阅读说明：本技术 一种可用于复杂零件表面打磨的设备 (Equipment that can be used to complicated part surface and polish ) 是由 郁海荣 于 2020-06-22 设计创作，主要内容包括：本发明公开了一种可用于复杂零件表面打磨的设备,包括支撑模块、震动模块和调节模块,支撑模块包括底板、中间环支撑柱、中间环、储存仓支撑柱、固定板、固定板支架和储存仓,所述底板的上方通过中间环支撑柱固定连接有中间环,中间环的上方通过储存仓支撑柱固定连接有储存仓,储存仓的上方设置有固定板,固定板与底板通过固定板支架固定连接。本发明通过设置震动模块,可以使磁粉就会在零件表面来回摩擦,从而使零件表面变得非常光滑,通过设置调节模块,通过控制磁力仓上表面与储存仓下表面之间的距离来控制储存仓内部磁粉的形状,从而来适应不同形状的零件,通过设置散热排,可以对本装置电感线圈处进行散热,从而防止本装置因过热而损坏。(The invention discloses equipment capable of being used for polishing the surface of a complex part, which comprises a supporting module, a vibrating module and an adjusting module, wherein the supporting module comprises a bottom plate, an intermediate ring supporting column, an intermediate ring, a storage bin supporting column, a fixed plate bracket and a storage bin, the intermediate ring is fixedly connected above the bottom plate through the intermediate ring supporting column, the storage bin is fixedly connected above the intermediate ring through the storage bin supporting column, the fixed plate is arranged above the storage bin, and the fixed plate is fixedly connected with the bottom plate through the fixed plate bracket. According to the invention, the vibration module is arranged, so that magnetic powder can rub on the surface of a part back and forth, the surface of the part becomes very smooth, the adjusting module is arranged, the shape of the magnetic powder in the storage bin is controlled by controlling the distance between the upper surface of the magnetic bin and the lower surface of the storage bin, so that the magnetic powder storage bin is suitable for parts in different shapes, and the heat dissipation device is arranged, so that the induction coil of the device can be dissipated, and the device is prevented from being damaged due to overheating.)

1. The equipment comprises a supporting module (1), a vibrating module (2) and an adjusting module (3), wherein the supporting module (1) comprises a bottom plate (101), a middle ring supporting column (102), a middle ring (103), a storage bin supporting column (104), a fixing plate (105), a fixing plate bracket (106) and a storage bin (107), the middle ring (103) is fixedly connected above the bottom plate (101) through the middle ring supporting column (102), the storage bin (107) is fixedly connected above the middle ring (103) through the storage bin supporting column (104), the fixing plate (105) is arranged above the storage bin (107), and the fixing plate (105) is fixedly connected with the bottom plate (101) through the fixing plate bracket (106);

the vibration module (2) comprises a vibration plate (201), a vibration block (202), a vibration shaft (203), an output vibration wheel (204), an input vibration wheel (205), a transmission belt (206), an input vibration wheel support (207), a vibration motor (208), a vibration motor support (209), a vibration driving gear (210), a vibration intermediate gear (211), a vibration linkage shaft (212), an auxiliary vibration input wheel support (213), an auxiliary vibration input wheel (214), an auxiliary transmission belt (215), an auxiliary output vibration wheel (216) and an output vibration wheel support (217), the bottom end of the storage bin support column (104) is fixedly connected with the vibration plate (201), the vibration block (202) is arranged below the vibration plate (201), the vibration block (202) is rotatably connected with the vibration plate (201) through the output vibration wheel support (217), the two sides of the vibration block (202) are fixedly connected with the output vibration wheel (204) and a plurality of output vibration wheels (216) through the vibration shaft (203), the side of output vibrations wheel (204) and vice output vibrations wheel (216) is rotated through drive belt (206) and auxiliary drive belt (215) respectively and is connected with input vibrations wheel (205) and vice vibrations input wheel (214), input vibrations wheel (205) and vice vibrations input wheel (214) are connected with vibrations board (201) through input vibrations wheel support (207) and vice vibrations input wheel support (213) rotation respectively, input vibrations wheel (205) and vice vibrations input wheel (214) are through vibrations universal driving shaft (212) fixed connection, the middle part fixedly connected with vibrations intermediate gear (211) of vibrations universal driving shaft (212), the surface gear connection of vibrations intermediate gear (211) has vibrations driving gear (210), the side of vibrations driving gear (210) is provided with shock dynamo (208), shock dynamo (208) and vibrations board (201) are through vibrations motor support (209) fixed connection, an output shaft of the vibration motor (208) is fixedly connected with a vibration driving gear (210);

the adjusting module (3) comprises a magnetic force bin (301), a flow isolating plate (302), an inductance coil (303), a heat dissipation motor (304), a heat dissipation fan (305), a heat dissipation fan bracket (306), a heat dissipation row (307), a heat dissipation motor plate (308), a flow pushing gear (309), a flow pushing gear bracket (310), a spiral column (311), a flow pushing driving gear (312), a transfusion pipeline (313), a pump body (314), a pump body bracket (315), an adjusting lead screw (316), a nut gear driving gear (317), a gear connecting plate (318), an adjusting driven gear (319), an adjusting driven gear bracket (320), an adjusting driving motor bracket (321), an adjusting driving motor (322), an adjusting driving gear (323), an adjusting anti-rotation rod (324), an adjusting nut gear (325), an adjusting anti-rotation rod bracket (326) and an adjusting nut gear limiting plate (327), a magnetic force bin (301) is arranged below the storage bin (107), a flow partition plate (302) is fixedly connected to the inner wall of the magnetic force bin (301), an inductance coil (303) is fixedly connected to the inner wall of the magnetic force bin (301), an adjusting screw rod (316) is fixedly connected to the lower surface of the magnetic force bin (301), an adjusting nut gear (325) is in threaded connection with the outer surface of the adjusting screw rod (316), a nut gear driving gear (317) is in gear connection with the outer surface of the adjusting nut gear (325) through a gear connecting plate (318), an adjusting driven gear (319) is fixedly connected to the lower side of the nut gear driving gear (317) through a connecting shaft, an adjusting driving gear (323) is in gear connection with the outer surface of the adjusting driven gear (319), an adjusting driving motor (322) is arranged below the adjusting driving gear (323), and an output shaft of the adjusting driving motor (, the outer surface of adjusting driving motor (322) has cup jointed adjusts driving motor support (321), it rotates through adjusting driven gear support (320) to be connected to adjust driven gear (319) and vibrations board (201), it rotates through adjusting driven gear support (320) to adjust driving motor support (321) and adjusts driven gear support (320) fixed connection, the last surface rotation of adjusting nut gear (325) is connected with adjusting nut gear limiting plate (327), the lower fixed surface of magnetic force storehouse (301) is connected with adjusts rotation prevention pole (324), adjusts the surface and vibrations board (201) of preventing rotation pole (324) and is through adjusting rotation prevention pole support (326) sliding connection, pump body support (315) fixedly connected with pump body (314) is passed through to the side of auxiliary output vibrations wheel (216), the inside of pump body (314) is rotated through plug flow gear support (310) and is connected with spiral post (311), the center rotation of plug flow gear support (310) is connected with plug flow gear (309), the flow pushing gear (309) is fixedly connected with the spiral column (311) through a connecting shaft, the outer surface gear of the flow pushing gear (309) is connected with a flow pushing driving gear (312), a heat dissipation motor (304) is arranged above the flow pushing driving gear (312), the output shaft of the heat dissipation motor (304) is fixedly connected with the flow pushing driving gear (312), the heat dissipation motor (304) is fixedly connected with the pump body (314) through a heat dissipation motor plate (308), the top of the pump body (314) is fixedly connected with the interior of the magnetic bin (301) through a transfusion pipeline (313), the side surface of the pump body (314) is fixedly connected with a heat dissipation bar (307), the interior of the heat dissipation bar (307) is communicated with the bottom of the pump body (314), the side surface of the heat dissipation row (307) is rotationally connected with a heat dissipation fan (305) through a heat dissipation fan bracket (306), the interior of the heat dissipation row (307) is communicated with the interior of the magnetic bin (301).

2. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the number of the intermediate ring support columns (102) is four, and four intermediate ring support columns (102) are circularly arrayed between the opposite faces of the intermediate ring (103) and the bottom plate (101).

3. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the number of the storage bin supporting columns (104) is four, and four storage bin supporting columns (104) are circularly arrayed on the upper surface of the middle ring (103).

4. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the auxiliary vibration input wheel support (213) is rotatably connected with the auxiliary vibration input wheel (214), the auxiliary vibration input wheel support (213) is fixedly connected with the vibration plate (201), the input vibration wheel support (207) is rotatably connected with the input vibration wheel (205), and the input vibration wheel support (207) is fixedly connected with the vibration plate (201).

5. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the top end of the adjusting driven gear support (320) is rotatably connected with an adjusting driven gear (319), and the bottom end of the adjusting driven gear support (320) is fixedly connected with the vibration plate (201).

6. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the number of the adjusting anti-rotation rods (324) is two, the outer surfaces of the two adjusting anti-rotation rods (324) are connected with an adjusting anti-rotation rod support (326) in a sliding mode, and the adjusting anti-rotation rod support (326) is fixedly connected with the vibration plate (201).

7. The apparatus for polishing the surface of a complex part according to claim 1, wherein: and a through hole is formed at the position where the upper surface of the heat dissipation motor plate (308) is interfered with the heat dissipation motor (304).

8. The apparatus for polishing the surface of a complex part according to claim 1, wherein: the magnetic bin (301), the pump body (314) and the heat dissipation row (307) are filled with cooling liquid.

Technical Field

The invention relates to the technical field of surface treatment, in particular to equipment for polishing the surface of a complex part.

Background

The surface treatment is a process method for artificially forming a surface layer with mechanical, physical and chemical properties different from those of a substrate on the surface of a substrate material. The purpose of the surface treatment is to meet the requirements of corrosion resistance, wear resistance, decoration or other special functions of the product. For metal castings, mechanical polishing, chemical treatment, surface heat treatment and surface spraying are commonly used as surface treatment methods, wherein the surface treatment is to clean, deburr, remove oil stains, remove oxide scales and the like on the surface of a workpiece, but the surface polishing of complex parts is only manual polishing at present, so that the polishing efficiency of the complex parts is very low.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides equipment for polishing the surface of a complex part, which solves the problem that the polishing efficiency of the complex part is very low because the surface of the complex part can be polished only by hand at present.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an equipment that can be used to complicated part surface and polish, is including supporting module, vibrations module and adjusting module, the support module include bottom plate, intermediate ring support column, intermediate ring, store storehouse support column, fixed plate support and store the storehouse, intermediate ring support column fixedly connected with intermediate ring is passed through to the top of bottom plate, and the storehouse is stored through storing storehouse support column fixedly connected with in the top of intermediate ring, and the top of storing the storehouse is provided with the fixed plate, and the fixed plate passes through fixed plate support fixed connection with the bottom plate.

The vibration module comprises a vibration plate, a vibration block, a vibration shaft, an output vibration wheel, an input vibration wheel, a transmission belt, an input vibration wheel support, a vibration motor support, a vibration driving gear, a vibration intermediate gear, a vibration linkage shaft, an auxiliary vibration input wheel support, an auxiliary vibration input wheel, an auxiliary transmission belt, an auxiliary output vibration wheel and an output vibration wheel support, the bottom end of the storage bin support column is fixedly connected with the vibration plate, the vibration block is arranged below the vibration plate and is rotatably connected with the vibration plate through the output vibration wheel support, the two sides of the vibration block are fixedly connected with the output vibration wheel and the auxiliary output vibration wheel through the vibration shaft, the side sides of the output vibration wheel and the auxiliary output vibration wheel are respectively rotatably connected with the input vibration wheel and the auxiliary vibration input wheel through the transmission belt and the auxiliary transmission belt, and the input vibration wheel and the auxiliary vibration plate are respectively rotatably connected with the input vibration wheel support and the auxiliary vibration input wheel support through the input vibration wheel support The input vibration wheel and the auxiliary vibration input wheel are fixedly connected through a vibration linkage shaft, a vibration intermediate gear is fixedly connected to the middle of the vibration linkage shaft, a vibration driving gear is connected to the outer surface of the vibration intermediate gear, a vibration motor is arranged on the side of the vibration driving gear, the vibration motor and the vibration plate are fixedly connected through a vibration motor support, and the output shaft of the vibration motor is fixedly connected with the vibration driving gear.

The adjusting module comprises a magnetic force bin, a flow isolating plate, an inductance coil, a heat radiating motor, a heat radiating fan support, a heat radiating bar, a heat radiating motor plate, a flow pushing gear support, a spiral column, a flow pushing driving gear, a transfusion pipeline, a pump body support, an adjusting screw rod, a nut gear driving gear, a gear connecting plate, an adjusting driven gear support, an adjusting driving motor, an adjusting driving gear, an adjusting anti-rotation rod, an adjusting nut gear, an adjusting anti-rotation rod support and an adjusting nut gear limiting plate, wherein the magnetic force bin is arranged below the storage bin, the flow isolating plate is fixedly connected to the inner wall of the magnetic force bin, the inductance coil is fixedly connected to the inner wall of the magnetic force bin, the adjusting screw rod is fixedly connected to the lower surface of, the outer surface of the adjusting nut gear is connected with a nut gear driving gear through a gear connecting plate gear, the lower part of the nut gear driving gear is fixedly connected with an adjusting driven gear through a connecting shaft, the outer surface of the adjusting driven gear is connected with an adjusting driving gear, an adjusting driving motor is arranged below the adjusting driving gear, the output shaft of the adjusting driving motor is fixedly connected with the adjusting driving gear, the outer surface of the adjusting driving motor is sleeved with an adjusting driving motor support, the adjusting driven gear is rotatably connected with a vibration plate through an adjusting driven gear support, the adjusting driving motor support is fixedly connected with the adjusting driven gear support, the upper surface of the adjusting nut gear is rotatably connected with an adjusting nut gear limiting plate, the lower surface of the magnetic force bin is fixedly connected with an adjusting anti-rotation rod, and the outer surface of the adjusting anti-rotation rod is slidably connected with the vibration plate, the side of the auxiliary output vibration wheel is fixedly connected with a pump body through a pump body bracket, the interior of the pump body is rotatably connected with a spiral column through a plug gear bracket, the center of the thrust gear bracket is rotationally connected with a thrust gear which is fixedly connected with the spiral column through a connecting shaft, the outer surface gear of the flow pushing gear is connected with a flow pushing driving gear, a heat dissipation motor is arranged above the flow pushing driving gear, an output shaft of the heat dissipation motor is fixedly connected with the flow pushing driving gear, the heat dissipation motor is fixedly connected with the pump body through a heat dissipation motor plate, the top of the pump body is fixedly connected with the interior of the magnetic bin through a transfusion pipeline, the side fixedly connected with heat dissipation of the pump body is arranged, and the inside and the pump body bottom intercommunication of heat dissipation row, the side of heat dissipation row is connected with the heat dissipation fan through heat dissipation fan support rotation, the inside intercommunication in the inside and the magnetic force storehouse of heat dissipation row.

Preferably, the intermediate ring support posts are four, and four intermediate ring support posts are in circular array between the opposite faces of the intermediate ring and the base plate.

Preferably, the number of the storage bin support columns is four, and four storage bin support columns are circularly arrayed on the upper surface of the intermediate ring.

Preferably, the auxiliary vibration input wheel support is connected with the auxiliary vibration input wheel in a rotating mode, the auxiliary vibration input wheel support is fixedly connected with the vibration plate, the input vibration wheel support is connected with the input vibration wheel in a rotating mode, and the input vibration wheel support is fixedly connected with the vibration plate.

Preferably, the top end of the adjusting driven gear support is rotatably connected with the adjusting driven gear, and the bottom end of the adjusting driven gear support is fixedly connected with the vibration plate.

Preferably, the number of the adjusting anti-rotation rods is two, the outer surfaces of the two adjusting anti-rotation rods are connected with the adjusting anti-rotation rod support in a sliding mode, and the adjusting anti-rotation rod support is fixedly connected with the vibration plate.

Preferably, the position where the upper surface of the heat dissipation motor plate interferes with the heat dissipation motor is provided with a through hole.

Preferably, the magnetic force bin, the pump body and the heat dissipation row are filled with cooling liquid.

Has the advantages that: compared with the prior art, the invention provides equipment for polishing the surface of a complex part, which has the following beneficial effects: according to the invention, the vibration module is arranged, so that magnetic powder can rub on the surface of a part back and forth, the surface of the part becomes very smooth, the adjusting module is arranged, the shape of the magnetic powder in the storage bin is controlled by controlling the distance between the upper surface of the magnetic bin and the lower surface of the storage bin, so that the magnetic powder storage bin is suitable for parts in different shapes, and the heat dissipation device is arranged, so that the induction coil of the device can be dissipated, and the device is prevented from being damaged due to overheating.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

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

Fig. 3 is a schematic structural diagram of a vibration module according to the present invention.

FIG. 4 is a schematic view of the present invention.

Fig. 5 is a schematic structural diagram of a regulating module of the present invention.

FIG. 6 is a schematic structural diagram of a conditioning module according to the present invention.

In the figure: 1-a support module; 101-a base plate; 102-intermediate ring support post; 103-intermediate ring; 104-storage bin support columns; 105-a fixation plate; 106-fixing plate holder; 107-storage bin; 2-a vibration module; 201-vibration plate; 202-a seismic mass; 203-vibration axis; 204-output vibration wheel; 205-input rumble wheel; 206-a conveyor belt; 207-input vibration wheel support; 208-a vibration motor; 209-vibration motor support; 210-a vibration drive gear; 211-vibrating intermediate gear; 212-vibration linkage shaft; 213-auxiliary vibration input wheel bracket; 214-secondary vibration input wheel; 215-secondary drive belt; 216-secondary output vibration wheel; 217-output vibration wheel support; 3-a regulating module; 301-a magnetic force bin; 302-flow partitioner; 303-an inductor coil; 304-a heat sink motor; 305-a heat dissipation fan; 306-radiator fan support; 307-heat dissipation row; 308-heat dissipation motor board; 309-a thrust gear; 310-a thrust gear support; 311-spiral column; 312-a thrust gear; 313-a transfusion tube; 314-a pump body; 315-pump body support; 316-adjusting the lead screw; 317-nut gear drive gear; 318-gear connecting plate; 319-adjusting the driven gear; 320-adjusting the driven gear bracket; 321-adjusting the driving motor bracket; 322-adjusting the drive motor; 323-adjusting the drive gear; 324-adjusting anti-rotation bar; 325-adjusting nut gear; 326-adjusting anti-rotation rod support; 327-adjusting nut gear limit plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the present invention provides a technical solution: the utility model provides an equipment that can be used to complicated part surface and polish, including supporting module 1, vibrations module 2 and adjusting module 3, supporting module 1 includes bottom plate 101, intermediate ring support column 102, intermediate ring 103, store storehouse support column 104, fixed plate 105, fixed plate support 106 and storage storehouse 107, intermediate ring 103 is connected with through intermediate ring support column 102 fixedly in the top of bottom plate 101, intermediate ring 103 is connected with through storing storehouse support column 104 fixedly in the top and is stored storehouse 107, the top of storing storehouse 107 is provided with fixed plate 105, fixed plate 105 passes through fixed plate support 106 fixed connection with bottom plate 101.

Referring to fig. 3, the vibration module 2 includes a vibration plate 201, a vibration block 202, a vibration shaft 203, an output vibration wheel 204, an input vibration wheel 205, a transmission belt 206, an input vibration wheel support 207, a vibration motor 208, a vibration motor support 209, a vibration driving gear 210, a vibration intermediate gear 211, a vibration linkage shaft 212, an auxiliary vibration input wheel support 213, an auxiliary vibration input wheel 214, an auxiliary transmission belt 215, an auxiliary output vibration wheel 216 and an output vibration wheel support 217, the bottom end of the storage bin support column 104 is fixedly connected with the vibration plate 201, the vibration block 202 is disposed below the vibration plate 201, the vibration block 202 and the vibration plate 201 are rotatably connected through the output vibration wheel support 217, two sides of the vibration block 202 are fixedly connected with the output vibration wheel 204 and the auxiliary output vibration wheel 216 through the vibration shaft 203, the sides of the output vibration wheel 204 and the auxiliary output vibration wheel 216 are rotatably connected with the input vibration wheel 205 and the auxiliary vibration input wheel 214 through the transmission belt 206 and the auxiliary transmission belt 215 respectively, the input vibration wheel 205, the auxiliary vibration input wheel 214 and the vibration plate 201 are rotatably connected through an input vibration wheel support 207 and an auxiliary vibration input wheel support 213 respectively, the input vibration wheel 205 and the auxiliary vibration input wheel 214 are fixedly connected through a vibration linkage shaft 212, the middle of the vibration linkage shaft 212 is fixedly connected with a vibration intermediate gear 211, the outer surface of the vibration intermediate gear 211 is in gear connection with a vibration driving gear 210, a vibration motor 208 is arranged on the side of the vibration driving gear 210, the vibration motor 208 and the vibration plate 201 are fixedly connected through a vibration motor support 209, and the output shaft of the vibration motor 208 is fixedly connected with the vibration driving gear 210.

Referring to fig. 5 and 6, the adjusting module 3 includes a magnetic chamber 301, a flow separation plate 302, an inductance coil 303, a heat dissipation motor 304, a heat dissipation fan 305, a heat dissipation fan support 306, a heat dissipation row 307, a heat dissipation motor plate 308, a flow pushing gear 309, a flow pushing gear support 310, a screw column 311, a flow pushing driving gear 312, a fluid delivery pipe 313, a pump body 314, a pump body support 315, an adjusting screw 316, a nut gear driving gear 317, a gear connection plate 318, an adjusting driven gear 319, an adjusting driven gear support 320, an adjusting driving motor support 321, an adjusting driving motor 322, an adjusting driving gear 323, an adjusting rotation preventing rod 324, an adjusting nut gear 325, an adjusting rotation preventing rod support 326 and an adjusting nut gear limiting plate 327, the magnetic chamber 301 is disposed below the storage chamber 107, the flow separation plate 302 is fixedly connected to the inner wall of the magnetic chamber 301, the inductance coil 303 is fixedly connected to the inner wall of, the lower surface of the magnetic bin 301 is fixedly connected with an adjusting screw 316, the outer surface of the adjusting screw 316 is in threaded connection with an adjusting nut gear 325, the outer surface of the adjusting nut gear 325 is in gear connection with a nut gear driving gear 317 through a gear connecting plate 318, the lower part of the nut gear driving gear 317 is fixedly connected with an adjusting driven gear 319 through a connecting shaft, the outer surface of the adjusting driven gear 319 is in gear connection with an adjusting driving gear 323, the lower part of the adjusting driving gear 323 is provided with an adjusting driving motor 322, the output shaft of the adjusting driving motor 322 is fixedly connected with the adjusting driving gear 323, the outer surface of the adjusting driving motor 322 is sleeved with an adjusting driving motor bracket 321, the adjusting driven gear 319 is in rotary connection with the vibration plate 201 through an adjusting driven gear bracket 320, the adjusting driving motor bracket 321 is fixedly connected with the adjusting driven gear bracket 320, and the, an adjusting rotation-preventing rod 324 is fixedly connected to the lower surface of the magnetic bin 301, the outer surface of the adjusting rotation-preventing rod 324 is slidably connected with the vibration plate 201 through an adjusting rotation-preventing rod support 326, the side of the secondary output vibration wheel 216 is fixedly connected with a pump body 314 through a pump body support 315, the inside of the pump body 314 is rotatably connected with a screw post 311 through a flow pushing gear support 310, the center of the flow pushing gear support 310 is rotatably connected with a flow pushing gear 309, the flow pushing gear 309 is fixedly connected with the screw post 311 through a connecting shaft, the outer surface gear of the flow pushing gear 309 is connected with a flow pushing driving gear 312, a heat dissipation motor 304 is arranged above the flow pushing driving gear 312, the output shaft of the heat dissipation motor 304 is fixedly connected with the flow pushing driving gear 312, the heat dissipation motor 304 is fixedly connected with the pump body 314 through a heat dissipation motor plate 308, the top of the pump body 314 is fixedly connected with the inside of, the interior of the heat dissipation row 307 is communicated with the bottom of the pump body 314, the side surface of the heat dissipation row 307 is rotatably connected with a heat dissipation fan 305 through a heat dissipation fan bracket 306, and the interior of the heat dissipation row 307 is communicated with the interior of the magnetic bin 301.

When the heat dissipation fan 305 is started, when the cooling liquid in the magnetic bin 301 is transferred to the heat dissipation row 307, the heat dissipation fan 305 blows air around the heat dissipation row 307, so as to achieve the purpose of heat dissipation, according to the shape or size of the part, the adjusting driving motor 322 is started, the output shaft of the adjusting driving motor 322 drives the adjusting driving gear 323 to rotate, the adjusting driving gear 323 drives the adjusting driven gear 319 to rotate, the adjusting driven gear 319 rotates to drive the nut gear driving gear 317 to rotate, the nut gear driving gear 317 rotates to bring the adjusting nut gear 325 to rotate, the adjusting nut gear 325 rotates to enable the adjusting screw 316 to drive the magnetic bin 301 to vertically move, the shape of magnetic powder in the storage bin 107 is controlled by controlling the distance between the upper surface of the magnetic bin 301 and the lower surface of the storage bin 107, so that the function of rubbing the surface of a part with the magnetic powder is achieved, the vibrating block 202 rotates and vibrates by starting the vibrating motor 208, the magnetic powder rubs back and forth on the surface of the part, and the surface of the part becomes very smooth.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.