DE10117561B4 - Device for automatically shutting off a gas flow in a pipe system - Google Patents

Abstract

Device for automatically shutting off a gas flow in a pipeline system;
1.1 with a line section (2);
1.2 with a so-called gas stop (3), comprising
1.2.1 one in the line section (2) insertable sleeve (3.1) having at its upstream end a valve seat (3.2);
1.2.2 with a valve plate (3.3) which is relative to the valve seat (3.2) axially limited movable and up to the maximum allowable gas flow against the force of a spring from the valve seat (3.2) is lifted;
1.3 the line section (2) has at its downstream end on its outer circumference on a thickening (2.1) with an undercut to secure a deferred tube of elastic material against peeling;
1.4, the inner wall of the line section (2) has in the region of the thickening (2.1) on a circumferential groove for receiving a retaining ring (2.2) against axial displacement of the gas stop.

Description

The invention relates to the field of gas-carrying piping systems. In particular, it relates to a shut-off device for automatically shutting off a gas flow. Such devices are used inter alia in so-called home introduction combinations. For example, reference is made to DE 296 18 605 U1 ,

DE 43 44 575 A1 describes a usable in a line gas stop. This comprises a usable in the line section sleeve having a valve seat at one end, further comprising a valve plate which is axially limited relative to the valve seat movable.

DE 22 31 782 A1 describes a gas stop used in a line, wherein the line at its end on its outer circumference has a thickening to secure a deferred tube of elastic material against peeling.

EP 1 061 304 A1 describes a hose connection, wherein circumferential grooves are provided against removal of a deferred tube, further, a sleeve for fixing the tube.

shut-off devices of the type mentioned are used in particular in pipelines, in which town gas in building introduced becomes. Safety is paramount here. An important component Here is the so-called gas stop. This is a sleeve, those on their stream End has a valve seat, further comprising a valve plate with cooperates with the valve seat. The valve disk is relative to Valve seat axially limited movable. Its outer diameter is lower, as the clear width of the line section in which the gas stop is used is. A spring is holding under normal operating conditions the valve disk in a certain axial distance from the valve seat so that gas is the peripheral edge of the Circulating valve disks and thus can flow through the entire gas stop.

kick downstream of the gas stop a leak, so leads this leads to an increase in throughput. If the throughput exceeds certain maximum amount, so leads this in the region of the valve seat to an increase in the flow velocity. These according to the law of Bernoulli has a negative pressure in this area According. This one gets so big that the Valve disc against the force of the spring used to the valve seat and the gas flow is shut off thereby.

Regarding the Design of the line section occurs in the gas stop the following problem: to the line section downstream of the Gas stops will generally be a conduit of elastic material connected, for example made of polyethylene or crosslinked Polyethylene (so-called PEX). This postponed pipe has a certain clear width, which if possible equal to the light Width of the pipe section should be. The end section of this tube is pushed onto the end portion of the line section and stretched it. However, the strain should not exceed a certain level. For this reason, the wall thickness of the line section as small as possible in the area of postponement.

Of the Gas stop is acted upon by the gas flow and is therefore subject to a back pressure, which has the tendency, the gas stop to push out of the line section, in the direction of deferred tube made of elastic material. The guest stop must therefore be secured, for example, by a retaining ring, the in the downstream End of the line section is mounted. For mounting the retaining ring must be in End region of the line section, in the inner wall, a groove are inserted. Of course, the groove requires one certain wall thickness. Thus, the demand for low wall thickness in view of the expansion of the tube of elastic material and the requirement for greater wall thickness with regard to the groove to be engaged.

Of the Invention is based on the object, a device of said To make such a way that the Gas stop or its sleeve reliable secured against axial displacement, but that at the same time an impermissible overstretching of the plastic pipe is avoided.

These The object is solved by the features of the independent claims.

Of the Inventor has gone two ways. For one thing, he designs the line section in its downstream region is relatively thin, but sees a limited annular Thickening in front, which has an undercut, in turn the effect of a barb has a deferred tube made of plastic, rubber or the like to secure against removal. The groove for inserting the retaining ring is just at the thickened Position introduced so that it not to an inadmissible weakening of the line section comes.

According to the alternative embodiment is provided, the line section in his Provide downstream region with a tapered in the flow direction cone section and with a subsequent cylindrical section. The elastic tube is pushed onto the cylindrical portion and optionally secured with a clamp against removal. The conical section serves as a support for the downstream edge of the sleeve of the gas stop.

The The invention is explained in more detail with reference to the drawing. Therein are the two solutions shown.

1 shows the solution with the tapered downstream end portion of the conduit section.

2 shows the solution with the tapered cone section.

In 1 you see a so-called weld-on T-piece 1 with three connecting pieces 1.1 . 1.2 and 1.3 ,

To the connecting piece 1.3 is a line section 2 connected, by welding.

In the line section 2 is a so-called gas stop 3 used. This has a sleeve 3.1 on, with their outer lateral surface on the inner surface of the line section 2 is applied. The sleeve 3.1 has a valve seat 3.2 on. She is wearing a valve plate 3.3 , The valve disk is in the axial direction relative to the fixed sleeve 3.1 limited shiftable. On the valve disk acts on the one hand, a gas pressure - in the drawing coming from the left - on the other hand, the pressure of a spring, not shown here, which holds the valve disc in the position shown. In this position, gas can be at normal throughput through the gas stop 3 flow through.

If an impermissibly high throughput occurs, for example due to a leakage downstream of the line section 2 According to the law of Bernoulli, this leads to the creation of the valve disk 3.3 at valve seat 3.2 , and thus to shut off the valve.

As you can see, the wall thickness of the pipe section 2 reduced in the downstream area. At the very end, however, there is an arrow-shaped section in this illustration 2.1 , This has the function of a barb for holding a pipe made of elastic material, for example rubber, polyethylene or the like.

Furthermore, one recognizes a retaining ring 2.2 , This is inserted into a groove, which is straight in the arrow-shaped section 2.1 is pierced, thus in the thickened area in which no undue weakening of the strength is to be feared.

In this way, the two above-mentioned requirements are met: Firstly, there is no undue overstretching of the material of the aufzuschiebenden elastic tube on the downstream end portion of the line section 2 instead, because the wall thickness is low. On the other hand can be a groove for the retaining ring 2.2 without the risk of undue weakening and thus reduction of strength.

At the in 2 illustrated embodiment, in turn, recognize a line section 2 into a gas stop 3 is used. The gas stop is exactly the same as the gas stop according to 1 ,

The pipe section 2 is retracted so that it has a tapered cone section 2.5 further comprising a subsequent cylindrical portion 2.6 , The cone section 2.5 forms with its inner wall a contact surface for the downstream edge of the sleeve 3.1 the gas stop 3 ,

On the outer surface of the cylindrical section 2.6 is in this case a PE pipe 4 postponed. The cylindrical section 2.6 is on its outer circumferential surface with circumferential grooves 2.6.1 Mistake. In the area of the cylindrical section 2.6 is the PE pipe 4 from a cuff 5 enclosed.

Claims (2)

Device for automatically shutting off a gas flow in a pipeline system; 1.1 with a line section ( 2 ); 1.2 with a so-called gas stop ( 3 ), comprising 1.2.1 one in the line section ( 2 ) insertable sleeve ( 3.1 ), which at its upstream end a valve seat ( 3.2 ) having; 1.2.2 with a valve disc ( 3.3 ), which relative to the valve seat ( 3.2 ) axially limited movement and up to the maximum allowable gas flow against the force of a spring from the valve seat ( 3.2 ) is lifted; 1.3 the line section ( 2 ) has at its downstream end on its outer periphery a thickening ( 2.1 ) with an undercut to secure a deferred tube of elastic material against peeling; 1.4 the inner wall of the line section ( 2 ) points in the area of thickening ( 2.1 ) a circumferential groove for receiving a retaining ring ( 2.2 ) against axial displacement of the gas stop. Device for automatically shutting off a gas flow in a pipeline system; 2.1 with a line section ( 2 ); 2.2 with a so-called gas stop ( 3 ), comprising 2.2.1 one in the line section ( 2 ) insertable sleeve ( 3.1 ), which at its upstream end a valve seat ( 3.2 ) having; 2.2.2 with a valve disk ( 3.3 ), which relative to the valve seat ( 3.2 ) axially limited movement and up to the maximum allowable gas flow against the force of a spring from the valve seat ( 3.2 ) is lifted; 2.3 the line section ( 2 ) has at its downstream region a conically tapered cone section ( 2.5 ) and a subsequent cylindrical section ( 2.6 ) on; 2.4 the downstream end edge of the sleeve ( 3.1 ) of the gas stop ( 3 ) rests against the inner wall of the cone section ( 2.5 ); 2.5 the outer surface of the cylindrical portion ( 2.6 ) is with circumferential grooves against removal of a deferred tube ( 4 ) made of elastic material; 2.6 it is a cuff ( 5 ) for fixing the tube ( 4 ) made of elastic material on the peripheral surface ( 2.6.1 ) of the cylindrical section ( 2.6 ) intended.