DE3518430A1 - 2-WAY VALVE FOR AUTOMATIC CLOSING IN THE EVENT OF GAS LEAKAGE - Google Patents

Description

PRINZ, LEISER, BUNKE & PARTNER

Patent Attorneys European Patent Attorneys 3518430

Ernsbergerstrasse 19 8000 Munich 60

May 21, 1985

Julio BOUZAS FUENTETAJA

Arizti-Gain, 11

San Sebastian / Spain

Our reference: B 1850

Straight-way valve for automatic closing in the event of gas leakage

The invention relates to a gas flow valve for gas systems, whose peculiarity is that it causes an automatic interruption of the gas flow, if released gas is detected in the vicinity. 5

Damage to gas pipes or the gas burners going out as a result of drafts can be dangerous Gas accumulations occur, which can lead to an explosion.

The gas flow valve according to the invention works together in combination with a gas analyzer, the environment analyzed for existing gas accumulations and automatically the gas supply if such a gas accumulation is detected interrupts.

HD / Ma

In addition, the gas flow valve according to the invention effects an interruption of the gas supply if, for any reason, an excessively high gas pressure occurs in the Area of the burner lead to too high a gas throughput and, as a result, to various difficulties can.

The gas flow valve according to the invention consists of a valve housing in which a bent gas flow channel is formed. In a first section of the gas flow channel, a valve seat is formed against which a valve closure body is permanently acted upon in the closed position by a spring and by the gas pressure.

A valve stem is attached to the valve closing body, which extends the valve housing in the extension of the first section of the flow channel extended. The valve stem is secured against its guide by a seal sealed. A control button is also assigned to the valve stem. Near this control button a circumferential groove or groove is formed on the valve stem, the profile of which has the shape of a two-flat and in which a blocking ram can engage, which is attached to the plunger of an electromagnet. at suitable actuation of the operating button to open the valve is the supply circuit of the electromagnet closed. This causes the valve stem to be blocked via the blocking ram and consequently of the valve closing body in the open position of the

QQ valve.

This state is maintained as long as there is no manual actuation of the control button in the closing direction or the Stromversorgungsgg circle of the electromagnet is interrupted. This electromagnet is controlled by a gas analyzer, who analyzes the environment for gas accumulations. if

the gas analyzer detects the presence of gas in the environment, it causes the instantaneous interruption of the power supply circuit of the coil of the electromagnet. The valve stem is consequently released and the open The pressure exerted on the valve closing body by the gas pressure and the spring causes the instantaneous closing of the gas flow valve.

The closed position can also be achieved by an excessively high gas pressure, for which the valve closing body acting spring is suitably dimensioned. If the gas pressure rises above the allowable value, the through the gas pressure exerted on the valve closing bodies thus exceeds a predetermined value, where the The blocking ram is pushed out of the annular groove of the valve stem, thereby releasing the valve stem and the valve closes.

Further features and advantages of the invention emerge from the following description of an exemplary embodiment and from the drawing referred to. In the drawing show:

Fig. 1 is a sectional side view of a straight-way valve for an automatic sub

interruption of the flow in the event of gas leakage, with the globe valve closed State is shown;

FIG. 2 shows the same illustration of the straight-way valve, but in the open state; FIG.

Fig. 3 is an enlarged detail view showing the

Coupling between the valve stem and an actuating button and the assignment of the valve

shows the shaft to the armature of an electromagnet;

Fig. 4 is a bottom view of the straight-way valve showing a support ring for a spring, which with cooperates with the closure body of the valve.

A bent flow channel for the gas is formed in a valve housing 1. In a first section this flow channel is a support disk 2, which is attached by means of a snap ring 3 and on a spring 4 is supported. This spring 4, which is suitably dimensioned, acts on a valve closure body 5 and presses this or the seal 6 arranged on it against a frustoconical valve seat 7, which is formed in the valve housing 1.

The valve closure body 5 is extended on its side opposite the spring 4 by a valve stem 8, that is via the bend in the flow channel for the gas which traverses the valve housing 1 extends out and is received in a bore 9 of the valve housing 1.

The valve stem 8 is sealed against the bore 9 by an O-ring 10, which is in a circumferential groove of the Valve stem is added. The valve stem 8 forms a fastening and guide element for the valve closure body 5.

In the vicinity of the free end of the valve stem 8, this is provided with a circumferential groove 11 which is in profile or is generally triangular when viewed in longitudinal section. At the free end of the valve stem 8 is means an actuating button 13 attached to a screw 12.

On the side of the valve housing 1 corresponding to the actuating button 13 and next to the outlet connection 14 An electromagnet 15 is arranged in the flow channel and is rigidly attached to the valve housing 1 by means of a support 16

is attached. The winding body of this electromagnet 15 forms a cylindrical sliding guide 17 for guidance of the armature 18, which moves therein in the presence of a suitable magnetic field. With the anchor 18 is over a plunger 19 is connected to a punch 20, the front side of which is two-flat or triangular according to the shape the annular groove 11 of the valve stem 8 is formed.

The operation of the valve described will now be explained.

Starting from the closed position shown in Fig. 1, the valve stem 8 is pushed down in the axial direction of the operating button 13 is moved until the end position shown in Fig. 2 is reached. If now the Electromagnet 15 is fed with current, the armature 18 drives the plunger 20 against the valve stem 8, so that the front of the plunger 20 comes into engagement in the annular groove 11 of the valve stem 8. In this way the valve closure body 5 is in its closed position shown in Fig. 2 against the effect of the gas pressure and also the action of the spring 4 held.

A gas analyzer, not shown in the drawing, is also provided. If this gas analyzer is in the If it detects the presence of gas in the vicinity of the valve and sends a suitable control signal, the power supply is switched off of the electromagnet 15 prevented. Due to the shape of the annular groove 11 and the front of the Stamp 20 causes the force component generated by the spring 4, the return movement of the stamp 20, so that the valve stem 8 with the valve closure body 5 can move freely into the closed position shown in FIG.

Independent of or in connection with such a situation, excess gas pressure can also occur. By excessive gas pressure will cause the valve closure

body 5, in addition to the force of the spring 4, is acted upon so strongly in the closing direction that the plunger 20 is repelled, since the electromagnet 15 is dimensioned accordingly so that the valve stem 8 is unlocked and the valve is closed as soon as an excessively high gas pressure occurs.

In the embodiment shown, the inlet port 21 and the outlet port 14 are internally threaded; in other embodiments are flange connections, Welding sleeves or the like. intended. Furthermore, the valve can be made of various suitable materials such as brass, Bronze, stainless steel or plastic material. The passage valve described also works automatically to its closed state if the electrical power supply fails. In this case it will The valve is slightly opened again and locked in the open position by pressing the actuation button 13 of the valve is pressed.

In the event of a longer power failure, the valve can be locked mechanically in its open position. In this case the safety character of the valve is canceled. When the power supply is restored, the User release the mechanical lock manually.

Claims (5)

PRINZ, LEISER, BUNKE- & PARTNER Patentanwälte European Patent Attorneys 3 ζ 1 8 Λ 3 Ernsbergerstraße 19 8000 Munich 60 May 21, 1985 Julio BOUZAS FUENTETAJA Arizti-Gain, 11 San Sebastian / Spain Our reference: B 1850 patent claims 1. Straight-way valve for the automatic interruption of a gas flow in the event of a gas leak, characterized in that a curved flow path is formed in a valve housing that in one a valve closure body is arranged in the first section of the flow path, which corresponds to the gas inlet, which is urged by a spring against a valve seat that the valve closure body on its the spring opposite side is extended by a valve stem, which over the bend of the flow channel is also extended and the valve housing traverses that at the free end of the valve stem, an actuating button it is provided that a circumferential groove is arranged in the vicinity of the actuating button of the valve stem is, which has the shape of a two-face in profile, that with this circumferential groove a blocking punch cooperates, which can be actuated by the armature of an electromagnet and is perpendicular to the direction of extent of the Valve stem is movable, and that by manual HD / Ma Depressing the operating button of the power supply circuit of the electromagnet is closed and the valve stem is blocked via the head piece of the blocking ram is, so that the valve closing body remains in its open position, it is further provided that in the Supply circuit of the electromagnet, a gas analyzer analyzing the environment is arranged, which is detected when The presence of gas in the vicinity interrupts the power supply to the winding of the electromagnet, whereby the blocking ram releases the valve stem and the spring moves the valve closing body into the closed position emotional. 2. Gate valve according to claim 1, characterized in that the winding of the electromagnet is fixed with the valve housing is connected by a support part which has a through opening for a plunger to which the armature and the blocking ram are attached, and that this blocking ram is arranged perpendicular to the direction of extent of the valve stem. 3. straight-way valve according to claim 1 or 2, characterized characterized in that the spring which urges the valve closing body against its valve seat by a Support ring is supported, which is secured in the inlet channel by an expanding ring. 4. Straight-way valve according to one of the preceding claims, characterized in that the spring is dimensioned such that it together with the gas pressure a exerts a certain force on the valve stem which is almost as great as the holding force exerted on the valve stem is exercised by the blocking ram when the winding of the electromagnet is energized, such that excessively high gas pressure causes the valve stem to release and the valve to close. 1 5. Straight-way valve according to one of the preceding claims, characterized in that the operating button is provided with means for manual locking, which allow the valve to remain open in the event of a power failure. 5 to hold a nice position.