DE266538C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- ΛΙ 266538 CLASS 42 /. GROUP

in London.

Gas truck. Patented in the German Empire on December 5, 1912.

For this registration, the examination according to the Union Treaty of

March 20, 1883

December 14, 1900 recognized on the basis of the registration in England on December 7, 1911.

the priority

The invention relates to a gas weigher for determining the density of gases. Of the Apparatus is arranged so that a certain volume of a gas is balanced on one Arm, a spring, a float or the like. Acts and is thereby weighed. By this weighing device then becomes a pointer, a writing lever or a similar device

"moves, which displays or records the specific gravity of the gas. One can also arrange the arrangement so that a valve is controlled by the weighing device, that regulates the flow of the gas. The device can also be similar to others Purposes.

In Fig. Ι an embodiment of the device is shown schematically. The gas passes through the tube 1 into the cylinder C, which it leaves again through an opening 2 at the top. In

Ao the cylinder moves, a piston P, which is carried by a balance beam B mounted at 3, moves without friction. The balance beam is provided with a long pointer 4 and balanced by a counterweight 5. When the cylinder C is filled with air, the counterweight 5 is adjusted so that the pointer on the scale points to 1.0. If the cylinder is then filled with gas of greater density than air, the piston moves downwards and the pointer swings to the right until equilibrium is restored. If the cylinder is filled with gas, which is lighter than air, then the piston moves upwards and the pointer swings to the left. If gas is to be weighed, the density of which changes, the cylinder must be refilled from time to time, for which purpose the supply pipe 1 is connected to the gas source.

In this embodiment, the amount of gas contained in the cylinder is weighed immediately. The pressure on the upper surface of the piston P is equal to the atmospheric pressure prevailing at the upper end of the cylinder at the opening 2 plus the weight of the gas contained in the cylinder. The pressure exerted on the lower surface of the piston by the outside air is equal to the atmospheric pressure at the top of the cylinder plus the weight of a volume of air equal to the volume of the cylinder. In this way, the resulting pressure on the piston is equal to the difference between the volume of gas contained in the cylinder and the same volume of air. This difference must be compensated for by the balance beam.

The greater the volume of gas contained in cylinder C , the greater the accuracy of the measurements. On the other hand, there is a

Apparatus with a large cylinder C cumbersome, and with a large cylinder volume, a considerable amount of gas must always flow in if the composition of the gas in the cylinder is always to correspond exactly to the composition of the gas flowing in. Fig. 2 shows an embodiment of the apparatus which acts as if a large volume of gas were being weighed, but always in this

ίο only contains a small amount of gas. In addition, a practically frictionless and gas-tight guidance of the piston P is also attached in this embodiment. This has the shape of an inverted flat cup that dips into a liquid seal. The cylinder described earlier, which had the same diameter over its entire length, is replaced by a bell 7 which has a larger diameter than the piston P and which is extended by a tube 8. The piston P and the bell 7 are immersed in a liquid closure which is contained in an annular vessel 9. A rod 10, which is loaded with a weight 11 and is suspended from the balance beam B, leads down from the piston. In this way the piston is completely free from friction when it moves up and down in the liquid seal under the influence of the different specific gravity of the gas.

As an example of the various types of application of the apparatus, it should be mentioned that one connect it to the train of a furnace or to the main pipe of a coal gas system can. In the first case, the measurement of the specific gravity of the combustion gases is used to determine the percentage of carbonic acid in them. In the latter case there are the different specific gravity of the luminous gas indicates its respective heating plant. One can the apparatus in connection with devices in which luminous or heating gas is used bring to regulate the gas supply in these.

Instead of a piston or a bell immersed in a liquid seal, you can also use a flexible membrane such as is used in aneroid barometers.

3 shows the device in a further form of application, in which it regulates the flow of the gas flowing in through a pipe 13 and flowing out through a pipe 12. This gas can originate from the same source as the gas flowing in through the pipe 1, but it can also be independent of this. In this embodiment, the device can be set so that regardless of the different gas densities through the pipe 12 always the same amount of gas flows out. For this purpose, the bell P is provided with a valve V which is inserted in the supply line 13 and more or less closes or opens the outlet opening. The pressure of the gas in the inflow pipe 13 and the outflow pipe 12 can be higher than 6, atmospheric pressure, such as in a lighting gas system. The supply of the gas through the tube ι only needs to take place under a very low pressure. The device does not serve to regulate the flow at different pressures in the main line, but only to regulate the flow at different specific gravity of the gas. In order to keep the pressure constant, an ordinary type of pressure regulator can be used. 7;

Claims (2)

Patent Claims: 1. Gas truck, characterized by a gas chamber, which is provided on the upper side with an outflow 8c opening (2) leading to the outside and is closed on the lower side by a balanced piston (P) which is expediently sealed by means of a liquid seal adjusts under the influence of the specific weight of the gas column. 2. Gas truck according to claim 1, characterized in that the piston (P) is used for the purpose of regulating the amount of gas flowing through a line as a function of the specific weight of the gas for adjusting a throttle valve (V) known per se. 1 sheet of drawings,