RU2104747C1 - Method of liquid cleaning of ferromagnetic particles and installation for its realization - Google Patents

Abstract

FIELD: cleaning of lubricant-coolant at grinding, honing, superfinish and other production operations when ferromagnetic particles are formed. SUBSTANCE: the method consists in feeding of liquid to be cleaned to a vessel, passage of it through a magnetic system with a moving endless chain conveyer, with magnetic cores secured on it, cleaning of magnetic cores of slime and discharge of cleaned liquid from the vessel. After delivery of liquid to the vessel it is directed over the inclined base (bottom) of the vessel, passed through the magnetic system with the conveyer moving counter-clockwise towards the feeding pipe connection and divided into the main and auxiliary flows, which are discharged from the vessel through the pipe connections. The flow rate of the main flow liquid is controlled by varying the flow rate of the auxiliary flow. The liquid auxiliary flow is directed again to the system of liquid feed for cleaning. The installation uses a vessel, magnetic system in the form of a powered endless chain conveyer with magnetic cores secured on it, and an appliance for cleaning the cores. The vessel is made in the form of a tetragonal truncated pyramid, whose larger face has a stepped shape and serves as the base (bottom) of the vessel for liquid to be cleaned. The vessel is furnished with an additional discharge pipe connection. The discharge connections are positioned on the larger lateral face of the vessel, the discharge connection of the liquid auxiliary flow is positioned in the bottom part of the vessel and furnished with a liquid flow rate governor. EFFECT: enhanced efficiency. 3 cl, 1 dwg

Description

 The invention relates to metalworking and can be used to clean the coolant during grinding, honing, superfinishing and other technological operations when ferromagnetic particles are formed.

 A known method of purifying a liquid from ferromagnetic particles and a device for its implementation [1].

 A method of purifying liquids from ferromagnetic particles consists in feeding the liquid to be cleaned into the tank, passing it through the magnetic system, cleaning the magnetic rods and removing the purified liquid from the tank.

 The installation for implementing this method comprises a container for the liquid to be cleaned with an inlet and outlet pipe, a magnetic system in the form of a drive endless chain conveyor located inside the vessel with magnetic rods attached to it and a device for cleaning the rods.

 The disadvantages of this method and installation are low performance and reliability during operation, because during installation operation, uneven sagging or pulling of various zigzags of the chain occurs, which is explained by different forces transmitted from the drive to different zigzags (depending on their distance from the drive sprocket). For this reason, the circuit breaks, breaks the magnetic rods, and other malfunctions, leading to a decrease in the coolant cleaning wall, inconvenience, and reduced operation efficiency of the installation.

 Closest to the technical nature of the present invention is a method for cleaning liquids from ferromagnetic particles and installation for its implementation [2], developed by the company "Montanus" (Germany).

 A method of purifying a liquid from ferromagnetic particles consists in feeding the liquid to be cleaned into a container, passing it through a magnetic system, cleaning the magnetic rods and removing the purified liquid from the container.

 The installation for implementing this method comprises a container for the liquid to be cleaned with inlet and outlet pipes, a magnetic system in the form of a drive endless chain conveyor located inside the tank with magnetic rods attached to it and a device for cleaning the rods.

 The disadvantages of the data of the method and installation are the low degree of purification of the coolant, the inconvenience and low efficiency of operation of the installation.

 The disadvantages are due, firstly, to the possibility of a one-time passage of liquid magnetic rods, which significantly reduces the degree of purification of the coolant, and secondly, the inability to remove mechanical impurities from the bottom of the tank during operation of the installation, which explains the inconvenience of using the latter due to the need for frequent shutdown during operation and removal of mechanical impurities from the bottom of the tank, which, in turn, significantly reduces the efficiency of the cleaning process.

 The present invention solves the problem of increasing the degree of purification of the coolant, improving convenience and increasing the efficiency of the installation for cleaning liquids from ferromagnetic particles.

 The problem is achieved by a method of cleaning liquid from ferromagnetic particles, including the supply of the liquid to be cleaned into the tank, passing it through a magnetic system with a moving endless chain conveyor with magnetic rods attached to it, cleaning the magnetic rods from sludge and removing the cleaned liquid from the tank, after which the cleaned liquid the liquid into the container is directed along the inclined base (bottom) of the container, passed through a magnetic system with anti-clockwise movement in the direction of the supply about the nozzle by an endless chain conveyor with magnetic rods fixed on it and is divided into main and auxiliary flows, which are removed from the tank through the corresponding nozzles, while regulating the liquid flow of the main stream by changing the liquid flow of the auxiliary stream, and the auxiliary liquid stream is re-sent to the liquid supply system to clean.

 An apparatus for cleaning liquid from ferromagnetic particles comprises a container for the liquid to be cleaned with inlet and outlet pipes, a magnetic system in the form of a drive endless chain conveyor located inside the vessel with magnetic rods attached to it, and a device for cleaning the rods. The container for the liquid to be cleaned is made in the form of a quadrangular truncated pyramid, the large face of which is made in a stepped form and is the base (bottom) of the container for the liquid to be cleaned. The tank is equipped with an additional outlet pipe. The outlet pipes are located on the larger side face of the tank, and the outlet pipe of the auxiliary fluid flow is located at the bottom of the tank and is equipped with a fluid flow control device, while the drive endless chain conveyor with magnetic rods fixed on it is installed close to the stage of the base of the tank.

 According to claim 3 of the claims, the base of the container for the liquid to be cleaned is made conical in shape.

These signs are essential for solving the problem of the invention, because:
1. After supplying the liquid to be cleaned into the tank, it is sent along the inclined bottom of the tank in order to prevent the accumulation of ferromagnetic particles and mechanical impurities on the bottom of the tank, which ultimately ensures the efficient operation of the installation, eliminating the need to stop it from settling during operation and cleaning the tank to the bottom of ferromagnetic particles and solids.

 2. The liquid is passed through a magnetic system with an endless chain conveyor moving counterclockwise towards the inlet pipe with magnetic rods fixed on it so that the liquid to be cleaned is fed to the cleaned magnetic rods, which will significantly increase the degree of purification of the coolant.

 If the conveyor is moved in the opposite direction from the proposed one (i.e., as in the prototype), then the liquid supplied for cleaning will go through magnetic rods on which ferromagnetic particles are already accumulated, and therefore the efficiency of the liquid cleaning method will be significantly reduced.

 3. After supplying the liquid to the tank, it is divided into the main and auxiliary flows, which are removed from the tank through the corresponding nozzles in order to ensure at least two times the passage of the liquid magnetic rods, which, in turn, significantly increases the degree of purification of the coolant.

 4. The main fluid flow rate is controlled by changing the auxiliary fluid flow rate to ensure that the liquid passes through the maximum number of magnetic rods (to increase the degree of coolant purification) and continuously remove impurities settled on the basis of the tank during the operation of the installation using the auxiliary liquid flow, which significantly increases the efficiency of plant shutdown and cleaning the tank from accumulated mechanical impurities on its bottom).

 5. The tank for the liquid to be cleaned is made in the form of a quadrangular truncated pyramid, the large face of which is made in a stepped form and is the base of the tank for the liquid to be cleaned in order to ensure constant removal of impurities deposited on the bottom of the tank during operation of the unit (without stopping it) by an auxiliary stream liquids. The base of the tank is made in a stepped form for the convenience of installing the magnetic system and eliminating stagnant zones in front of the chain conveyor during operation of the installation, which will significantly increase the degree of purification of the coolant, the efficiency of the method, and the convenience of operation of the installation.

 6. The tank is equipped with an additional outlet pipe to allow separation of the flow of the cleaned liquid into the main and auxiliary flows.

 7. The outlet pipes are located on the larger side face of the tank, and the outlet pipe of the auxiliary fluid flow is located in the lower part of the tank and is equipped with a fluid flow control device, for example, a shutter for solving the problem of the invention (paragraphs 3-6).

 8. An endless drive chain conveyor with magnetic rods fixed on it is installed close to the stage of the base of the tank to increase the ease of operation of the installation and to eliminate stagnant zones in front of the conveyor during operation (paragraph 5 description).

 9. The base of the tank is made in a conical shape for guaranteed entrainment of the settled mechanical impurities from the tank by the auxiliary fluid flow.

 Schematic diagram of the installation for cleaning liquids from ferromagnetic particles is shown in the drawing.

 The installation comprises a container 1 for the liquid to be cleaned with a supply 2 and a discharge 3 nozzles, a magnetic system 4 in the form of a drive endless chain conveyor located inside the container 1 with magnetic rods 5 fixed on it and a device for cleaning the rods (not shown in the drawing). The tank 1 for the liquid to be cleaned is made in the form of a quadrangular truncated pyramid, the large face 6 of which is made in a stepped form and is the base of the tank 1. The tank 1 is equipped with an additional outlet pipe 7. The outlet pipes 3 and 7 are located on the larger side face 8 of the tank 1, and the outlet pipe 7 auxiliary fluid flow is located in the lower part of the tank 1 and is equipped with a device 9 for regulating fluid flow. An endless drive chain conveyor 4 with magnetic rods 5 fixed to it is mounted close to the stage 10 of the base of the tank 1. The base 6 of the tank 1 for the liquid being cleaned is made conical in shape. Sludge from magnetic rods is cleaned in tray 11.

 A method of purifying a liquid from ferromagnetic particles is as follows.

 The liquid to be cleaned is supplied to the tank 1 through the inlet pipe 2 and, flowing down along the inclined base 6, passes the magnetic rods 5, mounted on an endless chain conveyor of the magnetic system 4, which moves counterclockwise towards the inlet pipe 2. In this case, the magnetic system is removed from the liquid the bulk of the ferromagnetic particles by the magnetic rods 5, from which the sludge was previously removed by a device for cleaning the magnetic rods 5 in the upper part of the magnetic system 4 (above the liquid level) in the tray 11.

 Next, the liquid stream that has passed the first purification step is divided into the main and auxiliary flows, which undergo additional purification from ferromagnetic particles in the lower and / or side of the magnetic system 4. The liquid flow of the main stream is controlled by changing the liquid flow rate of the auxiliary stream using the flow control device 9 liquids depending on the degree of contamination of the liquid being cleaned, the required degree of purification, and other factors. The mechanical impurities deposited on the bottom of the tank 1 are removed from the tank by an auxiliary fluid stream, which is subsequently sent for re-cleaning.

 The technical and economic effect of the proposed method for cleaning liquids from ferromagnetic particles and apparatus for its implementation is to increase the degree of purification of the coolant, improving convenience and increasing the efficiency of operation of the installation.

 Literature.

 1. RF patent N 2027473, B 01 D 35/06, B 03 C 1/00, BI N 3, 1995.

 2. Application of Germany N 2710005, B 01 D 35/06, 1978 - prototype.

Claims (3)

 1. A method of purifying a liquid from ferromagnetic particles, including supplying a liquid to be cleaned into a container, passing it through a magnetic system with a moving endless chain conveyor with magnetic rods fixed on it, cleaning the magnetic rods from sludge and withdrawing the purified liquid from the tank, characterized in that after the supply of the liquid to be cleaned into the container is directed along the inclined base of the container, passed through a magnetic system with an endless movement moving counterclockwise towards the inlet pipe and the conveyor with magnetic cores fixed on it and is divided into primary and secondary flows that derive from the container by appropriate nozzles, the adjusted base stream flow rate change rate of the auxiliary liquid flow, wherein the secondary fluid stream is again directed to a fluid delivery system for purification.  2. Installation for cleaning liquids from ferromagnetic particles, containing a container for the liquid to be cleaned with inlet and outlet pipes, a magnetic system in the form of a drive endless chain conveyor located inside the tank with magnetic rods fixed to it and a rod cleaning device, characterized in that the tank for the liquid being cleaned is made in the form of a quadrangular truncated pyramid, the large face of which is made in a stepped form and is the base of the tank for the liquid being cleaned, the tank equipped with an additional outlet pipe, the outlet pipes are located on the larger side of the tank, and the outlet pipe of the auxiliary fluid flow is located in the lower part of the tank and is equipped with a fluid flow control device, while the endless chain conveyor with magnetic rods fixed on it is installed close to the stage of the container base .  3. Installation according to claim 2, characterized in that the base of the container for the liquid to be cleaned is made conical in shape.