DE3836878C2 - Safety shut-off valve - Google Patents

Description

The invention relates to a safety shut-off valve according to the preamble of claim ches 1.

Safety shut-off valves are usually installed in front of a gas pressure regulator arranges and interrupt the gas flow when the outlet pressure after the Gas pressure regulator exceeds a certain set dimension or under app a further triggering device also falls below. In the German Ge usage pattern G 83 24 005.5 a safety shut-off valve is described, which at Exceeded or optionally also when the value falls below an adjustable An interrupts the gas flow. The gas pressure is via an impulse line recorded, which is moved to where a certain operating pressure is not exceeded or alternatively should fall below, d. H. the impulse line is generally mean the outlet pressure recorded after the gas pressure regulator. Because today Most of the consumables are equipped with an ignition fuse Triggering the safety shut-off valve in the absence of pressure is waived, because then protects the ignition fuse against unwanted gas leakage. The security section The shut-off valve is connected to the output side of the pressure regulator via a pulse line connected. These safety speak on an increase of the inlet pressure check valves not on. According to the TRF 1988 - Technical rules for LPG - is for a gas supply from stationary containers is a two-stage relaxation See to re-liquefy the liquefied gas in one of the full containers to avoid pressurized gas line. The first pressure regulator is therefore seated directly on the container shut-off valve and regulates the gas pressure to approx. 1 bar. A At this pressure, reliquefaction only takes place at around minus 25 degrees Celsius. At At a control pressure of 2.5 bar, the reliquefaction takes place at approx. mi nus 10 degrees Celsius, a temperature that occurs in winter for a long time can, with low consumption this medium pressure line with liquid Can fill up gas; when entering a building, the liquefied gas warms up again and then leads to an impermissible pressure increase, e.g. B. for pressure regulators are not designed for this high inlet pressure. So it applies here, too To secure the inlet pressure for such a gas pressure regulator. Is known from a technical information leaflet from EXACT-Hamburg, page 7-10 / 87, the arrangement of an SDS closing pressure safety device, a safety valve,  arranged on the housing of the safety shut-off valve. about an inner impulse line from the safety shut-off valve to Pressure regulator, with the outlet pressure side of this pressure connected to the control unit, this closing pressure safety device speaks at a pressure that is between the closing pressure of the pressure controller and the trigger pressure of the safety shut-off valves, and a limited amount of gas to the outside leads to a premature closing of the safety shut-off avoid valves with a slightly higher closing pressure. However, this SDS is not used to monitor an excessively high one Inlet pressure at the pressure regulator. After another Brochure from the company EXACT-Hamburg, - New DIN 4811 part 5, Page 1, from October 1988 -, is for an adjustable Medium pressure regulator with pa = 0.5 to 4 bar a safety shut-off valve SAV - appealing at 5-5.2 bar, with a Safe arranged on the side of the safety shut-off valve Unit valve SBV, appealing at 4.7 to 4.9 bar, known. These response pressures are for the top controller output pressure setting pa = 4 bar, but are designed for lower pressure regulator setting significantly at 0.5 bar high when it comes to securing a downstream Ver device goes. So there is no sliding one here position both for the trigger pressure of the safety lock shut-off valve SAV) as well as for the shortly before Outlet pressure for the safety relief valve (SBV). A Setting the response pressures for the SBV and the SAV in Dependence on the controller outlet pressure set in each case pa would be possible by hand, but still too cumbersome and time consuming. There is also a combination control valve with safety shut-off valve in a common housing, suitable for a design with adjustable setpoint springs also for adjustable outlet pressures pa = 0.5 to 4 bar, known from DE-OS 37 06 579.3. This is also here Safety shut-off valve due to the missing intermediate floor between the membrane spaces of the controller and the safety shut-off valves only for a certain trigger pressure of the Safety shut-off valves designed, and every increase in Controller output pressure would have to amplify the setpoint Follow the spring on the safety shut-off valve, even if this is the case here  Safety shut-off valve not only on the highest off release pressure should be set.

The object of the invention is to provide a known safe safety shut-off valve, upstream of a gas pressure regulator, So on the unregulated inlet pressure side, or in the Combination with a gas pressure regulator, i.e. in one compact design, for example as a cylinder pressure rule device with integrated safety shut-off valve for direct Connection to a gas bottle or gas container, as for example game common in the commercial sector, with adjustable Output pressure, which - as is known - on a fixed set upper cut-off pressure po and / or a fixed one set lower cut-off pressure pu in relation to a largely constant controller output set pressure ps speaks and interrupts the passage of gas to the consumer, next to one on the setpoint spring of the actuating diaphragm device of the safety shut-off valve fixed upper Release pressure without changing this setpoint spring adjustment to one or more raised devices valid or unregulated inlet pressures and with adjustable Controller output presses on one at a time Outlet pressure respond to increased outlet pressure and the gas to interrupt flow and the possibility to offer, at the safety shut-off valve the pending input Measure the pressure in an easy way and via this measuring connection Failure of the gas supply from a replacement gas tank feed and monitor this, feed pressure and to be able to secure.

This task is carried out in a generic facility solved by the characterizing features of claim 1. Another solution is based on the Features of subsidiary claim 4.

The advantages that can be achieved with the invention are in particular another in that in addition to a basic setting and triggering of the actuator in the safety shut-off valve  The setpoint is exceeded by the on order of a relatively inexpensive security vein tiles in the impulse circuit another trigger and thus Interruption of the gas flow is achieved without at the Basic attitude of having to change something; because the Ab circuit of the safety shut-off valve itself pre-pressure resistant pressure regulators for LPG propane Butane is required if in the winter before printing control device of the second control level pending pressure above the Evaporation pressure is at a certain temperature, the - for example at 2 bar and minus 15 degrees Celsius. - the Liquefied liquefied gas and lead to gross control malfunctions can. This protection must therefore always be selected if the pre-stage pressure control device directly at the container shut-off valve does not have a safety shut-off valve and a certain regulator input pressure, for example when a pipeline is introduced into an occupied building, must not be exceeded. If there is a fault on the first Pressure control stage on the gas container then has the option of via a connection valve on the input side of the safe safety shut-off valve to feed a regulated gas pressure, even if the stationary LPG container is empty has been; and further serves this connection valve also for pressure control, this connection valve being forced is opened by the hose connection nipple and automatically closes after its removal, so that no uncontrolled gas leakage can occur. The particular another advantage according to the solution principle of the second next door saying is that the response pressure or the off release pressure of the safety shut-off valve in the combined version, pressure regulator with safety shut-off valve in a compact housing with adjustable outlet pressures especially for the commercial sector, security shut-off valve automatically with the adjustment of the output pressure by a certain pressure - namely the Response differential pressure of the diaphragm safety valve - responds higher than the set outlet pressure to Example in each case 0.3 bar higher, and thus the certainty level of this combination increases compared to one  Safety shutoff valve setting for the highest possible Pressure regulator setting value, for example at 4 bar output pressure a trigger pressure at 5 bar. With a lower rule pressure setting of, for example, 0.4 bar speaks for it safety shut-off valve according to the invention at 0.7 bar, in the conventional version, however, only at 5 bar, which is unacceptable if downstream devices in front of you Overpressure should be protected.

Exemplary embodiments for solving this problem are described in standing described in more detail.

Fig. 1 shows a safety shut-off valve in cross section through the actuating diaphragm chamber 23 , the actuator 3 with the Ven tilabschlusskegel 2 to chamber 6 after the Ventilab cone with the pressure relief valve 4 and the extension tube 10 , which binds the safety valve bore 9 with the pulse connection bore 11 , the leads to the control membrane space 23 .

Fig. 2 shows a longitudinal section through the Sicherheitsab shut-off valve housing 1 with the space 6 after the valve closing cone 2 and the space 12 in front of the Ventilab closing cone 2 , which remains after input of the safety shut-off valve as input 17 to the safety shut-off valve under the influence of pre-pressure, with the connection valve 13 , which opens only after connecting a hose connection nipple by pressing in the pierced valve rod 14 and is used both for measuring the pending inlet pressure and for emergency feeding when the pressure vessel is empty or the pre-stage regulator is defective. This pressure feed is also monitored by the overpressure safety valve 4 , which triggers the safety shut-off valve as soon as the response pressure of the overpressure safety valve 4 is reached.

The normal trigger pressure of Sicherheitsabsperrven tiles, the control membrane chamber 23 via the impulse connection bore 11 through a pulse connection line 22 with the outlet pressure chamber of a gas pressure regulator 18 is connected to the setpoint spring 34 is set. If the back pressure on the actuated diaphragm is reached, the trigger pin 35 is withdrawn from the stop on the actuator 3 and the Ven tilschlusskegel 2 is brought by the force of the closing spring 36 in the closed position, the space 6 after the valve closing cone is depressurized.

A reopening is done by unscrewing the United cap 37 , screwing it upside down on the threaded end 38 of the actuator rod 3 and lifting the actuator against the closing spring force 36 until it engages with the release pin 35 . If, on the other hand, the inlet pressure rises due to a defect in the upstream tank pre-regulator or due to back condensation of liquefied gas in the pre-stage line when the heating is connected, this pressure rise is communicated via the space 6 through the connecting holes 7 in the screw connection 5 to the membrane space 8 of the overpressure safety valve 4 , and as soon as the spring counter pressure is reached, the safety valve cone 39 opens and allows this overpressure through the valve bore 9 and the extension tube 10 to the impulse connection bore 11 and continue to flow into the actuating diaphragm chamber 23 , where by the greatly increased overpressure against the setpoint spring force 34 immediate release of the actuator 3 takes place and a further before pressure inflow from the space 12 by the valve closure cone 2 which has gone into the closed position is prevented. The still in room 6 to the gas pressure regulator 18 before existing pressure is blown off via the pulse line 22 and the existing in the gas pressure regulator diaphragm safety valve. The arrangement of an overpressure safety valve 4 directly on the safety shut-off valve housing 1 with the opposite function holes 7 and 9 through the screw socket 5 , and the shortest connection to the pulse connection bore 11 through the extension tube 10 , which is sealed there by a compression fitting 40 , represents a very inexpensive functional extension of the Safety shut-off valves represent a medium pressure pulse, as is the arrangement of a connection valve 13 for function pressure monitoring on the SAV input side and an emergency feed monitored by the safety shut-off valve, with the particular advantage that this closing cone 15 is positively opened, i.e. no pressure loss to be overcome as in the case of a check valve required, and is always brought into a tight closed position when not in use by the closing spring 16 .

Fig. 3 shows an external view of the arrangement of a safety shut-off valve 19 in connection with a gas pressure regulator 18 , with a pulse connection line 22 from the outlet pressure chamber of the gas pressure regulator to the control membrane chamber 23 of the safety shut-off valve. Via a pipeline 21 , a safety valve 20 set to increased input pressure is connected by a further connecting line 24 to the impulse line 22 . So that the excess pressure coming from the safety valve 20 for triggering the safety shut-off valve 19 does not immediately flow down to the controller output side, a metering 41 is arranged before the impulse line 22 enters the output space of the pressure control device, which builds up the impulse trigger pressure in front of it and ensures that none too large impulses of gas are discharged, but a low input pressure gas quantity is sufficient to initiate the triggering process at the safety shut-off valve. The connection valve 13 also fulfills the purpose of a pressure measurement connection and an emergency supply.

Fig. 4 shows the combination of a gas pressure regulator 26 with a safety shut-off valve 42 in a compact housing. Since this combination is designed for the full tank inlet pressure and is connected directly to the gas tank, there is no pre-stage pressure control; For this, the safety shut-off valve would have to be adjusted to a variable safety release pressure with the output regulating pressure adjustment in the version with adjustable outlet pressure at the pressure adjustment screw 43 . The maximum differential pressure between controller outlet pressure and trigger pressure for the safety shut-off valve should not exceed 1 bar according to DIN 4811 Part 5. However, as can be seen from the attached brochure to DIN 4811 Part 5, only a maximum SAV trigger pressure of approx. 5 bar is provided for an adjustable pressure range pa = 0.5 to 4 bar, and a for the safety relief valve - SBV arranged on the safety shut-off valve Response pressure of 4.7 to 4.9 bar, which should generally not exceed 0.3 bar above the outlet pressure. This maximum trigger pressure setting for the SAV to 5 to 5.2 bar and the blow-out pressure for the SBV from 4.7 to 4.9 bar is understandable, since otherwise the trigger pressure at least for each outlet pressure setting on the pressure adjusting screw 43 of the pressure regulator 26 the SAV would have to be adjusted, which is practically very difficult to do.

With the laying of a pulse line 30 from the upper membrane space 25 of the gas pressure control device 26 into the lower space 28 of the actuating membrane device for the safety shut-off valve 42 and the arrangement of a metering 31 in this pulse line 30 to the atmosphere, the spaces 25 and 28 are normally under atmospheric pressure; the pressure control is therefore not affected. The membrane safety relief valve 27 (SBV) arranged in a known manner in the upper control diaphragm responds only to a certain differential pressure which arises between the lower diaphragm space of the pressure control device, i.e. the outlet pressure, and the atmospheric pressure, upper membrane space 25 , and the in this case, a differential pressure of, for example, 0.25 bar is set. Each time the regulator outlet pressure set on the pressure adjusting screw 43 is exceeded by this 0.25 bar, the excess pressure on the membrane safety valve (SBV) blows off, passes via the impulse line 30 into the lower chamber of the actuating membrane device 28 (comparable to chamber 23 in Fig . 1), there raises the diaphragm device 29 with the release pin 35 and brings the Sicherheitsabsperrven valve in the closed position. The counterforce of the setpoint spring 34 is set accordingly to a back pressure below half the SBV differential response pressure, that is to about 0.1 bar, so that an overpressure of 0.15 bar is then always applied to trigger the safety shut-off valves via the actuating diaphragm device 28 . As soon as the safety shut-off valve has closed, no further container gas flows in, and the residual gas quantity is blown off into the atmosphere via the metering line 31 in the impulse line 30 . This very simple additional device makes it possible, with an adjustable pressure regulator, whether in combination with the SAV or a separately arranged SAV, to always smoothly adjust the triggering pressure for the SAV to the set regulator outlet pressure. There is no impairment of the regulator output pressure setting by the impulse line, since the upper pressure regulator membrane space is connected to the atmosphere via the metering 31 . A connection valve 13 can also be attached here for inlet pressure measurement and for emergency feeding. Likewise, the impulse line 30 to be invisible from the outside, can be accommodated in the inner regulator SAV housing in the form of bores and the dosage 31 can be attached in the form of a small bore in the upper regulator cover.

Reference list

1 safety shut-off valve housing
2 valve plug
3 actuator
4 overpressure safety valve
5 screw-in sockets
6 space after the valve closure cone
7 connecting hole
8 Membrane chamber of the overpressure safety valve
9 valve bore
10 extension tube
11 impulse connection hole
12 Space in front of the valve plug
13 connection valve
14 valve rod
15 closing cone
16 closing spring
17 SAV entrance
18 gas pressure regulator
19 safety shut-off valve
20 overpressure safety valve
21 pipeline
22 impulse connection line
23 actuating diaphragm room
24 connecting line
25 upper membrane space
26 gas pressure regulator
27 Membrane safety valve
28 lower space of the diaphragm device
29 actuating diaphragm device
30 impulse line
31 Dosage
32 lower diaphragm space of the gas pressure regulator
33 mezzanine
34 setpoint spring
35 release pin
36 closing spring
37 sealing cap
38 thread end
39 Safety valve cone
40 compression fitting
41 dosage
42 Safety shut-off valve
43 pressure adjusting screw

Claims (4)

1. Safety shut-off valve for interrupting the gas flow in the event of an inadmissibly high or falling setpoint output pressure on a downstream gas pressure regulator with an actuating diaphragm device connected from the regulator outlet pressure via a pulse line with a switching linkage to trigger an actuator under spring tension in the safety valve housing, characterized in that

• - That on the shut-off valve housing ( 1 ) see in the gas flow direction, connected to the space ( 6 ) after the Ven tilabschlusskegel ( 2 ) of the actuator ( 3 ) an adjustable pressure relief valve ( 4 ) is arranged,
• - Lead one or more connecting bores ( 7 ) into the membrane space ( 8 ) of the overpressure safety valve ( 4 ) through the screw-in connector ( 5 ),
• - The valve bore ( 9 ), which is arranged centrally in the screw-in socket ( 5 ), is connected to the impulse connection bore ( 11 ) via an extension tube ( 10 ),
• - And seen in the gas flow direction at the entrance ( 17 ) of the safety shut-off valve housing ( 1 ), connected to the space ( 12 ) in front of the valve closing cone ( 2 ), a known connecting valve ( 13 ) with a spring-loaded closing cone ( 15 ) and a pierced valve rod ( 14 ) is arranged .

2. Safety shut-off valve according to claim 1, characterized in that the closing spring ( 16 ) to the closing cone ( 15 ) in the input connection ( 17 ) is supported. 3. Safety shut-off valve according to claim 1, characterized in

• - That at the outlet of the safety shut-off valve housing ( 1 ) or in front of the inlet to the gas pressure regulator ( 18 )
• - Connected to the space ( 6 ) after the valve plug ( 2 ) of the actuator ( 3 ) on the safety shut-off valve ( 19 )
• - An overpressure safety valve ( 20 ) directly on the safety shut-off valve housing ( 1 ) or through a pipeline device ( 21 ) is arranged connected to the outlet side ( 6 ) of the safety shut-off valve
• - And the blow-off pressure of the overpressure safety valve ( 20 ) through a further connecting line ( 24 ) in the impulse connecting line ( 22 ) between the outlet of the gas pressure regulator ( 18 ) with a Dosiereinrich device ( 41 ) and the control diaphragm space ( 23 ) of the safety shut-off valve ( 19 ) is.

4. Safety shut-off valve according to the preamble of claim 1, characterized in that

• - In the normal control state under atmospheric pressure upper membrane chamber ( 25 ) of the gas pressure regulator ( 26 ) with built-in membrane safety valve ( 27 ) which responds to an adjustable outlet pressure with the lower chamber ( 28 ) of the actuating diaphragm device ( 29 ) via a pulse line ( 30 ) with metering ( 31 ) is connected to the atmosphere
• - The lower membrane chamber ( 32 ) of the gas pressure regulating device ( 26 ) is separated by an intermediate floor ( 33 ) from the lower chamber ( 28 ) of the actuating membrane device ( 29 ) of the safety shut-off valve
• - And the setting of the setpoint spring ( 34 ) on the actuating diaphragm device ( 29 ) of the safety shut-off valve to a trigger pressure which is below the lowest rigidity regulator outlet pressure setting, at least so high to keep the switching rod of the safety shut-off valve in the locked position.