CN211645410U - Gas-mixed water body generator structure - Google Patents

Abstract

The utility model provides a gas-mixed water body generator structure belongs to and washs purifier technical field. It has solved current water generator structure scheduling problem unreasonable. The gas-mixed water body generator structure comprises a shell assembly, wherein a cavity for liquid to pass through is formed in the shell assembly, a first liquid port and a second liquid port which are communicated with the cavity are formed in the two ends of the shell assembly respectively, a first valve assembly matched with the first liquid port and used for guiding gas is arranged on the shell assembly, a second valve assembly matched with the second liquid port and used for controlling the flow direction of the liquid is arranged at the position of the second liquid port, and an electrode assembly is arranged in the cavity. The utility model has the advantages of can be used for not only admitting air but also giving vent to anger.

Description

Gas-mixed water body generator structure

Technical Field

The utility model belongs to the technical field of wash purifier, a generator is related to, in particular to gas water generator structure mixes.

Background

Water (chemical formula: H)₂O) is an inorganic substance composed of two elements of hydrogen and oxygen, is non-toxic, is a colorless and odorless transparent liquid at normal temperature and pressure, and is called a source of human life, water including natural water (rivers, lakes, atmospheric water, seawater, groundwater, etc.), and distilled water is purified water or artificial water (water obtained by combining hydrogen and oxygen atoms through a chemical reaction). Water is one of the most common substances on the earth, is an important resource for living of all lives including inorganic compounds and human beings, is also the most important component of organisms, plays an important role in life evolution, and is a non-renewable and broad-sense renewable resource in a narrow sense.

With the development of technology, people are beginning to focus on the application of water, such as: the electrolysis of tap water can produce the hypochlorous acid that is used for the disinfection after letting in the air, and water can obtain hydrogen-rich water after self electrolysis processing, and the structure of admitting air and exhaust in the water body generator of gas mixing is the separate design use to current market, can't reach the purpose of admitting air and exhausting through single structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that exists among the prior art, provide a water generator structure that mixes that simple structure is reasonable, both can be used to admit air also can be used to give vent to anger.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a gas-mixed water body generator structure, its characterized in that includes the shell subassembly, the shell subassembly in have the cavity that supplies liquid to pass, the both ends of shell subassembly set up respectively and have first liquid mouth and the second liquid mouth that is linked together with the cavity, be provided with on the shell subassembly and cooperate the first valve module that is used for the air guide with first liquid mouth, be provided with in second liquid mouth position department and cooperate the second valve module that is used for controlling the liquid flow direction, the cavity in be provided with the electrode subassembly.

In the structure of the gas-mixed water generator, the shell assembly comprises a shell body, and a first shell and a second shell which are respectively connected to the end parts of the two sides of the shell body, wherein the first shell is provided with a first channel communicated with the cavity, and the second shell is provided with a second channel communicated with the cavity.

In the above gas-mixed water body generator structure, the first valve assembly is connected to the first housing, and the first valve assembly is communicated with the interior of the first channel.

In the above gas-mixed water body generator structure, the first valve assembly is connected to the first housing, and the first valve assembly is directly communicated with the cavity.

In foretell gas water generator structure that mixes, first valve module include first valve body, the one end of first valve body is connected on first casing, the inside deflector that switches on gas of being provided with of first valve body, when first valve module is used for breathing in, the deflector is used for switching on the terminal surface orientation of gas one side and keeps away from first casing one side, and gas can enter into inside through the deflector, and when first valve module was used for exhausting, the deflector was used for switching on the terminal surface orientation of gas one side and is close to first casing one side, and gas can discharge to the outside through the deflector.

In the above-mentioned gas-mixed water body generator structure, the second valve assembly is disposed in the second housing, one end of the second valve assembly is connected to the cavity, and the other end of the second valve body abuts against the second channel.

In the above gas-mixed water body generator structure, the second valve assembly comprises a second valve body fixed on the second housing, a valve ball and a valve spring, the valve ball is arranged at the end part far away from one side of the cavity, the valve spring is arranged at the end part near one side of the cavity of the valve ball and the second valve body, so that the valve ball is completely abutted against the second channel, when liquid passes through the second channel, the valve ball is impacted, so that the valve ball moves towards one side of the cavity, the liquid flows into the cavity through the gap between the valve ball and the second housing, when the second housing is used for discharging liquid, the valve ball is arranged at the end part near one side of the cavity, the valve spring is arranged at the end part far away from one side of the cavity of the valve ball and the second valve body, the liquid can continuously impact the valve ball in the cavity, so that the valve ball moves towards one side far away from the cavity, the liquid flows into the second passage through a gap between the valve ball and the second housing.

In the structure of the gas-mixed water body generator, the second shell is provided with a sensor matched with the second valve component, and the sensor is arranged on the side part of the valve ball and used for detecting the position of the valve ball in movement.

In the structure of the gas-mixed water body generator, the electrode assembly comprises a positive electrode piece and a negative electrode piece, the positive electrode piece and the negative electrode piece are both in a hollow cylindrical shape, and the positive electrode piece and the negative electrode piece are sleeved and distributed along the length direction of the cavity.

In the structure of the gas-mixed water generator, the positive electrode piece and the negative electrode piece are both provided with water through holes.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model discloses the both ends of shell subassembly have first liquid mouth and second liquid mouth, are provided with on the shell subassembly and cooperate the first valve module that is used for the air guide with first liquid mouth, are provided with the second valve module who is used for controlling the liquid flow direction rather than the cooperation in second liquid mouth position department, control the admission or give vent to anger of shell subassembly through first valve module, and simple structure is reasonable, and convenient operation.

2. When the first valve assembly is used for sucking air, the first valve assembly is connected to the first shell, and the first valve assembly is communicated with the interior of the first channel for improving the time for fully contacting gas and liquid, so that further reaction is facilitated.

3. When the first valve component is used for exhausting, the first valve component is connected to the first shell, and the first valve component is directly communicated with the cavity, so that decomposed gas is favorably exhausted from one side of the cavity to the outside of the generator directly through the first valve component, and the possibility of the gas entering the first channel is reduced.

4. The utility model discloses a be equipped with the sensor on the second casing, the sensor sets up in the position that the lateral part of valve ball is used for detecting the valve ball and removes, comes the inspection through the position that detects the valve ball and mixes gas water generator and whether be in the state of switching on the operation, convenient and fast.

5. The utility model discloses a water hole has all been seted up on positive electrode spare and the negative electrode spare, is favorable to improving the area of contact of reaction.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

In the figure, 1, a shell component; 2. a cavity; 3. a first fluid port; 4. a second fluid port; 5. a first valve assembly; 6. a second valve assembly; 7. an electrode assembly; 8. a housing body; 9. a first housing; 10. a second housing; 11. a first channel; 12. a second channel; 13. a first valve body; 14. a guide plate; 15. a second valve body; 16. a valve ball; 17. a valve spring; 18. a sensor; 19. a positive electrode member; 20. a negative electrode member; 21. and a water through hole.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example 1

As shown in fig. 1 and 2, the gas-mixed water body generator structure comprises a shell assembly 1, a cavity 2 for liquid to pass through is arranged in the shell assembly 1, a first liquid port 3 and a second liquid port 4 communicated with the cavity 2 are respectively arranged at two ends of the shell assembly 1, a first valve assembly 5 matched with the first liquid port 3 for gas guiding is arranged on the shell assembly 1, a second valve assembly 6 matched with the second liquid port 4 for controlling the flow direction of liquid is arranged at the position of the second liquid port, and an electrode assembly 7 is arranged in the cavity 2.

The shell assembly 1 comprises a shell body 8, and a first shell 9 and a second shell 10 which are respectively connected to the end parts of two sides of the shell body 8, wherein a first channel 11 communicated with the cavity 2 is arranged on the first shell 9, a second channel 12 communicated with the cavity 2 is arranged on the second shell 10, and the first shell 9, the second shell 10 and the shell body 8 can be in threaded connection for the convenience of disassembly and assembly.

In this embodiment, the first valve assembly 5 is connected to the first housing 9, and the first valve assembly 5 is communicated with the inside of the first passage 11, when the first valve assembly 5 is used for sucking air, the air sucked by the valve assembly firstly enters the first passage 11 to contact with the liquid in the first passage 11, and then enters the cavity 2 together with the liquid to perform the next reaction, and the first valve assembly 5 is communicated with the inside of the first passage 11 to improve the time for fully contacting the air and the liquid, which is beneficial for the further reaction.

Preferably, in order to make the gas mixture more uniform, the intake air content may be increased by pumping air into the first valve assembly 5, for example, by adding an air pump to the first valve assembly 5.

In further detail, the first valve assembly 5 includes a first valve body 13, one end of the first valve body 13 is connected to the first housing 9, a guide plate for guiding gas in a one-way manner is arranged inside the first valve body 13, when the first valve assembly 5 is used for sucking gas, an end face of the guide plate on one side for guiding gas faces away from the first housing 9, and the gas can enter the inside through the guide plate.

In this embodiment, the second valve assembly 6 is disposed in the second housing 10, one end of the second valve assembly 6 is connected to the cavity 2, the other end of the second valve body 15 abuts against the second channel 12, the second valve assembly 6 includes the second valve body 15 fixed on the second housing 10, and a valve ball 16 and a valve spring 17 disposed in the second valve body 15, when the second housing 10 is used for discharging liquid, the valve ball 16 is disposed at an end close to one side of the cavity 2, the valve spring 17 is disposed at an end of the valve ball 16 and an end of the second valve body 15 far from one side of the cavity 2, the liquid in the cavity 2 continuously impacts the valve ball 16, so that the valve ball 16 moves toward the side far from the cavity 2, and the liquid flows into the second channel 12 through a gap between the valve ball 16 and the second housing 10.

Preferably, the second housing 10 is provided with a sensor 18 cooperating with the second valve assembly 6, the sensor 18 being provided at a side portion of the valve ball 16 for detecting a position at which the valve ball 16 moves. Whether the gas-mixed water body generator is in a conducting operation state or not is checked through the position of the detection valve ball 16, the operation is convenient and fast, meanwhile, a magnetic switch can be arranged at the position of the sensor 18 and has a time-delay function, the concentration of a product can be further increased, and the effect is improved.

In more detail, the electrode assembly 7 includes a positive electrode element 19 and a negative electrode element 20, the positive electrode element 19 and the negative electrode element 20 are both in a hollow cylindrical shape, and the positive electrode element 19 and the negative electrode element 20 are sleeved and distributed along the length direction of the cavity 2.

The electrode assembly 7 can be used for electrolytic generation of hypochlorous acid or ozone, and in the case of hypochlorous acid generation, the positive electrode member 19 and the negative electrode member 20 can both be made of graphite, and in the case of ozone generation, the positive electrode member 19 can be formed by plating lead dioxide using ABS plastic as a base, and the negative electrode member 20 can be formed by using stainless steel as a hydrogen evolution cathode.

In order to increase the contact area between the gas and the liquid during the reaction, water holes 21 are opened on both the positive electrode piece 19 and the negative electrode piece 20.

Example 2

As shown in fig. 1 and 3, the gas-mixed water body generator structure includes a shell assembly 1, a cavity 2 for liquid to pass through is provided in the shell assembly 1, a first liquid port 3 and a second liquid port 4 communicated with the cavity 2 are respectively provided at two ends of the shell assembly 1, a first valve assembly 5 matched with the first liquid port 3 for gas guiding is provided on the shell assembly 1, a second valve assembly 6 matched with the second liquid port 4 for controlling the flow direction of liquid is provided at the position of the second liquid port, an electrode assembly 7 is provided in the cavity 2, the first valve assembly 5 is connected to a first housing 9, and the first valve assembly 5 is directly communicated with the cavity 2.

Preferably, in order to enable the gas to be rapidly pumped out of the cavity, the gas outlet efficiency can be improved by pumping the inside of the first valve assembly 5, for example, a suction pump is additionally arranged on the first valve assembly 5.

The first valve component 5 is directly communicated with the cavity 2 and is suitable for the structure of the gas-mixed water body generator during decomposition, and at the moment, when the second shell 10 is used for feeding liquid, the valve ball 16 is arranged at the end part of one side far away from the cavity 2, the valve spring 17 is arranged on the valve ball 16 and the end part of the second valve body 15 close to one side of the cavity 2, so that the valve ball 16 is completely abutted against the second channel 12, when liquid passes through the second channel 12, the liquid impacts the valve ball 16, the valve ball 16 moves towards one side of the cavity 2, the liquid flows into the cavity 2 through the gap between the valve ball 16 and the second shell 10, after the electrolysis of the electrode assembly 7 is completed, the gas is discharged from the side of the cavity 2 to the outside of the generator directly through the first valve assembly 5, the possibility of the gas entering the first passage 11 is reduced, the end face of the first valve body 13 on the side for conducting the gas faces the side close to the first housing 9, and the gas can be discharged to the outside through the guide plate.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the case assembly 1, the cavity 2, the first liquid port 3, the second liquid port 4, the first valve assembly 5, the second valve assembly 6, the electrode assembly 7, the case body 8, the first housing 9, the second housing 10, the first passage 11, the second passage 12, the first valve body 13, the guide plate 14, the second valve body 15, the valve ball 16, the valve spring 17, the sensor 18, the positive electrode member 19, the negative electrode member 20, the water passing hole 21, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a gas-mixed water body generator structure, its characterized in that includes shell subassembly (1), shell subassembly (1) in have cavity (2) that supply liquid to pass, the both ends of shell subassembly (1) set up respectively and have first liquid mouth (3) and second liquid mouth (4) that are linked together with cavity (2), be provided with on shell subassembly (1) and cooperate with first liquid mouth (3) and be used for air guide first valve module (5), be provided with in second liquid mouth (4) position department and be used for controlling liquid flow direction second valve module (6) rather than the cooperation, cavity (2) in be provided with electrode subassembly (7).

2. The gas-mixed water body generator structure according to claim 1, wherein the shell assembly (1) comprises a shell body (8) and a first shell (9) and a second shell (10) which are respectively connected to the end parts of the two sides of the shell body (8), the first shell (9) is provided with a first channel (11) communicated with the cavity (2), and the second shell (10) is provided with a second channel (12) communicated with the cavity (2).

3. The gas-mixed water body generator structure according to claim 2, wherein the first valve assembly (5) is connected to the first housing (9), and the first valve assembly (5) is communicated with the inside of the first passage (11).

4. The structure of the gas-mixed water body generator according to claim 2, characterized in that the first valve assembly (5) is connected to the first housing (9), and the first valve assembly (5) is directly communicated with the cavity (2).

5. The gas-mixed water body generator structure according to claim 2, wherein the first valve assembly (5) comprises a first valve body (13), one end of the first valve body (13) is connected to the first housing (9), a guide plate (14) for conducting gas in a one-way mode is arranged inside the first valve body (13), when the first valve assembly (5) is used for sucking gas, the end face of one side, used for conducting gas, of the guide plate (14) faces to the side far away from the first housing (9), gas can enter the first channel (11) through the guide plate (14), when the first valve assembly (5) is used for exhausting gas, the end face of one side, used for conducting gas, of the guide plate (14) faces to the side close to the first housing (9), and gas directly enters through the cavity (2) and is exhausted to the outside through the guide plate (14) in the first valve body (13).

6. The gas-mixed water body generator structure according to claim 2, wherein the second valve assembly (6) is arranged in the second housing (10), one end of the second valve assembly (6) is connected with the cavity (2), and the other end of the second valve body (15) abuts against the second channel (12).

7. The gas-mixed water body generator structure according to claim 2, wherein the second valve assembly (6) comprises a second valve body (15) fixed on the second housing (10), a valve ball (16) and a valve spring (17) arranged in the second valve body (15), when the second housing (10) is used for liquid inlet, the valve ball (16) is arranged at the end far away from the cavity (2), the valve spring (17) is arranged at the end of the valve ball (16) and the end of the second valve body (15) near to the cavity (2) so that the valve ball (16) is completely abutted on the second channel (12), when liquid passes through the second channel (12), the valve ball (16) is impacted, the valve ball (16) moves towards the cavity (2), the liquid flows into the cavity (2) through the gap between the valve ball (16) and the second housing (10), when the second housing (10) is used for liquid outlet, the valve ball (16) is arranged at the end part close to one side of the cavity (2), the valve spring (17) is arranged at the end part of one side, far away from the cavity (2), of the valve ball (16) and the second valve body (15), liquid can continuously impact the valve ball (16) in the cavity (2), the valve ball (16) moves towards one side far away from the cavity (2), and the liquid flows into the second channel (12) through a gap between the valve ball (16) and the second shell (10).

8. The gas-mixed water body generator structure according to claim 2, wherein the second housing (10) is provided with a sensor (18) which is matched with the second valve assembly (6), and the sensor (18) is arranged at the side part of the valve ball (16) and is used for detecting the position of the valve ball (16) in movement.

9. The gas-mixed water body generator structure according to claim 1, wherein the electrode assembly (7) comprises a positive electrode piece (19) and a negative electrode piece (20), the positive electrode piece (19) and the negative electrode piece (20) are both in a hollow cylindrical shape, and the positive electrode piece (19) and the negative electrode piece (20) are sleeved and distributed along the length direction of the cavity (2).

10. The gas-mixed water body generator structure as claimed in claim 9, wherein the positive electrode member (19) and the negative electrode member (20) are both provided with water through holes (21).

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