KR101056905B1 - Liquid duster - Google Patents

Abstract

The present invention relates to a liquid spreader for spraying liquids such as water, pesticides, and disinfectants in the form of fine particles, and more particularly, the structure is simple, and the occurrence rate of residual trouble is extremely low, and at the same time, the spreading power is excellent, and the spray is applied to a wider space. It relates to a liquid spreader is made possible.

According to the present invention, since it is composed of a main body, a spray nozzle and a transfer pipe, its structure is relatively simple, and the occurrence rate of trouble is extremely low. In particular, the spray pipe of the spray nozzle is easy to adjust the angle so that it can be sprayed in various directions, as well as The first and second air outlets are provided in the inside of the pipe, respectively, but the spiral air is provided in the second air outlet so that the discharged air is vortexed. Indicates.

Liquid spreaders, fan motors, transfer tubes, spray nozzles, spiral vanes, vortices

Description

Liquid sprayer

The present invention relates to a liquid spreader for spraying liquids such as water, pesticides, and disinfectants in the form of fine particles, and more particularly, the structure is simple, and the occurrence rate of residual trouble is extremely low, and at the same time, the spreading power is excellent, and the spray is applied to a wider space. It relates to a liquid spreader is made possible.

In general, the liquid spreader is used to spray liquids such as water, pesticides, or disinfectants in the form of fine particles on various crops, and is widely used. Recently, liquid spreaders are also used for indoor disinfection as well as crops.

Conventional liquid spreaders used for this purpose have been filed and registered by the applicant. That is, Korean Patent Registration No. 0907182 is an example. Referring to this publication, a conventional liquid spreader is connected to a main body equipped with a fan motor, a bent coupling pipe coupled to the main body, a nozzle coupled to the coupling pipe and having a discharge pipe therein, and a medicine container and a discharge pipe. It is configured to include a liquid conveying tube pumps the liquid stored in the medicine container by using the pressure difference generated when the air introduced by the suction force generated by the rotational operation of the fan motor is discharged through the injection nozzle to discharge the conveying tube and It is sprayed to the outside through the tube, but when the sprayed to the outside, the pumped liquid is configured to turn into fine particles.

The conventional liquid spreader has a simple structure and low residual failure rate, and has the advantage that it is possible to spray the liquid in the form of ultra fine particles, while the air introduced by the suction force of the fan motor is discharged straight through the spray nozzle, thereby changing to a particulate form. The liquid to be sprayed is sprayed far by the blowing force of the air, but the diffusion force is slightly lower, it is difficult to spray over a large space.

The present invention has been made to solve the above problems, it is to provide a liquid sprayer that is simple in structure and extremely low incidence of residual failure, and at the same time excellent in diffusing power to be able to spray on a larger space at once.

In order to achieve the above object, the present invention, a fan motor for introducing air into the lower side is provided, the upper surface of the main body is formed with at least one discharge hole, the injection nozzle and the injection nozzle coupled to the discharge hole and one end In this connected and the other end is connected to the medicine container and comprises a conveying pipe for automatically sucking and transporting the liquid stored in the medicine container with the injection nozzle during operation of the fan motor, the liquid spreader for spraying the transported liquid in the form of particulates, The injection nozzle is coupled to the discharge hole of the body, the lower portion, the inner side has a vertically penetrated shape, the inner side of the coupling tube formed in the concave shape of the concave shape can be wrapped around the outer periphery; And the outer periphery is coupled to the coupling portion in the lower outer periphery to form a hemispherical combination is formed in the outer periphery, the first and second air outlets partitioned through the inner tube is formed in the upper inside, respectively, the first At the center of the air discharge port is provided with a discharge pipe which is supported by a rib and connected to the transfer pipe, and the second air discharge port supports the inner pipe and at the same time a plurality of discharge so as to induce the vortex phenomenon of the discharged air discharged It characterized in that it comprises a spray pipe provided with a spiral wing.

Preferably, the upper end of the injection tube is characterized in that the bent inwardly bent to form a more effective mixing and discharge of air and particles discharged by the vortex phenomenon.

According to the present invention, since it is composed of a main body, a spray nozzle and a transfer pipe, its structure is relatively simple, and the occurrence rate of trouble is extremely low. In particular, the spray pipe of the spray nozzle is easy to adjust the angle so that it can be sprayed in various directions, as well as The first and second air outlets are provided in the inside of the pipe, respectively, but the spiral air is provided in the second air outlet so that the discharged air is vortexed. Indicates.

Hereinafter, with reference to the accompanying drawings will be described in more detail the liquid spreader of the present invention.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of terms in order to describe their invention in the best way. It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the exemplary embodiments described in the present specification and the drawings shown in the drawings are only the most preferred exemplary embodiments of the present invention, and do not represent all of the technical ideas of the present invention. It should be understood that there may be various equivalents and variations in the range.

1 is a perspective view of a liquid spreader according to a preferred embodiment of the present invention, Figure 2 is a schematic longitudinal cross-sectional view of a liquid spreader according to a preferred embodiment of the present invention.

1 and 2, the liquid spreader 100 of the present invention includes a main body 110, an injection nozzle 120, and a transfer pipe 130.

First, the main body 110 has a hollow shape, but if the air inlet 112 is formed on the bottom, the discharge hole 114 is formed on the upper surface, this discharge hole 114 is at least one, preferably Preferably, two or more are formed in order to be discharged in various directions, and a fan motor 116 is installed at an inner lower side to discharge air to the discharge hole 114. At this time, the fan motor 116 is already known, so it is schematically illustrated, in addition, it is apparent that it can be replaced by another blower already known, this body is similar to the above-mentioned prior art, so the additional details The description will be omitted.

The injection nozzles 120 are respectively coupled to the discharge hole 114 formed on the upper surface of the main body 110, as can be seen in the enlarged view of a part of Figure 2 coupling tube 122 and the injection tube 124 It is configured to include, which will be described in more detail below.

Finally, the transfer tube 130 is a conventional tubular tube, one end of which is inserted into the main body 110 is provided in the injection tube 124, preferably in the injection tube 124 of the injection nozzle 120 It is coupled to the discharge tube 128, the other end is extended so that it is connected to the medicine container 140, although not shown here.

On the other hand, in the case where only one injection nozzle 120 is provided, one transfer pipe 130 may be inserted into the injection nozzle 120 directly through any one side of the main body 110, but may be combined with the injection nozzle 120. When more than one 120 is preferably coupled to each injection nozzle 120 through a distributor 132. That is, in the present invention, it can be seen that four injection nozzles 120 are provided, and thus the distributor 132 is installed inside the upper surface of the main body 110, and the transfer pipe 130 is provided outside. One end is coupled to the distributor 132, and the distributor 132 and the injection nozzle 120 are connected to each other through another transfer pipe 130 ′. Of course, the other end of the transfer pipe 130 is connected to the dispenser 132 outside the main body 110 is coupled with the drug container 140, not shown here. Since the connection method of the transfer pipe 130 is also similar to the above-mentioned conventional technology, a more detailed description will be omitted.

Now, the configuration and working relationship of the injection nozzle 120 briefly described above will be described in detail.

That is, Figure 3 is a perspective view of a jet nozzle according to an embodiment of the present invention, "A" in Figure 4 is a longitudinal cross-sectional view of the injection nozzle, "I" is an AA line cut perspective view, "D" is a partial cut 5 is a schematic longitudinal cross-sectional view showing the operation relationship of the injection nozzle.

First, referring to FIGS. 3 to 4, the injection nozzle 120 of the present invention includes a coupling pipe 122 and an injection pipe 124 largely as described above. The coupling pipe 122 is a lower portion is coupled to the discharge hole 114 of the main body 110, not shown here, the inside has a vertically penetrated shape can be wrapped in close contact with the outer periphery of the hemispherical shape inside the upper portion. A concave engaging portion 123 is formed.

In addition, the injection pipe 124 is coupled to the coupling portion 123 and the inside is vertically penetrated in a state in which a hemispherical coupling body 125 is formed at a lower outer periphery so that angle adjustment is possible, and an inner tube 126 is provided on the upper inner side. The first and second air outlets 127a and 127b partitioned through) are formed, respectively, and are supported by the ribs r at the center of the first air outlet 127a and are connected to the transfer pipe 130 to be transferred. Is discharged to the outside is provided with a discharge pipe 128, the second air discharge port (127b) is connected to the inner diameter of the injection pipe 124 and the outer periphery of the inner pipe 126 to support the discharge of air A plurality of spiral wings s intermittently arranged to induce vortex phenomena are provided.

In this case, it can be seen that the inner pipe 126 is supported inside the injection pipe 124 by the spiral blade (s), the discharge pipe provided in the inner pipe 126, that is, the first air discharge port (127a) It can be seen that 128 is supported by a rib r provided below the inner tube 126. As a result, although the ribs r and the spiral blades s are provided in the first and second air outlets 127a and 127b, the first and second air outlets 127a and 127b communicate with each other in the vertical direction without being blocked.

In addition, the upper end of the injection pipe 124 is formed with a bent portion 129 bent inward to be more effectively mixed and discharged the drug (particles) discharged through the discharge pipe 128 and the air discharged by the vortex phenomenon do.

In addition, the injection pipe 124, as shown in the "a" and "b" of FIG.

Here, the important thing is that the lower part of the injection pipe 124, that is, the lower portion of the coupling member 122, so that the inside of the injection pipe 124 and the inside of the coupling pipe 122 is always in communication when the angle is adjusted. It is to be formed so as to adjust the angle within the range not leaving the coupling portion 123.

In this state, when air is supplied from the lower side of the coupling pipe 122 of the injection nozzle 120, some of the air introduced into the injection pipe 124 through the interior of the coupling pipe 122 is indicated by a solid arrow. As shown in the first air discharge port (127a) is discharged in a straight direction, the remaining portion is introduced into the second air discharge port (127b) as shown by the arrow shown by the broken line is rotated by the spiral blade (s), that is, the vortex As the phenomenon occurs, it will be discharged. Then, the air discharged by the bent portion 129 formed at the top end of the injection pipe 124 will be discharged while collecting toward the center. Therefore, the supplied air is not only straight discharge, but also rotated by the vortex phenomenon, so diffusion discharge is possible.

Now, the operation of the liquid spreader 100 of the present invention having the injection nozzle 120 having the above function will be described. Prior to this, the overall operating relationship of the liquid spreader 100 of the present invention, that is, the operating relationship in which the liquid is sprayed in the form of particulates will be briefly described as it is the same as the liquid spreader already registered by the applicant mentioned in the prior art. It must be recognized.

That is, Figure 6 is a schematic longitudinal cross-sectional view showing the operating relationship of the liquid spreader according to a preferred embodiment of the present invention.

Referring to the drawings, the end of the transfer pipe 130 provided outside the main body 110 is inserted into the chemical container 140 in which a liquid such as water, pesticide or disinfectant is stored, and then the worker sprays the nozzle 120 By controlling the angle of the injection pipe 124) is determined the injection direction.

In this state, when driving the fan motor 116 provided inside the main body 110, the outside air is introduced into the main body 110 through the inlet hole 112 formed in the lower portion of the main body 110 and formed on the upper surface The first and second air outlets 127a and 127b are introduced into the injection nozzle 120 coupled to the discharge hole 114, that is, into the injection pipe 124 and then into the injection pipe 124. Will be discharged to the outside. As described above, the air discharged through the first air outlet 127a (see the arrow shown by the broken line) is discharged immediately before the air discharged through the second air outlet 127b is rotated by the spiral blade s. (See arrow shown by dashed line)

At this time, the internal pressure of the injection nozzle 120 is lowered by the air discharge action as described above. That is, since all liquids or gases at room temperature have a property of moving from a high place to a low place, the liquid stored in the medicine container 140 having a relatively high pressure is transported as if it is pumped. Is transported through. That is, the transfer pipe 130 is to automatically suck the liquid by the pressure to transfer.

The liquid thus transferred is dispensed from the dispenser 132 (see black arrow) and discharged to the outside through the discharge pipe 128 of each injection pipe 124 connected to the transfer pipe 130 ', which is discharged to the outside. The liquid conveyed by the pressure which is suddenly lowered at the moment is discharged while changing into fine particles. Since the particles are remotely discharged by the air discharged through the first air discharge port 127a of the injection pipe 124 and vortex phenomenon is induced by the air discharged through the second air discharge port 127b, the particles diffuse to the surroundings. Emissions are also made at the same time.

In particular, since the bent portion 129 bent inward is formed at the top end of the injection pipe 124, the air vortexed and discharged through the second air outlet 127b is centered, that is, in the center of the injection pipe 124. Since the particles are directed toward the particles discharged to the discharge tube 128 provided, the particles will be more diffused and discharged.

As a result, the liquid spreader 100 of the present invention is provided with a second air outlet 127b provided with a spiral blade s in the injection nozzle 120 to vortex part of the discharged air, thereby discharging it farther than in the related art. The castle may be somewhat lower, but it has a great advantage of being able to spread a wider space at once because of its excellent diffusion power.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order to better understand the claims of the invention which will be described later. Additional features and advantages that constitute the claims of the present invention will be described in detail below. It should be appreciated by those skilled in the art that the disclosed concepts and specific embodiments of the invention can be used immediately as a basis for designing or modifying other structures to accomplish the invention and similar purposes.

In addition, such modifications or altered equivalent structures by those skilled in the art as a basis for modifying or designing the structures and embodiments of the invention disclosed in the present invention to other structures for carrying out the same purposes of the present invention are patents Various changes, substitutions and changes may be made without departing from the spirit or scope of the invention as set forth in the claims.

1 is a perspective view of a liquid spreader according to a preferred embodiment of the present invention.

Figure 2 is a schematic longitudinal cross-sectional view of a liquid spreader according to an embodiment of the present invention.

3 is a perspective view of a spray nozzle according to an embodiment of the present invention.

"A" in Figure 4 is a longitudinal cross-sectional view of the injection nozzle, "I" is a cutaway perspective view, "D" is a partial cutaway perspective view.

"A" and "I" of Figure 5 is a schematic longitudinal cross-sectional view showing the operation of the injection nozzle.

Figure 6 is a schematic longitudinal cross-sectional view showing the operating relationship of the liquid spreader according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: liquid spreader 110: the body

112: inlet hole 114: outlet hole

116: fan motor 120: injection nozzle

122: coupling pipe 123: coupling portion

124 injection pipe 125 combination

126: inner tube 127a: first air outlet

127b: second air outlet 128: discharge tube

129: bend r: rib

s: spiral wing 130,130 ': feed pipe

132: dispenser 140: drug container

Claims (2)

The lower side is provided with a fan motor for introducing air into the inside, the upper surface of the main body is formed with at least one discharge hole, the injection nozzle and the injection nozzle is coupled to the discharge hole and the other end is connected to the medicine barrel fan In the liquid spreader for spraying the transferred liquid in the form of fine particles comprising a conveying pipe for automatically sucking and transporting the liquid stored in the medicine container with the injection nozzle when the motor is operated, The injection nozzle A coupling tube having a lower portion coupled to the discharge hole of the main body, the inner portion having a vertically penetrated shape, and having a concave coupling portion formed at an upper inner side thereof to surround a hemispherical outer periphery; And The inside is vertically penetrated in a state in which a hemispherical coupling body is formed in the lower outer periphery so that the angle can be adjusted by the coupling part, and the first and second air outlets partitioned through the inner tube are respectively formed in the upper inside. At the center of the discharge port is provided with a discharge pipe which is supported by the rib and connected to the transfer pipe, the second air discharge port is a plurality of spirals to support the inner tube and at the same time to induce the vortex phenomenon of the discharged air to diffuse and discharge Liquid spreader characterized in that it comprises a jet pipe provided with a wing. The method of claim 1, The upper end of the injection pipe is a liquid spreader, characterized in that the bent inwardly bent to form a more effective mixing and discharge of the air discharged by the vortex phenomenon.

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