DE1275748B - Gas valve control device for gas-fired instantaneous water heaters for circulation heating and indirect domestic water heating - Google Patents

Description

Gas valve control device in gas-fired instantaneous water heaters for Circulation heating and indirect domestic water heating The invention relates to a Gas valve control device for gas-fired instantaneous water heaters for circulation heating and indirect domestic water heating. Domestic water is usually heated in a pipe coil, which is arranged in a container through which the circulating water flows is, with this container usually in shunt to the radiators of the circulation heating lies.

It is known to control the gas supply in such devices several independently switchable solenoid valves in connection with one To apply flow pressure switch. This should create the possibility with only heating operation with reduced and with hot water withdrawal with maximum Gas supply to work. Several switching elements are required for the gas supply, making the device prone to failure and expensive.

On the other hand, such gas-fired water heaters are used for circulation heating It has already been proposed to supply gas to the burner from a single solenoid magnet to control, on the one hand by a flow pressure switch, on the other hand also by pre and / or return thermostats and room thermostats can be switched on.

The invention is based on the object with such a several influencing variables switchable solenoid magnets the gas supply by means of a single gas valve to be controlled so that the amount of gas allowed through is adjustable and is different for heating operation and domestic water withdrawal.

According to the invention this is achieved in that the solenoid magnet is guided axially displaceably in the housing and is arranged adjustable in height. By the height adjustability of the solenoid magnet can be achieved that one more or less large proportion of the magnetic core stroke on the gas valve is effective, so that in this way the valve passage can be adjusted and changed.

Appropriately, the solenoid magnet is on one of the outside actuating adjusting screw. If the solenoid magnet has a beveled lower Has edge that rests on a tapered head of the adjusting screw, can you can comfortably adjust the height of the solenoid magnet in accordance with the desired gas consumption set with the circulation heating switched on.

But you can also provide that the solenoid magnet by a plunger a flow pressure switch responsive to domestic water withdrawal can be raised. Through this it can be achieved that the gas valve is always opened to the maximum when hot water is withdrawn is independent of the setting effected by the adjusting screw of gas consumption in circulation heating mode.

According to a further embodiment of the invention is between the plunger of the flow pressure switch and the solenoid magnet, a resilient intermediate member is switched on. You can then also use the solenoid magnet with different strokes of the plunger lead to a fixed stop and arrange this so that it is in the stop position of the solenoid magnet, the maximum passage through the gas valve by the stroke of the Magnetic core is achieved. It is expedient to use the plunger of the flow pressure switch and the intermediate member is an electrical circuit in the circuit of the solenoid magnet Switch operated. You can then provide that the electrical switch has a second Has contact that is in the circuit of an electrical, the circulation heating final Solenoid valve lies.

The invention is described below using a schematically illustrated embodiment. The water circulating in a heating circuit 1 is conveyed by means of a pump 2 via a flow heater 3 and enters the radiator H of a circulation heating system as supply water via a supply line 4. After its heat release, the water returns to the heater 3 via a return line 5 and the pump 2.

In the shunt to the radiators H, a domestic water heater 6 is connected between the flow line 4 and the return line 5, in which a coil 7 is located. The coil 7 is connected to a cold water supply line 9 and, on the other hand, to a service water tap line 10 via a membrane flow pressure switch 8 (not shown in detail). A switching valve 12 in the flow line 4, controllable by an electromagnet 11, allows water to circulate through the heating element H in the open state and water to circulate through the domestic water heater 6 in the closed state.

The burner 13 of the instantaneous water heater 3 is fed from a gas supply line 15 via a gas valve 14 which is loaded by a closing spring 14 '.

A solenoid magnet is located in the fitting housing 16 to control the gas valve 14 17 provided. The solenoid magnet 17 is guided axially in the housing 16 and lies with it a beveled lower edge 17 'on the tapered head 18' one in the housing 16 screwed in adjusting screw 18. By screwing in the adjusting screw 18, the solenoid magnet 17 can therefore be raised more or less, whereby by a spring 19 a frictional connection with the adjusting screw 18 is established.

Arranged in the solenoid magnet 17 is a magnetic core 21 provided with a pin attachment 20, which has a certain constant stroke when the solenoid magnet 17 is excited until it reaches stops 22 of the solenoid magnet 17. During this stroke, the extension 20 comes into contact with the plunger 14 ″ of the gas valve 14 , so that the gas valve 14 is lifted from its seat. This creates an annular passage cross section on the gas valve 14, the size of which depends on how far the gas valve 14 during the stroke the magnetic core 21 is lifted from the valve seat. This is in turn dependent 17 of the set by the adjusting screw 18 height position of the solenoid magnet, the in the response of the solenoid magnet so 17 released on the gas valve 14 passage cross section can be achieved by the adjustment screw 18 to change and adjust.

On the plunger 23 of the flow pressure switch 8, a bell-shaped intermediate member 24 rests on a clamping ring 24 '. An intermediate sleeve 25 is guided on the plunger 23 and rests against a further clamping ring 25 'under the influence of a spring 26 which is supported on the intermediate member 24. If the flow pressure switch 8 executes a stroke when the hot water is withdrawn, the solenoid magnet 17 is raised by the resiliently supported sleeve 25 until it has reached its highest position at a stop 27. The spring 26 overcomes the force of the spring 19. The plunger 23 can perform a larger stroke than is necessary to raise the solenoid magnet 17, the spring 26 being compressed. As soon as service water is taken from the tap 9, the flow pressure switch 8 automatically moves the solenoid magnet to its highest position, in which, after the solenoid magnet 17 has responded, the gas valve 14 is fully opened by the magnet core 21 and releases the maximum gas passage cross-section.

In order to be able to switch on the solenoid magnet 17 during circulation heating operation, the switches 28 of a room thermostat, 29 of a flow thermostat and 30 of a flow pressure switch 31 are connected in series in the circuit. The switch 28 of the room thermostat also switches the pump 2 on and off. A main switch 32 is used to switch on the entire system. When water is withdrawn, a switch provided with two switching contacts 33, 34 is actuated by the bell-shaped intermediate member 24. The switching contact 34 is used to switch on the pump 2 regardless of any open switches 28 and 29. The switching contact 33 is in the circuit of the magnet 11 of the switchover valve 12.

When the switches 28, 29 are closed, the Main switch 32 switches on the circulation pump 2 and generates one at the flow pressure switch 31 effective pressure difference, so that the switch 30 goes into the closed position. The solenoid magnet 17 thereby receives excitation current and partially opens the gas valve 14 as required the height adjustment of the solenoid magnet made on the adjusting screw 18 17. The thus commissioned circulation heating is in a known manner by the Room thermostat switch 28 and the flow thermostat switch 29 monitored.

If process water is drawn from the tap 10 , the flow pressure switch 8 lifts the solenoid magnet 17 in the manner described up to the stop 27 and switches the pump 2 on via the switching contact 34. As a result of the circulating water, the flow pressure switch 31 closes the contact 30, whereby the solenoid magnet 17 is excited and the gas valve 14 is opened to the maximum. At the same time, the switch contact 33 also excites the magnet 11 and the circulation valve 12 closes the heating circuit 1. With increased heating power, water now circulates through the domestic water heater 6 while the radiators H are switched off. During the relatively short period of time that the domestic water is withdrawn, the domestic water is heated to a great extent at maximum heating power.

Claims (7)

Claims: 1. Gas valve control device for gas-fired water heaters for circulation heating and indirect domestic water heating, in which the gas supply to the burner can be controlled by a solenoid magnet, the armature of which performs a constant stroke and the gas valve lifts from its seat by means of a plunger, because the through-indicates that the Solenoid magnet (17) is guided axially displaceably in the housing (16) and is arranged adjustable in height. 2. Gas valve control device according to claim 1, characterized in that the solenoid magnet (17) is on an adjusting screw (18) rests positively. 3. gas valve control device according to claim 2, characterized characterized in that the solenoid magnet (17) has a beveled lower edge (17 ') which rests on a conical head (18 ') of the adjusting screw (18). 4. Gas valve control device according to one of claims 1 to 4, characterized in that that the solenoid magnet (17) by a plunger (23) to a tap water responsive flow pressure switch (8) can be raised. 5. Gas valve control device according to claim 4, characterized in that between the plunger (23) of the flow pressure switch (8) and the solenoid magnet (17) a resilient intermediate member (24, 26) switched on is. 6. Gas valve control device according to claim 4 or 5, characterized characterized in that by the plunger (23) of the flow pressure switch (8) and the intermediate member (24) a switching contact (34) is actuated, by means of which a switch-on is effected indirectly of the solenoid magnet (17) takes place. 7. Gas valve control device according to claim 6, characterized in that the electrical switch has a second switching contact (33) which is in the circuit of an electrical, the circulation heating closing solenoid valve (11, 12) .