4) is equipped with rivet head (5), support arm (3) are kept away from one side of rivet head (5) all is equipped with riveting motor (6), lathe bed (2) are kept away from one side of rivet head (5) is equipped with Y axle module (7), Y axle module (7) include motor Y (8), bottom plate Y (9), linear rail Y (10) and slider Y (11), slider Y (11) are kept away from one side of bottom plate Y (9) is equipped with X axle module (12), X axle module (12) are including motor X (13), bottom plate X (14), linear rail X (15) and slider X (16), one side that slider X (16) kept away from bottom plate X (14) is equipped with frock (17), frock board (18) are kept away from to one side of slider Y (11).

2. Double-station riveting machine according to claim 1, characterized in that a Y-axis slide (19) is provided between the slide X (16) and the tooling pallet (17).

3. The double-station riveting machine according to claim 2, wherein two sides of the tooling plate (18) are provided with a cushion block pressing plate (20), a cylinder cushion block (21) and a corner cushion block (22), the cylinder cushion block (21) is respectively connected with the cushion block pressing plate (20) and the corner cushion block (22) mutually, and one side, far away from the cylinder cushion block (21), of the corner cushion block (22) is connected with the Y-axis sliding plate (19) mutually.

4. The double-station riveting machine according to claim 2, wherein a stripper plate (23) is arranged on one side of the tooling base plate (17) close to the tooling plate (18), a stripper cylinder (24) is arranged on one side of the Y-axis sliding plate (19) close to the stripper plate (23), and a plurality of optical axes (25) are arranged on the periphery of the stripper plate (23).

5. The double-station riveting machine according to claim 1, characterized in that a module support (26) is arranged between the Y-axis module (7) and the frame (1).

6. Double-station riveting machine according to claim 5, characterized in that an X-axis slide (27) is provided between the slide Y (11) and the bottom plate X (14).

7. Double-station riveting machine according to claim 1, characterized in that the rivet assembly (4) is provided with a fine adjustment nut (28) on the peripheral side.