KR900000924Y1 - Gas combustion appliances of gas control valve - Google Patents

Abstract

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Description

Gas switching valve of gas combustor

1 is a side cross-sectional view of the present invention.

Figure 2 is an enlarged side cross-sectional view of a part of the present invention.

Figure 3 is an enlarged side cross-sectional view of the main portion of the present invention.

4 is a perspective view of a fixing lever used in the present invention.

Figure 5 is a front view of the operating state of the fixed lever used in the present invention.

Figure 6 (a) is a plan view of a part of the present invention, (b) is a cross-sectional view of the opening and closing rotor used in the present invention.

* Explanation of symbols for main parts of the drawings

1: body 2: rotating shaft

3: opening and closing rotor 5a: opening and closing side

7: cam 8: fixed lever

10,10 ', 10 ": Gas regulator 11,11': Gas outlet

12: supply path 13: opening and closing room

14: opening and closing shaft 15: switching knob

16: jam jaw

The present invention supplies gas to two burners simultaneously with one valve. Or a gas switching valve of a gas combustor which can be supplied to either side.

Since the valve used in the conventional gas combustor can open and close the gas supply to only one burner with one valve, it is not suitable for use in the case of requiring a large thermal control range or a very weak thermal power. .

In order to solve these problems, the present invention forms two gas outlets in one valve to open two gas outlets at the same time when strong fire power is needed, and to close one gas outlet when weak fire power is required. In addition, in this case, it is possible to adjust the thermal power control range in six stages so as to more effectively control the weak thermal power in accordance with the accompanying drawings.

In the lower part of the body (1) of the valve, the opening and closing rotor (3) and the stabilization device (4) rotated by the normal rotating shaft (2) is installed, (5) is interposed elastically with the spring (6), and the cam (7) elastically installed by the spring (6a) is fixed to the outer side of the rotating shaft (2), the operation is controlled according to the rotation of the cam " A ”shaped fixing lever 8 is installed to be elastically installed with torsion spring 9, and opening / closing rotor 3 has gas adjusting holes 10, 10 ', 10 " Pierced

Meanwhile, gas outlets 11 and 11 'are formed on the upper side of the body 1 so as to communicate with the opening and closing rotor 3 side by the supply passages 12 and 12', respectively. On the side 12, the opening and closing chamber 13 is made to be opened and closed by the opening and closing edge 5a fixed to the opening and closing shaft 14, which is installed elastically with the spring 6b, and the outer end of the opening and closing shaft 14 is the locking jaw ( 16) is formed by coupling to the inner end of the switching knob (15) formed.

Unexplained symbol "17" is a diaphragm through which several gas distribution holes 18 are opened, and "19" is a gas inlet.

The present invention configured as described above connects the gas outlets 11 and 11 'to each burner, and these burners are installed in a single fireball in double, and in this state, the opening and closing edge 5a is a spring. The opening / closing chamber 13 is opened by the action of the opening / closing shaft 14 pushed outward by the elasticity of (6b).

Supply gas to burner. When igniting, the rotary shaft 2 is pushed forward and rotated counterclockwise. In this case, the opening and closing edge 5 is pushed backward by the rotary shaft 2 that is pressed, so that the gas inlet 19 Gas is passed through the distribution holes 18 of the diaphragm 17 corresponding to the corresponding adjusting holes among the adjusting holes 10, 10 ', 10 "of the rotor. It is supplied to each burner through the gas outlets 11 and 11 'through the supply passages 12 and 12' and is ignited. Once the ignition is performed and combustion proceeds, thermal power is generated by the combustion heat. Therefore, the safety device 4 becomes an electromagnet, and as the magnetic force continues to pull the open / close side 5, when the ignition is released and the rotating shaft 2 is released, the rotation shaft is driven by the spring force of the spring. It will be pushed out to its original position but the open / close valve (5) will remain open so that the gas supply can be continued. Therefore, it will be a stronger firepower because the gas supply at the same time, the two burners.

On the other hand, since the cam 7 rotates together as shown in FIG. 5 when the rotation shaft 2 rotates counterclockwise, the cutting surface A of the cam 7 is lower than the fixed lever 8. And the cam 7 cannot push the lower side of the fixed lever 8 to the right. Accordingly, the fixed lever 8 is driven about the lever shaft 8 'by the repulsive force of the torsion spring 9. At this time, the upper end portion R of the fixed lever 8 is supported by the wide portion 15a of the switching knob 15, and thus cannot be rotated.

In such a state, in order to weaken the vitality, one of the two burners is to be extinguished. As shown in FIG. 3, the switching knob 15 is pushed forward, and once the switching knob 15 is pressed, As the knob moves forward, the opening / closing shaft 14 is pushed so that the opening / closing side 5a closes the opening / closing chamber 13, thereby blocking the gas supplied to the gas outlet 11 side. Burner is digested, so the firepower is weakened.

On the other hand, when the switching knob 15 is pushed forward, the locking jaw 16 comes to the upper inner position of the fixed lever 8, and in this case, the upper end of the fixed lever 8 is a narrow part of the side of the switching knob 15. Since it is located at 15b, the state supported by the wider portion 15a is released. As a result, the fixed lever 8 is driven by the repulsive force of the torsion spring 9 at the fifth degree virtual line P. As the upper end portion R is rotated in the same state as the upper portion R of the switching knob 15 to the narrow portion 15b, the locking jaw 16 is hung as shown in FIG. Is not pushed out in spite of the elasticity of the compressed spring 6b even if it is not pressed continuously, the opening / closing edge 5a keeps closing the opening / closing chamber 13.

In addition, by rotating the rotary shaft 2 in the counterclockwise direction in such a state, each distribution hole drilled through the adjustment holes 10, 10 ', 10 " By adjusting the degree of coincidence (18), the amount of gas passing through them is adjusted so that the amount of gas supplied is adjusted so that the thermal power is controlled.

On the other hand, when fully extinguishing and lowering, the adjusting shafts 10, 10 ', 10 "of the opening and closing rotor 3 are rotated clockwise to rotate the clockwise shaft 2 clockwise. If it does not coincide with (18), the flow of gas is blocked and extinguished. In this case, the entrained electric power is also extinguished and the safety device 4 loses its magnetic force. By the reverse to block the gas distribution hole 18 and the opening and closing rotor (3) side, the flow of gas is blocked more completely accordingly.

Also. When the rotating shaft 2 is rotated clockwise, the cam 7 is also rotated clockwise together. As shown in FIG. 5, the fixed lever in which the circumferential surface B of the cam 7 is in the virtual line P state is shown. The lower part R 'of (8) is pushed to the right, and the fixing lever 8 is rotated counterclockwise about the lever pin 8' while compressing the torsion spring 9, and the upper end part R thereof. Is lowered to the solid line position in the virtual line state. In this case, the locking jaw 16 of the switching knob 15 is released from the fixed state by the upper end R of the fixing lever 8, so that the switching knob 15 and the opening / closing shaft 14 have the spring force of the spring 6b. It is pushed out by the outside, and accordingly the opening and closing edge (5a) is also moved to the outside to open and close the opening and closing chamber 13 again to enable the supply of gas to the gas outlet 11 side during the next ignition.

The present invention used in this way can supply gas to the two burners through a single valve, or only one of them, so that strong and weak fire power can be controlled, and accordingly, the range of heat control is wide. It is a very practical design.

Claims (1)

The opening and closing rotor 3 is installed in the lower part of the body 1 which has the gas outlet 11, 11 'up and down in the upper part, and the gas adjusting hole 10, 10', 10 is installed in this rotor. "), And the fixed lever 8 which is interlocked by the cam 7 on the side of the rotation shaft 2 is condensed. The opening-closing chamber 13 of the supply path 12 side is the opening-and-closing shaft 14 The opening and closing valve (5a) is fixed to the opening and closing, the opening and closing shaft (14) is a gas switching valve of the gas combustor is coupled to this knob to be interlocked by the switching knob (15) formed with a locking jaw (16).