KR910000580B1 - Controller of gas - Google Patents

Abstract

No content.

Description

Gas controller

1 is a plan view of an embodiment of the present invention.

FIG. 2 is a cutaway view along II-II material of FIG. 1. FIG.

3 is a left side view of FIG.

4 is an explanatory diagram showing a relationship between a press button and a fire button.

5 and 6 show an operating state according to FIG.

7 is a control circuit diagram.

8 and 9 are views corresponding to FIG. 2 of another embodiment.

* Explanation of symbols for main parts of the drawings

4: Gas passage 5: Manual valve

6: manual operation member 13: igniter

19: gas valve for large flow rate 20: gas valve for high flow rate

27: operator 28,37: protruding flange

The present invention relates to a gas control device mainly used in the gas stove. The gas passage connected to the conventional burner includes at least two large flow rate gas valves and a small flow rate gas valve which intervene in parallel with each other, and selectively controls the opening of each gas valve. It is known from Japanese Patent No. 28551, and adjusting the amount of gas supplied to the burner by changing the operation position of the needle valve is also known from Japanese Patent Application Laid-Open No. 54-178127. In such a case, the manual valve is installed upstream of these gas valves or needle valves, and at the same time, the automatic igniter is installed and the manual valve is pushed open at the final operating position of the manual operating member which operates the automatic igniter. When ignition and combustion are carried out by the operation of an automatic igniter, when ignition is carried out with the low gas flow valve selected, the ignition is poor because the gas supply amount is small. There is a defect such as an explosion. In the latter case, the same defects exist when the needle valve is ignited and burned in a tightened state.

The present invention is to provide a device capable of stable ignition combustion by supplying a large amount of gas to the burner at all times during ignition in order to solve such a defect, and operates the igniter in the gas passage connected to the burner. In the gas control apparatus which installs the manual valve which opens by the manual operation member to operate, and also installs the gas valve part opened and operated by a separate operation member in the fuel path downstream of this manual valve, This manual operation member In the ignition operation by means of the configuration, the operator is provided to switch over to the side to increase the amount of fuel gas supplied to the burner via the gas valve unit.

Embodiments of the present invention will be described with reference to the accompanying drawings. Referring to the embodiments shown in Figs. 1 to 6, reference numeral 1 denotes a gas valve body, 2 denotes a gas inlet provided in the gas valve body 1, 3 denotes a gas outlet, and A denotes a gas outlet. The gas burner connected to this gas outlet, (4) is a gas passage installed in the gas valve body (1), (5) is a manual valve installed in this fuel passage (4), and (6) is a manual valve (5). ), The operation member 6 is opened, and the operation member 6 has a pressure button 6a interleaving with the operation panel 7 on the front side of the furnace stand, extending coaxially with this in the gas passage 4. The manual valve 5 is composed of an on / off valve 5a fixedly installed on the operation period 6b and an electromagnetic safety valve 5b provided upstream of the operation valve 6b. According to the pressurizing operation which repels the return spring 6c from the starting position of the pressurizing button 6a, the on-off valve 5a is first opened at this intermediate position and then pressurized continuously. If you were to open an electronic safety valve (5b). However, this manual valve 5 can omit either one. When the pressurizing button 6a releases the pressurization, the engaging mechanism 11 elastically repelled by the spring 10 is fitted into the engaging hole 9 formed therein, and the return operation is stopped at the intermediate position. According to the pressing operation of the fire extinguishing button 12 separately installed, the engaging device 11 is retracted from the locking hole 9 so that the pressing button 6a is returned to the starting position.

Denoted at 13 is an igniter installed in the gas burner A. The igniter 13 is connected to the pressurization button 6a as shown in FIG. 7 to move and close the ignition switch 14 at its final position. The gas burner A is ignited by the igniter 13 in the final position, and the circuit shown in FIG. The solenoid 5b 'of the safety valve 5b is excited by the electromotive force of the thermocouple 16 installed in (A) to open the safety valve 5b while the safety valve 5b is held in the open state. The capacitor | condenser 17 holding is provided.

In other words, the condenser 17 is normally connected to the power supply 15 and charged by the switching switch 18 connected to the pressing button 6a, and is operated by the pressing operation exceeding the intermediate position of the pressing button 6a. It is connected to the solenoid 5b ', and is comprised so that it may discharge. Therefore, even if the ignition water pressurization button 6a of the burner A is immediately returned to the intermediate position at the final position to release the pressurization of the safety valve 5b, the safety valve 5b will not be discharged from the condenser 17. Due to the excitation of the solenoid 5b ', the valve is held in the open state by suction.

(4a) (4b) and (4c) indicate a large flow gas passage, a small flow gas passage and a very small flow gas passage branched from the downstream side of the manual valve 5 of the gas passage 4, and a large flow gas passage. The high flow gas valve 19 and the low flow gas valve 20 are provided in the furnace 4a and the low flow gas passage 4b, respectively, and the low flow gas passage 4b is installed in the low flow gas passage 4b. And a throttling valve 21 (FIG. 1) located downstream, and the throttling valve 29 which passes a minimum amount of gas in the gas flow passage 4c for very small flow rates. In addition, the gas valves 19 and 20 for large flow rate are installed on the operation lever 22 through which the gas valve main body 1 can be slidably inserted, and the outer end of the operation valve 22 is mounted on the gas valve body. It protruded outward from (1), and it was comprised so that it may be selectively opened and closed by the sliding member 23 as another operation member which slides along the panel 7. As shown in FIG.

In detail, the sliding member 23 is configured to be freely slid along the long groove 7a installed in the panel 7 and to be stopped at the desired position by the locking spring 24. Between the mover 23 and each operation 22, the swing levers 25 and 26 opposite to each operation 22 are provided, and the sliding exerciser 23 is slid to move each gas valve ( 29) (20) was configured to open and close.

That is, when the slide 23 is in the right end position shown in FIG. 3, the gas valves 19 and 20 for large flow rate are kept in the closed valve state, and the electronic safety valve 5b and the gas inlet 2 are closed. The gas flowing in the gas passage 4 via the on / off valve 5a is supplied with a small amount of fuel to the gas burner A connected to the gas outlet 3 via the gas flow passage 4c for a very small flow rate. Is selected. Subsequently, when moving the slider 23 to the intermediate position, the gas valve 20 for low flow rate is pushed open through the swing lever 25. As a result, the fuel supplied from the gas inlet 2 is supplied with a large amount of gas to the gas burner A connected to the gas outlet 3 via the very small flow passage 4c and the small flow passage 4b. Further, when the slide mover 23 is moved to the left end position, the gas valve 19 for large flow rate is pressurized and opened through the swing lever 26 so that the fuel from the gas inlet 2 is all passaged 4a. It is supplied to the gas burner A connected to the gas outlet 3 via (4b) (4c). In other words, a large amount of gas is supplied.

Further, in the illustrated embodiment, the slide 23 is configured to pressurize and open the gas valves 19 and 20 by operation. This is shown by the cam face 31 of the lower surface of the rotary knob 30 as shown in FIG. ), The rotary knob 30 may be rotated to pressurize and open the gas valves 19 and 20 to the cam surface 31, and the upper end of the operation section 22 of each gas valve 19 or 20 may be opened. A press button (not shown) may be provided at each of them, so as to be opened and closed respectively. In addition, it is possible to pressurize the operation section 6a by the operation knob 33 provided with the cam surface 32 using the press button 6a. Reference numeral 27 denotes an operator provided on the operation period 22 of the large flow gas valve 19 from the pressure button 6a constituting the manual operation member 6, and the pressure button 6a is displayed. When the pressurization operation to the final position is performed when the operator 27 touches the protruding flange 28 of the operation section 22 at the intermediate position and the operation is performed by the pressing button 6a or the rotary knob 30. In the final operation position, the operator 27 abuts against the protruding flange 28 of the operation section 22, and the gas valve for large flow rate is operated even when the operation is performed at the final position of the pressing button 6a or the rotary knob 30. (19) was configured to open. However, the gas valve opened and operated by this operator 27 is not limited to the gas valve 19 for large flow rate, for example, the operator 27 to the position between operation 22 of the gas valve 20 for low flow rate. In this way, the two gas valves 19 and 20 may be opened to supply more fuel gas to the gas burner A during the ignition operation. Moreover, between the operation 6b and the operation 22 is guided by the guide 40 and 41 fixed to the gas valve main body 1, and it slides.

Next, the operation of the apparatus will be described with reference to the embodiments shown in FIGS. 1 to 6.

In the ignition operation, the pressing button 6a is first pressed. Then, the opening / closing valve 5a is opened in the intermediate position, and when further pressurized, the solenoid safety valve 5b is pressurized to open and the large flow gas valve 19 is pressurized to open. Therefore, when the igniter 13 is operated at this operation position, it is ignited and burned by a large flow rate of gas flowing out of the gas outlet 3. Thus, for example, even when the slide 23 is in a position to close the two gas valves 19 and 20, it is possible to discharge a large flow rate of gas from the gas outlet 3 only at the time of ignition. When the pressurization operation of the pressurization button 6a is released after ignition, the pressurization button 6a is wound in a state in which the on / off valve 5a at its intermediate position is pressurized and opened. At this time, the pressurization by the operator 27 of the large flow gas valve 19 is released, and the gas amount selected by the sliding operator 23 is supplied from the gas outlet 3. That is, as shown in FIG. 2, when selecting the position where the large flow gas valves 19 and 20 are closed, the amount of gas passing through the very small flow gas passage 4c is obtained from the gas outlet 3. The embodiment shown in FIG. 9 is changed to the open / close type gas valve which intervenes in parallel with the gas path 4 mentioned above, and interposes the needle type gas valve 24, and the gas path by this gas valve 34 In the adjustment of the throttling degree of 4) by the sliding movement 35 as a separate operation member as in the embodiment shown in FIGS. 1 to 6, the operation period 36 constituting the gas valve 34 is provided. ), A protruding flange 37 is provided on the upper side, and an operator 39 extending from the pressing button 38 is installed at a position engaged with the protruding flange 37, and the pressing button 38 allows the operation period 6b. Pressurizes to the final position, that is, to the ignition operation position, pressurizes the gas valve 34 in a direction in which the throttling degree of the gas valve 34 decreases. Fuel gas can be supplied to burner (A).

As described above, according to the present invention, since an operator is provided for switching to increase the amount of fuel gas supplied to the burner through the gas valve part during the ignition operation by the manual operation member, regardless of the operation position of the separate operation member. When the ignition operation is performed by the manual operation member, the fuel necessary for ignition must be supplied to the burner, so that a good ignition can be achieved. In particular, if it is re-ignitioned, a separate operation member can be used unless the combustion state of the burner is changed. There is no need to operate, and the handling has a simple effect.

Claims (1)

In the gas passage 14 connected to the burner, a manual valve 5 which is opened and operated by the manual operation member 6 for operating the igniter is provided, and the gas passage 4 downstream of the manual valve 5 is provided. In the gas control apparatus which installs the gas valve part opened by a separate operation member, the large flow-rate operation in which the protruding flanges 28 and 37 were installed penetrated to the operator, and the manual control member 6 was pressed. Gas control device, characterized in that configured to open a large flow rate gas valve (19), so that a large amount of gas is supplied to the main burner (A) during ignition.

Images