RU9939U1 - VACUUM INSTALLATION - Google Patents

Description

ъ Description of the utility model of the Eakuultaya installation The Polynaya model refers to industries requiring low pressure, including those close to a deep vacuum, in particular timber processing, and electronic industries. Known installations include a vacuum chamber and a vacuum pump driven by an external engine, and operating on the principle of pumping the working fluid from the pump-groove cavities in which an pressure drop is created. The disadvantage of such installations is the high preconditioned 3HqpiroeMKOcn, low efficiency due to increasing leakage in liquid pumps when creating a vacuum. The purpose of the utility model is to create vacuum in vacuum with less energy and to avoid leakage losses. This singing is achieved by the fact that the installation contains a vacuum, one or more columns, providing a drop in the liquid column to create the necessary pressure, an intermediate flow tank for dumping the required volume of liquid, a pump that allows the liquid to be pumped from the intermediate tank to the columns, the distribution valve block and the master block, tracking and executive automation to control the creation of a given vacuum. The drawing schematically shows the proposed vacuum installation. The vacuum installation contains: vacuum 1, an electro-magnetic valve for ratting pressure Ratm. and Rwak. 2, an automation unit 3 connected to the camera, a vacuum line 4 connected to the columns 5 nb, an intermediate tank 7, an engine (water lock, engine 8 with a low-pressure pump 9 and a pressure pipe 10, a drain pipe 11 connected to the columns 5 and 6, electromagnetic valves 12, 13 of the vacuum line 4, electromagnetic valves 14.15 of the drain line 11, elastomast valves 16.17 of the pressure line 10 and the working fluid The vacuum unit rg discharges as follows. To close the vacuum chamber I closes Valve 2, the valves of the vacuum line 12, the drain line 15, the pressure line 17 open. The working fluid 18 is discharged into the intermediate tank 7 due to the pressure of the liquid column, from which it is pumped to the column b by pump 9. If the pressure Рвак. has not reached the set of magnitude, the machine-hack unit 3 gives a command to close valves 12, 15, 17 and open valves 13, 14, 16 and working fluid 18 is discharged into a 24-hour tank 7, from where it is pumped to column 5 by a pump 9. The cycle is repeated until the set chamber pressure 1. The machine unit gaki 3 gives a command to turn off the engine 8 and close the valves. When the pressure in the chamber 1 changes, the automation unit submits to open the corresponding valves and start the engine. The proposed vacuum installation allows you to achieve values of deep discharge in chambers with a larger volume in a shorter time period, to reduce energy consumption for creating a vacuum. Authors :(. Taushchkanov Yu.L. Bukhanko B.V.

Claims (1)

A vacuum installation containing a vacuum chamber equipped with solenoid valves and an automation unit - automatic pressure control, a vacuum pipe, a pressure pipe and a drain pipe, an intermediate tank and columns with a pump supercharger, characterized in that for creating a vacuum in the vacuum chamber, chamber, and one of the columns are filled with a working fluid that performs the operation of a vacuum piston due to the effect of a falling liquid column.