KR102400717B1 - Spraying apparatus with high-power and non-moisture - Google Patents

Abstract

A spray mechanism device according to an embodiment of the present invention comprises: a casing unit; an air guide unit located inside the casing unit and introducing air from the outside of the casing unit to flow in one direction; and a spray guide unit located inside the casing unit, connected to the air guide unit, vaporizing a disinfectant solution, and guiding the vaporized disinfectant solution toward the air guide unit. The air guide unit comprises: a guide casing through which a guide space is formed along one direction, having one end surface connected to the outside of the casing unit, and allowing the spray guide unit connected thereto; a body casing connected to the other end surface opposite to one end surface of the guide casing and having a body space connected to the guide space; a guide body located in the body space and operated to introduce air from the outside of the casing unit into the body space and guide the air into the guide space; a driving body located on one side of the body casing and connected to the guide body to operate the guide body; and a connecting body located on the other side opposite to one side of the body casing to connect the body space and the outside of the casing unit. When the guide body is operated by the driving body, air flows into the body space from the outside of the casing unit through the connecting body, flows in one direction in the guide space, and is discharged to the outside of the casing unit through one end surface of the guide casing. The vaporized disinfectant solution flows in one direction and is discharged and sprayed to the outside of the casing unit along with the air of the air guide unit. Accordingly, by using Bernoulli's principle, the disinfectant solution can be sprayed relatively quickly and far in a vaporized state.

Description

High-power non-moisture spraying apparatus {Spraying apparatus with high-power and non-moisture}

The present invention relates to a device for spraying, and more particularly, to a device for spraying a high-output moisture-free spray capable of continuously spraying a liquid such as a disinfectant solution at high output in a vaporized state.

Various pollutants exist indoors, such as heating equipment, humidifiers, office equipment, asbestos, dust, cement, cigarette smoke, polluting gases from other building materials, and biohazardous bacteria, bacteria, fungi, and viruses. Due to these factors, indoor air is polluted, and the polluted indoor air is harmful to the human body and sometimes causes bad odors.

Meanwhile, for the purification of indoor air, a sea wave filter, a UV light source, a light plasma, a method of mixing UV and a sea wave filter, etc. are applied. Although the HEPA filter can collect floating dust, it is difficult to expect sterilization and disinfection of microorganisms such as bacteria, it is cumbersome to be cleaned periodically, and it may cause environmental pollution due to the generation of secondary garbage due to replacement. do. Light plasma or UV light source can compensate for the disadvantages of the HEPA filter, but it has the disadvantage that it can harm the human body and generate ozone, which is a causative material of global warming.

On the other hand, a method of spraying the disinfectant solution directly into the space to be disinfected or spraying the disinfectant solution to the air conditioning system for the space to be disinfected is also used. In this method, it is difficult to expect the disinfection effect due to the large particles of the sprayed disinfectant solution. For this reason, the disinfectant solution is sprayed in a vaporized state. However, when the disinfectant is sprayed in a vaporized state, it is difficult to spray it away, and in the process of spraying, it is partially liquefied and sprayed in the form of water droplets, and various problems such as flowing down from the inside of the device. .

A technical problem to be achieved by the apparatus for injection according to the technical idea of the present invention is to provide an apparatus for injection that allows a disinfectant solution to be sprayed relatively quickly and far away in a vaporized state using Bernoulli's principle.

In addition, the technical problem to be achieved by the injection device according to the technical idea of the present invention is to provide an injection device capable of preventing liquefaction of the disinfectant solution in the process of spraying the disinfectant solution in a vaporized state using the Bernoulli principle. will provide

The technical problem to be achieved by the injection mechanism device according to the technical idea of the present invention is not limited to the above-mentioned tasks, and another task not mentioned will be clearly understood by those skilled in the art from the following description.

Injection mechanism device according to an embodiment according to the technical idea of the present invention, a casing unit; an air guide part positioned inside the casing part and flowing in one direction by introducing air from the outside of the casing part; and a spray guide part located inside the casing part connected to the air guide part, vaporizing the disinfectant solution, and guiding the vaporized disinfectant solution toward the air guide part, wherein the air guide part has a guide space formed through it in one direction, a guide casing having a cross-section connected to the outside of the casing and to which the injection guide is connected; a body casing connected to the other longitudinal end face opposite to the one end face of the guide casing, and having a body space connected to the guide space; a guide body positioned in the body space and operated to introduce air into the body space from the outside of the casing and guide it into the guide space; a driving body positioned on one surface of the body casing and connected to the guide body to operate the guide body; and a connecting body positioned on the other surface opposite to one surface of the body casing to connect the body space and the outside of the casing, wherein when the guide body is operated by the driving body, air flows from the outside of the casing through the connecting body to the body space It flows into the guide space and flows along one direction in the guide space and is discharged to the outside of the casing through a cross section of the guide casing. can be done with

In addition, the body casing and the body space are made in a cylindrical shape, the guide casing is connected to a part of the outer peripheral surface of the body casing, the guide body has a plurality of blades arranged along the circumferential direction of the body space, the driving body of the motor shape and connected to the center of the guide body to rotate the guide body, the plurality of blades are rotated around the center of the body casing, so that air flows into the body space and passes between the blades to guide the guide space can be

In addition, the injection guide unit, the injection casing is located on the lower side of the guide casing, storing and vaporizing the disinfectant solution; and a first injection pipe connected to the injection casing and positioned to penetrate the lower surface of the guide casing in a direction orthogonal to one direction, and a first injection pipe connected to the upper end of the first injection pipe and positioned along one direction to face a cross-section of the guide casing and a spraying body including a second spraying pipe, wherein the disinfectant solution is introduced into the spraying body in a vaporized state in the spraying casing, flows along the spraying body, and may be discharged to the outside of the casing.

In addition, an injection guide opening is formed on one surface of the casing to correspond to the second injection pipe, and a plurality of air guide openings are formed around the injection guide opening to correspond to a section of the guide space, and the vaporized disinfectant solution is sprayed through the guide opening. The air is discharged to the outside of the casing through the, the air may flow in one direction to be discharged to the outside of the casing through a plurality of air guide openings.

In addition, the air guide opening has a longitudinal cross-sectional area that gradually becomes smaller along one direction, the casing part has a truncated cone shape and a truncated cone shape hollow, and passes through the air guide opening to form a predetermined inclination angle with respect to one direction. Guide nozzle located on one side; and a rotating member rotatably positioned on one surface of the casing portion while including the injection guide opening and the air guide opening, wherein the air passes through the guide nozzle toward the outside of the casing portion corresponding to the center of the injection guide opening discharged, and the rotating member is rotated about the center of the injection guide opening as an axis, so that air can form a vortex outside the casing part after passing through the air guide opening.

The device for injection according to embodiments according to the technical spirit of the present invention has the following effects.

(1) By using Bernoulli's principle, the disinfectant solution can be sprayed relatively quickly and far away in a vaporized state.

(2) By using Bernoulli's principle, liquefaction can be prevented while the disinfectant is sprayed in a vaporized state.

However, the effects that can be achieved by the injection device according to an embodiment of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below. will be able

In order to more fully understand the drawings cited herein, a brief description of each drawing is provided.
1 is a perspective view showing a device for injection according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a device for injection according to an embodiment of the present invention.
Figure 3 is a perspective view showing a modified state of the injection mechanism device according to an embodiment of the present invention.
Figure 4 is a cross-sectional view showing a modified state of the injection mechanism device according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood that the present invention includes all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as “connected” or “connected” with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

In addition, in the present specification, two or more components may be combined into one component, or one component may be divided into two or more for each more subdivided function. In addition, each of the components to be described below may additionally perform some or all of the functions of other components in addition to the main functions they are responsible for, and some of the main functions of each component may have different functions. It goes without saying that it may be performed exclusively by the component.

Hereinafter, embodiments according to the technical spirit of the present invention will be described in detail in turn.

Figure 1 is a perspective view showing the injection mechanism device 100 according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the injection mechanism device 100 according to an embodiment of the present invention.

1 and 2, the injection mechanism 100 according to an embodiment of the present invention may include a casing unit 101, an air guide unit 102 and an injection guide unit 103. and may be used to spray the liquid in a vaporized state. In particular, the apparatus 100 for spraying of this embodiment may be installed in an indoor space and used to spray the disinfectant solution in a vaporized state into the indoor space.

The casing unit 101 may accommodate the air guide unit 102 and the injection guide unit 103 therein. In addition, an injection guide opening 101 ′ may be formed on one surface of the casing 101 , and a plurality of air guide openings 101 ″ may be formed around the injection guide opening 101 ′.

The air guide unit 102 may be positioned inside the casing unit 101 , and may flow in one direction (A) by introducing air from the outside of the casing unit 101 . In addition, the air may be discharged to the outside of the casing unit 101 after flowing along the one direction (A) by the air guide unit (102). Here, the air introduced into the air guide unit 102 may be introduced from an indoor space or an outdoor space, and the air discharged from the air guide unit 102 may be discharged into the indoor space.

In addition, the air guide unit 102 may include a guide casing 121 , a body casing 123 , a guide body 125 , a driving body 127 , and a connecting body 129 .

The guide casing 121 is positioned inside the casing portion 101, and the guide space 102 ′ may be formed through it in one direction (A). Here, one cross-section of the guide casing 121 is positioned to correspond to the injection guide opening 101' and the air guide opening 101", and the guide space 102' is the injection guide opening 101' and the air guide opening. It can be positioned and connected to correspond to 101". That is, one cross-section of the guide casing 121 may be connected to the outside of the casing portion 101 .

The body casing 123 may be connected to the other longitudinal cross-section opposite to the one-stage cross-section of the guide casing 121 . A body space 102 ″ may be formed in the body casing 123 , and the body space 102 ″ may be connected to the guide space 102 ′.

The guide body 125 may be positioned and rotatably positioned in the body space 102". When the guide body 125 is rotated, air flows from the outside of the casing 101 into the body space 102". can be induced. In the body space 102", air may pass through the guide body 125 and flow along one direction A in the guide space 102'. The air may flow along one direction A in the guide space 102'. The flow may be discharged from the guide space 102' to the outside of the casing 101. Here, the air may pass through the plurality of air guide openings 101".

In this embodiment, the body casing 123 is shown to be formed in a cylindrical shape, and the body space 102 " is shown to be formed in a shape corresponding to the body casing 123. Here, the guide casing 121 is It may be connected to a portion of the outer peripheral surface of the body casing 123. In addition, the guide body 125 has a plurality of blades 125' arranged in a state spaced apart from each other along the circumferential direction of the body space 102", It may be located in the body space 102". When the guide body 125 is rotated, the plurality of blades 125' are rotated around the center of the body casing 123 to draw air into the body space 102". The air may be introduced into the guide space 102' by passing between the blades 125'. The guide body 125 may be formed in the form of a sirocco fan as described above, and may generate relatively little noise. can

The driving body 127 is located on one surface of the body casing 123 and is connected to the guide body 125 to operate the guide body 125 . Here, in a state in which the guide body 125 is formed in the form of a sirocco fan, the driving body 127 is formed in the form of a motor and is connected to the center of the guide body 125 to rotate the guide body 125 . .

The driving body 127 may be positioned outside the body casing 123 to be positioned inside the casing 101 without being limited in size by the body casing 123 and the guide body 125 . Here, the driving body 127 may have a size capable of rotating the guide body 125 at a relatively high speed. For this reason, the air guide unit 102 may discharge air into the discharge space with high output.

The connecting body 129 is located on the other surface opposite to one surface of the body casing 123 to connect the body space 102" and the outside of the casing 101. The guide body 125 is the driving body 127 ), air may be introduced into the body space 102 ″ through the connecting body 129 from the outside of the casing unit 101 . Here, the air may be guided to the guide space 102 ′ by the guide body 125 to flow along one direction A.

On the other hand, the connecting body 129 may be connected to a separate pipe to be connected to an indoor space or an outdoor space outside of the casing unit 101 through the pipe.

The injection guide part 103 may be located inside the casing part 101 and be connected to the air guide part 102 . Also, the spray guide unit 103 may store and vaporize the disinfectant solution, and guide the vaporized disinfectant solution toward the air guide unit 102 . Here, the vaporized disinfectant solution may be discharged to the outside of the casing unit 101 together with the air flowing along the one direction (A). Further, the vaporized disinfectant solution may pass through the spray guide openings 101' and air may pass through the air guide openings 101".

In addition, the injection guide part 103 may include an injection casing 131 and the injection body 133 .

The injection casing 131 may be located below the air guide part 102 in the inside of the casing part 101 . Here, the injection casing 131 may store and vaporize the disinfectant solution.

The injection body 133 may connect the injection casing 131 to the guide casing 121 of the air guide unit 102 . Here, a portion of the injection body 133 may be positioned to pass through the guide casing 121 along a direction orthogonal to the one direction (A), and the remaining part of the injection body 133 is a guide space along one direction (A). may be located at 102'. The vaporized disinfectant may rise from the spray casing 131 and flow into the spray body 133 to flow along the spray body 133 . Here, the vaporized disinfectant solution may be located in the guide space 102'. On the other hand, the remaining portion of the injection body 133 is connected to form a right angle with a portion of the injection body 133, may be inserted while corresponding to the injection guide opening (101').

In addition, the injection body 133 may include a first injection pipe (133a) and a second injection pipe (133b).

The first injection pipe 133a may be connected to the injection casing 131 and positioned to penetrate the lower surface of the guide casing 121 in a direction orthogonal to the one direction A. When the disinfectant solution is vaporized in the spray casing 131 , the vaporized disinfectant solution may flow upward and be introduced into the first spray pipe 133a.

The second injection pipe 133b may be connected to the upper end of the first injection pipe 133a and positioned along one direction A. Here, the second injection pipe 133b is positioned to face one cross-section of the guide casing 121 and may be orthogonal to the first injection pipe 133a. In addition, the second spray pipe 133b may be positioned to pass through the spray guide opening 101 ′ while corresponding to the spray guide opening 101 ′, and may be positioned to be connected to the spray guide opening 101 ′. The vaporized disinfectant may flow along the first spray pipe 133a and the second spray pipe 133b and be discharged to the outside of the casing 101 through the spray guide opening 101 ′.

Air flowing in one direction (A) in the guide space (102') flows at a faster flow rate than the vaporized disinfectant solution, and the casing part 101 from the guide space 102' at an increased flow rate due to the spray body 133. may be discharged to the outside of

Meanwhile, the longitudinal cross-sectional area of the guide space 102 ′ may be 10 to 20 times the longitudinal cross-sectional area of the second injection pipe 133b.

The apparatus 100 for spraying of this embodiment as described above sprays the vaporized disinfectant solution along one direction (A), but may spray it together with air flowing along the one direction (A). Here, when the vaporized disinfectant solution has a lower flow rate than the air discharged from the guide space 102 ′ from the outside of the casing 101 , it may have a higher pressure than the air discharged from the guide space 102 ′. Due to this, the vaporized disinfectant may flow toward the air according to Bernoulli's principle, and may be mixed with the air and scattered. Therefore, the injection device 100 of this embodiment can quickly and far scatter the vaporized disinfectant solution in a discharged state to the outside of the casing 101 using Bernoulli's principle, so that the disinfection action can be applied to a wider area. can be provided for

In addition, the injection device 100 of this embodiment scatters the vaporized disinfectant solution after being sprayed into a wider area due to the air, and generates water droplets due to the liquefaction of the vaporized disinfectant solution and the flow of the disinfectant solution using Bernoulli’s principle. can prevent

Figure 3 is a perspective view showing a modified state of the injection device 100 according to an embodiment of the present invention, Figure 4 is a modified state of the injection mechanism device 100 according to an embodiment of the present invention It is a cross-sectional view showing

As shown in FIGS. 3 and 4 , the injection mechanism 100 of this embodiment is modified, and the casing 101 may include a guide nozzle 110 and a rotating member 111 . Here, the plurality of air guide openings 101 ″ are formed around the injection guide openings 101 ′, and may each have a longitudinal cross-sectional area that gradually decreases along one direction (A).

The guide nozzle 110 is made of a plurality of doedoe, each having a truncated cone shape and may have a truncated cone-shaped hollow 110', and may be positioned through the air guide opening 101". Hollow 110' may have a gradually decreasing longitudinal cross-sectional area along one direction A. In particular, a portion corresponding to the hollow 110 ′ having a relatively small longitudinal cross-sectional area in the guide nozzle 110 protrudes from the casing 101 , It may be located outside the casing unit 101 .

In particular, the guide nozzle 110 may form predetermined inclination angles θ1 , θ2 , and θ3 with respect to one direction A on one surface of the casing unit 101 . Here, the predetermined inclination angles θ1 , θ2 , and θ3 with respect to one direction A mean an angle between a horizontal virtual line along the one direction A and a virtual line along the center of the hollow 110 ′. In addition, the inclination angles θ1 , θ2 , and θ3 may have a larger angle as the guide nozzle 110 is positioned further away from the injection guide opening 101 ′.

When the air passes through the guide nozzle 110 and is discharged to the outside of the casing unit 101 , the guide nozzle 110 corresponds to the center of the injection guide opening 101 ′ to the outside of the casing unit 101 , respectively. It can be discharged to the point where it becomes.

In addition, the casing 101 may include a rotating member 111 . The rotating member 111 may have a circular plate shape and be rotatably positioned on one surface of the casing unit 101 while including the injection guide opening 101' and the air guide opening 101". In particular, The rotating member 111 may be rotated about the center of the injection guide opening 101' as an axis. As the rotating member 111 rotates, air passes through the guide nozzle 110 and then into the casing It can flow along one direction (A) while forming a vortex from the outside of 101.

Due to the guide nozzle 110 and the rotating member 111 as described above, the air is discharged toward the outside of the casing 101 at a flow rate that is gradually increased while being discharged to the outside of the casing 101 toward the vaporized disinfectant solution. and may flow further away from the casing unit 101 . Here, the vaporized disinfectant solution may be scattered further and further from the casing unit 101 by air.

In the above, the technical idea of the present invention has been described in detail with reference to preferred embodiments, but the technical idea of the present invention is not limited to the above embodiments, and those of ordinary skill in the art within the scope of the technical spirit of the present invention Various modifications and changes are possible by the person.

100: device for injection
101: casing part
102: air guide unit
103: injection guide unit

Claims (5)

casing part;
an air guide part positioned inside the casing part and flowing in one direction by introducing air from the outside of the casing part; and
It is located inside the casing, is connected to the air guide, vaporizes the disinfectant, and includes a spray guide for guiding the vaporized disinfectant toward the air guide,
air guide,
a guide casing through which a guide space is formed in one direction, a cross-section is connected to the outside of the casing, and a spray guide is connected;
a body casing connected to the other longitudinal end face opposite to the one end face of the guide casing, and having a body space connected to the guide space;
a guide body positioned in the body space and operated to introduce air into the body space from the outside of the casing and guide it into the guide space;
a driving body positioned on one surface of the body casing and connected to the guide body to operate the guide body; and
It is located on the other side opposite to one side of the body casing and includes a connecting body connecting the body space and the outside of the casing,
When the guide body is operated by the driving body, air flows into the body space from the outside of the casing part through the connecting body, flows along one direction in the guide space, and is discharged to the outside of the casing part through a cross section of the guide casing,
The vaporized disinfectant is discharged and sprayed to the outside of the casing together with the air of the air guide while flowing in one direction.
The body casing and the body space are formed in a cylindrical shape, and the guide casing is connected to a part of the outer peripheral surface of the body casing,
The guide body has a plurality of blades arranged along the circumferential direction of the body space,
When the driving body is made in the form of a motor and connected to the center of the guide body to rotate the guide body, a plurality of blades are rotated around the center of the body casing, so that air flows into the body space and passes between the blades is guided to the guide space,
The spray guide part,
a spray casing located on the lower side of the guide casing, storing and vaporizing the disinfectant solution; and
A first injection pipe connected to the injection casing and positioned to penetrate the lower side of the guide casing in a direction orthogonal to one direction, and a first injection pipe connected to the upper end of the first injection pipe and positioned along one direction to face a cross-section of the guide casing a spray body comprising a second spray pipe;
The disinfectant solution flows into the spray body in a vaporized state from the spray casing, flows along the spray body, and is discharged to the outside of the casing;
The injection guide opening is formed on one surface of the casing to correspond to the second injection pipe, and a plurality of air guide openings are formed around the injection guide opening to correspond to a section of the guide space,
The vaporized disinfectant solution is discharged to the outside of the casing through the injection guide opening, and the air flows in one direction and is discharged to the outside of the casing through the plurality of air guide openings.
delete delete delete According to claim 1,
The air guide opening has a longitudinal cross-sectional area that becomes smaller along one direction,
casing part,
a guide nozzle having a truncated cone shape and having a truncated cone shape, passing through the air guide opening and positioned on one surface of the casing to form a predetermined inclination angle with respect to one direction; and
Further comprising a rotating member rotatably positioned on one surface of the casing portion while including the injection guide opening and the air guide opening,
After passing through the guide nozzle, the air is discharged toward the outside of the casing portion corresponding to the center of the injection guide opening,
The rotating member is rotated about the center of the injection guide opening as an axis, so that the air forms a vortex outside the casing after passing through the air guide opening.

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