KR200298660Y1 - Portable fogger - Google Patents

Abstract

The present invention discloses a portable nebulizer for performing misting and smoke screening of a medicament. The present invention is connected to the main body on which the fuel tank is mounted, the medicine tank separate from the main body, the air generating means installed in the main body to generate the compressed air, the fuel tank and the air generating means, respectively, and the fuel and the compressed air A first vaporizer and a second vaporizer which are in communication with each other so as to explode by mixing, a first explosion gas supply line connecting one of the first vaporizer and the second vaporizer to the fuel tank, the first vaporizer and the second vaporizer A second explosive gas supply line connecting the other one to the medicine tank, and a first nozzle and a second nozzle connected by the medicine supply line connected to the medicine tank and the second explosion gas supply line, It is composed of the injection means for injecting the medicine supplied from the first nozzle and the second nozzle by the explosion gas supplied from the second vaporizer. According to the present invention, the amount of explosion gas supplied to the fuel tank and the medicine tank can be optimally stabilized by the structure in which the explosive gas is separately supplied from the two vaporizers to the fuel tank and the medicine tank. In addition, it is possible to improve the stability of operation by stably supplying fuel so that the normal explosive stroke is performed in two vaporizers, and to efficiently increase the injection amount and injection distance of the drug, and to block the backflow of explosive gas from the fuel tank. By improving the rubber valve body structure of the check valve to ensure the life is effective.

Description

Portable Nebulizer {PORTABLE FOGGER}

The present invention relates to a portable nebulizer for performing the misting and smoke screening of the drug, and more particularly to a portable nebulizer which can improve the performance by optimally stabilizing the amount of explosive gas supplied to the fuel tank and the drug tank. .

The portable sprayer is used not only for spray disinfection of farmland such as fruit trees, vegetables, rice, etc., but also for livestock farming for pigs, dairy, poultry, etc. It is a device that can be used for a wide range of applications. Portable nebulizers may be of various types depending on the operation method, but the power-type nebulizers are excellent in terms of work efficiency and control effects, and jet engine sprayers are particularly preferred. Proper mixing of water and insecticide is required when the misting operation is carried out by such a portable nebulizer, and proper mixing of the light oil and the pesticide is necessary when performing the smoke screening operation.

In general, a jet engine type portable nebulizer supplies a mixed gas of gasoline mixed with compressed air supplied by operation of a compressor and fuel supplied from a fuel tank to a single carburetor, and the mixed gas of the vaporizer is a spark plug. It is ignited by the spark and explodes. Part of the explosive gas generated by the explosion in the carburetor is sent to the coil-type heating tube of the injection pipe, the remaining explosive gas is distributed to the fuel tank and the drug tank, and the explosive gas sent to the drug tank is the drug tank and It is distributed again to the injection pipe to be discharged to the drug supplied from the drug tank.

By the way, in the prior art portable atomizer, a single vaporizer has a disadvantage that the output of the explosive gas is weak, so that the injection amount of the drug is small and the injection distance is short. In addition, since a lot of unburned fuel in the carburetor, the flame radiation is frequently generated by the unburned gas sent to the injection pipe, which is accompanied with a high risk of fire.

On the other hand, the smoke sterilizer of Korea Utility Model Model No. 207261 has two vaporizers connected to the injection pipe by a connector, and the connector is equipped with an ignition plug to ignite and explode the gas mixture of the vaporizer. Part of the explosive gas generated by the two vaporizers are sent to the coil-type heating tube of the connection pipe and the injection pipe, the remaining explosion gas is distributed to the fuel tank and the chemical tank connected to any one of the two vaporizers, The explosive gas sent to the drug tank is distributed back to the drug tank and the injection tube to spray the drug supplied from the drug tank.

This technique can increase the output of explosive gas by two vaporizers. However, the structure of distributing the explosive gas discharged from one of the two vaporizers to the fuel tank and the drug tank, respectively, the internal pressure of the fuel tank and the drug tank according to the amount of fuel and drug consumed in the fuel tank and the drug tank, respectively. There is a problem that cannot be controlled constantly. That is, because the drug consumes more than the fuel, the drug tank is designed to have a larger capacity than the fuel tank. The drug tank is supplied with a larger amount of explosive gas than the fuel tank, and thus the amount of explosive gas supplied to the fuel tank. Lacks.

As such, when the amount of explosive gas supplied to the fuel tank is insufficient, the supply of fuel from the fuel tank becomes unstable and the amount of fuel supplied to the carburetor is also insufficient. Entails. In addition, there is a problem in reducing the work efficiency and the control effect by greatly reducing the injection amount and injection distance of the drug. In particular, the abnormal explosion stroke and the reduction of the injection distance pose a fatal risk of causing pesticide poisoning by exposing workers to sprayed chemicals. In addition, the rubber valve body of the check valve that blocks the backflow of the explosive gas from the chemical tank at the branch point of the explosive gas sent to the fuel tank and the chemical tank has an open end face of the passage so that a large amount of explosive gas can be sent to the chemical tank. Since the amount of ablation of the elastic flap is increased in order to make it large, the elastic restoring force of the elastic flap is lowered, which is accompanied with a problem of shortening the life of the rubber valve body.

The present invention has been made to solve the various problems of the prior art as described above, the object of the present invention is to provide a portable sprayer that can optimally stabilize the amount of explosive gas supplied to the fuel tank and the pharmaceutical tank. have.

Another object of the present invention is to provide a portable sprayer that can stably supply fuel to achieve a normal explosion stroke in two carburetors and improve the stability of the operation, and to efficiently increase the injection amount and injection distance of the drug. .

It is still another object of the present invention to provide a portable nebulizer capable of ensuring a lifetime by improving a rubber valve body structure of a check valve that blocks backflow of explosive gas from a fuel tank.

A feature of the present invention for achieving the above object, the fuel tank is mounted to be detachable; A chemical tank separated from the main body; Air generating means installed in the main body to generate compressed air; A first vaporizer which is in communication with each other to be exploded by the operation of the spark plug by mixing the fuel supplied from the fuel tank and the compressed air supplied from the air generating means, and having an upper portion open to suck external air; A second vaporizer; A first explosion gas supply line connecting one of the first vaporizer and the second vaporizer to the fuel tank; A second explosion gas supply line connecting another one of the first vaporizer and the second vaporizer to the chemical tank; It has a first nozzle and a second nozzle connected by the chemical supply tank connected to the chemical tank and the second explosion gas supply line, the first nozzle and the second by the explosion gas supplied from the first vaporizer and the second vaporizer A portable nebulizer comprising an injection means for injecting a medicine supplied from a nozzle.

1 is a system diagram showing the configuration of a portable sprayer according to the present invention,

Figure 2 is a perspective view partially showing the configuration of a portable sprayer according to the present invention,

3 is a partial cross-sectional view showing the configuration of a portable sprayer according to the present invention,

4 is a perspective view showing a separated configuration of the check valve in the portable sprayer according to the present invention,

5 is a cross-sectional view showing the configuration of a check valve in a portable sprayer according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: main body 14: fuel tank

16: chemical tank 20: air supply

24: compressor 30: first vaporizer

32: 2nd carburetor 34: connector

36: spark plug 40: air supply line

50: fuel supply line 60: first explosion gas supply line

70: second explosion gas supply line 72: main explosion gas supply pipe

80: check valve 90: injection pipe

98: first nozzle 100: second nozzle

110: chemical supply line 114: three-way rotary valve

Hereinafter, a preferred embodiment of a portable nebulizer according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to Figures 1 and 2, the portable nebulizer of the present invention is provided with a body 10 constituting the appearance. The main body 10 is provided with a handle 12 so that an operator can easily carry it, and one side of the main body 10 is mounted so that the fuel tank 14 for storing and supplying gasoline as fuel is detachable. . And the portable nebulizer is provided separately from the main body 10 so that the operator can carry a medicine tank 16 for supplying a medicine, the medicine tank 16 is a fuel tank to supply a sufficient amount of drugs that consume more than fuel It is manufactured to have a capacity larger than (14). An air supply device 20 is installed at the bottom of the main body 10, and the air supply device 20 is composed of a compressor 24 that is operated by a power applied from the battery 22 to generate compressed air. . The compressor 24 is connected to the battery 22 by an electric wire 22a.

1 to 3, the first vaporizer 30 and the second vaporizer 30 for mixing and exploding the fuel supplied from the fuel tank 14 and the compressed air supplied from the compressor 24 to the rear of the main body 10. The carburetor 32 is provided, respectively. In addition, the upper portions of the first and second vaporizers 30 and 32 are opened to be configured to suck external air during the exhaust stroke of the explosive gas.

Each of the first vaporizer 30 and the second vaporizer 32 is installed to communicate with each other at the first introduction port 34a and the second introduction port 34b formed at both ends of the connection pipe 34. Explosive gases of the first and second vaporizers 30 and 32 are introduced into the connecting pipe 34 through the first and second inlet ports 34a and 34b of the connecting pipe 34 and then discharge the discharge port 34c. Is discharged through. In the center of the connecting pipe 34, an ignition plug 36 is installed to ignite and explode the mixed gas mixed in the first vaporizer 30 and the second vaporizer 32, and the spark plug 36 is a battery. It is connected by the transformer 38 to which the electric power of 22 is applied, and the electric wire 22b. The spark plug 36 is operated by the power applied from the battery 22 to generate a spark, and the compressor 24 and the spark plug 36 are turned on in the switch 18 mounted on the main body 10. It works by).

As shown in FIG. 1, the compressor 24 is connected to one of the fuel tank 14, the first carburetor 30 and the second carburetor 32 by the air supply line 40. It is connected to the carburetor 30. The air supply line 40 includes a main air supply pipe 42 connected to the compressor 24, a T-shaped connection pipe 44 connected to the main air supply pipe 42, a connection pipe 44 and a fuel tank. The first auxiliary air supply pipe 46 connecting the 14 and any one of the first vaporizer 30 and the second vaporizer 32, for example, the first vaporizer 30 and the connection pipe 44 are connected. It consists of a second auxiliary air supply pipe (48). The main air supply pipe 42 and the second auxiliary air supply pipe 48 of the air supply line 40 may be configured as a hose having flexibility. In the present embodiment, the second auxiliary air supply pipe 48 may be connected to the second vaporizer 32 instead of the first vaporizer 30.

In addition, the fuel tank 14 is connected to each of the first vaporizer 30 and the second vaporizer 32 by the fuel supply line 50. The fuel supply line 50 has a main fuel supply pipe 52 connected to the bottom of the fuel tank 14 and a three way cork connected to the main fuel supply pipe 52 so as to control the flow rate of the fuel. : 54), the first auxiliary fuel supply pipe 56 connecting the three bangkok 54 and the first vaporizer 30, and the second auxiliary fuel supply pipe connecting the three bangkok 54 and the second vaporizer 32 It consists of 58. The primary fuel supply pipe 52 and the first and second auxiliary fuel supply pipes 56 and 58 of the fuel supply line 50 may be configured as a flexible hose.

1 to 3, any one of the first vaporizer 30 and the second vaporizer 32, for example, the second vaporizer 32 may be connected to the fuel tank by the first explosion gas supply line 60. Is connected to (14), the other one of the first vaporizer 30 and the second vaporizer 32, for example, the first vaporizer 30 is the chemical tank 16 by the second explosion gas supply line 70 ) The first explosion gas supply line 60 may be made of stainless steel having excellent corrosion resistance and abrasion resistance, and having a copper pipe or a hose having flexibility. The second explosion gas supply line 70, the main explosion gas supply pipe 72 is connected to the first vaporizer 30, the T-shaped connecting pipe 74 is connected to the main explosion gas supply pipe 72, and the drug A first auxiliary explosion gas supply pipe 76 which connects the tank 16 and the connection pipe 74 to supply the explosive gas to the medicine tank 16, and a second which is connected to the connection pipe 74 to supply the explosion gas It consists of the auxiliary explosion gas supply pipe 78 and the check valve 80 which is mounted in the substantially intermediate point of the main explosion gas supply pipe 72 and blocks backflow of explosion gas. The main explosion gas supply pipe 72 of the second explosion gas supply line 70 may be made of stainless steel, copper pipe or hose having flexibility, and the first and second auxiliary explosion gas supply pipes 76 and 78 are flexible. It can be configured as a hose having. In the present embodiment, the first explosive gas supply line 60 connects the fuel tank 14 and the first vaporizer 30, and the second explosive gas supply line 70 supplies the chemical tank 16. And the second vaporizer 32 may be connected.

As shown in FIGS. 4 and 5, the check valve 80 has a coupler 84 having a passage 84a inside the sleeve 82 connected to the main explosion gas supply pipe 72. Is connected to each other, and a rubber valve body 86 is attached to the tip of the coupler 84. The rubber valve body 86 has a pair of elastic flaps 86b and 86c that are elastically deformable to both sides with respect to the ablation portion 86a cut out in the center, and the elastic flaps 86b and 86c are elastically deformed. By opening or closing the passage 86d to block the backflow of the explosion gas.

1 to 3 again, the injection pipe 90 is installed to extend in front of the main body 10 by the injection means of the drug, the discharge pipe 90 is discharged inside the injection pipe 90 A coil type heating tube 92 connected to the port 34c is mounted. The heat dissipation tube 94 for the protection of the user is surrounded by the rear outer side of the injection pipe 90, the safety net 96 for the protection of the user is enclosed in the front outer side of the heat dissipation tube 94. And the injection means has a first and second nozzles (98, 100) for injecting the medicine supplied from the chemical tank 16, the first and second nozzles (98, 100) and the front end of the injection pipe (90) It is attached to both inner sides which adjoin.

The first and second nozzles 98 and 100 are connected with a medicine supply line 110 for supplying medicines from the medicine tank 16. The drug supply line 110 is connected to the main drug supply pipe 112 and the main drug supply pipe 112 connected to the drug tank 16 so as to control the flow rate of the drug and the second explosion gas supply line 70. A three-way rotary valve (114) connected to the connecting pipe (74) and the second auxiliary gas supply pipe (78) of the first auxiliary medicine supply pipe (116) connected to the three-way rotary valve (114), Consists of a T-shaped connecting pipe 118 connected to the first auxiliary drug supply pipe 116, a second auxiliary drug supply pipe 120 and a third auxiliary drug supply pipe 122 connected to the connection pipe 118, respectively. It is. Each of the second and third auxiliary drug supply pipes 120 and 122 is connected to the first and second nozzles 98 and 100. The first auxiliary drug supply pipe 116 of the drug supply line 110 is equipped with a drug valve 124 that can control the flow rate of the drug.

On the other hand, if the three-way rotary valve 114 of the drug supply line 110 is open, the main drug supply pipe 112 and the first auxiliary drug supply pipe 116 is in communication with the drug valve 124 is supplied to the drug. If the three-way rotary valve 114 is closed, the main drug supply pipe 112 and the first auxiliary drug supply pipe 116 is cut off, the connecting pipe 76 and the first auxiliary drug of the second explosion gas supply line 70 Supply pipe 116 is in communication. In the state where the connecting pipe 76 and the first auxiliary drug supply pipe 116 are in communication with each other, the medicine valve 124 located downstream of the three-way rotary valve 114 by the explosion gas and the internal pressure of the medicine tank 110 is connected. The drug remaining in the pipe 118 and the first and second nozzles 98 and 100 can be completely discharged.

Hereinafter, the operation of the portable nebulizer according to the present invention having such a configuration will be described.

1 and 3, the main body 10 in a state in which the three-way cock 54 of the fuel supply line 50 and the three-way rotary valve 114 and the medicine valve 124 of the medicine supply line 110 are opened. When the switch 18 is turned on, the compressor 24 and the spark plug 36 are operated by receiving the power of the battery 22. Compressed air generated by the operation of the compressor 24 is supplied to the fuel tank 14 and the first vaporizer 30 through the air supply line 40, respectively.

Subsequently, when the internal pressure of the fuel tank 14 is increased by the supply of compressed air, the fuel of the fuel tank 14 is supplied to each of the first and second vaporizers 30 and 32 through the fuel supply line 50. The mixture is mixed with the compressed air supplied from the compressor 24 to form a mixed gas. The mixed gas of the first and second vaporizers 30 and 32 is ignited and exploded by the spark of the spark plug 36. When the mixture gas is exploded in the first and second vaporizers 30 and 32, that is, the portable atomizer is started, the operation of the compressor 24 and the spark plug 36 is stopped.

On the other hand, a part of the explosion gas generated by the explosion in the first and second vaporizers (30, 32) to the heating tube 92 of the injection tube 90 through the discharge port 34c of the connecting tube 34 It is sent out, the heating tube 92 is heated by the heat of the explosion gas to completely burn the unburned gas. The remaining explosive gas generated by the explosion in the second vaporizer 32 is supplied to the fuel tank 14 through the first explosion gas supply line 60 to increase the internal pressure of the fuel tank 14, and thus fuel A continuous fuel supply is made through the supply line 50.

The remaining explosive gas generated by the explosion in the first vaporizer 30 is supplied to the chemical tank 16 through the second explosion gas supply line 70 to increase the internal pressure of the chemical tank 16, the chemical tank ( The drug of 16 is discharged through the drug supply line 110 and then injected into the injection pipe 90 through the first and second nozzles 98 and 100.

As shown in Fig. 4 and 5, the check valve 80 of the second explosion gas supply line 70 is a passage (86d) as the elastic flaps (86b, 86c) are opened to both sides by the pressure of the explosion gas ) To allow the release of explosive gases. When the discharge of the explosive gas is completed, the elastic flaps (86b, 86c) is restored by the elasticity to close the passage (86d) to block the backflow of the explosive gas. Since the rubber valve body 86 of the check valve 80 reduces the amount of cutout of the elastic flaps 86b and 86c compared with the elastic flaps of the conventional check valve, the open end surface can be reduced, so that the elastic flaps 86b and 86c The elastic restoring force is largely maintained to ensure the life of the rubber valve body 86.

As such, the explosion gas of the second vaporizer 32 is supplied to the fuel tank 14 through the first explosion gas supply line 60 to control the internal pressure of the fuel tank 14, and the explosion of the first vaporizer 30 is performed. The gas is supplied to the medicine tank 16 through the second explosion gas supply line 70 to stably control the internal pressure of the medicine tank 16, thereby supplying fuel from the fuel tank 14 and from the medicine tank 16. Supply of the medicament can be optimally performed. As a result, a normal explosion stroke is performed in the first and second carburetors 30 and 32, thereby greatly improving the stability of the operation. In addition, it is possible to improve the performance of the portable nebulizer, such as the injection rate and injection distance of the drug is increased.

Referring to FIGS. 1 and 3 again, the medicine of the medicine tank 16 is supplied to the first and second nozzles 98 and 100 via the medicine supply line 110, and then the first and second nozzles 98 , 100 is injected into the injection pipe 90. The drug injected into the injection pipe 90 is atomized by the action of the explosive gas passing through the heating pipe 92 of the injection pipe 90, and then is injected into the front of the injection pipe 90. On the other hand, when the explosion gas of the first and second carburetor (30, 32) is sent to the connecting pipe 34, the first and second explosion gas supply line (60, 70), the first and second carburetor (30) , 32) drops. Accordingly, the air is sucked through the upper portions of the first and second vaporizers 30 and 32 and the first and second vaporizers are provided through the first and second auxiliary fuel supply pipes 56 and 58 of the fuel supply line 50. The fuel is sucked into 30 and 32, mixed with air to form a mixed gas, and the mixed gas is exploded in the first and second vaporizers 30 and 32 at high temperature and high pressure. Thereafter, the supply of air and fuel is performed periodically according to the explosion and exhaust stroke of the first and second vaporizers 30 and 32, and the portable nebulizer is normally operated.

The above-described embodiments are merely illustrative of one embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and may be appropriately changed within the scope of the claims. For example, the shape and structure of each component specifically shown in the embodiment of the present invention can be modified.

As described above, according to the portable nebulizer according to the present invention, the amount of explosion gas supplied to the fuel tank and the medicine tank is optimally stabilized by a structure in which the explosive gas is separately supplied from the two vaporizers to the fuel tank and the medicine tank. You can. In addition, it is possible to improve the stability of operation by stably supplying fuel so that the normal explosive stroke is performed in two vaporizers, and to efficiently increase the injection amount and injection distance of the drug, and to block the backflow of explosive gas from the fuel tank. It is a very practical and useful effect that can improve the rubber valve structure of the check valve to ensure the life.

Claims (2)

A main body mounted to be detachable from the fuel tank; A chemical tank separated from the main body; Air generating means installed in the main body to generate compressed air; A first fuel which is connected to each other so that the fuel supplied from the fuel tank and the compressed air supplied from the air generating means may be exploded by the operation of the spark plug, and the upper part of which is opened to suck external air; A vaporizer and a second vaporizer; A first explosion gas supply line connecting one of the first vaporizer and the second vaporizer to the fuel tank; A second explosion gas supply line connecting another one of the first vaporizer and the second vaporizer to the chemical tank; A first nozzle and a second nozzle connected by the medicine tank and a medicine supply line connected to the second explosion gas supply line, and the first nozzle is provided by the explosion gas supplied from the first vaporizer and the second vaporizer. A portable nebulizer comprising a nozzle and an injection means for injecting a medicine supplied from the second nozzle. The method of claim 1, wherein the second explosion gas supply line, A main explosion gas supply pipe connected to the second vaporizer; A connecting pipe connected to the main explosion gas supply pipe; A first auxiliary explosion gas supply pipe connecting the drug tank and a connection pipe; A second auxiliary explosion gas supply pipe connected to a three-way rotary valve constituting the connection pipe and the medicine supply line; And a check valve having a rubber valve body mounted on the main explosion gas supply pipe to block backflow of explosive gas and to open or close a passage by a pair of elastic flaps.