RU2134823C1 - Self-sufficient plant to prepare working fluid for hydraulic systems of power supports - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: proposed plant includes tank 1 for additive, tank 2 for working fluid, hydromechanical disperser 3, cock 4, valves 5, 6, 7, 8, 9 and pipe-lines 10, 11, 12 and 13. Given plant makes it possible to avoid usage of additional pump to transfer working fluid. EFFECT: reduced usage of metal and energy. 1 dwg

Description

 The invention relates to mechanical engineering hydraulic drive and can be used in coal, chemical, petroleum, engineering and other industries for the preparation and supply of working fluid to the hydraulic system of various kinds of hydraulic equipment.

 A known installation for preparing and supplying an emulsion to the hydraulic system of powered roof supports at a mining site, comprising a device for preparing an emulsion in the form of an ejector, a container for storing the emulsion, assembled with a feed pump system, and safety equipment (see A.S. N 1435279 A1, class B 01 F 13/00). The disadvantages of this installation are the large metal and energy consumption.

 Closest to the invention in terms of technical nature and the achieved result, it is a hydraulic system for supplying working fluid to systems of powered supports of treatment plants and hydroficated equipment, containing two pumps, a tank for the finished working fluid, communicated through a two-position shut-off device with a water tank and one of the mixer inlets the other input of which is connected to the additive tank in communication with the output of one of the pumps, the input of which is connected to the additive tank, and dispersing a device in the form of a hydrodynamic siren (A.S. N 1732016 A1, class F 15 B 21/04).

 This system works as follows. Heated water is supplied to the tank for the working fluid, and a certain amount of the additive is supplied to the additive tank, which, after opening the taps, enter the mixer. Simultaneously with the opening of the taps, the pump and the hydrodynamic siren are switched on. The pump pumps the resulting mixture from the mixer and delivers it through a siren to the tank for the working fluid, from where the finished product arrives at the consumer.

 The disadvantage of this system is the relatively high metal and energy intensity. This is due to the use of a hydrodynamic siren in it, which requires an additional drive for operation.

 The technical task of this invention is to reduce the metal and energy consumption for the preparation of the working fluid at the production site.

 This task is achieved by the fact that the stand-alone installation for the preparation of working fluid for hydraulic systems of powered supports contains a tank for working fluid and an additive tank communicated through valves with the inlet of the hydromechanical dispersant, the outlet of which is connected to the working fluid tank, and a container for the additive, and the input the dispersant is additionally associated with a container for the additive, and the output with the tank for the additive.

 The drawing shows a diagram of an autonomous installation for the preparation of a working fluid.

 Autonomous installation for the preparation of working fluid for hydraulic systems of powered supports contains a tank for additives 1, a tank for working fluid 2, a hydromechanical dispersant 3, a valve 4, valves 5, 6, 7, 8, 9 and pipelines 10, 11, 12 and 13.

 The installation works as follows. After opening valves 6 and 9 with a hydromechanical disperser 3, the additive is pumped into the tank 1 via pipeline 12. Then, water is supplied through the pipeline 10 to the tank 2 through the pipe 10, after which the valve 4 is moved to the position from the tank 2 to the dispersant 3, valves 6 and 9 are closed and valve 5 is opened. After the dispersant is turned on, the water and the additive are sucked through pipelines 10 and 11 into the working chamber of the hydromechanical dispersant, from where, when exposed to a powerful acoustic field, they are pushed out through the outlet pipe through the pipe 13 through valve 7 into the tank 2. The working dispersant circulates the medium to be processed through the pipe 10 and 13 to obtain the working fluid of the required dispersed composition and concentration.

 The proposed autonomous installation allows you to obtain highly dispersed working fluid directly on the production site with minimal energy consumption. It is simple in design and has small overall dimensions, which will allow it to be used in limited areas of lava space.

Claims (1)

 Autonomous installation for the preparation of working fluid for hydraulic systems of mechanized supports, containing a tank for working fluid and an additive tank communicated through valves with the inlet of the hydromechanical dispersant, the outlet of which is connected to the working fluid tank, and an additive tank, characterized in that the dispersant input is additionally connected to the additive tank and the outlet to the additive tank.