SU31155A1 - Adaptation to Mac-Leod-type manometer for moving fluid - Google Patents

Description

In existing MacLeod-type manometers, the raising or lowering of mercury during vacuum measurements is carried out mainly in two ways, which follow from the design of the manometer. The first is to raise and lower the mercury tank associated with the manometer with a rubber tube to measure the vacuum. In the second method, a tank with mercury is rigidly connected to a pressure gauge, and the% change in mercury level is achieved by using a vacuum on one side of the tank with mercury, and the height of mercury in the measuring capillaries of the pressure gauge is controlled by opening a tap or locking conical tip placed between the pressure gauge and the tank with mercury.

Both of these methods have the disadvantages that mercury comes into contact with the atmosphere, and it is also impossible to measure without complicated mechanical devices when the observer is not in the immediate vicinity of the manometer.

The proposed / adapted MacLeod manometer gauge aims to eliminate these disadvantages by accepting an electrical device to raise and lower mercury.

.

The drawing shows the arrangement.

The closed mercury knee P, which is a glass cylinder that is not sealed during the measurement with the atmosphere, is connected by a tube T with a Mac-Leod pressure gauge M. The mercury-free space B inside the balance is filled with some gas or a small amount of easily evaporating liquid, so that the free space is not completely filled with it. In its upper part, the knee P has two implanted electrodes A, to each of which inside are attached wire spirals C of high resistance material, immersed at their ends in mercury.

To lift mercury during measurements, it is necessary to connect electrodes A vi A through rheostat K with current source E and close an electrical circuit consisting of source E, rheostat K, helix C, mercury, helix C and key L.

When current flows in spirals C, the latter will heat up and, by means of heat, heat vapor or gas in space B, which will cause an increase in pressure in part B of the tank, and therefore mercury transition

ns knee P in manometer M. When onjje divided sizes; Knee P and the amount of mercury poured in it can automatically stop lifting mercury after it reaches a certain height in the measuring tube of the pressure gauge. It will be necessary, if the length of the spirals C is chosen such that their ends at a certain height of mercury rise in the manometer will come out of the mercury and thereby ratchet, which will be electrically at the same time

heating as well

short

lifting mercury. As with lowering

If the mercury in the balloon 5 is matched. The effect increases, then at the time of measurement it is obtained: greater smoothness in the uplift of mercury and capillaries.

The subject matter of the invention.

Adaptation to a Mac-Leo manometer to transfer fluid from one knee to another with measured pressure readings, characterized by use in closed knee / electric heaters G in the form of spirals closed by liquid and intended to heat the gas or vapor in the knee P to the required temperature and pressure in order to influence the fluid.