DE3121526A1 - Automatic safety gas heating device - Google Patents

Abstract

Unlike the direct control of a valve of the gas line in a conventional gas heating device, a valve rod connected to a diaphragm operates only a microswitch for an electric control plate. A first gas line and a second gas line, which are connected separately from one another to the nozzle of a pilot burner and the nozzles of a main burner, are in each case controlled by a first solenoid valve or a second solenoid valve respectively. Provided in the vicinity of the nozzle of the pilot burner is a sensor for monitoring the presence of the flame of the pilot burner. When the flame of the pilot burner is ignited by the ignition device, the sensor sends a first electric signal to the electric control plate in order to interrupt the ignition operation of the ignition device and in order to open the second solenoid valve so that gas is supplied to the main burner. If the flame is blown out undesirably during the use of the gas heating device, the sensor sends a second electric signal to the electric control plate in order to continue the spark generation of the ignition device and in order to operate the second solenoid valve so that the gas supply to the main burner is interrupted and uncombusted toxic gas is prevented from flowing out of its nozzle, which gas might otherwise suffocate people.

Description

The invention relates to an automatic safety

Gas heating device and in particular a gas heating device for generation of hot water, in which a diaphragm valve actuated by the water pressure is only a microswitch for an electrical control board controls instead of one direct control of the valve in the gas line.

When water pressure is applied to a diaphragm valve to move a valve rod acts, the valve rod actuates not just one in conventional devices Microswitch for continued sparking of an ignition device, but drives also at the same time a first valve disc in the open state and lets gas. flow to the nozzle of a pilot burner, where the pilot flame is ignited. When the pilot flame is ignited, a bolt controlled by the sensor is subsequently activated solved by a second valve disc of a gas line of the main flame, so that the valve rod then drives the second valve disc into the open state and allowing gas flow to the nozzle of the main burner for combustion thereon. As soon as the pilot flame or the pilot flame together with the main flame in one such gas heating device are blown out by the wind, ignites the ignition device the pilot flame on again and subsequently also the main flame according to the above mentioned steps. No unburned gas can therefore flow out of the nozzle. The valve disc of the main flame remains in the closed / state as long as the pilot flame cannot be ignited.

If the igniter is damaged, only a small one can Amount of unburned gas flow out of the nozzle of the pilot burner so that there is a serious problem that explosive burns or suffocation can occur. However, if the main flame and the pilot flame suddenly blown out by a strong wind while an immediate If re-ignition is not possible, a large amount of unburned gas will leak out the nozzle of the main burner, causing explosive burns and danger of suffocation caused. In addition, if the electricity supply fails, the Valve disc does not close automatically, so a large amount of gas escapes from the nozzles of the main burner and the pilot burner. It must therefore be a Improvement to be found. The invention provides an automatic safety gas heater created, which is characterized in that a valve rod externally with a from the water pressure acted upon membrane valve is connected that a microswitch for an electrical control plate is provided, which by the Bewedaß a first and movement of the valve rod is actuated that a first and a second solenoid valve connected in series, separated from each other in one with one Nozzle of a pilot burner communicating first gas line or in a arranged with the nozzles of a main burner in communication second gas line are that the first and the second solenoid valve separated from each other by the electrical Control plate are operated that near the nozzle of the pilot burner an ignition device is provided, which is operated by the electrical control plate, und.daß in A sensor is provided in the vicinity of the nozzle of the pilot burner to detect the presence detect a pilot flame and the electrical control plate for emission of signals, which means that when the microswitch is switched on, in presence the pilot flame of the sensor the electrical control plate to send out a first electrical signal to interrupt spark generation the ignition device to open the second solenoid valve and to supply the gas to the main burner causes, while in the absence of the pilot flame the sensor, the electrical control board causes a second electrical signal to be sent out in order to generate the spark Ignition device continue to operate the second solenoid valve and the gas supply to interrupt the main burner.

According to a further embodiment of the invention, the two are solenoid valves aligned so that in the event of a power failure on the electrical control board the solenoid valves are pulled into the closed state due to the force of gravity will.

It is a primary object of the invention to provide an automatic gas heater to create, which has the advantage that in the absence of a flame on the pilot and Main burner always the valve that controls the supply of gas to this burner is closed immediately.

It is another object of the invention to provide an automatic safety gas heater to create, which has the advantage that if the electricity fails, the The gas supply to the pilot and main burner control valves is always closed Condition are.

It is another object of the invention to provide an automatic safety gas device to create, in which the control of the supply of gas to the pilot and main burner Valves are fully controlled by an electrical control plate.

The invention is described below, for example, with reference to FIG the drawing explains in more detail; it shows: FIG. 1 a schematic representation of a preferred. Execution in a state in which the diaphragm valve by the Water pressure is not depressed; FIG. 2 shows a schematic representation as in FIG Fig. 1, but in the other state in which the diaphragm valve to the water pressure is suspended and the pilot burner has ignited; and Fig. 3 is a schematic View as in FIG. 1, but in a further state in which the main burner is also ignited.

As can be seen from Fig. 1, as long as a faucet (not shown) is closed, an elastomeric membrane 2 of a membrane valve 1 is not pressurized by the water, so it is in its right position remain. A valve rod 3, which is connected to the elastomeric membrane 2, is not driven to the left to operate a microswitch 4 and an electrical one Control plate 11 remains in the switched-off state. Hence each magnet is 25, 26 of a first solenoid operated valve 5 and a second solenoid operated Valve 6 switched off and each spring 7, 8 pushes the corresponding valve disc 13, 17 against the respective valve seat 9, 10, so that the valve is sealed off is. That means that the first and that second solenoid operated Valve 5, 6 is very tightly closed while the tap is shut off.

When the tap is open, as shown in Fig. 2, the elastomeric Membrane 2 acted upon by the water pressure, so that the valve rod 3 to the left is driven. The microswitch 4 is switched on by a to the left Displacement of a recess 20 is raised. At the left end of the valve rod 3 is a spring 22 for pushing back the valve rod 3 when the tap is closed provided, whereby the electrical control plate 11 is switched off. If the electrical control plate 11 is switched on, an ignition device 12 begins to spark while another signal from the electrical control plate 11 den Solenoid 25 of the first solenoid operated valve 5 is energized to a valve disc 13 to lift up against the force of the spring 7, so that the gas to the pilot flame nozzle 14 can flow, which is ignited by the sparks of the ignition device 12.

As shown in Fig. 3, near the pilot flame nozzle 14 is a Sensor 16 is provided to determine the presence of the pilot flame 15. if the flame 15 is present, the impedance in the sensor 16 changes and causes the electrical control plate 11 for generating two signals, one of which is the Spark generating action of the ignition device 12 interrupts and the other interrupts the magnet 26 of the second solenoid valve 6 is supplied with power and i. The valve disk 17 is raised, so that the gas can flow to the main burner 18. This way it becomes the main flame 19 ignited by the pilot flame 15. After use, the tap is closed and the electrical control panel is switched off. As a result, will each solenoid valve 5, 6 is switched off and the valve plates are closed the passage of the gas pipes pushed back.

When the pilot flame is undesirably blown out by strong wind is, the sensor 16 causes the electrical control plate 11 to transmit Signals which switch off the magnet 26 and thereby close the valve 6, the spark generation of the ignition device 12 being continued at the same time. The second solenoid valve 6 does not open until the pilot flame reignites is. In contrast to a conventional gas heating device, there is the possibility explosive combustion and suffocation to a minimum and negligible.

In addition, when the electricity supply fails, the solenoid valve becomes 5, 6 automatically closed. In the case of damaged solenoid valves 5,6 or in the case of a Damage to their springs 7, 8, the valve disks 13, 17 are caused by gravity pulled down so that they rest against the valve seats 9, -10 and di.Ventile close. Under no circumstances can unburned gas come out of the nozzle the burner escape.

Claims (2)

Automatic safety gas heater claims Automatic Safety gas heater; by the fact that a valve rod is externally connected to a diaphragm valve, the one. Exposed to water pressure is that a microswitch actuated by the movement of the valve rod for a electrical control plate is provided that a first and a second solenoid valve are connected in series, which are separated from each other in one with the nozzle of a pilot burner connected first gas line and one connected to the nozzles of a main burner second gas line are provided, wherein the first and the second solenoid valve are operated separately from each other by the electrical control plate that one Ignition device operated by the electrical control panel near the nozzle of the pilot burner is provided that in the neighborhood the Nozzle of the pilot burner a sensor is provided to detect the presence of a pilot flame determine and cause the electrical control board to transmit signals, which means that when the microswitch is switched on and the pilot flame is present Sensor causes the electrical control board to generate a first electrical signal To send out interruption of the spark generation of the ignition device and the second Open solenoid valve and deliver gas to main burner while in the absence the pilot flame of the sensor causes the electrical control board to generate a second electrical Send out a signal to continue sparking the igniter, the Operate the solenoid valve and cut off the gas supply to the main burner. 2. Automatic safety gas heating device according to claim 1, characterized g e k e n n n z e i c h -n e t that the two solenoid valves are designed and are aligned that in the event of a failure of the electrical power supply of the electrical Control plate closed the solenoid valves due to the pulling force of gravity Condition are.