CN223802372U - A surface grinding device for nitrogen spring processing - Google Patents

Abstract

The utility model discloses a surface polishing device for nitrogen spring processing, which comprises a machine body, wherein a dust cover is arranged above the machine body, a base is arranged on the top surface of the machine body and is positioned in the dust cover, a Z-axis transmission assembly is arranged in the base, a Z-axis sliding plate is arranged on the Z-axis transmission assembly, a clamping mechanism is arranged above the Z-axis sliding plate, a polishing rod is arranged at the top end of the clamping mechanism, an industrial dust collector is arranged at the rear end outside the machine body, a dust collection head is arranged on one side of the polishing rod, and one end of the dust collection head is connected with a corrugated pipe and extends to be connected to the industrial dust collector in a penetrating mode through the dust cover. According to the utility model, the dust collection head is arranged on one side of the polishing rod and is connected with the corrugated pipe to the industrial dust collector, so that an efficient dust collection system is formed, and in the process of polishing the nitrogen spring, the dust collection head can immediately capture generated dust and fragments, and the dust is effectively prevented from being diffused in a working area.

Description

Surface polishing device for nitrogen spring machining

Technical Field

The utility model relates to the technical field of nitrogen spring polishing, in particular to a surface polishing device for nitrogen spring processing.

Background

The nitrogen spring is an elastic element using nitrogen as a working medium. The pressure transmission and energy conversion are realized by utilizing the expansion coefficient difference of gas at a certain temperature, the surface of the spring is usually required to be polished after the spring is manufactured, and the surface of the nitrogen spring is trimmed and treated by a polishing device so as to achieve the aim of improving the surface quality, the precision and the attractiveness.

The existing nitrogen spring produces a large amount of dust and dust in the process of polishing, the polishing operation of non-enclosure space leads to dust and dust to fly away freely, seriously pollute the surrounding environment, for example, nitrogen spring processing is with quick equipment of polishing of burr that publication number CN216633735U discloses, in this patent nitrogen spring carry out the polishing operation under open environment, can lead to dust and dust to fly away freely, this not only influences the clean and tidy degree of work place, still probably causes long-term harm to operating personnel's respiratory, skin etc. increase occupational disease risk, and the dust flies away and can pollute whole job site, reduce operational environment's quality, simultaneously, operating personnel need frequent interruption work in order to clear up the dust, further reduced production efficiency.

Therefore, it is necessary to invent a surface polishing device for nitrogen spring processing to solve the above-mentioned problems.

Disclosure of utility model

The utility model aims to provide a surface polishing device for nitrogen spring processing, which aims to solve the problem that dust and dust can be free to fly when polishing operation is carried out in an open environment in the prior art.

In order to achieve the above purpose, the surface polishing device for nitrogen spring processing comprises a machine body, a dust cover clamping mechanism and an industrial dust collector, wherein the dust cover is arranged above the machine body, a cover door is arranged on the front side of the dust cover, a base is arranged on the top surface of the machine body and positioned inside the dust cover, a Z-axis transmission assembly is arranged inside the base, a Z-axis sliding plate is arranged on the Z-axis transmission assembly, the clamping mechanism is arranged above the Z-axis sliding plate, a polishing rod is arranged at the top end of the clamping mechanism, the industrial dust collector is arranged at the rear end outside the machine body, a dust collection head is arranged on one side of the polishing rod, and one end of the dust collection head is connected with a corrugated pipe and penetrates through the dust cover to be connected to the industrial dust collector in an extending mode.

Preferably, the dustproof cover is hinged to the cover door, the cover door is made of transparent glass, the dustproof cover is designed mainly to seal a polishing area, dust and scraps generated in the polishing process are prevented from splashing into a working environment, and the health of workers and the cleanliness of the working environment are protected.

Preferably, the inside of dust cover is provided with the grudging post, the front wall of grudging post is provided with X axle drive assembly, slidable mounting has X axle sliding plate on the X axle drive assembly, and X axle drive assembly's design is in order to realize polishing the stick and remove in the horizontal direction (X axle direction).

Preferably, the front wall of the X-axis sliding plate is provided with a Y-axis transmission assembly, and the Y-axis transmission assembly is provided with a Y-axis sliding plate in a sliding manner, so that the polishing rod can move in the direction perpendicular to the X-axis (Y-axis direction).

Preferably, the front wall of the Y-axis sliding plate is provided with a rotating motor, the output end of the rotating motor is connected with a polishing rod, and the rotating motor is designed to drive the polishing rod to rotate so as to polish the nitrogen spring.

Preferably, the clamping mechanism comprises a bottom plate, the bottom plate is arranged above the Z-axis sliding plate, and the clamping mechanism is designed to firmly clamp the nitrogen spring so as to ensure that the nitrogen spring cannot loosen or fall off due to vibration or external force in the polishing process.

Preferably, the clamping mechanism further comprises air cylinders and clamping plates, the air cylinders are located above the bottom plate, 3 air cylinders are arranged, the output ends of three air cylinders are connected with the clamping plates, the air cylinders provide clamping force, and the clamping plates are directly contacted with the nitrogen springs and apply the clamping force.

Preferably, the corrugated pipe is connected between the dust collection head and the industrial dust collector, the dust inlet end of the corrugated pipe is connected with the dust outlet end of the dust collection head, the dust outlet end of the corrugated pipe is connected with the dust inlet end of the industrial dust collector, and the corrugated pipe is designed to connect the dust collection head and the industrial dust collector to form an effective dust collection system.

In the technical scheme, the utility model has the technical effects and advantages that:

1. According to the utility model, the dust collection head is arranged at one side of the polishing rod and is connected with the corrugated pipe to the industrial dust collector, so that an efficient dust collection system is formed, and in the process of polishing the nitrogen spring, the dust collection head can immediately capture generated dust and fragments, so that the dust is effectively prevented from being diffused in a working area;

2. The utility model not only provides a relatively closed space for polishing operation through the design of the dust cover, but also enables operators to observe the polishing process under the condition of not exposing to dust environment through the design of the transparent cover door, the closed environment is combined with the dust collection system, the dust collection efficiency is greatly improved, therefore, the dust pollution to the working environment in the polishing process is remarkably reduced, the cleaning of a working area is maintained, the quality of the whole working environment is improved, the dust generated in the polishing process can be effectively collected, the risk of the inhalation of harmful dust by staff is greatly reduced, the health of the respiratory system of the staff is protected, and the occurrence of occupational diseases is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic perspective view of an X-axis drive assembly and a Y-axis drive assembly according to the present utility model;

FIG. 3 is a schematic perspective view of a Z-axis drive assembly according to the present utility model;

FIG. 4 is a schematic perspective view of a clamping mechanism according to the present utility model;

Fig. 5 is a schematic perspective view of an industrial cleaner according to the present utility model.

Reference numerals illustrate:

1. A body; 2, a dust cover, 3, a cover door, 4, a vertical frame, 5, an X-axis transmission component, 6, an X-axis sliding plate, 7, a Y-axis transmission component, 8, a Y-axis sliding plate, 9, a rotating motor, 10, a polishing rod, 11, a base, 12, a Z-axis transmission component, 13, a Z-axis sliding plate, 14, a clamping mechanism, 1401, a bottom plate, 1402, a cylinder, 1403, a clamping plate, 15, an industrial dust collector, 16, a dust collection head, 17 and a corrugated pipe.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

The utility model provides a surface polishing device for nitrogen spring processing, which is shown in fig. 1-5, and comprises a machine body 1, a dust cover 2 clamping mechanism 14 and an industrial dust collector 15, wherein the dust cover 2 is arranged above the machine body 1, a cover door 3 is arranged at the front side of the dust cover 2, a base 11 is arranged on the top surface of the machine body 1 and positioned inside the dust cover 2, a Z-axis transmission assembly 12 is arranged inside the base 11, a Z-axis sliding plate 13 is arranged on the Z-axis transmission assembly 12, the clamping mechanism 14 is arranged above the Z-axis sliding plate 13, a polishing rod 10 is arranged at the top end of the clamping mechanism 14, the industrial dust collector 15 is arranged at the rear end outside the machine body 1, a dust collection head 16 is arranged at one side of the polishing rod 10, and one end of the dust collection head 16 is connected with a corrugated pipe 17 and extends to be connected to the industrial dust collector 15 through the dust cover 2.

The Z-axis transmission assembly 12 and the Z-axis sliding plate 13 are arranged to adjust the position of the clamping mechanism 14, so that the polishing rod 10 is prevented from being closely contacted during manual feeding and discharging, and the safety of the manual feeding and discharging nitrogen spring is effectively improved.

The inside of dust cover 2 is provided with grudging post 4, and the front wall of grudging post 4 is provided with X axle drive assembly 5, and slidable mounting has X axle sliding plate 6 on the X axle drive assembly 5, and the front wall of X axle sliding plate 6 is provided with Y axle drive assembly 7, slidable mounting has Y axle sliding plate 8 on the Y axle drive assembly 7, and the front wall of Y axle sliding plate 8 is provided with rotating electrical machines 9, and the output of rotating electrical machines 9 is connected with polishing stick 10.

The X-axis transmission assembly 5 and the X-axis sliding plate 6 are arranged to realize the movement of the polishing rod 10 in the horizontal direction (X-axis direction), the Y-axis transmission assembly 7 and the Y-axis sliding plate 8 realize the movement of the polishing rod 10 in the direction vertical to the X-axis direction (Y-axis direction), the precise movement of the polishing rod 10 in different positions is ensured, and meanwhile, the rotating motor 9 is used for driving the polishing rod 10 to rotate to perform polishing operation.

The clamping mechanism 14 comprises a bottom plate 1401, the bottom plate 1401 is arranged above the Z-axis sliding plate 13, the clamping mechanism 14 further comprises air cylinders 1402 and clamping plates 1403, the air cylinders 1402 are arranged above the bottom plate 1401, 3 air cylinders 1402 are arranged, and output ends of the three air cylinders 1402 are connected with the clamping plates 1403.

The clamping mechanism 14 can firmly clamp the nitrogen springs, so that the nitrogen springs cannot be loosened or fall off due to vibration or external force in the polishing process, and the three cylinders 1402 provide stable clamping force and adapt to the nitrogen springs with different sizes and shapes.

The dust cover 2 is hinged with the cover door 3, the cover door 3 is made of transparent glass material, the corrugated pipe 17 is connected between the dust collection head 16 and the industrial dust collector 15, the dust inlet end of the corrugated pipe 17 is connected with the dust outlet end of the dust collection head 16, and the dust outlet end of the corrugated pipe 17 is connected with the dust inlet end of the industrial dust collector 15.

The dust cover 2 is designed into a closed space and covers the upper part of the machine body 1, dust and fragments generated in the polishing process are prevented from splashing into the external environment, the polishing process is convenient to observe by the cover door 3 made of transparent materials, the operation accuracy is ensured, the industrial dust collector 15 is matched with the corrugated pipe 17 to form an effective dust collection system, the dust collection efficiency is ensured, and therefore, the dust and fragments generated in the polishing process are collected in real time, and the cleaning of the working environment is maintained.

The working principle of the utility model is as follows:

Referring to fig. 1-5 of the drawings, in the use of the present utility model, the cover door 3 is first opened, the Z-axis transmission assembly 12 is started, thereby driving the Z-axis sliding plate 13 and the clamping mechanism 14 to move forward, away from the polishing rod 10, then manually placing the nitrogen spring to be polished on the clamping plate 1403 of the clamping mechanism 14, starting the cylinder 1402 of the clamping mechanism 14, so that the clamping plate 1403 tightly clamps the nitrogen spring, adjusting the clamping force of the three cylinders 1402 according to the size and shape of the nitrogen spring, ensuring stable clamping, after the nitrogen spring is fixed, the nitrogen spring can be sent to the polishing area through the Z-axis transmission assembly 12, the cover door 3 is closed, at this time, the X-axis transmission assembly 5 and the Y-axis transmission assembly 7 are started, the positions of the polishing rod 10 in the horizontal direction and the vertical direction are respectively adjusted through the X-axis sliding plate 6 and the Y-axis sliding plate 8, ensuring that the polishing rod 10 is accurately aligned with the position to be polished of the nitrogen spring, finally, starting the rotating motor 9, so that the polishing rod 10 starts to rotate, during polishing, the industrial dust collector 15 collects dust and dust generated by the bellows 17 and the dust collection head 16 in real time, and the clean environment can be ensured, and the working environment can be ensured.

Claims (8)

1. The surface polishing device for nitrogen spring processing comprises a machine body (1), a dust cover (2) clamping mechanism (14) and an industrial dust collector (15), and is characterized in that the dust cover (2) is arranged above the machine body (1), a cover door (3) is arranged on the front side of the dust cover (2), a base (11) is arranged on the top surface of the machine body (1) and located inside the dust cover (2), a Z-axis transmission assembly (12) is arranged inside the base (11), a Z-axis sliding plate (13) is arranged on the Z-axis transmission assembly (12), the clamping mechanism (14) is arranged above the Z-axis sliding plate (13), a polishing rod (10) is arranged at the top end of the clamping mechanism (14), an industrial dust collector (15) is arranged at the rear end of the outer portion of the machine body (1), a dust collection head (16) is arranged on one side of the polishing rod (10), and one end of the dust collection head (16) is connected with a corrugated pipe (17) and extends through the dust collection head (2) to be connected to the industrial dust collector (15).

2. The nitrogen spring machining surface polishing device according to claim 1, wherein the dustproof cover (2) is hinged with the cover door (3), and the cover door (3) is made of transparent glass.

3. The nitrogen spring machining surface polishing device according to claim 2, wherein a stand (4) is arranged in the dust cover (2), an X-axis transmission assembly (5) is arranged on the front wall of the stand (4), and an X-axis sliding plate (6) is slidably arranged on the X-axis transmission assembly (5).

4. A nitrogen spring machining surface polishing device as claimed in claim 3, wherein the front wall of the X-axis sliding plate (6) is provided with a Y-axis transmission assembly (7), and the Y-axis transmission assembly (7) is provided with a Y-axis sliding plate (8) in a sliding manner.

5. The nitrogen spring machining surface polishing device according to claim 4, wherein a rotating motor (9) is arranged on the front wall of the Y-axis sliding plate (8), and a polishing rod (10) is connected to the output end of the rotating motor (9).

6. A nitrogen spring machining surface polishing apparatus according to claim 1, wherein said holding mechanism (14) comprises a bottom plate (1401), said bottom plate (1401) being mounted above a Z-axis sliding plate (13).

7. A nitrogen spring machining surface polishing device as set forth in claim 6, wherein said holding mechanism (14) further comprises air cylinders (1402) and holding plates (1403), said air cylinders (1402) are located above a bottom plate (1401), 3 of said air cylinders (1402) are provided, and the output ends of three of said air cylinders (1402) are connected to the holding plates (1403).

8. A surface polishing device for nitrogen spring processing as set forth in claim 1, wherein said bellows (17) is connected between said dust suction head (16) and said industrial dust collector (15), a dust inlet end of said bellows (17) is connected with a dust outlet end of said dust suction head (16), and a dust outlet end of said bellows (17) is connected with a dust inlet end of said industrial dust collector (15).