DE1429122A1 - Electrically controlled heating for household appliances - Google Patents

Description

Electrically controlled heating for household appliances Household appliances use main burners that are powered by an upstream pilot flame ignited to start the burner. If you have such facilities for If you want to use gas heating in automatically controlled household appliances, it is important to to have a fuse that prevents the main burner valve from opening or remaining open prevented. The invention relates to an electrically controlled gas heater for household appliances and aims to provide such a backup by simple means to achieve. According to the invention there is one associated with the main burner in the circuit Solenoid valve a jump clit itqr actuated depending on the pilot flame ...-- 'This Jump switch goes as a result of his temps temperature-dependent only then in the closed position when the pilot light. a @ rimless burns and with it ignition of the escaping gas at the main burner is guaranteed. The snap switch thus ensures through its dependence on the pilot flame that the switched by him Solenoid valve for sure. is only opened when the pilot light is burning. If there is insufficient gas, the snap switch opens and blocks the gas supply to the main burner. The snap switch in the invention can be in the manner of the known Mixon or Meknis switch be executed. These snap switches are basically suitable for instantaneous switching when exceeding or falling below a certain temperature.

There are various options for the design of the inventive concept Execution options. One can, for example, use the parallel connection in the control circuit of the solenoid valve assigned to the main burner and in series with the snap switch and the ignition transformer. When the main switch is closed, it will first the ignition transformer is started, and then it comes through the The snap switch is heated and the solenoid valve of the main burner responds to address. This circuit; one can also add that to the The parallel connection mentioned is still looking for a solenoid valve assigned to the pilot flame is connected in parallel. This results in an automatic one with simple means Securing the "device for the access of the gas. To the pilot flame. Man can arrange the solenoid valve assigned to the pilot flame in front of the main burner valve. Another possible embodiment results when this pilot flame solenoid valve is used in a gas line that is branched off in front of the main burner valve. The sink The pilot valve can also be used in the secondary circuit of the pilot transformer arrange.

For. the establishment of an automatic control can be done according to the further invention put a thermostat switch in series with the snap switch, the circuit of the main burner valve after reaching the set target temperature of the medium to be heated. in the sense of: valve closing actuated. This thermostat switch itself can also be designed as a snap switch, which is used to regulate a Desired response temperature on one with the medium to be heated heat-conducting connected, preferably sickle-shaped slide is adjustable by hand. In this way one comes to a very simple control option for the gas heating.

Further features essential to the invention are given in the exemplary embodiments treated.

Fig. I initially shows a simple arrangement according to the invention, in which no fuse for the ignition gas supply is provided. With 1 is the supply line designated for the gas with a manually operated main gas cock 2. From this newspaper branches off the ignition gas line 3 @, during the newspaper flight 4, which is the main burner valve 5 contains, leads to the main burner 6. With 7, 8 sir «the connection terminals for the electrical Control device of the gas burner called. An ichalter 9 sets the control device in Task. By. Closing the switch 9, the primary winding 10 of the ignition transformer 11 turned on and the stimulus coil 13 lying on the secondary winding 1 2 to the Brought glow. When the gas tap 2 is opened, the gas passes through the pilot flame line 3 off so that the pilot flame burns. The pilot flame heats a snap switch 14, which is in series with the actuating magnet 15 of the solenoid valve.

When its response temperature is reached, the switch 14 closes suddenly the excitation circuit for the magnet 15, so that this # 3 main burner valve 5 opens, which results in the ignition of the main burner 6. .

The arrangement shown in Fig. 2 is essentially the same as that The only difference here is that it is parallel to the primary winding 10 of the ignition transformer here still the exciter magnet 16 of the electromagnetically actuated ZUndflammenventils 17 is located. This valve 17 is thus automatically only here opened when the switch 9 is closed to start the device. ; ovreit the individual parts otherwise coincide with those in Fig. 1, the the same reference numerals are used.

Another possibility of securing the ignition gas supply is shown in the exemplary embodiment shown in FIG. 3. As far as the individual parts with those in fig. 1 match, the same reference numerals are used again. In this arrangement, in the circuit of the secondary winding 12 of the ignition transformer in series with the heating coil 13, the excitation winding 18 of a valve 19 and a. Fuse 31. The gas supply to the pilot flame and to the main burner takes place with certainty only when the main switch 9 has been closed and the glow coil is intact. If the glow coil is short-circuited, the fuse will blow. The valve 18 does not open the gas line when the incandescent spiral is interrupted, ie burned out.

Fig. 4 shows the electrical control of the gas heater accordingly Fig. 3, wherein in the circuit of the Sprungsä, ltero 14 and the solenoid 15 still a control contact 20 is placed. This control contact can be controlled by the program control unit controlled by the gas-heated washing machine. This ensures that each only the main burner when a washing program is running: is switched on and off, while the pilot light is constantly on.

The arrangement can also be designed in such a way that the ignition circuit follows is switched off automatically after ignition. For this purpose, a is shown schematically in FIG Embodiment shown. In the secondary circuit of the Ziindtran-Oormators 11 is the secondary winding 12 here in series with a 2nd snap switch 21 of the ignition coil 13 and the solenoid winding 22 of a solenoid valve 23, which is the pilot flame line 3 is assigned. The snap switch 21 is here together with the jump switch 14 heated by the burning pilot flame, so that the snap switch 21 after reaching its response temperature interrupts the secondary circuit of the ignition transformer 11, whereby the valve 23 is closed again.

An embodiment of the invention in which a temperature-dependent Jump switch is used is shown in FIG. 6 and 7 schematically shown. A gas-heated washing machine is intended for this device. As far as the individual parts correspond to those in Fig. 5, the same reference numerals are used, used. The temperature-dependent snap switch has at. this arrangement a control contact 24, which with the help of a temperature selector button on a metal sickle 25 can be moved by hand. Fig. 7 shows this metal sickle, which with the Lye container 26 of the washing machine is in thermally conductive contact. For adjustment the desired response temperature, this snap switch @ 24 is moved so that If you want a higher set temperature, turn the jump switch clockwise in The direction of arrow 27 is adjusted. Such a facility brings a great deal simple way of controlling the response temperature of the electrical heating control Hand adjust within serene limits.

Claims (5)

Claims u- Electrically controlled gas heating for household appliances, characterized in that in the circuit of an Iilagnetventils assigned to the main burner there is a snap switch actuated depending on the pilot flame. 2. Arrangement according to claim 1, characterized in that the parallel connection in the control circuit of the solenoid valve assigned to the main burner in series with the snap switch and cbs ignition transformer. 3. Arrangement according to claim 2, characterized in that that in addition to the parallel connection, there is also a solenoid valve assigned to the pilot flame connected in parallel: t is. 4. Arrangement according to claim 2, characterized in that in the secondary circuit of the ignition transformer; a solenoid valve assigned to the pilot flame lies. 5. Arrangement according to claim 1 or one of the following, characterized in that in series with the snap switch there is a thermostat switch which switches the circuit of the Halzptbrennerventils after reaching the set target temperature of the medium to be heated 2 i i.-1 sense de; Valve closing actuated. G. Arrangement according to claim 11 or 5, characterized in that there is a second snap switch in the secondary circuit of the ignition transformer, which opens the ignition circuit after ignition and thus closes the ignition valve. ?. Arrangement according to claim 5, characterized in that the Thermo tatechalter is designed as a snap switch that is used for Indentation of a desired response temperature on a with thermally connected to the medium to be heated, preferably the sickle-shaped slide rail is adjustable by hand.