DE3937778C2 - Alarm valve station - Google Patents

Description

The invention relates to an alarm valve station for a fire extinguishing system, in particular stationary, automatic extinguishing system, like sprinkler system, with one between the water supply line and the extinguishing line located alarm valve on the Lines with pressure gauges for monitoring the water supply supply and for the pipe network of the extinguishing line, as well as lines for drainage and alarm with an alarm pressure switch are closed.

Such alarm valve stations are in various forms knows. For example, DE-PS 12 22 799 shows itself Active fire extinguishing system with a membrane valve extinguishing water valve to which several pipes are connected are. Valves, fittings and the like are featured here see who is equipped for maintenance, control and monitoring are. The pipes, the corresponding fittings and the same more, must be connected to the alarm valve. There this creates a tangle of pipes, valves and mano meters. Are additional tasks with additional trimming required, further fittings and pipes must be pre- will see. So z. B. an additional alarm line Attach alarm pressure switch. All of this increases the number Visibility of such stations.

The production of the piping is complex and its arrangement  often not clear. A pre-assembly in the workshop only makes little sense because the piping as a whole is bulky and is difficult to transport.

The invention has for its object an alarm valve station to create, which is prefabricated at the factory and thus on the Construction site only the connections of the valves, manometers and the factory-made pipelines by simple screwing exercise must take place.

This object is achieved in that the alarm valve with egg ver flange surface for connecting a special body is seen, which has connecting channels inside, which one partly in the water or extinguishing agent area with channels of the alarm vein tils and on the other hand are connected to holes to which the monitoring pressure gauges for water supply and extinguishing line are connectable, and that another inner central channel is provided, on the one hand with an unpressurized Opening the alarm valve and on the other hand with a chamber of the Special body is connected, being between the opening and the chamber a shut-off valve is installed, and that to the Chamber of the special body connection holes for connecting the alarm pressure switch, the drainage line and the alarm line are provided.

With this measure, the special body as a whole is attached to the  Flanged alarm valve. The connections are for the Pressure gauge, for the alarm pressure switch, etc. arranged so that these parts can only be screwed in using seals have to. The individual to be carried out on the construction sites so far piping is eliminated. The prefabrication in the workshop has the further advantage that due to the omitted piping no misdirections, e.g. due to confusion, are connected.

The alarm valve station according to the invention also has the further advantages that further combinations are provided can, as well as facilities for attaching guard and Revision connections, if necessary, special adapters for measuring suitcase or the like.

If so far the piping was carried out on the construction site which had to, can now due to the special invention body machining are provided where with the special body program-controlled from a simple Cast body can be made.

In addition, the special body according to the invention also has one optical advantage. He looks better because the previous un clear pipelines are no longer necessary. He can also with can be easily replaced in a few simple steps. He has no Tightness problems on threaded connections and allowed outside hardly any manipulation possibilities on site.  

The connection between the inner channels and the outer channels conclusions for the manometer can in a further embodiment Invention can be made in such a way that between the inner channels and the holes connecting chambers provided are to be operated by means of elastic elements and from the outside devices are closable. Thus is also in one created a lockable way. The barrier Devices can be made from a plate with an external thread and a central threaded hole, the outer Ge wind into a threaded hole in the connection chambers and into the central threaded holes one against the elastic Elements pushable screw can be screwed. This eliminates the previous shut-off valves in the pipes.

The pressure gauge for the water supply is from the Wasserlei device and thus shows the state of the water supply care. The pressure gauge for the extinguishing line is being extinguished pipeline network that acts against the water supply is pressurized with a higher pressure. It is for example around a wet valve station, then the fire extinguishing system tion network filled with water, so that the pressure gauge the condition of the water-filled extinguishing line. Is it against it around a dry alarm station, so is the extinguishing line with air filled so that the manometer indicates the state of the air filling shows. Changes can be displayed via a bypass line check valve inside the bypass line  be arranged with a connection of the two manometers is prevented. According to the invention, the bypass is formed inner bores from the connecting chambers, which have a Connect the bypass bore with a check valve. For technical reasons, the bypass bore can outside and locked with a screw. An advantageous and simple configuration of the Rückschlagschlagven tils is seen in the fact that the bypass hole consists of two partial bores There are different diameters and over aisle range of both holes acting as a check valve Ball is provided. The ball lies on the entrance area of the smaller bore and is affected by the higher pressure pressed out of the extinguishing line against the smaller hole. He for some reason the pressure within the Extinguishing line, then the pressure from the water line can Raise the ball so that there is pressure equalization in the system and both pressure gauges show the same pressures. Out of this sources of error are recognizable within the extinguishing system. A Embodiment of the invention is shown in the drawing Darge represents and is described in more detail below. It shows:

Fig. 1 is a view of the alarm check valve,

Fig. 2 shows a section through the alarm valve with the flanged special body,

Fig. 3 is a section according to line AA in Fig. 2,

Fig. 4 shows a section along line BB in Fig. 2,

Fig. 5 is a section along line CC in Fig. 2,

Fig. 6 shows a section according to line DD in FIG. 2.

The alarm valve station 1 consists essentially of an alarm valve 4 and a special body 6 which is screwed onto the alarm valve 4 and into which the devices described below are screwed.

The alarm valve 4 is screwed by means of unspecified flanges and seals between a water supply line 2 and an extinguishing line 3 . Within the Alarmven valve 4 a shut-off device 61 is provided which consists of two spaced apart valve plates 62 and 63 be. An unpressurized state prevails between the two valve plates 62 and 63 . In this area, an opening 18 is introduced . From the direction of arrow B, the water presses against the underside of the valve plate 63 . According to arrow A, the air or water from the extinguishing line presses against the top of the valve actuator 62 . The pressure from direction A on the locking device 61 is greater than the pressure from direction B. This ensures a safe circuit between the water supply and the extinguishing line within the alarm valve 4 . The special body 6 consists of an elongated part 53 , a round part 54 with a drainage valve 67 and a transition piece 66 . The parts 53 , 56 and 66 can be made in one piece, with a cast body being the preferred shape. The elongated part 53 of the special body 6 is screwed on a seal 60 by means of a flange 58 and the connection screws 59 to the flange surface 5 of the alarm valve 4 . In addition to the opening 18 in the unpressurized area, the alarm valve 4 is equipped with valve channels 9 and 10 , which are connected to input channels 55 and 56 of the special body 6 . These channels are acted upon by the medium from the extinguishing line 3 and the medium from the water line 2 . From the input channels 55 and 56 , two connecting channels 7 and 8 start , which end in connecting chambers 13 and 14 . From the connecting chambers 13 , 14 each go out a bore 11 , 12 or an inner bore 31 , 32 . The bores 11 and 12 end in threaded bores 15 and 16 which end in knobs 46 and 47 of the part 53 and can be screwed into the pressure gauges 50 and 51 . On the one hand, this creates a connection from the medium from the extinguishing line 3 to the pressure gauge 50 and, on the other hand, from the medium from the water line 2 to the pressure gauge 51 . A bypass 33 is provided perpendicular to the channels 7 and 8 and is formed from two bores 43 and 44 with different diameters. For technical reasons, the bore 43 is guided to the outside and closed by a screw 34 . In the bore 43 , the inner bore 31 is inserted, which runs parallel to the channel 7 and goes from the connecting chamber 13 . The inner bore 32 is also connected to the bypass bore 44 . Here, too, the inner bore 32 extends from the connecting channel 14 . Via this bypass circuit, a connection is made between the two media from the extinguishing line 3 or from the water supply line 2 . In the upper loading area of the smaller bore 44 a ball 45 is provided which, due to the higher pressure from the extinguishing line 3, creates a seal with respect to the bore 44 and thus the connection between the two media from lines 2 and 3 at higher pressure from the extinguishing line prevents. The connection between the channel 7 and the bore 11 or the channel 8 and the bore 12 can be prevented by means of elastic elements 27 , 28 . For this purpose, the connecting chambers 13 and 14 are provided in their outer region with Ge thread, in which plates 35 and 36 are screwed with an external thread 37 , 38 . The plates 35 , 36 are provided with threaded holes 39 and 40 into which screws 41 and 42 are screwed. With these screws, the elastic elements 27 and 28 can be pressed against sealing surfaces 48 and 49 of the special body 6 , where a tight seal between the holes ensures. The special body 6 is also provided with a central channel 17 which is connected via a transition channel 57 with the opening 18 of the Alarmven valve 4 . At the other end of the central channel 17 , a chamber 19 is provided. A shut-off valve 20 is provided between the transition duct 57 and the duct 19 . In the exemplary embodiment, a plug valve is provided, which consists of a plug 64 and an adjusting lever 65 . The located in part 54 of the special body 6 chamber 19 is at right angles to two connections 22 and 23 provided, in which the alarm pressure switch 24 and on the other hand a drainage valve 67 with a drainage line 25 are embedded. In the axial extension of the chamber 19 , a threaded bore 21 is arranged, into which the alarm line 26 is screwed. In addition, a catch screen 52 is provided in front of the alarm line 26 in order to retain any contamination.

As can be seen in FIGS. 2 to 4, the special body 6 is shaped accordingly for manufacturing reasons and to save material. The shapes are insignificant for the measures according to the invention.

Claims (10)

1.Alarm valve station for a fire extinguishing system, in particular stationary, automatic extinguishing system, such as sprinkler system, with an alarm valve located between the water supply line and the extinguishing line, on the manometer for monitoring the water supply and for the pipe network of the extinguishing line and lines for drainage and the alarm system is connected with alarm pressure switch, characterized in that the alarm valve ( 4 ) is provided with a flange surface ( 5 ) for connecting a special body ( 6 ) which has connection channels ( 7 , 8 ) in the interior, the one hand in the water - Or extinguishing agent area with channels ( 9 , 10 ) of the alarm valve ( 4 ) and on the other hand with holes ( 11 , 12 ) in connection to which the monitoring pressure gauge ( 50 , 51 ) for the water supply and the extinguishing line can be connected, and that a further inner central channel ( 17 ) is provided, which on the one hand has a Drucklo sen opening ( 18 ) of the Alarmven valve ( 4 ) and on the other hand with a chamber ( 19 ) of the special body ( 6 ) is in communication, a shut-off valve ( 20 ) being installed between the opening ( 18 ) and the chamber ( 19 ) and that to the chamber ( 19 ) of the special body ( 6 ) to connection bores ( 21 to 23 ) for connecting the alarm pressure switch ( 24 ) of the drainage line ( 25 ) and the alarm line ( 26 ) are provided. 2. Alarm valve station according to claim 1, characterized in that between the inner connecting channels ( 7 , 8 ) and the bores ( 11 , 12 ) connecting chambers ( 13 , 14 ) are provided, which by means of elastic elements ( 27 , 28 ) and from the outside be operating devices ( 29 , 30 ) are closable. 3. Alarm valve station according to claim 2, characterized in that the devices ( 29 , 30 ) each consist of a plate ( 35 , 36 ) with an external thread ( 37 , 38 ) and a central threaded bore ( 39 , 40 ), the outer thread ( 37 , 38 ) in a threaded bore of the connecting chambers ( 13 , 14 ) and in the central threaded bores ( 39 , 40 ) each because one against the elastic elements ( 27 , 28 ) pushable screws ( 41 , 42 ) can be screwed. 4. Alarm valve station according to one of claims 1 to 3, characterized in that from the connecting chambers ( 13 , 14 ) internal bores ( 31 , 32 ) come out, which are connected to a check valve via a bypass bore ( 33 ). 5. Alarm valve station according to claim 4, characterized in that the bypass bore ( 33 ) is guided to the outside and can be closed by means of a screw ( 34 ). 6. Alarm valve station according to claims 4 and 5, characterized in that the bypass bore ( 33 ) consists of two Teilboh stanchions ( 43 , 44 ) with different diameters and in the transition region of both holes a check valve acting as a return ball ( 45 ) is provided. 7. Alarm valve station according to one of claims 1 to 6, characterized in that the special body ( 6 ) with outer knobs ( 46 , 47 ) is provided, in which connections to the holes ( 11 , 12 ) threaded holes ( 48 , 49 ) are provided for connecting the monitoring pressure gauges ( 50 , 51 ). 8. Alarm valve station according to claim 1, characterized in that within the chamber ( 19 ) of the special body ( 6 ) with connection to the alarm line ( 26 ), a collecting screen ( 52 ) is easily seen. 9. Alarm valve station according to one of claims 1 to 8, characterized in that the special body ( 6 ) for receiving the inner connecting channels ( 7 , 8 ) with the bores ( 11 , 12 , 31 , 32 , 33 ) and for connection to the Alarm valve ( 4 ) from an elongated body ( 53 ) and in extension of the central channel ( 17 ) from a round body ( 54 ) for receiving the chamber ( 19 ) be and the two bodies ( 53 , 54 ) by means of a transition piece ( 66 ) are connected. 10. Alarm valve station according to one of claims 1 to 9, characterized in that the round body ( 54 ) of the special body ( 6 ) in connection to the connection bore ( 23 ) has a drainage valve ( 67 ) into which the drainage line ( 25 ) is let in.