RU19100U1 - MAGNETOACTIVATOR FOR PROCESSING LUBRICANTS - Google Patents

Abstract

1. A magnetoactivator for processing lubricating oils, comprising a housing made of ferromagnetic material, and a non-magnetic material pipe disposed therein for moving processed lubricants and a group of permanent magnets located in parallel planes on both sides of the pipeline, characterized in that the magnets in each group are placed in pairs and in pairs adjoin each other with opposite poles, while each group contains one or more pairs of magnets, in addition, the pair / pairs of magnets of one group are offset relative to tionary pair / pairs of magnets gruppy.2 other. The magnetoactivator according to claim 1, characterized in that the pairs of magnets of one group are offset uniformly relative to the pairs of the other group.

Description

ii / iiitti //; No. /.Ml.A 9 7;

Magito-activator for the processing of lubricating oils

The device can be used in mechanical engineering, in particular, in the automotive industry for the processing of lubricating oils.

A device for magnetic processing of fuel of an internal combustion engine according to the patent of the Russian Federation No. 2011880; 5F02M 27/04. It contains a housing with inlet and outlet openings, sets of permanent magnets, which are mounted on a tape base and mounted on the tube alternately with the orientation of the magnetic fields and / or perpendicular to the fuel flow, and the number of turns of tape in each subsequent set along the fuel set exceeds the number of turns of the previous set . The fuel processing efficiency is increased by the fact that the proposed arrangement of the magnets creates an optimal magnitude and gradient of the magnetic field along the length of the device, however it provides a small range of changes in the magnetic field and does not have high-frequency components, which leads to insufficient processing efficiency of lubricating oils.

The closest in technical essence to the claimed utility model is a device for processing substances in a magnetic field. Application for invention No. 97116275/03; A23L 1/025; 2/38; C02F1 / 48, publ. 12/20/98. The device comprises a housing made of ferromagnetic material, a pipeline of non-magnetic material in the form of a coil containing at least two elbows, and two groups of permanent magnets are located in two parallel planes on both sides of the pipeline. In each group, magnets

IPC F02M 27/04; ClOG 32/02 placed with a gap and facing each other opposite and / or

like poles. This device is designed for processing and activation of food products due to the presence of high, medium and low frequencies of exposure. The disadvantage of the described device is the spasmodic nature of the change in the magnetic field strength in the treatment zone and, as a consequence, the insufficient processing efficiency of lubricating oils in order to improve their operational properties, which is confirmed experimentally (see table 1 below).

The objective of the utility model is to improve the tribological properties of the surfaces of friction pairs and to improve the operational properties of lubricating oils.

The problem is solved as follows. In a device containing a housing made of ferromagnetic material and a non-magnetic material pipeline placed therein for moving processed lubricants 1px oil and groups of permanent magnets located in parallel planes on both sides of the pipeline, according to a utility model, magnets are placed in pairs and adjoin each other in pairs different poles. Each group contains one or more pairs of magnets that are uniformly offset from each other.

The differences of the claimed device from the prototype:

-magpits in each group are placed in pairs;

-magnets in a pair adjoin each other with opposite poles;

- each group contains one or more pairs of magnets;

- a pair of magnets of one group are offset uniformly with respect to pairs of magnets of another group.

2. Due to this arrangement of pairs of permanent magnets, a uniform characteristic of changes in the magnetic field is achieved and the tribological properties of friction pairs and the operational properties of lubricating oils are improved, which reduce the wear of parts of a friction pair, which is confirmed experimentally (see Table 1). In Fig.1 shows the location of the magnets in the pipeline, in Fig.2 section aa of Fig. 1. Magnetic activator for processing lubricating oils contains a housing 1; pipeline 2, made in the form of a curved tube (or straight); pairs of permanent magnets 3 of one group (on one side of the pipeline); pairs of magnets 4 of another group (on the other side of the pipeline). A pair of magnets 3 is offset relative to a pair of magnets 4. In p.11, when applying several pairs of magnets, a pair of magnets 3 can be offset uniformly with respect to a pair of magnets 4, for example, 1/3 of the width of the pair. The magneto-activator turns on sequentially. in kr} t of circulation of the closed lubrication system of the unit, lubricating oil is passed through the pipeline, which is not exposed to the treatment zone - a magnetic field, then the process is repeated. As a result, the tribotechnical characteristics of the friction pairs and the operational properties of the lubricating oil are improved, and, as a result, with neither X d em s Shnos of the rubbing parts of the automobile compressor, as shown in Table 1, paragraph 1. 3

The results of wear tests of a car compressor when magnetizing oil, estimated by the weight loss of parts by weighing

As can be seen from the table, when installing the prototype, the decrease in the speed (pace) of wear of the main rubbing parts of the crankshaft-connecting rod group of the automobile compressor compared to the basic test (without magnetization) was 1.46 ... 2.48 times, and when installing the utility model (MA) - 1.91 .. .3.02 times, i.e. an average of another 25%.

Table 1

Claims (2)

1. A magnetoactivator for processing lubricating oils, comprising a housing made of ferromagnetic material, and a non-magnetic material pipe disposed therein for moving processed lubricants and a group of permanent magnets located in parallel planes on both sides of the pipeline, characterized in that the magnets in each group are placed in pairs and in pairs adjoin each other with opposite poles, while each group contains one or more pairs of magnets, in addition, the pair / pairs of magnets of one group are offset relative to tionary pair / pairs of magnets of the other group. 2. The magnetoactivator according to claim 1, characterized in that the pairs of magnets of one group are offset uniformly with respect to the pairs of the other group.