KR101257637B1 - Liquid sprayer using pressure of fan motor - Google Patents

Abstract

PURPOSE: A liquid sprayer using the pressure of a blower motor is provided to spray liquid to a long distance without an extra blowing apparatus. CONSTITUTION: A liquid sprayer using the pressure of a blower motor includes a liquid container(120) which contains liquid, a blowing case(130) which has a pressure hole for pressurizing a liquid, a blowing motor(140), a spraying nozzle(150), a liquid transferring pipe(160), and a pressure pipe(170). An inlet hole into which air flows is formed at one side of the blowing case, and an outlet hole from which the compressed air is discharged is formed at the other side of the blowing case. The blowing motor sucks the air through the inlet hole, raises the pressure of the air, and then discharges the air through the outlet hole and the pressure hole. The spraying nozzle is coupled to the outlet hole and sprays the compressed air. The liquid transferring pipe transfers the liquid from the liquid container into the spraying nozzle. The pressure pipe raises the discharging force of the liquid with the compressed air.

Description

Liquid sprayer using pressure of fan motor

The present invention relates to a liquid spreader using the pressure of the blower motor, and more particularly to a liquid spreader for spraying the liquid in the container by pushing through the nozzle using the pressure of the air generated by the blower motor.

In general, the liquid spreader is used to spray a variety of crops in the form of fine particles of liquid such as water, pesticides or disinfectants. The liquid spreader used for this purpose is to spread the liquid stored in the liquid container by the pressure difference through the injection nozzle.

As a liquid spreader, a plurality of spray nozzles can be combined through a bent connector to easily control the angle of the operator, and a liquid spreader capable of spraying in various directions is disclosed in Korean Patent No. 10-0907182.

As shown in FIG. 1, the liquid spreader disclosed in Korean Patent No. 10-0907182, a fan motor 16, a body 10 mounted with a fan motor, a bent connector 20 connected to the body 10, and a discharger. The injection nozzle 30 is provided with a pipe 32, and the liquid delivery pipe (40, 40 ') for connecting the medicine container 50 and the discharge pipe 32, and the rotation of the fan motor 16 By using the pressure difference generated when the air introduced by the suction force generated by the operation is discharged through the injection nozzle 30 by pumping the liquid (pharmaceutical) stored in the medicine container 50 by the liquid transfer pipe 40 and discharge While spraying to the outside through the pipe 32, it is a structure that changes the pumped liquid into a fine particle form due to the pressure lowered sharply when sprayed to the outside.

However, the conventional liquid spreader as described above has to have a separate blower because the spraying force of the liquid spreader pushed out through the injection nozzle is not able to spray far, and if you need to spray a different type of medicine, There was a hassle to empty and refill the other medicine, and when there are a plurality of medicine containers, there was a problem in that to spray the drug using a separate blower motor (fan motor).

The present invention has been made to solve the above problems, an object of the present invention is to increase the liquid spraying spraying power of the liquid sprayer using the pressure of the blower motor that can be sprayed to a long distance without having a separate blower To provide.

Another object of the present invention is to provide a liquid sprayer using the pressure of the blower motor which can easily spray different kinds of liquids and can easily spray spray the liquid in each liquid container separately using one blower motor. have.

Liquid sprayer using the pressure of the blower motor according to the present invention for achieving the above object, the liquid container in which the liquid is stored, and the inlet hole is formed in which air is introduced into one side and the discharge hole is formed to discharge the compressed air to the other side On the other hand, a blower case having a pressurized hole for pressurizing the liquid by sending a part of the compressed air to the liquid container; Injection nozzle coupled to the discharge hole for injecting compressed air, a liquid transfer pipe for transferring the liquid from the liquid container to the inside of the injection nozzle, and the earth output of the liquid by the compressed air connected to the liquid container in the pressurized hole It includes a pressure tube for raising the.

The liquid container is installed in the moving body, and the moving body has a wheel.

A plurality of liquid containers are provided, and the liquid transfer pipe is provided with a liquid control valve for controlling the transfer of the liquid.

The injection nozzle is preferably coupled to the discharge hole through the bent connector to discharge the liquid particles at various angles.

According to the liquid spreader using the pressure of the blower motor according to the present invention, it is possible to spread the liquid far up by increasing the spray spreading force of the liquid without adding a separate blower, it is possible to easily spread the different liquids There is an effect that the single blower motor can be easily sprayed and sprayed separately in each liquid container.

1 is a block diagram showing a conventional liquid spreader.
2 is a perspective view showing a liquid spreader using the pressure of the blower motor according to the embodiment of the present invention.
3 is a diagram illustrating the inside of FIG. 2.
FIG. 4 is a cross-sectional view illustrating the ventilation case of FIG. 3.
5 (a) and 5 (b) are a perspective view and a cutaway perspective view of the injection nozzle of FIG. 3.
6 (a) and 6 (b) are a perspective view and a cross-sectional view showing the bent connector of FIG. 3.
7 is a state diagram in which the bent connector of FIG. 6 is bent.
8 is an operational state diagram of the liquid spreader using the pressure of the blower motor according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

Figure 2 is a perspective view showing a liquid spreader using the pressure of the blower motor according to an embodiment of the present invention, Figure 3 is a view showing the inside of FIG. As illustrated, the liquid spreader 100 of the present invention includes a moving body 110, a liquid container 120, a blower case 130, a blower motor 140, a spray nozzle 150, and a liquid transfer. The pipe 160 and the pressure pipe 170 is included.

A plurality of liquid containers 120 are accommodated inside the moving body 110, while a blowing case 130 is installed above the moving body 110, and a moving body 110 at the lower front side of the moving body 110. Two wheels 111 are provided to easily move, and the lower rear edge of the moving body 110 is provided with an adjusting base 112 to support the moving body 110 so as not to tilt when stopped. The handle 113 is provided on the upper side of the moving body 110 to easily drag or push the moving body 110. The lower back side middle of the moving body 110, the caster 114 is installed to further facilitate the movement of the moving body (110). The adjustment pedestal 112 and the caster 114 are optionally installed. The control unit 190 is installed on one side of the moving body 110 to control the liquid spreader 100 as a whole.

The liquid container 120 is provided in plural (two in this embodiment) inside the moving body 110. The liquid conveying pipe 160 is deeply inserted into the liquid container 120, and a pressurizing pipe 170 is connected to the upper portion of the liquid container 120 while an inlet (not shown) for injecting a liquid (medical agent, etc.). ) Is formed. The liquid container 120 may be provided with a low water level sensor and a stirring device. The low level sensor is for refilling the liquid by sensing the liquid level of each liquid container 120, and the stirring device allows the solvent and the solvent to be well mixed.

4 is a cross-sectional view illustrating a blower case in which a blower motor is incorporated. As shown in Figures 2 to 4, the blowing case 130 is fixed to the upper surface of the moving body 110 and has a hollow shape, the rear side is formed with an inlet hole 131 through which air is introduced, A discharge hole 132 through which the compressed air is discharged is formed on the front side, and a pressurized hole 133 is formed on the bottom surface to send a part of the compressed air to the liquid container 120 to pressurize the liquid. The installation hole 134 is inserted into the 160 is installed, the blower motor 140 is installed on the inner rear side. Preferably, at least two discharge holes 132 are formed to discharge a large amount of fine particles at one time, but four discharge holes 132 are preferably formed to discharge in all directions as in the embodiment. Do. Four discharge holes 132 are formed in a line, but may be arranged in a square.

The blower motor 140 is installed at the inner rear side of the blower case 130 to inhale air through the inlet hole 131 to increase the pressure to discharge the outside of the injection nozzle 150 through the outlet hole 132 and pressurize it. A portion of the compressed air is sent through the ball 133 into the liquid container 120. Blowing motor 140 is composed of a fan coupled to the motor and the motor rotating shaft is preferably composed of a double blower fan for more powerful air discharge. Since the blower motor 140 is a known configuration, detailed description thereof will be omitted.

5 (a) and 5 (b) are a perspective view and a cutaway perspective view of the injection nozzle. 2 to 5, the injection nozzle 150 is coupled to the discharge hole 132 via the bent connection pipe 180 to discharge the liquid particles at various angles. The injection nozzles 150 are respectively coupled to the bent connection pipe 180 and have a shape that is open in both directions, and a discharge pipe 151 supported by the plurality of ribs 152 is provided at the center thereof. The liquid transfer tube 160 is connected to the discharge tube 151 to transfer the liquid, and the air discharged to the discharge hole 132 by the blower motor 140 is formed in the outside of the discharge tube 151 (S). Is discharged to outside.

The injection nozzle 150 may be directly coupled to the discharge hole 132 without using the bent connector 180, but is preferably coupled through the bent connector 180 so as to be discharged at various angles. One side of the injection nozzle 150 is the same as the coupling groove 183 of the connector 181 is coupled to the hemispherical coupling portion 182 formed on the outer periphery of the end of the connector 181 to be described later bent and bent Forming settled groove 153 is coupled to form.

The liquid transfer pipe 160 is disposed in each of the injection nozzles 150 in the plurality of liquid containers 120 to discharge the liquid by the air injection force of the injection nozzle 150. The liquid transfer pipe 160 is provided with a liquid control valve 161 for controlling the transfer of the liquid. The liquid control valve 161 is a three-way control valve installed at the branch point of the liquid transfer pipe 160, a plurality of two-way control valve may be installed in the middle of the liquid transfer pipe 160. The liquid conveying pipe 160 is inserted into the blowing case 130 through the installation hole 134 of the bottom surface of the blowing case 130, one end of which is injected through the inside of the bent connection pipe 180. It is coupled to the discharge pipe 151 of 150, the other end is inserted into the liquid container 120. As the liquid transfer pipe 160 is provided with four injection nozzles 150, the liquid transfer pipes 160 are coupled to each other to transfer the liquid stored in the liquid container 120 to each injection nozzle 150.

The liquid transfer pipe 160 is coupled via a known distributor 162 to couple to four injection nozzles 150, respectively. The distributor 162 is attached to the bottom inner wall of the blower case 130 and the liquid transfer pipe 160 extends from the liquid container 120 to be a main transfer pipe that is coupled to the distributor 162 as a main distributor. The liquid transfer pipe 160 is coupled to each of the plurality of injection nozzles 150 by using a pipe respectively coupled to the discharge pipe 151 of the injection nozzle 150 as an auxiliary transfer pipe.

The pressure tube 170 is connected to the plurality of liquid containers 120 in the pressure hole 133 to increase the output power of the liquid as the compressed air pressurizes the liquid in the liquid container 120. The pressure tube 170 is provided with an air control valve 171 for controlling the flow of compressed air. The air control valve 171 is a three-way control valve installed at the branch point of the pressure pipe 170, a plurality of two-way control valve may be installed in the middle of the pressure pipe (170).

6 (a) and 6 (b) are a perspective view and a cross-sectional view of the bent connector of FIG. 3, and FIG. 7 is a state diagram in which the bent connector of FIG. 6 is bent. As shown, the bent connector 180 is screwed into the coupling member to the discharge hole 132 of the blower case 130, respectively, and is configured in a bent form to the direction and angle of the discharge of the fine particles according to the operator It is provided to be adjustable, it is implemented by the combination of a plurality of connecting bodies 181, both sides are opened. The connecting body 181 has a shape in which both sides are opened, and a coupling groove 182 having a hemispherical shape is formed at one end of the outer circumference, and the coupling groove 183 having an inner diameter coupled to the coupling part 182 inside the other end. Is formed. The bent connector 180 is completed by coupling the coupling groove 183 of the connector 181 to the coupling portion 182 of the other connector. The connected 181 connected in this way is not easily separated by the spherical shape, the coupling portion is sealed with the outside but a kind of pipe is formed in the vertical direction by the inner opening which is in communication with each other, the openings in the interior are in communication with each other It is inclined within the range to facilitate the angle adjustment. In the present invention, but shown as a case where the two connecting bodies 181 are combined as one example, three or more may be combined.

On the other hand, by installing two blow cases and spray nozzles in different directions in each blow case, spray the liquid in one direction (for example, horizontal direction) through one blow case, and the other direction through the other blow case The liquid may be sprayed in a vertical direction (for example). At this time, the liquid transfer pipe and the pressure pipe are piped in accordance with the two blowing cases.

The operation of the liquid spreader using the pressure of the blower motor according to the embodiment of the present invention configured as described above will be described with reference to FIG. 8.

The liquid to be sprayed on the liquid container 120 is filled, and the liquid control valve 161 is operated by the control unit 190 so that the liquid of the one side (left) liquid container 120 is discharged to the discharge nozzle 151 of the injection nozzle 150. To be discharged to the liquid crystal valve 120, and the air control valve 171 is operated by the control unit 190 to pressurize the liquid in the one side (left) liquid container 120 and the bent connector 180 Bent to set the discharge direction.

In this state, when driving the blow motor 140 provided in the blow case 130, the outside air is introduced into the blow case 130 through the inlet hole 131 formed on the rear side of the blow case 130 Compressed and discharged to the discharge hole 132 and the pressure hole 133.

Most of the air pressurized by the blowing motor 140 is discharged to the discharge hole (132). The air discharged to the discharge hole 132 is discharged to the outside through the outer space (S) of the discharge pipe 151 provided in the interior of the connection pipe 180, that is, through the opening to the inside of the injection nozzle 150 do. As a result, the internal pressure of the connection pipe 180 and the injection nozzle 150 is lowered, and the medicine stored in the liquid container 120 having a relatively high pressure is injected into the respective injection nozzles 150 through the liquid transfer pipe 160. It is transferred to the discharge pipe 151 of the) and is discharged to the outside. At this time, the drug transported to the discharge tube 151 is discharged to the outer large space, the pressure is rapidly lowered to change into a fine particle form, the fine particles to a long distance by the air discharged through the discharge tube 151 outside It is discharged.

On the other hand, a part of the air pressurized by the blower motor 140 is introduced into the liquid container 120 through the pressure hole 133 to pressurize the liquid (pharmaceutical) in the liquid container 120, thereby increasing the output power of the drug. Further increase. Therefore, it is possible to spread the liquid farther by increasing the spray spreading force of the liquid (pharmaceutical) without adding a separate blower.

And, if you want to spray a different type of drug in a state in which a different type of drug is stored in each liquid container 120, the liquid control valve 161 and the air control valve 171 through the control unit 190 By simply operating, the medicine can be simply changed and sprayed. Therefore, different kinds of liquids can be easily sprayed, and a single blower motor can be used to easily spray and spray the liquid in each liquid container separately.

In addition, since the wheel 111 and the caster 114 is attached to the moving body 110, the handle 113 can be easily sprayed while spraying liquid (medical agent, etc.). By adjusting so that the moving body 110 is adjusted so as not to tilt, it can be sprayed with liquid (pharmaceuticals, etc.).

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: liquid spreader 110: moving body
120: liquid container 130: blowing case
140: blower motor 150: injection nozzle
160: liquid transfer pipe 170: pressurized pipe
180: bent connector 190: control unit

Claims (4)

A liquid container in which liquid is stored,
An air inlet hole in which air is introduced to one side, and a discharge hole in which compressed air is discharged to the other side, and a blowing case in which a pressurized hole for pressurizing the liquid by sending a portion of the compressed air to the liquid container;
A blower motor installed in the blower case to suck air through the inlet hole to increase pressure and discharge the air through the discharge hole and the pressurized hole;
An injection nozzle coupled to the discharge hole for injecting compressed air;
A liquid transfer pipe for transferring liquid from the liquid container to the inside of the injection nozzle;
A pressurizing tube connected to the liquid container in the pressurizing hole to increase the soil output of the liquid by the compressed air;
The liquid container is provided with a plurality, the liquid spreader using the pressure of the blower motor, characterized in that the liquid control valve for controlling the transfer of the liquid is provided in the liquid transfer pipe. The method according to claim 1,
The liquid container is installed on the moving body, the liquid sprayer using the pressure of the blower motor, characterized in that the wheel is attached. delete The method according to claim 1,
The spray nozzle is a liquid sprayer using the pressure of the blower motor, characterized in that coupled to the discharge hole via a bent connection pipe to discharge the liquid particles at various angles.

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