CN218659102U - Gas circuit and water route circulation structure that spraying was eliminated and was killed - Google Patents

Abstract

The utility model provides a gas circuit and water route circulation structure that spraying disappears and kills sets up in spraying robot, include: the liquid storage barrel is internally stored with disinfectant; the water pump is arranged in the liquid storage barrel; the atomization pool is arranged above the liquid storage barrel; the disinfectant is filled into the waterway, one end of the disinfectant filled waterway is communicated with the atomization pool, and the other end of the disinfectant filled waterway is communicated with the water pump; and the residual liquid backflow water path is communicated with the atomizing tank at one end and the liquid storage barrel at the other end. Based on this gas circuit and water route circulation structure that spray disappears and kills, when the robot stops the spray to disappear, remaining antiseptic solution in the atomizing pond can be followed the atomizing pond and flow back in the stock solution bucket, can realize like this and after stopping the spray to disappear and kill, does not have remaining antiseptic solution in the atomizing pond, has avoided the atomizer to still soak this kind of condition emergence in the antiseptic solution after the spray disappears and kills and stop, can prolong the life of atomizer.

Description

Gas circuit and water route circulation structure that spraying was eliminated and was killed

Technical Field

The utility model relates to a loop construction, concretely relates to gas circuit and water route loop construction that spraying disappears and kills.

Background

The spray disinfection robot mostly atomizes the built-in disinfectant by atomization, and then sprays the atomized disinfectant to a designated area by wind pressure to achieve the purpose of disinfection.

However, when the existing spray disinfection robot stops disinfection work, residual disinfectant still exists in the atomization pool, so that the atomizer can be soaked in the residual disinfectant for a long time, and the service life of the atomizer is shortened.

In addition, the conventional overall arrangement of current spraying robot that disappears is to place the stock solution bucket that stores the antiseptic solution in the upper end of atomizing pond, because the overall arrangement of stock solution bucket is higher, and is stored with the antiseptic solution in, leads to the robot focus to be raised, is unfavorable for the stability of robot walking.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: to the above-mentioned bright have can spray the technical defect who disappears the stability when killing the robot because the remaining antiseptic solution reduces the life of atomizer, the overall arrangement of stock solution bucket is higher to be unfavorable for the robot walking of ability, provide a gas circuit and water route circulation structure that sprays and disappears.

In order to solve the technical problem, the utility model provides a gas circuit and water route circulation structure that spraying disappears and kills sets up in spraying robot, and this gas circuit and water route circulation structure that spraying disappears and kills includes: the liquid storage barrel is internally stored with disinfectant; the water pump is arranged in the liquid storage barrel; the atomization pool is arranged above the liquid storage barrel; the disinfectant is filled into the waterway, one end of the disinfectant filled waterway is communicated with the atomization pool, and the other end of the disinfectant filled waterway is communicated with the water pump; and the residual liquid backflow water path is communicated with the atomizing tank at one end and the liquid storage barrel at the other end.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the spraying robot comprises a shell, and a liquid storage barrel is arranged at the bottom of the shell.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the shell is provided with an air inlet and a spray outlet, and the air inlet and the spray outlet are positioned above the atomizing pool.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the lower extreme of air intake is provided with the fan, and the fan is located the top in atomizing pond.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: be provided with the atomizer in the atomizing pond, the atomizer is located the below of fan.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the water pump is arranged at the bottom of the liquid storage barrel and is provided with a water inlet end and a water outlet end, the water inlet end is communicated with the liquid storage barrel, and the water outlet end is communicated with the other end of the disinfectant filling waterway.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the communicating point of the residual liquid reflux waterway and the atomizing pool is positioned at the bottom of the atomizing pool.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic, still include: the one end in antiseptic solution backward flow water route, antiseptic solution backward flow water route and atomizing pond intercommunication, the other end and stock solution bucket intercommunication.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the connecting position of the disinfectant backflow waterway and the atomization pool is a connecting point which is positioned on the side wall of the atomization pool.

The utility model provides an among the gas circuit and the water route circulation structure that the spraying disappears and kills, can also have such characteristic: the communicating point is spaced from the bottom of the atomization pool.

The beneficial effects of the utility model reside in that:

the utility model discloses an among gas circuit and the water route loop structure that the spraying was dissolved and killed, gas circuit and the water route loop structure setting that should the spraying was dissolved and killed are in spraying robot, including stock solution bucket, water pump, atomizing pond, antiseptic solution pour into the water route, remain liquid backward flow water route. Wherein, the liquid storage barrel is internally stored with disinfectant, and the water pump is arranged in the liquid storage barrel; the atomization pool is arranged above the liquid storage barrel; one end of the disinfectant filling waterway is communicated with the atomizing pool, and the other end is communicated with the water pump; one end of the residual liquid backflow waterway is communicated with the atomizing tank, and the other end of the residual liquid backflow waterway is communicated with the liquid storage barrel. Based on this gas circuit and the waterway circulation structure that the spraying was disinfected, when spraying machine people carried out the spraying and disinfected, utilized the water pump to irritate the waterway pump into from the stock solution bucket through the antiseptic solution and atomize in the atomizer. Then, when stopping spraying and killing, remaining antiseptic solution in the atomizing pond can flow back to the stock solution bucket in from the atomizing pond, can realize like this that after stopping spraying and killing, there is not remaining antiseptic solution in the atomizing pond, has avoided the atomizer still to soak this kind of condition emergence in the antiseptic solution after spraying and killing stops, can prolong the life of atomizer.

In addition, spraying robot is including the casing, and the stock solution bucket sets up in the bottom of casing, and the atomizing pond sets up in the top of stock solution bucket, and the stock solution bucket is internal to be stored with the antiseptic solution, can reduce the focus of robot like this, has increased the stability when robot walks.

In addition, still be provided with air intake and spraying outlet on the robot housing, air intake and individual spraying outlet are located the top of atomizing pond, and the lower extreme of air intake is provided with the fan, and the fan is located the top of atomizing pond, is provided with the atomizer in the atomizing pond, and the fan can inhale the air through the air intake like this, then the atomizer atomizes the antiseptic solution, and the antiseptic solution after the atomizing passes through spraying outlet blowout to reach the purpose that the spraying was disinfected.

In addition, still set up antiseptic solution backward flow water route again in this gas circuit of spraying sterilization and waterway circulation structure, the one end and the atomizing pond intercommunication in disinfection backward flow water route, the other end and stock solution bucket intercommunication. Wherein, antiseptic solution backward flow water route and atomizing pond intercommunication department are the intercommunication point, and this intercommunication point is located the lateral wall in atomizing pond, and has the interval between the bottom in this intercommunication point and atomizing pond, can last the in-process of pumping into the antiseptic solution to the atomizing pond at the water pump like this, maintain the liquid level dynamic balance of antiseptic solution in the atomizing pond.

Drawings

FIG. 1 is a schematic structural diagram of an air path and water path circulation structure for mist elimination in this embodiment

Fig. 2 is a partial structural schematic diagram of the air path and water path circulation structure of the spray sterilization in this embodiment.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-2, the air path and water path circulating structure for spraying sterilization is arranged in the spraying sterilization robot, the spraying sterilization robot has a housing 10, the housing 10 is hollow, and the air path and water path circulating structure for spraying sterilization and other necessary components for realizing the spraying sterilization function are arranged in the housing.

The upper surface of the housing 10 is provided with an air inlet 11 and a spray outlet 12, respectively. A fan 13 is disposed below the air inlet 11.

The air path and water path circulating structure for spraying and sterilizing comprises a liquid storage barrel 20, a water pump 30, an atomizing pool 40, a disinfectant filling water path 50, a residual liquid backflow water path 60 and a disinfectant backflow water path 70.

The liquid storage barrel 20 is arranged at the bottom of the shell 10 and stores disinfectant.

The water pump 30 is fixed at the bottom of the liquid storage barrel 20 and has a water inlet end and a water outlet end. The water inlet end is communicated with the liquid storage barrel 20. The water pump 30 can pump the disinfectant in the liquid storage barrel 20 from the water inlet end to the water outlet end of the water pump 30 under the condition of power supply from an external power supply.

The atomizing chamber 40 is disposed above the reservoir 20 and below the fan 13. A plurality of atomizers 41 are fixed at the bottom of the atomizing pool 40.

One end of the disinfectant filling waterway 50 is communicated with the water outlet end of the water pump 30, and the other end is communicated with the side wall of the atomization pool 40 close to the bottom. The disinfectant is poured into the waterway 50, so that the disinfectant at the water outlet end of the water pump 30 is communicated into the atomization pool 40,

one end of the residual liquid reflux waterway 60 is communicated with the bottom of the atomizing tank 40, and the other end is communicated with the liquid storage barrel 20.

One end of the disinfectant backflow waterway 70 is communicated with the atomizing tank 40, and the other end is communicated with the liquid storage barrel 20. Wherein, the connecting point of antiseptic solution backward flow water route 70 and atomizing pond 40 is located atomizing pond 40's lateral wall, and is provided with the interval of certain distance between the bottom of this connecting point and atomizing pond 40, and this distance can carry out the adjustment of adaptability according to actual production demand.

The working principle of the air path and water path circulating structure for spraying and killing is as follows: when the robot needs to perform spraying sterilization, the water pump 30 pumps the disinfectant in the liquid storage barrel 20 from the water inlet end to the water outlet end, then the disinfectant is poured into the water channel 50 and enters the atomizing pool 40, the fan 13 sucks air into the atomizing pool 40 below through the air inlet 11, then the atomizer 41 in the atomizing pool 40 atomizes the disinfectant in the atomizing pool 40, and the atomized disinfectant is sprayed out from the spray outlet 12 through the spray path a.

In the above process, when the liquid level of the disinfecting liquid reaches the connection point between the disinfecting liquid backflow waterway 70 and the atomizing tank 40, the redundant disinfecting liquid flows back into the liquid storage barrel 20 through the disinfecting liquid backflow waterway 70, so as to keep the dynamic balance of the liquid level in the atomizing tank 40.

When the spraying disinfection work is finished, the residual disinfectant can flow back into the liquid storage barrel 20 from one end of the residual disinfectant backflow waterway 60 at the bottom of the atomizing tank 40, so that no residual disinfectant is left in the atomizing tank 40.

According to the gas circuit and the water circuit circulation structure that spray disappears in the above-mentioned embodiment, this gas circuit and water circuit circulation structure that spray disappears sets up in spray robot, including liquid storage bucket, water pump, atomizing pond, antiseptic solution pour into the water circuit, remain the liquid backward flow water circuit. Wherein, the liquid storage barrel is internally stored with disinfectant, and the water pump is arranged in the liquid storage barrel; the atomization pool is arranged above the liquid storage barrel; one end of the disinfectant filling waterway is communicated with the atomizing pool, and the other end is communicated with the water pump; one end of the residual liquid backflow waterway is communicated with the atomizing tank, and the other end of the residual liquid backflow waterway is communicated with the liquid storage barrel. Based on this gas circuit and the waterway circulation structure that the spraying was disinfected, when spraying machine people carried out the spraying and disinfected, utilized the water pump to irritate the waterway pump into from the stock solution bucket through the antiseptic solution and atomize in the atomizer. Then, when stopping spraying and killing, remaining antiseptic solution in the atomizing pond can flow back to the stock solution bucket in from the atomizing pond, can realize like this that after stopping spraying and killing, there is not remaining antiseptic solution in the atomizing pond, has avoided the atomizer still to soak this kind of condition emergence in the antiseptic solution after spraying and killing stops, can prolong the life of atomizer.

In addition, the spraying robot comprises a shell, a liquid storage barrel is arranged at the bottom of the shell, an atomizing pool is arranged above the liquid storage barrel, and disinfectant is stored in the liquid storage barrel, so that the center of gravity of the robot can be reduced, and the walking stability of the robot is improved.

In addition, still be provided with air intake and spraying outlet on the robot housing, air intake and individual spraying outlet are located the top of atomizing pond, and the lower extreme of air intake is provided with the fan, and the fan is located the top of atomizing pond, is provided with the atomizer in the atomizing pond, and the fan can inhale the air through the air intake like this, then the atomizer atomizes the antiseptic solution, and the antiseptic solution after the atomizing passes through spraying outlet blowout to reach the purpose that the spraying was disinfected.

In addition, still set up antiseptic solution backward flow water route again in this gas circuit and the water route circulation structure that sprays to disappear and kill, the one end and the atomizing pond intercommunication in disinfection backward flow water route, the other end and liquid storage bucket intercommunication. Wherein, antiseptic solution backward flow water route and atomizing pond intercommunication department are the intercommunication point, and this intercommunication point is located the lateral wall in atomizing pond, and has the interval between the bottom in this intercommunication point and atomizing pond, can last the in-process of pumping into the antiseptic solution to the atomizing pond at the water pump like this, maintain the liquid level dynamic balance of antiseptic solution in the atomizing pond.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, provided that such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to also incorporate such modifications and variations.

Claims (10)

1. The utility model provides a gas circuit and water route circulation structure that spraying was killed, sets up in spraying robot which characterized in that includes:

the liquid storage barrel is internally stored with disinfectant;

the water pump is arranged in the liquid storage barrel;

the atomizing pool is arranged above the liquid storage barrel;

a disinfectant filling waterway, wherein one end of the disinfectant filling waterway is communicated with the atomization pool, and the other end of the disinfectant filling waterway is communicated with the water pump;

and the residual liquid backflow water path is communicated with the atomizing tank at one end and the liquid storage barrel at the other end.

2. The air and water circuit circulation structure for spray disinfection according to claim 1, characterized in that:

the spray robot comprises a shell body, wherein the shell body is provided with a plurality of spray nozzles,

the liquid storage barrel is arranged at the bottom of the shell.

3. The air and water circuit circulation structure for spray disinfection according to claim 2, characterized in that:

the shell is provided with an air inlet and a spray outlet,

the air inlet and the spray outlet are positioned above the atomization pool.

4. The air and water circuit circulation structure for spray disinfection according to claim 3, characterized in that:

the lower extreme of air intake is provided with the fan, the fan is located the top in atomizing pond.

5. The air and water circuit circulation structure for spray disinfection according to claim 4, wherein:

be provided with the atomizer in the atomizing pond, the atomizer is located the below of fan.

6. The air and water circuit circulation structure for spray disinfection according to claim 1, characterized in that:

the water pump is arranged at the bottom of the liquid storage barrel and is provided with a water inlet end and a water outlet end,

the water inlet end is communicated with the liquid storage barrel,

the water outlet end is communicated with the other end of the disinfectant filling waterway.

7. The air and water circuit circulation structure for spray disinfection according to claim 1, characterized in that:

and the residual liquid backflow waterway is positioned at the bottom of the atomization pool together with the communication point of the atomization pool.

8. The air and water circuit circulation structure for spray disinfection of claim 1, further comprising:

the disinfection liquid flows back to the water channel,

one end of the disinfectant backflow waterway is communicated with the atomizing tank, and the other end of the disinfectant backflow waterway is communicated with the liquid storage barrel.

9. The air and water circuit circulation structure for spray disinfection according to claim 8, wherein:

the disinfectant backflow waterway is communicated with the atomization pool to form a communication point, and the communication point is positioned on the side wall of the atomization pool.

10. The air and water circuit circulation structure for spray disinfection according to claim 9, characterized in that:

and a space is arranged between the communication point and the bottom of the atomization pool.

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