CN219444592U - Hydraulic pump inner wall grinding machanism - Google Patents

Abstract

The utility model relates to the technical field of polishing mechanisms, and discloses a polishing mechanism for an inner wall of a hydraulic pump, which comprises a bottom frame, wherein a placing component, a fixing component and a control component are respectively arranged on the surface of the top of the bottom frame, and the fixing components are respectively arranged on two sides of the placing component. According to the utility model, through the cooperation setting of the placement component and the fixing component, a person can enable the hydraulic pump to be obliquely downwards fixed on the top surface of the placement platform, the inclination of the pump opening of the hydraulic pump is kept downwards, the discharge of the broken powder during polishing is facilitated, the accumulation of the broken powder on the inner wall of the hydraulic pump is reduced, through the setting of the spraying component, the atomizing nozzle enters the inner wall of the hydraulic pump along with the polishing column, the temperature of high Wen Sui powder generated by friction during polishing of the inner wall of the hydraulic pump can be reduced by the sprayed spray, the probability that the high Wen Sui powder adheres to the inner wall of the hydraulic pump again due to the high temperature of the high 5225 powder is reduced, and the accumulation of the polished broken powder on the inner wall of the hydraulic pump is reduced.

Description

Hydraulic pump inner wall grinding machanism

Technical Field

The utility model relates to the technical field of polishing mechanisms, in particular to a polishing mechanism for the inner wall of a hydraulic pump.

Background

The hydraulic pump is a power element of a hydraulic system, is driven by an engine or a motor, sucks oil from a hydraulic oil tank, forms pressure oil to be discharged and sent to an executing element, and the inner wall of a pump body of the hydraulic pump is required to be polished due to high processing precision requirement.

The existing hydraulic pump inner wall polishing mechanism is used for polishing the inner wall of a hydraulic pump, scraps generated by polishing are easy to accumulate in the hydraulic pump and are difficult to clean and discharge because a pump opening is upward, meanwhile, most of materials of the hydraulic pump are metal materials, and polishing is performed on the inner wall of the hydraulic pump, conventional auxiliary polishing is inconvenient to use, high-temperature and high-speed scraps can be generated during polishing of the inner wall of the hydraulic pump, the scraps can collide on the surface of the inner wall of the hydraulic pump, and the scraps with high speed and high temperature can scratch and adhere to the surface of the inner wall of the hydraulic pump, so that loss is caused.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a polishing mechanism for the inner wall of a hydraulic pump, which solves the problems of pump opening orientation, high-temperature and high-speed powder accumulation and scratch.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a hydraulic pump inner wall grinding machanism, includes the chassis, the surface at chassis top is equipped with respectively and puts subassembly, fixed subassembly and control assembly, the both sides of putting the subassembly all are equipped with fixed subassembly, just put the both sides of subassembly all with set for the distance between the fixed subassembly, the front of putting the subassembly is equipped with control assembly, just put the front of subassembly with set for the distance between the control assembly, one side at control assembly top is equipped with the subassembly of polishing, the opposite side at control assembly top is equipped with spray assembly, the positive bottom of putting the subassembly is equipped with the recovery pond.

Optionally, put the subassembly including putting platform, cardboard, threaded rod and nut, put the platform weld in the surface at chassis top, the front of putting the platform is equipped with the cardboard, it runs through the thread groove of seting up with positive same horizontal line of cardboard to put the platform and be equipped with the threaded rod, the surface of threaded rod is equipped with the nut.

Optionally, fixed subassembly is including liter pole A, lead screw A, fixed plate and handrail, liter pole A set up in the surface at chassis top, the top of liter pole A side is run through and is equipped with lead screw A, one side of lead screw A is equipped with the fixed plate, the fixed plate is located one side of putting the platform.

Optionally, the control assembly is including liter pole B that contracts, change machine, mount, fixed slider and lead screw B, liter pole B through the base set up in the surface at chassis top, the top of liter pole B is equipped with changes the machine, the top of changing the machine is equipped with the mount, the surface of mount is equipped with fixed slider, the same horizontal line of mount and fixed slider side all runs through and is equipped with lead screw B.

Optionally, the top surface of the placing platform has a set inclination angle, the direction of the lifting rod B has a set inclination angle, and the inclination angle of the lifting rod B and the placing platform are kept horizontally consistent.

Optionally, the subassembly of polishing is including polishing motor, post and the baffle of polishing, the motor of polishing set up in one side at fixed slider top, the top of motor of polishing is equipped with the post of polishing, the surface of post of polishing is equipped with the baffle.

Optionally, the spray assembly is including spray lance, atomizer, water storage tank, from inhaling water pump and bellows, the spray lance set up in the opposite side at fixed slider top, the top of spray lance is equipped with atomizer, the water storage tank set up in the one corner on chassis top surface, the inside of water storage tank is equipped with from inhaling the water pump, from inhaling the inside of water pump and being equipped with the bellows, one side of bellows is connected with the spray lance through the top that runs through the water storage tank.

Optionally, the recovery pond set up in the positive bottom of cardboard, the top in recovery pond towards put platform inclination's bottom.

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

1. the utility model has reasonable structure, the hydraulic pump to be polished is placed on the surface with an inclined plane at the top of the placing platform, the screw rod is controlled to enter the depth of the placing platform by rotating the screw cap, the distance between the placing platform and the clamping plate is adjusted, the distance is adjusted to be that the clamping plate can clamp the edge of a pump opening at the polishing position of the hydraulic pump, two lifting rods A at two sides of the hydraulic pump are adjusted, the fixing plate at the top of the hydraulic pump is driven to a proper height by rotating the handrail, the screw rod A drives the fixing plate to abut against the side surface of the hydraulic pump to fix, the other side repeats the operation, at the moment, both sides of the hydraulic pump are abutted and fixed by the fixing plate, the inclination angle of the hydraulic pump is consistent with the inclined plane at the top of the placing platform, the pump opening at the polishing position of the hydraulic pump is inclined downwards, the depth of a polishing column at the top of the hydraulic pump is adjusted by the lifting rods B, the rotation direction of the polishing column is controlled by the rotating machine, the left and right positions of the fixed sliding blocks on the fixing frame are controlled by the adjusting screw rod B, so that the left and right positions of the polishing column are driven to be adjusted, the polishing motor is started, the polishing column is enabled to polish on the inner wall of the hydraulic pump, at the moment, the dust splashed to the polishing motor during polishing is blocked by the baffle, the phenomenon that the motor is locked due to the fact that the dust is blocked during polishing is reduced, the polishing column enters the inner wall of the hydraulic pump, the spray boom also enters the inner wall of the hydraulic pump when entering the inner wall of the hydraulic pump, the self-priming pump is started, water in the water storage tank is pumped by the self-priming pump to supply water to the spray boom through the corrugated pipe, the atomizing nozzle is enabled to spray humidification and cooling on the inner wall of the hydraulic pump, so that the inside of the hydraulic pump is enabled to diffuse water mist, the water mist firstly collides on the water mist due to the large area and the temperature difference relative to the dust, the sputtered dust firstly collides on the inner wall of the hydraulic pump after the speed is slowed down by the water mist, the temperature that causes the garrulous end because friction when the hydraulic pump inner wall polishes is higher, and water smoke and garrulous end have the temperature difference, and high temperature can run off to low temperature, has reduced the temperature of garrulous end, and unnecessary water can take garrulous end to flow out the inside of hydraulic pump along the decurrent inclination of hydraulic pump inner wall, is caught by the recovery pond, reduces the garrulous end of polishing and piles up at the hydraulic pump inner wall.

2. According to the hydraulic pump, through the cooperation of the placement component and the fixing component, a person can enable the hydraulic pump to be fixed on the top surface of the placement platform in an inclined downward mode, the inclination of a pump opening of the hydraulic pump is kept downward, the discharge of the broken pieces during polishing is facilitated, and the accumulation of the broken pieces on the inner wall of the hydraulic pump is reduced.

3. According to the utility model, through the arrangement of the spray assembly, the atomizing spray head enters the inner wall of the hydraulic pump along with the polishing column, the sprayed spray can reduce the temperature of high Wen Sui powder generated by friction when the inner wall of the hydraulic pump is polished, reduce the probability that the high Wen Sui powder is adhered to the inner wall of the hydraulic pump again due to the high temperature, provide lubrication for polishing, meanwhile, the diffused spray can reduce the splashing speed of the powder, buffer and reduce the kinetic energy of the broken rice impinging on the inner wall of the hydraulic pump, protect the inner wall of the hydraulic pump to a certain extent, and the redundant water can flow out of the hydraulic pump along the downward inclined angle of the broken powder along with the inner wall of the hydraulic pump and be caught by the recovery pond, so that the accumulation of the polished broken powder on the inner wall of the hydraulic pump is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a mechanism for polishing the inner wall of a hydraulic pump according to the present utility model;

FIG. 2 is a cross-sectional view of a hydraulic pump inner wall grinding mechanism placement assembly of the present utility model;

FIG. 3 is a schematic structural view of a hydraulic pump inner wall grinding mechanism securing assembly according to the present utility model;

FIG. 4 is a schematic diagram of the control assembly of the hydraulic pump inner wall polishing mechanism of the present utility model;

FIG. 5 is a cross-sectional view of a spray assembly of the hydraulic pump inner wall grinding mechanism of the present utility model.

In the figure: 1. a chassis; 2. placing the components; 201. placing a platform; 202. a clamping plate; 203. a threaded rod; 204. a screw cap; 3. a fixing assembly; 301. a lifting rod A; 302. a screw rod A; 303. a fixing plate; 304. an armrest; 4. a control assembly; 401. a lifting rod B; 402. turning; 403. a fixing frame; 404. a fixed slide block; 405. a screw rod B; 5. a polishing assembly; 501. polishing a motor; 502. polishing the column; 503. a baffle; 6. a spray assembly; 601. a spray bar; 602. an atomizing nozzle; 603. a water storage tank; 604. self-priming water pump; 605. a bellows; 7. and (5) a recovery pool.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to a polishing mechanism for the inner wall of a hydraulic pump shown in fig. 1-3, comprising a bottom frame 1, the surface at the top of the bottom frame 1 is respectively provided with a placing component 2, a fixing component 3 and a control component 4, both sides of the placing component 2 are respectively provided with the fixing component 3, a set distance is reserved between both sides of the placing component 2 and the fixing component 3, the front of the placing component 2 is provided with the control component 4, a set distance is reserved between the front of the placing component 2 and the control component 4, one side of the top of the control component 4 is provided with a polishing component 5, the other side of the top of the control component 4 is provided with a spraying component 6, the bottom of the front of the placing component 2 is provided with a recovery pool 7, the placing component 2 comprises a placing platform 201, a clamping plate 202, a threaded rod 203 and a nut 204, the threaded rod 204 penetrates through the placing platform 201 and the clamping plate 202, the placing platform 201 is welded on the surface at the top of the bottom frame 1, the front of the placing platform 201 is provided with the clamping plate 202, the same horizontal line of the placing platform 201 and the clamping plate 202 is penetrated with the threaded rod 203 through the set threaded rod 203, the surface of the threaded rod 203 is provided with the nut 204, the fixing component 3 comprises a telescopic rod A301, a lead screw 302, a fixing plate 303 and a 304 are arranged on one side of the telescopic rod 302, the telescopic rod is arranged on the side of the lifting rod A, the lifting rod 302 is provided with a fixed plate 302, and the side of the lifting rod 302 is arranged on the side of the lifting rod A, and the side of the lifting rod 302 is provided with a fixed plate 303 is arranged on the side of the lifting rod 302.

As a preferred implementation manner in this embodiment, as shown in fig. 2 and 3, a hydraulic pump to be polished is placed on a surface with an inclined plane at the top of the placement platform 201, the screw rod 203 is controlled to enter the depth of the placement platform 201 by rotating the nut 204, so that the distance between the placement platform 201 and the clamping plate 202 is adjusted, the distance is adjusted to be the distance that the clamping plate 202 can clamp the edge of a pump port at the polishing position of the hydraulic pump, two lifting rods a301 at two sides of the hydraulic pump are adjusted, a fixing plate 303 at the top of the hydraulic pump is driven to a proper height, a handrail 304 is rotated, a screw rod a302 drives the fixing plate 303 to abut against the side surface of the hydraulic pump to fix, and the other side repeats the operation, at this time, both sides of the hydraulic pump are abutted and fixed by the fixing plate 303, the inclination angle of the hydraulic pump is consistent with the inclined plane at the top of the placement platform 201, the pump port at the polishing position of the hydraulic pump is inclined downward, and the inclined downward pump port of the hydraulic pump is fixed on the top surface of the placement platform 201 by the cooperation of the placement assembly 2 and the fixing assembly 3, so that personnel can make the hydraulic pump inclined downward fix the pump port at the top surface, keep the inclination of the pump port downward, and the waste during polishing, and reduce accumulation of the waste in the hydraulic pump.

In this embodiment, as shown in fig. 4, the control assembly 4 includes a lifting rod B401, a rotating machine 402, a fixing frame 403, a fixed slider 404 and a screw rod B405, the lifting rod B401 is disposed on the top surface of the chassis 1 through a base, the rotating machine 402 is disposed on the top of the lifting rod B401, the fixing frame 403 is disposed on the top of the rotating machine 402, the fixed slider 404 is disposed on the surface of the fixing frame 403, the screw rod B405 is disposed on the same horizontal line of the side surfaces of the fixing frame 403 and the fixed slider 404, the top surface of the placement platform 201 has a set inclination angle, the direction of the lifting rod B401 has a set inclination angle, the inclination angles of the lifting rod B401 and the placement platform 201 keep the same level, the polishing assembly 5 includes a polishing motor 501, a polishing post 502 and a baffle 503, the polishing motor 501 is disposed on one side of the top of the fixed slider 404, the top of motor 501 is equipped with post 502 of polishing, the surface of post 502 of polishing is equipped with baffle 503, spray assembly 6 is including spray lance 601, atomizer 602, water storage box 603, from inhaling water pump 604 and bellows 605, the spray lance 601 sets up in the opposite side at fixed slider 404 top, the top of spray lance 601 is equipped with atomizer 602, water storage box 603 sets up in the one corner on chassis 1 top surface, the inside of water storage box 603 is equipped with from inhaling water pump 604, from inhaling the inside of water pump 604 is equipped with bellows 605, the one side of bellows 605 is connected with spray lance 601 through the top that runs through water storage box 603, recovery pond 7 sets up in the positive bottom of cardboard 202, the top of recovery pond 7 is towards the bottom of putting platform 201 inclination, set for the distance and be suitable length, convenient to use can.

As an implementation manner in this embodiment, as shown in fig. 4 and 5, the depth of the top polishing post 502 entering the inner wall of the hydraulic pump is adjusted by the lifting rod B401, the rotation direction of the polishing post 502 is controlled by the rotating machine 402, the left and right positions of the fixed sliding block 404 on the fixing frame 403 are controlled by the adjusting screw B, so as to drive the left and right position adjustment of the polishing post 502, the polishing motor 501 is started, the polishing post 502 polishes on the inner wall of the hydraulic pump, at the moment, the dust splashed on the polishing motor 501 during polishing is blocked by the baffle 503, the locking of the polishing motor 501 caused by the dust is reduced, the spray rod 601 enters the inner wall of the hydraulic pump while the polishing post 502 enters the inner wall of the hydraulic pump, the self-priming water pump 604 is started, the water in the water storage tank 603 is pumped by the self-priming water pump 604 to supply the spray rod 601 through the corrugated pipe 605, so that the atomization spray nozzle 602 performs spray humidification and cooling on the inner wall of the hydraulic pump, the inside of the hydraulic pump is enabled to be diffused with water mist, the water mist can firstly collide with the water mist due to the large area of the water mist and the temperature difference relative to the powder, the splashed powder is impacted on the inner wall of the hydraulic pump after the speed of the water mist is slowed down, meanwhile, the temperature of the powder is higher due to friction when the inner wall of the hydraulic pump is polished, the water mist and the powder have the temperature difference, the high temperature can be lost to low temperature, the temperature of the powder is reduced, the redundant water can flow out of the inside of the hydraulic pump along with the downward inclined angle of the inner wall of the hydraulic pump along with the powder, the redundant water is caught by the recovery pond 7, the accumulation of the polished powder on the inner wall of the hydraulic pump is reduced, the atomized spray head 602 enters the inner wall of the hydraulic pump along with the polishing column 502 through the arrangement of the spray component 6, the sprayed spray can reduce the temperature of the powder Wen Sui generated due to friction when the inner wall of the hydraulic pump is polished, the probability that the high Wen Sui powder is adhered to the inner wall of the hydraulic pump again due to high temperature is reduced, lubrication is provided during polishing, meanwhile, the splashing speed of the powder can be reduced by diffuse spraying, the kinetic energy of the broken rice impinging on the inner wall of the hydraulic pump is reduced by buffering, the inner wall of the hydraulic pump is protected to a certain extent, the excessive water can flow out of the hydraulic pump along the downward inclination angle of the inner wall of the hydraulic pump along with the powder, the powder is caught by the recovery tank 7, and the accumulation of the polished powder on the inner wall of the hydraulic pump is reduced.

The working principle of the utility model is as follows: placing a hydraulic pump to be polished on the surface with an inclined surface at the top of a placing platform 201, controlling the depth of a threaded rod 203 entering the placing platform 201 by rotating a nut 204, adjusting the distance between the placing platform 201 and a clamping plate 202, adjusting the distance to be the distance that the clamping plate 202 can clamp the edge of a pump port at the polishing position of the hydraulic pump, adjusting two lifting rods A301 at two sides of the hydraulic pump to drive a fixed plate 303 at the top to a proper height, rotating a handrail 304, driving the fixed plate 303 to abut against the side surface of the hydraulic pump by a screw rod A302, repeating the operation at the other side, abutting and fixing both sides of the hydraulic pump by the fixed plate 303, keeping the inclined angle consistent with the inclined surface at the top of the placing platform 201, adjusting the depth of a pump port at the polishing position of the hydraulic pump to enter the inner wall of the hydraulic pump by a lifting rod B401, controlling the rotating direction of the polishing column 502 by a rotating machine 402, the left and right positions of the fixed sliding blocks 404 on the fixed frame 403 are controlled by the adjusting screw rod B, so that the left and right positions of the polishing column 502 are driven to be adjusted, the polishing motor 501 is started, the polishing column 502 is polished on the inner wall of the hydraulic pump, at the moment, the dust splashed to the polishing motor 501 during polishing is blocked by the baffle 503, the situation that the machine is locked due to the clamping of the dust during polishing by the polishing motor 501 is reduced, the polishing column 502 enters the inner wall of the hydraulic pump, the spraying rod 601 also enters the inner wall of the hydraulic pump, the self-priming pump 604 is started, water in the water storage tank 603 is pumped by the self-priming pump 604 to supply water to the spraying rod 601, so that the atomizing nozzle 602 sprays and humidifies on the inner wall of the hydraulic pump, the water mist is diffused in the inner part of the hydraulic pump due to the large area and the temperature difference relative to the dust, the sputtered dust can be firstly impacted on the water mist, the water mist slows down the speed before striking on the inner wall of the hydraulic pump again, simultaneously, because the friction leads to the temperature of garrulous end higher when the hydraulic pump inner wall polishes, water mist and garrulous end have the temperature difference, and high temperature can run off to low temperature, has reduced the temperature of garrulous end, and unnecessary water can take garrulous end to flow out the inside of hydraulic pump along the decurrent inclination of hydraulic pump inner wall, is caught by recovery pond 7, reduces the garrulous end of polishing and piles up at the hydraulic pump inner wall. Through the cooperation setting of putting subassembly 2 and fixed subassembly 3, personnel can make the downward top surface at putting platform 201 of hydraulic pump slope, keep the slope of hydraulic pump mouth downward, the garrulous exhaust of when being convenient for polish reduces garrulous end and piles up at the hydraulic pump inner wall.

Through the setting of spray assembly 6, atomizer 602 gets into the inner wall of hydraulic pump along with post 502 of polishing, the spun spraying can reduce the high Wen Sui end temperature that produces because of the friction when the hydraulic pump inner wall polishes, reduce high Wen Sui end because its high temperature and the probability of adhesion at the hydraulic pump inner wall again, also provide lubrication for polishing, the splash speed of garrulous end can be reduced to the spraying that simultaneously smoothes, the buffering reduces the kinetic energy of garrulous rice striking at the hydraulic pump inner wall, protect the inner wall of hydraulic pump to a certain extent, unnecessary water can take garrulous end to flow out the inside of hydraulic pump along the decurrent inclination of hydraulic pump inner wall, be caught by recovery pond 7, reduce the garrulous end of polishing and pile up at the hydraulic pump inner wall.

The electrical components are all connected with an external main controller and 220V mains supply, and the main controller can be conventional known equipment for controlling a computer and the like.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, it will be apparent to those skilled in the art that the foregoing description of the preferred embodiments of the present utility model can be modified or equivalents can be substituted for some of the features thereof, and any modification, equivalent substitution, improvement or the like that is within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (8)

1. The utility model provides a hydraulic pump inner wall grinding machanism, includes chassis (1), its characterized in that: the utility model discloses a novel polishing device for the surface of chassis, including chassis (1), subassembly (2), fixed subassembly (3) and control assembly (4) are put to the surface at chassis (1) top, the both sides of putting subassembly (2) all are equipped with fixed subassembly (3), just put the both sides of subassembly (2) all with set for the distance between fixed subassembly (3), the front of putting subassembly (2) is equipped with control assembly (4), just put the front of subassembly (2) with set for the distance between control assembly (4), one side at control assembly (4) top is equipped with polishing subassembly (5), the opposite side at control assembly (4) top is equipped with spray subassembly (6), the positive bottom of putting subassembly (2) is equipped with recovery pond (7).

2. The hydraulic pump inner wall grinding mechanism of claim 1, wherein: put subassembly (2) including putting platform (201), cardboard (202), threaded rod (203) and nut (204), put platform (201) weld in the surface at chassis (1) top, the front of putting platform (201) is equipped with cardboard (202), the positive same horizontal line of putting platform (201) and cardboard (202) runs through the screw groove of seting up and is equipped with threaded rod (203), the surface of threaded rod (203) is equipped with nut (204).

3. The hydraulic pump inner wall grinding mechanism of claim 2, wherein: the fixing assembly (3) comprises a lifting rod A (301), a screw rod A (302), a fixing plate (303) and an armrest (304), wherein the lifting rod A (301) is arranged on the surface of the top of the bottom frame (1), the screw rod A (302) is arranged at the top of the side face of the lifting rod A (301) in a penetrating mode, the fixing plate (303) is arranged on one side of the screw rod A (302), the fixing plate (303) is arranged on one side of the placing platform (201), and the armrest (304) is arranged on the other side of the screw rod A (302).

4. The hydraulic pump inner wall grinding mechanism of claim 2, wherein: the control assembly (4) comprises a lifting rod B (401), a rotating machine (402), a fixing frame (403), a fixing sliding block (404) and a screw rod B (405), wherein the lifting rod B (401) is arranged on the surface of the top of the bottom frame (1) through a base, the rotating machine (402) is arranged at the top of the lifting rod B (401), the fixing frame (403) is arranged at the top of the rotating machine (402), the fixing sliding block (404) is arranged on the surface of the fixing frame (403), and the screw rod B (405) is arranged on the same horizontal line of the side surfaces of the fixing frame (403) and the fixing sliding block (404) in a penetrating mode.

5. The hydraulic pump inner wall grinding mechanism of claim 4, wherein: the top surface of the placement platform (201) is provided with a set inclination angle, the direction of the lifting rod B (401) is provided with a set inclination angle, and the inclination angle of the lifting rod B (401) is kept horizontally consistent with that of the placement platform (201).

6. The hydraulic pump inner wall grinding mechanism of claim 5, wherein: the polishing assembly (5) comprises a polishing motor (501), a polishing column (502) and a baffle (503), wherein the polishing motor (501) is arranged on one side of the top of the fixed sliding block (404), the polishing column (502) is arranged at the top of the polishing motor (501), and the baffle (503) is arranged on the surface of the polishing column (502).

7. The hydraulic pump inner wall grinding mechanism of claim 5, wherein: spray subassembly (6) are including spray lance (601), atomizer (602), water storage tank (603), from inhaling water pump (604) and bellows (605), spray lance (601) set up in the opposite side at fixed slider (404) top, the top of spray lance (601) is equipped with atomizer (602), water storage tank (603) set up in one corner of chassis (1) top surface, the inside of water storage tank (603) is equipped with from inhaling water pump (604), the inside of inhaling water pump (604) is equipped with bellows (605), one side of bellows (605) is connected with spray lance (601) through the top that runs through water storage tank (603).

8. The hydraulic pump inner wall grinding mechanism of claim 2, wherein: the recycling pool (7) is arranged at the bottom of the front face of the clamping plate (202), and the top of the recycling pool (7) faces the bottom of the inclined angle of the placing platform (201).