SU813162A1 - Operation section of a tunnel for carryng out hydrodynamic tests - Google Patents

Description

(54) WORK SITE OF PIPE FOR HYDRODYNAMIC TESTS

Claims (2)

T acquisition relates to experimental hydrodynamic equipment, namely, working pipe sections for conducting hydrodynamic tests. The known working section of the pipe is dp, hydrodynamic tests, containing a sealed shell and a projected test channel made in the form of transparent longitudinal plates arranged with gaps ij. The disadvantage of this device is unstable operation at elevated speeds and liquid jets. The closest technical solution to the invention is the working section of the pipe for conducting hydrodynamic tests, comprising a sealed chamber with a test channel inside it, a confuser, an ejector-diffuer and a hydraulic circuit connected to an external fluid supply line 27. The disadvantage of this device lies in the fact that the regulation of fluid flow conditions in the test canape is carried out only by additionally supplying fluid to the sealed chamber with a constant degree of permeability of the test channel. The change in the degree of permeability that occurs in the process of work, depending on the vegshchi-. nh and forms of the test body established in the flow and the magnitude of the flow velocity in the channel. due to the need to manufacture a series of permeable test -: difficult body channels, the purpose of the invention is to provide. the permeability of the permeability of the test channel. This goal is achieved by the fact that the test channel is made in the form of a set of perforated rings connected to each other and to the confuser with a connecting device. In addition, the connecting device is made in the form of a shank connected to an extreme perforated shank of jack rods attached to the latter and connected to the confuser, and locking screws for fixing the rings in the radial direction. FIG. 1 shows schematically the working section of the pipe; the general view} in FIG. 2 is a section A-A in FIG. 1, The working section of the pipe for conducting hydrodynamic tests consists of a test channel 1, made in the form of a set of transparent perforated rings, pressed against the confusor 2 by a shank 3 using screw jacks 4 and fixed in the radial direction by retaining screws 5, a sealed chamber 6, in the rear cover of which, at the outlet of the test channel 1, an ejector-diffuser 7 is installed, a hydraulic circuit 8 connected to an external fluid supply line 9 and a DIL valve serving to regulate chi fluid in the hydraulic circuit 8, Planning works as follows. The main flow of fluid passes through the chiller 2, the working section 1 and creates a vacuum in the ejector-diffuser 7 and the hermetic chamber 6, under which a differential of the hydrostatic pressure dP occurs between the test channel 1 and the hermetic chamber 6. flows from the test channel 1 into the hermetic chamber 6 and is sucked out by the ejector-diffuser 7. An additional flow of fluid through the hydraulic circuit 8 into the hermetic chamber 6 changes the differential pressure thus regupid is sucked amount of test fluid channel. The change in the magnitude of the gaps between the perforated g-grades (the change in the degree of permeability of the test canap) makes it possible to additionally regulate the conditions for the flow of fluid in the test channel. 24 The test channel in the form of a set of transparent perforated gauges also provides the necessary distribution of fluid suction over its depth, depending on the shape and size. i test bodies without additional constructive changes due to the permutation of rings with different types of perforations. Claim 1. A working section of a pipe for conducting hydrodynamic tests, comprising: a hermetic chamber with a permeable test channel located inside it; confuser, an ejector-diffuser and a hydraulic circuit connected to an external fluid supply line, characterized in that changes in the degree of permeability of the test channel, the latter is made in the form of perforated gauges, which are connected between self and with soy confuser. a tensioning device .. 2. The section according to claim 1, which is designed so that the connecting device is made in the form of an outer ring of the shank of the shafts-jacks attached to the extreme perforation and connected : with confuser, and locking screws for fixing the perforated rings in the radial direction. Sources of information taken into account during the examination 3.4 Gorshkov A.S., Rusetsky A.A. Cavitational. M.-L., Shipbuilding, 1972, p. 190, 2. Copyright certificate № 502271, cl. 01 M 1O / OO, 17,07.72 (prototype).