DE568587C - Overload protection device for gas meter depending on the flow speed of the gas - Google Patents

Description

Overload protection device dependent on the gas flow rate for gas meter The invention relates to an overload protection device for gas meter, which, depending on the flow rate of the gas, throttles the gas duct causes. In known devices of this type is arranged in a perpendicular Channel there is a float that is lifted by the gas flow. On the swimmer a rod is attached that runs in guides. This can easily cause jamming occur so that the swimmer can not close the channel and the device thus does not serve its purpose. According to the invention, each random position of the throttling Limb avoided. This is achieved in that on one around a transverse axis in the gas-carrying channel lever mounted like a horizontal bar on the one facing the flow At the end with a little overweight a well-known contact surface and at the other end a locking member sits, which is arranged like a rotary slide valve together with a fixed in the channel Chock works. If the flow rate of the gas exceeds a certain level Height, the support surface is lifted and thereby adjusts the locking plate. This throttles the passage cross-section of the channel.

Two exemplary embodiments are shown schematically in the drawing. In both cases i is a channel through which the gas flows in the direction of the arrow, in which is the fixed axis 2 around which the double-armed lever 3 can swing. 4 is the abutment surface mentioned above and 5 is the locking plate with the chock 8 cooperates.

The channel i can be located anywhere on the gas meter and is as spacious as possible. At the end of the inflow there is the adjustment surface 4, which is in every position is inclined at an angle to the gas flow. It is heavier than the locking plate 5. Is because of its airplane wing-like setting against the direction of flow of the gas occurring buoyancy of the contact surface greater than their excess weight, so this is raised and finally comes to the end position shown in Fig. 2. The locking plate at the other end of the balance beam is lowered accordingly 5. This opens the opening 6 between the bottom plate 7 of the channel i and the an the ceiling g seated mounting sheet 8 locked. It can only handle so much gas now pass through, as through the gaps between the blocking plate 5 and the channel walls or the sheet 8 can flow past.

Is after partial closure of the extraction taps, with all of them opening, the amount of gas had risen above the level set as the maximum that If the amount of gas has become smaller again, the flow velocity of the gas is sufficient no longer from pressing up the contact surface 4 with respect to the locking plate 5. Consequently the contact surface decreases and the normal position shown in Fig. i is obtained again.

In Fig. 3 a modification of the device is illustrated. Channel i is on the point between the blade 4 and the locking plate 5 expanded. The contact surface 4 extends in its lowest position with its upper edge approximately only up to the height of the ceiling i o of the channel, so that only a relatively there is a small gap i i through which the gas flows when the locking element is open. In this arrangement, the gas flow acts fully on the surface 4, while in the first described design this only partially affects this surface, which under certain circumstances Can cause eddies and thereby loss of effectiveness.

Claims (3)

PATENT CLAIMS: i. Dependent on the flow rate of the gas Overload protection device for gas knives, characterized in that on one about a transverse axis (2) in the gas-carrying channel (i) mounted like a horizontal bar Lever (3) at the end facing the flow with a little overweight one in itself known contact surface (¢) and at the other end a locking member (5) sits, which is like a rotary slide works together with a chock (8) fixed in the channel (i). 2. Overload protection device according to claim i, characterized in that the gas flow channel at the installation point the device is expanded and the rear transition of the expansion one Forms mirror for the locking member (5). 3. Overload protection device according to claim 2, characterized in that the upper edge of the contact surface (4) in its lowest position approximately at the same height as the upper edge (in) of the channel (i) before the expansion lies.