CN215233369U

CN215233369U - Production mixes hybrid system of water

Info

Publication number: CN215233369U
Application number: CN202121359011.0U
Authority: CN
Inventors: 蔡井辉
Original assignee: Fujian Ranli Food Group Co ltd
Current assignee: Fujian Ranli Food Group Co ltd
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2021-12-21
Anticipated expiration: 2031-06-18

Abstract

The utility model relates to a drinking water production technical field especially indicates a production mixing system that mixes water, and this system collects the cover and dissolves the hydrogen device including a jar body, air water. In the working method of the system, the hydrogen dissolving device conveys one part of hydrogen-mixed water to filling equipment after the process water and the hydrogen are mixed, the other small part of the hydrogen-mixed water flows back to the tank body, the process water is simultaneously input into the tank body, the hydrogen in the process water and the hydrogen-mixed water is premixed in the tank body, and then the process water and the hydrogen are collected to the hydrogen dissolving device through the gas-water collecting cover to form a circulating process. After the hydrogen is dissolved in the water, the hydrogen moves upwards, so that the area for collecting the hydrogen can be enlarged through the gas-water collecting cover, the hydrogen-containing concentration of the process water which is input to the hydrogen dissolving device after premixing is improved, the hydrogen-containing concentration of the finally produced gas-water mixture is finally improved, and the premixing of the process water and the hydrogen in the tank body is also favorable for improving the production efficiency of the gas-water mixture.

Description

Production mixes hybrid system of water

Technical Field

The utility model relates to a drinking water production technical field especially indicates a hybrid system of production muddy air water.

Background

With the diversification of market consumption demands and the enhancement of health care consciousness, consumers pay more and more attention to health elements of products while considering simple thirst quenching and summer heat avoiding, and if the health elements can bring physical health after the products are used, the products are more popular, so that the drinking water is gradually changed from single thirst quenching and summer heat avoiding to health, nutrition, beauty and the like in future development. The drink mixed with water is expected to become a new favorite and mainstream development trend of the drink market. The hydrogen ions of the gas-mixed water can neutralize redundant active oxygen (H2 + O is H2O) in the body to be combined into water, and the water is discharged out of the body along with urine to help cell metabolism, so the water-mixed water is safe, green and environment-friendly, does not have any toxic or side effect on the human body, and does not have definite contraindications and contraindication crowds. The industrialization of the gas-mixed water accords with the development trend of 'nutrition, sanitation and convenience' of the food industry in China.

At present, the water-mixed gas production equipment generally needs to mix the process water and the hydrogen through a hydrogen dissolving device, and the hydrogen is difficult to be easily mixed with water, so the actual hydrogen concentration of the water-mixed gas produced by the common water-mixed gas production equipment is lower.

SUMMERY OF THE UTILITY MODEL

Not enough to above-mentioned background art provides, the utility model provides a production mixes hybrid system of water.

The utility model adopts the following technical scheme:

the utility model provides a production gas-water mixture's hybrid system which characterized in that, this system including:

the hydrogen storage tank comprises a tank body, wherein a water inlet is formed in the lower part of the tank body and used for inputting process water into the tank body, and a circulation port is formed in the lower part of the tank body and used for inputting hydrogen into the tank body;

the gas-water collecting cover is provided with a conical opening, the opening faces downwards, a connecting pipe is further connected to the gas-water collecting cover, and one end of the connecting pipe is communicated with the opening;

wherein, the gas-water collecting cover is arranged in the tank body and is positioned above the water inlet and the circulating port.

As an improvement of the mixing tank system, the system further comprises a control unit, a high liquid level sensing unit and a low liquid level sensing unit are arranged above the gas-water collecting cover from top to bottom in the tank body, an electromagnetic valve is arranged at the water inlet, the high liquid level sensing unit and the low liquid level sensing unit are in signal connection with a signal input end of the control unit, and the electromagnetic valve is in signal connection with a signal output end of the control unit.

As an improvement of the mixing tank system, a water distributor is arranged in the tank body and is positioned below the gas-water collecting cover, and the circulating pipe penetrates through the circulating port and is connected to the water distributor.

As an improvement of the mixing tank system, the bottom of the tank body is also provided with an emptying port, and a valve is arranged at the emptying port.

As an improvement of the mixing tank system, a spraying ball is further fixed at the top inside the tank body, and the part of the spraying ball outside the tank body is connected to a water source.

As an improvement of the mixing tank system, a breather is further arranged at the top in the tank body, the breather is arranged at the top of the tank body, and a degerming filter element is arranged in an air hole of the breather.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the utility model discloses regard as container input process water and hydrogen with the jar body, make process water and hydrogen with at the internal premixing of jar, the rethread gas water is collected the cover and is collected process water and hydrogen to dissolving the hydrogen device. After the hydrogen is dissolved in the water, the hydrogen moves upwards, so that the area for collecting the hydrogen can be enlarged through the gas-water collecting cover, the collecting amount of the hydrogen is increased, the loss of the hydrogen in the process water is reduced, and the hydrogen-containing concentration of the process water which is premixed and then input into the hydrogen dissolving device is increased. In addition, the process water and the hydrogen are premixed in the tank body, which is equivalent to that the process water is mixed with the hydrogen in advance before entering the hydrogen dissolving device, thereby being beneficial to improving the production efficiency of the gas-water mixture.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

A mixing system for producing gas-mixed water comprises a tank body 1, a hydrogen dissolving device 4 and a set of control unit. The tank body 1 is fixed on the fixing support 11 to form a vertically fixed structure, and a cone structure with a large upper part and a small lower part is arranged below the tank body 1.

A water inlet 12 is arranged below the tank body 1, and the water inlet 12 is connected to a water source of process water through a pipeline. The water inlet 12 is also provided with an electromagnetic valve, the electromagnetic valve is in signal connection with the control unit, and the opening and closing of the electromagnetic valve are controlled by the control unit, so that the process water can be input into the tank body 1 from the bottom of the tank body 1 through the water inlet. The process water can meet the production and use requirements, namely the process water meets the sanitary standard, and specifically can be filtered tap water. The bottom of the tank body 1 is also provided with a drain port 13, a valve is arranged at the drain port 13, and after production is finished, the valve can be opened to discharge the residual water in the tank body 1 from the bottom. Preferably, a three-way valve can be fixed at the bottom of the tank body 1, a port of the three-way valve located at the side is the water inlet 12, and a port of the three-way valve located at the bottom is the drain 13.

Jar body 1 is inherent the cover 2 is collected to water gas that is equipped with in the top of water inlet 12, cover 2 is collected to water gas has conical uncovered 201, uncovered 201 is down, is equivalent to water gas promptly and collects cover 2 and be big-end-up's tubaeform structure. The gas-water collecting cover 2 is also connected with a connecting pipe 22, one end of the connecting pipe 22 is communicated with the opening 21, and the other end of the connecting pipe 22 penetrates out of the tank body 1 and is connected to the hydrogen dissolving device.

The hydrogen dissolving device 4 can be a gas-liquid mixing pump, and the hydrogen dissolving device 4 is provided with a gas inlet 41, a liquid inlet 42 and an output port 43. The gas inlet 41 is connected to the hydrogen generator 5 through a pipe so that the hydrogen gas produced by the hydrogen generator 5 can be input into the hydrogen dissolving device 4. The liquid inlet 42 is connected with one end of the connecting pipe 22 far away from the gas-water collecting cover 2, so that the process water and the hydrogen collected by the gas-water collecting cover 2 can be directly input into the hydrogen dissolving device 4 to be mixed with the hydrogen prepared by the hydrogen generator 5. The delivery outlet 43 is used for outputting the hydrogen-mixed water that forms after hydrogen and the process water mix, and this delivery outlet 43 accessible is connected the three-way pipe and is divided two way pipelines, is connected to filling equipment 8 all the way, and another way is connected to through circulating pipe 44 the circulation mouth 14 of jar body 1 below, circulating pipe 44 with the position of jar body 1 switch-on is located the below of cover 2 is collected to the gas water. In addition, the water distributor 45 is arranged in the tank body, the water distributor 45 is positioned below the gas-water collecting cover, the circulating pipe is connected to the water distributor 45 in the tank body 1, and the structure of the water distributor 45 can be used for preventing the hydrogen contained in the process water from damaging the structure of the process water due to micro-nano mutual impact.

Further, a proportional distributor may be provided at the output port 43 to adjust the flow rate of the hydrogen-mixed water output to the filling device 8 and the hydrogen-mixed water output to the tank 1 in two pipelines of the output port 43, for example, a ratio of 10: 1, so that most of the hydrogen-mixed water is delivered to the emulsification pump to prepare the hydrogen-mixed water, and then the hydrogen-mixed water is finally delivered to the filling device 8, and a small part of the hydrogen-mixed water is circulated and returned to the tank 1 through the circulation pipe 44. After the small part of the hydrogen-mixed water is circulated and returned to the tank 1 through the circulation pipe 44, the hydrogen-mixed water is mixed with the process water input from the water inlet 12, so as to increase the concentration of the hydrogen in the process water input to the tank 1, and to perform the function of premixing the process water and the hydrogen, which is beneficial to improving the efficiency of the subsequent mixing of the process water and the hydrogen in the hydrogen dissolving device 4.

In the above-mentioned structure, because the aquatic dissolves behind the hydrogen, hydrogen can the upward movement, consequently passes through the gas water is collected the horn structure of cover 2 and can be enlarged and is collected the area, reduces the loss of hydrogen in the technology aquatic, makes the hydrogen in jar body 1 after collecting the process connecting pipe 22 flows back extremely dissolve hydrogen device 4, the improvement input extremely dissolve the hydrogen-containing solubility in the technology aquatic in the hydrogen device 4. In the structure, the process water is input from the bottom of the tank body 1 and is collected by the gas-water collecting cover 2 in the middle of the tank body 1, so that the mixing time of the process water and the hydrogen is prolonged, and the improvement of the hydrogen concentration in the mixed process water is facilitated.

A breather 7 and a spray ball 6 are also arranged in the tank body 1. As the process water enters and exits the tank body 1 to cause the change of the internal space of the tank body 1, the breather 7 is arranged at the top of the tank body 1 to enable the inside and the outside of the tank body 1 to be communicated, thereby balancing the pressure inside and outside the tank body 1. Furthermore, a degerming filter element is arranged in an air hole of the respirator 7, so that bacteria in the air are prevented from entering the tank body 1 to cause water pollution. The spraying ball 6 is fixed to the top inside the tank body 1, and the part of the spraying ball 6 outside the tank body 1 is connected to a water source through a pipeline. When the tank body 1 needs to be cleaned, clear water can be pumped into each spraying ball 6 through a water pump, so that the clear water is sprayed out of the spraying balls 6 to the inner wall of the tank body 1, and the aim of cleaning the tank body 1 is fulfilled. After the cleaning is finished, the valve at the evacuation port 13 can be opened to completely evacuate the cleaned water.

In addition, jar body 1 is internal cover 2 is collected to gas water top still top-down is provided with two high positions of high liquid level and low liquid level, and the position of high liquid level is equipped with high liquid level induction unit 32, and the position of low liquid level is equipped with low liquid level induction unit 31. The high liquid level sensing unit 32 and the low liquid level sensing unit 31 are both in signal connection with the signal input end of the control unit, and the electromagnetic valve at the water inlet 12 and the hydrogen dissolving device 4 are both connected with the signal output end of the control unit. Wherein, high liquid level induction unit 32 with low liquid level induction unit 31 is level sensor, the control unit is the PLC controller, and is steerable through writing into the procedure in the control unit the utility model discloses a mix orderly work of gas-water mixing tank system. Specifically, the working method of the gas-water mixing tank system of the utility model is as follows:

s1: the control unit controls the electromagnetic valve at the water inlet 12 to be opened, so that the process water is input into the tank body 1 from the water inlet 12;

s2: when the liquid level of the process water input into the tank body 1 is higher than that of the low liquid level sensing unit, the low liquid level sensing unit 31 is triggered, the low liquid level sensing unit 31 sends a triggered signal to the control unit, and the control unit controls the hydrogen dissolving device 4 to start to operate, so that the process water and the hydrogen gas collected by the gas-water collecting cover 2 extracted by the hydrogen dissolving device 4 are conveyed into the hydrogen dissolving device 4 through the connecting pipe 22 to be mixed with the hydrogen gas, and the hydrogen-mixed water is output, so that the hydrogen-mixed water can be input into the tank body 1 through the circulating pipe 44;

s3: when the liquid level of the process water in the tank body 1 is higher than the high liquid level sensing unit 32, triggering the high liquid level sensing unit 32, sending a triggering signal to the control unit by the high liquid level sensing unit 32, controlling the electromagnetic valve at the water inlet 12 to be closed by the control unit, stopping inputting the process water into the water inlet 12, and continuing to operate the hydrogen dissolving device 4 to extract the process water and the hydrogen in the tank body 1;

s4: when the process water in the tank body 1 is gradually reduced along with the extraction of the hydrogen dissolving device 4, the level of the process water in the tank body 1 is reduced, after the liquid level is lower than the low liquid level sensing unit 31, the low liquid level sensing unit 31 is triggered again, the low liquid level sensing unit 31 sends a triggered signal to the control unit, the control unit controls the electromagnetic valve at the water inlet 12 to be opened according to the step S1, the water inlet 12 continues to input the process water, and the process water is circulated.

According to the above working method, the utility model discloses will dissolve a small part hydrogen-mixed water circulation after hydrogen device 4 mixes and flow back extremely in jar body 1, and jar body 1 inputs the process water simultaneously, makes process water and mixed hydrogen water and mixes in jar body 1 in advance, the rethread gas water is collected cover 2 and is collected process water and hydrogen to dissolving hydrogen device 4. After the hydrogen is dissolved in the water, the hydrogen moves upwards, so that the area for collecting the hydrogen can be enlarged through the gas-water collecting cover 2, the collecting amount of the hydrogen is increased, the loss of the hydrogen in the process water is reduced, and the hydrogen-containing concentration of the process water which is premixed and then input into the hydrogen dissolving device 4 is increased. In addition, the process water and the hydrogen are premixed in the tank body 1, which is equivalent to that the process water is mixed with the hydrogen in advance before entering the hydrogen dissolving device, thereby being beneficial to improving the production efficiency of the gas-water mixture.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims

1. The utility model provides a production gas-water mixture's hybrid system which characterized in that, this system including:

2. The mixing system for producing water mixed with gas according to claim 1, characterized in that: the system further comprises a control unit, wherein the tank body is internally provided with a high liquid level sensing unit and a low liquid level sensing unit from top to bottom above the gas-water collecting cover, a solenoid valve is arranged at the water inlet, the high liquid level sensing unit and the low liquid level sensing unit are in signal connection with the signal input end of the control unit, and the solenoid valve is in signal connection with the signal output end of the control unit.

3. The mixing system for producing water mixed with gas according to claim 1, characterized in that: the system also comprises a control unit and a hydrogen dissolving device, wherein the hydrogen dissolving device is provided with an air inlet, a liquid inlet and an output port, the air inlet is used for inputting hydrogen to the hydrogen dissolving device, the other end of the connecting pipe is connected to the liquid inlet, the output port is used for outputting hydrogen-mixed water formed by mixing the hydrogen and process water, the output port is divided into two pipelines, one pipeline is connected to filling equipment, and the other pipeline is connected to the circulation port through a circulation pipe; the gas-water collecting cover is arranged above the gas-water collecting cover, the tank body is internally provided with a low liquid level sensing unit, the low liquid level sensing unit is in signal connection with the signal input end of the control unit, and the hydrogen dissolving device is in signal connection with the signal output end of the control unit.

4. The mixing system for producing water mixed with gas according to claim 3, characterized in that: the water distributor is arranged in the tank body and located below the gas-water collecting cover, and the circulating pipe penetrates through the circulating port and is connected to the water distributor.

5. The mixing system for producing water mixed with gas according to claim 1, characterized in that: the bottom of the tank body is also provided with an emptying port, and a valve is arranged at the emptying port.

6. The mixing system for producing water mixed with gas according to claim 1, characterized in that: the top in the tank body is also fixed with a spraying ball, and the part of the spraying ball outside the tank body is connected to a water source.

7. The mixing system for producing water mixed with gas according to claim 1, characterized in that: the top in the tank body is also provided with a respirator, the respirator is arranged on the top of the tank body, and a degerming filter element is arranged in an air hole of the respirator.