CN214194828U

CN214194828U - Foam cleaning solution generating system

Info

Publication number: CN214194828U
Application number: CN202022814451.2U
Authority: CN
Inventors: 庞华国
Original assignee: Dongguan Dynamic Sources Technology Co ltd
Current assignee: Dongguan Dynamic Sources Technology Co ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2021-09-14
Anticipated expiration: 2030-11-27

Abstract

The utility model relates to a foam cleaning device field indicates a foam cleaning solution takes place system especially. In this application, through with the cleaning solution foam, improve the availability factor of cleaning solution greatly. In this application, through the clear water of liquid pump extraction water tank, this clear water is carried to proportion blender, so clear water and the cleaning solution of foaming mix in proportion, make the better foam concentrate of preparation cleaning effect, make the foam concentrate production volume improve greatly simultaneously, the coverage area is wider. And the concentration of the foam liquid can be kept unchanged, and the lower the concentration of the foam liquid is, the longer the foam liquid is used, the lower the concentration of the foam liquid is. The intelligent closestool perfectly embodies the progress of products in the application of the intelligent closestool, the foam liquid after water injection can completely cover the closestool by installing the annular foam pipeline at the edge of the existing closestool and matching the annular foam pipeline with the foam nozzle, and the dirt on the closestool wall is better cleaned.

Description

Foam cleaning solution generating system

Technical Field

The utility model relates to a foam cleaning device field indicates a foam cleaning solution takes place system especially.

Background

The sanitary problem of the closestool is very important for modern people, so that a closestool cleaning liquid or a cleaning block is available on the market, the closestool cleaning liquid or the cleaning block is usually put into a closestool water tank, when the closestool water tank is pressed to discharge water, the cleaning liquid flows into the closestool along with water flow to achieve the fragrant cleaning effect, but the cleaning liquid is not subjected to foaming treatment, the whole cleaning effect is poor, the cleaning liquid can clean the inner wall of the closestool only through a single injection port, and the coverage area of the cleaning liquid is small. Meanwhile, the cleaning liquid block is placed in the water tank, which is a soaking type, so the disadvantages of low concentration and large consumption will occur when the water tank is used for a long time.

Disclosure of Invention

In order to solve the problem, the utility model provides a system takes place for foam cleaning solution through with the cleaning solution foam, improves the availability factor of cleaning solution greatly. Meanwhile, clear water in the water tank is pumped by the liquid pump and is conveyed to the proportioning mixer, so that the clear water and the foamed cleaning solution are mixed in proportion, the foam solution with better cleaning effect is prepared, the foam solution production is greatly improved, and the coverage area is wider.

In order to achieve the above object, the utility model adopts the following technical scheme: a foam cleaning liquid generating system comprises a water-air pump, a liquid pump, a proportioner, a water tank, an annular foam pipeline, a cleaning liquid tank body filled with cleaning liquid, and foam nozzles which are uniformly distributed on the annular foam pipeline and are communicated with the annular foam pipeline; the cleaning solution tank is provided with a cleaning solution inlet, a cleaning solution outlet and a water tank, wherein the water-air pump is provided with an air inlet nozzle communicated with outside air, a liquid inlet nozzle communicated with the cleaning solution tank and a foam outlet used for outputting foam, and the liquid pump is provided with a water outlet and a water inlet communicated with the water tank; wherein the foam outlet and the water outlet are both communicated with the input end of the proportioning device, and the output end of the proportioning device is communicated with the annular foam pipeline.

Further, the water-air pump comprises an upper cover, a valve seat for controlling the direction of water vapor and a pumping and discharging assembly for sucking and discharging water vapor; the gas inlet nozzle, the liquid inlet nozzle and the foam outlet are all arranged on the upper cover, and the upper cover is buckled on the valve seat and forms a gas-liquid mixing chamber communicated with the foam outlet, a gas inflow chamber communicated with the gas inlet nozzle and a liquid inflow chamber communicated with the liquid inlet nozzle with the valve seat; the valve seat is provided with an air inlet channel for air to flow into the pumping and discharging assembly from the air inflow chamber and a liquid inlet channel for cleaning liquid to flow into the pumping and discharging assembly from the liquid inflow chamber; and inlet channel all are provided with the check valve, the disk seat has been seted up and has been supplied steam to follow the pump drainage subassembly flows to the aqueous vapor passageway of gas-liquid mixture cavity.

Furthermore, a plurality of foam nozzles are equidistantly distributed on the annular foam pipeline.

Further, the proportioner is provided with a first input end and a second input end, wherein the foam outlet is communicated with the first input end through a foam pipeline, the water outlet is communicated with the first input end through a water outlet pipeline, and the proportioner is also internally provided with a proportional controller.

Further, a foam one-way valve which only allows the foam to flow out of the foam outlet is arranged in the foam outlet.

Further, the output end of the proportioner is communicated with the annular foam pipeline through a foam hose.

The beneficial effects of the utility model reside in that:

1. in this application, through with the cleaning solution foam, improve the availability factor of cleaning solution greatly.

2. In this application, through the clear water of liquid pump extraction water tank, this clear water is carried to proportion blender, so clear water and the cleaning solution of foaming mix in proportion, make the better foam concentrate of preparation cleaning effect, make the foam concentrate production volume improve greatly simultaneously, the coverage area is wider. And the concentration of the foam liquid can be kept unchanged, and the lower the concentration of the foam liquid is, the longer the foam liquid is used, the lower the concentration of the foam liquid is.

3. The intelligent closestool perfectly embodies the progress of products in the application of the intelligent closestool, the foam liquid after water injection can completely cover the closestool by installing the annular foam pipeline at the edge of the existing closestool and matching the annular foam pipeline with the foam nozzle, and the dirt on the closestool wall is better cleaned.

Drawings

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

Fig. 2 is an exploded view of the water and gas pump.

Fig. 3 is a schematic structural view of the upper cover.

The reference numbers illustrate: the device comprises a water-air pump 1, a liquid inlet nozzle 11, a foam outlet 12, an air inlet nozzle 13, a foam pipeline 14, a pumping and discharging assembly 15, a valve seat 16, an upper cover 17, a liquid pump 2, a water outlet pipeline 21, a cleaning liquid tank body 3, a water tank 4, a proportioner 5, a first input end 51, a second input end 52, a foam hose 53, an annular foam pipeline 6 and a foam nozzle 7.

Detailed Description

Referring to fig. 1-3, the present invention relates to a foam cleaning solution generating system, which comprises a water/air pump 1, a liquid pump 2, a proportioner 5, a water tank 4, a circular foam pipe 6, a cleaning solution tank 3 filled with cleaning solution, and foam nozzles 7 uniformly distributed on the circular foam pipe 6 and communicated with the circular foam pipe 6; wherein the water-air pump 1 is provided with an air inlet nozzle 13 communicated with the outside air, a liquid inlet nozzle 11 communicated with the cleaning solution tank body 3 and a foam outlet 12 for outputting foam, and the liquid pump 2 is provided with a water outlet and a water inlet communicated with the water tank 4; wherein, the foam outlet 12 and the water outlet are both communicated with the input end of the proportioning device 5, and the output end of the proportioning device 5 is communicated with the annular foam pipeline 6.

Further, the water and air pump 1 comprises an upper cover 17, a valve seat 16 for controlling the direction of the water and air, and a pumping assembly 15 for sucking and discharging the water and air; the gas inlet nozzle 13, the liquid inlet nozzle 11 and the foam outlet 12 are all arranged on an upper cover 17, and the upper cover 17 is buckled on the valve seat 16 and forms a gas-liquid mixing chamber communicated with the foam outlet 12, a gas inflow chamber communicated with the gas inlet nozzle 13 and a liquid inflow chamber communicated with the liquid inlet nozzle 11 with the valve seat 16; the valve seat 16 is provided with an air inlet channel for air to flow into the pumping and discharging assembly 15 from the air inflow chamber and a liquid inlet channel for cleaning liquid to flow into the pumping and discharging assembly 15 from the liquid inflow chamber; and inlet channel all are provided with the check valve, disk seat 16 has seted up and has supplied steam to follow pump drainage subassembly 15 flows out to the aqueous vapor passageway of gas-liquid mixture chamber.

In the application, firstly, the water-air pump 1 pumps cleaning liquid from the cleaning liquid box body 3, and the cleaning liquid sequentially passes through the liquid inlet nozzle 11, the liquid inflow chamber, the liquid inlet channel, the pumping and discharging assembly 15, the water-air channel and the gas-liquid mixing chamber; the water-gas pump 1 also pumps external air, wherein the external air sequentially enters the air inlet nozzle 13, the air inflow chamber, the air inlet channel, the pumping and exhausting assembly 15, the water-gas channel and the gas-liquid mixing chamber; wherein the air and the cleaning liquid entering the gas-liquid mixing chamber are mixed; the cleaning liquid and the air pass through the through holes of the gas-liquid mixing separation net arranged in the gas-liquid mixing cavity, and the through holes of the gas-liquid mixing separation net can further promote the mixing of the cleaning liquid and the air and refine bubbles; the foam-type cleaning liquid produced after the cleaning liquid is mixed with the air is finally output to the input end of the proportioner 5 through the foam outlet 12. Because in this application, through with the cleaning solution foaming, improve the availability factor of cleaning solution greatly. In addition, in the application, on the basis of the existing foam cleaning, clear water in the water tank 4 is extracted through the liquid pump 2 and is conveyed to the proportioner 5, so that the clear water and the foamed cleaning solution are mixed in proportion, the foam solution with better cleaning effect is prepared, the foam solution production is greatly improved, and the coverage area is wider.

The intelligent closestool perfectly embodies the inherent progress of products in the application of the intelligent closestool, the foam liquid after water injection can completely cover the closestool by installing the annular foam pipeline 6 at the edge of the existing closestool and matching the annular foam pipeline 6 with the foam nozzle 7, and the dirt on the closestool wall can be better cleaned.

Further, a plurality of foam nozzles 7 are equidistantly distributed on the ring-shaped foam pipe 6. The design of equidistant distribution can ensure that the foam nozzles 7 can uniformly clean the closestool without cleaning dead angles.

Further, the proportioner 5 is provided with a first input end 51 and a second input end 52, wherein the foam outlet 12 is communicated with the first input end 51 through the foam pipeline 14, the water outlet is communicated with the first input end 51 through the water outlet pipeline 21, and a proportion controller is further arranged inside the proportioner 5. The user can adjust the mixing ratio of the cleaning liquid and the clear water according to the actual requirement through the ratio controller.

Further, a foam check valve is provided in the foam outlet 12 to allow only foam to flow out of the foam outlet 12. The foam one-way valve can prevent the foam from guiding back to the water pump 1.

Further, the output end of the proportioner 5 is communicated with the annular foam pipe 6 through a foam hose 53.

It should further be noted that the water and air pump 1 of the present invention can be applied not only to mixing cleaning liquid with air, but also to mixing other liquid with air, such as a disinfectant liquid with air to generate a foam-type disinfectant liquid.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims

1. A foam cleaning fluid generating system, comprising: comprises a water-air pump, a liquid pump, a proportioner, a water tank, an annular foam pipeline, a cleaning liquid tank body filled with cleaning liquid, and foam nozzles which are uniformly distributed on the annular foam pipeline and are communicated with the annular foam pipeline; the cleaning solution tank is provided with a cleaning solution inlet, a cleaning solution outlet and a water tank, wherein the water-air pump is provided with an air inlet nozzle communicated with outside air, a liquid inlet nozzle communicated with the cleaning solution tank and a foam outlet used for outputting foam, and the liquid pump is provided with a water outlet and a water inlet communicated with the water tank; wherein the foam outlet and the water outlet are both communicated with the input end of the proportioning device, and the output end of the proportioning device is communicated with the annular foam pipeline.

2. A foam cleaning fluid generating system according to claim 1, wherein: the water-air pump comprises an upper cover, a valve seat for controlling the direction of water vapor and a pumping and discharging assembly for sucking and discharging water vapor; the gas inlet nozzle, the liquid inlet nozzle and the foam outlet are all arranged on the upper cover, and the upper cover is buckled on the valve seat and forms a gas-liquid mixing chamber communicated with the foam outlet, a gas inflow chamber communicated with the gas inlet nozzle and a liquid inflow chamber communicated with the liquid inlet nozzle with the valve seat; the valve seat is provided with an air inlet channel for air to flow into the pumping and discharging assembly from the air inflow chamber and a liquid inlet channel for cleaning liquid to flow into the pumping and discharging assembly from the liquid inflow chamber; and inlet channel all are provided with the check valve, the disk seat has been seted up and has been supplied steam to follow the pump drainage subassembly flows to the aqueous vapor passageway of gas-liquid mixture cavity.

3. A foam cleaning fluid generating system according to claim 1, wherein: the plurality of foam nozzles are distributed on the annular foam pipeline at equal intervals.

4. A foam cleaning fluid generating system according to claim 1, wherein: the proportioner is provided with a first input end and a second input end, wherein a foam outlet is communicated with the first input end through a foam pipeline, a water outlet is communicated with the first input end through a water outlet pipeline, and a proportioner is arranged inside the proportioner.

5. A foam cleaning fluid generating system according to claim 1, wherein: a foam one-way valve which only allows the foam to flow out of the foam outlet is also arranged in the foam outlet.

6. A foam cleaning fluid generating system according to claim 1, wherein: the output end of the proportioner is communicated with the annular foam pipeline through a foam hose.