CN211914242U - Novel high-temperature-free atomizer - Google Patents

Abstract

The utility model provides a novel no high temperature atomizer, including high pressurized air source, air source controller, pressure seal container, first gas-liquid mixing pipeline, second gas-liquid mixing pipeline and atomizer. The air outlet end of the high-pressure air source is respectively communicated with the air inlet end of the first air-liquid mixing pipeline and the air inlet end of the second air-liquid mixing pipeline, and the air outlet end of the first air-liquid mixing pipeline is connected with the atomizing nozzle after being converged and communicated with the air outlet end of the second air-liquid mixing pipeline. The utility model discloses a carry out a lot of high pressure to the washing liquid and blow and form the fog behind the messenger gas-liquid mixture, make the washing liquid fog fastly, atomization effect is better, and the adhesive force is stronger, difficult jam.

Description

Novel high-temperature-free atomizer

Technical Field

The utility model belongs to the technical field of spraying equipment, in particular to novel no high temperature atomizer.

Background

At present, due to poor ventilation, difficult sunlight irradiation, more active people and difficult various odors in places such as hotel rooms, song halls, dance halls, hospital wards, small warehouses, classrooms and the like, the common method in the past is that after a guest leaves, the guest blows by a high-power fan, then sprays perfume by a sprayer, some perfumes are irradiated by an ultraviolet lamp, but peculiar smell is difficult to remove, and the hotel rooms, the song hall, the dance halls, the hospital wards, the small warehouses, the classrooms and the like are only required to. In the epidemic situation period of the novel tubular virus, the emergency disinfection channel is used for disinfecting outgoing and incoming personnel, so that the novel tubular virus disinfection channel is an effective means for preventing virus from spreading and infecting; specifically, when the disinfectant liquid is sprayed by an atomizer, the disinfectant liquid is diffused in a disinfection channel, and people can achieve the disinfection effect after passing through an atomization area; therefore, the disinfectant needs to have the characteristics of uniform and fine atomization and long idle time after atomization, so that better and more efficient disinfection can be realized, and the dosage and the cost of disinfectant liquid are reduced.

The atomizer is a device which changes liquid medicine or other liquid into fog by utilizing the suction effect and sprays the fog to other objects uniformly, and comprises a device for compressing air, a thin tube, a nozzle and the like. Have among the current high temperature atomizer to blow off liquid in the liquid storage tank from top to bottom through gaseous, cause easily to block up and often exist the spraying inhomogeneous, fine and smooth inadequately, the speed of fogging is slow, the spraying permeability is not strong and the short scheduling problem of hang-up time, and current atomizer is many to need high temperature atomizing, high temperature atomizing's atomizer consumes the energy on the one hand, in addition can not use to the material that the heating is easily decomposed, the restriction is great, so need to design a atomizer that can solve above-mentioned problem urgently, be applied to fields such as car sterilization and house sterilization formaldehyde removal.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem that current atomizer exists, the utility model provides a can reach quick fog, the mobility of spraying is good, the long novel no high temperature atomizer of hang-up time.

The utility model discloses a realize through following technical scheme:

a novel high-temperature-free atomizer comprises a high-pressure gas source, a gas source controller, a gas inlet pipe, a pressure sealing container, a high-pressure gas pipe, a multi-stage gas-liquid mixing unit and an atomizing nozzle;

the high-pressure air source is connected with the air source controller; the air source controller, the air inlet pipe and the high-pressure air pipe are respectively connected with the first three-way pipe;

the air inlet pipe is provided with a first pressure controller and is connected with an air inlet of the pressure sealing container;

the high-pressure air pipe is connected with the air inlet end of the multi-stage gas-liquid mixing unit; the gas outlet end of the multi-stage gas-liquid mixing unit is respectively connected with the gas outlet of the pressure sealing container and the atomizing nozzle; the multi-stage gas-liquid mixing unit at least comprises 2 gas-liquid mixing pipelines which are arranged in parallel.

The multistage gas-liquid mixing unit is preferably composed of 2-4 gas-liquid mixing pipelines which are arranged in parallel.

The utility model discloses just can be through multistage gas-liquid mixing unit at normal atmospheric temperature, carry out multistage high pressure to the antiseptic solution among the pressure closed container and blow and make and form the fog behind the gas-liquid mixture, it is fast to have a fog, and fog spraying effect is better, and the permeability is stronger, thereby adheres to and makes the spraying hold-up time long more easily.

As a further improvement, the inlet end of the gas-liquid mixing pipeline is communicated and connected with the high-pressure gas pipe through the second three-way pipe, and the outlet end of the gas-liquid mixing pipeline is communicated and connected with the gas outlet and the atomizing spray head of the pressure sealing container through the third three-way pipe respectively.

As a further improvement of the utility model, the gas-liquid mixing pipeline on be equipped with second pressure controller.

As a further improvement of the utility model, the atomizing spray head is replaceable and is selected from one of a large-hole atomizing spray head or a small-hole atomizing spray head; the aperture of the large-hole atomizing nozzle is 1-5 mm; the aperture of the small-hole atomization is 0.1-0.5 mm.

As a further improvement of the present invention, the adjustable ranges of the first pressure controller and the second pressure controller are 0-10 MPa.

As a further improvement of the utility model, the gas source controller comprises a harmful gas detection device, a single chip microcomputer controller and an electric valve; the harmful gas detection device is electrically connected with the single chip microcomputer controller, and the single chip microcomputer controller is electrically connected with the electric valve.

The harmful gas detection device is used for detecting whether the content of harmful gas in the air exceeds the standard or not, the single chip microcomputer controller is used for receiving a detection signal of the harmful gas detection device and sending an electric valve switching signal, and the electric valve is used for switching on and off a gas switch of a high-pressure gas source.

The utility model discloses a no high temperature atomizer theory of operation as follows:

when disinfectant is added into the pressure sealed container, the large-hole atomizing nozzle is adopted, the gas source controller is opened, after high-pressure gas enters the first three-way pipe, one part of high-pressure gas enters the pressure sealed container through the first pressure controller, the other part of high-pressure gas enters the high-pressure gas pipe, the first pressure controller is adjusted, so that the gas enters the pressure sealed container at high pressure, the disinfectant or cleaning agent blows water mist from the high-pressure gas, the water mist is blown by the high-pressure gas, the disinfectant or cleaning agent enters the multistage gas-liquid mixing unit after the gas comes out from the mist outlet and is subjected to multistage mixing with the gas in the high-pressure gas pipe, and finally the.

When cleaning agent is added into the pressure sealing container, the small-hole atomizing nozzle is adopted, the gas source controller of the high-pressure gas source is opened, after the high-pressure gas source enters the first three-way pipe, one part of gas enters the pressure controller, the other part of gas enters the high-pressure gas pipe, the pressure is reduced through the pressure controller, so that the gas enters the pressure sealing container from the gas inlet at low pressure, foam is blown up by the cleaning agent solution in the container, the foam overflows from the mist outlet and enters the gas outlet, then the foam is subjected to multistage mixing with the high-pressure gas in the high-pressure gas pipe through the multistage gas-liquid mixing unit and then blown out into mist, and the mist is sprayed out more densely from the small-hole atomizing nozzle after passing through the.

The utility model has the advantages as follows:

1. the utility model discloses an atomizer passes through multistage gas-liquid mixing unit, can blow off into fog with sanitizer or antiseptic solution under normal atmospheric temperature, and the fog is more even fine and close after the multistage mixture, and the fog is fast, and the permeability is high, and the hang-up time is long, can reach fine cleaning or disinfection effect.

2. The utility model discloses an atomizer blows out into fog through gas under the normal atmospheric temperature, and the speed of fogging is fast, and the speed that stops is also fast, can not produce extravagantly, and can all use this same device when needing blowout sanitizer or antiseptic solution, does not need unnecessary pressure seal jar, reduces the space, raises the efficiency, also practices thrift manufacturing cost, and is profitable.

3. The utility model uses different atomizing nozzles to spray different atomized liquids, which can accelerate the atomizing efficiency and avoid the blockage of the atomizing nozzles; only uses gas blowing as motive power to carry out fogging, saves energy, reduces use cost and is suitable for wide production.

Drawings

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

FIG. 2 is a schematic structural view of a high temperature atomizer-free atomizer according to example 1.

FIG. 3 is a schematic structural view of a high temperature atomizer-free atomizer according to example 2.

Fig. 4 is a schematic view of the structural connection of the air source controller of the present invention.

Reference numerals: 1-a high-pressure gas source, 2-a gas source controller, 201-a harmful gas detection device, 202-a single chip microcomputer controller, 203-an electric valve, 3-a first three-way pipe, 4-a gas inlet pipe, 5-a first pressure controller, 6-a pressure sealed container, 7-a gas inlet, 8-a gas outlet, 9-a high-pressure gas pipe, 10-a second three-way pipe, 11-a multistage gas-liquid mixing unit, 12-a gas-liquid mixing pipeline, 13-a second pressure controller, 14-a third three-way pipe and 15-an atomizing nozzle.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 2, the novel high-temperature-free atomizer comprises a high-pressure gas source 1, a gas source controller 2, a gas inlet pipe 4, a pressure sealing container 6, a high-pressure gas pipe 9, a multi-stage gas-liquid mixing unit 11 and an atomizing nozzle 15;

the high-pressure air source 1 is connected with the air source controller 2; the air source controller 2, the air inlet pipe 4 and the high-pressure air pipe 9 are respectively connected with the first three-way pipe 3; the gas controller 2 comprises a harmful gas detection device 201, a singlechip controller 202 and an electric valve 203; the harmful gas detection device 201 is electrically connected with the single chip microcomputer controller 202, and the single chip microcomputer controller 202 is electrically connected with the electric valve 203;

the air inlet pipe 4 is provided with a first pressure controller 5, and the air inlet pipe 4 is connected with an air inlet 7 of a pressure sealing container 6;

the high-pressure air pipe 9 is connected with the air inlet end of the multi-stage gas-liquid mixing unit 11; the air outlet end of the multi-stage gas-liquid mixing unit 11 is respectively connected with the air outlet 8 of the pressure seal container 6 and the atomizing nozzle 15; the multistage gas-liquid mixing unit 11 consists of 2 gas-liquid mixing pipelines 12 which are arranged in parallel; the gas inlet end of the gas-liquid mixing pipeline 12 is communicated and connected with the high-pressure gas pipe 9 through a second three-way pipe 10, and the gas outlet end of the gas-liquid mixing pipeline 12 is communicated and respectively connected with the gas outlet 8 of the pressure sealing container 6 and the atomizing spray head 15 through a third three-way pipe 14;

the atomizing nozzle 15 is a small-hole atomizing nozzle with the hole diameter of 0.1 mm;

the adjustable range of the first pressure controller is 0-10 MPa.

The air permeability is relatively poor because no window is arranged in a compartment of a certain restaurant, so that a guest needs to clean and disinfect after a meal, the spray disinfection is carried out by using a sprayer, the fog drops sprayed by a common sprayer are relatively large, a plurality of corners can not be sprayed, peculiar smell is difficult to eliminate, the guest does not want to enter the compartment for dining after a period of time, and the guest is blown once by using a high-power fan and then sprayed with perfume once. By adopting the high-temperature-free smoke generator of the embodiment, Chinese herbal medicine liquid with fragrance and disinfection functions is sprayed;

pouring the sprayed liquid medicine into a pressure sealed container 6, connecting a high-pressure gas source 1, opening a gas source control device 2 through an electronic control device, enabling high-pressure high-speed gas to pass through a first three-way pipe 3, enabling one part of the high-pressure high-speed gas to enter the pressure sealed container 6 through a gas inlet pipe 4, enabling the other part of the high-pressure high-speed gas to enter a multistage gas-liquid mixing unit 11 through a high-pressure gas pipe 9, adjusting a first pressure controller 5 to enable the gas to enter the pressure sealed container 6 at low pressure, blowing the liquid medicine in the pressure sealed container 6 into bubbles through high-speed gas flow, enabling the bubbles to overflow to an air outlet 8, adjusting the gas pressure in the high-pressure gas pipe 9 into high pressure through the first pressure adjusting device 5, performing secondary mixing with the overflowed bubbles in the multistage gas-liquid mixing unit 11, blowing the bubbles into mist, sending the mist into an atomizing nozzle 15. The spraying of the in-process of using this atomizer is smooth and easy, and the no jam condition, through using this atomizer spraying, every corner in the package can all reach the disinfection, and clean effect is fine.

Example 2

A new type of atomizer without high temperature as shown in fig. 3, compared with the one in example 1, is different in that:

the multistage gas-liquid mixing unit 11 consists of 3 gas-liquid mixing pipelines 12 which are arranged in parallel; the gas-liquid mixing pipeline 12 is provided with a second pressure controller 13;

the atomizing nozzle 15 is a large-aperture atomizing nozzle with the aperture of 1 mm.

In order to prevent the diffusion of novel tubular viruses, a disinfection channel is arranged at an inlet of a certain cell to disinfect outgoing and returning personnel on site, and because the personnel enter and exit more, the spray formed by a common atomizer cannot be emptied for a long time, so that the frequent spray is needed to supplement the disinfectant spray in the disinfection channel, and the labor capacity of workers is increased. The high temperature-free atomizer of this example was used to spray 84 disinfectant.

Pouring 84 disinfectant into the pressure sealed container 6, diluting the disinfectant in a certain proportion, connecting the diluted disinfectant with a high-pressure air source 1, the air source control device 2 is opened through the electronic control device, high-pressure high-speed airflow passes through the first three-way pipe 3, one part of the high-pressure high-speed airflow enters the pressure sealed container 6 through the air inlet pipe 4, the other part of the high-pressure high-speed airflow enters the multistage gas-liquid mixing unit 11 through the high-pressure air pipe 9, the first pressure controller 5 is adjusted to enable the gas to enter the pressure sealed container 6 at high pressure, after the high-speed airflow blows the 84 disinfectant in the pressure sealed container 6 to form water mist at high pressure, the water mist overflows to the air outlet 8, the air pressure in the high-pressure air pipe 9 is adjusted to be low pressure by the first pressure adjusting device 5, after being secondarily mixed with overflowing water mist in the multistage gas-liquid mixing unit 11, the mixed gas is blown into mist and sent out to the atomizing nozzle 15, and the mist is further atomized to be finer through micropores in the atomizing nozzle 15. If the mist output of the atomizing nozzle is too low or too high, the second pressure controller 13 can be adjusted to increase or decrease the gas pressure in the multi-stage gas-liquid mixing unit, so that the mist output is increased or decreased.

The sprayer is smooth in spraying and free of blockage in the using process, and the spraying stagnation time is long by using the sprayer for spraying, so that the workload of repeated spraying is reduced; the spraying is uniform and fine, the adhesiveness is high, and the disinfection effect is better; the spray can be well dispersed in each corner in the disinfection channel to achieve disinfection, and the effect is good.

According to the above embodiment, the utility model provides a common atomizer of atomizer solution easily blocks up the problem, and the fog is fast, the fog is fine and close, uses more enough better in fields such as car sterilization and house sterilization except that formaldehyde.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention may be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (6)

1. A novel high temperature-free atomizer is characterized in that: the device comprises a high-pressure gas source (1), a gas source controller (2), a gas inlet pipe (4), a pressure sealing container (6), a high-pressure gas pipe (9), a multi-stage gas-liquid mixing unit (11) and an atomizing nozzle (15);

the high-pressure air source (1) is connected with the air source controller (2); the air source controller (2), the air inlet pipe (4) and the high-pressure air pipe (9) are respectively connected with the first three-way pipe (3);

the air inlet pipe (4) is provided with a first pressure controller (5), and the air inlet pipe (4) is connected with an air inlet (7) of a pressure sealing container (6);

the high-pressure air pipe (9) is connected with the air inlet end of the multi-stage gas-liquid mixing unit (11); the air outlet end of the multi-stage gas-liquid mixing unit (11) is respectively connected with the air outlet (8) of the pressure sealing container (6) and the atomizing nozzle (15); the multistage gas-liquid mixing unit (11) at least comprises 2 gas-liquid mixing pipelines (12) which are arranged in parallel.

2. The new non-high temperature atomizer according to claim 1, characterized in that: the gas inlet end of the gas-liquid mixing pipeline (12) is communicated and connected with the high-pressure gas pipe (9) through a second three-way pipe (10), and the gas outlet end of the gas-liquid mixing pipeline (12) is communicated and connected with the gas outlet (8) of the pressure sealing container (6) and the atomizing nozzle (15) through a third three-way pipe (14).

3. The new non-high temperature atomizer according to claim 1, characterized in that: and a second pressure controller (13) is arranged on the gas-liquid mixing pipeline (12).

4. The new non-high temperature atomizer according to claim 1, characterized in that: the atomizing nozzle (15) is replaceable and is selected from one of a large-hole atomizing nozzle or a small-hole atomizing nozzle; the aperture of the large-hole atomizing nozzle is 1-5 mm; the aperture of the small-hole atomization is 0.1-0.5 mm.

5. The new non-high temperature atomizer according to claim 1, characterized in that: the adjustable ranges of the first pressure controller (5) and the second pressure controller (13) are both 0-10 MPa.

6. The new non-high temperature atomizer according to claim 1, characterized in that: the gas source controller (2) comprises a harmful gas detection device (201), a single chip microcomputer controller (202) and an electric valve (203); the harmful gas detection device (201) is electrically connected with the single chip microcomputer controller (202), and the single chip microcomputer controller (202) is electrically connected with the electric valve (203).

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