CN219520179U - Automatic punching equipment for manufacturing cylinder gasket - Google Patents
Automatic punching equipment for manufacturing cylinder gasket Download PDFInfo
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- CN219520179U CN219520179U CN202320151644.5U CN202320151644U CN219520179U CN 219520179 U CN219520179 U CN 219520179U CN 202320151644 U CN202320151644 U CN 202320151644U CN 219520179 U CN219520179 U CN 219520179U
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Abstract
The utility model relates to the field of manufacturing of air cylinder gaskets, in particular to automatic punching equipment for manufacturing of air cylinder gaskets, which comprises a supporting frame, wherein the supporting frame is connected with a bearing groove through a supporting rod; the support frame is connected with the sliding plate through a guide rod, a return spring is sleeved on the guide rod, and a cam driving assembly is arranged at the top of the sliding plate; the sliding plate is provided with a first opening, a sliding box is arranged in the first opening, the sliding box is connected with the first opening through a first moving assembly, a rotating rod is arranged on the sliding box, and a driving assembly is arranged on the rotating rod; the rotary rod is provided with a connecting piece, and the connecting piece is provided with an elastic stamping component; the second opening is formed in the connecting piece and is connected with the telescopic rod through the second moving assembly, and the pushing block is arranged at the bottom of the telescopic rod.
Description
Technical Field
The utility model relates to the field of manufacturing of cylinder gaskets, in particular to automatic punching equipment for manufacturing of cylinder gaskets.
Background
The cylinder guides the piston to make a linear reciprocating movement in the cylinder. The air converts thermal energy into mechanical energy by expansion in the engine cylinder; the gas is compressed by a piston in a compressor cylinder to increase the pressure; application area of the cylinder: printing (tension control), semiconductors (spot welder, chip grinding), automation control, robots, etc.
In the manufacturing process of the air cylinder gasket, automatic punching equipment is often required to be arranged to realize punching treatment of the air cylinder gasket, but the conventional punching equipment can realize punching treatment of different patterns by manually replacing different punching heads, so that the air cylinder gasket is inconvenient, the working efficiency is low, and the use of the equipment is affected.
Disclosure of Invention
The utility model aims to provide automatic punching equipment for manufacturing air cylinder gaskets, which is used for solving the problems in the background technology.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the automatic punching equipment for manufacturing the cylinder gasket comprises a support frame, wherein the support frame is connected with a bearing groove through a support rod; the support frame is connected with the sliding plate through a guide rod, a return spring is sleeved on the guide rod positioned at the bottom of the sliding plate, and a cam driving assembly is arranged at the top of the sliding plate; the sliding plate is provided with a first opening, a sliding box is arranged in the first opening, the sliding box is in sliding connection with the first opening through a first moving assembly, a rotating rod is rotatably arranged on the sliding box, and a driving assembly is arranged on the rotating rod positioned in the sliding box; a connecting piece is arranged on the rotating rod at the outer end of the sliding box, and an elastic stamping assembly is sequentially arranged on the connecting piece; the elastic stamping assembly comprises a sliding rod which is in sliding connection with the connecting piece, a first connecting block is arranged on the sliding rod, the first connecting block is connected with the connecting piece through a connecting spring, a mounting head is arranged on the sliding rod positioned on one side of the connecting piece, and a plurality of stamping heads are arranged on the mounting head; the connecting piece is provided with a second opening, the second opening is connected with the telescopic rod through a second moving assembly, and the bottom of the telescopic rod is provided with a pushing block.
Preferably, the cam driving assembly comprises a connecting notch formed in the supporting frame, the connecting notch is connected with the cam through a first rotating shaft, a first motor is mounted at one end of the first rotating shaft, and the first motor is fixed on the outer wall of the supporting frame.
Preferably, the first moving assembly comprises a sliding block fixedly connected with the sliding box, a one-way screw rod is connected with the inner wall of the first opening through a bearing seat at two ends of the one-way screw rod in a threaded manner, one end of the one-way screw rod is connected with a second motor through a belt, and the second motor is fixed on the inner wall of the first opening.
Preferably, the driving assembly comprises a driven gear fixedly connected with the rotary rod, a driving gear is meshed with the driven gear, a third motor is mounted on the driving gear, and the third motor is fixed on the inner wall of the sliding box.
Preferably, the second moving assembly comprises a second connecting block fixedly connected with the telescopic rod, a second screw rod is connected with the second connecting block through internal threads, one end of the second screw rod is rotationally connected with the second opening, a fourth motor is arranged at the other end of the second screw rod, and the fourth motor is fixed on the outer wall of the connecting piece.
Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the telescopic rod is driven to move through the second moving assembly, the telescopic rod pushes the first connecting block to move downwards, and the first connecting block drives the mounting head and the punching head to move downwards through the sliding rod, so that the punching heads with different specifications can be moved out, and the device can replace different punching heads, so that the working efficiency of equipment is improved, and the device is convenient to use; the sliding box is driven to move through the first moving assembly, the driving assembly is matched with the rotating rod to rotate, the rotating rod drives the connecting piece to adjust the rotation direction, and the cylinder gasket is convenient to carry out omnibearing punching treatment; the first rotating shaft is driven by the first motor to drive the cam to rotate, the cam drives the sliding plate to reset and move the punching cylinder gasket under the action of the guide rod and the reset spring, so that punching treatment of different shapes on the cylinder gasket can be realized, and the device is convenient to use.
Drawings
Fig. 1 is a schematic structural view of an automated die cutting apparatus for cylinder gasket manufacturing according to the present utility model.
Fig. 2 is a front view of an automated die cutting apparatus for cylinder gasket manufacturing according to the present utility model.
Fig. 3 is a bottom view of a connector in an automated die cutting apparatus for cylinder gasket manufacturing according to the present utility model.
Fig. 4 is a top view of a connector in an automated die cutting apparatus for cylinder gasket manufacture according to the present utility model.
Fig. 5 is a three-dimensional view of a connector in an automated die cutting apparatus for cylinder gasket manufacturing according to the present utility model.
1. A support frame; 2. a support rod; 3. a carrying groove; 4. a sliding plate; 5. a guide rod; 6. a return spring; 7. a connection recess; 8. a first rotating shaft; 9. a cam; 10. a first motor; 11. a first opening; 12. a slide box; 13. a slide block; 14. a unidirectional screw; 15. a belt; 16. a second motor; 17. a rotating rod; 18. a driven gear; 19. a drive gear; 20. a third motor; 21. a connecting piece; 22. a slide bar; 23. a first connection block; 24. a connecting spring; 25. a mounting head; 26. punching and cutting the head; 27. a second opening; 28. a telescopic rod; 29. a pushing block; 30. a second connection block; 31. a second screw; 32. and a fourth motor.
Detailed Description
It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the embodiments of the present utility model will be described in detail below with reference to the accompanying drawings. However, those of ordinary skill in the art will understand that in various embodiments of the present utility model, numerous technical details have been set forth in order to provide a better understanding of the present utility model. However, the claimed utility model may be practiced without these specific details and with various changes and modifications based on the following embodiments.
The utility model will be described in detail below with reference to the drawings in connection with embodiments.
Referring to fig. 1-5, in an embodiment of the present utility model, an automatic punching device for manufacturing a cylinder gasket includes a support frame 1, where the support frame 1 is connected with a bearing groove 3 through a support rod 2; the support frame 1 is connected with the sliding plate 4 through a guide rod 5, a return spring 6 is sleeved on the guide rod 5 positioned at the bottom of the sliding plate 4, and a cam driving assembly is arranged at the top of the sliding plate 4; the sliding plate 4 is provided with a first opening 11, a sliding box 12 is arranged in the first opening 11, the sliding box 12 is in sliding connection with the first opening 11 through a first moving component, a rotating rod 17 is rotatably arranged on the sliding box 12, and a driving component is arranged on the rotating rod 17 positioned in the sliding box 12; a connecting piece 21 is arranged on the rotating rod 17 positioned at the outer end of the sliding box 12, and an elastic stamping assembly is sequentially arranged on the connecting piece 21; the elastic stamping assembly comprises a sliding rod 22 which is in sliding connection with the connecting piece 21, a first connecting block 23 is arranged on the sliding rod 22, the first connecting block 23 is connected with the connecting piece 21 through a connecting spring 24, an installation head 25 is arranged on the sliding rod 22 positioned at one side of the connecting piece 21, and a plurality of punching heads 26 are arranged on the installation head 25; the connecting piece 21 is provided with a second opening 27, the second opening 27 is connected with a telescopic rod 28 through a second moving assembly, and a pushing block 29 is arranged at the bottom of the telescopic rod 28.
According to the utility model, the telescopic rod 28 is driven to move through the second moving assembly, the telescopic rod 28 pushes the first connecting block 23 to move downwards, the first connecting block 23 drives the mounting head 25 and the punching head 26 to move downwards through the sliding rod 22, the sliding box 12 is driven to move through the first moving assembly, the driving assembly is matched with the driving assembly to drive the rotating rod 17 to rotate, the rotating rod 17 drives the connecting piece 21 to regulate the rotation direction, the first rotating shaft 8 is driven by the first motor 10 to drive the cam 9 to rotate, the cam 9 drives the sliding plate 4 to reset and move the punching cylinder gasket under the action of the guide rod 5 and the reset spring 6, so that punching processing of different shapes on the cylinder gasket can be realized, and the device is convenient to use.
Referring to fig. 1 and 2, in one embodiment of the present utility model, the cam driving assembly includes a connection recess 7 formed on the support frame 1, the connection recess 7 is connected with a cam 9 through a first rotating shaft 8, a first motor 10 is installed at one end of the first rotating shaft 8, the first motor 10 is fixed on the outer wall of the support frame 1, the first rotating shaft 8 is driven by the first motor 10 to drive the cam 9 to rotate, the cam 9 pushes the sliding plate 4 to move downwards, and under the action of the guide rod 5, the reciprocating punching process of the sliding plate 4 is realized by matching with a return spring 6.
Referring to fig. 2, in one embodiment of the present utility model, the first moving assembly includes a slider 13 fixedly connected to the sliding box 12, a unidirectional screw 14 is screwed inside the slider 13, two ends of the unidirectional screw 14 are connected to the inner wall of the first opening 11 through bearing blocks, one end of the unidirectional screw 14 is connected to a second motor 16 through a belt 15, the second motor 16 is fixed on the inner wall of the first opening 11, the belt 15 is driven by the second motor 16 to rotate the unidirectional screw 14, the unidirectional screw 14 drives the slider 13 to move, and the slider 13 synchronously drives the sliding box 12 inside the first opening 11 to move.
Referring to fig. 1, in an embodiment of the present utility model, the driving assembly includes a driven gear 18 fixedly connected to the rotating rod 17, a driving gear 19 is meshed with the driven gear 18, a third motor 20 is installed on the driving gear 19, the third motor 20 is fixed on the inner wall of the sliding box 12, and the driving gear 19 is driven by the third motor 20 to rotate the driven gear 18, so that the driven gear 18 drives the rotating rod 17 to rotate.
Referring to fig. 1, in an embodiment of the present utility model, the second moving assembly includes a second connection block 30 fixedly connected to the telescopic rod 28, a second screw rod 31 is screwed inside the second connection block 30, one end of the second screw rod 31 is rotatably connected to the second opening 27, and a fourth motor 32 is mounted at the other end of the second screw rod 31, the fourth motor 32 is fixed on the outer wall of the connecting member 21, and the second screw rod 31 is driven by the fourth motor 32 to rotate, so that the second screw rod 31 drives the second connection block 30 in threaded connection to move, and the second connection block 30 drives the telescopic rod 28 to move synchronously.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (5)
1. The automatic punching equipment for manufacturing the cylinder gasket comprises a supporting frame and is characterized in that the supporting frame is connected with a bearing groove through a supporting rod;
the support frame is connected with the sliding plate through a guide rod, a return spring is sleeved on the guide rod positioned at the bottom of the sliding plate, and a cam driving assembly is arranged at the top of the sliding plate;
the sliding plate is provided with a first opening, a sliding box is arranged in the first opening, the sliding box is in sliding connection with the first opening through a first moving assembly, a rotating rod is rotatably arranged on the sliding box, and a driving assembly is arranged on the rotating rod positioned in the sliding box;
a connecting piece is arranged on the rotating rod at the outer end of the sliding box, and an elastic stamping assembly is sequentially arranged on the connecting piece;
the elastic stamping assembly comprises a sliding rod which is in sliding connection with the connecting piece, a first connecting block is arranged on the sliding rod, the first connecting block is connected with the connecting piece through a connecting spring, a mounting head is arranged on the sliding rod positioned on one side of the connecting piece, and a plurality of stamping heads are arranged on the mounting head;
the connecting piece is provided with a second opening, the second opening is connected with the telescopic rod through a second moving assembly, and the bottom of the telescopic rod is provided with a pushing block.
2. The automated die cutting apparatus for making cylinder gaskets of claim 1, wherein the cam drive assembly comprises a connection recess formed in the support frame, the connection recess being connected to the cam by a first shaft, a first motor being mounted at one end of the first shaft, the first motor being secured to an outer wall of the support frame.
3. The automatic punching equipment for manufacturing air cylinder gaskets according to claim 1, wherein the first moving assembly comprises a sliding block fixedly connected with the sliding box, a unidirectional screw is connected to the inner thread of the sliding block, two ends of the unidirectional screw are connected with the inner wall of the first opening through bearing blocks, one end of the unidirectional screw is connected with a second motor through a belt, and the second motor is fixed on the inner wall of the first opening.
4. The automated die cutting apparatus for manufacturing cylinder gaskets according to claim 1, wherein the driving assembly comprises a driven gear fixedly connected with the rotary rod, a driving gear is engaged with the driven gear, a third motor is mounted on the driving gear, and the third motor is fixed on the inner wall of the sliding box.
5. The automatic punching equipment for manufacturing air cylinder gaskets according to claim 1, wherein the second moving assembly comprises a second connecting block fixedly connected with the telescopic rod, a second screw rod is connected to the second connecting block in a threaded mode, one end of the second screw rod is rotatably connected with the second opening, a fourth motor is mounted at the other end of the second screw rod, and the fourth motor is fixed on the outer wall of the connecting piece.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320151644.5U CN219520179U (en) | 2023-02-08 | 2023-02-08 | Automatic punching equipment for manufacturing cylinder gasket |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320151644.5U CN219520179U (en) | 2023-02-08 | 2023-02-08 | Automatic punching equipment for manufacturing cylinder gasket |
Publications (1)
Publication Number | Publication Date |
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CN219520179U true CN219520179U (en) | 2023-08-15 |
Family
ID=87633825
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320151644.5U Active CN219520179U (en) | 2023-02-08 | 2023-02-08 | Automatic punching equipment for manufacturing cylinder gasket |
Country Status (1)
Country | Link |
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CN (1) | CN219520179U (en) |
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2023
- 2023-02-08 CN CN202320151644.5U patent/CN219520179U/en active Active
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