EP1701094A2 - Control system for a gas burner - Google Patents

Abstract

The control equipment has a safety device (25) which is integrated in fourth gas line (26) which is connected with third gas zone (15). Fourth gas line opens when safety device exceeds a given temperature. Third gas area develops a pressure when fourth gas line opens and this pressure closes the main valve (11).

Description

The invention relates to a control device for gas burners according to the preamble of claim 1.

The DE 102 32 653 B3 discloses a control device for gas burner with the features of the preamble of claim 1. Thus, the control device disclosed therein has a main valve and a servo valve, wherein the servo valve is formed as a three-way valve device and actuated by an actuator. The servo valve controls the opening of the main valve and is connected via gas lines with gas chambers of the main valve. About a first gas line formed as a three-way valve device servo valve is connected to a first, input-side gas space of the main valve. Via a second gas line, the three-way valve device communicates with a second, output-side gas space of the main valve. Via a third gas line, the three-way valve device is coupled to a third gas space of the main valve, wherein the third gas space is separated by a membrane of the main valve. Depending on the voltage applied to the membrane of the main valve pressure ratio opens or closes the main valve, wherein the prevailing pressure in the third gas space is also referred to as a servo pressure.

The DE 103 13 764 A1 relates to a cooking appliance, in particular an oven, with an overheating monitor. The overheating monitor has a solenoid valve, which is integrated into a line leading to a gas burner. If the cooking appliance overheats, the solenoid valve integrated in the gas burner leading to the gas burner is closed.

On this basis, the present invention is based on the problem of creating a novel control device for gas burners.

This problem is solved by a control device for gas burner with the features of claim 1. According to the invention, the control device comprises a safety device which is integrated into a fourth gas line connected to the third gas space, the safety device opening the fourth gas line when a predetermined temperature is exceeded and thus generating a pressure in the third gas space such that the main valve closes permanently.

For the purposes of the present invention, a control device for gas burners is proposed which permanently closes the main valve when a predetermined ambient temperature is exceeded. This ensures that components of the control device that can be damaged when the predetermined temperature is exceeded, pose no safety risk in the subsequent operation of the control device. Even then, if below the specified temperature falls below again, the main valve remains permanently closed.

Fig. 1:

eine erfindungsgemäße Regeleinrichtung für Gasbrenner nach einem ersten Ausführungsbeispiel der Erfindung; und

Fig. 2:

eine erfindungsgemäße Regeleinrichtung für Gasbrenner nach einem zweiten Ausführungsbeispiel der Erfindung.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Hereinafter, embodiments of the invention, without being limited thereto, explained in more detail with reference to the drawing. In the drawing shows:

Fig. 1:

a control device according to the invention for gas burner according to a first embodiment of the invention; and

Fig. 2:

an inventive control device for gas burner according to a second embodiment of the invention.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 1 and 2.

Fig. 1 shows a first embodiment of a control device 10 according to the invention for gas burners. The control device 10 of FIG. 1 comprises a main valve 11 and a servo valve 12. The main valve 11 has three gas chambers, namely a first, inlet-side gas space 13, a second, output-side gas space 14 and a third gas space 15, which via a membrane 16 of the Main valve 11 is separated or limited. In the first, input-side gas space 13 there is a so-called inlet pressure and in the second, outlet-side gas space 14 a so-called outlet pressure. In the third gas space 15 there is a so-called servo pressure, depending on the voltage applied to the membrane 16 a valve plate 17 in operative connection with the diaphragm 16 either lifted to open the main valve 11 of a valve seat 18 or to close the main valve 11 against the valve seat 18th is pressed. The opening of the main valve 11 by lifting the valve plate 17 from the valve seat 18 is carried out against a provided by a spring element 19 spring force to close the main valve 11, the spring element 19 presses the valve plate 17 against the valve seat 18th

The servo valve 12 is designed as a three-way valve device 20 and actuated by an actuator 21. Via a first gas line 22, the three-way valve device 20 is connected to the first, input-side gas space 13 of the main valve 11. Via a second gas line 23, the three-way valve device 20 is connected to the second, output-side gas space 14 of the main valve 11. The third gas space 15 is in contact with the three-way valve device 20 via a third gas line 24.

To close the main valve 11 shown in FIG. 1, the first, input-side gas space 13 is connected to the third gas space 15 via the first gas line 22 and the third gas line 24 by appropriate control of the three-way valve device 20, so that in the two gas chambers 13 and 15 of same pressure prevails. In this case, the spring element 19 presses the valve disk 17 against the valve seat 18 and thus closes the main valve 11.

To open the main valve 11 shown in Fig. 1, the three-way valve device 20 is driven such that the connection of the third gas chamber 15 with the first, input side gas space 13 is separated and a connection between the third gas chamber 15 and the second, output side gas chamber 14 is established , As a result, the pressure prevailing in the third gas chamber 15 decreases, whereby when the pressure prevailing in the third gas chamber 15 has dropped by a certain amount, the pressure prevailing in the inlet-side gas chamber 13 lifts the valve disk 17 counter to the spring force provided by the spring element 19 from the valve seat 18. In this case, a gas flow through the main valve 11 is then released from the input-side gas space 13 into the output-side gas space 14.

According to the invention, the control device 10 comprises a safety device 25 which permanently closes the main valve 11 when a predetermined temperature is exceeded. Thus, when the predetermined temperature is exceeded, a fourth gas line 26 communicating with the third gas space 15 is permanently or irreversibly opened so as to generate a pressure in the third gas space 15, as a result of which the main valve 11 closes permanently. In the embodiment of FIG. 1, the fourth gas line 26 is connected between the first gas line 22 and the third gas line 24. In the second gas line 23, a throttle 27 is integrated. In regular operation of the gas valve below the predetermined temperature, the fourth gas line 26 is permanently closed. When the predetermined temperature is exceeded, the fourth gas line 26 is permanently opened by the safety device 25, so that when the main valve 11 is open, bridging the three-way valve device 20, a connection is established between the first, inlet-side gas space 13 and the third gas space 15. In this case, then the gas flow through the fourth gas line 26 is greater than the flow through the second gas line 23, in which the throttle 27 is integrated. It then adjusts a pressure equalization between the first, input-side gas space 13 and the third gas chamber 15, whereby the main valve 11 via the spring element 19 is closed by the spring element 19 presses the valve disk 17 against the valve seat 18.

The safety device 25 is preferably designed as a fuse integrated in the fourth gas line 26. Below the predetermined temperature, the fuse closes the fourth gas line 26, when the predetermined temperature is exceeded, the same melts and releases the fourth gas line 26. The fuse can be a simple closure plate for the fourth gas line 26, which melts when the predetermined temperature is exceeded. This design is structurally particularly simple.

Alternatively, it can be provided to integrate a temperature-dependent operable valve in the fourth gas line 26, which is permanently opened when the temperature is exceeded. Via a temperature sensor, the temperature can be monitored, in which case depending on the temperature of an actuator, the temperature-dependent operable valve of the safety device 25 opens or keeps closed. For cost reasons, however, the execution of the safety device 25 is preferred as a fuse.

FIG. 2 shows a second exemplary embodiment of a control device 110 according to the invention for a gas burner. The control device 110 of the embodiment of FIG. 2 in turn has a main valve 111 and a servo valve 112. The main valve 110 has a first input-side gas space 113, a second, output-side gas space 114 and a third gas space 115, which of a membrane 116 of Main valve 111 is delimited or defined. Depending on the pressure ratio prevailing on the diaphragm 116, the main valve 111 is opened or closed by displacing a valve disk 117 relative to a valve seat 118. To close the main valve 111, a spring element 119 pushes the valve disk 117 against the valve seat 118. The opening of the main valve 111 takes place counter to the spring force of the spring element 119.

The servo valve 112 is in turn designed as a three-way valve device 120 which can be actuated by an actuator 121. Via a first gas line 122, the three-way valve device 120 is connected to the first, input-side gas space 113. Via a second gas line 123, the three-way valve device 120 communicates with the second, output-side gas chamber 114. The third gas space 115 is connected to the three-way valve device 120 via a third gas line 124.

Also in the embodiment of FIG. 2, the control device 110 according to the invention has a safety device 125 which permanently closes the main valve 111 when a predetermined temperature is exceeded. In the exemplary embodiment of FIG. 2, this again takes place in that the safety device 125 permanently opens a fourth gas line 126 when a defined temperature is exceeded, in the embodiment of FIG. 2 the fourth gas line 126 between the third gas space 115 and the second gas line 123 and thus the second, output-side gas space 114 is connected.

In the regular operation of the control device 110 of FIG. 2 below the predetermined temperature, that is, when the fourth gas line 126 is closed, the three-way valve device 120 is switched such that the third gas chamber 115 is connected to the second, output-side gas chamber 114 via the gas lines 124 and 123. On both sides of the diaphragm 116, the same pressure then prevails and the spring element 119 presses the valve disk 117 to close the main valve 111 against the valve seat 118. To open the main valve 111, the three-way valve device 120 is actuated such that the connection of the third gas chamber 115 with the second , output side gas space 114 is interrupted and a connection of the third gas space 115 with the first, input-side gas space 113 is established. Gas then flows into the third gas space 115 via the first gas line 122 and the third gas line 124, as a result of which the so-called servo pressure in the third gas space 115 increases. Then, when the servo pressure in the third gas space 115 a has exceeded certain level, the valve plate 117 is lifted against the spring force of the spring member 119 from the valve seat 118 and the main valve 111 is opened.

If the ambient temperature of the control device exceeds a predetermined, defined temperature, the safety device 125 opens the fourth gas line 126 and thus establishes a connection between the third gas space 115 and the second, output-side gas space 114. Due to the fact that the gas flow through the opened fourth gas line 126 is greater than through the throttle 127 integrated into the first gas line 122, a pressure equalization is established between the third gas space 115 and the second, output-side gas space 114. Due to this, the main valve 111 closes by the spring member 119 pushing the valve plate 117 against the valve seat 118.

Also, in the embodiment of FIG. 2, the safety device 125 is preferably designed as a fuse which closes below the predetermined temperature, the fourth gas line 126 and melts at the predetermined temperature is exceeded and the fourth gas line 126 permanently irreversible opens, so the main valve 111 permanently or close irreversibly.

LIST OF REFERENCE NUMBERS

10

control device

11

main valve

12

servo valve

13

first gas space

14

second gas space

15

third gas space

16

membrane

17

valve disc

18

valve seat

19

spring element

20

Three-way valve means

21

actuator

22

first gas line

23

second gas line

24

third gas line

25

safety device

26

fourth gas line

27

throttle

110

control device

111

main valve

112

servo valve

113

first gas space

114

second gas space

115

third gas space

116

membrane

117

valve disc

118

valve seat

119

spring element

120

Three-way valve means

121

actuator

122

first gas line

123

second gas line

124

third gas line

125

safety device

126

fourth gas line

127

throttle

Claims (7)

Gas burner control device comprising a main valve (11, 111) and a servo valve (12, 112) actuated by an actuator (21, 121) as a three-way valve device (20, 120), the opening being connected to the servo valve (12, 112) the main valve (11, 111), which is actuated by means of a diaphragm (16, 116) is controlled, wherein the three-way valve means (20, 120) is connected via gas lines to gas spaces of the main valve (11, 111), namely via a first gas line (22, 122) with a first input-side gas space (13, 113), via a second gas line (23, 123) with a second, output-side gas space (14, 114) and via a third gas line (24, 124) with a third gas chamber (15, 115) which the membrane (16, 116) of the main valve (11, 111) is separated, characterized by a safety device (25, 125), that at a third with the gas space (15, 115) in conjunction fourth Gas line (26, 126) is integrated, the security einr When the predetermined gas temperature is exceeded, the fourth gas line (26, 126) opens, thus producing such a pressure in the third gas space (15, 115) that the main valve (11, 111) closes permanently. Control device according to Claim 1, characterized in that the safety device (25, 125) is designed as a fuse integrated in the fourth gas line (26, 126), which closes the fourth gas line (26, 126) below the predetermined temperature and if it exceeds the predetermined temperature, the fourth gas line (26, 126) permanently opens. Control device according to claim 1, characterized in that the safety device (25, 125) as a in the fourth gas line (26, 126) integrated, temperature-responsive operable valve is formed Control device according to one or more of claims 1 to 3, characterized in that at a regular operation below the predetermined temperature, the three-way valve means (20) for closing the main valve (11) the third gas space (15) via the first and third gas line (22, 24) with the first, input-side gas space (13) connects, for opening the main valve (11) the third gas space (15) from the first, input-side gas space (13) and separated via the second and third gas line (23) with the second, output side Gas space (14) connects, wherein the fourth gas line (26), which opens irreversibly when exceeding the predetermined temperature, between the first gas line (22) and the third gas line (24) is connected. Control device according to claim 4, characterized in that in the second gas line (23) has a throttle (27) is integrated. Control device according to one or more of claims 1 to 3, characterized in that in a regular operation below the predetermined temperature, the three-way valve device (120) for closing the main valve (111) the third gas space (115) via the second and third gas line (123, 124) communicates with the second, exit-side gas space (114), for opening the main valve (111) separates the third gas space (115) from the second, exit-side gas space (114) and the first and third gas line (122, 124) with the first , Gas inlet side (113) connects, wherein the fourth gas line (126), which opens irreversibly when the predetermined temperature is exceeded, is connected between the second gas line (123) and the third gas space (115). Control device according to claim 6, characterized in that in the first gas line (122) has a throttle (127) is integrated.

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