RU2164822C1 - Method for cleaning liquids from ferromagnetic particles - Google Patents

Abstract

FIELD: machine engineering, possibly processes and equipment for cleaning cutting fluids and other technological liquids from mechanical particles. SUBSTANCE: method comprises steps of passing cleaned liquid through magnetic rods of zigzag portion of endless branch of magnetic chain type separator and regeneration of magnetic rods by means of regeneration mechanism. Liquid is cleaned when it is successively passed through magnetic rods arranged on several zigzag portions of endless branch of magnetic separator. In spacings between zigzag portions of branch of magnetic separator magnetic rods are regenerated due to removing ferromagnetic mechanical additives. EFFECT: enhanced efficiency of cleaning liquids from ferromagnetic particles and improved regeneration of magnetic rods. 1 dwg

Description

 The invention relates to the field of mechanical engineering and can be used in the cleaning of cutting fluids and other process fluids from ferromagnetic solids.

 A known method of cleaning liquids from ferromagnetic particles, implemented using magnetic cartridges G42-1 (see, for example, Khudobin L.V., Berdichevsky E.G. Technique for the use of cutting lubricants in metalworking. M .: Mechanical Engineering. 1977. S. 86-90).

 The reasons that impede the achievement of the following technical result when using the known method include the fact that in the known method, the magnetic rods are quickly contaminated with ferromagnetic mechanical impurities deposited on their surface, and the regeneration of the magnetic rods is carried out manually, and therefore the processes of liquid cleaning and regeneration are cyclical and ineffective.

 The closest method of the same purpose to the claimed invention in terms of features is the prototype method of purifying liquids from ferromagnetic particles by passing through the magnetic rods of the zigzag part of the endless branch of the magnetic chain separator with the regeneration of the magnetic rods by a regeneration mechanism and implemented in a device for cleaning liquids from ferromagnetic particles (see, for example, patent N 2004980, B 03 C 1/00. 12/30/93. Bull. 47-48. Device for cleaning liquids from ferrom gnit particles).

 For reasons that impede the achievement of the technical result indicated below when using the known method adopted as a prototype, the known method does not have additional intermediate regeneration of magnetic rods from mechanical impurities deposited on them, which leads to a decrease in the efficiency of liquid purification during its movement in the gaps between the magnetic rods of the zigzag part of the endless branch of the magnetic chain separator.

 The invention consists in the following. The magnetic rods of the magnetic separator (see prototype) must be regenerated by cleaning particles of mechanical impurities adhering to them during the cleaning process. However, at high concentrations of mechanical impurities in the coolant, the magnetic rods are intensively contaminated with mechanical impurities and do not provide effective cleaning of the coolant from magnetic mechanical impurities. In addition, by cleaning the contaminated coolant from suspended solids, the magnetic rods of the zigzag part of the endless branch of the magnetic chain separator are in contact with the contaminated liquid for a longer time period compared to the magnetic rods of magnetic separators without the zigzag part of the endless branch, which leads to a higher loss rate them cleaning efficiency.

 Therefore, to increase the efficiency of the magnetic rods of the cartridge magnetic chain separator, it is necessary to purify the liquid from ferromagnetic mechanical impurities as it passes through the gaps between the magnetic rods located in several sections of the branch of the infinite magnetic chain separator made in a zigzag fashion and to perform additional intermediate regeneration in the gaps between the zigzag sections magnetic rods from adhering to them magnetic mechanical impurities, do not stop I still fluid cleaning process. Regeneration of the magnetic rods simultaneously at several gaps between the zigzag sections of the endless chain conveyor may be provided.

 EFFECT: increased efficiency of liquid purification from ferromagnetic particles and regeneration of magnetic rods.

 The specified technical result in the implementation of the invention is achieved by the fact that the liquid is cleaned when it passes successively through magnetic rods located on several zigzag parts of the endless branch of the magnetic separator, and in the intervals between the zigzag parts of the branch of the magnetic separator, magnetic rods are regenerated from ferromagnetic solids.

 The peculiarity lies in the fact that they carry out additional purification of liquids from ferromagnetic impurities by means of magnetic rods of several zigzag sections of the infinite branch of the magnetic separator and carry out additional intermediate regeneration of the magnetic rods.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by signs that are identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of significant distinctive features in relation to the applicant’s perceived technical result in the claimed method set forth in the claims.

 Therefore, the claimed invention meets the condition of "novelty."

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention is not revealed from the prior art determined by the applicant to achieve a technical result. In particular, the claimed invention does not provide for the following transformations:
- addition of a known product by any known part (s) attached to it (by) according to known rules, in order to achieve a technical result in respect of which the effect of such an addition is established;
- replacement of any part (s) of a known product with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;
- the exclusion of any part (element, action) of the product with the simultaneous exclusion of its function and the achievement of the usual result for such exclusion (simplification, reduction of mass, dimensions, material consumption, increased reliability, reduced process time, etc.);
- an increase in the number of elements of the same type, actions to enhance the technical result, due to the presence in the tool of just such elements, actions;
- the implementation of a known tool or part (s) of a known material to achieve a technical result due to the known properties of this material;
- creating a tool consisting of known parts, the choice of which and the connection between them are based on known rules, recommendations, and the technical result achieved in this case is due only to the known properties of the parts of this tool and the connections between them.

 The described invention is not based on a change in the quantitative characteristic (s), the presentation of such signs in relationship, or a change in its form. This refers to the case when the fact of the influence of each of these characteristics on the technical result is known, and new values of these signs or their relationship could be obtained on the basis of known dependencies and patterns.

 Therefore, the claimed invention meets the condition of "inventive step".

 The essence of the proposed method is illustrated by the drawing, which shows a cartridge magnetic chain separator 1 with a magnetic rod regeneration system 2 and an additional regeneration system 3. The separator 1 is installed in the sump 4, equipped with a scraper conveyor 5, contaminated supply pipes and cleaned coolant pipes 6 and 7, packaging for mechanical impurities removed from the coolant 8. Possible directions for supplying contaminated coolant are 9 and 10, respectively. The direction of discharge of cleaned coolant and the liquid level in the sump are 11 and 12. regeneration systems 2 and 3 of the magnetic rods 13 are located above the liquid level 12.

 Information confirming the possibility of carrying out the invention with obtaining the above technical result.

 The sequence of steps in the implementation of the proposed method is as follows.

 Contaminated coolant enters the sump 1 in direction 9 through pipe 6 and in direction 10, is cleaned of magnetic mechanical impurities, passing between the magnetic rods 13 of the cartridge magnetic chain separator 1, and is removed to the process equipment in direction 11 through pipe 7. Non-magnetic mechanical impurities settle to the bottom of the sump 4, from where they are removed by a scraper conveyor 5 into the container 8. First, the regeneration of magnetic rods from ferromagnetic mechanical particles deposited on their surface during liquid cleaning impurities carried regeneration system 3. regenerated first magnetic rods while moving the cleaning liquid zigzag endless branch portion of the magnetic separator. The magnetic rods located on this zigzag part of the magnetic separator branch have the greatest load, since they receive crude liquid in directions 9, 10. Then the partially purified liquid enters the magnetic rods on the second zigzag part of the endless branch of the magnetic separator, where it is finally cleaned. After that, the magnetic rods of the second zigzag part of the endless branch of the magnetic separator are regenerated from ferromagnetic solids settled on the surface of the liquid by means of a regeneration system 2.

 At low concentrations of solids in the coolant (not more than 2.0 g / l), the degree of purification of the liquid in the cartridge magnetic chain separator 1 is (90-96)%.

 At high concentrations of mechanical impurities in the coolant ((2.0-5.0) g / l), the magnetic rods 13 of the cartridge magnetic chain separator 1, moving at a speed of (0.1-0.6) m / min, purify the contaminated coolant with a high concentration of ferromagnetic solids suspended in it they quickly lose their effectiveness, being polluted by magnetic mechanical impurities deposited on them. On the surface of the magnetic rods a layer of mechanical impurities is formed ((5-7 mm or more), which almost completely covers the gaps between the magnetic rods 13. The gap between the cleaned magnetic rods is (10-15) mm (see prototype), and between the contaminated rods may be close to zero, therefore, the main flow of the liquid being cleaned does not go through the gaps between the magnetic rods, since the throughput of the gaps has decreased. As a result, the cleaning efficiency of the coolant decreases. The degree of cleaning of the coolant is (50-60) % or less. To increase the efficiency of the magnetic rods 13 of the cartridge magnetic chain separator 1, it is proposed to separate the liquid purification process and carry out it using the magnetic rods of several zigzag parts of the infinite branch of the magnetic separator, and in between the zigzag parts of the infinite branch of the magnetic separator, carry out additional intermediate regeneration of the magnetic rods 13 from adhering to them ferromagnetic solids. After the intermediate additional regeneration process, the magnetic rods 13 are cleaned of magnetic mechanical impurities deposited on their surface, restore their properties (the distances between the magnetic rods become equal to (10-15) mm) and again begin to effectively clean the liquid. The efficiency of the cleaning process increases. The degree of purification of the coolant increases to (80-95)% even when the concentration of solids in the contaminated liquid (2.0-5.0)%.

Thus, the above information indicates the fulfillment when using the claimed invention (method) of the following set of conditions:
- a tool embodying the claimed method in its implementation, is intended for use in industry, namely in the field of engineering for the purification of cutting fluids and other process fluids from mechanical impurities;
- for the claimed method in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application or known prior to the priority date is confirmed.

 Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

 A method of cleaning liquids from ferromagnetic particles by passing the liquid to be cleaned through the magnetic rods of the zigzag part of the endless branch of the magnetic chain separator with the regeneration of magnetic rods by the regeneration mechanism, characterized in that the liquid is cleaned by passing it through the magnetic rods located on several zigzag parts of the endless branch magnetic separator, and in the intervals between the zigzag parts of the magnetic separator branch regeneration is carried torus magnetic rods of ferromagnetic impurities.