CN216711697U - Ozone microbubble system equipped with microbubble pump - Google Patents

Abstract

The utility model discloses an ozone microbubble system equipped with a microbubble pump, which comprises a water tank, an ozone generator, a microbubble pump and a throttle valve, wherein the ozone microbubble pump is arranged in the water tank; the micro-bubble pump is provided with a pump body, a pump shell and a gas mixing tank, wherein one end of the pump shell is hermetically connected with the pump body, the other end of the pump shell is hermetically connected with the gas mixing tank, a water inlet cavity and a high-pressure cavity are formed between the pump shell and the pump body, a gas mixing chamber is formed between the gas mixing tank and the pump shell, and the water inlet cavity and the high-pressure cavity are respectively communicated with the gas mixing chamber; the pump shell is also provided with a water inlet, a water outlet and an air inlet, the water inlet and the air inlet are respectively communicated with the water inlet cavity, and the water outlet is communicated with the high-pressure cavity; the bottom end of the gas mixing tank is hermetically connected with the pump shell, and the top of the gas mixing tank is provided with an automatic exhaust device; the ozone generator is communicated with the air inlet, one end of the throttle valve is communicated with the water outlet, the other end of the throttle valve is communicated with the water tank, and the water tank is communicated with the water inlet. The utility model has safe and reliable use, high utilization rate of ozone, small escape amount and good user experience.

Description

Ozone microbubble system equipped with microbubble pump

Technical Field

The utility model relates to the technical field of fluid conveying equipment, in particular to an ozone microbubble system with a microbubble pump.

Background

In the micro-bubble water generating process, micro water molecules and oxygen anions beneficial to the body can be split, the best relieving effect can be generated for the body and mind of a user, and a good micro-bubble water generating device needs to be capable of generating the finest water bubbles in the most efficient process.

Present little bubble water generates device, gas pitcher mixes in the operation process, because the air input always can have the difference with mixing the gas volume, leads to jar interior gas more and more can make the liquid level descend, can lead to the delivery port large bubble to flow at last, if ozone smugglies secretly in the large bubble and escapes, for user experience be heavier sea fishy smell, and ozone utilization ratio is low, the microbubble effect can disappear, the interior gas release of jar can produce the splash after the shutdown, the misleading customer is for the complete machine breaks down.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an ozone microbubble system which can discharge part of gas in a gas mixing tank, ensure that liquid in the gas mixing tank does not generate large bubbles, has high ozone utilization rate, can be diffused in water in the whole water tank and fully contacts with objects such as food materials to be purified, has high ozone utilization rate and has small escape amount.

In order to achieve the purpose, the utility model provides the following technical scheme:

an ozone microbubble system equipped with a microbubble pump comprises a water tank, an ozone generator, a microbubble pump and a throttle valve; the micro-bubble pump is provided with a pump body, a pump shell and a gas mixing tank, wherein one end of the pump shell is hermetically connected with the pump body, the other end of the pump shell is hermetically connected with the gas mixing tank, a water inlet cavity and a high-pressure cavity are formed between the pump shell and the pump body, a gas mixing chamber is formed between the gas mixing tank and the pump shell, and the water inlet cavity and the high-pressure cavity are respectively communicated with the gas mixing chamber; the pump shell is also provided with a water inlet, a water outlet and an air inlet, the water inlet and the air inlet are respectively communicated with the water inlet cavity, and the water outlet is communicated with the high-pressure cavity; the bottom end of the gas mixing tank is hermetically connected with the pump shell, and the top of the gas mixing tank is provided with an automatic exhaust device; the ozone generator is communicated with the air inlet, one end of the throttle valve is communicated with the water outlet, the other end of the throttle valve is communicated with the water tank, and the water tank is communicated with the water inlet.

The scheme can continuously generate the micro-bubble water containing ozone in the water tank, wherein the ozone generator provides the micro-bubble pump with the air containing ozone, the micro-bubble pump extracts water from the water tank, and the micro-bubble water is output to the water tank after the air containing ozone and the water are mixed and dissolved.

In this scheme, the microbubble pump during operation, rivers or the air in its intake chamber are siphoned away, form certain vacuum, at this moment, gas gets into the intake chamber by the air inlet, water then gets into the intake chamber by the water inlet, reentrant thoughtlessly gas chamber back via the high-pressure chamber, the delivery port is discharged, as required, throttle in outlet pipe way, then pressure in thoughtlessly gas chamber will rise, because the delivery port is in thoughtlessly gas chamber's below, partly gaseous the remaining in thoughtlessly gas chamber's top, when pressure rises to the default, gas in thoughtlessly gas chamber can dissolve under the high pressure effect in the aquatic, water pressure release behind the choke valve when water, gas then can spill over aquatic automatically and form the microbubble. Because the amount of gas dissolved in water and the gas entering through the gas inlet are difficult to be completely balanced, the gas in the gas mixing chamber can be gradually increased to cause the liquid level to be reduced, finally, the gas and the water can be mixed and directly flow out, micro bubbles can not be formed at the moment, and the water outlet can be splashed. According to the scheme, the automatic exhaust device is arranged above the gas mixing chamber, when the liquid level drops to a certain value or the pressure reaches a certain value, the automatic exhaust device can automatically exhaust through liquid level data or a preset gas pressure value, and when the liquid level rises to an initial level or the pressure is normal, the exhaust is stopped, so that the working state that the mixed gas in the gas mixing chamber continuously enters the water is ensured; when the pump needs to stop working, the automatic exhaust device can also exhaust in advance, so that the final water outlet can not splash.

Optionally, a pressure relief hole is formed between the water inlet cavity and the high pressure cavity, a pressure relief device is arranged in the pressure relief hole, the pressure relief device comprises a pressure relief valve, a valve seat, a pressure relief spring and a spring seat, the spring seat is fixed in the pump casing, the pressure relief valve is fixed on the valve seat, the pressure relief spring is sleeved outside the spring seat and the valve seat, and the initial position of the pressure relief valve is tightly attached to the orifice of the pressure relief hole. When the abnormal condition appears and leads to the delivery port to block up, the pump internal pressure can sharply rise and probably destroy or even burst, and this scheme is when water pressure surpasss the default, and the high pressure water is behind the compression spring on transmitting the disk seat on the relief valve through the pressure release hole effect, and relief valve, disk seat produce the removal in pump casing pore, have opened the pressure release hole to form rivers from the gas mixing chamber backward flow to the intracavity that intakes and reach the pressure release effect, guarantee that the product is worked under safe pressure.

Optionally, the gas mixing tank include tank body, tank bottoms, the tank bottoms and pump case sealed fixed, tank body bottom and tank bottoms sealed fixed, pump case and pump body thread tightening.

Optionally, can body bottom and tank bottoms be slidingtype sealed fixed, can body and tank bottoms contact surface on be equipped with first sealing washer, can body bottom symmetry be equipped with the sliding block, the tank bottoms be equipped with sliding block complex sliding tray. This scheme sliding block and sliding tray contact surface can set up to plane or inclined plane, and the equidirectional rotation of jar body can make the sliding block wedge the sliding tray or break away from the sliding tray, when wedging the sliding tray, the jar body compresses tightly first sealing washer, realizes sealed effect.

Optionally, a second sealing ring is arranged on the contact surface of the tank bottom and the pump shell, and the tank bottom is fixed with the pump shell and the pump body through fastening screws.

Optionally, the automatic exhaust device include exhaust hole, exhaust handhole door, portable exhaust hole stopper, scalable electro-magnet, the exhaust hole locate the gas mixing tank top and communicate with the gas mixing chamber, the exhaust handhole door fix on the gas mixing tank and be equipped with the blast pipe that passes the exhaust hole, portable exhaust hole stopper one end pass the blast pipe and be equipped with the third sealing washer at the blast pipe mouth of pipe, the contact of portable exhaust hole stopper other end and scalable electro-magnet, portable exhaust hole stopper and exhaust handhole door between be equipped with reset spring. The movable exhaust hole plug has thick two ends and thin middle, a structure of a screw and a nut can be adopted, one end of the movable exhaust hole plug can be sealed to block the opening of the exhaust pipe, the other end of the movable exhaust hole plug is propped by the telescopic electromagnet, when the telescopic electromagnet is ejected out, the middle part of the movable exhaust hole plug moves in the exhaust pipe, so that the opening of the exhaust pipe is opened, and top gas in the gas mixing tank is discharged from a gap between the movable exhaust hole plug and the exhaust pipe; after the telescopic electromagnet retracts, the movable exhaust hole plug resets under the action of the reset spring, and the opening of the exhaust pipe is sealed and plugged again.

Optionally, a liquid level sensor is arranged in the gas mixing chamber, and the liquid level sensor is electrically connected with the telescopic electromagnet. The liquid level sensor adopts the prior art, and the liquid level in the gas mixing chamber drops to the designated position and then sends out an electric signal and transmits the electric signal to the controller of the telescopic electromagnet, so that the telescopic electromagnet can move.

Optionally, an air filter is arranged at the air inlet end of the ozone generator, a front filter screen and a water inlet one-way valve are arranged at the front end of the water inlet, and a water outlet one-way valve is arranged between the throttle valve and the water outlet. The air filter can provide a clean air source for the ozone generator, and the front filter screen can provide a clean water source for the micro-bubble pump; the water inlet check valve and the water outlet check valve ensure that the water flow direction is unchanged.

Optionally, the throttle valve is provided with a water outlet pipe, and the water outlet pipe and the front filter screen are integrated into a purification head.

Compared with the prior art, the utility model has the beneficial effects that: when the liquid level in the gas mixing chamber drops, the exhaust hole is opened to exhaust a proper amount of gas, so that the liquid level in the gas mixing chamber is ensured not to generate large bubbles to cause the failure of the micro bubble effect, and the exhaust hole is opened to cause the splashing of the water outlet when the machine is stopped; use safe and reliable, and ozone is smuggleing secretly in the microbubble, can spread in the aquatic of whole basin, with by the water purification eat objects such as material fully contact, the utilization ratio of ozone is very high, the escape volume is little, the system during operation of same purifying effect this scheme does not have sea fishy smell almost, ensures good user experience.

Drawings

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

Fig. 2 is an overall schematic view of the micro bubble pump of the present invention.

Fig. 3 is a schematic view of the cross-sectional structure a-a in fig. 2.

FIG. 4 is a schematic sectional view of the water inlet and the water outlet according to the present invention.

Fig. 5 is an exploded view of one configuration of the present invention.

In the figure: 1. pump body 2, pump shell 3, gas mixing tank 4, intake antrum

5. High-pressure cavity 6, air mixing chamber 7, water inlet 8 and water outlet

9. Air inlet 10, automatic exhaust device 11, pressure relief hole

12. Relief valve 13, valve seat 14, relief spring 15, spring seat

31. A pot body 32, a pot bottom 33, a first sealing ring 34 and a sliding block

35. Sliding groove 36, second seal ring 37, and fastening screw

91. Air inlet core 92, damping hole 101, exhaust hole 102 and exhaust hole cover

103. Movable exhaust hole plug 104, telescopic electromagnet 105 and exhaust pipe

106. Third seal ring 107, return spring 200, water tank

300. Ozone generator 400, micro bubble pump 500, throttle valve

600. Air filter 700, pre-filter screen 800 and water inlet one-way valve

900. And a water outlet one-way valve.

Detailed Description

While several embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings, in order to facilitate an understanding of the utility model, the utility model may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed to provide a more complete disclosure of the utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-5, the present invention provides a technical solution:

an ozone microbubble system equipped with a microbubble pump comprises a water tank 200, an ozone generator 300, a microbubble pump 400 and a throttle valve 500; the micro bubble pump 400 is provided with a pump body 1, a pump shell 2 and a gas mixing tank 3, one end of the pump shell 2 is hermetically connected with the pump body 1, the other end of the pump shell 2 is hermetically connected with the gas mixing tank 3, a water inlet cavity 4 and a high pressure cavity 5 are formed between the pump shell 2 and the pump body 1, a gas mixing chamber 6 is formed between the gas mixing tank 3 and the pump shell 2, and the water inlet cavity 4 and the high pressure cavity 5 are respectively communicated with the gas mixing chamber 6; the pump shell 2 is also provided with a water inlet 7, a water outlet 8 and an air inlet 9, the water inlet 7 and the air inlet 9 are respectively communicated with the water inlet cavity 4, and the water outlet 8 is communicated with the high-pressure cavity 5; the bottom end of the gas mixing tank 3 is hermetically connected with the pump shell 2, and the top of the gas mixing tank 2 is provided with an automatic exhaust device 10; the ozone generator 300 is communicated with the air inlet 9, one end of the throttle valve 500 is communicated with the water outlet 8, the other end of the throttle valve is communicated with the water tank 200, and the water tank 200 is communicated with the water inlet 7.

Be equipped with pressure release hole 11 between intake antrum 4 and the high-pressure chamber 5, pressure release hole 11 is equipped with pressure relief device, and pressure relief device includes relief valve 12, disk seat 13, pressure release spring 14, spring holder 15, and spring holder 15 is fixed in pump casing 2, and relief valve 12 is fixed on disk seat 13, and pressure release spring 14 cover is established in the spring holder 15, the disk seat 13 outside, and sealed pressure release hole 11 drill way is hugged closely to 12 initial positions of relief valve.

The gas mixing tank 3 comprises a tank body 31 and a tank bottom 32, the tank bottom 32 is hermetically fixed with the pump shell 2, the bottom of the tank body 31 is hermetically fixed with the tank bottom 32, and the pump shell 2 is in threaded fixation with the pump body 1; the bottom of the can body 31 and the can bottom 32 are fixed in a sliding sealing manner, a first sealing ring 33 is arranged on the contact surface of the can body 31 and the can bottom 32, sliding blocks 34 are symmetrically arranged at the bottom of the can body 31, and a sliding groove 35 matched with the sliding blocks 34 is arranged on the can bottom 32; a second sealing ring 36 is arranged on the contact surface of the tank bottom 32 and the pump shell 2, and the tank bottom 32 is fixed with the pump shell 2 and the pump body 1 through fastening screws 37.

The automatic exhaust device 10 comprises an exhaust hole 101, an exhaust hole cover 102, a movable exhaust hole plug 103 and a telescopic electromagnet 104, wherein the exhaust hole 101 is arranged at the top of the gas mixing tank 3 and communicated with the gas mixing chamber 6, the exhaust hole cover 102 is fixed on the gas mixing tank 3 and is provided with an exhaust pipe 105 penetrating through the exhaust hole 101, one end of the movable exhaust hole plug 103 penetrates through the exhaust pipe 105, a third sealing ring 106 is arranged at the pipe orifice of the exhaust pipe 105, the other end of the movable exhaust hole plug 103 is in contact with the telescopic electromagnet 104, and a return spring 107 is arranged between the movable exhaust hole plug 103 and the exhaust hole cover 102; a liquid level sensor is arranged in the gas mixing chamber 6 and is electrically connected with the telescopic electromagnet 104.

An air filter 600 is arranged at the air inlet end of the ozone generator 300, a front filter screen 700 and a water inlet one-way valve 800 are arranged at the front end of the water inlet 7, and a water outlet one-way valve 900 is arranged between the throttle valve 500 and the water outlet 8; the throttle valve 500 is provided with a water outlet pipe, which is integrated with the pre-filter screen 700 into a purification head.

The working process of the utility model is as follows: the scheme can continuously generate the ozone-containing micro-bubble water in the water tank 200, wherein the ozone generator 300 provides the ozone-containing air for the micro-bubble pump 400, the throttle valve 500 provides throttling pressure at the outlet of the micro-bubble pump 400, the micro-bubble pump 400 extracts water from the water tank 200, and the micro-bubble water is output to the water tank 200 after the ozone-containing air and the water are mixed and dissolved;

when the micro-bubble pump works, water flow or air in the water inlet cavity 4 is sucked away to form a certain vacuum degree, at the moment, air enters the water inlet cavity 4 from the air inlet 9, water enters the water inlet cavity 4 from the water inlet 7, then enters the air mixing chamber 6 and is discharged from the high-pressure cavity 5 and the water outlet 8, throttling is performed in the water outlet pipeline according to needs, the pressure in the air mixing chamber 6 rises, part of air in the air mixing chamber 6 remains above the air mixing chamber 6 because the water outlet 8 is arranged below the air mixing chamber 6, when the pressure rises to a preset value, the air in the air mixing chamber 6 can be dissolved into the water under the action of high pressure, and when the water passes through the throttle valve and is released under the water pressure, the air can automatically overflow the water to form micro-bubbles; an automatic exhaust device 10 is arranged above the gas mixing chamber 6, when the liquid level in the gas mixing chamber 6 drops to a certain value, the automatic exhaust device 10 can automatically exhaust gas, and when the liquid level in the gas mixing chamber 6 rises to an initial surface, the exhaust is stopped, so that the working state that the gas is continuously mixed in the gas mixing chamber 6 and enters water is ensured; when the micro-bubble pump needs to stop working, the automatic exhaust device 10 can also exhaust air in advance, so that the final water outlet cannot splash.

When the abnormal condition appears and leads to 8 to block up of delivery port, pressure can destroy or even burst by sharp rising in the pump, and this scheme is when water pressure surpasss the default, and pressure release hole 11 is opened to the interior high pressure water of high-pressure chamber 5 to form rivers and reach the pressure release effect in flowing back to intake antrum 4 from high-pressure chamber 5 (and gas mixing chamber), guarantee that the product is worked under safe pressure.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An ozone microbubble system equipped with a microbubble pump, characterized in that: comprises a water tank, an ozone generator, a micro-bubble pump and a throttle valve;

the micro-bubble pump is provided with a pump body, a pump shell and a gas mixing tank, wherein one end of the pump shell is hermetically connected with the pump body, the other end of the pump shell is hermetically connected with the gas mixing tank, a water inlet cavity and a high-pressure cavity are formed between the pump shell and the pump body, a gas mixing chamber is formed between the gas mixing tank and the pump shell, and the water inlet cavity and the high-pressure cavity are respectively communicated with the gas mixing chamber;

the pump shell is also provided with a water inlet, a water outlet and an air inlet, the water inlet and the air inlet are respectively communicated with the water inlet cavity, and the water outlet is communicated with the high-pressure cavity;

the bottom end of the gas mixing tank is hermetically connected with the pump shell, and the top of the gas mixing tank is provided with an automatic exhaust device;

the ozone generator is communicated with the air inlet, one end of the throttle valve is communicated with the water outlet, the other end of the throttle valve is communicated with the water tank, and the water tank is communicated with the water inlet.

2. An ozone microbubble system equipped with a microbubble pump according to claim 1, characterized in that: the water inlet cavity and the high-pressure cavity are provided with pressure relief holes, the pressure relief holes are provided with pressure relief devices, each pressure relief device comprises a pressure relief valve, a valve seat, a pressure relief spring and a spring seat, the spring seats are fixed in the pump shell, the pressure relief valves are fixed on the valve seats, the pressure relief spring sleeves are arranged on the outer sides of the spring seats and the valve seats, and the initial positions of the pressure relief valves are tightly attached to orifices of the pressure relief holes.

3. An ozone microbubble system equipped with a microbubble pump according to claim 1, characterized in that: the gas mixing tank comprises a tank body and a tank bottom, the tank bottom is fixed with a pump shell in a sealing mode, the bottom of the tank body is fixed with the tank bottom in a sealing mode, and the pump shell is fixed with a pump body in a threaded mode.

4. An ozone microbubble system equipped with a microbubble pump according to claim 3, characterized in that: jar body bottom and tank bottoms be slidingtype sealed fixed, jar body and tank bottoms contact surface on be equipped with first sealing washer, jar body bottom symmetry be equipped with the sliding block, the tank bottoms be equipped with sliding block complex sliding tray.

5. An ozone microbubble system equipped with a microbubble pump according to claim 3, characterized in that: the tank bottom and the pump casing contact surface on be equipped with the second sealing washer, the tank bottom pass through fastening screw and pump casing, the pump body is fixed together.

6. An ozone microbubble system equipped with a microbubble pump according to claim 1, characterized in that: automatic exhaust device include exhaust hole, exhaust handhole door, portable exhaust hole stopper, scalable electro-magnet, the exhaust hole locate the gas mixing tank top and communicate with the gas mixing chamber, the exhaust handhole door fix on the gas mixing tank and be equipped with the blast pipe that passes the exhaust hole, portable exhaust hole stopper one end pass the blast pipe and be equipped with the third sealing washer at the blast pipe mouth of pipe, portable exhaust hole stopper other end and scalable electro-magnet contact, portable exhaust hole stopper and exhaust handhole door between be equipped with reset spring.

7. An ozone microbubble system equipped with a microbubble pump according to claim 6, wherein: the gas mixing chamber is internally provided with a liquid level sensor which is electrically connected with the telescopic electromagnet.

8. An ozone microbubble system equipped with a microbubble pump according to claim 1, characterized in that: the ozone generator air inlet end be equipped with air cleaner, the water inlet front end be equipped with leading filter screen, the check valve of intaking, the choke valve with the delivery port between be equipped with out water check valve.

9. An ozone microbubble system equipped with a microbubble pump according to claim 8, wherein: the throttle valve be equipped with the outlet pipe, the outlet pipe with leading filter screen integration be purification head.

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