CN2838272Y - The pump pressurizes the gas and liquid into the mixer - Google Patents

Abstract

The utility model provides a pump pressurization gas-liquid dissolves blender, it mainly includes hollow body and motor, the hollow body in be provided with the gas-liquid suction mixing chamber and the gas-liquid pressurization dissolution mixing chamber that are linked together, the gas-liquid suction mixing chamber is close to the top side and is provided with the gas-liquid sunction inlet, the sunction inlet is connected with gas-liquid suction conduit, the gas-liquid suction conduit can be simultaneously with gas and water guide entering gas-liquid suction mixing chamber, the side of the gas-liquid pressurization dissolution mixing chamber that is close to the bottom is provided with the delivery port; and is connected with an output conduit and is provided with a pressure regulating constant pressure valve; the motor pump is combined on the top surface of the hollow body, the mandrel on the motor pump is penetrated into the gas-liquid suction mixing chamber of the hollow body, and more than one rotating blade is fixedly connected on the mandrel, and the blade is provided with a sawtooth groove. Thus, the liquid can be separated out from the super-saturated oxygen-containing gas, wherein the oxygen or other oxygen is formed into tiny bubbles to impact and wash the washed object ware.

Description

The pump pressurizes the gas and liquid into the mixer

technical field

The utility model relates to a pump-pressurized gas-liquid dissolving mixer, which stirs and pressurizes various liquids and gases so that the oxygen content or other gases in the liquid exceed the supersaturated state, and then outputs them to various containers so that The gas with high oxygen (gas) content or supersaturated state in the liquid (water) will precipitate bubbles under normal pressure, so as to improve the breeding environment or the function of cleaning, detoxification and sterilization, the pump pressurizes the gas and liquid into the mixer.

Background technique

Generally, when cultivating fish organisms, the fish organisms are mainly raised in aquariums or breeding tanks, etc., and the outside air is pumped into the water in the aquariums or farms through an electric pumping device, so that the air in the air Oxygen can be dissolved into the water to maintain a certain oxygen content in the water, and provide the oxygen needed for the survival of the fish in the water, so that the fish raised in the water can survive with the infused oxygen. However, the above-mentioned electric pumping device only pushes the air into the water, so that the air bubble particles formed in the water are quite large, so that the contact surface area of the air bubbles with the water is relatively small, and the bubbles rise rapidly on the water surface, causing even more damage. The oxygen contained in the injected air is not easy to dissolve with water, resulting in low oxygen content in the water, which in turn endangers the survival of fish organisms in the water.

Furthermore, the manufacturer has another kind of ozone generator combined with a cleaning tank to come out as a machine tool for detoxifying vegetables and fruits. The water in the tank contains ozone, which leads to the high oxidation capacity of ozone in the water to remove the residual pesticides on the surface of fruits and vegetables, so that people can safely eat the fruits and vegetables; however, although ozone can remove the pesticides on the surface of fruits and vegetables, the ozone generated in the water Throwing the bubble particles is quite large, which will also cause ozone to be difficult to dissolve in water, resulting in low ozone content in water, resulting in poor performance in removing pesticides.

In order to solve the above-mentioned defects, the end of the conduit connected to the ozone generator is connected to a porous member, so that the ozone can disperse a large number of fine air bubbles in the water, so as to increase the content of ozone dissolved in water, but in this way, although it can be slightly Increase the content of ozone in water, but because the fluidity of the water in the cleaning tank is not good, and the bubbles formed by the release of ozone from the porous member directly rise to the water surface, the effect of increasing the content of ozone dissolved in water is still insufficient. And the higher place of ozone content in water is also limited to the peripheral position of the ozone gas outlet, and the water far away from the ozone gas outlet place still has the situation of insufficient ozone content in water.

This shows that the known method still has the above defects, so it is necessary to improve it.

Contents of the invention

The objective technology of the utility model overcomes the defect of the above-mentioned prior art, and provides a pump pressurized gas-liquid dissolving mixer, which can naturally precipitate supersaturated oxygen content from the liquid under normal pressure, and its oxygen will form Tiny air bubbles hit and wash vegetables, fruits, food, medical equipment and other cleaned utensils, and remove pesticide residues, sterilization and other chemical substances, detoxification, etc. through the high oxidation of ozone in water, so as to avoid virus media. Ensure food safety and sanitation; and use this method to increase the high oxygen content in water and the cleaning, disinfection and sterilization functions in fish tanks, fish farms, farms and swimming pools, so as to prevent the growth of germs, improve the growth environment of aquatic animals, and reduce diseases.

The purpose of this utility model is achieved through the following technical solutions. The pump pressurized gas-liquid melting mixer provided by the utility model includes a hollow body and a motor pump; There are more than one gas-liquid suction mixing chamber and gas-liquid pressurized melting mixing chamber. The side of the top of the chamber is provided with more than one gas-liquid suction port, which is connected with more than one gas-liquid suction conduit to enter the gas-liquid suction mixing chamber as the suction gas and liquid or water; the above suction conduit can also be connected with The ozone generator or other devices that can generate different gases are connected at the same time, and the water and gas are guided through the water inlet pipe and the air inlet pipe to enter the gas-liquid suction mixing chamber through the gas-liquid suction conduit; the gas-liquid is pressurized and dissolved in the mixing chamber At least one baffle is provided, and the bottom side of the gas-liquid pressurized into the mixing chamber is provided with more than one water outlet, and the output conduit is assembled to set a pressure regulating and constant pressure valve; the motor pump is combined at the top of the hollow body , and the mandrel of the motor pump enters the gas-liquid suction mixing chamber through the top of the body, and a rotating blade is fixed on the mandrel. The gas-liquid suction conduit of the liquid suction mixing chamber corresponds; the motor pump drives the rotating blade to rotate at a high speed, thereby sucking liquid and gas into the gas-liquid suction mixing chamber, and at the same time, the high-speed rotary cutting of the rotating blade produces gas-liquid agitation, so that the gas dissolves Dense micro-bubbles are generated when in the liquid, and the micro-bubbles and liquid are pressurized by the motor pump and enter the gas-liquid through the communication port to pressurize and dissolve into the mixing chamber. At the same time, the gas-liquid is pushed by the pressure generated by the blades and the baffle plate Blocking and pressurizing again and prolonging the time will form smaller bubbles, and then dissolve into the liquid (such as water) to reach the state of liquid oxygen exceeding saturation, and then output it to any container through the outlet connection, such as vegetable and fruit detoxification utensils, fish tanks and pools Farms etc. When injected into the above container, under normal pressure, the supersaturated oxygen content will be naturally precipitated from the liquid, and the oxygen will form tiny bubbles, which will hit and wash vegetables, fruits, food, medical utensils and other utensils to be cleaned. , and the high oxidation of ozone in water removes its pesticide residues, sterilization and other chemical substances, detoxification, etc., so as to avoid virus media and ensure food safety and hygiene; and this method can be used in fish tanks, fish farms, farms and swimming pools to increase water High oxygen (gas) content and cleaning, disinfection and sterilization functions can prevent the growth of germs, improve the growth environment of aquatic animals, and reduce diseases.

In order to further understand the utility model, the following preferred embodiments are given below with reference to the accompanying drawings, and the specific components of the utility model and the functions achieved are described in detail below.

Description of drawings

Fig. 1 is the cross-sectional schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 2 is the action schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 3 is the first application schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 4 is the second application schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 5 is the third application schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 6 is the fourth application schematic diagram of the utility model pump pressurized gas-liquid dissolving into the mixer;

Fig. 7 is a schematic diagram of the fifth application of the pump pressurized gas-liquid dissolving into the mixer of the present invention.

Explanation of symbols for main components: 1 hollow body; 11 gas-liquid suction mixing chamber; 111 gas-liquid suction port; 12 gas-liquid pressurized into the mixing chamber; 121 baffle plate; ; 21 intake pipe; 211 ozone generator; 22 water inlet pipe; 31 gas; 4 motor pump; 41 mandrel; 42 cover; 5 rotating blades; ; 71 tiny bubbles; 81 dishes; 82 medical appliances; 83 vegetables; 91 pressure regulator constant pressure valve;

Detailed ways

Please refer to Fig. 1 and Fig. 2, the pump pressurized gas-liquid dissolving mixer of the present utility model mainly includes:

A hollow body 1, the top surface of the hollow body 1 is provided with a waterproof joint hole (not shown in the figure), and a gas-liquid suction mixing chamber 11 and a gas-liquid pressurized mixing chamber 12 are sequentially arranged in it from top to bottom , the combination hole communicates with the gas-liquid suction mixing chamber 11, and more than one communication port 13 is provided between the gas-liquid suction mixing chamber 11 and the gas-liquid pressurized melting mixing chamber 12, and the gas-liquid suction mixing chamber 11 is close to the top A gas-liquid suction port 111 is arranged on one side, and the gas-liquid suction port 111 is connected with a gas-liquid suction conduit 2. The gas-liquid suction conduit 2 includes a connected water inlet pipe 22 and at least one air inlet pipe 21. The air pipe 21 and the water inlet pipe 22 at least comprise more than one pipe or simultaneously multiple pipes are connected with the ozone generator 211 (please refer to Fig. 4 ) or be connected with other machines that can produce different gases simultaneously, and the air inlet pipe 21 can be connected with the inlet pipe 21. The water pipe 22 is integrally formed, so that the gas-liquid suction conduit 2 can pass the gas 31 and water 32 into the gas-liquid suction mixing chamber 11 through the gas-liquid suction port 111 respectively through the air inlet pipe 21 and the water inlet pipe 22, and the gas-liquid is pressurized. At least one baffle plate 121 is provided in the mixing chamber 12, and a water outlet 122 is provided on the side near the bottom of the gas-liquid pressurized mixing chamber 12, and the output conduit is assembled to set a constant pressure regulation Valve 91, the pressure regulating constant pressure valve 91 is mainly used as the control of the water flow;

A motor pump 4, the mandrel 41 of the motor pump 4 enters the gas-liquid suction mixing chamber 11 through the joint hole of the hollow body 1, and the mandrel 41 and the joint hole are completely sealed without any gaps, and the mandrel 41 A rotating blade 5 is fixed on the top, the rotating blade 5 corresponds to the gas-liquid suction port 111 on the side of the gas-liquid suction mixing chamber 11, and the rotating blade 5 is provided with horizontal and vertical staggered sawtooth grooves 51; and the The outside of the motor pump 4 is covered with a cover 42 to protect the motor pump 4;

When the motor pump 4 is started, its mandrel 41 will drive the rotating blade 5 to rotate at a high speed continuously, so that the gas 31 and water 32 are respectively passed through the gas-liquid suction port through the air inlet pipe 21 and the water inlet pipe 22 of the gas-liquid suction conduit 2 111 sucks the gas and liquid into the mixing chamber 11, and at the same time, the high-speed rotary cutting of the rotating blade 5 and its upper sawtooth groove 51 produces gas-liquid agitation, so that the gas 31 is soluble in the liquid 32 and dense micro-bubbles 71 are produced. Micro-bubbles 71 and liquid 32 are pressurized by the motor pump 4, and then enter the gas-liquid pressure and dissolve into the mixing chamber 12 through the communication port 13, and dissolve into the baffle plate 121 set in the mixing chamber 12 through gas-liquid pressure To block the diversion, to increase the space and area for gas and liquid to dissolve, so that the bubbles 71 have more time to bear the pressure, causing the liquid 32 to contain oxygen (gas) to exceed the saturated state, and then the bubbles 71 are discharged through the water outlet 122 Output to any container, such as: fish tank pool farm 61 (as shown in Figure 3), various detoxification vessels 62 (as shown in Figure 4, Figure 5, and Figure 6) or swimming pool 63 (as shown in Figure 7), etc. .

Please refer to Fig. 4, Fig. 5 and Fig. 6, when the dense micro-bubbles 71 are injected into the above-mentioned container, under normal pressure, the liquid 32 will naturally precipitate supersaturated oxygen content, so that the oxygen will form extremely Tiny air bubbles 71, which can be evenly distributed in the gas-liquid to impact the washed dishes 81, medical appliances 82, vegetables 83, fruits, food and other utensils to be cleaned, and are removed by high oxidation of ozone in water Its pesticide residual poison sterilization and other chemical substances, detoxification etc., avoid virus media, and guarantee edible safety and sanitation; Wherein, a helical blade 92 can be installed in the detoxification container 62, and this helical blade 92 is driven by the motor 93 of container bottom, makes The liquid in the container can be driven by the helical blade 92 to rotate, so that the tiny bubbles are affected by the rotating force of the liquid, and the rotating force of the entrained liquid continuously rotates and hits the vegetables, fruits, food, medical instruments and other objects to be cleaned in the washing container, thereby achieving Detoxification, sterilization effect.

Please refer to Fig. 3 and Fig. 7 at the same time, if it is applied to fish tank 61, fishing pond, farm or swimming pool 63, it can increase the high oxygen (gas) content and cleaning, disinfection and sterilization functions in the water, so as to avoid the growth of germs , and then improve the growth environment of aquatic animals, to achieve the purpose of reducing diseases.

In order to make the utility model show progressiveness and practicality more, a comparative analysis is made as follows with conventional articles:

Common flaws:

1. Conventional fish tank farms only inject air into the water through an electric pumping device, so that the air bubbles formed in the water are quite large, resulting in a small contact surface area between the air bubbles and the water, and the air bubbles rise rapidly to the water surface , It also causes the oxygen contained in the injected air to be difficult to dissolve with water, resulting in a low oxygen content in the water, which in turn endangers the survival of fish in the water.

2. Although the ozone generated by the conventional ozone generator can remove the pesticides on the surface of fruits and vegetables, the bubble particles generated by the ozone in the water are quite large, which will also cause the ozone to be difficult to dissolve in water, resulting in low ozone content in the water, resulting in its Ineffective in removing pesticides.

3. The conventional method of dispersing ozone into fine bubbles through porous components can slightly increase the content of ozone in water, but due to the poor fluidity of the water in the cleaning tank, the effect of increasing the content of ozone dissolved in water is still insufficient. And away from the water at the ozone outlet, there is still the risk of insufficient ozone content in the water.

The utility model advantage:

1. In this utility model, under normal pressure, the supersaturated oxygen content is naturally precipitated from the liquid, including ozone or other oxygen gases, which will form extremely small bubbles to impact and wash vegetables, fruits, food, medical appliances, etc. to be cleaned utensils.

2. The utility model can dissolve ozone or other gases into the liquid to remove pesticide residues, sterilization and other chemical substances, detoxification, etc. through the high oxidation of ozone in water, so as to avoid virus media and ensure food safety and hygiene.

3. If the utility model is used in fish tanks, fishing farms, farms or swimming pools, it will increase the high oxygen content in the water and the cleaning, disinfection and sterilization functions to prevent the growth of germs, improve the growth environment of aquatic animals, and reduce diseases.

4. The utility model can achieve fast cleaning effect and save time when washing any object to be cleaned.

Claims (6)

1, a kind of pump pressured gas liquid dissolves in blender, it is characterized in that it comprises:

One hollow body, be provided with the gas-liquid suction mixing chamber and the gas-liquid pressurization that are connected more than one in it and dissolve in mixing chamber, this gas-liquid sucks mixing chamber and is provided with more than one gas-liquid suction inlet near the side, top, this suction inlet is to be connected with an above gas-liquid suction lead, this gas-liquid suction lead can be simultaneously enter gas-liquid with gas and water guiding and suck in the mixing chamber, and this gas-liquid dissolved under pressure, the side near the bottom of going into mixing chamber are provided with more than one delivery port; And the winding output duct is provided with the pressure regulation constant pressure valve;

One motor-mount pump, it is the end face that is combined in hollow body, the axle on it places the gas-liquid that enters hollow body and sucks in the mixing chamber, and at the rotating vane that is consolidated with on the axle more than a slice, this rotating vane is provided with laterally and vertically staggered sawtooth groove.

2, pump pressured gas liquid according to claim 1 dissolves in blender, it is characterized in that this gas-liquid suction lead comprises air inlet pipe and the water inlet pipe that is connected more than, and can be provided with more than one suction lead simultaneously multitube be connected with ozone machine or other facility that can produce different gas-liquids.

3, pump pressured gas liquid according to claim 1 dissolves in blender, it is characterized in that this delivery port winding output duct is provided with the pressure regulation constant pressure valve.

4, pump pressured gas liquid according to claim 1 dissolves in blender, it is characterized in that the pressurization of this gas-liquid is dissolved in to be provided with the above spoiler of a slice in the mixing chamber at least.

5, pump pressured gas liquid according to claim 1 dissolves in blender, it is characterized in that this motor-mount pump is outside and is coated with a cover cap in order to the protection motor-mount pump.

6, pump pressured gas liquid according to claim 1 dissolves in blender, it is characterized in that in the container that gas-liquid is guided to blade being set, and the motor that this blade pass is crossed the container bottom drives.

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