JP3125083U - Microbubble water treatment machine - Google Patents

Abstract

A microbubble water treatment machine is provided.
A micro-bubble water treatment device of the present invention includes a motor, an advance water account, a pressure cylinder, and a high oxygen dissolution mechanism. The motor is connected to the launch port and the pressure cylinder by an infusion pipe, and achieves the purpose of softening, activating, and magnetizing water by a magnetizer installed on the infusion pipe or blow-off pipe. In addition, there is a reduced portion with a reduced inner diameter inside the flow guide tube of the high oxygen dissolution mechanism, and a water flow block with a stepped circumference is installed below the reduced portion, and the water flow is instantaneously accelerated by the reduced portion to the water flow block. Colliding, the water guide block advances the water flow in a continuous collision manner, making the water flow and bubbles thinner, increasing the amount of oxygen in the water.
[Selection] Figure 3

Description

The present invention relates to a micro-bubble water treatment device, and more particularly to a micro-bubble water treatment device that softens, activates, and magnetizes water to increase the amount of dissolved oxygen.

As shown in FIG. 1, the known microbubble water treatment machine 1 includes a motor 11, a pressure cylinder 12, and a high oxygen dissolution mechanism 13.

The motor 11 is connected to the pressure cylinder 12 by an infusion line 111 and has an oxygen supply line 112 on the infusion line 111.

The pressure cylinder 12 is a cylindrical body, a blow-off valve 121 and a pressure table 122 are provided above the pressure cylinder 12, and a water discharge pipe 123 is provided on the other side of the pressure cylinder 12. The melting mechanism 13 is connected.

  As shown in FIG. 2, the high oxygen dissolution mechanism 13 mainly has a blow-off pipe 132 in contact with one side of a hollow flow guide tube 131 and a water split ring 133 fixed on the inside of the flow guide tube 131. In addition, an annular arrangement is formed on the diversion ring 133, the diversion hole 1331 has a large hole diameter, and the diversion pipe 131 has a large inner diameter below the diversion ring 133. An annular surface 1311 is formed at the location. In addition, a water guide piece 134 and a screw rod 135 are provided below the ring surface 1311, the water guide piece 134 conflicts with the screw rod 135, and one end of the screw rod 135 is located at a screw hole portion on the bottom side of the flow guide tube 131. While being screwed and projecting out of the flow guide tube 131 and rotating the screw rod 135 up and down, the water guide piece 134 is shifted up and down by a short distance accordingly.

When the known micro-bubble water treatment machine 1 is put into operation, the motor 11 is placed in the bathtub and the power supply is activated. The motor 11 draws the water in the bathtub from the infusion line 111 into the pressure cylinder 12, and the infusion line 111. The upper oxygen supply line 112 mixes outside air into the water, the air and water are mixed in the pressure cylinder 12, and the water in the pressure cylinder 12 is in a high oxygen state by injecting oxygen into the water due to the high pressure. And at the same time, bubbles are generated. At this time, the water guide piece 34 leaves the ring surface 1311 and becomes open at intervals, and the size of the gap between the water guide piece 134 and the ring surface 1311 is utilized. Adjust the flow rate. After water containing bubbles and high-pressure water flows into the flow guide tube 131, first, the water flow is divided into several thin water flows by the diversion holes 1331 of the diversion ring 133. Passing through the gap between the water guide piece 134 and the ring surface 1311, the channel becomes smaller and further divided into a narrow water flow. At the same time, under two split flows, the bubbles in the water are further reduced, and the blow-off pipe 132 contains the bubbles with high oxygen and is discharged into the bathtub to circulate the aforementioned operation.

The known microbubble water treatment machine 1 achieves beauty and rejuvenation effects by adhering dirt and keratin on the human body onto the microbubbles contained in the water by the above-mentioned structure when taking a bath. The diameter of the diversion holes 1331 of the diversion ring 133 is large, the number is small, and when passing through the gap between the water guide piece 134 and the ring surface 1311, the diversion holes 1331 pass in a linear form, so that the water flow and bubble refinement effect is limited Yes, it affects the water's oxygen content and ability to remove dirt. In addition, the microbubble water treatment machine 1 has only a single function of purifying bubbles and does not have other additional functions, and therefore needs to be improved.

The purpose of the present invention is to provide a micro-bubble water treatment machine consisting of a motor, an advancing water account, a pressure cylinder, and a high oxygen dissolution mechanism, and the motor is connected to the launching port and the pressure cylinder of the advancing water account by a water conduit. Connected, the high oxygen dissolution mechanism has a blow-off valve, the lower part of the valve is connected to the outlet of the advance water account, the water is discharged from the outlet of the advance water account to the bathtub, and a magnetizer is installed on the infusion line This is to achieve the purpose of softening, activating and magnetizing water.

Another object of the present invention is to provide a micro-bubble water treatment machine consisting of a motor, an advancing water account, a pressure cylinder, and a high oxygen dissolution mechanism. In the lower part of the reduction part, a water conveyance block with a stepped part is installed, and the water flow is instantaneously accelerated by the reduction part to collide with the water conveyance block. And the bubbles become even thinner, increasing the amount of oxygen in the water.

The microbubble water treatment machine of the present invention comprises a motor, a water advance account, a pressure cylinder, and a high oxygen dissolution mechanism. The motor is connected to the launch port of the advancing water account and the pressure cylinder through the water pipeline, the high oxygen dissolution mechanism has a blow-off valve, the lower part of the valve is connected to the water outlet of the advancing water account, and the water is The water is discharged from the water outlet to the bathtub, and the water is softened, activated, and magnetized by installing a magnetizer on the water pipeline.

With the microbubble water treatment device of the present invention, water can be softened, activated and magnetized to increase the amount of dissolved oxygen.

  First, FIG. 3 is a diagram showing a microbubble water treatment device 2 of the present invention, which comprises a motor 3, an advancing water account 4, a pressure cylinder 5, and a high oxygen dissolution mechanism 6.

  One end of the motor 3 is connected to the inside of the pressure cylinder 4 by an infusion line 31 and has an oxygen supply line 32 on the infusion line 31. An air control valve 33 is provided on the oxygen supply line, and the air control valve 33 has an air inlet 331 and an air outlet 332. The air outlet 332 is connected to the oxygen supply pipe 32, has a needle valve 333 in the air control valve 33, and connects the connecting shaft 334 at the outer end of the needle valve 333 and the rotating shaft 3351 of the reduction motor 335. In the infusion pipe 31, the magnetizer 7 is installed on the water inlet 311 of the pressure cylinder 4, and the magnetizer 7 has a magnet. The other end of the motor 3 is connected to the launch port 41 of the advance water account 4 through the water conduit 31.

  The advance water account 4 has a launch port 41 and a water outlet 42, and a filter 43 is installed below the launch port 41 of the advance water account 4.

  The pressure cylinder 5 is a cylinder, and has a blow-off valve 51 and a pressure table 52 above the pressure cylinder 5, the other side of the pressure cylinder 5 has a water discharge pipe 53, and the water discharge pipe 53 is a high oxygen dissolution mechanism. 6 is connected.

  As shown in FIG. 4, the high oxygen dissolving mechanism 6 has a blow-off pipe 62 in contact with one side of a hollow flow guide pipe 61, and the flow guide pipe 61 has a small inner diameter above the blow-off pipe 62. 611 is formed. Below the reduced portion 611, a water guide block 621 having a stepped circumference is provided above the blow-off pipe 62, and a water inlet 622 is provided at the center of the water guide block 621. Below the water guide block 621, a plurality of spaced hole paths 623 are formed, and a convex ring 624 is provided below the hole paths 623. The convex ring 624 is in contact with the inner wall of the flow guide pipe 61, and has an inner diameter on the inner wall of the convex ring 624. A stepped portion 625 that expands is formed.

  At the time of application, the micro-bubble water treatment device 2 of the present invention places the advance water account 4 in the bathtub, activates the power supply, and the motor 3 filters the water in the bathtub from the launch port 41 of the advance water account 4. It passes in 43 from the water inflow pipe 31 through the pressure pipe 5. The air control valve 33 installed on the oxygen supply pipe 32 mixes outside air into the water, and adjusts the amount of air entering the oxygen supply pipe 32 by the needle valve 333 in the air control valve 33. When air and water are mixed in the pressure cylinder 5 and the water flow is transported from the inflow conduit 31 to the pressure cylinder 5, the water in the pressure cylinder 5 is magnetized after passing through the magnetizer 7 of the water inlet 311. At this time, the water in the pressure cylinder 5 injects oxygen into the water at a high pressure to be in a high oxygen-dissolved state and generates bubbles, and then includes bubbles in the outlet pipe 53, so that the high-pressure water is high. Water that is transported to the oxygen dissolving mechanism 6 and has bubbles passes through the reduced portion 611 of the flow guide tube 61, and the water flow after magnetization is flown by the reduced portion 611 of the flow guide tube 61 as shown in FIG. The accelerated water flow collides with the water guide block 621, the ring surface of the water guide block 621 has a stepped shape, and when the magnetized high-pressure fine water flow and bubbles pass, a continuous collision operation occurs. Under continuous impact, the small water flow becomes even smaller. A part of the water flow enters the blow-off pipe 62 through the water inlet 622 of the water guide block 621, and a part of the water flow enters the blow-off pipe 62 through the hole 623 after colliding with the water guide block 621. Since the inner wall of the convex ring 624 has a stepped portion 625 having an enlarged inner diameter, the water that has entered is accelerated and diffused into a small water flow through the stepped portion 625. From the blow-off pipe 62, bubbles are contained in high oxygen by a pipe line and discharged into the water outlet 42 of the advance water account 4, and further discharged from the water outlet 42 into the bathtub to circulate the aforementioned operation.

It is a figure which shows a well-known microbubble water treatment machine. It is a figure which shows a well-known high oxygen dissolution mechanism. It is a figure which shows the microbubble water treatment machine of this invention. It is a figure which shows the high oxygen melt | dissolution mechanism of this invention. It is a figure which shows operation | movement of the high oxygen melt | dissolution mechanism of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Microbubble water processing device 11 Motor 111 Water supply line 112 Oxygen supply line 12 Pressure cylinder 121 Blow-off valve 122 Pressure table 131 Flow guide pipe 1311 Ring surface 132 Blow-off pipe 2 Microbubble water treatment machine 3 Motor 31 Water supply line 311 In Water port 32 Oxygen supply line 33 Air control valve 331 Air outlet 332 Air outlet 333 Needle valve 334 Linker 335 Motor 3351 Turning shaft 4 Water entry account 41 Water outlet 42 Water outlet 43 Filter 5 Pressure cylinder 51 Blow-off valve 52 Pressure Table 53 Water outlet pipe 6 High oxygen dissolution mechanism 61 Current guide pipe 611 Reduction part 62 Blow-off pipe 621 Water introduction block 622 Water inlet 623 Hole 624 Convex ring 625 Step part

Claims (9)

A microbubble water treatment machine, at least,
A motor connected to the pressure cylinder by an infusion line;
An air control valve installed on the oxygen supply line of the infusion line;
Advance water account,
The pressure cylinder connecting the high oxygen dissolution mechanism;
A high-pressure dissolution mechanism having a hollow conduit,
Consists of
The motor feeds water from the advance water account into the pressure cylinder, the air control valve installed in the oxygen supply pipe mixes outside air into the water, and the water in the pressure cylinder is increased by high pressure. In addition to being in an oxygen state, bubbles are generated, bubbles are included from the outlet pipe, high-pressure water is transported to the high oxygen dissolution mechanism, and the water flow and bubbles are further reduced and discharged. Microbubble water treatment machine. The microbubble water treatment machine according to claim 1, wherein a reduced portion is installed in the flow guide tube. The micro-bubble water treatment machine according to claim 1, wherein the blow-off pipe has a plurality of hole paths spaced apart from each other. The micro-bubble water treatment machine according to claim 1, wherein an inner wall of the blow-off pipe has a stepped portion. The microbubble water treatment machine according to claim 1, further comprising a filter below a launch port of the advance water account. The micro-bubble water treatment machine according to claim 1, wherein the advance water account has a launch port and a water exit. The micro-bubble water treatment machine according to claim 1, wherein the air control valve has an air inlet and an air outlet. 2. The microbubble water treatment machine according to claim 1, wherein the air control valve has a needle valve. The micro-bubble water treatment machine according to claim 1, wherein the air control valve is provided with a motor.

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