SU93717A1 - Installation for measuring gas flow in gas cylinder engines testing - Google Patents

Description

The invention relates to the improvement of devices for measuring gas flow rate test engines.

A distinctive feature of the proposed design is that instead of the commonly used method of weighing a small measuring cylinder with gas before and after experience or the definition of the volume of gas consumed by means of gas clocks and so on. II. devices, a device in which a standard 50-liter gas cylinder of any pressure is iodo-suspended to a lever system is attached to the nonlavka placed in a circulating tank with water, and the weight of the gas consumed is determined by the amount of water flowing into the measuring vessel, mounted on the tank itself.

The drawing shows the scheme of the proposed installation in two projections.

The installation consists of a metal tank (I), with a capacity of 200-250 liters, filled with flowing water. In the tank there is a float (2) with a volume of 100 liters, which is completely submerged in water and provided with a tube protruding above the surface of the water. Through this tube passes the central core of the suspension (3), which is wiped in d, on the top (2). The standard cylinder (4) with a compressed gas, with a capacity of 50 liters, is suspended by means of clamps in t-g suspensions (3). A vessel (5) for ballast water with a capacity of 12 liters and a measuring cylinder (6) are mounted on the cylinder. Water in (1) enters through pipe (7) and is discharged through pipe (8). Tank. (1) with the entire floating system, it is installed on the best table or on the wall-mounted bars (9).

The pivot lever (10) is supported by its middle part on a steel prism (T, K mounted on the crossbar (12).

One end of this lever rests on the nonepe4iiijy of the suspension (3), and the other, attached to the other, holding the glass tap (13), is attached to the other. The naked spout is such that the water level in it of an inoperative installation is near its very bend. The tap is inserted into a rubber tube, the other end of which is fixed in the wall of the tank below the water level in it. But with this tube, the water from the faucet can be drawn into the bottom funnel and tube (14); the output end of the last molget travels from the stop (15) to the stop (16), i.e., it is either above the measuring gauge or above the vessel (5) for ballast water. .

With the slightest lift of the float, the water from the faucet (13) will fill the measuring cylinder (6) and the vessel (5). A filament tube (17) connects the supply cylinder (4) to the gas line with a tee, mounted next to two ventilators on a rigid bracket.

The installation is mounted in a place where the vibration from engine operation is as small as possible. Before installation, it is not necessary to determine the half-center of the body of gas in the cylinder, and apply it to the cylinder in this place at the risk of the entire circumference.

The supply cylinder must be gas filled with a pressure equal to the pressure in the battery. After installation, an adjustment is made on the feet: sinking into the water. Install the cylinder (6) and vessel (5) in such a way that the vertical LIDIA, passing through their centers of gravity, coincides with the structure of the vessel; chain 11: through the center of the sheet of gas enclosed in bridging. The immersion of the float must be such that the wired lever (10) is horizontal. The final adjustment of the position of the floating system is achieved by the interpolation of the water level in the tank by rotating the crankshaft drain tube (8). All adjustment work is carried out after connecting the test tube (17) to the cylinder (4) with its valve open.

The operation of the installation is based on the following.

The floating tube-balloon-suspension system — the float, as it consumes gas, restores its original weight by flowing automatically into the measuring cylinder of water. The amount of water in the measuring cylinder after its weight is equal to the amount of gas consumed from the cylinder suspended from the float.

The subject is invented and

Claims (2)

1. An installation for measuring the gas flow rate during the testing of gas cylinder engines, so that in order to determine the weight of the gas consumed during the experiment, a device consisting of a tank filled with continuously circulating gas and a float was used with a lever system fixed in it, to which a gas cylinder is suspended, and a measuring vessel installed on it, into which water flows to measure how the cylinder ignores and disrupts the horizontal position of the lever that controls the water drain valve. 2. The form of the installation according to claim 1, except that, in order to ensure that the water does not flow into the measuring vessel, a wire lever is used, which in the middle is attached to the steel pipe and connected to the side with the non-floating head, and on the other side by means of thread with faucet located at the water level in the tank.