SU729448A1 - Gas batchmeter - Google Patents

Description

The invention relates to measuring technique and, in particular, can be used to measure small amounts of crankcase gases passed through piston rings in internal combustion engines.

Known gas measuring devices containing a supply pipe, a container partially filled with liquid, and a bell immersed in it [1].

These devices have a significant measurement error arising from a change in the back pressure of the incoming gas as the bell exits the liquid.

Known gas meters containing a supply pipe, a container partially filled with liquid, a bell immersed in it, and nodes for automatically compensating for the reduction of the gravity of the bell when it is immersed by maintaining a constant pressure under it [2].

However, these compensating nodes have a complex structure, which complicates the design of the entire measuring device.

The purpose of the invention is to improve the measurement accuracy and simplify the design of the device.

This is achieved by the fact that in a gas measuring device containing an inlet pipe introduced under the bell, 5 immersed in a liquid filling the measuring tank, the lower part of the bell is made in the form of a frame, for example, a rim with knitting needles, and the upper part in the form of a shell attached to it for example polyethylene, thus withdrawn through the feed pipe frame rim under central projection shell, the bottom of which is made up responses _ς Stia signal.

'E The drawing schematically shows the proposed · device.

The device has a container 1, partially filled with liquid. 2, a bell made in the form of a frame 3, for example, a rim with knitting needles, which makes up the lower part of the bell, and a shell 4, for example, polyethylene 25, which makes up the upper part of the bell, one gas supply pipe 5, one the end of which is at the same time a guide for the bell, and the second end is connected to the studied object 2Q (not shown in the drawing).

In the lower part of the shell 4, above its attachment to the frame 3, signal holes 6 are made. The free end of the supply pipe 5 is inserted into the protrusion in the shell 4.

Mernik works as follows, ”zom. *

The measured gas is supplied through an inlet pipe 5 under the shell of the bell 4. Filling the shell 4 ', the gas lifts the bell above the surface of the liquid 2. The shell 4 will rise until the signaling holes 6 come out of the liquid. Then the incoming gas will leave the signaling holes in the atmosphere and the bell will stop in the upper position. Thus, the frame will be in the liquid.

Given the known time of filling the shell with gas and the known value of the volume of the shell, the gas flow rate is determined from the following relation:

where G is the gas flow rate;

V is the volume of the shell; 25 t - filling time.

After the measurement, the cavity of the shell 4 communicates with the atmosphere, and gas under pressure created by the weight of the frame 3 leaves through the pipe 5 jq into the atmosphere.

At the beginning of measurement, when the shell 4 with the frame 3 is in the lower position, the end of the gas supply pipe 5 into the cavity of the shell 4 enters the protrusion 7, thereby reducing the `` dead ¹ '', unused volume of the shell 4.

Since the counterpressure to the incoming gas in the measuring device depends only on the weight of the frame 3, then varying its weight, you can achieve the required minimum value.

Claims (1)

Claim A gas measuring device containing an inlet pipe inserted under the bell, immersed in a liquid filling the measuring tank, characterized in that, in order to improve the measurement accuracy and simplify the design, the lower part of the bell is made in the form of a frame, for example, a rim with knitting needles, and the upper one is in the form of a shell attached to it, for example, of polyethylene, while the inlet pipe is led out through the frame under the central protrusion of the shell, in the lower part of which signal holes are made.