SU1045130A1 - Pneumatic pressure receiver - Google Patents

Abstract

1. A PNEUMATIC PRESSURE RECEIVER, comprising a housing, at diametrically opposite points of the surface of which.the receiving openings connected by tubular channels with pressure recorders, are characterized in that, in order to improve the accuracy of the experiment for determining the flow rate by increasing sensitivity, the pneumometric pressure chamber made in the form of a body of a closed form, 2. The receiver according to claim 1, characterized in that its body is more complete in the form of two hollow, coaxial, equal diameter tr bchatyh to: rings connected by touching the perimeter .1

Description

"I The inception relates to a measurement technique, namely, a device for pneumometric receivers. pressure to determine the gas flow rate from the measured difference between the total and bottom pressures. A pneumometric pressure receiver is known, comprising a receiving element for measuring the total pressure, filled in a cylindrical housing, on which an annular ridge is installed in front of the static pressure receiving holes. As a result of a shedding of green flow around the receiving-openings on the lateral surface of the body, pressures lower than the static pressure of the surrounding medium are fixed, which allows one to investigate low-velocity gas flows 1. However, the specified pneumometric pressure receiver does not have a sufficiently high sensitivity. Closest to the present invention is a pneumometric pressure receiver, comprising a housing, at receiving diametrically opposite points on the surface of which the receiving holes are connected by tubular channels with pressure recorders. one of these points is measured by the total pressure, and at the other one, which leads to an increase in the recorded time awns pressures and improve the accuracy of rate determination 2. The disadvantage of the known pneumatic pressure receiver is that, due to its limited linear size (lengthening), the difference between the total and bottom pressures is small, which does not provide high accuracy when probing low-velocity flows. The purpose of the invention is to improve the accuracy of the flow rate experiment by increase the sensitivity of the pneumometric pressure receiver. This goal is achieved by the fact that, in a pneumometric pressure receiver comprising a housing, in the diametrically opposite points of the surface of which the receiving openings are in communication with tubular channels with pressure recorders, the pressure transmitter housing is made in the form of a body of a closed form. In addition, the receiver body is made in the form of two hollow, coaxial, equal diameter tubular rings connected along the perimeter of the touch. FIG. 1 shows a pressure sensor in pneumometric, general view; in fig. 2 is a view A of FIG. 1. The pneumometric pressure receiver comprises a housing made in the form of a closed body, for example, in the form of two hollow sleeves of the same diameter tubular rings 1 and 2 with receiving openings 3 and 4 on opposite sides of the (front and bottom) housing (1 Each of the rings I and 2 is provided with tubular channels 5 communicating with pressure recorders (gauges). The device operates in the manner of Pr and probing the flow. The pneumometric pressure receiver is introduced into the gas flow in such a way that the end surfaces to The flange (enclosures) were perpendicular to the current lines, a measured pressure drop was recorded, and the flow velocity was measured by calibration dependences. Such an embodiment of the device improves the sensitivity of the pneumometric pressure receiver and the accuracy of determining the flow velocity. A closed pressure receiver (n, for example, a ring ™ howl) of a shape possesses the properties of a body of non-dull elongation and the pressure drop measured by it is substantially greater than in the known stroystvah ..

Claims (2)

'1. PNEUMETRIC PRESSURE RECEIVER, comprising a housing at diametrically opposite points on the surface of which there are received openings communicating with tubular channels with pressure recorders, characterized in that, in order to increase the accuracy of the experiment to determine the flow rate by increasing sensitivity, the housing the pneumometric pressure receiver is made in the form of a closed-shape body. 2. The receiver by π. 1, with the fact that its body is made in the form of two hollow, coaxial, of the same diameter tubular obliquely connected along the perimeter of the casus ·