RU2088304C1 - Device for automatic delivery and filtration of liquids - Google Patents

Abstract

FIELD: automatic filtration, overflow and pumping liquids having different properties, including high-aggressive, explosive, fire-hazardous and toxic liquids. SUBSTANCE: device includes compressed air main, hermetic reservoir where float valve is mounted on springs, pressure pipe and air distributor made in form of housing whose inner cavity is provided with movable rod. Rod of this cavity and rod of float valve are used for connecting the pressure reservoir with atmosphere or with compressed air main. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to the field of filtering and can be used for automatic filtering, transfusion and pumping liquids with various properties, including highly aggressive, fire and explosive.

 The closest analogue to the proposed one is a device for automatic filtering and overflow of liquids, containing a filter, a sealed container with a lid, an intake hose and a drain pipe, an ejector, a compressed air line and a float valve.

 The disadvantages of the known device include the fact that it is intended only for automatic filtering and overflow of liquids, but cannot be used to pump these liquids into containers that are installed above the filter.

 A disadvantage of the known device is also its complexity, which leads to its high cost and unreliability in operation.

 The aim of the invention is to remedy these shortcomings.

 The drawing shows the proposed device.

 The device comprises a filter 1 mounted in an intake hose 2, which is connected to a sealed container 3 through a check valve 4 installed in it. But it can also be installed in the intake hose. A drain pipe 5 is connected to a pressure pipe 6 and a sealed container 3 through a non-return valve 7. An air distributor 9 is installed on the top cover 8, the casing of which is fixed to it through a gasket 11 with a fixing nut 12 with holes 13. A rod 14 with seals 15 is installed in the air distributor 9 and 16, a hole 17 and a cone 18 are made in it, and the spring 19 is preloaded by the sleeve 20. In the body 10, a cavity is made in the form of several cylinders, two of which are connected by a conical transition 21, an internal cavity 22 and an annular gap 23 between the body 10 and the rod 14, which has a cylindrical-conical part 24.

 In the sealed container 3, a hollow float valve 25 is installed, which has ring seals 26 and 27. But it can be made hollow from a light material, for example, foam. In its blind hole 28 and in the sleeve 29, mounted on it with screws, which in FIG. 1 are not shown conditionally, the stem 30 is installed, it has a stop 31 and a thrust nut 32. The float valve 25 is installed in a sealed container 3 on the springs 33 mounted on the pins 34 and secured by nuts 35 in the upper cover of the housing 10. These springs 33 hold the float the valve 25 is in the upper position, and its stop 31 raises the rod 14, overcoming the force of the compressed spring 19. This allows you to connect the cavity 22 through the hole 21, the annular gap 23 and the holes 13 with the upper cavity 36, which is float valve 25 hermetically isolated from the lower cavity 37 .

 The device also has an ejector 38, compressed air is supplied to its active nozzle 39 through a pipe 40 from the compressed air line 41, and its suction nozzle 42 is connected by a flexible hose 43 to the hole 17 of the rod 14. In the pipelines, control valves 44 are installed, and in the tank 45 there is a liquid 46, which must be filtered and poured into a container 47, it is installed below the machine, but above the tank 45, or in the tank 48, which is installed above the machine.

 Compressed air from the line 41 is supplied through the pipe 49 to the cavity 22, and in the sealed container 3 there is still a bottom 50.

The device operates as follows:
Before starting work, it is necessary to open the valves 44 in the compressed air line 41, in the flexible hose 43, in the pipelines 40 and 49. Compressed air, passing through the active nozzle 39 of the ejector 38, pumps out air from the hole 17 in the rod 14 and will flow through the pipe 49 to the cavity 36 of the sealed container 3. And due to the pressure drop, the vacuum in the hole 17 and the pressure above atmospheric, in the cavity 36, the stop 31 of the rod 30 will be pressed against the end of the rod 14 and will hold it in this position. And the float valve 25 under the influence of compressed air will fall down, forcing air through the check valve 7 into the atmosphere from the lower cavity 37 of the sealed container 3.

 In the lower position of the float valve 25, its sleeve 29 will abut against the thrust nut 32, tear off the stem 30 from the rod 14 and connect the upper cavity 36 through the hole 17 and the flexible hose 43 with the ejector 38, it will pump air out of it, and the rod 14 will go down and his cone 18 will block the connection between the cavity 22 and the annular gap 23 and block the supply of compressed air. The float valve 25 under the influence of the springs 33 will rise to its original position, and the ejector 38 will pump air from the upper cavity 36. This allows you to create a vacuum in the lower cavity 37, then under the influence of pressure, vacuum and atmospheric pressure, the liquid 46 passing through filter 1, check valve 4, intake hose 2, will flow into the lower cavity 37.

 In the upper position of the float valve 25, its stem with its stop 31 will block the hole 17 and block the connection of the upper cavity 36 with the ejector 38, lift the rod 14 and compressed air through the conical hole 21 will again flow into the upper cavity 36, and under its influence on the float valve 25 it will fall down, displacing the liquid 46 from the lower cavity 37, and the liquid will merge into the tank 47 if the valve 44 in the drain pipe 5 is open, or into the tank 48 if the valve 44 in the pressure pipe 6 is open. After the liquid has been drained, the machine will cycle again .

 After the operation of the device, it is necessary to close the valve 44 in the compressed air line 41 and all other valves 44 of the machine.

 The choice of materials from which the machine is made is determined by the properties of the liquids that need to be filtered, poured or pumped. Such materials can be vinyl plastic, polyethylene, fluorine plastic, stainless and structural steels.

Claims (1)

 A device for automatically supplying and filtering liquids, comprising a filter, a sealed container with a lid, an intake hose and a drain pipe, an ejector, a compressed air line and a float valve, characterized in that it is equipped with a pressure pipe and an air distributor made in the form of a housing with openings for communication it with an atmosphere, a sealed container and a line of compressed air having an internal cavity in the form of several cylinders, two of which are connected by a conical transition, and installed in strips and with the possibility of reciprocating movement of the rod having a cylindrical upper part and a through axial hole communicated by means of a pipeline with the suction nozzle of the ejector, the float valve is installed in a sealed container and is made with ring seals on the outer wall, is attached to the container cover by means of springs and has a rod to block the axial hole in the stem of the air distributor, while the filter is installed in the intake hose, and the drain pipe is connected to a sealed container and pressure pipe through check valves.