DE29602248U1 - Pressure lever valve for continuous pressure fire extinguishers - Google Patents

Abstract

The valve is fitted to a fire extinguisher which is maintained in a pressurised state, and has a metal body (10) which is made preferably from brass, and which can be screwed onto the feed pipe on a tank which holds an extinguishing agent. A valve bore (20) passes through the body, and is aligned axially with the feed pipe. A manometer and a testing nozzle (40) are connected to the inside of the tank by pressure bores. The manometer is set into a nozzle (30) which is made in one piece with the valve body.

Description

WESTPHAL-MUSSGNUG & PARTNER

PATENT ATTORNEYS - EUROPEAN PATENT ATTORNEY

hof005

Daniel Hofer Köpenicker Weg 3 78056 Villingen-Schwenningen

Pressure lever valve for permanent pressure fire extinguishers

The invention relates to a pressure lever valve for permanent pressure fire extinguishers according to the preamble of claim 1.

Permanent pressure fire extinguishers consist of a container that holds powdered extinguishing agents and is pressurized using compressed nitrogen. A riser pipe in the container is used to dispense the extinguishing agent. A valve is screwed onto the neck of the container, to which the riser pipe is also screwed. The valve has a valve bore that connects the riser pipe to a connection opening on the side of the valve body. A valve tappet is mounted axially displaceably in the valve bore, which opens or closes the valve bore and accordingly opens or closes the passage between the riser pipe and the connection opening. The valve tappet is held in the closed position by a spring load. The valve tappet can be brought into the open position against the spring force using a pressure lever mounted on the valve body. A nozzle is attached to the connection opening so that the extinguishing agent can be discharged under pressure via the riser pipe and the connection opening when the fire extinguisher is in use and the valve is open. The connection opening is also used during filling and maintenance to introduce the nitrogen gas under pressure into the container.

In order to check the operational readiness of the fire extinguisher, it is necessary to monitor the pressure in the container. This is done using a pressure gauge attached to the valve, which is connected to the inside of the container via a pressure hole.

The valve also has a test port, which is also connected to the inside of the container via a pressure hole. The test port is used to connect an external pressure test device when servicing the fire extinguisher. The test port can also be equipped with a bursting disc device as a safeguard against excess pressure in the container.

In the known valves, the valve body is made of brass. A threaded connection on the valve body is used to connect the pressure gauge, to which the pressure gauge is screwed. The screw connection of the pressure gauge to the valve body represents a possible leak point that can lead to pressure losses. The screwed-on pressure gauge increases the dimensions of the valve.

The invention is based on the object of improving a pressure lever valve of the type mentioned at the beginning so that its function becomes more reliable and the structural dimensions are reduced.

This object is achieved according to the invention by a pressure lever valve with the features of claim 1.

Advantageous embodiments of the invention are specified in the subclaims.

The invention has succeeded in integrating the pressure gauge into the valve body made of brass. This eliminates the possibility of leakage caused by screwing on the pressure gauge in the known valve and the pressure in the fire extinguisher container can be reliably maintained over a longer period of time. By integrating the pressure gauge into the valve body, a much more compact design of the valve body is also achieved. This compact design makes it possible to use either a hand-operated pressure lever or a

Plastic cap to be mounted.

Preferably, the pressure gauge built into the valve body is connected to the test port via a cross hole inside the valve body. The internal pressure of the container can thus be transmitted to both the pressure gauge and the test port via a single common pressure hole, so that the valve is structurally simple. This pressure hole is expediently arranged parallel and offset to the valve hole and opens into the cross hole that connects the pressure gauge to the test port.

In the following, the invention is explained in more detail using an embodiment shown in the drawing.

Figure 1 is a perspective view of the valve body,

Figure 2 a side view of the pressure gauge port of the
valve body,

Figure 3 is a plan view of the valve body from above and

Figure 4 shows a horizontal section through the valve body according to
the section line AA in Figure 2.

The pressure lever valve for a permanent pressure fire extinguisher has a one-piece valve body 10 made of brass. An external thread 11 is formed on the bottom of the valve body 10, which is screwed into an internal thread of the neck of the container in order to attach the valve body 10 to an extinguishing agent container (not shown) in a sealing manner. A riser pipe of the extinguishing agent container is screwed into an internal thread of the valve body 10 with a thread, which is formed coaxially within the external thread 11.

The valve body 10 is penetrated axially from top to bottom by a valve bore 20. The valve bore 20 widens at its lower end in a conical shape to the diameter of the riser pipe. The conical widening forms a valve seat. A valve tappet is guided axially displaceably in the valve bore 20, at the lower end of which a valve cone is formed, which interacts with the valve seat of the valve bore 20 in order to open or close the valve bore 20 against the riser pipe. A projection 12 with a bearing bore 13 is formed on the top of the valve body 10. A pressure lever (not shown) is pivotally mounted in the bearing bore 13, which engages the end of the valve tappet protruding from the valve bore 20. By pressing the pressure lever against the force of a spring, the valve tappet is pressed down so that its valve cone releases the valve bore 20, so that it comes into contact with the riser pipe and thus the extinguishing agent container. If the pressure lever is released, the spring presses the valve tappet into the closed position. The pressure lever can be secured against unintentional actuation by means of a locking pin engaging in a fork 14 of the valve body 10.

A connecting piece 21 is formed on the side of the valve body 10. The connecting piece 21 has a connection opening 22 which opens radially vertically into the valve bore 20 above the valve seat. The connecting piece 21 with the connection opening 22 is used to connect a nozzle through which the extinguishing agent is discharged from the container when the fire extinguisher is used. The connecting piece 21 with the connection opening 22 is also used to fill the container with nitrogen under pressure when filling the container.

At approximately the same height as the connecting piece 21 and at a right angle to the connecting piece 21, a pressure gauge socket 3 0 is integrally formed on the valve body 10. The pressure gauge socket 3 0 has an essentially cylindrical opening that is open at the front.

• ft *· · · · ·
•ff· ft·* ·

tric recess 31. The recess 31 serves to accommodate a pressure gauge (not shown). For this purpose, an inner shoulder 32 is arranged at the bottom of the recess 31. A membrane disk of the pressure gauge is inserted into the recess 31 and sits on the inner shoulder 32. The membrane disk is preferably soldered into the pressure gauge socket 30. The membrane disk actuates a pressure indicator via a gear, whereby the gear and the pressure indicator are arranged in the space of the recess 31 in front of the membrane disk. An undercut recess 33 in the recess 31 serves to accommodate a snap ring which secures the gear and the display of the pressure gauge in the recess 31. A viewing window is pressed into the recess 31 in front of the snap ring in order to close the gear and the display.

A test nozzle 40 is formed on the side of the valve body 10 that is diametrically opposite the pressure gauge nozzle 30. The test nozzle 40 has an external thread by means of which an external pressure test device can be connected when servicing the fire extinguisher. If necessary, a bursting disc device is also used in the test nozzle 40 as an overpressure protection device.

A cross hole 41 leads from the test port 40 through the valve body 10 and opens into the bottom surface of the recess 31 of the pressure gauge port 30. The cross hole 41 runs at an angle to the valve hole 20 in a plane perpendicular to the valve hole 20 and on the side of the valve hole 20 opposite the connection port 21. A pressure hole 42 is formed in the valve body 10 parallel to the axis of the valve hole 20 and offset from it. The pressure hole 42 opens with its upper end into the cross hole 41, while its lower end opens in the area of the internal thread that accommodates the riser pipe. The internal thread has an axially parallel notch that continues the pressure hole 42 in alignment. If the valve is screwed onto the container and the riser pipe is inserted into the internal thread of the valve

body 10, the pressure bore 42 is connected to the internal pressure chamber of the container via the notch of the internal thread. The internal pressure of the container thus acts on the inside of the membrane disk of the pressure gauge inserted in the pressure gauge socket 30 via the notch of the internal thread, the pressure bore 42 and the cross bore 41. In the same way, the internal pressure of the container is available via the cross bore 41 at the test socket 40 for a possible check and acts on the bursting disk safety device.

WESTPHAL-MUSSGNUG S, PARTNER

PATENT ATTORNEYS · EUROPEAN PATENT ATTORNEYS

hof005 Reference list

10 Valve body

11 external thread

12 Approach

13 Bearing bore

14 Fork

2 0 Valve bore

21 Connection pieces

22 Connection opening

3 0 Pressure gauge socket 31 Recess

3 2 Inside shoulder

33 Puncture

40 test sockets

41 Cross hole

42 Pressure bore

0-73048 VS-VILLINGSN Fax.: (0 /7 21) 5 5!

Claims (6)

hof005 Protection claims 1. Pressure lever valve for permanent pressure fire extinguishers, with a valve body made of metal, preferably brass, which can be screwed onto an extinguishing agent container with a riser pipe, with a valve bore axially penetrating the valve body and axially aligned with the riser pipe, with a valve tappet guided in the valve bore, which can be moved axially by means of the pressure lever to open and close the valve bore, with a connection opening opening radially into the valve bore, with a pressure gauge connected to the inside of the container via a pressure bore and with a test nozzle connected to the inside of the container via a pressure bore, characterized in that the pressure gauge is inserted into a pressure gauge nozzle (3 0) formed in one piece on the valve body (10). 2. Valve according to claim 1, characterized in that the pressure gauge has a membrane disk soldered into a recess (31) of the pressure gauge socket and a display mechanism fastened in the recess (31) by means of a snap ring. 3. Valve according to claim 1 or 2, characterized in that the pressure gauge and the test nozzle (40) are connected to one another via a transverse bore (41) which is skewed to the valve bore (20) and that only one common pressure bore (42) is provided for the pressure gauge and the test nozzle (40). 4. Valve according to claim 3, characterized in that the Pressure bore (42) is arranged parallel and offset to the valve bore (20) and opens into the transverse bore (41). 5. Valve according to claim 4, characterized in that the pressure bore (42) opens into the container outside the riser pipe. 6. Valve according to claim 5, characterized in that the pressure bore (42) is axially aligned with an axially parallel notch of the internal thread of the valve body (10) which receives the riser pipe.