RU2177606C2 - Gear to fill internal spaces of pressure difference transducer with working medium - Google Patents

Abstract

FIELD: measurement technology . SUBSTANCE: gear to fill internal spaces of pressure difference transducer has vessel containing working fluid connected by pipe-lines and cocks to spaces of transducer to be filled and vacuum pump. Vessel of gear is rotary: level of fluid contained in it in its vertical position is below outlet conduits. Vessel can communicate with atmosphere through one cock and with vacuum pump through another cock. Spaces of pressure difference transducer are filled when vessel is tilted, level of fluid is set above outlet conduits after vacuum pumping of system when pressure rises to atmospheric pressure. EFFECT: raised reliability of system thanks to reduction of number of vacuum-tight connections. 1 dwg

Description

 The invention relates to measuring technique, namely to pressure differential sensors and devices for filling them with liquid.

 A known differential pressure sensor and a method of filling it with liquid [1].

 A known installation for filling the measuring nodes with a separation medium, which contains a vacuum pump, a tank of liquid and a cylinder of compressed gas, connected by a pipe through a series of taps with the internal cavity of the filled node [2].

 A disadvantage of the known design is the presence of cranes, which increases the volume of the vacuum system and the number of places of leakage of atmospheric air when pumping the system.

 The aim of the invention is to increase the reliability of the system by reducing the number of vacuum-tight compounds.

 This goal is achieved by the fact that in the proposed device for filling with working fluid the internal cavities of the pressure difference sensor, the reservoir with the working fluid is placed on a rack with the possibility of tilt. At the same time, one channel of the reservoir is connected by a pipeline through one tap to a vacuum pump, through another tap - to the atmosphere, two other channels of the reservoir are connected by pipelines to the internal cavities of the filled device, all reservoir channels are located above the level of the working fluid when the reservoir is upright.

 Thus, the claimed device meets the criteria of the invention of "novelty."

 Comparison of the proposed solution not only with the prototype, but also with other technical solutions in the art did not allow them to identify signs that distinguish the claimed solution from the prototype, which meets the criterion of "significant differences".

 The drawing schematically shows the proposed device.

 The device consists of a reservoir 1 with a working fluid mounted on a rack 2.

 The tank 1 is connected to a vacuum pump 3 and a vacuum gauge 4 by a pipe 5 through a bis valve through the atmosphere through a valve 7.

 Through channels 8 and 9, the internal cavity of the tank 1 is connected by pipelines 10 and 11 with the cavities of the filled device 12.

 Filling the internal cavities of the device using the proposed device is as follows.

 The working fluid is poured into the tank 1. In this case, the channels 8 and 9 are open, the liquid level is below the channels. Cranes 6 and 7 are closed.

 Using a pump 3 with an open valve 6, the vacuum system is pumped out. After reaching the required residual pressure, controlled by a vacuum gauge 4, the tank 1 is tilted. The liquid fills the channels 8 and 9. The valve 6 is turned off. The pump 3 is turned off. The valve 7 is opened and the airtight cavity of the tank 1 is informed about the atmosphere. The liquid fills the cavity of the device 12.

 Thus, in the process of filling devices using the proposed device increases the period between the installation period and reduces operating costs associated with the restoration of vacuum-tight joints.

Sources of information
1. A.S. USSR N 1546858, G 01 L 13/02, 1990, BI N 8.

 2. Instructions of the Research Institute of Thermal Appliance N 08042037, 1971

Claims (1)

 A device for filling with working fluid the internal cavities of the differential pressure sensor, comprising a reservoir with working fluid connected by pipelines to the filled cavities of the differential pressure sensor, and a vacuum pump connected by a pipeline and valves to the reservoir, characterized in that the reservoir with the working fluid is placed on a rack with the possibility tilt, one channel of the tank is connected by a pipeline through one tap to a vacuum pump, through another tap - to the atmosphere, two other channels of the tank are connected by a pipe oestriasis filling the cavity with a differential pressure sensor, wherein the channels are arranged above the reservoir fluid level at reservoir upright position.