DE1205923B - Thermoelectric fuse, especially for circulation gas water heaters - Google Patents

Description

Thermoelectric ignition fuse, especially for circulating gas water heaters The invention relates to a thermoelectric ignition fuse, in particular for circulating gas water heaters. For circulating gas water heaters used in central heating systems, As is known, the main gas valve is controlled by room or flow thermostats that have to block or release the gas supply regardless of the ignition safety device. By the ignition fuse can therefore not mechanically open the main gas valve directly and be closed. Rather, it is necessary for such devices as Solenoid valve designed main gas valve from one actuated by the ignition fuse to control electrical switch indirectly.

There are ignition fuses for such devices are known in which by a hand-operated push button by means of a lever the armature one of the heat of the pilot flame, thermoelectrically excited electromagnets, to the magnetic poles applied, at the same time an ignition gas valve is opened against the action of a closing spring and when releasing the pushbutton while holding the magnet armature on the main gas valve controlling electrical switch is operated. The invention has the task based on such a function of the thermoelectric ignition fuse with as much as possible to realize simple means, in their production relatively rough Tolerances can be applied without compromising contact security and reliability suffer from. In particular, it is important to have a switch with a sufficient to be able to use large switching stroke, e.g. B. a commercially available microswitch.

This is achieved according to the invention in that the pushbutton on a attacks scissors-like pair of levers, one lever with the push button returns to its original position, while the other lever with the Armature of the electromagnet is held and the pilot gas valve holds open and that one of the levers has a microswitch with a resiliently depressible switch pin carries, which is supported on the other lever. By using a The scissor lever creates a mechanically very simple and operationally reliable arrangement, with which a standard microswitch can be used without difficulty Switching stroke can be achieved.

A thermoelectric ignition fuse is an exemplary embodiment of the invention schematically in FIG. 1 and 2 shown in different operating states. F. i g. 3 shows a modified embodiment.

In a housing 1 , an electromagnet 2 is arranged, which is thermoelectrically excited in a manner known per se when the pilot flame (not shown) is burning. The armature 3 of the electromagnet 2 is guided so as to be axially displaceable and can be pressed against the poles of the electromagnet 2 by a push button 4 in a manner still to be described. In the housing 1, a pilot gas valve 5 is further arranged, the valve closing body is' loaded by a valve closing spring 6. 5 A pair of levers 7, 7 ′ connected to one another in the manner of scissors is pivotably mounted together at 8 in the housing 1. The lever 7 ' is held in contact with the pushbutton 4 in a non-positive manner by a spreading spring 9 acting between the levers 7, 7'. The lever ? engages behind a collar 10 on the shaft 10 'of the armature 3. The shaft 11 of the valve closure body 5' rests on the lever 7 in a force-locking manner. A microswitch 12 is attached to the lever 7 so that the resiliently depressible switching pin 13 is supported on the lever 7 ' .

If from the in F i g. 1, if the pushbutton 4 is depressed, the two levers 7, 7 'are pivoted together about the pivot point 8, the microswitch 12 not being actuated but remaining in the switched-off position. However, the armature 3 is pressed against the poles of the electromagnet 2 and the ignition gas valve 5 is raised against the action of the closing spring 6. In this state, the pilot burner can be ignited and thereby the electromagnet 2 can be thermoelectrically excited. By means of the collar 10 , the lever 7 is held in this position with the magnet armature 3 held in place, the ignition gas valve 5 remaining open under spring loading. When the pushbutton 4 is released, however, the lever 7 ' returns to its starting position (see FIG. 2), the switching pin 13 of the microswitch 12 being released and switching on. The main gas valve, which is designed as a solenoid valve and not shown, is controlled by the microswitch 12 , which can still be controlled by the room or flow thermostat independently of the ignition safety device described. If the pilot flame goes out, so that the holding force of the electromagnet 2 disappears, the valve closing spring 6 then presses the valve closing body 5 'and the lever 7 downward into the positions shown in FIG. 1 drawn basic position, the force of the valve closing spring 6 overcoming the expanding spring 9 and the spring force of the switching pin 13. The circuit of the main gas valve is then interrupted by the microswitch 12.

In order to achieve favorable force ratios, the shaft 10 'of the armature 3 engages the long lever arm, the shaft 11 of the ignition gas valve 5 engages the middle and the switching pin 13 of the microswitch 12 engages the short lever arm of the lever system 7, 7'.

Of course, as shown in FIG. 3 is shown in dashed lines, the microswitch 12 also fasten on the lever 7 'so that the switching pin 13' is supported on the lever 7. Of course, the levers 7, 7 'can also be lengthened beyond their pivot point and designed with two arms. If necessary, two microswitches can be provided that can be operated by spreading the lever system 7.7 '.

Claims (3)

Claims: 1. Thermoelectric ignition fuse, in particular for circulation gas water heaters, in which the armature of an electromagnet thermoelectrically excited by the heat of the ignition flame is applied to the magnetic poles by a hand-operated pushbutton, and at the same time an ignition gas valve is opened against the action of a closing spring Letting go of the pushbutton with the magnet armature held in place, an electrical switch controlling the main gas valve is actuated, characterized in that the pushbutton (4) engages a pair of scissors-like levers (7, T), one of which is a lever (T) with the pushbutton (4) in its starting position goes back, while the other lever (7) with the armature (3) of the electromagnet (2) is held and the ignition gas valve (5) holds open and that one of the levers (7, 7 ') has a microswitch (12) with a resilient pushable switch pin (13) which is supported on the other lever (7, 7 '). 2. Thermoelectric ignition fuse according to claim 1, characterized in that that between the levers (7, 7 ') a spreading spring (9) is arranged through which one lever (T) is held in contact with the pushbutton (4) with a force fit, and that this expansion spring (9) is dimensioned so that it is from the valve closing spring (6) of the pilot gas valve (5) is overcome. 3. Thermoelectric ignition fuse after Claim 1 or 2, characterized in that the magnet armature (3) on the long, the Pilot gas valve (5) on the middle and the switching pin (13) on the short lever arm of the lever pair (7,7 ') attacks.