CN219964531U - Split combined bubble water generating mechanism - Google Patents

Abstract

The split combined bubble water generating mechanism comprises a mounting cover, wherein a booster pump is arranged in the mounting cover, a water inlet pipe and a water outlet pipe are connected to the booster pump, mounting plates are respectively arranged on two sides of the mounting cover, a gas-liquid mixing device is arranged on the mounting plate on one side, the gas-liquid mixing device is connected with the water inlet pipe, a bubble generating pressure stabilizing device is arranged on the mounting plate on the other side, and the bubble generating pressure stabilizing device is communicated with the water outlet pipe. The booster pump is arranged in the mounting cover, the original bubble water generating structure is divided into two groups of components of the gas-liquid mixing device and the bubble generation pressure stabilizing device, and the two groups of components are separately arranged on the mounting plates on two sides of the mounting cover, so that the bubble water generating mechanism and the booster pump can be assembled together, the integration level is high, the integrity is good, the size of the device is reduced, the device is convenient to install, the occupied space in the water purifier is small, and therefore the size of the whole water purifier can be reduced, and the manufacturing cost is reduced.

Description

Split combined bubble water generating mechanism

Technical Field

The utility model relates to a split combined bubble water generating mechanism, and belongs to the field of bubble water preparation.

Background

Along with the continuous improvement of the living standard of people, people attach more and more importance to the health of living drinking water, so the household water purifier is widely used. The water purifier filters raw water through a reverse osmosis membrane, pure water enters a pressure barrel through a pure water port of a reverse osmosis membrane filter element (namely an RO membrane filter element), and wastewater is directly discharged through a wastewater outlet. The traditional water purifier can only purify and filter water quality generally, has a single function, and cannot be realized if people want to drink bubble water. Therefore, the water purifier capable of preparing the bubble water is invented, but all components for preparing the bubbles in the existing bubble water purifier are formed by connecting pipelines in series, the integration level is low, the size of the whole water purifier is increased, and the manufacturing cost is increased. Therefore, the inventor applied for the chinese patent 202221629426.X, the patent name is "integrated bubble water generating mechanism", the structure sets the air inlet chamber, the water inlet chamber, the jet flow chamber and the air-liquid mixing chamber in the same housing, that is, the whole bubble water generating mechanism is integrated together, and the pump inlet joint and the pump outlet joint are connected with the booster pump through the pipeline, because the whole bubble water generating mechanism is integrated together, the housing has a larger volume, while the booster pump in the patent drawing is a schematic structure, in actual production, the volume of the booster pump is larger than that of the housing, and the housing and the booster pump need to be separately installed, thereby occupying a larger space, resulting in the increase of the volume of the whole water purifier and the increase of manufacturing cost.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the split combined type bubble water generating mechanism which has the advantages of high integration level, good integrity, small occupied space, small size of the whole water purifier, convenience in installation and reduction in manufacturing cost.

The utility model discloses a split combined bubble water generating mechanism, which comprises the following technical scheme: the device comprises a mounting cover, wherein a booster pump is arranged in the mounting cover, a water inlet pipe and a water outlet pipe are connected to the booster pump, mounting plates are respectively arranged on two sides of the mounting cover, a gas-liquid mixing device is arranged on one side of the mounting plates, the gas-liquid mixing device is connected with the water inlet pipe, a bubble generation pressure stabilizing device is arranged on the other side of the mounting plates, and the bubble generation pressure stabilizing device is communicated with the water outlet pipe.

Further, the gas-liquid mixing device comprises a first shell, a water inlet, an air inlet, a jet flow cavity and a pump inlet are formed in the first shell, the water inlet is connected with a pure water inlet pipeline, the air inlet is connected with an air pump, a venturi jet device is arranged in the jet flow cavity and is provided with a side inlet, a circulation cavity and a side outlet, one end of the side inlet is communicated with the water inlet, the other end of the side inlet is communicated with the side outlet, the circulation cavity is communicated with the air inlet and the side outlet, a first electromagnetic valve is arranged on the first shell, the side outlet is communicated with the pump inlet through the first electromagnetic valve, and the pump inlet is connected with a water inlet pipe of a booster pump.

Further, the bubble generation pressure stabilizing device comprises a second shell, an upper cover is arranged on the second shell, a pump outlet, a cavity, a water outlet cavity and a bubble water outlet are formed in the second shell, one end of the pump outlet is connected with a water outlet pipe of the booster pump, the other end of the pump outlet is communicated with the cavity, a second electromagnetic valve is arranged on the second shell, the other side of the cavity is communicated with the water outlet cavity through the second electromagnetic valve, and the water outlet cavity is communicated with the bubble water outlet.

The split combined type bubble water generating mechanism has the beneficial effects that: the booster pump is arranged in the mounting cover, the original bubble water generating structure is divided into two groups of components of the gas-liquid mixing device and the bubble generation pressure stabilizing device, and the two groups of components are separately arranged on the mounting plates on two sides of the mounting cover, so that the bubble water generating mechanism and the booster pump can be assembled together, the integration level is high, the integrity is good, the size of the device is reduced, the device is convenient to install, the occupied space in the water purifier is small, and therefore the size of the whole water purifier can be reduced, and the manufacturing cost is reduced.

Drawings

FIG. 1 is a front perspective view of a split combined bubble water generating mechanism of the present utility model;

FIG. 2 is a rear perspective view of the split combined bubble water generating mechanism of the present utility model;

FIG. 3 is a schematic diagram of the gas-liquid mixing device and mounting cover, and the booster pump in a matched state;

FIG. 4 is a schematic diagram of the structure of the bubble generating pressure stabilizing device in a state of being matched with the mounting cover and the booster pump;

fig. 5 is a schematic perspective view showing a state where the second housing is engaged with the second electromagnetic valve.

Description of the embodiments

The utility model relates to a split combined bubble water generating mechanism, which is shown in fig. 1-5, and comprises a mounting cover 1, wherein a booster pump 2 is arranged in the mounting cover, a water inlet pipe 3 and a water outlet pipe 4 are connected to the booster pump, mounting plates 5 are respectively arranged on two sides of the mounting cover 1, a gas-liquid mixing device is arranged on one mounting plate, the gas-liquid mixing device is connected with the water inlet pipe 3, a bubble generating pressure stabilizing device is arranged on the mounting plate on the other side, and the bubble generating pressure stabilizing device is communicated with the water outlet pipe 4.

Further, the gas-liquid mixing device comprises a first shell 61, a water inlet 62, an air inlet 63, a jet cavity 64 and a pump inlet 66 are formed in the first shell, the water inlet 62 is connected with a pure water inlet pipeline, the air inlet 63 is connected with an air pump, a venturi jet 66 is arranged in the jet cavity 64 and is provided with a side inlet 67, a circulation cavity 68 and a side outlet 69, one end of the side inlet is communicated with the water inlet 62, the other end of the side inlet 67 is communicated with the side outlet 69, the circulation cavity 68 is communicated with the air inlet 63 and the side outlet 69, a first electromagnetic valve 70 is arranged on the first shell 61, the side outlet 69 is communicated with the pump inlet 66 through the first electromagnetic valve 70, and the pump inlet is connected with a water inlet pipe 3 of the booster pump 2.

Further, the bubble generating and pressure stabilizing device comprises a second shell 81, an upper cover 87 is arranged on the second shell, a pump outlet 82, a cavity 83, a water outlet cavity 84 and a bubble water outlet 85 are formed in the second shell, one end of the pump outlet is connected with the water outlet pipe 4 of the booster pump 2, the other end of the pump outlet is communicated with the cavity 83, a second electromagnetic valve 86 is arranged on the second shell, and the other side of the cavity is communicated with the water outlet cavity 84 through the second electromagnetic valve, and the water outlet cavity is communicated with the bubble water outlet 85.

The utility model discloses a split combined bubble water generating mechanism, which is mainly characterized in that an installing cover 1 is arranged outside a booster pump 2, the booster pump is fixed with the installing cover through a fastening piece, installing plates 5 are arranged on two sides of the installing cover, the original bubble water generating structure is divided into two groups of components of a gas-liquid mixing device and a bubble generation pressure stabilizing device, wherein the gas-liquid mixing device is arranged on one side installing plate, the bubble generation pressure stabilizing device is arranged on the other side installing plate, pure water manufactured by a water purifying device is conveyed into a water inlet 62 through a pure water inlet pipeline and then conveyed into a side inlet 67 of a venturi jet 71 (the specific structure of the venturi jet is the prior art) in a first shell 61, and air or carbon dioxide is conveyed into a circulation cavity 68 from the air inlet 63, since the inner diameter of one end of the side inlet of the front section of the venturi jet 71 is large, the inner diameter of the other end is gradually reduced, and the inner diameter of the rear section is gradually increased, a joint is formed between the front section and the rear section, and the joint is communicated with the circulation chamber 68, so that suction force is formed at the joint of the side inlet 67 and the side outlet 69, the suction force sucks the input gas into the venturi jet to mix the gas with water (i.e., bubble water), when the first electromagnetic valve 70 is opened, the gas-liquid mixture (i.e., bubble water) is conveyed to the pump inlet 66 through the first electromagnetic valve and then conveyed to the booster pump 2 through the water inlet pipe 3, at this time, the gas-liquid mixture is formed into a high-pressure gas-liquid mixture through the water outlet pipe 4 to the pump outlet 82 of the bubble generating pressure stabilizing device, and then is conveyed into the cavity 83 of the second housing 81 through the pump outlet, because the gas-liquid mixture is delivered after the booster pump 2 is pressurized, the pressure is unstable, the larger cavity 83 can stabilize the pressure of the gas-liquid mixture, and can enable bubbles and water to be uniformly dissolved and mixed in the cavity 83, then the second electromagnetic valve 86 is opened, and the stabilized gas-liquid mixture is delivered to the water outlet cavity 84 through the second electromagnetic valve 86 and finally is output from the bubble water outlet 85. The booster pump 2 is arranged in the mounting cover 1, the original bubble water generating structure is divided into two groups of components of the gas-liquid mixing device and the bubble generation pressure stabilizing device, and the two groups of components are separately arranged on the mounting plates 5 on two sides of the mounting cover 1, so that the bubble water generating mechanism and the booster pump 2 can be assembled together, the integration level is high, the integrity is good, the size of the device is reduced, the device is convenient to install, the occupied space in the water purifier is small, the size of the whole water purifier can be reduced, and the manufacturing cost is reduced.

Claims (3)

1. The split combined type bubble water generating mechanism is characterized in that: including installing cover (1), set up booster pump (2) in the installing cover, connect inlet tube (3) and outlet pipe (4) on the booster pump, the both sides of installing cover (1) are made mounting panel (5) respectively, set up gas-liquid mixing device on the mounting panel of one side, gas-liquid mixing device connects inlet tube (3), sets up bubble on the mounting panel of opposite side and takes place voltage regulator device, and bubble takes place voltage regulator device and communicates with each other with outlet pipe (4).

2. The split combined type bubble water generating mechanism according to claim 1, wherein: the gas-liquid mixing device comprises a first shell (61), a water inlet (62), an air inlet (63), a jet cavity (64) and a pump inlet (66) are formed in the first shell, the water inlet (62) is connected with a pure water inlet pipeline, the air inlet (63) is connected with an air pump, a venturi jet (71) is arranged in the jet cavity (64), the venturi jet is provided with a side inlet (67), a circulation cavity (68) and a side outlet (69), one end of the side inlet is communicated with the water inlet (62), the other end of the side inlet (67) is communicated with the side outlet (69), the circulation cavity (68) is communicated with the air inlet (63) and the side outlet (69), a first electromagnetic valve (70) is arranged on the first shell (61), the side outlet (69) is communicated with the pump inlet (66) through the first electromagnetic valve (70), and the pump inlet is connected with a water inlet pipe (3) of a booster pump (2).

3. The split combined type bubble water generating mechanism according to claim 1, wherein: the bubble generation pressure stabilizing device comprises a second shell (81), an upper cover (87) is arranged on the second shell, a pump outlet (82), a cavity (83), a water outlet cavity (84) and a bubble water outlet (85) are formed in the second shell, one end of the pump outlet is connected with a water outlet pipe (4) of the booster pump (2), the other end of the pump outlet is communicated with the cavity (83), a second electromagnetic valve (86) is arranged on the second shell, the other side of the cavity is communicated with the water outlet cavity (84) through the second electromagnetic valve, and the water outlet cavity is communicated with the bubble water outlet (85).