SU441448A1 - Pipeline Flow Indicator - Google Patents

Description

one

The invention relates to the field of instrumentation and is intended to measure the flow rate of a liquid or gas in a pipeline by a thermal method.

Known indicator of fluid flow in the pipeline, containing a heater located on the outer surface of the pipeline, made of thermally conductive material, thermal relay installed on the opposite side of the pipe, and the indicator secondary device.

The known device records the presence of flow in the pipeline,

The purpose of the invention is to measure the flow rate of a liquid or gas and to improve the measurement accuracy.

jQl this indicator is equipped with a temperature equalizing

a plate in which the temperature-sensitive element is located, and a sequentially installed thermal block 1J whose side surfaces are thermally insulated.

The drawing shows the structure of the device. The flow measurement device has a channel I with a measured gas or liquid flow and cocTOijT from heater 2 and a temperature-equalizing plate 3- which are placed on both sides of channel I. Plate 3 contains a temperature-sensitive element 4 connected to the secondary device 5, Plate is separated From the external environment, the thermal unit 6, Meadu heater 2 and channel 1 have a thin wall 7 with a high coefficient of conduit. Heater kJ, miac pattern S, wall 7, side surfaces of the tergly-block 6 are insulated from the external environment by a thermal insulator 8, the Heater can be made in the form of a channel, through which a liquid is heated to a certain temperature, or in the form of a spiral of manganin wire, through which an electric current flows. The temperature-equalizing plate is made of a material with a high coefficient of thermal conductivity. The operation of the proposed device is as follows: With the help of heater 2. a heat flow is generated, which passes successively through channel I with measured gas or liquid flow, the temperature equalizing plate and the thermal unit 6. When measuring the flow rate of a gas or liquid medium, the transmission coefficients change heater-medium, medium-temperature removing plate, i.e. the thermal resistance of the channel with the measured medium varies. The thermal resistance of the thermal block in this case remains constant. A change in the thermal resistance of the channel with the measured medium causes a change in the magnitude of the heat flux, and since the thermal block separates the temperature-equalizing plate from the low temperature and has a nominal thermal resistance, the temperature of the temperature-equalizing plate in the plate changes with a change in the value of the heat flux. which is perceived by the thermocouple and the secondary device, uniquely depends on the magnitude of the thermal resistance There is no channel with the measured medium and, consequently, the magnitude of the liquid flow rate of gas. BACKGROUND OF THE INVENTION A flow indicator in a pipeline, comprising a heater located on the outer surface of the pipeline, a temperature-sensitive element installed on the opposite side of the pipeline, and a secondary device, characterized in that, in order to measure the flow rate and increase the accuracy of measurement, the indicator is provided with a temperature equalizing plate in which there is a temperature-sensitive element, and a sequentially installed thermal unit, the side surfaces of which are thermally insulated.