RU2104799C1 - Plant for purification from ferromagnetic particles - Google Patents

Abstract

FIELD: metal working, in particular, plants for purification of aqueous and oily lubricant-coolants from ferromagnetic particles in process of abrasive working; may be used in filtering of large volumes of fluid with separation of large amounts of grinding slurry. SUBSTANCE: plant has vessel for purified fluid with inlet and outlet, magnetic system in the form of driven endless chain conveyor located inside the vessel with slurry collecting members attached to conveyor, device for cleaning of slurry collecting members. Vessel base is made inclined and stepped in shape. Discharge outlets are located in upper and lower parts of large side face of vessel. In this case, lower discharge outlet has device for regulation of liquid flow rate. Slurry collecting members are made in the form of magnetic units, rectangular in shape and presenting flat magnetic members of similar sizes and consisting of flat magnets similar in shape and installed in plates. Space between magnets is filled with wear-resistant filler. Plates have shunt and secured to beam at similar intervals. Beam is connected with driven endless chain conveyor. Device for cleaning of magnetic units is made in the form of comb. Screws are installed on all protrusions of comb. EFFECT: higher efficiency. 3 cl, 5 dwg

Description

 The invention relates to metalworking and can be used to clean cutting fluids (grinding fluids) during grinding, honing, superfinishing and other technological operations in which ferromagnetic particles are formed.

 A known installation [1] for cleaning liquid from ferromagnetic particles of the Montanus company (Germany), containing a container for the liquid being cleaned with inlet and outlet pipes, a magnetic system in the form of a drive endless chain conveyor located inside the tank with sludge-collecting elements fixed to it (magnetic rods) ) and a tool for cleaning the rods.

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

 The disadvantages are due to the possibility of only one-time passage of liquid magnetic rods and the inability to remove mechanical impurities from the lower tank during operation of the installation.

 Closest to the technical nature of the present invention is a facility for cleaning liquids from ferromagnetic particles [2] by Mannesman (Germany), 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 container located inside the tank sludge-collecting (magnetic) elements (rods) fixed on it and a device for cleaning sludge-collecting elements.

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

 The invention solves the problem of increasing the degree of purification of the coolant, improving convenience and increasing the efficiency of operation of the installation.

 The problem is solved by the installation for cleaning liquid 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 container located inside the tank with sludge collection elements mounted on it, a device for cleaning sludge collection elements, in which the base of the tank for the liquid being cleaned is made of an inclined step shape in the direction of the liquid movement, the tank is equipped with an additional outlet pipe, about A driving nozzles located at the top and bottom of the larger side face of the container, the lower transfer tube is provided with a fluid flow control device; the sludge collecting elements are made in the form of rectangular magnetic blocks, which are flat magnetic elements of the same size, consisting of flat magnets of the same shape installed in the plates, the space between the magnets being filled with a wear-resistant filler, the plates are provided with a shunt and are attached at the same distance from each other to a beam connected to a drive endless chain conveyor.

 The device for cleaning magnetic blocks is made in the form of a comb, the width and height of the protrusions of which are less than the distance between the planar magnetic elements and their heights, respectively. On all protrusions of the comb screws are installed.

These signs are essential for solving the problem of the invention, since:
1. The base of the tank for the liquid to be cleaned is made in an inclined step shape in the direction of movement of the liquid in order to prevent the accumulation of ferromagnetic particles and other mechanical impurities on the bottom of the tank, which ultimately will ensure the efficient operation of the installation, eliminating the need to stop it during operation to clean the tank from settling to the bottom of the tank of mechanical impurities.

 2. The tank is equipped with an additional outlet pipe to ensure the possibility of draining the liquid from the bottom of the tank along with impurities deposited on the bottom of the tank during operation of the installation (without stopping it).

 3. The outlet pipes are located in the upper and lower parts of the larger lateral face of the container, the lower outlet pipe being equipped with a fluid flow control device, for example, a shutter, to ensure that the liquid passes through the maximum number of magnetic blocks (to increase the degree of coolant purification) and continuously remove sediment from the bottom of the container based on the (bottom) capacity of mechanical impurities during operation of the installation, which significantly increases the efficiency and ease of operation of the installation (eliminates the need the termination of the installation and cleaning the tank from accumulated mechanical impurities on its bottom).

 4. Sludge-collecting elements are made in the form of rectangular magnetic blocks, which are flat magnetic elements of the same size, consisting of flat magnets of the same shape installed in the plates, the space between the magnets being filled with a wear-resistant filler, the plates are provided with a shunt and are attached at the same distance from each other to a beam connected to a drive endless chain conveyor.

 This design on the basis of the experimental and theoretical research conducted by the authors is the most optimal. This is confirmed by the following.

 The magnetic blocks are rectangular in shape because in this case, to create the same magnetic field, the magnetic potential difference is 32.9% less compared to the magnetic rods of the prototype installation, or, in other words, with the same magnetic potential difference in the proposed design of magnetic elements and blocks will create a magnetic flux of 32.9% more in comparison with the magnetic rods of the installation of the prototype. That is, the initial increase in the attraction of ferromagnetic particles will be more than 5 times greater than the magnetic rods of the prototype installation, which will significantly reduce the time and increase the degree of purification of the coolant.

 The number, arrangement of magnets and the shape of the flat magnets, as well as the number of magnetic blocks can be different depending on the specific operating conditions of the installation (the required degree of purification of water and oil coolants and real possibilities for placing a chain conveyor).

 The space between the magnets is filled with wear-resistant filler to reduce the mass of magnetic elements and blocks as a whole.

 The plates are equipped with a shunt for maximum attenuation of the magnetic field at the ends of the magnetic elements and blocks, respectively, which ensures their effective cleaning from ferromagnetic particles (sludge) using a device for cleaning magnetic blocks.

 5. The device for cleaning magnetic blocks is made in the form of a comb installed in an inclined position, the width and height of the protrusions of which are less than the distance between the flat magnetic elements and their heights, respectively, to ensure effective cleaning of magnetic blocks from sludge.

 6. Screws are installed on all projections of the comb for quick and efficient removal of sludge from the projections of the comb and magnetic elements into the sludge collector.

 In FIG. 1 shows a schematic diagram of an installation; in FIG. 2 is a view A in FIG. one; in FIG. 3 - section BB in FIG. one; in FIG. 4 is a view B in FIG. 3; in FIG. 5 is a diagram of a planar magnetic element.

 The installation contains 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 5 located inside the tank 1 with sludge collection elements (magnetic blocks) 6 mounted on it, a device 7 for cleaning magnetic blocks 6. Base 8 of the tank 1 for the liquid to be cleaned is made of an inclined step shape in the direction of movement of the liquid. The tank 1 is equipped with an additional outlet pipe 9. The outlet pipes 3 and 9 are located respectively in the upper and lower parts of the larger side face 10 of the tank 1. The lower outlet pipe 9 is equipped with a device 11 for regulating the flow of liquid (for example, a shutter).

 Magnetic blocks 6 are made in a rectangular shape. The device 7 for cleaning the magnetic blocks 6 is made in the form of a comb 12 with protrusions 13 mounted in an inclined position. On all the protrusions 13 of the comb 12, the screws 14 are installed.

 Magnetic blocks 6 are flat magnetic elements 15 of the same size, which are attached at the same distance from each other to the beam 16. Flat magnetic elements 15 are composed of flat magnets 17 of the same shape, mounted in plates 18 provided with shunts 19. The space between the magnets 17 is filled wear resistant filler 20.

 Installation for cleaning liquids from ferromagnetic particles works as follows.

 The liquid to be cleaned is supplied to the tank 1 through the inlet pipe 2 and, flowing down the inclined stepped base 8, passes magnetic blocks 6, mounted on beams 16 connected to a drive endless chain conveyor 5, rotating clockwise. In this case, ferromagnetic particles are removed from the liquid by attracting them to the planar magnetic elements 15 of the magnetic blocks 6.

 The magnetic blocks 6 passing through the liquid layer pass through the comb 12 of the device 7 for cleaning the magnetic blocks. In this case, the magnetic blocks 6 are cleaned of sludge, which is removed with the help of screws 13 from the protrusions 13 of the comb 12 into the sludge collection tank. The fluid flow passing through the magnetic blocks is discharged from the tank 1 through the nozzles 3 and 9, and the main mass (up to 80-95%) of the purified liquid is discharged through the nozzle 3. Depending on the degree of contamination of the initial liquid, the required degree of purification, and other factors, a part of the liquid (5-20%) is discharged through the pipe 9 using the device 11 (for example, a shutter), which washes away mechanical impurities deposited on the bottom 8 of the tank 1 . This part of the liquid is then sent for re-cleaning.

 The present invention provides the possibility of using magnetic blocks separately (without a chain conveyor) by varying their installation along the direction of the liquid being cleaned, followed by periodic replacement of magnetic blocks with sludge with magnetic blocks with cleaned magnetic elements.

 The technical and economic effect of the proposed installation for cleaning liquids from ferromagnetic particles is to increase the degree of purification of water and oil coolants, improve convenience and increase the efficiency of operation of the installation.

Claims (3)

 1. 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 sludge collection elements attached to it, a device for cleaning sludge collection elements, characterized in that the base containers for the liquid to be cleaned are made of an inclined step shape in the direction of fluid movement, the tank is equipped with an additional outlet pipe, outlet pipes the tubes are located in the upper and lower parts of the larger lateral face of the tank, the lower outlet pipe being equipped with a fluid flow control device, and the sludge collecting elements are made in the form of rectangular magnetic blocks, which are flat magnetic elements of the same size, consisting of flat magnets of the same shape, installed in the plates, and the space between the magnets is filled with wear-resistant filler, the plates are equipped with a shunt and are attached on the same one from the other a distance in the beam, coupled with a driving endless chain conveyor.  2. Installation according to claim 1, characterized in that the device for cleaning magnetic blocks is made in the form of a comb installed in an inclined position, the width and height of the protrusions of which are less than the distance between the flat magnetic elements and their heights, respectively.  3. Installation according to paragraphs. 1 and 2, characterized in that on all protrusions of the comb screws are installed.

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