CN217619786U - Double-end multidirectional structure of polishing - Google Patents

Abstract

The utility model discloses a multidirectional structure of polishing of double-end, including the first and pneumatic burnishing machine of polishing, polish through the bidirectional drive structural connection between first and the pneumatic burnishing machine, and the bidirectional drive structure is simultaneously to polishing head one and pneumatic burnishing machine at two polishing head connecting wire orientations go on drive, the structural rotary drive structure that still is provided with of bidirectional drive, the rotary drive structure carries out rotary drive through driving the bidirectional drive structure to polishing head one and pneumatic burnishing machine. Two groups of polishing heads are simultaneously arranged on the same bidirectional driving structure, and can be driven by the bidirectional driving structure simultaneously, so that the synchronous driving effect of the two polishing heads is realized. The directions of the two polishing heads can be adjusted at the same processing position, different processing modes of the same workpiece can be realized under the condition of not replacing parts, the processing efficiency is greatly improved, and the production cost is saved.

Description

Double-end multidirectional structure of polishing

Technical Field

The utility model relates to a structure of polishing, especially a multidirectional structure of polishing of double-end.

Background

A grinding machine is an apparatus for grinding and polishing a surface of a product, and is generally used in a surface treatment process of a workpiece, and a conventional grinding machine generally includes a grinding head and a driving grinding head. However, the conventional grinding machine is provided with only one grinding head on a group of driving structures or at one processing position, so that the structure is simple, but the driving efficiency is low, and more grinding heads and driving structures are needed according to various grinding requirements, thereby increasing the production cost. And the flexibility ratio is not enough when polishing, when the roughness degree of polishing needs to be adjusted, the polishing piece on the polishing head or the polishing head needs to be replaced, and the efficiency of surface treatment is influenced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a set up two head multidirectional polishing structures that polish head realization high efficiency and polish simultaneously on a set of drive structure.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a multidirectional structure of polishing of double-end, includes the first and pneumatic burnishing machine of polishing, polish and connect through the bidirectional drive structure between first and the pneumatic burnishing machine, and the bidirectional drive structure is simultaneously to polishing head one and pneumatic burnishing machine at two polishing head connecting wire orientations go on drive, the structural rotary drive structure that still is provided with of bidirectional drive, the rotary drive structure carries out rotary drive through driving the bidirectional drive structure to polishing head one and pneumatic burnishing machine.

As the improvement of the technical scheme, the bidirectional driving structure comprises an air cylinder mounting frame and a bidirectional air cylinder, the bidirectional air cylinder is arranged on the air cylinder mounting frame, the first polishing head and the pneumatic polishing machine are respectively connected with two air rods of the bidirectional air cylinder, and the air rods of the bidirectional air cylinder move in the direction of the connecting lines of the two air rods.

As a further improvement of the technical scheme, the movement directions of the first grinding head and the pneumatic polishing machine on the bidirectional cylinder are the same.

As a further improvement of the above technical scheme, still be provided with slide rail and slider on the cylinder mounting bracket, the slide rail includes first slide rail and second slide rail, the slider includes first slider and second slider, the slide rail sets up on the cylinder mounting bracket, and is located the both ends of two-way cylinder, the slider slides on the slide rail and sets up, first slider sets up in the first bottom of polishing, and is connected with the first of polishing through first mounting bracket, the second slider sets up in the bottom of pneumatic polishing machine, and the second mounting bracket is connected with pneumatic polishing machine.

As a further improvement of the above technical scheme, the rotary driving structure comprises a rotary driving motor and a rotary mounting frame, wherein the rotary driving motor is arranged on the rotary mounting frame, and the rotary driving structure is rotationally driven on the rotary mounting frame.

As a further improvement of the above technical solution, the rotation driving motor is further provided with a speed reducing mechanism, and the speed reducing mechanism is arranged between the rotation driving motor and the bidirectional driving structure.

As a further improvement of the technical scheme, the rotary mounting frame is further provided with a multi-directional driving structure, and the multi-directional driving structure drives the rotary mounting frame in a multi-directional manner to realize multi-directional driving of the first polishing head and the pneumatic polishing machine.

As a further improvement of the technical scheme, a polishing head motor is arranged on the polishing head I and used for driving the polishing head I to rotate.

The beneficial effects are that: the utility model discloses a polish head has set up two sets ofly simultaneously on same two-way drive structure, and two sets of polish heads can be driven by two-way drive structure simultaneously, have realized the synchronous drive effect of two polish heads. The directions of the two grinding heads can be adjusted at the same machining position, different machining modes of the same machined part are realized under the condition of not replacing parts, the machining efficiency is greatly improved, and the production cost is saved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the assembly of the present invention;

FIG. 2 is a schematic view of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention.

1. A bi-directional drive structure; 11. a cylinder mounting frame; 12. a bidirectional cylinder; 13. a slide rail; 14. A slider; 2. a rotation driving structure; 21. a rotary drive motor; 22. rotating the mounting rack; 23. A speed reduction mechanism; 3. polishing a first head; 31. a polishing head motor; 4. a pneumatic polishing machine; 5. And a multi-directional driving structure.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

Referring to fig. 1, a multidirectional structure of polishing of double-end, including first 3 and pneumatic polisher 4 of polishing, connect through bidirectional drive structure 1 between first 3 of polishing and the pneumatic polisher 4, and bidirectional drive structure 1 drives first 3 of polishing and pneumatic polisher 4 on two head connecting wire directions simultaneously, connects through bidirectional drive structure 1 to carry out the simultaneous drive of driven first 3 of polishing and pneumatic polisher 4 simultaneously and can realize that bidirectional drive structure 1 drives first 3 of polishing and pneumatic polisher 4 simultaneously on a bidirectional drive structure 1, realize the synchro-operation of two heads of polishing. The bidirectional driving structure 1 is further provided with a rotary driving structure 2, and the rotary driving structure 2 drives the first polishing head 3 and the pneumatic polishing machine 4 to rotate through driving the bidirectional driving structure 1. When a workpiece is machined, in order to avoid the need of dismounting and remounting the workpiece when the machining process is replaced, the rotary driving structure 2 is arranged on the bidirectional driving structure 1 of the grinding piece, the rotary driving structure 2 can convert the positions of the first grinding head 3 and the pneumatic polishing machine 4, different processes of machining the workpiece are realized under the condition that the workpiece is not changed, the machining steps are simplified, and the machining efficiency is increased.

Specifically referring to fig. 2, the bidirectional driving structure 1 includes a cylinder mounting frame 11 and a bidirectional cylinder 12, two ends of a pneumatic rod actuating cylinder body of the cylinder of the bidirectional cylinder 12 extend out, and the two ends of the body can both realize the expansion of the pneumatic rod. Two-way cylinder 12 sets up on cylinder mounting bracket 11, first 3 of polishing and pneumatic polishing machine 4 are connected with two gas poles of two-way cylinder 12 respectively, and first 3 of polishing and pneumatic polishing machine 4 limit have realized for the removal of cylinder mounting bracket 11 to change the distance between first 3 of polishing or pneumatic polishing machine 4 and the cylinder mounting bracket 11, and the gas pole through two-way cylinder 12 moves in the direction of two gas pole connecting wires, first 3 of polishing is the same with the direction of motion of pneumatic polishing machine 4 on two-way cylinder 12. When the first polishing head 3 is adopted for processing a workpiece, the distance between the first polishing head 3 and the cylinder mounting frame 11 can be increased, so that the interference of the cylinder mounting frame 11 on a polishing piece during processing is avoided. Also, when the pneumatic polishing machine 4 is used, the distance between the pneumatic polishing machine 4 and the cylinder mounting bracket 11 is increased when the pneumatic polishing machine 4 is driven, so that polishing can be conveniently carried out.

In addition, in order to improve the stability of the first polishing head 3 and the pneumatic polishing machine 4 in the motion process, a slide rail 13 and a slide block 14 are further arranged on the cylinder mounting frame 11, the slide rail 13 comprises a first slide rail 13 and a second slide rail 13, the slide block 14 comprises a first slide block 14 and a second slide block 14, the slide rail 13 is arranged on the cylinder mounting frame 11 and is located at two ends of the two-way cylinder 12, the slide block 14 is arranged on the slide rail 13 in a sliding manner, the first slide block 14 is arranged at the bottom of the first polishing head 3 and is connected with the first polishing head 3 through the first mounting frame, the second slide block 14 is arranged at the bottom of the pneumatic polishing machine 4, and the second mounting frame is connected with the pneumatic polishing machine 4.

As an embodiment of the present application, the rotary driving structure 2 includes a rotary driving motor 21 and a rotation mounting frame 22, the rotary driving motor 21 is disposed on the rotation mounting frame 22, and the bidirectional driving structure 1 is rotationally driven on the rotation mounting frame 22. The rotation mechanism may be driven by another rotation driving motor 21. However, when the motor is used for driving, because the rotating speed of the motor is too high, and the polishing head is likely to generate increased inertia during rotation, the rotating driving motor 21 is further provided with a speed reducing mechanism 23, and the speed reducing mechanism is arranged between the rotating driving motor 21 and the bidirectional driving structure 1. The speed reducing mechanism is generally formed by meshing gears with different sizes, when being installed, an input shaft of the speed reducing mechanism can be directly connected with a motor shaft, an output shaft of the speed reducing mechanism is directly connected with the cylinder mounting rack 11 of the bidirectional driving structure 1, and the speed reducing mechanism is arranged on the rotary mounting rack 22 through a bearing.

Referring to fig. 3, as another embodiment of the present application, a multi-directional driving structure 5 is further disposed on the rotation mounting frame 22, and the multi-directional driving structure 5 drives the first polishing head 3 and the pneumatic polishing machine 4 in a multi-directional manner by driving the rotation mounting frame 22 in a multi-directional manner. The multi-directional driving structure 5 can adjust the position of the polishing head before the polishing head polishes, so that the polishing head can be accurately positioned on a workpiece. Multidirectional drive structure 5 includes X axle drive structure, Y axle drive structure and Z axle drive structure, interconnect between these drive structures realizes the drive process of head in X axle direction, Y axle direction and Z axle direction in proper order.

As another embodiment of the present application, when a workpiece is ground, it generally includes a primary grinding and a later fine grinding, so that the pneumatic polishing machine 4 can adopt driving modes of different rotating speeds for different grinding heads to be mainly used for high-speed light grinding. Preferably, a polishing head motor 31 is arranged on the polishing head one 3, and the polishing head motor 31 is used for driving the polishing head one 3 to rotate.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (8)

1. The utility model provides a structure of polishing that double-end is multidirectional which characterized in that: including the first and pneumatic burnishing machine of polishing, polish and connect through the two-way drive structure between first and the pneumatic burnishing machine, and the two-way drive structure drives on two polishing head connecting wire directions to polishing head one and pneumatic burnishing machine simultaneously, the structural rotary drive structure that still is provided with of two-way drive, the rotary drive structure carries out rotary drive through drive two-way drive structure to polishing head one and pneumatic burnishing machine.

2. The double-ended multidirectional sanding structure of claim 1, wherein: the bidirectional driving structure comprises a cylinder mounting frame and a bidirectional cylinder, the bidirectional cylinder is arranged on the cylinder mounting frame, the first polishing head and the pneumatic polishing machine are respectively connected with two gas rods of the bidirectional cylinder, and the gas rods of the bidirectional cylinder move in the direction of two gas rod connecting lines.

3. The double-ended multidirectional grinding structure as recited in claim 2, wherein: the motion directions of the first polishing head and the pneumatic polishing machine on the bidirectional cylinder are the same.

4. The double-ended multidirectional grinding structure as recited in claim 2, wherein: still be provided with slide rail and slider on the cylinder mounting bracket, the slide rail includes first slide rail and second slide rail, the slider includes first slider and second slider, the slide rail sets up on the cylinder mounting bracket, and is located the both ends of two-way cylinder, the slider slides on the slide rail and sets up, first slider sets up in the first bottom of polishing, and is connected with the first of polishing through first mounting bracket, the second slider sets up in the bottom of pneumatic polishing machine, and the second mounting bracket is connected with pneumatic polishing machine.

5. The double-ended multidirectional sanding structure of claim 1, wherein: the rotary driving structure comprises a rotary driving motor and a rotary mounting frame, wherein the rotary driving motor is arranged on the rotary mounting frame, and the rotary driving structure is rotationally driven to the bidirectional driving structure on the rotary mounting frame.

6. The double-ended multidirectional grinding structure as recited in claim 5, wherein: the rotary driving motor is also provided with a speed reducing mechanism, and the speed reducing mechanism is arranged between the rotary driving motor and the bidirectional driving structure.

7. The double-ended multidirectional grinding structure as recited in claim 5, wherein: the rotary mounting frame is further provided with a multi-directional driving structure, and the multi-directional driving structure drives the first polishing head and the pneumatic polishing machine in a multi-directional mode through multi-directional driving of the rotary mounting frame.

8. The double-ended multidirectional sanding structure of claim 1, wherein: and a polishing head motor is arranged on the polishing head I and used for driving the polishing head I to rotate.

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