CN218026445U - Ultrasonic wave plating part cleaning equipment - Google Patents

Abstract

The application relates to the field of ultrasonic cleaning equipment, and discloses an ultrasonic wave piece cleaning equipment that plates, shake board and ultrasonic wave including washing tank, settling tank, biography, the washing tank with settling tank sets up side by side, settling tank passes through pass shake the board with the washing tank is separated by, the ultrasonic wave shake the vertical setting of board in settling tank, be provided with in the washing tank and plate the installing zone, it is used for the installation to plate the piece to plate the installing zone, the radiating surface orientation that the ultrasonic wave shakes the board plate it sets up to plate the installing zone. This application can improve and plate the problem that the ultrasonic device was damaged to the cleaner in the residual plating solution that the piece upper clean was washed out and the washing tank.

Description

Ultrasonic wave plating part cleaning equipment

Technical Field

The application relates to the field of cleaning tanks, in particular to ultrasonic plated part cleaning equipment.

Background

The electroplating is to plate a layer of other metal on the surface of a plated part by using an electrolysis principle, the chemical plating is to plate a layer of other metal on the surface of the plated part by using an oxidation-reduction principle, the electroplating and the chemical plating both need to put the plated part into a plating solution containing metal ions to complete the operation, after the plated part is taken out of a tank after the operation is completed, a large amount of plating solution is generally adhered to the surface of the plated part, and the plating solution generally has certain corrosivity, so that the plated part which is subjected to the electroplating or the chemical plating needs to be cleaned, the commonly used cleaning mode is to hang the plated part in a cleaning tank, a spray head is arranged in the tank, and the spray head sprays a cleaning agent to clean the plated part. However, the plated part is cleaned in a spraying mode, and some plating solution still remains in holes of part of the plated part, so that the problem that the plated part is not cleaned completely is caused.

In order to solve the problems, ultrasonic cleaning is adopted, and the ultrasonic cleaning is to disperse, emulsify and peel off a dirt layer by utilizing the direct and indirect actions of cavitation action, acceleration action and direct current action of ultrasonic waves in liquid on the liquid and the dirt so as to achieve the purpose of cleaning. Usually, an ultrasonic device is installed at the bottom of a cleaning tank, the cleaning agent is contained in the cleaning tank, a plating part is hung in the cleaning tank and arranged above the ultrasonic device, and then the cleaning agent vibrates through an ultrasonic signal sent by the ultrasonic device, so that the plating part is cleaned.

In view of the above-described related art, the inventors considered that, by installing the ultrasonic device at the bottom of the cleaning tank, the residual plating solution cleaned off the plating member and the cleaning agent in the cleaning tank easily corrode the ultrasonic device, causing damage to the ultrasonic device.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the ultrasonic device is damaged by residual plating solution washed out on a plated part and a cleaning agent in a cleaning tank, the application provides ultrasonic plated part cleaning equipment.

The application provides a piece cleaning equipment is plated to ultrasonic wave adopts following technical scheme:

the utility model provides an ultrasonic wave plates cleaning equipment, shakes the board including washing tank, resettlement groove, biography shake board and ultrasonic wave, the washing tank with the resettlement groove sets up side by side, the resettlement groove passes through pass to shake the board with the washing tank is separated by, the ultrasonic wave shakes the vertical setting of board in the resettlement groove, be provided with in the washing tank and plate a installing zone, plate a installing zone and be used for the installation to plate, the radiating surface orientation that the board was shaken to the ultrasonic wave plate the setting of a installing zone plates.

By adopting the technical scheme, the cleaning tank is used for containing the cleaning agent, the placing tank is used for containing the clear water, the ultrasonic vibration plate works in the placing tank, the damage of residual plating solution cleaned on a plated part and the cleaning agent in the cleaning tank can be avoided, the vibration transmission plate can generate high-frequency vibration for tens of thousands of times per second when being contacted with the ultrasonic wave, therefore, the placing tank and the cleaning tank are separated by the vibration transmission plate, the ultrasonic wave can be transmitted to the cleaning tank from the placing tank, the plated part is installed in a plated part installation area and is soaked by the cleaning agent in the cleaning tank, the ultrasonic wave generates a plurality of micro bubbles by the forward radiation at intervals in the cleaning agent, the micro bubbles existing in the cleaning agent vibrate under the action of a sound field, the bubbles form and grow in a negative pressure area in which the ultrasonic wave is longitudinally transmitted, and when the sound pressure reaches a certain value, the bubbles rapidly increase and then are suddenly closed, and shock waves are generated when the bubbles are closed, and the shock waves can destroy insoluble dirt to disperse the insoluble dirt in the cleaning agent, thereby achieving the purpose of cleaning the plated part.

Optionally, the resettlement groove is provided with water installations, water installations is including inlet tube, moisturizing pipe and water intaking valve, the inlet tube set up in the top of resettlement groove, the inlet tube with moisturizing pipe intercommunication, the moisturizing pipe is followed the lateral wall in resettlement groove is followed the top in resettlement groove to the bottom in resettlement groove extends, the water intaking valve set up in on the inlet tube.

Through adopting above-mentioned technical scheme, the resettlement groove can supply the clear water through water installations, and the clear water can not lead to the fact the damage to the ultrasonic vibration board, and the clear water can regard as ultrasonic wave propagation medium moreover, and the ultrasonic wave propagates in aqueous than the distance of propagating in the air far away, the penetrability height, the loss is little and be difficult to the scattering.

Optionally, the washing tank is provided with the fluid infusion device, the fluid infusion device is including feed liquor pipe, fluid infusion pipe and feed liquor valve, the feed liquor pipe is used for letting in the cleaner, the feed liquor pipe set up in the top of washing tank, the fluid infusion pipe is followed the lateral wall of washing tank is followed the top of washing tank to abluent bottom is extended, the feed liquor pipe with fluid infusion pipe intercommunication, the feed liquor valve set up in on the feed liquor pipe.

By adopting the technical scheme, the cleaning tank can supplement the cleaning agent through the liquid supplementing device, and the cleaning agent can remove residual plating liquid on a plated part under the action of ultrasonic waves.

Optionally, the bottom of the side wall of the seismic plate, which is connected to the placement groove, is provided with a drainage port, the drainage port is externally connected with a drainage pipe, the drainage pipe is provided with a drainage control valve, the bottom of the side wall of the seismic plate, which is connected to the cleaning groove, is provided with a drainage port, the drainage port is externally connected with a drainage pipe, and the drainage pipe is provided with a drainage control valve.

Through adopting above-mentioned technical scheme, the waste water that can conveniently place the inslot at the bottom of lateral wall is seted up to the lower mouth of a river flows into the downcomer, has made things convenient for the groove effluent disposal water, and the leakage fluid dram is seted up and can be made things convenient for the waste liquid inflow fluid-discharge tube in the washing tank in the bottom of lateral wall, has made things convenient for washing tank discharge waste liquid.

Optionally, the drainage port is located at the bottom of the side wall opposite to the side wall where the water replenishing pipe is located, the bottom plate of the placement tank is inclined from the side where the water replenishing pipe is located to the lower portion of the side wall where the drainage port is located, the drainage port is located at the bottom of the side wall opposite to the side wall where the fluid replenishing pipe is located, and the bottom plate of the cleaning tank is inclined from the side where the fluid replenishing pipe is located to the lower portion of the side where the drainage port is located.

Through adopting above-mentioned technical scheme, set up the bottom plate of slope, the waste water in the settling tank can collect to the lower mouth of a river, and the waste liquid of the internal washing tank can collect to the leakage fluid dram, can make settling tank and washing tank flowing back more thorough.

Optionally, the placing groove is provided with a supporting convex plate on the inner side wall of the vibration transmission plate, the supporting convex plate horizontally penetrates through the placing groove and the inner side wall of the vibration transmission plate, the supporting convex plate is arranged in two positions at intervals from top to bottom, the interval distance of the supporting convex plate is equal to the height of the ultrasonic vibration plate, and the top surface and the bottom surface of the ultrasonic vibration plate are respectively connected with the two supporting convex plates.

Through adopting above-mentioned technical scheme, the radiation face of supersound shake board can be towards plating a mounting area setting, and two support convex plates that the interval set up from top to bottom can stabilize and support the ultrasonic wave and shake the board.

Optionally, the cleaning tank is provided with an air inlet pipe, the air inlet pipe is used for introducing air, the air inlet pipe is arranged at the bottom of the cleaning tank, the air inlet pipe is arranged below the plating part mounting area, and a jet opening with an upward opening is formed in the air inlet pipe.

Through adopting above-mentioned technical scheme, the intake pipe sprays the air towards plating a mounting area, can assist the ultrasonic wave to drive the cleaner vibration, improves the cleaning efficiency.

Optionally, the arrangement groove is provided with two, the washing tank and two the arrangement groove sets up side by side, two the arrangement groove set up in the both sides of washing tank.

By adopting the technical scheme, the left side and the right side of the cleaning tank can both receive ultrasonic waves, and the cleaning agent can generate more micro bubbles to clean residual plating solution on a plated part more thoroughly.

Optionally, the top surface of the cleaning tank connected to the two side walls of the vibration transmission plate is provided with a plated part supporting seat.

Through adopting above-mentioned technical scheme, plate a supporting seat and can support and plate the piece, plate the piece and can install in plating a mounting area, plate every one side of piece and all can soak in the cleaner.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the ultrasonic vibration plate and the plating piece are separately arranged, so that the ultrasonic vibration plate can be protected from being corroded by a cleaning agent and residual liquid on the plating solution;

2. the placing groove and the cleaning groove are separated by adopting the vibration transmission plate, so that the ultrasonic vibration plate can be protected, and ultrasonic waves can be transmitted from the placing groove to the cleaning groove;

drawings

FIG. 1 is a first schematic structural view of an ultrasonic plated part cleaning device;

FIG. 2 is a schematic structural diagram II of an ultrasonic plated part cleaning device;

FIG. 3 is a third structural schematic diagram of an ultrasonic plated part cleaning device.

Description of the reference numerals: 1. a cleaning tank; 11. a liquid supplementing device; 111. a liquid inlet pipe; 112. a liquid supplementing pipe; 113. a liquid inlet valve; 12. a liquid discharge port; 13. a drain control valve; 2. a placing groove; 21. a water inlet device; 211. a water inlet pipe; 212. a water replenishing pipe; 213. a water inlet valve; 22. a water outlet; 23. a drain control valve; 3. a vibration transmission plate; 4. an ultrasonic vibration plate; 5. a supporting convex plate; 6. an air inlet pipe; 7. plating piece supporting seat.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The application provides a piece cleaning equipment is plated to ultrasonic wave adopts following technical scheme:

the utility model provides an ultrasonic wave plated part cleaning equipment, including washing tank 1, the resettlement groove 2, pass and shake board 3 and ultrasonic wave and shake board 4, washing tank 1 sets up side by side with resettlement groove 2, resettlement groove 2 is separated by through passing and shakes board 3 and washing tank 1, ultrasonic wave shakes 4 vertical settings in resettlement groove 2, be provided with plated part installing zone in washing tank 1, plated part installing zone is used for installing plated part, the radiant surface of ultrasonic wave shakes board 4 sets up towards plated part installing zone, be provided with fluid infusion device 11 and leakage fluid dram 12 in the washing tank 1, leakage fluid dram 12 is used for discharging the waste liquid, fluid infusion device 11 is used for replenishing the cleaner, be provided with water installations 21 and lower mouth of a river 22 in the resettlement groove 2, water installations 21 is used for replenishing the clear water, lower mouth of a river 22 is used for discharging waste water.

Referring to fig. 1 and 2, the cleaning tank 1 is used for containing a cleaning agent, and the accommodating tank 2 is used for containing clear water, in different embodiments, the cleaning tank 1 and the accommodating tank 2 may be arranged by two square grooves with a width of 300 to 500mm and a depth of 800 to 1200mm in a side-by-side manner, or a vibration transmission plate 3 may be arranged in one square groove with a width of 600 to 1000mm and a depth of 800 to 1200mm, and the vibration transmission plate 3 divides the square groove into two grooves. Further, in various embodiments, the cleaning bath 1 and the seating bath 2 may be made of various materials, may be made of metal, may be made of quartz, or may be made of glass, and as an example, the cleaning bath 1 and the seating bath 2 of the embodiment of the present application are made of metal.

The cleaning tank 1 is provided with a plated part mounting area for mounting a plated part, in the present embodiment, the top surface of the cleaning tank 1 connected to both side walls of the vibration plate 3 is provided with a plated part supporting seat 7, the plated part supporting seat 7 can support the plated part, so that the plated part is mounted in the plated part mounting area, in different embodiments, the plated part supporting seat 7 can be different shapes, and the plated part supporting seat 7 can be a rectangular block provided with a groove or a clamp, but all that is needed is to stably support the plated part.

With continued reference to fig. 1 and 2, a vibration transmission plate 3 is disposed between the placing tank 2 and the cleaning tank 1, in different embodiments, the vibration transmission plate 3 may be made of different materials, but can be welded to the side wall of the square tank to isolate the solution in the two tanks, and can transmit the ultrasonic wave emitted from the ultrasonic vibration plate 4, can be made of polypropylene (PP), polystyrene (PS), or ABS, and the polypropylene (PP), polystyrene (PS), and ABS are thermoplastic plastics that can be easily welded, and when the ultrasonic wave acts on the thermoplastic plastic contact surface, the plastic contact surface will generate several ten thousand high frequency vibrations per second, so that the vibration transmission plate 3 made of any of the above materials can transmit the ultrasonic wave well, and as an example, the bottom of the vibration transmission plate 3 in the embodiment of the present invention is connected to the bottom plate of the square tank, and the top of the square tank is level.

Referring to fig. 1, the installation groove 2 is provided with a water inlet device 21 and a water outlet 22, the water inlet device 21 is used for supplying clean water to the installation groove 2, the water outlet 22 is used for discharging wastewater in the installation groove 2, in this embodiment, a water inlet device 21 is specifically but not limitedly provided, and includes a water inlet pipe 211, a water replenishing pipe 212 and a water inlet valve 213, in different embodiments, the water inlet pipe 211 and the water replenishing pipe 212 may have different arrangements, by way of example, the water inlet pipe 211 is arranged above the installation groove 2, the water replenishing pipe 212 extends from the top of the installation groove 2 to the bottom of the installation groove 2 along the side wall of the installation groove 2, the length of the water replenishing pipe 212 does not exceed the depth of the installation groove 2, the water inlet pipe 211 is communicated with the water replenishing pipe 212, and the water inlet valve 213 is arranged on the water inlet pipe 211 and is located outside the installation groove 2. In order to facilitate the wastewater in the placing groove 2 to flow into a sewer pipe, a sewer opening 22 of the placing groove 2 is arranged at the bottom of the side wall of the placing groove 2, the sewer opening 22 is externally connected with a sewer pipe, the sewer pipe is externally connected with a sewer control valve 23, and the sewer control valve 23 is positioned on the outer side of the side wall of the placing groove 2.

Referring to fig. 1 and 2, the cleaning tank 1 is provided with a liquid supplementing device 11 and a liquid discharging port 12, the liquid supplementing device 11 is used for supplementing a cleaning agent to the cleaning tank 1, the liquid discharging port 12 is used for discharging a waste liquid in the cleaning tank 1, in this embodiment, a liquid supplementing device 11 is specifically but not limited to provided, and includes a liquid inlet pipe 111, a liquid supplementing pipe 112 and a liquid inlet valve 113, in different embodiments, the liquid inlet pipe 111 and the liquid supplementing pipe 112 may be arranged in different manners, as an example, the liquid inlet pipe 111 is arranged above the cleaning tank 1, the liquid inlet pipe 111 extends from the top of the cleaning tank 1 to the bottom of the cleaning tank 1 along the side wall of the cleaning tank 1, the length of the liquid supplementing pipe 112 does not exceed the depth of the cleaning tank 1, the liquid inlet pipe 111 is communicated with the liquid supplementing pipe 112, and the liquid inlet valve 113 is arranged on the water inlet pipe 211 and is located outside the cleaning tank 1. In order to facilitate the waste liquid in the cleaning tank 1 to flow into the liquid discharge pipe, a liquid discharge port 12 of the cleaning tank 1 is formed in the bottom of the side wall of the cleaning tank 1, the liquid discharge port 12 is externally connected with the liquid discharge pipe, the liquid discharge pipe is externally connected with a liquid discharge control valve 13, and the liquid discharge control valve 13 is positioned outside the side wall of the cleaning tank 1.

Optionally, referring to fig. 1 and fig. 3, in order to enable the solution to be discharged more completely by the installation tank 2 and the cleaning tank 1, the drainage port 22 may be disposed at the bottom of the side wall opposite to the side wall where the water replenishing pipe 212 is located, the bottom plate of the installation tank 2 is inclined from the side where the water replenishing pipe 212 is located to the lower side of the side where the drainage port 22 is located, the drainage port 12 is disposed at the bottom of the side wall opposite to the side wall where the liquid replenishing pipe 112 is located, the bottom plate of the cleaning tank 1 is inclined from the side where the liquid replenishing pipe 112 is located to the lower side of the side where the drainage port 12 is located, an inclined bottom plate is disposed, the wastewater in the installation tank 2 can be collected to the drainage port 22, and the waste liquid in the cleaning tank 1 can be collected to the drainage port 12.

Optionally, refer to fig. 2, for the cleaning efficiency of improvement washing tank 1 that can be further, can set up intake pipe 6 in washing tank 1, intake pipe 6 is used for letting in the air, set up the jet towards plating a mounting area on intake pipe 6, the jet sets up on intake pipe 6's lateral wall along intake pipe 6's axis direction interval, intake pipe 6 sprays the air towards plating a mounting area, can assist the ultrasonic wave to drive the cleaner vibration, improve the cleaning efficiency. In different embodiments, intake pipe 6 can set up through the mode of difference, can set up the gas-supply pipe, the gas-supply pipe is connected with air supply equipment, intake pipe 6 and gas-supply pipe intercommunication, the gas-supply pipe extends from the top of following washing tank 1 to the bottom of washing tank 1 from the lateral wall along washing tank 1, inlet tube 211 sets up on the bottom plate of washing tank 1, be located the below of coating bath installing zone, also can set up the air vent on the bottom plate of washing tank 1, intake pipe 6 passes the air vent, get into washing tank 1 from the bottom plate of washing tank 1, and fix and plate a installing zone below, the external air supply equipment of intake pipe.

Referring to fig. 1 and 2, ultrasonic wave shakes board 4 and vertically sets up in resettlement groove 2, in the embodiment of difference, ultrasonic wave shakes board 4 and can be connected with resettlement groove 2 through different modes, as the example, resettlement groove 2 is provided with support flange 5 with passing on the relative inside wall of shake board 3, support flange 5 and be the straight board of cuboid, support flange 5 level link up in resettlement groove 2 and pass the relative inside wall of shake board 3, it is provided with two to support flange 5 upper and lower interval, the spacing distance that supports flange 5 equals the height that ultrasonic wave shakes board 4, the top surface and the bottom surface of ultrasonic wave shake board 4 are connected with two support flanges 5 respectively through bolted connection's mode.

Optionally, in order to further improve the cleaning efficiency of ultrasonic wave plated part cleaning equipment, two placing grooves 2 may be provided, the cleaning tank 1 and the two placing grooves 2 are provided side by side, and the two placing grooves 2 are provided on both sides of the cleaning tank 1.

The implementation principle of the embodiment of the application is as follows: the ultrasonic vibration plate 4 is arranged in the placing tank 2, clear water is supplemented to the placing tank 2 through the water inlet device 21, the clear water is over the ultrasonic vibration plate 4, the clear water can be used as a propagation medium of ultrasonic waves, the ultrasonic waves are far away from the propagation distance in the water, high in penetrating force, small in loss and not easy to scatter, the ultrasonic waves can be prevented from being damaged by residual plating solution cleaned on a plated part and cleaning agents in the cleaning tank 1 when being transmitted in the water, the vibration plate 3 is arranged between the placing tank 2 and the cleaning tank 1, when the ultrasonic waves act on the vibration plate 3, the vibration plate 3 can generate high-frequency vibration for tens of thousands of times per second, the vibration plate 3 can transmit the ultrasonic waves to the cleaning tank 1 from the placing tank 2, the cleaning tank 1 is supplemented with the cleaning agents through the liquid supplementing device 11, the plated part is soaked in the cleaning agents, the ultrasonic waves are radiated forwards at close intervals in the cleaning agents to enable the cleaning agents to generate a plurality of tiny bubbles, the tiny bubbles existing in liquid vibrate under the action of the bubbles, the bubbles form and grow in a negative pressure area in which the ultrasonic waves are propagated longitudinally, when the bubbles reach a positive pressure area, when the insoluble dirt is loosened, the dirt is quickly, and the dirt is cleaned, and then the insoluble dirt is impacted and is quickly broken, so that the dirt is suddenly, and the dirt is impacted and the dirt is quickly, and the dirt is broken by the insoluble bubbles.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an ultrasonic wave plates cleaning equipment, its characterized in that, shakes board (3) and ultrasonic wave including washing tank (1), resettlement groove (2), biography and shakes board (4), washing tank (1) with resettlement groove (2) set up side by side, resettlement groove (2) are passed through biography shake board (3) with washing tank (1) are separated by, ultrasonic wave shake board (4) vertical set up in resettlement groove (2), be provided with in washing tank (1) and plate the installing zone, plate the installing zone and be used for the installation to plate the piece, ultrasonic wave shakes the radiating surface orientation of board (4) plate the setting of installing zone of plating.

2. The ultrasonic plated part cleaning equipment according to claim 1, wherein the placement tank (2) is provided with a water inlet device (21), the water inlet device (21) comprises a water inlet pipe (211), a water supplementing pipe (212) and a water inlet valve (213), the water inlet pipe (211) is arranged above the placement tank (2), the water inlet pipe (211) is communicated with the water supplementing pipe (212), the water supplementing pipe (212) extends from the top of the placement tank (2) to the bottom of the placement tank (2) along the side wall of the placement tank (2), and the water inlet valve (213) is arranged on the water inlet pipe (211).

3. The ultrasonic plated part cleaning equipment according to claim 2, wherein the cleaning tank (1) is provided with a liquid supplementing device (11), the liquid supplementing device (11) comprises a liquid inlet pipe (111), a liquid supplementing pipe (112) and a liquid inlet valve (113), the liquid inlet pipe (111) is used for introducing cleaning agents, the liquid inlet pipe (111) is arranged above the cleaning tank (1), the liquid inlet pipe (111) is communicated with the liquid supplementing pipe (112), the liquid supplementing pipe (112) extends from the top of the cleaning tank (1) to the bottom of the cleaning tank (1) along the side wall of the cleaning tank (1), and the liquid inlet valve (113) is arranged on the liquid inlet pipe (111).

4. The ultrasonic plated part cleaning equipment according to claim 3, wherein the placing tank (2) is connected to the bottom of the side wall of the vibration transmission plate (3) and is provided with a lower water opening (22), the lower water opening (22) is externally connected with a lower water pipe, the lower water pipe is provided with a lower water control valve (23), the cleaning tank (1) is connected to the bottom of the side wall of the vibration transmission plate (3) and is provided with a liquid discharge opening (12), the liquid discharge opening (12) is externally connected with a liquid discharge pipe, and the liquid discharge pipe is provided with a liquid discharge control valve (13).

5. The ultrasonic plated part cleaning equipment according to claim 4, wherein the drain port (22) is located at the bottom of the side wall opposite to the side wall where the water replenishing pipe (212) is located, the bottom plate of the placement tank (2) is inclined from the side where the water replenishing pipe (212) is located to the lower side of the side where the drain port (22) is located, the liquid discharge port (12) is located at the bottom of the side wall opposite to the side wall where the water replenishing pipe (112) is located, and the bottom plate of the cleaning tank (1) is inclined from the side where the water replenishing pipe (112) is located to the lower side of the side where the liquid discharge port (12) is located.

6. The ultrasonic plated part cleaning equipment according to claim 1, wherein the arrangement groove (2) is provided with a support convex plate (5) on the inner side wall of the vibration transmission plate (3), the support convex plate (5) horizontally penetrates through the arrangement groove (2) and the inner side wall of the vibration transmission plate (3), the support convex plate (5) is vertically arranged at intervals, the interval distance of the support convex plate (5) is equal to the height of the ultrasonic vibration transmission plate (4), and the top surface and the bottom surface of the ultrasonic vibration transmission plate (4) are respectively connected with the two support convex plates (5).

7. The ultrasonic plated part cleaning equipment according to claim 1, wherein an air inlet pipe (6) is arranged in the cleaning tank (1), the air inlet pipe (6) is used for introducing air, the air inlet pipe (6) is arranged at the bottom of the cleaning tank (1), the air inlet pipe (6) is arranged below the plated part mounting area, and a jet opening with an upward opening is formed in the air inlet pipe (6).

8. The ultrasonic plated part cleaning apparatus according to claim 1, wherein the arrangement tank (2) is provided in two, the cleaning tank (1) and the two arrangement tanks (2) are arranged side by side, and the two arrangement tanks (2) are arranged on both sides of the cleaning tank (1).

9. The ultrasonic plated part cleaning apparatus according to claim 1, wherein the cleaning tank (1) is provided with plated part supporting seats (7) on the top surfaces of both side walls of the vibration-transmitting plate (3).

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