CN214129648U - a spray device - Google Patents

Abstract

The application discloses a spraying device, comprising: a first storage tank (1) for storing a disinfectant; a second storage tank (2) for storing a synergist; a first storage tank (2) for atomizing the disinfectant an atomizer (3); a second atomizer (4) for atomizing the synergist; a device is arranged between the first storage tank (1) and the first atomizer (3) There is a first pumping mechanism (5); a second pumping mechanism (6) is arranged between the second storage tank (2) and the second atomizer (4); the first atomizer (3) is located above the second atomizer (4). In the spray device provided by the present application, the synergist aerosol output by the second atomizer is located below the disinfectant aerosol output by the first atomizer when sprayed, so that the synergist can suspend for a long time, Extend the suspension time of the disinfectant aerosol mixed with it, thereby slowing down the sedimentation of the disinfectant aerosol and improving the disinfection effect and duration.

Description

Spraying device

Technical Field

The application relates to the technical field of atomization equipment, in particular to a spraying device.

Background

Pathogens are microorganisms, parasites or other vectors that can cause diseases of infection of humans or animals and plants. In order to prevent and control the occurrence of infection, it is necessary to kill pathogens, cut off the transmission route, maintain the sanitation of the environment, and protect the health of people or animals and plants.

The existing disinfection methods comprise a physical disinfection method and a chemical disinfection method, wherein the physical disinfection method comprises methods of heat, ultraviolet rays, radiation and the like, and the chemical disinfection method mainly uses disinfectant for soaking, wiping or atomizing for disinfection. The atomization method is an ideal method for disinfecting certain spaces such as rooms, can comprehensively cover the surfaces of indoor air and objects at one time, and does not damage the objects while efficiently disinfecting.

However, the disinfection aerosol generated by the existing atomization equipment has larger particles and short hovering time in space, and the disinfection range is smaller and the disinfection is difficult to be carried out on positions such as dead corners of buildings because the aerosol cannot hover in the air for a long time.

Therefore, how to provide a device which can prolong the stay time of the disinfection aerosol in the air and reduce the influence on the environment and the human body is a technical problem to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, the present invention provides a spraying device; the application provides a sprinkler, the synergist aerial fog of second atomizer output is located the below of the disinfectant aerial fog of first atomizer output when the blowout, the synergist aerial fog can mix with disinfectant aerial fog when rising, and upwards spread disinfectant aerial fog area, thereby utilize the effect that the synergist can suspend for a long time, the extension is rather than the suspension time of the disinfectant aerial fog of mixing, thereby slow down subsiding of disinfectant aerial fog, disinfection effect and duration are improved, thereby realize no dead angle suspension, the range of action is big.

The utility model provides a technical scheme as follows:

a spray device, comprising:

a first reservoir for storing a disinfectant;

a second reservoir for storing a synergist;

a first atomizer for atomizing an disinfectant;

a second atomizer for atomizing the synergist;

a first pumping mechanism is arranged between the first storage tank and the first atomizer;

a second pumping mechanism is arranged between the second storage tank and the second atomizer;

the first atomizer is located above the second atomizer.

Preferably, the outlet of the first atomizer is oriented in the same direction as the outlet of the second atomizer, and the outlet of the first atomizer is located above the outlet of the second atomizer.

Preferably, the outlet of the first atomiser is located downstream of the outlet of the second atomiser in the direction of aerosol emission.

Preferably, the length of the extension of the atomization pipe of the first atomizer out of the first atomizer is longer than the length of the extension of the atomization pipe of the second atomizer out of the second atomizer.

Preferably, a first valve is further arranged between the first storage tank and the first pumping mechanism, the second storage tank is communicated with the first pumping mechanism through a pipeline, and a second valve is arranged between the second storage tank and the first pumping mechanism.

Preferably, a first controller is further provided, and the first controller is electrically connected with the first atomizer, the second atomizer, the first pumping mechanism and the second pumping mechanism respectively; the first controller is also provided with a first temperature adjusting module and a second temperature adjusting module, and the first temperature adjusting module controls the atomization temperature of the first atomizer; the second temperature adjusting module controls the atomization temperature of the second atomizer.

Preferably, a second controller is further provided, and the second controller is electrically connected with the first atomizer, the second atomizer, the first pumping mechanism, the second pumping mechanism, the first valve and the second valve respectively.

Preferably, the second controller is further provided with a third temperature adjusting module and a fourth temperature adjusting module, and the third temperature adjusting module controls the atomization temperature of the first atomizer; the fourth temperature adjusting module controls the atomization temperature of the second atomizer.

The application provides a sprinkler, including the first storage tank that is used for storing disinfectant, be used for storing the second storage tank of synergist to and first atomizer, second atomizer, first pumping mechanism, second pumping mechanism, and set up first atomizer in the top of second atomizer. When the spraying device provided by the application works, the synergist is pumped out from the second storage tank by the second pumping mechanism and is conveyed to the second atomizer for atomization through the pipeline; meanwhile, the disinfectant is pumped out of the first storage tank by the first pumping mechanism and conveyed to the first atomizer through a pipeline for atomization. Then the synergist aerial fog, the disinfectant aerial fog is followed the second atomizer respectively, the export blowout of first atomizer, then the synergist aerial fog is located the below of disinfectant aerial fog when the blowout, then the synergist aerial fog can mix with the disinfectant aerial fog when rising, and take disinfectant aerial fog upwards the diffusion, thereby utilize the effect that the synergist can suspend for a long time, the extension is rather than the suspension time of the disinfectant aerial fog of mixing, thereby slow down subsiding of disinfectant aerial fog, disinfection effect and duration are improved, thereby realize no dead angle suspension, the range of action is big.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural view of a spraying device in embodiment 1 of the present invention;

fig. 2 is a schematic view of the working flow of the spraying device in embodiment 1 of the present invention;

fig. 3 is a schematic view of a shutdown cleaning process of the spraying device in embodiment 1 of the present invention;

fig. 4 is a schematic structural view of a spraying device in embodiment 2 of the present invention;

reference numerals: 1-a first storage tank; 2-a second storage tank; 3-a first atomizer; 4-a second atomizer; 5-a first pumping mechanism; 6-a second pumping mechanism; 7-a first valve; 8-a second valve; 9-a first controller; 91-a first temperature adjustment module; 92-a second temperature adjustment module; 10-a second controller; 101-a third temperature adjustment module; 102-a fourth temperature adjustment module.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly disposed on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application and to simplify description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "plurality" or "a plurality" means two or more unless specifically limited otherwise.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings are only used for matching the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the practical limit conditions of the present application, so that the modifications of the structures, the changes of the ratio relationships, or the adjustment of the sizes, do not have the technical essence, and the modifications, the changes of the ratio relationships, or the adjustment of the sizes, are all within the scope of the technical contents disclosed in the present application without affecting the efficacy and the achievable purpose of the present application.

The embodiments of the present application are written in a progressive manner.

As shown in fig. 1 to 4, an embodiment of the present invention provides a spraying device, including:

a first tank 1 for storing a disinfectant;

a second tank 2 for storing a synergist;

a first atomizer 3 for atomizing an disinfectant;

a second atomizer 4 for atomizing the synergist;

a first pumping mechanism 5 is arranged between the first storage tank 1 and the first atomizer 3;

a second pumping mechanism 6 is arranged between the second storage tank 2 and the second atomizer 4;

the first atomizer 3 is located above the second atomizer 4.

To the problems in the prior art, the present application provides a spraying device, which comprises a first storage tank 1 for storing disinfectant, a second storage tank 2 for storing synergist, a first atomizer 3, a second atomizer 4, a first pumping mechanism 5 and a second pumping mechanism 6, wherein the first atomizer 3 is arranged above the second atomizer 4. When the spraying device provided by the application works, the synergist is pumped out from the second storage tank 2 by the second pumping mechanism 6 and is conveyed to the second atomizer 4 through a pipeline for atomization; meanwhile, the disinfectant is pumped out of the first storage tank 1 by the first pumping mechanism 5 and conveyed to the first atomizer 3 for atomization through a pipeline. Then synergist aerial fog, the disinfectant aerial fog is followed second atomizer 4 respectively, the export blowout of first atomizer 3, then the synergist aerial fog is located the below of disinfectant aerial fog when the blowout, then the synergist aerial fog can mix with the disinfectant aerial fog when rising, and upwards spread disinfectant aerial fog area, thereby utilize the effect that the synergist can suspend for a long time, the extension is rather than the suspension time of the disinfectant aerial fog of mixing, thereby slow down subsiding of disinfectant aerial fog, disinfection effect and duration are improved, thereby realize no dead angle suspension, the range of action is big.

In the present application, any substance that can be vaporized under certain conditions and suspended for a long time can be used as the synergist stored in the second storage tank 2. More preferably, substances that vaporize to form an aerosol, such as alcohols, when heated to a temperature condition are used. The smoke formed by the synergist provided by the application is formed by fully vaporizing under the heating condition by utilizing the characteristics of the synergist, so that the problems of environmental pollution and safe use are avoided; and the particle size of the smoke is small, and the bronsted motion of molecules can drive the disinfectant aerosol to stay in the air for a long time. The disinfectant stored in the first storage tank 1 can be any disinfectant which is not denatured after being atomized and can be suspended for a long time after being mixed with the synergist, preferably peroxide such as hydrogen peroxide and peracetic acid is atomized to form water mist, and the water mist can be mixed and dissolved with smoke generated by the synergist and has a good disinfection effect. In addition, because the disinfectant and the synergist are respectively atomized in different atomizers, the parameters of the atomizers can be correspondingly adjusted according to different characteristics of the disinfectant and the synergist, and a better atomization effect is realized.

When the disinfectant and the synergist are atomized in a heating mode, the heating temperature can be adjusted according to different vaporization temperatures and failure temperature intervals of the disinfectant and the synergist, so that the disinfectant and the synergist can be smoothly atomized, and the disinfectant effect is prevented from being influenced by the failure of the disinfectant or the synergist.

The first pumping mechanism 5 and the second pumping mechanism 6 used in the application are preferably electromagnetic pumps, and the quantity of the liquid pumped can be controlled by controlling the power of the pumps when the disinfectant and the synergist are pumped, so that the proportion of the disinfectant aerosol and the synergist aerosol is controlled.

Preferably, the outlet of the first atomizer 3 is oriented in the same direction as the outlet of the second atomizer 4, and the outlet of the first atomizer 3 is located above the outlet of the second atomizer 4.

Preferably, the outlet of the first atomizer 3 is located downstream of the outlet of the second atomizer 4 in the direction of aerosol ejection.

Preferably, the length of the extension of the atomization tube of the first atomizer 3 out of the first atomizer 3 is longer than the length of the extension of the atomization tube of the second atomizer 4 out of the second atomizer 4.

Because the aerial fog has the characteristic of diffusion, set up first atomizer 3 in the top of second atomizer 4, will contact the disinfectant aerial fog of top after the synergist aerial fog diffuses. However, in order to achieve better mixing effect, it is preferable that the outlet of the first atomizer 3 and the outlet of the second atomizer 4 are arranged in the same direction, and the outlet of the first atomizer 3 is arranged above the outlet of the second atomizer 4, the same direction means that the outlets of the two atomizers are in the same or similar angles in the circumferential direction when viewed from the top or the bottom in the vertical direction, so that different aerosols are contacted and mixed in a more concentrated space.

More preferably, the outlet of the first atomizer 3 is located downstream of the outlet of the second atomizer 4 in the direction of aerosol ejection. That is, when the first atomizer 3 and the second atomizer 4 are viewed in plan or in elevation in the vertical direction, the outlet of the first atomizer 3 is located downstream of the outlet of the second atomizer 4 in the direction in which the mist is ejected. The synergist aerial fog in the second atomizer 4 can be diffused upwards while being diffused forwards along the spraying direction, and after being dispersed for a certain distance, the synergist aerial fog is contacted with the disinfectant aerial fog sprayed just above, so that the mixing driving effect of the synergist on the disinfectant is improved.

The outlet of the first atomizer 3 is located downstream of the outlet of the second atomizer 4, which can be achieved by controlling the length of the atomizer tube extending out of the atomizer. The length of the extension of the atomization tube of the first atomizer 3 out of the first atomizer 3 is set to be longer than the length of the extension of the atomization tube of the second atomizer 4 out of the second atomizer 4. The synergist aerial fog can be better mixed with the disinfectant aerial fog, and the heat and kinetic energy contained in the synergist aerial fog can also enable disinfectant water drops condensed at the atomizing pipe of the first atomizer 3 to be driven into the air, so that the residue of the disinfectant water drops is reduced, and the corrosion of the disinfectant on equipment is reduced.

Preferably, a first valve 7 is further disposed between the first storage tank 1 and the first pumping mechanism 5, the second storage tank 2 is communicated with the first pumping mechanism 5 through a pipeline, and a second valve 8 is disposed between the second storage tank 2 and the first pumping mechanism 5.

More preferably, the second storage tank 2 for storing the synergist is not only communicated with the second atomizer 4 through the second pumping mechanism 6, but also communicated with the first pumping mechanism 5 through a pipeline, and a second valve 8 is arranged between the second storage tank 2 and the first pumping mechanism 5, and when the spraying mechanism works normally, the second valve 8 is closed so as to cut off the connection between the second storage tank 2 and the first pumping mechanism 5, so that the disinfectant and the synergist are not interfered with being atomized by the first atomizer 3 and the second atomizer 4 respectively.

When the spraying mechanism needs to be cleaned, particularly, the disinfectant is removed to reduce the corrosion effect of the disinfectant on the pipelines and various components in the equipment, the spraying mechanism can be cleaned by using cleaning agents such as synergist or temporarily contained water in the second storage tank 2 through the cooperation of the first valve 7 arranged between the first storage tank 2 and the first pumping mechanism 5 and the second valve 8. Specifically, the first valve 7 is closed, the second valve 8 is opened, and then the first pumping mechanism 5 is opened, so that the first pumping mechanism 5 can only draw the liquid from the second storage tank 2 and send the liquid into the first atomizer 3, and the liquid in the second storage tank 2 can clean the disinfectant in the pipeline and the first atomizer 3.

Preferably, a first controller 9 is further provided, and the first controller 9 is electrically connected with the first atomizer 3, the second atomizer 4, the first pumping mechanism 5 and the second pumping mechanism 6 respectively; the first controller 9 is further provided with a first temperature adjusting module 91 and a second temperature adjusting module 92, wherein the first temperature adjusting module 91 controls the atomization temperature of the first atomizer 3; the second temperature adjustment module 92 controls the atomization temperature of the second atomizer 4.

As the first atomizer 3 and the second atomizer 4 used in the present application, a heated atomizer is preferably used. The disinfectant or synergist flows in the spirally wound vaporizing tube after being fed into the corresponding atomizer and is heated by the heat energy of the heating resistance wire outside the vaporizing tube, so that the disinfectant or synergist is converted into aerosol.

A first controller 9 is preferably arranged and is respectively electrically connected with the first atomizer 3, the second atomizer 4, the first pumping mechanism 5 and the second pumping mechanism 6 to control the work of the above parts; and a first temperature regulating module 91 and a second temperature regulating module 92 are arranged to respectively control the atomizing temperatures of the first atomizer 3 and the second atomizer 4 so as to adapt to different requirements of the disinfectant and the synergist.

Preferably, a second controller 10 is further provided, and the second controller 10 is electrically connected to the first atomizer 3, the second atomizer 4, the first pumping mechanism 5, the second pumping mechanism 6, the first valve 7, and the second valve 8, respectively.

Preferably, the second controller 10 is further provided with a third temperature adjusting module 101 and a fourth temperature adjusting module 102, and the third temperature adjusting module 101 controls the atomization temperature of the first atomizer 3; the fourth thermostat module 102 controls the atomization temperature of the second atomizer 4.

When the first valve 7 and the second valve 8 are provided, the controller is preferably electrically connected to not only the first atomizer 3, the second atomizer 4, the first pumping mechanism 5, and the second pumping mechanism 6, but also the first valve 7 and the second valve 8. To distinguish from the previous solution, the controller is here named second controller 10. The second controller 10 can not only control the spraying device to work to form synergist aerial fog and disinfectant aerial fog, but also can utilize the liquid in the second storage tank 2 to clean the first atomizer 3 by controlling the work of the first valve 7, the second valve 8 and the first pumping mechanism 5 when the machine is stopped for cleaning.

The second controller 10 may also be provided with a third temperature adjustment module 101 and a fourth temperature adjustment module 102, which respectively adjust the atomization temperatures of the first atomizer 3 and the second atomizer 4 to meet different requirements of the disinfectant and the synergist.

Example 1

As shown in fig. 1-3, a spray device comprising:

a first tank 1 for storing a disinfectant;

a second tank 2 for storing a synergist;

a first atomizer 3 for atomizing an disinfectant;

a second atomizer 4 for atomizing the synergist;

a first pumping mechanism 5 is arranged between the first storage tank 1 and the first atomizer 3;

a second pumping mechanism 6 is arranged between the second storage tank 2 and the second atomizer 4;

the first atomizer 3 is positioned above the second atomizer 4, the extending direction of the atomizing pipe of the first atomizer 3 is the same as the extending direction of the atomizing pipe of the second atomizer 4, and the length of the atomizing pipe of the first atomizer 3 extending out of the first atomizer 3 is longer than the length of the atomizing pipe of the second atomizer 4 extending out of the second atomizer 4;

a first valve 7 is arranged between the first storage tank 1 and the first pumping mechanism 5, the second storage tank 2 is communicated with the first pumping mechanism 5 through a pipeline, and a second valve 8 is arranged between the second storage tank 2 and the first pumping mechanism 5;

the second controller 10 is further arranged, and the second controller 10 is respectively and electrically connected with the first atomizer 3, the second atomizer 4, the first pumping mechanism 5, the second pumping mechanism 6, the first valve 7 and the second valve 8; the second controller 10 is further provided with a third temperature adjusting module 101 and a fourth temperature adjusting module 102, and the third temperature adjusting module 101 controls the atomization temperature of the first atomizer 3; the fourth thermostat module 102 controls the atomization temperature of the second atomizer 4.

Example 2

As shown in fig. 4, a spray device includes:

a first tank 1 for storing a disinfectant;

a second tank 2 for storing a synergist;

a first atomizer 3 for atomizing an disinfectant;

a second atomizer 4 for atomizing the synergist;

a first pumping mechanism 5 is arranged between the first storage tank 1 and the first atomizer 3;

a second pumping mechanism 6 is arranged between the second storage tank 2 and the second atomizer 4;

the first atomizer 3 is positioned above the second atomizer 4, the extending direction of the atomizing pipe of the first atomizer 3 is the same as the extending direction of the atomizing pipe of the second atomizer 4, and the length of the atomizing pipe of the first atomizer 3 extending out of the first atomizer 3 is longer than the length of the atomizing pipe of the second atomizer 4 extending out of the second atomizer 4;

the first controller 9 is further arranged, and the first controller 9 is electrically connected with the first atomizer 3, the second atomizer 4, the first pumping mechanism 5 and the second pumping mechanism 6 respectively; the first controller 9 is further provided with a first temperature adjusting module 91 and a second temperature adjusting module 92, wherein the first temperature adjusting module 91 controls the atomization temperature of the first atomizer 3; the second temperature adjustment module 92 controls the atomization temperature of the second atomizer 4.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. a spraying device, is characterized in that, comprises: a first storage tank (1) for storing disinfectant; a second storage tank (2) for storing the synergist; a first atomizer (3) for atomizing the disinfectant; a second atomizer (4) for atomizing the synergist; A first pumping mechanism (5) is arranged between the first storage tank (1) and the first atomizer (3); A second pumping mechanism (6) is arranged between the second storage tank (2) and the second atomizer (4); The first atomizer (3) is located above the second atomizer (4). 2. The spraying device according to claim 1, characterized in that, the outlet of the first atomizer (3) and the outlet of the second atomizer (4) face the same direction, and the first atomizer (4) is oriented in the same direction. The outlet of the atomizer (3) is located above the outlet of the second atomizer (4). 3. The spraying device according to claim 2, wherein the outlet of the first atomizer (3) is located downstream of the outlet of the second atomizer (4) along the direction in which the aerosol is sprayed . 4. The spraying device according to claim 3, characterized in that, the length of the atomization pipe of the first atomizer (3) extending out of the first atomizer (3) is longer than the length of the second atomizer (3) The atomizing tube of the atomizer (4) extends the length of the second atomizer (4). 5. The spraying device according to any one of claims 1-4, wherein a first valve is further provided between the first storage tank (1) and the first pumping mechanism (5) (7), the second storage tank (2) and the first pumping mechanism (5) are communicated through a pipeline, and the second storage tank (2) and the first pumping mechanism (5) ) is provided with a second valve (8). 6. The spraying device according to claim 1, characterized in that, a first controller (9) is further provided, and the first controller (9) is respectively connected with the first atomizer (3), the first controller (9) and the first controller (9). The two atomizers (4), the first pumping mechanism (5), and the second pumping mechanism (6) are electrically connected; the first controller (9) is further provided with a first temperature adjustment module (91), a second Two temperature adjustment modules (92), the first temperature adjustment module (91) controls the atomization temperature of the first atomizer (3); the second temperature adjustment module (92) controls the second mist The atomization temperature of the atomizer (4). 7. The spraying device according to claim 5, characterized in that a second controller (10) is further provided, and the second controller (10) is respectively connected with the first atomizer (3), the first atomizer (3), the second controller (10). The two atomizers (4), the first pumping mechanism (5), the second pumping mechanism (6), the first valve (7), and the second valve (8) are electrically connected. 8 . The spraying device according to claim 7 , wherein the second controller ( 10 ) is further provided with a third temperature adjustment module ( 101 ), a fourth temperature adjustment module ( 102 ), and the third temperature adjustment module ( 102 ). The temperature adjustment module (101) controls the atomization temperature of the first atomizer (3); the fourth temperature adjustment module (102) controls the atomization temperature of the second atomizer (4).

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