DE1055161B - Gas fire - Google Patents

Description

Gas fireplace The invention relates to a gas fireplace, e.g. B. od for industrial furnaces, central heating boilers, the like, according to patent 1013 027, which is connected to a chimney by an exhaust gas line provided with an exhaust flap and in which a valve controlling the gas flow, which is preceded by an ignition gas line, is arranged in the gas consumption line.

The subject of the main patent is characterized in that the Exhaust flap or flaps provided in the exhaust pipe controlled by the gas pressure is or are.

In practice it has been shown that the exhaust flap after execution of the main patent initially only partially opens and only then fully in the open position passes over when the gas exiting the control valve via the control valve the membrane has acted on the switching valve and thus on the exhaust flap. To to fully open the flue gas flap, however, the burner has the maximum through the control valve released flow gas amount obtained, so that an undesirable stagnation of the exhaust gases could possibly occur in the combustion chamber, which can be avoided according to the invention. target.

The invention is also intended to ensure that the gas flow The valve controlling the burner can only be opened when the pilot gas flame burns, and that in the control intervals at which the burner does not receive any gas, the pilot flame continues to burn, but the exhaust flap is closed. The attachment should therefore be during the control intervals when the gas supply to the burner is shut off is to be kept ready for operation so that when the minimum temperature is reached only then does the burner receive gas again, which is attached to the pilot flame that continues to burn ignites when the exhaust flap has opened fully.

To solve the main problem on which the invention is based provided that one actuated by the exhaust flap shortly before reaching the open position Switch the circuit to the electromagnetically actuated in a known manner, the gas flow dominating valve closed and thus the gas flow to the Burner is released.

The switching membrane for the exhaust flap is expediently on the housing Arranged switch which can be actuated by the shift linkage.

Another feature of the invention is that. that in the gas path to Switching membrane of the exhaust flap is controlled by a temperature sensor, electromagnetically operated valve is arranged, the opening and closing of this gas path and possibly also causes the venting of the control chamber of the switching membrane. Yet A feature of the invention provides that in the from the temperature sensor to the valves leading power line a switch is provided.

According to the invention, the switch can be in the gas supply line arranged between the line leading to the switching valve and the gas burner Be coupled with the shut-off device, whereby a separate operation of the Switch is avoided.

It is also possible, in one branching off from the switching membrane line Ventilation line another, electromagnetically controlled by the temperature sensor to arrange actuated valve when closing the in the switching membrane line lying valve opens the vent line, and vice versa.

If a control valve controlling the gas flow to the burner is provided, according to the invention, the valve regulating the gas quantity can be a quantity regulator its space above the volume control membrane has a vent line has, in which a controlled depending on the movement of the switching membrane, electromagnetic, the vent line of the volume regulator with closed Vent line of the switching membrane opening and reverse acting valve arranged is.

Several exemplary embodiments of the subject matter of the invention are shown schematically in the drawing, wherein the same reference numerals have been used for parts that correspond to the main patent. 1 and 2 show schematic arrangements of the subject matter of the invention. In the arrangement according to the invention shown in FIG. 1, the gas firing system 1 is fed by a utility line 2, 2 '. A shut-off valve 5 is arranged in the consumption line 2, 2 'and an electromagnetically actuated shut-off valve 71 is arranged behind it. A line 48, 49 branches off between the shut-off valve 5 and the shut-off valve 71 and opens into the space under the switching membrane 12. An electromagnetically actuated valve 72 is arranged between the lines 48 and 49, which closes the passage from the line 48 to the line 49 in the unexcited state, but at the same time opens the passage from the line 49 and thus from the space under the switching membrane 12 into a vent line 73 .

From a point between the stopcock 5 and the stop valve 71, an ignition gas line 74, which leads to the burner 1, is branched off.

The switching membrane 12 acts via a linkage 14 and a crank 10 onto the exhaust flap which is attached to the shaft 9 and provided in the exhaust pipe 7 B. The linkage 14 of the switching membrane actuates a switch 56, the one to the valve 71 leading circuit opens or closes. In a second circuit they are Valve 72, a switch 59 actuated by a temperature sensor 58 and one of Manually operated switch 57 is arranged.

The operation of the system is as follows: When the system is idle, ie when the shut-off valve 5 is closed, the electromagnetically actuated valve 71 located in the gas consumption line 2 'is closed because the switch 56 is opened by the vented switching membrane 12. Here, the exhaust flap 8 is in the closed position. The switch 59 operated by the temperature sensor 58 is closed, whereas the manually operated switch 57 is open, so that the power supply to the valve 72 is interrupted and the latter is closed. If the shut-off valve 5 is now opened, the gas flows through the gas consumption line 2 'up to the closed valve 71 and further through the line 48 up to the closed valve 72. Gas flows out through the ignition gas line 74 and is ignited. The switch 57 is now closed and the solenoid valve 72 is thereby excited, so that the passage from the line 48 to the line 49 and thus into the space under the switching membrane 12 is opened. At the same time, however, the passage from line 49 to vent line 73 is also closed. The gas pressure prevailing in the space under the switching diaphragm 12 raises the switching diaphragm 12, opens the exhaust flap 8 and closes the switch 56 near the end position, so that the solenoid valve 71 is now also excited and opened so that the gas flows to the burner 1 where it is ignited by the pilot flame. At a predetermined temperature, the temperature sensor 58 opens the switch 59, whereby the circuit to the valve 72 is interrupted. The valve 72 blocks the passage from the line 48 to the line 49, but opens it from the line 49 to the vent line 73, so that the switching membrane falls, the switch 56 opens so that the circuit to the valve 71 is interrupted and the same closes causes. At the same time, with the lowering of the switching membrane 12, the exhaust flap 8 is closed via the crank 10.

In this state, the gas consumption line 2, 2 'is up before Valve 71 and the line 48 up to before the valve 72 under gas pressure, the pilot flame gas continues to be supplied via the ignition line 74. When the temperature is so high has dropped that the temperature sensor 58 closes the switch 59 again, repeatedly the process just described.

When commissioning the system, it must be ensured that the manually operated Switch 57 may only be closed when the pilot flame is lit, unless that a closed parallel to the switch 57 ignition coil is provided, the causes the burner 1 to ignite.

According to FIG. 2, the gas firing system 1 is supplied by a consumption line 2, 2 'fed. In the consumption line there is a main shut-off valve 5 and behind it a safety valve 44 and a flow regulator 45 and between these two regulating organs 44 and 45 a shut-off valve 6 is arranged. The safety valve 44 consists of one Pressure regulator and a low-gas safety device, which are combined in such a way that the valve disc 46 of the low-gas protection device, the passage from the consumption line 2 to the gas firing system 1 locked in rest position. On the safety valve 44 is also a C) opening and ignition gas valve 47 connected. The gas firing system 1 has an exhaust pipe 7, in which an exhaust flap 8 is rotatably mounted with a shaft 9. The wave 9 is provided with a crank 10 on which the switching linkage 14 of the switching membrane 12 attacks.

From a point between the main shut-off valve 5 and the safety valve 44, a line 48, 49 is branched off, which leads into the space under the switching membrane 12. An electromagnetically actuated valve s is arranged between the lines 48 and 49. which closes the passage of the line 48 into the line 49 in the idle state. A vent line 51 is branched off from the line 49, in which an electromagnetically actuated valve 52 is arranged, which opens the passage of the vent line 51 in the idle state. From the space above the membrane 53 of the volume regulator, a vent line 54 leading into the space of the gas firing system 1 is provided, which is shut off by an electromagnetically operated valve 55 in the idle state. The valve 55 is controlled by a limit switch 56 which is fastened to the housing of the switching membrane 12 and which is actuated by the switching linkage 14. To operate the valves 50 and 52, a switch 57 is provided, in front of which a temperature sensor 58 is connected. The temperature sensor 58 acts on a switch 59 in such a way that the switch 59 interrupts the circuit when a predetermined temperature is reached.

The system works as follows: When the main shut-off valve is opened 5 the gas enters the space below the compensating membrane with unregulated pressure 60 of the safety valve 44 and from here via a line 61 under the shut-off valve 62 of the opening and ignition gas valve 47 and through the line 48 to the valve 50, which is closed. By pressing down button 63 of the opening and Pilot gas valve 47, valve 62 is opened, valve 64 is closed at the same time, so that gas now flows via line 65 to pilot burner 66, where it ignites will. At the same time flows through an opening 71 provided in the valve 64 and the Line 67 gas into the space 68 under the regulating diaphragm 69 of the safety valve 44.

The gas pressure under the regulating diaphragm 69 raises it and opens it Valve 46, so that now the gas in the consumption line 2 'to the stopcock 6th got. When the button 63 is released and the valve is thus closed 62 is now the pilot burner 66 gas from the consumption line 2 'via a channel 70, the space 68, lines 67 and 65 are fed.

If the shut-off valve 6 is now opened, the gas flows through the flow regulator 45 to the gas firing system 1, which initially only with one of the setting of the volume regulator corresponding small flame is burning. The exhaust flap 8 can be adjusted so that even in the closed position with the small position of the gas firing system 1 a sufficient large gap remains for the exhaust of the combustion gases.

By switching on the switch 57, current is now supplied to the valve 50 and 52 via the closed temperature sensor switch 52, the magnets responding and the valve 50 being opened, but the valve 52 being closed. The gas now coming under the switching diaphragm 12 via the line 48, 49 lifts the latter and switches shortly before the upper end position of the switching diaphragm 12 is reached, ie. h when the flap 8 opens, the limit switch 56, whereby the circuit to the valve 55 is closed. Here, the valve 55 opens and ventilates the space via the volume control membrane 53, so that the regulated gas pressure raises the membrane 53, whereby the full passage cross-section to the gas firing system 1 is released.

As soon as the temperature is reached for which the temperature sensor 58 is set and at which it opens the temperature sensor switch 59, the circuit to the valves 50 and 52 is interrupted so that the valve 50 closes and the valve 52 opens the vent line 51. The switching membrane 12 falls off, the flap 8 closes and opens the switch 56, whereby the circuit for the valve 55 is also interrupted and the vent line 54 is closed. The gas firing system now burns with a small flame, provided that the flow regulator 45 has a small quantity setting device, until a predetermined minimum temperature causes the temperature sensor switch 59 to close again, whereupon the described process is repeated.

Compared to the system shown in FIG. 1, the system described above has System according to FIG. 2 has the advantage that the burner 1 is supplied with regulated gas. In addition, the arrangement is completely foolproof even when commissioned.

Claims (7)

PATENT CLAIMS: 1. Gas fireplace, e.g. As for industrial furnaces, central heating boiler, od. Like. According to patent 1013 027, which is connected by a provided with an exhaust valve exhaust pipe with a fireplace, and the flow of gas dominant valve is disposed in the in the gas consumption line, characterized in that a by the exhaust flap (8) shortly before reaching the open position actuated switch (56) closes the circuit to the valve (45, 71), which is electromagnetically actuated in a known manner and controls the gas flow, and thus the gas flow to the burner (1) is released. 2. Gas fireplace according to claim 1, characterized in that on the housing of the switching membrane (12) for the exhaust flap (8) a switch (56) is arranged which can be actuated by the switching linkage (14) is. 3. Gas fireplace according to claim 1 or 2, in which before the gas flow control valve is branched off an ignition gas line, characterized in that that in the gas path (48, 49) to the switching membrane (12) of the exhaust flap (8) one of one Temperature sensor (58) controlled, electromagnetically operated valve (72, 50) is arranged that the opening and closing of this gas path (48, 49) and optionally also causes the control chamber of the switching diaphragm (12) to be vented. 4. Gas fireplace according to claim 3, characterized in that in one of the switching membrane line (49) branching vent line (51) another, from the temperature sensor (58) controlled electromagnetically operated valve (52) is arranged, which at Close the valve (50) located in the switching membrane line (48, 49), the vent line (51) opens and vice versa. 5. Gas fireplace according to one of claims 1 to 4, characterized in that from the temperature sensor (58, 59) to the valves (50 and 52) leading power line a switch (57) is provided. 6. Gas fireplace according to claim 5 with one in the gas consumption line between that to the switching valve leading line and the gas burner arranged shut-off device, characterized in that that the switch (57) is coupled to the arranged shut-off element (6). 7. Gas fireplace according to one of claims 1 to 6 with a gas flow to the burner dominating Control valve, characterized in that the valve (45) regulating the amount of gas is a The volume regulator has a vent line above the volume regulator membrane (53) (54), in which a function of the movement of the switching membrane (12) controlled, electromagnetic, the vent line (54) of the volume regulator (45) when the vent line (51) of the switching membrane (12) is closed and reversely acting valve (55) is arranged.