SU1654756A1 - Flow speed measuring device - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure small flow rates on a permeable wall. The purpose of the invention is to improve the measurement accuracy. The incident flow acts on the nozzle 1, the diffuser 2 and moves through the permeable wall 7. As a result of throttling the flow, a pressure differential is created which presses the device against the permeable wall 7. The flow inside the nozzle 1 is accelerated, thereby creating an ejection effect in the diffuser 2 and low static pressure recorded through receiver 4, and receiver 3 is used to measure the total pressure exiting nozzle 1. Signals from pressure receivers through elastic connecting tubes 8 and 9 p A meter is transmitted, for example, a differential pressure meter, according to which it is judged on the flow velocity on the permeable wall. 1 hp ff, 3 ill. 9 8 (Л С О ел ь СЛ О

Description

The invention relates to a measuring technique, in particular to measuring means for measuring the flow rate before the front of the radiators of the cooling systems of internal combustion engines and compressors, as well as in other machines and installations having walls in the form of fine perforations or made from walls and fabrics .

The aim of the invention is to improve the accuracy of speed measurement.

FIG. 1 shows the device when installing the diffuser on the nozzle with a gap, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 - device with a tight connection of the diffuser with a nozzle, a general view.

The device for measuring the flow rate mainly on the permeable wall (Figures 1 and 2) consists of a nozzle 1 with a through channel of variable cross section connected to the diffuser 2, on which the total pressure receivers 3 and the static pressure 4 are fixed, the outlets of which are enclosed in tube 5. Nozzles 1 are made thin-walled in the form of a hyperboloid of rotation or, for example, of a conical shape with a smooth entrance, which improves the conditions of the internal and external flow past the device. Using thin ribs 6 nozzles 1 and the diffuser 2 are rigidly interconnected and form an annular gap. Due to the fact that the nozzle 1 with its output part is located inside the diffuser 2, an ejector-type flow channel is created. In the plane of the outlet section of the nozzle 1, there are openings of the full 3 and static 4 receivers, fixed at an angle of 180 ° to one another, but this angle can be any. In the measurement, the diffuser 2 is located on the permeable wall 7, and the receivers 3 and 4 are connected to measuring instruments (not shown) using elastic connecting tubes 8 and 9. The device is made of metals using soldering, but can be made from synthetic materials or combined and using adhesives.

The device works as follows.

The incoming flow washes outside the nozzles 1, the diffuser 2 moves through the permeable wall 7. As a result of throttling the flow with a net, a pressure drop is created, which presses the device against the permeable wall. The elastic connecting tubes 8 and 9 perform additional functions on moving the device to a given measurement point and keeping it at that point, especially when

low and zero flow rates, as well as wall vibrations.

The flow inside the nozzle 1 is accelerated to maximum speed, thereby creating an ejection effect of both the diffuser 2 and the low static pressure recorded through the receiver 4 when the jet outflows, and the receiver 3 is used to measure the total pressure at the outlet of the nozzle 1 through elastic connecting tubes 8 and 9 are transmitted to a dynamic pressure meter, for example, a liquid micromanometer or an electrical signal converter.

In the absence of a gap between the nozzle

1 and the diffuser 2 (FIG. 3), due to the ejection of the jet leaving the nozzle 1, an additional vacuum is created, which is fixed by the static receiver 4.

pressure. Thus, the sensitivity of the device increases, which is important when measuring low speeds. In addition, an additional pressure is created on the outer surface of the diffuser 2, which strengthens the fixation of the device on the wall 7. The diffuser 2 in its outlet part can have perforations 10, which improves the uniformity of the outflowing flow.

Claims (3)

1. A device for measuring the flow rate predominantly on the permeable wall, comprising a holder and a receiving element made in the form of a nozzle with a through channel of variable cross section in which a total pressure receiver and a static pressure receiver are installed, characterized in that, in order to improve the accuracy, the receiving element it is equipped with a diffuser with a cylindrical inlet part, the outlet part of the receiving element head is located inside the diffuser, and the apertures for sampling static pressure - on the cylindrical parts of the diffuser. 2. The device according to claim 1, that is, so that the nozzles and the diffuser are tightly interconnected. 3. The device according to claim 1, that is, with the fact that the nozzles and the diffuser are interconnected with the formation of an annular gap. Aa FIG. 2