DE2108269B1 - Rotary gas switch for heaters with ignition protection - Google Patents

Description

Thermoelectric ignition fuses are based on the principle that of a pilot flame a thermocouple is heated. The thermal current excites a magnet. This magnet is capable of an armature, which is connected to an ignition safety valve is to be held firmly when this armature is applied to the magnet and the thermocouple heated is. If the pilot light goes out, it will take a while Time until the thermocouple cools down sufficiently that the anchor falls off and that Ignition safety valve closes. Precautions must be taken that not during this time the gas valve can be opened again. That would have result in unburned gas escaping.

Then when this unburned gas z. B. ignited by an ignition spark strong deflagrations can occur. There are known constructions which only allow opening of the gas valve to the burner when the armature of the ignition fuse magnet has dropped out. For such a "restart lockout" relatively complicated mechanisms are required.

The invention is based on the object of having a piezoelectric Ignition device connected to create rotary gas switch, in which a release the gas path to the main burner is generally only possible if the Main gas path to the main burner blocked, an ignition gas path released and a pilot burner has been ignited.

Another object of the invention is to provide a rotary gas switch to create, which can be switched on again before a thermal sensor has cooled down an ignition fuse (e.g. a thermocouple), but still safe prevents the escape of unburned gas.

According to the invention, in the case of a rotary gas switch, this becomes the one mentioned at the beginning Kind achieved in that an actuating lever of the piezoelectric ignition device the path of a stop on the rotary handle when it is rotated in the ignition position limited and that this operating lever in the axial pushing-in movement of the Rotary handle can be pivoted in a manner which causes the ignition device to be triggered and when moving back to a position outside the path of the stop is movable.

The twist grip can therefore initially only be turned into the ignition position will. Then the stop strikes the actuating lever of the piezoelectric Ignition device on. In the ignition position, the twist grip can be pushed in, whereby a pilot gas path to a pilot burner is released and at the same time the main gas path is shut off to a main burner. During this pushing-in movement, the Actuating lever pivoted and triggered the ignition device. This ensures that the pilot burner is ignited. Then when the twist grip is moved back, moves he moves the operating lever to a position outside the path of the stop, so that further rotation of the rotary handle is unhindered by the operating lever in the operating position becomes possible. The fact that before opening the main gas path an ignition process must have taken place in any case, it is ensured that no unburned Gas can escape, even if, for example, the thermal sensor of the ignition fuse, that too can be formed by a bimetal, has not yet cooled. But it is not It is necessary to wait until such time as it has cooled down before switching it on again is done. A complicated mechanism for the reclosing lockout is avoided.

The invention can be implemented in such a way that the hammer the ignition device on an arm of one with an elongated hole on a pivot pin seated two-armed lever, the other arm of which forms the actuating lever, and that on the rotary handle a radial edge extending in the circumferential direction is provided with an inner and an outer surface, through its inner surface the actuating lever during the pushing-in movement against the action of the spring up to Sliding is entrained and on the outer surface of the operating lever in the axial return movement of the rotary handle rests outside the path of the stop.

When the rotary handle is in the closed position, the edge can move in the circumferential direction extend right up to the operating lever. If then the twist grip is in the closed position is rotated, the operating lever returns to its original position, so that the When switched on again, the twist grip initially again with its stop against the Actuating lever runs.

The stop can be formed by a step on the inner surface of the rim will.

The invention is based on an exemplary embodiment below Referring to the drawings explained in more detail.

F i g. 1 shows a side view in section of the rotary handle of a gas switch with a piezoelectric ignition device in rest position; F i g. 2 is the front view of the rotary handle of Figure 1 with the impact member of the piezoelectric ignition device; 3 shows the rotary handle in the locked rotational position in the pressed-in rotational position State when the detonator of the ignition device is released and triggered; Fig. 4 is the front view of the rotary handle according to FIG. 3 in the released state of the Flapping link; F i g. 5 shows the rotary handle in the extended state when it is set up the same with adjacent actuating arm of the striking member; F i g. 6 is the front view of the rotary handle in the list according to FIG. 5.

In Fig. 1 is the twist grip 2 with the pressure pin on the gas switch 1 3 stored. A piezoelectric ignition device is attached to the housing 1 by means of the frame 4 5 attached. It consists of the piezo element 6 with the firing pin 7. The piezo element rests on the counter bearing 4 '. It is also on a bearing pin connected to the frame 8 the beater 9 out. The striking link has two arms, one of which, the actuating arm 10 protrudes into the rotary range of the rotary handle 2, while the other Arm 11 carries the hammer 12, which lies opposite the firing pin 7. On the arm 11 engages the tension spring 13, the other end of which is attached to the frame 4.

As in Fig. 2 can be seen, carries the twist grip 2 on his Circumference a radial edge 14, the length of which ends in end faces 15 and 16. Further are on the face of the rotary handle 2, the symbols of the rotary positions of the rotary handle shown. The symbol 17 indicates the rest position, the symbol 18 the ignition position and the sign 19 the operating position.

For commissioning the with a rotary gas switch and a thermoelectric Ignition fuse as well as a device equipped with a piezoelectric ignition device, z. B. a water heater, the twist grip 2 is from the closed position after F i g. 2 in the ignition position according to FIG. 4 rotated.

The rotation is limited by the stop 20 of the edge 14, since the end of the actuating arm 10 protrudes into the rotational path of the stop 20. To ignite the Pilot burner that ignites both the main burner and the thermocouple one should heat the thermoelectric ignition fuse, the rotary handle is in this rotational position 2 and thus the pressure pin 3 is pressed in. When pressed in, ignition gas is released and in a known manner, the anchor plate is applied to the thermoelectrically excited magnet. With the creation of the same, the passage of the gas to the Main burner blocked.

At the same time as pressing the twist grip, the piezoelectric Ignition device actuated.

When the rotary handle 2 is pressed in, the edge 14 engages the actuating arm 10 and pivots it against the spring 13 from the position of FIG. 1 into the Position according to Fig. 3. The hammer 12 moves away from the firing pin, and after the end of the actuating arm 10 is released by the edge 14, the hammer 12 strikes with force on the firing pin 7, whereby an ignition spark is generated, which the pilot burner ignited. Then the flapping member takes the in F i g. 3 drawn dashed position a. After the magnet is sufficiently excited, the anchor plate with the safety valve held in contact with the magnet. Then leave the pressed-in twist grip again drive back, which also opens the blocked gas passage. Driving back of the rotary handle causes the spring 21. When the rotary handle 2 is retracted, it sets the edge 14 with its incline 14 'on the actuating arm 10. While the Hammer 12 is supported on the firing pin, the striking member 11 is against the spring 13 swung out by the strength of the spring 21, the elongated hole 8 'the pin 8 moved along.

To turn the rotary handle 2 into the operating position according to FIG. 5 and 6 the same is rotated further to the symbol 19, the actuating arm 10 the Slope 14 slides along.

To close the gas passage, the twist grip is in the closed position (see Fig. 2) rotated. In this position, the actuating arm 10 moves as a result of the tension spring 13 past the end face 15 into the rotational path of the edge 14.

Reopening the gas path using the twist grip is only possible via pressing in the rotary handle with blocking of the gas passage as well as with the piezoelectric Ignition possible.

Claims (4)

Claims: 1. Rotary gas switch for heaters with ignition protection, in which a twist grip is in an ignition position, releasing an ignition gas path to a pilot burner and blocking the main gas path to a main burner axially can be pressed in and in which a piezoelectric ignition device, which is a piezoelectric element and a spring under the influence of a hammer by movement the twist grip can be tensioned and triggered, d a -characterized in that an operating lever (10) the piezoelectric ignition device (5) the path of a stop (20) on the Rotary handle (2) limited in its rotary movement in the ignition position (18) and that this actuating lever (10) during the axial push-in movement of the rotary handle (2) pivotable in a manner causing the ignition device (5) to be triggered and during the return movement into one lying outside the path of the stop (20) Position (Fig. 5) is movable. 2. Rotary gas switch according to claim 1, characterized in that the Hammer (12) of the ignition device (5) on an arm (11) one with an elongated hole the pivot pin (8) mounted two-armed lever (9) sits, the other arm (10) forms the actuating lever, and that on the rotary handle (2) one extends in the circumferential direction extending radial edge (14) provided with an inner and an outer surface is, through the inner surface of the actuating lever (10) during the pushing-in movement can be carried against the action of the spring until it slips and on its outer surface the actuating lever (10) outside during the axial return movement of the rotary handle (2) the path of the stop (20) rests. 3. Rotary gas switch according to claim 2, characterized in that the Edge (14) in the closed position of the rotary handle (2) in the circumferential direction until tight extends to the operating lever (10) (FIG. 2). 4. Rotary gas switch according to claim 3, characterized in that the Stop (20) is formed by a step on the inner surface of the edge (14). The invention relates to a rotary gas switch for heaters with ignition protection, in which a twist grip is in an ignition position, releasing an ignition gas path to a pilot burner and blocking the main gas path to a main burner axially can be pressed in and in which a piezoelectric ignition device, which is a piezoelectric element and a spring under the influence of a hammer by movement the twist grip can be tensioned and triggered. It is a gas switch with thermoelectric ignition protection for gas-heated Devices have been proposed with a gas switch housing having a gas inlet and a gas outlet to a main burner ner contains, as well as two valve seats, between where an ignition gas line branches off. A first opening in the direction of flow of the gas Valve downstream of the ignition gas line is by rotating it over a curve can be pulled open by means of a valve tappet guided there through in a sealing manner. A second The valve is upstream of the pilot gas line by depressing the valve stem can be pushed open in an ignition position. It is held by a magnet armature that is attached to it a thermoelectrically excited holding magnet is applied against the action of a The closing spring is held in the open position. A rotary handle is used to operate the valve provided with at least one cam, which with a cam of an axially displaceable, but non-rotatable in the gas switch housing guided pressure piece cooperates, which is in drive connection with the valve tappet. There is an ignition gas control curve on the twist grip provided, through which an ignition gas valve in the ignition and operating position of the twist grip can be pressed in the ignition gas channel. It is also a rotary switch for the fuel supply in heating devices been proposed in which by the rotary movement of the rotary switch a piezoelectric ignition device is triggered. For this purpose, a hammer of the ignition device sits on one arm of the two-armed lever mounted on a pivot pin with an elongated hole. This At rest, the hammer rests on a firing pin under the influence of a spring on, which in turn rests on a piezo element. There is a driver nose on the rotary handle provided, in the path of which the other arm of the lever protrudes. When the With the twist grip, the hammer is lifted off the firing pin against the action of the spring. One end of the elongated hole rests against the pivot pin. Finally slides the lever from the driver nose, and the hammer hits the firing pin, so that the piezo element emits a voltage surge which generates an ignition spark. The elongated hole allows the lever to turn back when the twist grip is turned back evade the contact point on the firing pin as a pivot point and over again the driver nose can slide back. There has also been proposed an arrangement in which the pushing-in movement of the rotary handle to block and release the main gas path of the ignition gas path coupled with an actuation of a piezoelectric ignition device is. For this purpose, the twist grip is only in the ready-to-ignite position cocked hammer mechanism for pressing a safety valve of a thermoelectric Ignition protection and release of a flow of ignition gas can be pressed in. In the depressed position the twist grip is then sufficient to trigger the ignition device Dimensions can be rotated further to a limited extent. When the ignition is done, the twist grip is turned rotated back into the ignition position, axially moved out and can be in the open position be rotated further.