SU733705A1 - Oil cleaning filter - Google Patents

Description

The invention relates to mechanical engineering and is intended for use in hydraulic drive and hydraulic systems for oil purification, as well as in various discrete logic systems.

A known filter for oil purification, comprising a housing with input and output nozzles and with a filter element, an overflow valve and an indicator device £ 1} placed therein.

In the specified filter, the indicator device is designed in such a way that allows local visual control of both the degree of contamination of the filter element and the degree of relative purity of the oil entering the system. This limits the possible scope of filters, and also introduces an element of subjectivity in the assessment of its work, increases the likelihood of making erroneous decisions when assessing the quality of the filter.

The aim of the invention is to increase the reliability and efficiency of the filter.

To this end, the indicator device is provided with containers with magnetically controlled contacts and terminal blocks. Each container is installed in guides parallel to the movement of magnets and equipped with clamps. One container controls the moment of reaching a given degree of clogging of the filter element, and the other - the moment of reaching a given value of the amount of oil entering the system through the bypass channel, bypassing the filter element.

In FIG. 1 shows a filter for cleaning oil, section; in FIG. 2 - the same, top view.

The filter for cleaning the oil contains a housing consisting of a non-magnetic head 1 and a glass 2. In the glass 2 there is a filter element 3, and in the non-magnetic head 1 there are sequentially installed bypass valve 4, an indicator device consisting of an internal magnet 5 in the form of a spring-loaded spool , the outer maple and containers 7 and 8, in each of which -. toryh arranged magnetically contact the terminals 9 and 10 _f outer magnet 6 and containers 7 and 8 are separated from the inner magnet 5 _§ sealed septum.

On the guides 11, along which the containers 7 and 8 move, latches 12 are installed.

For visual control of the outer magnet 6 there is a transparent window 13. In the non-magnetic head 1 there are nozzles for the input 14 and output 15 of the oil. The bore under the inner magnet 5 is connected by a channel 16 to the pipe 15 of the oil outlet 15.

Before starting work, containers 7 and 8 are installed in the guides 11: container 7 - in the position of the permissible value of the degree of clogging of the filter element 20, 3, container 8 - in the position that determines the value of the amount of oil flowing through the bypass channel, bypassing the filter element 3, which is extremely allowed. Then, both containers 25 are secured with clips 12.

The filter works as follows.

Through the inlet pipe 14, the oil enters the filter and, passing through the filter element 3, is discharged through the 30 outlet pipe 15. During the operation of the filter, the filter element 3 becomes clogged, which leads to a gradual increase in the differential pressure of the oil between the inlet and outlet of the filter. After 35, when the pressure reaches the threshold value of the valve 4, the latter opens and the oil begins to act on the inner magnet 5. The inner magnet 5 begins to mix, ^{40 the} magnetically controlled contacts 9 of the container 7 are closed and a signal is received in the logical part of the control system indicating a specified degree of clogging - ⁴⁵ th ^ element 3 "

If after this signal the filter element 3 is not replaced, the internal magnet 5, while continuing to move under the influence of increasing oil pressure ⁵⁰ , opens the channel 16, while the contaminated oil, bypassing the filter element 3, enters through the steam and output tubes 15 into the system . In this case, the internal magnet 5 interacts ^S5 with the magnetically controlled contact 9 of the container 8 and a signal is received in the logical part of the control system], indicating the amount of oil that enters the system through the bypass channel 16, bypassing the filter element

3. The outer magnet. 6 monitors the movement of the inner magnet 5 and allows you to visually control the filter element 3.

The introduction into the indicator device of containers with magnetically controlled contacts and the adjustable position of the containers in the guides will allow the use of a filter for oil cleaning in various technical systems of discrete logic, for example, relay automation, telemechanics, which will significantly expand its scope.

The indicator device allows you to replace the filter element at a time determined in advance by the operator and corresponding to the desired degree of contamination of the filter element based on objective readings of the control system devices.

Thus, timely replacement of the filter element increases the efficiency of the filter.

Claims (3)

The invention relates to the field of mechanical engineering and is intended for use in hydraulic drive systems and hydraulic automatics for cleaning oil, as well as in various discrete logic systems. A filter for cleaning oil is known, comprising a housing with inlet and outlet nozzles and a filter element and bypass valve. and indicator device 1}. In this filter, the indicator device is designed in such a way that local visual inspection of both the degree of contamination of the filter element and the degree of relative purity of the oil entering the system is carried out. This limits the possible scope of the filters, and also introduces an element of subjectivity in the evaluation of its operation, increases the likelihood of making erroneous decisions when evaluating the quality of the filter. The purpose of the invention is to increase the reliability and efficiency of the filter. For this purpose, the indicator device is equipped with containers with magnetic contacts and terminal blocks. Each container is installed in the direction of W.S.IH, parallel to the movement of magnets and provided with latches. One container controls the moment of reaching a given degree of clogging of the filter element, and the other - the moment when the specified amount of oil entering the system through the bypass channel is reached, min the filter element. FIG. 1 shows a filter for cleaning oil; a slit; in fig. 2 - the same, top view. The filter for cleaning the oil contains a body consisting of a non-magnetic head 1 and a chain 2. The filter element 3 is located in the glass 2, and the non-magnetic head 1 has a by-pass valve 4 installed in series, an indicator device consisting of an internal magnet 5 in the form of a spring-loaded spool, an external 6 and containers 7 and 8, in each of which The magnetically controlled contact 9 and the terminal block 10, the Outer magnet 6 and the containers 7 and 8 are separated from the inner magnet 5 by a sealed bulkhead. On the guides 11, along which the containers 7 and 8 are moving, clamps 12 are installed. For visual control of the outer magnet 6 there is a transparent window 13. In the non-magnetic head 1 there are nozzles of the inlet 14 and oil outlet 15. The bore under the internal magnet S is connected by a channel 16 with an oil outlet nozzle 15. Before starting operation, containers 7 and 8 are installed in guides 11: container 7 - to the position of permissible clogging level of filter element 3, container 8 to the position that determines the value of oil quantity, flowing through the bypass channel, mine filter element 3, which is extremely allowed. Both containers are secured with latches 12. The filter operates as follows. Through the inlet 14, the oil enters the filter and, after passing through the filter element 3, is discharged through the outlet 15, the outlet. During the operation of the filter, the filter element 3 becomes clogged, which leads to a gradual increase in the oil pressure drop between the inlet and outlet of the filter. When the pressure reaches the threshold of the valve 4, the valve opens and the oil begins to act on the internal magnet 5, the internal magnet 5 begins to mix, and the magnetic contacts 9 of the container 7 are lost and the control system receives a signal that detects contamination. filter layer 3 After that signal, the filter element 3 will not be replaced, the internal magnet 5 will continue to move with the increasing pressure of the oil, open a channel 16, the contaminated with oil without passing the filter element 3, passes through the PA-, the output tubes 15 into the system. The internal magnet 5 in this case interacts with the magnetically controlled contact 9 of the container 8 and a signal is sent to the logical part of the control system, indicating a given amount of oil entering the system through the bypass 1shnal 16, the filter element 3, External magnet. 6 monitors the movement of the internal magnet 5 and allows visual inspection of the filter element 3. Introduction of containers with magnetically controlled and contacts and adjustable position of containers in guides to the indicator device will allow the use of a filter for cleaning oil in various technical systems of discrete logic, such as relay automatics, telemechanics, which will significantly widen its application area. The indicator device allows the replacement of the filter element at a time determined in advance by the operator and corresponding to the required degree of contamination of the filter element based on the objective readings of the instruments of the control system. Thus, timely replacement of the filter element increases the efficiency of the filter. Claims An oil purification filter comprising a housing with inlet and outlet connections and with a filter element disposed therein, bypass valves and indicator device, in the form of two permanent magnets, one of which is installed outside and the other is sealed from it a partition, spring-loaded and located between the relief valve and the outlet nozzle, characterized in that, in order to increase the reliability and economy of the filter, the indicator device is provided with containers with magnetic control contacts and terminal blocks mounted in guides of parallel magnets and snabzhenizh retainers. The sources of information taken into account in the examination 1. Copyright certificate № 36О954, class, 01D 35/14, 1973,