KR200234262Y1 - Carburator of power fog generator - Google Patents

Abstract

The present invention is a liquid mixture by injecting a medicament through the nozzle 87 on the exhaust gas that is exploded and injected from the explosion tube 93 is a mixture gas of the air generated in the kyaburet 61 and the fuel of the fuel container 81 In the power mist smoke spraying machine to spray the mist or smoke to maintain the elasticity of the air intake vibrating plate 17 of the carburettor, to prevent the shape deformation, and to maintain the function during the shape deformation of the air suction vibration plate 17 It is characterized in that to combine to increase the durability of the air intake vibrating plate 17 to reduce the trouble of the power smoke smoker to operate the equipment efficiently.

Description

Carburator of power fog generator

The present invention is a liquid mixture by injecting a medicament through the nozzle 87 on the exhaust gas that is exploded and injected from the explosion tube 93 is a mixture gas of the air generated in the kyaburet 61 and the fuel of the fuel container 81 Of the power mist smoker which combines an elastic member with the air suction oscillation plate 17 in order to maintain the elasticity of the air suction vibration plate 17 of the carburettor 61 in the power mist smoke sprayer spraying the mist or smoke screen. It is related to the letter 61.

Figure 1 is a perspective view showing a conventional power smoke smoker briefly showing only a part. The body (95) is combined with a chemical container (83), a fuel container (81), and an explosion tube (93). The explosion tube (93) has a spark plug (91) and a carburettor (61) and a transfer pipe (71). The injection pipe 97 is coupled and the nozzle 87 coupled to the injection pipe 97 is connected to the medicine container 83 and the hose 85. Carburet letter 61 is connected to the fuel container 81 and the fuel hose (59). When air is sucked into the air inlet 53 of the upper plate 63 of the kyaburet 61, the fuel of the fuel container 81 passes through the valve 57 and the nozzle 55 of the kyaburet 61 through the hose 59. When it is injected and mixed with air and exploded by the ignition plug 91 through the air suction plate 16, the lower portion of the kyaburet 65 and the transfer pipe 71, the exhaust gas through the explosion pipe 93 and the exhaust pipe 97 The exhaust gas to be injected and to flow back in the direction of the cabling letter 61 is suppressed by the air suction vibration plate 17 of the air suction plate assembly 15 of FIG. 2. When the engine is exploded by the spark plug 91 only at the start-up, after the start-up, the mixed gas is exploded by the heat in the explosion tube 93, and after the explosion, the mixed gas of air and fuel flows through the carburettor 61. The action is repeated.

2 is a perspective view showing the structure of a conventional air suction plate assembly (15). The air suction plate 16 is configured with an air suction port 16a through which air is sucked, the air suction vibration plate 17 is assembled at the rear side, and the support plate 18 is configured to be assembled at the rear side of the air suction vibration plate 17, and the bolt 32 and the nut 31 is coupled. The air suction vibration plate 17 of FIG. 2 is a circular material having a general elasticity, and when the mixed gas is introduced into the explosion tube 93, the air suction vibrating plate 17 is bent toward the support plate 18 to allow the inflow of the mixed gas, but maintain a constant gap ( 18) to prevent excessive bending by maintaining the elasticity of the air intake vibrating plate 17, if the explosion occurs in the explosion tube 93 is in close contact with the air intake plate 16 to prevent the explosion gas outflow.

3 is a perspective view showing another structure of the conventional air suction plate assembly 15a, in which the air suction vibration plate 17a is made of a material having a radial elasticity.

The air suction vibrating plate 17 of FIG. 2 may be deformed when used for a long time as a composite material, and thus may lose the role of preventing the outflow of explosive gas while maintaining a shape for a long time due to the tough material. The air suction vibration plate 17a of FIG. 3 has a disadvantage in that the material is weakened and part is broken by fatigue accumulation due to vibration as a normal metal material. In this case, the air suction plate assembly (15, 15a) that has lost its function will not start or stop the start.

The present invention is devised to solve the problems of the conventional air suction assembly (15, 15a) as described above can prevent the shape change in the air suction vibration plate (17, 17a) of the material that can change the shape It is configured to combine the elastic member.

1 is a perspective view showing a conventional power smoke smoker.

2 is a perspective view showing the structure of a conventional air suction plate assembly (15).

3 is a perspective view showing the structure of another conventional air suction plate assembly (15a).

4 is a perspective view showing the air suction plate assembly 75 of the present invention, Figure 4 (A) is a perspective view of the components and 4 (B) is a partial cross-sectional view showing the assembled shape.

5 is a partial cross-sectional view showing an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

16; Air suction plate 17: air suction vibration plate

21: spring housing 23: spring support plate

61: Kyabuletter

According to the accompanying drawings of the present invention for achieving the above object in more detail

Figure 4 is a perspective view showing the air suction plate assembly 75 of the present invention, Figure 4 (A) is a perspective view of the components and Figure 4 (B) is a partial cross-sectional view showing the assembled shape. In FIG. 4, the coil spring 19a is used as the elastic member 19, and the spring support plate 23 and the spring housing 21 are assembled on the rear surface of the air suction vibration plate 17, and the coil spring is formed in the hole of the spring housing 21. Assembling (19a) and assembling the reinforcing plate 25 between the coil spring (19a) and the air suction vibration plate 17, the carburetor upper plate 63 and lower plate 65 together with the air suction plate (16) It is assembled by the bolt 38 and the nut 37.

Figure 5 is a partial cross-sectional view showing an embodiment of the present invention, Figure 5 (A) is used as an elastic member of the annular spring (19b) and to form a groove in the spring housing (21a) also the role of the spring support plate spring housing (21a) ) Is to be performed. 5 (B) is to reinforce the air suction vibration plate 17 as one coil spring (19c) as an elastic member by installing a groove in the spring housing (21b) to position the coil spring (19c) and the spring housing ( 21b) is assembled with the bolt 38 and the nut 37 together with the carburetor upper plate 63, the lower plate 65 and the air suction plate 15.

The present invention as described above is complemented to maintain its own shape, the air intake vibration plate 17 vibrating by its elasticity and the inlet of the air and the explosion pressure in the explosion tube (93). In FIG. 4B, the air is drawn back by the air pressure of the mixed gas of the fuel and the air introduced into the air inlet 16a, and the air is introduced into the explosion tube 93 and an explosion occurs inside the explosion tube 93. At the generated pressure, the air suction vibration plate 17 is brought into close contact with the air suction plate 16. At this time, the coil spring 19a presses the air suction vibration plate 17 to increase the adhesion. On the other hand, if the shape of the air suction vibration plate 17 does not maintain a plane in the state that no external force is applied, the air suction vibration plate 17 is caused by the explosion pressure inside the explosion tube 93. There may be a case that can not be in close contact with the continuous explosion of the explosion tube 93 may be stopped in this case. At this time, when the coil spring 19 presses the air suction vibrating plate 17, the air suction vibrating plate 17 is brought into close contact with the air suction plate 16 to block the explosion pressure from escaping to the outside to explode inside the explosion tube 93. You can prevent interruptions. On the other hand, the reinforcing plate 25 may evenly propagate the force pushed by the elastic member, such as the coil spring (19a) to the air suction vibration plate 17 to increase the adhesion to the air suction plate (16).

As described above, the carburettor according to the present invention maintains the elasticity of the air suction vibrating plates 17 and 17a, prevents deformation, and maintains the function of the air suction vibrating plates 17 and 17a during deformation, thereby remaining the fault of the power smoke smoker. This reduces the number of pesticides that are in use, reduces the amount of time spent on troubleshooting, and enables timely pesticide control.

Claims (3)

Carburetor 61 characterized in that the elastic member 19 is combined with the air suction vibration plate 17 in the power mist smoker. The coil spring 19a is used as the elastic member 19 in the claim 1, and the spring supporting plate 23 and the spring housing 21 are assembled on the rear surface of the air suction vibration plate 17, and the coil is formed in the hole of the spring housing 21. Cabretta (61) characterized in that the spring (19a) is put together Cabretta 61, characterized in that the reinforcing plate 25 is combined between the elastic member 19 and the air suction vibration plate 17 in claim 1.