RU2096340C1 - Apparatus for removing ferromagnetic particles from fluids - Google Patents

Abstract

FIELD: metal working. SUBSTANCE: invention is designed for purifying lubricating fluids in process operation when finely dispersed ferromagnetic particles are formed. Apparatus contains vessel for fluid being treated with supply and discharge connecting pipes; magnet system in the form of, disposed inside vessel and installed on star gears, drive endless belt conveyor with attached to it magnetic rods, axes of conveyor largely coinciding with axes of supply and discharge connecting pipes; drive of belt conveyor; and device for scouring rods with tray. Drive of belt conveyor is of distributive type and constitutes reducer, casing of which incorporates alternatively arranged driving and idler gear wheels on shafts. All star gears located in upper part of vessel are rigidly mounted on shafts with driving gear wheels and each star gear located in lower part of vessel is sheltered inside moveable spring-loaded housing. EFFECT: increased operation serviceability and reliability of apparatus. 2 dwg

Description

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

A device for cleaning liquids of the company "Montanus" (Germany) is an MKF magnetic chain filter 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 cleaning device rods [1]
The disadvantage of this device is its low reliability during operation, since the length of the rectilinear sections of the conveyor chain is large enough and uneven sagging or pulling occurs at different sections of the chain movement, which leads to distortion and breakage of the magnetic rods, rupture of the chains, etc. P.

 The closest in technical essence and the present invention is a device for cleaning liquids from ferromagnetic particles [2] selected as a prototype. The device 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 on the sprockets and mounted on sprockets with magnetic rods fixed on it, whose axes have a direction that predominantly coincides with the axes of the inlet and outlet pipes, a chain drive conveyor, a tool for cleaning rods with a tray.

 The disadvantages of this device are low availability and its reliability during operation.

 This is due to the following reasons.

 1. To tension and ensure the movement of the chain conveyor with magnetic rods along a zigzag contour, it is necessary to create a lot of force in the drive of the chain conveyor transmitted to one drive sprocket of each conveyor chain.

 2. During operation of the device, uneven sagging and pulling of various zigzags (loops) of the chain occurs due to the fact that of all the sprockets on which each conveyor chain is installed, only one is the leading one.

 3. It is not possible to automatically adjust the chain tension (with excessive tension or weakening) during operation of the device.

 For these reasons, there is a skew and breakdown of the magnetic rods, as well as breaking the chains.

 The present invention solves the problem of improving the health and reliability of the device for cleaning liquids during operation.

 The problem is achieved in that in a device 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 and mounted on sprockets with magnetic rods fixed on it, the axes of which have a direction that predominantly coincides with the axes of the inlet and outlet pipes, a chain conveyor drive, a tool for cleaning the rods with a tray, a drive The conveyor is made of distribution and is a gearbox, in the case of which the drive and spurious gears are alternately placed on the shafts, all the sprockets located in the upper part of the fluid reservoir are rigidly mounted on the shafts with the drive gears, with each sprocket located in the lower part of the reservoir for the liquid to be cleaned, placed in a movable spring-loaded housing.

 These signs are essential to achieve the objective of the invention, because

 1. The drive of the chain conveyor is made distribution and is a gearbox, in the housing of which the drive and spurious gears are alternately placed on the shafts, to ensure the possibility of uniform distribution (transmission) of effort from the drive of the chain conveyor to the drive gears on the shafts.

 2. All sprockets located at the top of the fluid reservoir are rigidly mounted on shafts with pinion gears. This is necessary so that these stars become leading. Those. in other words, the force from the drive of the chain conveyor is evenly transmitted to the drive gears and sprockets rigidly mounted on the shafts, which means that each sprocket is a chain zigzag drive that is currently installed on it. Therefore, when the device is operating, each zigzag (loop) of the chain conveyor has its own drive. This circumstance compared with the prototype greatly facilitates the start of work (chain tension), the entire process of movement of the chain conveyor during operation.

 3. Each sprocket located in the lower part of the tank for the liquid to be cleaned is placed in a movable spring-loaded housing in order to provide autonomous tension (weakening) of various zigzags in the chain during sagging or critical tension of individual zigzags during the movement of the chain conveyor along a zigzag contour.

 Thus, the features indicated in the claims are necessary together to achieve the objectives of the invention.

 A schematic diagram of a device for cleaning liquids from ferromagnetic particles is shown in FIG. one; in FIG. 2 is a view along arrow A in FIG. 1 (the wall with the inlet pipe conditionally removed).

 The device consists of a coolant tank 1, an endless chain conveyor 2 mounted on sprockets 3, with magnetic rods 4 fixed on it so that their axes are parallel to the axes of the supply 5 and outlet 6 pipes, devices for cleaning the magnetic rods 7 with tray 8 for collecting particles cleaned from the rods, the distribution drive 9 of the chain conveyor 2 and the scattering nets 10. The distribution drive 9 is a gearbox, in the housing 11 of which the drive gears 12 and parasitic 13 gears are alternately placed on the shaft x 14. All sprockets 15 located in the upper part of the coolant tank 1 are rigidly mounted on the shafts 14 with driving gears 12. Each sprocket 16 located in the lower part of the coolant tank 1 is placed in a movable housing 17, which is spring-loaded by means of a spring 18 .

 The device operates as follows.

 Contaminated coolant is fed into the tank 1 through the inlet pipe 5. The grid 10 dampens the flow velocity and distributes it along the height of the tank 1. Passing along the magnetic rods 4, the coolant is cleaned of ferromagnetic particles and discharged through the pipe 6. Magnetic rods 4 carry dirt settled on them into the area of the device 7 for cleaning the magnetic rods 4. After cleaning the magnetic rods 4, contaminants fall into the tray 8. Since the chain conveyor 2 is zigzag, during operation, the chain is unevenly stretched and compressed in different sections of its movement.

 To ensure uniform distribution of effort from the drive to the drive sprockets 15 and to the corresponding zigzags (sections, loops) of the chain conveyor 2, its drive is made of distribution and is a gearbox, in the housing 11 of which there are drive 12 and spurious gears on the shafts 14.

 For autonomous and uniform tension of all the zigzags of chain 2, each sprocket 16 located in the lower part of the coolant tank 1 is placed in a movable housing 17, spring-loaded by means of a spring 18.

 During sagging or tension of a certain section (loop) of the chain during the operation of the device, compression or tension of the spring 18 occurs, the housing 17 moves up or down, and accordingly, the tension of the chain 2 is adjusted, which eliminates the breakdown of the magnetic rods 4 and the device as a whole.

 Thus, the use of the proposed device for cleaning liquids from ferromagnetic particles in comparison with the prototype [2] provides high reliability and performance by eliminating the possibility of breakdown of the magnetic rods due to uneven stretching and compression of the chain in different parts of its movement, providing a separate drive to the leading sprockets, autonomous and uniform chain tension.

Claims (1)

 A device 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 and mounted on sprockets with magnetic rods mounted on it, whose axes have a direction that mainly coincides with the axes inlet and outlet pipes, chain conveyor drive, rod cleaning device with a tray, characterized in that the chain conveyor drive is distribution gear and is a gearbox, in the case of which the driving and spurious gears are alternately placed on the shafts, all the sprockets located in the upper part of the fluid reservoir are rigidly mounted on the shafts with the driving gears, each sprocket located in the lower part of the reservoir for cleaning fluid placed in a movable spring-loaded housing.

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