DE371185C - Partial gas meter - Google Patents

Description

Partial gas meter. One built into a weak branch line immediately measuring gas meter (mostly volumetric meter) measures a proportional part of the Gas.

The proportionality between that through the main and that through The amount of gas flowing in the branch pipe can be achieved in two ways A) A constriction is provided in the main line and in the branch line and the velocities at which the gas flows through both are respectively equal to each other, but they both change proportionally to the load (load = amount of gas flowing through in the unit of time).

B) There is a system of two valves, the larger of which is the gas passage through the main line, the smaller the gas passage through the Branch line controls; these flaps are firmly connected to each other, so that the The flow cross-section in the main line is always proportional to the flow cross-section is in the branch line; the proportionality between the lines through the two lines flowing amounts of gas is achieved by taking suitable measures for this ensures that the speeds at which the gas flows through the two flaps, immutable, d. H. are independent of the load; they don't need each other to be the same.

In the case of devices in group A, it is the speeds at For the apparatus of group B it is the flow cross-sections that depend on the respective Adjust gas passages.

In addition to the precautions described for distribution of the gas, regulating devices are still required to prevent disruptions to the proportionality as a result of the different pressure loss in the branch gas feeder with different loads to prevent; these devices are valves or flaps that are in the main or branch line arranged: -. a can.

Control devices in the main line raise z. B. the following apparatuses Teilstromgasmes.ser from Pintsch (Patent 3o9983); he's got in the main an automatic gas pressure regulator connected upstream of a constriction; in other The pressure regulator is guided by a manually adjustable slide or replaces a manually adjustable flap; the partial flow gas meter loud American Paient 11o5582, where there is a rotary valve in the main line is controlled by a linkage of two hydraulically sealed bells will.

Control devices in the branch line have e.g. B. the following devices The partial flow gas meter according to American patent 11076oo; it contains in the measuring line a throttle valve, which is operated by a bell apparatus similar to the one previously described is controlled; the apparatus according to French patent 120733, the one in the measuring line contains a pressure regulator of traditional design.

The regulation in the main line has the ability to make it to their Realizing requires large and difficult-to-operate parts. The scheme in the branch line has the disadvantage that it results in unusable types; thinks one is namely an apparatus set for a medium operating state very lightly loaded, the i) jerk loss in the constriction of the main line --- which is proportional to the square of the load versus the pressure drop im Bypass gas meter disappearing, which disrupts the proportionality.

In designing the present apparatus: was made of the following consideration au-.giegen In the main line an organ measured to be present, which also attached even as little gas passes through there is a noticeable loss of pressure; serves to do this a simple flap, which is pressed against its seat by weight or spring that the pressure loss caused by it is always greater than that of the Shunt gas knife; because of this simple but comparatively crude arrangement the finer work of pressure control cannot be entrusted is in the branch line still switched on a pressure regulator, which the exact coordination worried about the pressure drops in both lines.

The apparatus has a circuit in the main line and a Constriction 2 in the branch line. The speed with which there: Gas in the main duct flowing through i measured equal: a is the outflow velocity from 2; since there is naturally the same pressure in both constrictions, the Equality of the two speeds due to the same pressure gradient in the constrictions, accordingly achieved by the same pressures in spaces 12 and 1.1 of the two pipelines. For this purpose, the throttle valve 2o is arranged in the main line in front of the constriction, which is pressed to its seat by a spring (or a weight) so that the Pressure behind her is slightly less than the pressure behind the directly measuring one Gas meter 3. Completion of the size of a pressure drop in a gas meter on size of the pressure drop in 2o worried the pressure regulator 4. It contains the valve 5, which is controlled by the membrane 6. The space 9 below the membrane stands through the pipe 17 with the space i-1 in front of the constriction in the measuring line, the Space 8 above the membrane protrudes through the weak pipe 16 with space 12 the constriction in the main line. The machine is working properly as long as the pressures in 12 and ia, are equal to each other, the weight is the movable one If parts of the controller _1- are balanced, then its valve 5 has an equilibrium position. If a fault occurs e.g. B. in that the * i 'jerk in 12 is greater than the in i_1, the membrane is pressed downwards and 5 opens a little more, whereby the pressure in i.I also rises until. he the height de :; Pressure reached in i2 Has.

Claims (1)

PATENT CLAIM: Partial gas meter, by means of a gas meter built into a: .ch = .vachere branch line, a proportional part of the gas; measuring, provided with a constriction in each of the two lines and with a pressure regulator built into the branch line, characterized in that there is a flap in the main line which acts as a weight or spring force on its seat. that the T: ruclsverlu @ t: tet.- produced by them is greater than the 1: jerk relieved in the gas meter of the branch line-.