CN220145356U - Conveying device for numerical control machining center - Google Patents
Conveying device for numerical control machining center Download PDFInfo
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- CN220145356U CN220145356U CN202321581089.6U CN202321581089U CN220145356U CN 220145356 U CN220145356 U CN 220145356U CN 202321581089 U CN202321581089 U CN 202321581089U CN 220145356 U CN220145356 U CN 220145356U
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- numerical control
- servo motor
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- control machining
- machining center
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- 230000002457 bidirectional effect Effects 0.000 claims abstract description 19
- 238000003754 machining Methods 0.000 claims abstract description 11
- 238000010586 diagram Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
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Abstract
The utility model discloses a conveying device for a numerical control machining center, which comprises an operation table, wherein a numerical control machining mechanism for machining materials is connected to one side of the operation table through bolts, a bracket for fixing a servo motor A is welded to one side of the operation table, the power output end of the servo motor A is connected with the power input end of a one-way threaded rod, a thread bush for driving an electric telescopic rod outside a transverse plate to move is connected to the outer side of the one-way threaded rod through threads, and a transverse frame for fixing a servo motor B is fixed to one side of the electric telescopic rod through screws; according to the utility model, through the arrangement of the bidirectional threaded rod, the unidirectional threaded rod, the electric telescopic rod, the servo motor A, the servo motor B, the transverse plate, the transverse frame, the clamping plate A and the clamping plate B, the problems that the feeding speed of materials cannot be improved and the processing efficiency is low when the traditional numerical control machining center is used are solved.
Description
Technical Field
The utility model relates to the technical field of numerical control machining centers, in particular to a conveying device for a numerical control machining center.
Background
The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts. The numerical control machining center is one of the numerical control machine tools with highest yield and most wide application in the world.
Patent number 202122721812.3 discloses a novel numerical control machining center, and the device is through the effect of design cylinder, and the cylinder can promote the height of machining center body, can prevent that the surface ponding from getting into this internal damage that causes of machining center.
However, when the existing numerical control machining center is used, a worker usually carries the materials to be machined on a material carrying operation console, the speed of the carried materials is low, the machining efficiency of the materials is affected to a certain extent, and the numerical control machining center is limited greatly, so that a conveying device for the numerical control machining center is arranged.
Disclosure of Invention
The utility model mainly aims to provide a conveying device for a numerical control machining center, which solves the problems that the feeding speed of materials cannot be improved and the machining efficiency is low when the existing numerical control machining center is used by arranging a bidirectional threaded rod, a unidirectional threaded rod, an electric telescopic rod, a servo motor A, a servo motor B, a transverse plate, a transverse frame, a clamping plate A and a clamping plate B.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:
the utility model provides a conveyer for numerical control machining center, includes the operation panel, operation panel one side bolted connection has the numerical control processing mechanism that carries out the processing to the material, operation panel one side welding has the support that carries out fixed to servo motor A, servo motor A's power take off end links to each other with the power input of one-way threaded rod, one-way threaded rod outside threaded connection has the screw thread cover that drives the outer electric telescopic handle of diaphragm and carries out the removal, electric telescopic handle one side screw fixation has the crossbearer that carries out fixed to servo motor B, servo motor B's power take off end links to each other with the power input of two-way threaded rod, two-way threaded rod outside threaded connection has adapter sleeve A and adapter sleeve B that drives splint A and splint B and carry out lateral shifting respectively, operation panel one side is provided with the conveyer belt that carries the material;
further, an adjusting component for adjusting materials on the conveyor belt is arranged on the outer side of the operating platform, the adjusting component comprises a connecting frame, a driving motor, a bidirectional screw rod, a driving sleeve A, a driving sleeve B, an adjusting plate A and an adjusting plate B, and the connecting frame for fixing the driving motor for driving the bidirectional screw rod to rotate is welded on the outer side of the operating platform; the material position on the conveying belt is adjusted through a connecting frame, a driving motor, a two-way screw rod, a driving sleeve A, a driving sleeve B, an adjusting plate A and an adjusting plate B which are arranged;
further, the outer side of the bidirectional screw rod is respectively in threaded connection with a driving sleeve A and a driving sleeve B which drive the adjusting plate A and the adjusting plate B to transversely move; the material position on the conveying belt is adjusted through the adjusting plate A and the adjusting plate B;
further, the power output end of the driving motor is connected with the power input end of the bidirectional screw rod; the two-way screw rod is driven to rotate by the installed driving motor;
further, the input ends of the driving motor, the servo motor A, the servo motor B and the electric telescopic rod are electrically connected with the output end of an external power supply; the electric equipment works normally by connecting an external power supply.
Compared with the prior art, the utility model has the following beneficial effects:
1. according to the utility model, when materials are to be conveyed to a numerical control processing mechanism for processing, the electric telescopic rods in the transverse plates convert received electric energy into mechanical energy, the inner rods of the electric telescopic rods drive the transverse frames to move, so that the clamping plates A and the clamping plates B move to the outer sides of the materials, then the servo motors B outside the transverse frames convert the received electric energy into mechanical energy, the connecting sleeves A and the connecting sleeves B outside the two-way threaded rods respectively drive the clamping plates A and the clamping plates B to be in contact with the surfaces of the materials, then the inner rods of the electric telescopic rods drive the transverse frames to move upwards, then the materials are separated from the ground, meanwhile, the servo motors A outside the brackets convert the received electric energy into mechanical energy, the threaded sleeves outside the one-way threaded rods drive the transverse plates to move, so that the materials fixed in the transverse frames are driven to move to the upper part of the conveying belt in the operating platform, and then the inner rods of the electric telescopic rods drive the fixed materials of the transverse frames to be in contact with the conveying belt, and simultaneously the connecting sleeves A and the connecting sleeves B respectively move outside the two-way, so that the threaded rods A and the clamping plates are separated from the conveying belt to be separated from the conveying belt, and the processing speed of the materials is improved.
2. According to the utility model, through the connecting frame, the driving motor, the bidirectional screw rod, the driving sleeve A, the driving sleeve B, the adjusting plate A and the adjusting plate B, when materials are conveyed on the conveyor belt, the driving motor outside the connection converts received electric energy into mechanical energy, the driving sleeve A and the driving sleeve B outside the bidirectional screw rod respectively drive the adjusting plate A and the adjusting plate B to move, and then the adjusting plate A and the adjusting plate B are contacted with the surfaces of the materials, so that the positions of the materials on the conveyor belt can be conveniently adjusted, and the materials are prevented from shifting during conveying.
Drawings
FIG. 1 is a schematic diagram of the overall structure of a conveying device for a numerical control machining center;
FIG. 2 is a schematic diagram of an adjusting assembly of a conveying device for a numerical control machining center;
in the figure: 1. a numerical control machining mechanism; 2. an adjustment assembly; 3. an operation table; 4. a driving sleeve A; 5. a two-way screw rod; 6. a driving motor; 7. an adjusting plate A; 8. a connecting frame; 9. a driving sleeve B; 10. an adjusting plate B; 11. a servo motor A; 12. a bracket; 13. a one-way threaded rod; 14. a cross plate; 15. a thread sleeve; 16. an electric telescopic rod; 17. a servo motor B; 18. a two-way threaded rod; 19. connecting sleeve A; 20. a clamping plate A; 21. connecting sleeve B; 22. a conveyor belt; 23. a clamping plate B; 24. and a transverse frame.
Detailed Description
The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.
As shown in fig. 1-2, a conveying device for a numerical control machining center comprises an operation table 3, wherein a numerical control machining mechanism 1 for machining materials is connected to one side of the operation table 3 through bolts, a bracket 12 for fixing a servo motor A11 is welded to one side of the operation table 3, a power output end of the servo motor A11 is connected with a power input end of a unidirectional threaded rod 13, a threaded sleeve 15 for driving an electric telescopic rod 16 outside a transverse plate 14 to move is connected to the outer side of the unidirectional threaded rod 13 through threads, a transverse frame 24 for fixing a servo motor B17 is fixed to one side of the electric telescopic rod 16 through threads, a power output end of the servo motor B17 is connected with a power input end of a bidirectional threaded rod 18, a connecting sleeve A19 and a connecting sleeve B21 for driving a clamping plate A20 and a clamping plate B23 to move transversely are connected to the outer side of the bidirectional threaded rod 18 through threads respectively, and a conveying belt 22 for conveying materials is arranged on one side of the operation table 3;
the device comprises an operation table 3, a material conveying belt 22, an adjusting assembly 2, a connecting frame 8, a driving motor 6, a bidirectional screw rod 5, a driving sleeve A4, a driving sleeve B9, an adjusting plate A7 and an adjusting plate B10, wherein the adjusting assembly 2 for adjusting the material on the conveying belt 22 is arranged on the outer side of the operation table 3; the material position on the conveying belt 22 is adjusted through a connecting frame 8, a driving motor 6, a bidirectional screw rod 5, a driving sleeve A4, a driving sleeve B9, an adjusting plate A7 and an adjusting plate B10 which are arranged;
the input ends of the driving motor 6, the servo motor A11, the servo motor B17 and the electric telescopic rod 16 are electrically connected with the output end of an external power supply; the electric equipment works normally by connecting an external power supply.
It should be noted that, when the present utility model is used, when materials are to be transported to the numerical control processing mechanism 1 for processing, the electric telescopic rod 16 in the transverse plate 14 converts the received electric energy into mechanical energy, the inner rod of the electric telescopic rod 16 drives the transverse frame 24 to move, so that the clamping plates a20 and B23 move to the outer side of the materials, then the servo motor B17 outside the transverse frame 24 converts the received electric energy into mechanical energy, the connecting sleeve a19 and the connecting sleeve B21 outside the bidirectional threaded rod 18 respectively drive the clamping plates a20 and B23 to contact with the surfaces of the materials, then the inner rod of the electric telescopic rod 16 drives the transverse frame 24 to move upwards, then the materials are separated from the ground, meanwhile, the servo motor a11 outside the bracket 12 converts the received electric energy into mechanical energy, the threaded sleeve 15 outside the unidirectional threaded rod 13 drives the transverse plate 14 to move, the electric telescopic rod 16 in the transverse plate 14 drives the materials fixed in the transverse frame 24 to move to the position above the conveyor belt 22 in the operation table 3, then the inner rod of the electric telescopic rod 16 drives the materials fixed in the transverse frame 24 to contact with the conveyor belt 22, meanwhile, the connecting sleeve A19 and the connecting sleeve B21 respectively move outside the bidirectional threaded rod 18 to separate the clamping plate A20 and the clamping plate B23 from the materials, then the conveyor belt 22 conveys the materials into the numerical control processing mechanism 1 for processing, the driving motor 6 outside the connection converts the received electric energy into mechanical energy, the driving sleeve A4 and the driving sleeve B9 outside the bidirectional screw rod 5 respectively drive the adjusting plate A7 and the adjusting plate B10 to move, and then the adjusting plate A7 and the adjusting plate B10 are contacted with the surfaces of the materials, so that the positions of the materials on the conveyor belt 22 are conveniently adjusted, the materials are prevented from shifting during conveying, and accordingly the feeding speed of the materials is improved, and the processing efficiency is improved.
The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (5)
1. A conveying device for a numerical control machining center comprises an operating table (3); the automatic feeding device is characterized in that a numerical control machining mechanism (1) for machining materials is connected to one side of an operating table (3) through bolts, a support (12) for fixing a servo motor A (11) is welded to one side of the operating table (3), a power output end of the servo motor A (11) is connected with a power input end of a one-way threaded rod (13), a threaded sleeve (15) for driving an electric telescopic rod (16) outside a transverse plate (14) to move is connected to the outer side of the one-way threaded rod (13) through threads, a transverse frame (24) for fixing a servo motor B (17) is fixed to one side of the electric telescopic rod (16) through threads, a power output end of the servo motor B (17) is connected with a power input end of a two-way threaded rod (18), a connecting sleeve A (19) and a connecting sleeve B (21) for driving a clamping plate A (20) and a clamping plate B (23) to move transversely are connected to the outer side of the two-way threaded rod respectively, and a conveying belt (22) for conveying materials is arranged on one side of the operating table (3).
2. The transfer device for a numerical control machining center according to claim 1, wherein: the automatic feeding device is characterized in that an adjusting assembly (2) for adjusting materials on the conveyor belt (22) is arranged on the outer side of the operating platform (3), the adjusting assembly (2) comprises a connecting frame (8), a driving motor (6), a bidirectional screw rod (5), a driving sleeve A (4), a driving sleeve B (9), an adjusting plate A (7) and an adjusting plate B (10), and the connecting frame (8) for fixing the driving motor (6) for driving the bidirectional screw rod (5) to rotate is welded on the outer side of the operating platform (3).
3. The transfer device for a numerical control machining center according to claim 2, wherein: the outer side of the bidirectional screw rod (5) is respectively in threaded connection with a driving sleeve A (4) and a driving sleeve B (9) which drive an adjusting plate A (7) and an adjusting plate B (10) to transversely move.
4. The transfer device for a numerical control machining center according to claim 2, wherein: the power output end of the driving motor (6) is connected with the power input end of the bidirectional screw rod (5).
5. The transfer device for a numerical control machining center according to claim 2, wherein: the input ends of the driving motor (6), the servo motor A (11), the servo motor B (17) and the electric telescopic rod (16) are electrically connected with the output end of an external power supply.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321581089.6U CN220145356U (en) | 2023-06-20 | 2023-06-20 | Conveying device for numerical control machining center |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321581089.6U CN220145356U (en) | 2023-06-20 | 2023-06-20 | Conveying device for numerical control machining center |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220145356U true CN220145356U (en) | 2023-12-08 |
Family
ID=89015369
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321581089.6U Active CN220145356U (en) | 2023-06-20 | 2023-06-20 | Conveying device for numerical control machining center |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220145356U (en) |
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2023
- 2023-06-20 CN CN202321581089.6U patent/CN220145356U/en active Active
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