KR20200057217A - Droplet spraying apparatus - Google Patents

Abstract

A droplet spraying device according to the present invention includes: a body portion for receiving fluid; a droplet generating portion immersed in the fluid inside the body portion and generating droplets from the fluid; a flow inducing portion for guiding the flow of the fluid in the body portion; and a spraying unit for spraying the droplets generated from the droplet generating portion to the outside of the body portion. Each of the flow inducing portion and the spraying unit has an acute angle between the droplet generating portion and a horizontal point. It is possible to contribute to improvement of performance of spraying droplets according to smooth air flow by such configuration.

Description

Droplet spraying device {DROPLET SPRAYING APPARATUS}

The present invention relates to a droplet spraying device, and more particularly, to a droplet spraying device capable of improving spray quality by minimizing condensation of droplets and having low resistance to fluid flow for droplet generation.

In general, there are various types of droplet spraying devices, such as a humidifier for evaporating water and spraying it into the air, and spraying microorganisms into the air. In general, such a droplet spreading device induces movement of a fluid and sprays the droplets generated from the fluid to the outside.

On the other hand, the droplet spraying performance of the droplet spraying device is related to fluid flow and whether droplet condensation occurs. Accordingly, in recent years, there is a need for a technique that does not condense from the droplets without inhibiting the flow of the fluid.

Korean Registered Patent No. 10-1793117 (device for at least one of sterilization, decontamination and sanitation) Korean Patent Publication No. 10-2017-0063463 (Summer generation device for air humidification)

The present invention is to provide a droplet spreading device that can improve the performance of spraying droplets without inhibiting the flow of the fluid with a simple structure.

Another object of the present invention is to provide a droplet spraying device capable of improving the quality of droplet spraying by suppressing the occurrence of condensation from droplets.

A droplet spraying device according to the present invention for achieving the above object, a body portion for receiving a fluid, a droplet generating unit immersed in the fluid inside the body portion to generate droplets (droplets) from the fluid, It includes a flow inducing portion for inducing the flow of the fluid in the body portion, and a spraying portion for spraying the droplets generated from the droplet generating portion to the outside of the body portion, each of the flow inducing portion and the spreading portion is the droplet generating portion And an angle to a horizontal point may be provided at an acute angle, respectively.

According to one side, the body portion may have a shape in which a cross-sectional area from the liquid level of the received fluid to the droplet generating portion is gradually reduced.

According to one side, the body portion may have a curved pipe shape such that the cross-sectional area from the liquid level of the received fluid to the droplet generating portion is gradually reduced.

According to one side, the flow inducing unit may include a fan that generates a flow of air.

According to one side, the flow induction unit, a fan (Fan) for inducing the flow of air and is provided on one side of the body portion, and may include a flow induction pipe in which the fan is mounted.

According to one side, the flow inducing portion includes a flow inducing pipe which is connected to one side of the body portion, and the spraying portion may include a spray pipe formed through the other side of the body portion facing the flow inducing portion.

According to one side, at least a portion of the curvature of the flow induction pipe and the spreading pipe may exceed 0.

According to one side, the expansion angle of at least a portion of the flow induction pipe and the spreading pipe may be 45 ° or more and 135 ° or less.

Droplet spraying apparatus according to a preferred embodiment of the present invention, the body portion containing the fluid, is immersed in the fluid, a droplet generating unit for generating a droplet (droplet) from the fluid, provided on one side of the body portion, the droplet It includes a flow inducing portion for guiding air flow for spraying, and a spraying portion provided on the other side of the body portion facing the flow inducing portion to spray the droplets generated from the droplet generating portion to the outside of the body portion, After the flow is induced at an acute angle from the flow inducing portion toward the droplet generating portion, it can be induced to be sprayed with the droplet at an acute angle from the droplet generating portion toward the spreading portion.

According to one side, the body portion has a shape in which the cross-sectional area from the liquid level of the received fluid to the droplet generating portion is gradually reduced, and may have a curved tube shape.

According to one side, the flow induction unit is provided on one side of the fan (Fan) and the body portion for inducing the flow of air, and includes a flow induction pipe in which the fan is mounted, and the flow induction pipe is the droplet generating unit It can be provided to be inclined at an acute angle toward.

According to one side, the flow induction pipe has at least a portion of curvature (curvature) exceeds 0, at least a portion of the expansion angle of 45 ° or more and may be 135 ° or less.

According to one side, the spreading portion includes a spreading pipe formed through the other side of the body portion, the spreading pipe may be provided to be inclined at an acute angle toward the droplet generating portion.

According to one side, the spreading pipe has a curvature of at least a portion exceeding 0, and an expansion angle of at least a portion of 45 ° or more and 135 ° or less.

According to the present invention having the configuration as described above, first, the flow inducing portion and the spreading portion toward the droplet generating portion is provided at a position extending at an acute angle, thereby reducing resistance to fluid flow. Therefore, the flow of air sprayed to the outside of the body portion together with the droplets is not inhibited, and thus it is possible to contribute to the improvement of droplet spraying performance.

Second, it is possible to minimize the condensation of the droplets with a simple structure, thereby contributing more to the efficiency of the droplet injection.

Third, since the cross-sectional area of the body portion gradually decreases toward the droplet generating portion, the droplet generating portion immersed in the fluid can sufficiently use the fluid contained in the body portion, thereby contributing to efficiency improvement.

1 is a view schematically showing a droplet spraying device in a preferred embodiment of the present invention. And,
FIG. 2 is a cross-sectional view schematically cut along the line II-II shown in FIG. 1.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. However, the spirit of the present invention is not limited to such an embodiment, and the spirit of the present invention may be proposed differently by adding, changing, and deleting components constituting the embodiment, but this is also included in the spirit of the invention Will be.

Referring to Figure 1, the droplet spraying apparatus 1 according to an embodiment of the present invention includes a body portion 10, a droplet generating portion 20, a flow inducing portion 30 and the spraying portion (40).

For reference, the droplet spraying device 1 described in the present invention is a device capable of spraying droplets into the air for humidification, control, quarantine, sterilization, disinfection and antibacterial, etc., this embodiment uses an ultrasonic humidifier as an example. Explain.

The body portion 10 accommodates the fluid (F). Here, the fluid (F) is exemplified as containing general water. In addition, the body portion 10 has a shape in which the cross-sectional area is gradually reduced from the liquid level of the fluid F to the droplet generating portion 20 to be described later, as shown in FIG. 2. That is, the body portion 10 has a shape in which the cross-sectional area is reduced toward the bottom, as shown in FIG. 2. For reference, in this embodiment, the body portion 10 is illustrated as having a pipe shape having a curvature.

The droplet generating portion 20 is immersed in the fluid F inside the body portion 10 to generate droplets from the fluid F. In this embodiment, the droplet generation unit 20 may be illustrated as a method of generating a droplet D by granulating the fluid F by ultrasonic vibration, but is not limited thereto. That is, any of the various droplet (D) generation principles such as a heating method in which the droplet generating unit 20 generates droplets from the fluid F by heating or a centrifugal spraying method in which the fluid F is split into small particles using a centrifugal force It is natural that one can be employed.

On the other hand, the droplet generating portion 20 is in a state immersed in the bottom of the body portion (10). As a result, the cross-sectional area of the body portion 10 is gradually reduced from the liquid level of the liquid F to the droplet generating portion 20, so that the fluid F accommodated in the body portion 10 is completely consumed in generating the droplet D. It becomes possible. That is, compared with the conventional structure of the bottom of the body portion 10 is flat, it is possible to maintain the state in which the droplet generating portion 20 is always immersed in the fluid (F). Therefore, the area where the fluid F is not used for generating the droplet D, that is, the dead volume of the fluid F is not caused and the fluid F accommodated in the body portion 10 is the droplet D ) It can be used for all occurrences.

The flow inducing portion 30 induces the flow of the fluid F in the body portion 10. In this embodiment, the flow inducing portion 30 is provided on one side of the body portion 10 is illustrated to include a fan (Fan) 31 for generating a flow of air (W). In addition, the flow inducing portion 30, as shown in Figure 1, includes a pipe (Pipe) (hereinafter referred to as a 'flow induction pipe') 32 which is connected to one side of the body portion 10. For this reason, the flow induction unit 30 is good to have a structure in which the fan 31 is mounted on the flow induction pipe 32.

At least a portion of the curvature of the flow guide pipe 32 of the flow guide portion 30 exceeds 0. That is, the flow inducing portion 30 has a shape in which all or part has a curvature, and in this embodiment, it is illustrated as having a tubular shape having a circular cross-section by having the whole curvature.

The spraying part 40 sprays the droplet D generated from the droplet generating part 20 to the outside of the body part 10. The spreading portion 40 includes a pipe (hereinafter referred to as a spreading pipe) 41 formed through the other side of the body portion 10 facing the flow inducing portion 30, and the droplet D is air (W ) Is sprayed to the outside of the body portion 10 according to the flow.

The spreading pipe 41 of the spreading portion 40 also has a shape in which at least a portion has a curvature, like the flow induction pipe 32 of the flow induction portion 30, and in this embodiment, the whole has a curvature, so that the cross section is circular. It is illustrated as being.

Meanwhile, as illustrated in FIG. 1, the angle θ1 from the flow induction pipe 32 of the flow induction section 30 to a point horizontal to the droplet generating section 20 is an acute angle of less than 90 °. In addition, the angle (θ2) from the spreading pipe 41 of the spreading section 40 to the horizontal point with the droplet generating section 20 is also an acute angle of less than 90 °.

Due to this configuration, the air (W) induced through the flow inducing unit 30 flows inclined downward toward the droplet generating unit 20 to support the droplet D generated from the fluid F. Thereafter, the flow of the air W is inclined upward by the repulsive force between the flow of the air W continuously flowing through the flow inducing portion 30 and the liquid F, and thereby the air W Is to be sprayed through the spray pipe 41 of the spray unit 40. Accordingly, it is possible to discharge the liquid droplets (D) to the outside by guiding the droplets (D) to the side of the spreader 40 without resistance to the flow of the fluid (F).

In addition, at least some expansion angle (θ3) of the flow induction pipe 32 of the flow induction unit 30 and at least some expansion angle (θ4) of the expansion pipe 41 of the spreading unit 40 are 45 ° or more and 135 ° or less to be. By this configuration, it is possible to prevent the condensation of the droplets D inside the flow guide pipe 32 of the flow guide portion 30 and the spread pipe 41 of the spread portion 40.

On the other hand, in this embodiment, as shown in Figure 1, at least a portion of the flow induction pipe 32, the angles of the upper and lower portions of the expansion angle θ3 are the same, and at least a portion of the expansion angle of the spray pipe 41 (θ4) The upper and lower angles of the same are illustrated and illustrated as the same, but are not limited thereto. That is, the angles of θ3 and θ4 shown in FIG. 1 are not limited to the angles shown, and the upper and lower angles of the expansion angle θ3 of the flow guide tube 32 and the expansion angle θ4 of the spray pipe 41 It is natural that different modifications are possible within an angle range of 45 ° or more and 135 ° or less.

If the droplet spraying operation of the droplet spraying apparatus 1 according to the present invention having the above configuration is described with reference to FIG. 1, it is as follows.

First, the fluid F is accommodated in the body portion 10, and the droplet generating portion 20 is immersed in the inner bottom of the body portion 10. The droplet generating unit 20 generates a droplet D from the fluid F using the principle of droplet D generation such as ultrasonic vibration. The droplet D generated as described above is discharged to the outside through the spreading unit 40 according to the flow of the air W introduced by the flow inducing unit 30.

At this time, as each of the flow inducing portion 30 and the spreading portion 40 has an acute angle of less than 90 °, the angle θ1 to the horizontal point of the droplet generating portion 20 is equal to or less than 90 °, respectively. The air () introduced therethrough can be smoothly discharged to the spreading portion 40 together with the droplet D without resistance to the flow of the fluid F.

In addition, the expansion angle (θ3) (θ4) of each of the flow induction pipe 32 of the flow induction unit 30 and the spreading pipe 41 of the spreading unit 40 is 45 ° or more and is inclined to 135 ° or less, respectively. , By reducing the occurrence of condensation inside the pipe, it is possible to efficiently discharge the droplet (D).

Referring to Table 1 below, the spray amount of the droplet spraying device 1 described in the present invention is a table compared with the prior art.

Table 1 compares the spray amount of the droplet spraying device 1 according to the prior art and the present invention when the same droplet generation and the same voltage condition, that is, the same initial wind speed are supplied to each other. As shown in Table 1, it can be confirmed that the spray amount and the spray distance of the droplet spraying device 1 according to the present invention are increased under the same conditions.

Fan operating voltage Conventional The present invention 5V

10V

15V

20V

24V -

The increase in the spray amount of the droplet spraying apparatus 1 according to the present invention reduces the conventional problems such as a sudden change of direction in the fluid, that is, the droplet (D) flow, so that the droplet (D) aggregates on the surface in the droplet spraying apparatus (1). Can reduce. In addition, as the spray distance of the droplet spraying device 1 is increased as compared to the prior art, it can be improved in a form of reducing dead-zone, rapid direction change, and resistance of the conduit, so that a large amount of spray is conventional. It can be applied over a longer distance.

As described above, although described with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can.

1: droplet generating device 10: body portion
20: droplet generation unit 30: flow induction unit
40: outlet F: fluid
D: droplet W: air

Claims (14)

Body portion for receiving the fluid;
A droplet generator immersed in the fluid inside the body portion to generate droplets from the fluid;
A flow induction unit for guiding the flow of the fluid in the body portion; And
A spraying unit spraying the droplets generated from the droplet generating unit to the outside of the body unit;
It includes,
Each of the flow inducing part and the spreading part is a droplet spreading device provided at a position where the angle to the horizontal point with the droplet generating part is acute. According to claim 1,
The body portion is a droplet spraying device having a shape in which the cross-sectional area from the liquid level of the received fluid to the droplet generating portion is gradually reduced. According to claim 1,
The body portion is a droplet spreading device having a curved pipe shape so that the cross-sectional area from the liquid level of the received fluid to the droplet generating portion gradually decreases. According to claim 1,
The flow inducing unit droplet spraying device including a fan (Fan) for generating the flow of air. According to claim 1,
The flow induction unit,
Fan for inducing the flow of air (Fan); And
It is provided on one side of the body portion, the flow induction pipe is mounted to the fan;
Droplet spray device comprising a. According to claim 1,
The flow guide portion includes a flow guide pipe which is connected to one side of the body portion, and the spraying portion comprises a spray pipe formed through the other side of the body portion facing the flow guide portion. The method of claim 6,
The flow induction pipe and the spray pipe is a droplet spreading device having a curvature (curvature) of at least a portion exceeds zero. The method of claim 6,
The expansion angle of at least a portion of the flow induction pipe and the spray pipe is 45 ° or more and 135 ° or less. A body part in which the fluid is accommodated;
A droplet generator immersed in the fluid to generate droplets from the fluid;
It is provided on one side of the body portion, a flow inducing portion for guiding air flow for the spraying of the droplets; And
A spraying part provided on the other side of the body part facing the flow inducing part and spraying the droplets generated from the droplet generating part to the outside of the body part;
It includes,
After the flow of the air is induced at an acute angle from the flow inducing portion toward the droplet generating portion, the droplet spraying device for inducing to be sprayed with the droplet at an acute angle from the droplet generating portion toward the spreading portion. The method of claim 9,
The body portion has a shape in which the cross-sectional area from the liquid level of the received fluid to the droplet generating portion is gradually reduced, and a droplet spraying device having a curved tube shape. The method of claim 9,
The flow induction unit,
Fan for inducing the flow of air (Fan); And
It is provided on one side of the body portion, the flow induction pipe is mounted to the fan;
It includes,
Droplet spraying device is provided so that the flow guide pipe is inclined at an acute angle toward the droplet generating portion. The method of claim 11,
The flow induction pipe is at least a part of the curvature (curvature) exceeds 0, at least a part of the expansion angle of 45 ° or more and 135 ° or less droplet spraying device. The method of claim 9,
The spray portion includes a spray pipe formed through the other side of the body portion,
The spray pipe is a droplet spreading device is provided to be inclined at an acute angle toward the droplet generating portion. The method of claim 13,
The spray tube is at least a portion of the curvature (curvature) exceeds 0, at least a portion of the expansion angle of 45 ° or more and 135 ° or less droplet spraying device.

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