DE1126209B - Additional loaded safety valve - Google Patents

Description

Additional loaded safety valve Additional loaded safety valves on high pressure steam boilers ensure a reliable seal even if the range between normal operating pressure and response pressure or concession pressure of the valve is very low. It just has to be ensured that the external medium is timely dismantle so that the valve is absolutely in operation at the set blow-off pressure can step and take over the security of the system.

A known version for solving the problem posed by it practical implementation uses a control column with one or two control flags and a special contact manometer as a third fuse. Although such a plant works satisfactorily, in practice it becomes an even simpler design demands. In order to meet this demand, there is an additional loaded safety valve has been developed in which several, preferably three identical, consisting of helical tube springs and microswitches Pressure switches are provided, the solenoid valves arranged in the loading medium line, preferably three, press if necessary. Such an arrangement has quite general the advantage that it is simpler than the aforementioned type. The use of solenoid operated Three-way valves also have the advantage that the compressed air consumption in the normal drive is reduced to a minimum, practically zero, causing disruptions in the compressed air network can be bridged more easily. When switching off only needs the volume of the cylinder and to be blown off the exposure air line.

The compressed air is only needed again when the steam pressure is before the Safety valve is undershot, by then the volume of the loading air line and refill the cylinder. One is enough for this low air consumption small compressed air tank, which is blocked against the mains by a non-return valve and which is much smaller than the one with the previous circuit with control flags, which have a continuous consumption of about 1 Nm'3 / h while the safety valve is being blown off even 8 Nm '/ h. The continuous air consumption would rise to 1.5 Nm-3 / h if instead of the contact manometer mentioned above, a third control flag with an assigned Air outlet would be incorporated to meet the triple fuse requirement. The advantages of the additional load can be achieved through low air consumption and compressed air storage also benefit companies that do not have a secure compressed air supply. The subject of the invention, which represents a further development of the last-mentioned type, differs from its original shape in that the tubular spiral springs are parallel and the microswitches are connected in series. That means that when it occurs of malfunctions due to the series connection of the microswitches when functioning even a single switch, the circuit is interrupted. The valve cones the solenoid valves can thus change their position, i.e. release the outlet. Switching the helical tube springs in parallel has the advantage that they all have the get the same pulse pressure. All parts of the switching units can be selected identically will.

This simplifies both production and spare parts storage. Finally, the combination of a helical tube spring with a microswitch enables that any joints can be dispensed with. This means that the production is ready Simplified that the means of production of normal armatures without any Precision mechanical facilities, etc. can be used.

In the drawing, the mode of operation of the invention is shown in a scheme for example shown. The safety valve is denoted by 1 therein. from the boiler drum or steam line to be protected? a pulse line 3 branches off which in turn leads to a plurality of tubular spiral springs 4. In the example shown three pieces are used, but there can be more, but at least must two can be taken. The helical tube springs 4 actuate them if necessary associated microswitch 5, through lines 6 and 7 and an intermediate Main switch 8 and a locking switch 9 with the direct current or alternating current network 10 related. Of the Line part 6 and another line part 11 lead to solenoid valves 12 which are built into the loading air line 13. The loading air line 13 receives the pressure medium from a compressed air network 14 and leads it from there into a compressed air cylinder 15 above the piston 16. The latter loads the safety valve in addition to the spring 17.

The safety valve 1 is with its spring load 17 on the desired Blow-off pressure set. The loading medium in the cylinder 15 escapes as soon as switch the solenoid valves 12 to the outlets 18 by interrupting the current. the Power interruption itself is due to the three microswitches connected in series 5 guaranteed. If the steam pressure in the boiler or steam line 2 has decreased by a few Atmospheres drops, the switch 5 automatically reinsert itself, the circuit is closed. The solenoid valves 12 switch back to the pressure medium inlet, so that a sealing force builds up again in the power cylinder 15 above the piston 16 can.

The supply of pressure medium is ensured by a memory 19. This memory is dimensioned so that there is enough print medium even over a longer period of time is available if the supply of print medium from the network 14 fails. For this purpose, the memory 19 is preceded by a check valve 20.

In front of the solenoid valves 12 there is a reducing station 21 so that the pressure can be reduced to a usable level. A filter 22 is used to clean the pressure medium to remove any foreign matter from the solenoid valves 12 keep away.

A pulse valve 23 is locked to the switch 9 so that always only the solenoid valves 12 are de-energized with the resulting reduction of the Load pressure before the impulse line 3 can be disabled. A lockable switch 27 can be inserted in the presence of a security officer so that the switch 9 is bridged.

A arranged in the loading medium line 13, preferably as Shut-off valve 24 in the form of a shuttle valve is used to mechanically close it to empty the part of the line 13 between cylinder 15 and shut-off valve 24 and so that the safety valve is released.

In order to be able to blow out the impulse line during operation a blind flange 25 is provided. Has another connection 26 on the pulse line the purpose of being able to set the shutdown of the compressed air load without to increase the boiler pressure. The setting can be made by temporary connection a known test pump according to a TÜV control manometer.

Claims (2)

PATENT CLAIMS: 1. Additional loaded safety valve in which to Control of the additional load medium several, preferably three of the same., pressure switches consisting of spiral tube springs and microswitches are provided, the solenoid valves arranged in the loading medium line, preferably three, actuate if necessary, characterized in that the tubular helical springs (4) parallel and the microswitches (5) are connected in series. . 2. Safety valve according to claim 1, characterized in that the solenoid valves (12) are connected in series are. Considered publications: German Patent Specifications No. 194187, 521544, 523 646, 857 723, 906 277, 1039 330.