CN117961678A - Precision surface grinder - Google Patents

Abstract

The invention relates to the technical field of grinding machines, in particular to a precision surface grinding machine, which comprises a surface grinding machine body, wherein a grinding wheel dressing device is arranged on a grinding carriage of the surface grinding machine body, the grinding wheel dressing device comprises a dresser, a dust collecting system and a movable module, the dresser is arranged on the movable module, and the dust collecting system is correspondingly arranged with the dresser. The grinding wheel dressing device is arranged, so that the grinding wheel can be automatically dressed, the effect after dressing is better, and the machining precision of the grinding machine is improved; meanwhile, the dust collecting system is arranged in the grinding wheel dressing device, so that dust generated in the dressing process can be automatically collected and treated, and dust pollution generated in the dressing process is greatly reduced.

Description

Precision surface grinder

Technical Field

The invention relates to the technical field of grinding machines, in particular to a precision surface grinding machine.

Background

In the use process of the surface grinder, in order to carry out more precise machining on a workpiece, the grinding wheel on the grinding machine needs to be periodically dressed so as to ensure that the surface flatness of the grinding wheel meets the machining requirement. The existing grinding wheel dressing mode is mainly to manually hold a dresser to manually dress a grinding wheel, because the manual dressing basically depends on self-perception of a dressing worker, deviation is easy to occur, so that the grinding wheel dressing is not smooth enough, some grinding machines can place the dresser on a workbench below the grinding wheel, the magnetic force of the workbench is utilized to suck the dresser, then the grinding wheel and the workbench are started to carry out dressing work, a large amount of dust generated in the surface friction process of the dresser and the grinding wheel is thrown to one side of the grinding wheel along with the rotating grinding wheel in the dressing process, the dust consists of abrasive materials, metal powder, adhesive and the like, and the dust enters a workshop environment to pollute the air environment and endanger the health of workers in the workshop.

Disclosure of Invention

The invention aims to solve the defect that the grinding wheel needs to be manually dressed in the prior art, and provides a precise surface grinding machine.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The grinding wheel dressing device comprises a dresser, a dust collecting system and a movable module, wherein the dresser and the dust collecting system are both arranged on the movable module, and the dust collecting system is correspondingly arranged with the dresser;

The dust collection system comprises an inner cylinder body, a flushing module, a piston and a push-pull module, wherein the flushing module is arranged on the inner cylinder body, the piston is arranged in the inner cylinder body, a dust collector is fixed on the end face of the outer side of the piston, the flushing module is used for flushing the dust collector in the inner cylinder body, and the push-pull module is connected with the piston.

Preferably, the dust collector comprises an unfolding frame and a filter screen sleeve, the unfolding frame is fixedly connected to the piston, the filter screen sleeve is sleeved on the unfolding frame and fixedly connected with the unfolding frame, and a sealing treatment is carried out on a screen opening on one side of the filter screen sleeve, which is close to the piston;

The unfolding frame comprises a transverse shaft, two fixing rods and a movable rod, wherein the transverse shaft is horizontally arranged, the transverse shaft is fixedly connected to the piston, two fixing rods are fixedly connected to two ends of the transverse shaft respectively, the movable rod is arranged below the transverse shaft between the two fixing rods, and one end of the movable rod, close to the piston, is rotatably connected to the transverse shaft.

Preferably, the inner surface of the filter screen sleeve is coated with a felt layer.

Preferably, the movable module comprises a horizontal movable module, a vertical lifter and a mounting seat, wherein the horizontal movable module is fixedly connected to the grinding carriage, the vertical lifter is fixed on the horizontal movable module, the mounting seat is fixed on the vertical lifter, and the trimmer is fixed on the mounting seat.

Preferably, the flushing module comprises an outer cylinder, a rotating mechanism, a liquid storage cavity, an elastic skin, a sealing cover, a three-way pipe and a liquid storage device, wherein the outer cylinder is coaxially and rotatably arranged on the inner cylinder, the outer cylinder is connected with the rotating mechanism in a transmission way, the rotating mechanism is used for driving the outer cylinder to rotate, an annular liquid storage cavity is coaxially arranged in the outer cylinder, the front end of the inner cylinder is provided with the sealing cover, the sealing cover is fixedly connected with the outer cylinder, the three-way pipe is arranged on the sealing cover, one port of the three-way pipe is communicated with the inner cavity of the inner cylinder, the other two ports of the three-way pipe are respectively communicated with the liquid storage cavity and the liquid storage device, and one-way valve is fixedly arranged at each of the two ports;

a plurality of first through holes are formed in the inner wall of the liquid storage cavity towards one side of the inner cylinder body in a penetrating mode, a plurality of second through holes are formed in the inner cylinder body in a penetrating mode, and the first through holes and the second through holes are in one-to-one correspondence.

Preferably, a plurality of through holes are formed in the inner wall of the liquid storage cavity, which is far away from one side of the inner cylinder body, and an elastic skin is covered and fixed on each through hole.

Preferably, the rotating mechanism comprises a guide groove, a rotating shaft and a sliding block, the guide groove is formed in the inner wall of the inner cylinder body, the guide groove is formed by two parts, one side part, close to the sealing cover, is spiral, the other side part, far away from the sealing cover, is linear, the rotating shaft coaxially arranged with the inner cylinder body is rotatably arranged on the inner end face of the piston, the sliding block is slidably arranged in the guide groove, the sliding block is fixedly connected with the rotating shaft, the sliding block is made of a magnet, and the outer cylinder body is made of a ferromagnetic material.

The precise surface grinding machine provided by the invention has the beneficial effects that: by arranging the grinding wheel dressing device, the grinding wheel can be automatically dressed, and the effect after dressing is better, so that the machining precision of the grinding machine is improved; meanwhile, the dust collecting system is arranged in the grinding wheel dressing device, so that dust generated in the dressing process can be automatically collected and treated, and dust pollution generated in the dressing process is greatly reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of a precision surface grinder according to the present invention;

FIG. 2 is a schematic diagram of a dressing apparatus for a precision surface grinder according to the present invention;

FIG. 3 is a schematic diagram of a grinding wheel dressing apparatus of a precision surface grinder according to the present invention;

FIG. 4 is a schematic diagram of a flushing module of a precision surface grinder according to the present invention;

FIG. 5 is a schematic view showing a dust collector of a precision surface grinder according to the present invention;

FIG. 6 is a schematic diagram showing a second dust collector of the precision surface grinder according to the present invention;

FIG. 7 is a schematic view of a development frame of a precision surface grinder according to the present invention;

FIG. 8 is a schematic view of the inner and outer cylinder inner structures of a precision surface grinder according to the present invention;

FIG. 9 is a schematic diagram of an inner cylinder structure of a precision surface grinder according to the present invention;

FIG. 10 is a schematic diagram of an inner cylinder structure of a precision surface grinder according to the present invention;

FIG. 11 is a schematic view of the structure of an outer cylinder of a precision surface grinder according to the present invention;

FIG. 12 is a schematic diagram showing the working state of a grinding wheel dressing apparatus of a precision surface grinder according to the present invention;

fig. 13 is a second schematic diagram of the working state of the grinding wheel dressing device of the precision surface grinder according to the present invention.

In the figure: 1. a surface grinder body; 2. a trimmer; 3.a mobile module; 301. a horizontal movement module; 302. a vertical lifter; 303. a mounting base; 4. an inner cylinder; 5. a piston; 6. a push-pull module; 601. pulling a plate; 602. A transmission mechanism; 7. a flushing module; 701. an outer cylinder; 702. a liquid storage cavity; 703. sealing cover; 704. a three-way pipe; 705. an elastic skin; 706. a one-way valve; 707a, guide grooves; 707b, a rotating shaft; 707c, a slider; 708. a first through hole; 709. a second through hole; 7010. a liquid storage device; 7011. a water outlet; 8. a dust collector; 801. a deployment frame; 801a, horizontal axis; 801b, a fixed rod; 801c, a movable rod; 802. a filter screen sleeve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1

Referring to fig. 1-13, a precision surface grinder comprises a surface grinder body 1, wherein a grinding wheel dressing device is arranged on a grinding carriage of the surface grinder body 1, the grinding wheel dressing device comprises a dresser 2, a dust collecting system and a movable module 3, the dresser 2 and the dust collecting system are arranged on the movable module 3, and the dust collecting system is arranged corresponding to the dresser 2; when the grinding wheel is provided with the grinding wheel cover, an opening for installing the grinding wheel dressing device can be formed in the upper part of the grinding wheel cover, and then the grinding wheel dressing device is installed on the opening of the grinding wheel cover. Alternatively, a removable or externally movable wheel cover may be used to remove or move the wheel cover during operation of the wheel dressing apparatus to avoid blocking the wheel dressing apparatus.

The dust collection system comprises an inner cylinder 4, a flushing module 7, a piston 5 and a push-pull module 6, wherein the flushing module 7 is arranged on the inner cylinder 4, the piston 5 is arranged in the inner cylinder 4, a dust collector 8 is fixed on the end face of the outer side of the piston 5, the flushing module 7 is used for flushing the dust collector 8 in the inner cylinder 4, the push-pull module 6 is connected with the piston 5, and the push-pull module 6 is used for pushing the piston 5 to reciprocate in the inner cylinder 4 so as to drive the dust collector 8 to reciprocate inside and outside the inner cylinder 4.

The dust collector 8 comprises a spreading frame 801 and a filter screen sleeve 802, the spreading frame 801 is fixedly connected to the piston 5, the filter screen sleeve 802 is sleeved on the spreading frame 801, the filter screen sleeve 802 is fixedly connected with the spreading frame 801, and a screen opening at one side of the filter screen sleeve 802 close to the piston 5 is sealed;

The unfolding frame 801 comprises a transverse shaft 801a, two fixing rods 801b and a movable rod 801c, wherein the transverse shaft 801a is horizontally arranged, the transverse shaft 801a is fixedly connected to the piston 5, two ends of the transverse shaft 801a are respectively fixedly connected with one fixing rod 801b, the fixing rods 801b are arranged parallel to the inner cylinder 4, the movable rod 801c is arranged below the transverse shaft 801a between the two fixing rods 801b, and one end, close to the piston 5, of the movable rod 801c is rotatably connected to the transverse shaft 801 a. The movable bar 801c is generally L-shaped.

The inner surface of the mesh sleeve 802 is coated with a felt layer. The dust of granule can be directly intercepted on the one hand to the felt layer of setting, and on the other hand is washing the module and washing it the back, and its surface can adsorb there is moisture for it is better to the interception effect of dust.

This dust collector 8 can utilize the expansion frame 801 to realize the automatic expansion of filter screen cover 802 after the dust collector follows piston 5 and stretches out to the interior barrel 4 through being provided with expansion frame 801 in filter screen cover 802 to make filter screen cover 802 expand, and will not have the setting of sealing the net gape towards the emery wheel, the filter screen cover 802 after expanding obtains bigger dust entering passway, thereby more go to catch the dust. The unfolding frames 801 are distributed in a triangular shape after being unfolded, and the lower parts of the filter screen sleeves 802 can be extended and unfolded towards the lower part as far as possible, so that the unfolding range of the unfolded filter screen sleeves 802 on the vertical plane is larger, and dust flying out of and falling down from the grinding wheel is collected. The expansion frame 801 automatically expands after the expansion frame 801 stretches out of the inner cylinder 4 under the action of gravity, and the dust collector 8 automatically contracts under the extrusion action of the inner cylinder 4 after the expansion frame 801 is retracted into the inner cylinder 4, so that the structure is simpler and more efficient.

The movable module 3 comprises a horizontal movable module 301, a vertical lifter 302 and a mounting seat 303, wherein the horizontal movable module 301 is fixedly connected to a grinding carriage, the vertical lifter 302 is fixed on the horizontal movable module 301, the mounting seat 303 is fixed on the vertical lifter 302, and the trimmer 2 is fixed on the mounting seat 303; the horizontal movement module 301 may be a hydraulic movement platform, and the vertical lifter 302 is an electric screw lifter.

The push-pull module 6 comprises a transmission mechanism 602 and a pull plate 601, wherein the pull plate 601 is fixed at one end, far away from the piston 5, of the two fixing rods 801b, and the pull plate 601 is in transmission connection with the mounting seat 303 through the transmission mechanism 602. The transmission mechanism 602 comprises a first rack, a first gear, a transmission shaft, a second gear and a second rack, wherein the first rack is fixed on the mounting seat 303, the first rack is vertically arranged, the first gear meshed with the first rack is arranged on one side of the first rack, the transmission shaft is coaxially fixed on the first gear, the transmission shaft is fixedly connected on the mounting seat 303, the second gear is coaxially fixed on the transmission shaft, the second rack meshed with the second gear is arranged on one side of the second gear, the second rack is horizontally arranged, and the second rack is fixedly connected with the pull plate 601.

The push-pull module 6 realizes the linkage with the moving module 3 through the transmission mechanism 602, when the vertical lifter 302 on the moving module 3 drives the mounting seat 303 to lift, the first rack connected to the mounting seat 303 moves synchronously at the moment, the first gear is driven to rotate by the moving first rack, the second gear is driven to rotate by the first gear through the transmission shaft, the second rack is driven to move by the second gear, and the piston 5 is driven to move by the second rack through the pull plate 601; the linkage arrangement is such that when the vertical lifter 302 pushes the dresser 2 to approach the grinding wheel during dressing, the piston 5 is synchronously moved outwards, so that the dust collector 8 on the piston 5 is pushed out of the inner cylinder, and the dust collector 8 can be automatically unfolded.

Example 2

Referring to fig. 8-11, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the flushing module 7 includes an outer cylinder 701, a rotation mechanism, a liquid storage cavity 702, an elastic skin 705, a sealing cover 703, a three-way pipe 704, and a liquid storage device 7010, wherein the outer cylinder 701 is coaxially and rotatably mounted on the inner cylinder 4, the outer cylinder 701 is in transmission connection with the rotation mechanism, the rotation mechanism is used for driving the outer cylinder 701 to rotate, an annular liquid storage cavity 702 is coaxially provided in the outer cylinder 701, the sealing cover 703 is provided at the front end of the inner cylinder 4, the sealing cover 703 is fixedly connected with the outer cylinder 701, the three-way pipe 704 is mounted on the sealing cover 703, one port of the three-way pipe 704 is communicated with the inner cavity of the inner cylinder 4, the other two ports of the three-way pipe 704 are respectively communicated with the liquid storage cavity 702 and the liquid storage device 7010, and a one-way valve 706 is fixedly mounted at both ports; wherein, a plurality of outlet 7011 have been seted up to one side of keeping away from sealed lid 703 on the inner wall of interior barrel 4 lower part, and outlet 7011 all has waste water collecting device through the pipeline intercommunication, and this outlet 7011 is in order not to influence piston 5 suction flushing fluid, consequently sets up in one side of keeping away from sealed lid 703 for the in-process that piston 5 removed can not exceed outlet 7011, can be like this in the during operation of flushing module 7, with the waste water collection that the flushing produced and discharge. The liquid storage device 7010 includes a storage tank in which a flushing liquid is stored, and a water-guiding hose is inserted into the flushing liquid in the storage tank, and the water-guiding hose is connected to a corresponding port of the three-way pipe 704 through a rotary joint. The liquid storage device 7010 and the inner cylinder 4 are both secured to the vertical lift 302 housing by a support plate.

A plurality of first through holes 708 are formed in the inner wall of the liquid storage cavity 702 towards one side of the inner cylinder body 4 in a penetrating manner, a plurality of second through holes 709 are formed in the inner cylinder body 4 in a penetrating manner, and the first through holes 708 and the second through holes 709 are arranged in a one-to-one correspondence manner.

A plurality of through holes are formed in the inner wall of the liquid storage cavity 702 at the side far away from the inner cylinder 4 in a penetrating way, and an elastic skin 705 is covered and fixed on each through hole.

The rotating mechanism comprises a guide groove 707a, a rotating shaft 707b and a sliding block 707c, wherein the inner wall of the inner cylinder body 4 is provided with the guide groove 707a, the guide groove 707a is formed by two parts, one part close to the sealing cover 703 is spiral, the part far away from the sealing cover 703 is linear, the rotating shaft 707b coaxially arranged with the inner cylinder body 4 is rotatably arranged on the inner side end surface of the piston 5, the sliding block 707c is slidably arranged in the guide groove 707a, the sliding block 707c is fixedly connected with the rotating shaft 707b, the sliding block 707c is made of a magnet, the outer cylinder body 701 is made of a ferromagnetic material, and a magnetic attraction effect can be generated between the sliding block 707c and the outer cylinder body 701 through the inner cylinder body 4. The inner cylinder 4 is made of plastic so that the material does not hinder the magnetic attraction between the slider 707c and the outer cylinder 701, and when the outer cylinder 701 is not made of ferromagnetic material, another magnet may be mounted on the outer cylinder 701 at a position corresponding to the spiral portion guide groove 707a, and the magnet is long and is embedded and fixed on the inner wall of the outer cylinder 701. In use, the rotary mechanism is such that, as the piston 5 moves inwardly, the piston 5 pushes the slider 707c on the rotary shaft 707b to move synchronously along the guide groove 707a, and after the slider 707c enters the spiral portion from the straight portion on the guide groove 707a, the slider 707c is rotated under the guide of the spiral guide groove 707a portion, and the outer cylinder 701 is rotated synchronously by the magnetic attraction force between the slider 707c and the outer cylinder 701 until the first through hole 708 on the outer cylinder 701 is aligned with the second through hole 709. Furthermore, after the guide grooves 707a are formed in the inner cylinder 4, the corresponding pistons 5 are provided with protrusions protruding into the straight portions of the guide grooves 707a, so that the guide grooves 707a are blocked, and leakage is prevented when liquid is pumped into the inner cylinder 4.

The flushing module 7 differs from existing flushing devices in that the flushing module 7 utilizes the movement of the piston 5 to achieve automatic extraction and automatic flushing of the flushing liquid. When the piston 5 moves outwards, the one-way valve 706 on the port of the three-way pipe 704, which is close to the liquid storage device 7010, is opened, flushing liquid in the liquid storage device 7010 is sucked into the inner cylinder body 4, when the piston 5 moves inwards, the upper one-way valve 706 is closed, the one-way valve 706 on the port of the three-way pipe 704, which is connected with the liquid storage cavity 702, is opened, so that the flushing liquid sucked into the inner cylinder body 4 by the piston 5 is extruded into the liquid storage cavity 702 in the outer cylinder body 701, and at the moment, the flushing liquid is retained after entering into the liquid storage cavity 702 due to the fact that the first through hole 708 on the outer cylinder body 701 is not aligned with the second through hole 709 on the inner cylinder body 4, and as the flushing liquid enters more and more, the increased flushing liquid at the moment can expand the elastic skin 705, so that the flushing liquid in the liquid storage cavity 702 can keep a larger pressure state; when the flushing is needed, the rotating mechanism is started, the rotating mechanism drives the outer cylinder 701 to rotate until the first through hole 708 on the outer cylinder 701 is aligned with the second through hole 709 on the inner cylinder 4, and at the moment, flushing liquid in the liquid storage cavity 702 under higher pressure can be sprayed to the inner cylinder 4 through the first through hole 708 and the second through hole 709, so that the flushing can be automatically realized.

The overall workflow of the invention is as follows:

When the grinding wheel is required to be dressed, firstly, the horizontal moving module 301 is started to drive the whole grinding wheel dressing device to horizontally move to the position right above the grinding wheel, then the vertical lifter 302 is controlled to drive the dressing device 2 to descend until the dressing device 2 is contacted with the surface of the grinding wheel, friction is carried out between the rotating grinding wheel and the dressing device 2, so that dressing of the surface of the grinding wheel is realized, the horizontal moving module 301 can drive the dressing device 2 to do horizontal reciprocating motion in the dressing process, so that the dressing device 2 can sufficiently drew the surface of the grinding wheel, and after finishing dressing, the vertical lifter 302 and the horizontal moving module 301 are reset;

In the process of trimming, synchronously, when the vertical lifter 302 drives the trimmer 2 to descend, the piston 5 is synchronously driven to move outwards in the inner cylinder 4 through the transmission mechanism 602, and in the process of moving outwards, the piston 5 sucks flushing liquid into the inner cylinder 4 on one hand and pushes the dust collector 8 to extend out of the inner cylinder 4 on the other hand; then, in the dressing process of the dresser 2, the dust collector 8 extending out of the inner cylinder 4 can intercept and collect most of dust thrown by the grinding wheel;

When the vertical lifter 302 drives the trimmer 2 to ascend, the piston 5 is synchronously driven to move inwards in the inner cylinder 4 through the transmission mechanism 602, and during the process of moving inwards the piston 5, flushing fluid is extruded into the liquid storage cavity 702 in the outer cylinder 701 through the three-way pipe 704 on one hand, and the dust collector 8 is driven to retract into the inner cylinder 4 on the other hand; when the piston 5 gradually moves to the inner end of the inner cylinder 4, the rotating mechanism drives the outer cylinder 701 to rotate, so that the first through hole 708 on the outer cylinder 701 is aligned with the second through hole 709 on the inner cylinder 4, the liquid storage cavity 702 is communicated with the inner cavity of the inner cylinder 4, and liquid in the liquid storage cavity 702 is sprayed into the inner cylinder 4, so that the dust collector 8 is washed, dust intercepted by the surface of the dust collector 8 is washed away, and the dust collector 8 can work normally in the next use.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The precise surface grinding machine comprises a surface grinding machine main body (1), and is characterized in that a grinding wheel dressing device is arranged on a grinding carriage of the surface grinding machine main body (1), the grinding wheel dressing device comprises a dresser (2), a dust collecting system and a moving module (3), the dresser (2) and the dust collecting system are arranged on the moving module (3), and the dust collecting system is arranged corresponding to the dresser (2);

The dust collection system comprises an inner cylinder body (4), a flushing module (7), a piston (5) and a push-pull module (6), wherein the flushing module (7) is arranged on the inner cylinder body (4), the piston (5) is arranged in the inner cylinder body (4), a dust collector (8) is fixed on the outer side end face of the piston (5), the flushing module (7) is used for flushing the dust collector (8) in the inner cylinder body (4), and the push-pull module (6) is connected with the piston (5).

2. The precision surface grinding machine according to claim 1, wherein the dust collector (8) comprises an unfolding frame (801) and a filter screen sleeve (802), the unfolding frame (801) is fixedly connected to the piston (5), the filter screen sleeve (802) is sleeved on the unfolding frame (801), the filter screen sleeve (802) is fixedly connected with the unfolding frame (801), and a screen opening on one side, close to the piston (5), of the filter screen sleeve (802) is subjected to sealing treatment;

The unfolding frame (801) comprises a transverse shaft (801 a), two fixing rods (801 b) and a movable rod (801 c), wherein the transverse shaft (801 a) is horizontally arranged, the transverse shaft (801 a) is fixedly connected to a piston (5), two fixing rods (801 b) are fixedly connected to two ends of the transverse shaft (801 a), the movable rod (801 c) is arranged below the transverse shaft (801 a) between the fixing rods (801 b), and one end of the movable rod (801 c) close to the piston (5) is rotatably connected to the transverse shaft (801 a).

3. The precision surface grinder of claim 2, wherein the filter screen sleeve (802) has a felt layer applied to an inner surface thereof.

4. The precision surface grinding machine according to claim 1, wherein the moving module (3) comprises a horizontal moving module (301), a vertical lifter (302) and a mounting seat (303), the horizontal moving module (301) is fixedly connected to a grinding carriage, the vertical lifter (302) is fixed to the horizontal moving module (301), the mounting seat (303) is fixed to the vertical lifter (302), and the trimmer (2) is fixed to the mounting seat (303).

5. The precision surface grinding machine according to claim 1, wherein the flushing module (7) comprises an outer cylinder (701), a rotating mechanism, a liquid storage cavity (702), an elastic skin (705), a sealing cover (703), a three-way pipe (704) and a liquid storage device (7010), the outer cylinder (701) is coaxially and rotatably arranged on the inner cylinder (4), the outer cylinder (701) is in transmission connection with the rotating mechanism, the rotating mechanism is used for driving the outer cylinder (701) to rotate, an annular liquid storage cavity (702) is coaxially arranged in the outer cylinder (701), the front end of the inner cylinder (4) is provided with a sealing cover (703), the sealing cover (703) is fixedly connected with the outer cylinder (701), the sealing cover (703) is provided with a three-way pipe (704), one port of the three-way pipe (704) is communicated with an inner cavity of the inner cylinder (4), the other two ports of the three-way pipe (704) are respectively communicated with the liquid storage cavity (702) and the liquid storage device (7010), and a one-way valve (706) is fixedly arranged at each port;

A plurality of first through holes (708) are formed in the inner wall of the liquid storage cavity (702) towards one side of the inner cylinder body (4) in a penetrating mode, a plurality of second through holes (709) are formed in the inner cylinder body (4) in a penetrating mode, and the first through holes (708) and the second through holes (709) are arranged in a one-to-one correspondence mode.

6. The precision surface grinder according to claim 5, wherein a plurality of through holes are formed through the inner wall of the liquid storage cavity (702) at the side far away from the inner cylinder (4), and an elastic skin (705) is covered and fixed on each through hole.

7. The precision surface grinding machine according to claim 5, wherein the rotating mechanism comprises a guide groove (707 a), a rotating shaft (707 b) and a sliding block (707 c), the inner wall of the inner cylinder (4) is provided with the guide groove (707 a), the guide groove (707 a) is formed by two parts, one side part close to the sealing cover (703) is spiral, one side part far away from the sealing cover (703) is linear, the rotating shaft (707 b) coaxially arranged with the inner cylinder (4) is rotatably arranged on the inner side end surface of the piston (5), the sliding block (707 c) is slidably arranged in the guide groove (707 a), the sliding block (707 c) is fixedly connected with the rotating shaft (707 b), the sliding block (707 c) is made of a magnet, and the outer cylinder (701) is made of a ferromagnetic material.