CN-121972448-A - Micro-nano bubble electromagnetic cleaning device

Abstract

The invention relates to the field of water micro-nano bubbles, in particular to a micro-nano bubble electromagnetic cleaning device which comprises a shell, a central controller, a gas dissolving bin and a water storage bin, wherein the gas dissolving bin is symmetrically and fixedly arranged in the shell through a connecting rod, the gas dissolving bin comprises an air pump driver, a water inlet pipe, an air pump, a motor, a rotating column, a fixed cover, a gear set, a rotating shaft, a cam, a deflector rod, a rotating sheet, a cutting hole and a pressure valve, the lower end of the air pump driver is connected with the rotating sheet, the bottom of the transmission rod penetrates through a rotating ring to be fixedly arranged on the rotating sheet, the rotating ring is movably embedded in the top surface of the gas dissolving bin through a bearing, the top end of the transmission rod is provided with a moving block, and the top end of the moving block is provided with a reaction disc.

Inventors

• ZHONG HUI

Assignees

• 仲慧

Dates

Publication Date

20260505

Application Date

20260318

Claims (10)

1. 1. The micro-nano bubble electromagnetic cleaning device comprises a shell (1), a central controller (2), a dissolved air bin (3) and a water storage bin (5), and is characterized in that the dissolved air bin (3) is symmetrically and fixedly arranged in the shell (1) through a connecting rod, the dissolved air bin (3) comprises an air pump driver (30), a water inlet pipe (31), an air pump (32), a motor (33), a rotating column (34), a fixed cover (35), a gear set (36), a rotating shaft (37), a cam (38), a deflector rod (39), a rotating plate (40), a cutting hole (41) and a pressure valve (43), the lower end of the air pump driver (30) is connected with the rotating plate (40), one side of the top of the air pump driver (30) is linked with the air pump (32) and is positioned above the rotating column (34), the air pump driver (30) comprises a transmission rod (301), a rotating ring (302), a moving block (303), a limiting rod (304), a reaction plate (305) and a controlled conductor (306), the transmission rod (301) is provided with a plurality of rods, the bottom rotating ring (302) of the transmission rod (301) is fixedly arranged on the rotating plate (302) to be embedded in the rotating plate (40) through the rotating plate (40), the utility model discloses a gas dissolving bin, including gas pump (32), transfer line (301), transfer line (303), reaction plate (305) are all equipped with on the top of transfer line (303), controlled conductor (306) is fixed to be set up reaction plate (305) side, and controlled conductor (306) are connected with gas pump (32), rotate post (34) and be connected with motor (33) for its bottom of hollow cylinder, rotate post (34) inside and be connected with driving lever (39) through gear drive, drive driving lever (39) reciprocates, the tip of driving lever (39) runs through rotate post (34) and is connected with rotor (40), gas dissolving bin (3) below is equipped with connecting pipe (42), be equipped with pressure valve (43) in connecting pipe (42), gas dissolving bin (3) bottom is equipped with water storage bin (5).
2. 2. The micro-nano bubble electromagnetic cleaning device according to claim 1, wherein the whole shell (1) is of a hollow structure, the central controller (2) is fixedly arranged on the outer surface of the shell (1), the water inlet pipe (31) is arranged above the dissolved air bin (3), and an electric control valve is arranged inside the water inlet pipe (31).
3. 3. The micro-nano bubble electromagnetic cleaning device according to claim 2, wherein the air pump (32) comprises a support shell upper portion (321), a support shell lower portion (322), an electrifying loop (323), a non-magnetic spring (324), a permanent magnet (325), a pressing plate (326) and an electromagnet (327), the support shell lower portion (322) is communicated with the air dissolving bin (3), the support shell lower portion (322) is provided with two one-way valves, the electrifying loop (323) is arranged in the support shell upper portion (321), the electrifying loop (323) is communicated with the electromagnet (327), the top surface of the support shell lower portion (322) is provided with the non-magnetic spring (324) in an annular equidistant mode, the permanent magnet (325) is fixedly arranged in the support shell lower portion (322) through the non-magnetic spring (324), and the electromagnet (327) is fixedly arranged at the top surface of the support shell lower portion (322) and adjacent to the non-magnetic spring (324).
4. 4. The micro-nano bubble electromagnetic cleaning device of claim 1, wherein a plurality of limiting rods (304) are arranged at the top surface of the dissolved air bin (3) and at the bottom end of the reaction disc (305), the limiting rods (304) are divided into an upper part and a lower part, the two parts are connected in a ball connection mode, a spring is arranged at the joint of the two parts, and a telescopic structure is nested at the bottom of the limiting rods (304).
5. 5. The micro-nano bubble electromagnetic cleaning device of claim 1, wherein a trapezoid bump is arranged in the middle of the transmission rod (301), and trapezoid notches matched with the trapezoid bump are formed in the rotating ring (302) in an annular equidistant mode.
6. 6. The micro-nano bubble electromagnetic cleaning device according to claim 1, wherein the gear set (36) comprises a first gear (361), a second gear (362) and a third gear (363), the first gear (361) is fixedly arranged at the opening of the top surface of the rotating column (34), the second gear (362) and the third gear (363) are respectively arranged below the fixed cover (35) through movable shafts, the first gear (361) and the second gear (362) are meshed with each other, the second gear (362) and the third gear (363) are meshed with each other, the third gear (363) and the fixed cover (35) are coaxially arranged, a rotating shaft (37) is arranged at the bottom end of the third gear (363), and a cam (38) is arranged at the bottom end of the rotating shaft (37).
7. 7. The micro-nano bubble electromagnetic cleaning device of claim 6, wherein the cam (38) is hollow and is provided with wavy relief below the cylinder, a deflector rod (39) is arranged at the bottom end of the cam (38), one end of the deflector rod (39) is spherical, and the other end of the deflector rod is columnar and extends out along a limit groove at the side of the rotating cylinder (34).
8. 8. The micro-nano bubble electromagnetic cleaning device according to claim 1, wherein the rotating sheets (40) are flat prisms with cambered surfaces, the number of the rotating sheets is multiple, each group comprises two sheets, namely a fixed sheet and a movable sheet, the fixed sheet is fixedly arranged on a ring at the cambered surface at the side of the rotating column (34), the other movable sheet is fixedly arranged at the columnar extension end of the deflector rod (39) and is connected with the transmission rod (301), the fixed sheets in the same group are adjacent to the movable sheets and are parallel to each other, and the rotating sheets (40) are uniformly provided with cutting holes (41).
9. 9. The micro-nano bubble electromagnetic cleaning device according to claim 1, wherein a wedge-shaped groove (44) is arranged at the outlet of the connecting pipe (42), the cross-sectional area of the notch of the wedge-shaped groove (44) is gradually increased along the passing direction of water flow on the notch, and an air duct (45) is arranged at the position with the smallest cross-sectional area of the wedge-shaped groove (44).
10. 10. The micro-nano bubble electromagnetic cleaning device according to claim 1, wherein a water outlet pipe (51) is arranged at the bottom of the water storage bin (5), a cooler (52) is arranged at the side surface and the bottom of the water storage bin (5), a pushing piece (53) is arranged in the water storage bin (5), the cross-sectional area of the pushing piece is equal to the area of the water storage bin (5), and a one-way valve (54) is arranged on the surface, close to the water outlet pipe (51), of the pushing piece (53).

Description

Micro-nano bubble electromagnetic cleaning device Technical Field The invention relates to the field of micro-nano bubbles, in particular to a micro-nano bubble electromagnetic cleaning device. Background The micro-nano bubbles are ultra-micro bubbles existing in water, and bubbles with different shapes and sizes are formed when the gas is subjected to the action of cutting force in the liquid. The bubbles have a diameter below 50 microns, called microbubbles, below 100 nanometers, called nanobubbles, and the micro-nanobubbles are between microbubbles and nanobubbles. When micro-nano bubbles break, high concentration ions accumulated on the interface release accumulated chemical energy at one time due to the intense change of the disappearance of the gas-liquid interface, and a large amount of hydroxyl free radicals can be excited at the moment. The hydroxyl radical has ultrahigh oxidation-reduction potential, and the super-strong oxidation effect generated by the hydroxyl radical can degrade pollutants which are difficult to oxidize and decompose under normal conditions in water, so that the cleaning and purifying can be realized. The micro-nano bubble skin cleaning device has a certain application in the aspect of skin cleaning and beautifying, and mainly has the following problems that 1, cold water is needed to be infused when the water temperature is regulated, but the density of micro-nano bubbles in the water is reduced due to the fact that the cold water is infused, the cleaning effect is poor, 2, a continuous air inlet function cannot be realized, an external water source is connected with the inside of the skin cleaning device, the external water source is pressurized and then sprayed to the face, the operation is stopped after the internal gas consumption is completed, the operation can be performed again after the gas is fully absorbed, the cleaning process is intermittent, and the user experience is poor. Accordingly, improvements are made to the above problems. . Disclosure of Invention Therefore, the technical problem to be solved by the invention is to provide the micro-nano bubble electromagnetic cleaning device capable of maintaining or even improving the bubble density in the water temperature adjusting process, aiming at the problems that the bubble density is reduced and continuous air intake is impossible when the micro-nano bubble cleaning device is used for adjusting the water temperature in the prior art, and the aim is achieved through the following technical scheme. The micro-nano bubble electromagnetic type cleaning device comprises a shell, a central controller, a dissolved air bin and a water storage bin, wherein the dissolved air bin is symmetrically and fixedly arranged in the shell through a connecting rod, the dissolved air bin comprises an air pump driver, a water inlet pipe, an air pump, a motor, a rotating column, a fixed cover, a gear set, a rotating shaft, a cam, a deflector rod, a rotating sheet, a cutting hole and a pressure valve, the lower end of the air pump driver is connected with the rotating sheet, one side of the top of the air pump driver is linked with the air pump and is positioned above the rotating column, the air pump driver comprises a transmission rod, a rotating ring, a moving block, a limiting rod, a reaction disc and a controlled conductor, the transmission rod is provided with a plurality of the transmission rod, the bottom of the transmission rod penetrates through the rotating ring to be fixedly arranged on the rotating sheet, the rotating ring is movably embedded in the top surface of the dissolved air bin through a bearing, the moving block is arranged at the top of the transmission rod, the top of the moving block is provided with the reaction disc, the controlled conductor is fixedly arranged on the side of the reaction disc, the controlled conductor is connected with the air pump, the bottom of the hollow cylinder is connected with the motor, the inner side of the rotating column is connected with the deflector rod through a gear transmission structure, the end of the air pump is connected with the deflector rod, the end of the air storage bin penetrates through the air bin is arranged below the pressure storage bin, and the dissolved air storage tube is arranged in the water storage bin. Preferably, the whole hollow structure of casing, well accuse ware is fixed to be set up on the surface of casing, and the dissolved air storehouse top is equipped with the inlet tube, and the inside automatically controlled valve that is equipped with of inlet tube. Preferably, the air pump comprises a support shell upper part, a support shell lower part, an electrifying loop, nonmagnetic springs, permanent magnets, a pressurizing plate and electromagnets, wherein the support shell lower part is communicated with the air dissolving bin, two one-way valves are arranged at the lower part of the support shell, the electrifying loop is arranged in the upper p