SU968660A1 - Wave installation for hydraulic tests - Google Patents

Description

The invention relates to laboratory technology and can be used to study models of hydraulic structures undergoing wave action.

Known wave installation for hydraulic research., Including hinged at the bottom. tray shield connected to the drive 1.

The drawback of the device is that when the shield moves backward, a wave crest is formed behind it, creating a significant resistance to the shield movement, which reduces the efficiency of the device.

Also known wave installation for hydraulic research, containing the tray, the distribution mechanism with a drive connected to the tray, and pipelines 2.

A disadvantage of the known device is the inaccuracy of determining the parameters of the original wave, since the wave in the tray is transformed as a result of the model being influenced by it.

The purpose of the invention is to show the accuracy of the research.

The goal is achieved by the fact that the wave installation is equipped with

pump, and the tray - with a longitudinal partition dividing it into two compartments, the distribution mechanism being four-channel, the two channels of which are connected by pipelines to the compartments of the tray, and the other two. respectively, with suction and discharge lines of the pump.

In addition, the distribution

10 mechanism is made in the form of a full-circle distribution valve.

Moreover, its drive is made with software control.

The drawing shows the proposed

15 installation.

The installation includes a tray 1, divided hermetic longitudinal partition 2 into two equal compartments.

20 Each compartment is connected by separate pipelines 3 and 4 to the four-channel distribution mechanism nozzles 5, which pipelines 6 and 7 communicate with the suction and discharge lines of the vane pump 8. There is a variable hydraulic resistance 9 in the form of a rotatable slide valve on the pressure pipe 7. The pump 8 is rotated by the electric motor 10.

thirty

The distribution mechanism 5 is made in the form of a distribution valve with spool 11. The rotation of the spool 11 is produced by a programmable electric motor 12 through a gearbox 13.

The work of the wave installation is as follows.

A rotary pump 10 driven by an electric motor 10 through pipe 7 pumps the distribution mechanism fluid IB. S Depending on the position of the spool 11, the fluid flow is directed to pipeline 4 or 3 and respectively to the right or left compartment of tray 1.

When the position of the spool 11, indicated in the drawing, the liquid from the n-coca 8 will go to the right compartment of the tray

I, due to which, at the front end wall of this compartment, a level rise will occur, which is a wave crest. As soon as its occurrence, the wave crest will move along the right section of the tray to its opposite end, where it disposes of the model of the structure under study.

At the same time, pipelines 6 and 3 direct fluid from the left compartment of the tray 8 to the suction line of the pump 8, where a drop in level is formed at the end wall due to the outflow of liquid, which is the wave depression that will also move along tray 1.

After changing the position of the spool 11 due to its rotation by the electric motor 12, when the spool oozes in the position perpendicular to that shown on the drawing, the fluid movement caused by the pump 8, not changing its direction in the pipelines 6 and 7, will change to the opposite in pipelines 3 and 4. At the same time, in the right compartment there is a pattern, 7, there is a depression of the wave, and in the left compartment there is a crest. Thus, the waves originating and moving in the compartments of the tray are always out of phase with each other.

The period of wave formation is determined by the rotational speed of the spool

II and, therefore, the rotational speed of the programmed electric motor 12.

The wave height at a given period will depend entirely on the supply of pump 8, which is regulated by hydraulic resistance 9. The rotation of the gate is also carried out according to the program.

The longitudinal wall, dividing the tray into two compartments, allows continuous control of the initial wave in that of the compartments where there are no models of tested structures and where, due to the presence of absorbers, there is no reflected wave. In the compartment with models of structures, the presence of reflected waves complicates the shape of the initial wave and makes it impossible to measure it correctly.

Claims (4)

1. A wave installation for hydraulic research, containing a drum and a distribution mechanism with a drive connected to a tray and pipeline, which, in order to improve the accuracy of research, is equipped with a pump, and the tray has a longitudinal partition dividing it by two. compartment, and the distribution mechanism is made of four-channel, two channels of which are connected by pipelines with compartments .lotka, and the other two, respectively, with the supply and discharge line of the pump. ; 2. Installation under item 1, about t of l and-. This is because the distribution mechanism is designed as a distribution valve. 3. The installation according to p. 2, of t l i ch and s, the fact that the distribution valve is made full turn. 4. Installation on PP. 1 - 3, that is, with the drive of the distribution mechanism made with software controls. Sources of information taken into account in the examination 1. USSR author's certificate number 240308, cl. E 02 B 1/02, 1967. 2. The author's certificate of the USSR 279135, cl. G 01 M 10/00, 1968 / prototype).