RU2163843C1 - Device for cleaning liquids from ferromagnetic particles - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device may be used for cleaning of cutting fluids and other process liquids from mechanical admixtures. The device has a tank for liquid to be cleaned and chain magnetic separator positioned inside tank. Magnetic separator is provided with magnetic rods, cleaner of magnetic rods and endless chain which part is of zigzag form. Spaces between axes of adjacent zigzag parts of magnetic separator branch are different. In zone of contaminated liquid inflow these spaces are larger than in zone of cleaned liquid removal. EFFECT: enhanced efficiency of cleaning. 1 dwg

Description

 The invention relates to the field of mechanical engineering and can be used to clean lubricating fluids and other process fluids from mechanical impurities.

 A device for cleaning liquids from ferromagnetic particles of the Montanus company (Germany) is known, including a container for the liquid to be cleaned, an endless magnetic chain separator with magnetic rods attached to it and a device for regenerating magnetic rods located in the tank (see copies of the Montanus brochure )

 The reasons that impede the achievement of the technical result indicated below when using the known device include the fact that the known device carries out only a single passage of the liquid being cleaned in the gap between the magnetic rods and, therefore, low efficiency of its purification from ferromagnetic impurities is ensured.

 The closest device of the same purpose to the claimed invention in terms of features is a prototype device for cleaning liquids from ferromagnetic particles, including a container for the liquid being cleaned, a magnetic magnetic separator located inside the tank, equipped with magnetic rods and a magnetic rod cleaner and an endless chain, part of which made zigzag (see patent N 2004980 C1, CL B 03 1/00, 12/30/93, bull. N 47-48).

 The reasons that impede the achievement of the technical result indicated below when using the known device adopted for the prototype include the fact that in the known device the efficiency of liquid purification as it moves in the gaps between the magnetic rods located on the zigzag part of the endless branch of the magnetic separator does not change and everywhere same. This leads to the fact that the contamination of the liquid as it moves in the gaps between the magnetic rods decreases, and the cleaning efficiency decreases. As a result, the required quality of liquid purification from ferromagnetic mechanical impurities is not provided.

 The invention consists in the following. Contaminated liquid enters the magnetic separator, in which part of the branch with magnetic rods is made zigzag. Passing in the gaps between the magnetic rods, the liquid is gradually purified. As a result, the concentration of ferromagnetic solids decreases along the fluid in the gaps between the magnetic rods located on the zigzag part of the magnetic separator branch. With a decrease in the liquid concentration, the probability of the capture of mechanical impurities by magnetic rods of ferromagnetic particles of magnetic impurities decreases, since the distribution of the magnetic field strength of the magnetic rods is characterized by the distances between adjacent magnetic separator rods. Therefore, to increase the efficiency of cleaning liquid from ferromagnetic particles during its movement along the separator and with a gradual decrease in its contamination, it is necessary to change the distance between the magnetic rods. The distances between the magnetic rods located on adjacent zigzag parts of the magnetic separator branch should decrease along the direction of the liquid being cleaned through the magnetic separator.

 EFFECT: increased efficiency of liquid purification from ferromagnetic particles.

 The specified technical result during the implementation of the invention is achieved by the fact that the distances between the axes of adjacent zigzag parts of the magnetic separator branch are different, moreover, in the zone of contaminated liquid, these distances are greater than in the zone of discharge of the purified liquid.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by features 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 essential distinguishing features in relation to the applicant’s 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 according to known rules 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 precisely 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 invention is illustrated in the drawing, which shows a device for cleaning liquid, including a container for the liquid to be cleaned 1, a magnetic chain separator 2 with magnetic rods 3 and a cleaner for the regeneration of magnetic rods 4. Part of the branch of the magnetic separator 2 is made with zigzag sections 5-10. The container for the liquid to be cleaned 1 contains nozzles 11 and 12, respectively, for supplying the cleaned contaminated and discharging the purified liquid.

 A device for cleaning liquid works as follows.

 Contaminated liquid in the magnetic separator 2 is cleaned by means of magnetic rods.

 The regeneration of the magnetic rods 3 contaminated during the liquid cleaning process is carried out by the cleaner 4.

 The contaminated liquid enters the tank 1 through the nozzle 11 and is cleaned sequentially passing in the gaps between adjacent along the branches, located one after another of the magnetic rods 3 of the section 5 of the zigzag part of the endless branch of the magnetic separator. Then the liquid is cleaned, passing in the gaps between the magnetic rods 3, each of which is located in different sections 5 and 6 of the zigzag part of the endless branch of the magnetic separator. Then the cleaning is carried out in the gaps between the magnetic rods 3 of the section 6, then in the gaps between the magnetic rods 3 located in the adjacent sections 6 and 7, then in the gaps between the magnetic rods 3 of the section 7, then in the gaps between the magnetic rods 3 located in the adjacent sections 7 and 8, then in the gaps between the magnetic rods 3 of section 8, then in the gaps between the magnetic rods 3 located in adjacent sections 8 and 9, then in the gaps between the magnetic rods 3 of section 9, then in the gaps between the magnetic rods 3, p located in adjacent sections 9 and 10, then in the gaps between the magnetic rods 3 of section 10. After that, the purified liquid is removed from the tank 1 through the pipe 12.

 As the contaminated liquid is cleaned in the gaps between the magnetic rods 3 of sections 5-10 of the zigzag portion of the infinite branch of the magnetic separator 2, the concentration of ferromagnetic solids in the liquid decreases. In order to increase the probability of removal of ferromagnetic particles as their concentration in the liquid decreases during its cleaning, the distances between the axes of the sections of the zigzag portion of the magnetic separator branch are reduced so that x1> x2> x3> x4> x5. Accordingly, the distances between the magnetic rods 3 (x1 ''> x2 ''> x3 ''> x4 ''> x5 '') located in adjacent sections 5-10 of the zigzag part of the infinite branch of the magnetic separator 2 will decrease. The probability of removal of particles of mechanical impurities from the liquid during its passage in the gaps x1 '' - x5`` between the magnetic rods 3 located in adjacent sections 5-10 of the zigzag branch with increasing gaps from x1 '' to 5 '' will increase. As a result, the average value of the degree of purification of the liquid from ferromagnetic particles in the magnetic separator will increase.

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 device for cleaning liquids from ferromagnetic particles, including a container for the liquid to be cleaned, a magnetic circuit separator located inside the tank, equipped with magnetic rods, a magnetic rod cleaner and an endless chain, part of which is zigzag, characterized in that the distances between the axes of adjacent zigzag parts of the magnetic separator branch different, and in the zone of contaminated fluid, these distances are greater than in the zone of removal of the purified fluid.