KR20080081528A - Indicator of hydraulic filter's contamination - Google Patents

Abstract

An apparatus for removing contaminants of working fluid of a construction machine is provided to filter the contaminants by a second filter element even through the contaminants are bypassed without being filtered by a first filter element. An apparatus(1) for removing contaminants of working fluid of a construction machine comprises as the follows. A hydraulic tank is connected to both ends of a working fluid circulation line(10) to circulate working fluid along the working fluid circulation line. A first filter element(20) is installed on the working fluid circulation line to filter contaminants included in the working fluid. Both ends of a first bypass line(30) are connected to the working fluid circulation line located at an inlet and an outlet of the first filter element. A filter protection bypass valve(40) is installed on the first bypass line and opened when a pressure difference between the inlet and the outlet of the first filter element reaches a predetermined value. Both ends of a pressure switch(50) are connected to the working fluid circulation line located at the inlet and the outlet of the first filter element to sense the pressure difference between the inlet and the outlet of the first filter element. An indicator(60) is connected to the pressure switch and informs a user of a replacement time of the first filter element before the pressure difference between the inlet and the outlet of the first filter element reaches the predetermined value.

Description

Indicator of hydraulic filter's contamination

1 is a circuit diagram of a contaminant removal device of a conventional construction machinery hydraulic fluid

2 is a circuit diagram of an apparatus for removing contaminants in hydraulic oil for construction machinery according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

(1): pollutant removal device (10): working oil circulation line

20: first filter element 30: first bypass line

40: bypass valve for filter protection 50: pressure switch

60: indicator 70: solenoid valve

80: second bypass line 90: second filter element

The present invention relates to an apparatus for removing contaminants in hydraulic oil for construction machinery, and more particularly, by informing the user of a replacement cycle of the first filter element before the pressure at the inlet side and the outlet side of the first filter element reaches a set pressure. Allows the user to exchange the first filter element before the filtration efficiency of the first filter element decreases, and the user continues to use the first filter element without replacing the filter element at the time of replacement, thereby reducing the efficiency of the first filter element Even if the gas is bypassed without being filtered by the first filter element, the contaminants in the bypassed hydraulic oil can be circulated after being filtered by the second filter element, thereby preventing the occurrence of breakdown of the hydraulic equipment by the contaminants in the hydraulic oil. To remove pollutants from hydraulic oil for construction machinery .

In general, construction machinery is used for various purposes such as excavation or moving heavy objects at construction sites and industrial sites, so it is used for a long time under adverse conditions such as more dust or foreign matter than general environment. Therefore, the hydraulic oil for operating the various hydraulic equipment of the construction machine contains a lot of contaminants, the contaminants contained in the hydraulic oil not only causes the failure of the various hydraulic equipment of the construction machine, but also has a problem of significantly shortening the life. .

1 is a circuit diagram of a conventional contaminant removal device of construction machinery hydraulic fluid, as shown in FIG. 1, a conventional contaminant removal device 1 of conventional construction machinery hydraulic fluid, both sides with a hydraulic tank (not shown) The filter line 20 is installed on the hydraulic oil circulation line 10 having an end portion connected thereto, and the bypass line 30 having both ends connected to the hydraulic oil circulation line 10 positioned at the inlet side and the outlet side of the filter element 20. It is configured to include a filter protection bypass valve 40 installed on).

Again, referring to Figure 1 will be described the operation of the conventional contaminant removal device of the construction machinery hydraulic fluid as follows.

First, the circulating pump (not shown) connected to the hydraulic tank (not shown) is operated so that the hydraulic oil in the hydraulic tank is circulated through the hydraulic oil circulation line 10, and the oil is circulated through the hydraulic oil circulation line 10 as described above. Contaminants contained in the working oil is filtered by the filter element 20 installed on the working oil circulation line (10). Here, in the working oil circulated through the working oil circulation line 10, the amount of contaminants increases not only as time passes due to adverse conditions of the working environment, but also by the filter element 20 to be filtered by the filter element 20. The amount of contaminants that accumulate in c) increases, so that after a certain use time, the filter element 20 loses its filtration capacity. Therefore, the user should replace the filter element 20 according to the replacement cycle provided by the manufacturer, but the user overlooks the replacement cycle of the filter element 20 and does not replace the filter element 20, and various hydraulic equipment of the construction machine. In the case of using it continuously, the pressure difference between the inlet side and the outlet side of the filter element 20 reaches the set pressure, so that the bypass valve 40 for protecting the filter is opened, so that the hydraulic oil is not contaminated with hydraulic oil. Will flow into.

That is, the conventional contaminant removing device 1 of the hydraulic oil for construction machinery as described above does not have an indication device for informing the user of the replacement cycle of the filter element 20, and is simply based on the replacement cycle provided by the manufacturer. In addition to the inconvenience that the user must check the replacement cycle of the filter element 20 by replacing the filter element, and if the user continues to use the filter element 20 while overlooking the replacement cycle of the filter element 20, the filter element As the efficiency of (20) decreases, the oil is often bypassed, so unfiltered hydraulic oil flows into the hydraulic tank and circulates frequently. There is a problem that the life of the hydraulic equipment is greatly shortened because it may cause the failure of the equipment.

Therefore, an object of the present invention is to inform the user of the replacement cycle of the first filter element before the pressure on the inlet and outlet sides of the first filter element reaches the set pressure, thereby reducing the filtration efficiency of the first filter element. It is to provide a contaminant removal device of the construction machinery hydraulic fluid to be able to replace the first filter element to prevent the occurrence of failure of various hydraulic equipment by the unfiltered hydraulic fluid.

It is another object of the present invention that the user continues to use the first filter element without replacing it at the time of replacement, so that the efficiency of the first filter element is so low that even if the hydraulic oil is bypassed without being filtered by the first filter element, contamination in the bypassed hydraulic oil It is to provide a contaminant removal device of the construction machinery hydraulic fluid to enable the material to be circulated after being filtered by the second filter element to prevent the failure of the hydraulic equipment due to the contaminants in the hydraulic oil.

In order to achieve the above object, the present invention comprises a first filter element which is installed on the hydraulic oil circulation line through which the hydraulic tank and both ends are circulated, the hydraulic oil circulated in the hydraulic tank to filter the contaminants contained in the hydraulic oil; When the pressure difference between the inlet side and the outlet side of the first filter element is reached to the set pressure is installed on the first bypass line connected to both ends of the hydraulic oil circulation line located on the inlet side and the outlet side of the first filter element A bypass valve for protecting the filter open to the filter; A pressure switch having both ends connected to hydraulic oil circulation lines positioned at an inlet side and an outlet side of the first filter element to sense a pressure difference between an inlet side and an outlet side of the first filter element; And exchange of the first filter element by connecting the pressure switch so that the user recognizes the situation of the first filter element before the pressure difference between the inlet side and the outlet side of the first filter element sensed by the pressure switch reaches a set pressure. It provides an apparatus for removing contaminants of the hydraulic oil for construction machinery comprising a; indicator indicating the time.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. For the convenience of the description below, the same reference numerals are given to parts similar to those of the contaminant removing device of the conventional construction machinery hydraulic fluid.

FIG. 2 is a circuit diagram of a contaminant removal device for construction machine hydraulic fluid according to an embodiment of the present invention, and as shown in FIG. 2, a contaminant removal device for construction machine hydraulic fluid according to an embodiment of the present invention (1). ), The hydraulic tank (not shown), the hydraulic oil circulation line 10, the first filter element 20, the first bypass line 30, the filter protection bypass valve 40, the pressure switch 50, And an indicator 60, a solenoid valve 70, a second bypass line 80, and a second filter element 90.

The hydraulic tank is connected to both ends of the hydraulic oil circulation line 10 so that the hydraulic oil in the hydraulic tank is circulated along the hydraulic oil circulation line 10.

The first filter element 20 is installed on the hydraulic oil circulation line 10 to filter contaminants contained in the hydraulic oil circulated along the hydraulic oil circulation line 10.

Both ends of the first bypass line 30 are connected to a hydraulic oil circulation line 10 positioned at an inlet side and an outlet side of the first filter element 20.

The filter protection bypass valve 40 is installed on the first bypass line 30 to open when the pressure difference between the inlet side and the outlet side of the first filter element 20 reaches a set pressure.

Both ends of the pressure switch 50 are connected to a hydraulic oil circulation line 10 located at an inlet side and an outlet side of the first filter element 20, and thus an inlet side and an outlet side of the first filter element 20. It is possible to detect the pressure difference.

The indicator 60 is connected to the pressure switch 50 so that the user is first connected before the pressure difference between the inlet side and the outlet side of the first filter element 20 sensed by the pressure switch 50 reaches a set pressure. The situation of the filter element 20 can be recognized so as to inform the timing of the replacement of the first filter element 20.

The solenoid valve 70 is installed on the hydraulic oil circulation line 10 connecting the outlet side of the first filter element 20 and the hydraulic tank.

The second bypass line 80 connects the solenoid valve 70 and the hydraulic tank, and a second filter element 90 is installed on the second bypass line 80.

Again, referring to Figure 2 looks at the operation of the contaminant removal device of the construction machine operating oil according to an embodiment of the present invention.

When the circulating pump (not shown) connected to the hydraulic tank is operated as shown in FIG. 2, the hydraulic oil in the hydraulic tank (not shown) is circulated through the hydraulic oil circulation line 10. By utilizing in an environment in which more foreign matters such as dust are generated than a general environment such as a construction site or an industrial site, a large amount of contaminants are contained in the working oil circulated through the working oil circulation line 10 as described above.

Contaminants contained in the hydraulic oil as described above is filtered by the first filter element 20 installed on the hydraulic oil circulation line 10 when the hydraulic oil is circulated through the hydraulic oil circulation line 10, the solenoid valve 70 After being introduced into the hydraulic tank through the hydraulic oil circulation line 10 for connecting the solenoid valve 70 and the hydraulic tank is circulated again.

As described above, the contaminants contained in the hydraulic oil are filtered by the first filter element 20, but as time goes by, the contaminants in the hydraulic oil filtered by the first filter element 20 increase as well as the first filter. As the amount of filtered contaminants accumulated in element 20 increases, the first filter element 20 gradually loses its filtration capacity. That is, over time, the amount of contaminants mixed in the working oil increases, and the amount of filtered contaminants accumulated in the first filter element 20 increases, so that the pressure at the inlet side of the first filter element 20 increases. And the pressure on the outlet side is reduced.

As described above, the pressure at the inlet side of the first filter element 20 that increases with time and the pressure at the outlet side of the first filter element 20 that decreases with time are sensed in real time by the pressure switch 50. The pressure signal sensed by the pressure switch 50 is transmitted to the indicator 60 before the pressure difference between the inlet side and the outlet side of the first filter element 20 reaches a set pressure. 60 notifies the user of the replacement time of the first filter element 20 so that the user can replace the first filter element 20 in a timely manner to protect various hydraulic devices.

In addition, when the pressure difference between the outlet side and the inlet side of the first filter element 20 reaches a set pressure, and the pressure signal is recognized by the controller (not shown), the bypass valve for filter protection by the controller ( At the same time as the 40 is opened, the solenoid valve 70 is switched so that hydraulic fluid without contaminants not being filtered is bypassed without entering the first filter element 20, and the solenoid valve 70 is passed through the first bypass line 30. ) Is introduced into the hydraulic tank through the second bypass line 80 by the switched solenoid valve 70, before the contaminant is not filtered to the hydraulic oil is sent directly to the hydraulic tank The contaminants are introduced into the hydraulic tank after the contaminants contained therein are filtered by the second filter element 90 additionally installed on the second bypass line 80. To protect various hydraulic equipment.

That is, the contaminant removal device 1 of the construction machine hydraulic fluid according to the embodiment according to the present invention as described above is a pressure switch having an indicator 60 on the inlet side and the outlet side of the first filter element 20 ( By connecting both ends of the 50, the pressure difference between the inlet side and the outlet side of the first filter element 20 is detected in real time so that the pressure difference between the inlet side and the outlet side of the first filter element 20 reaches the set pressure. By notifying the user of the replacement cycle of the first filter element 20 through the indicator 60 beforehand, the user can not only protect the various hydraulic devices by replacing the first filter element 20 at a proper time, 1 On the hydraulic oil circulation line 10 located at the outlet side of the filter element, a solenoid valve 70 that is switched when the pressure difference between the inlet side and the outlet side of the first filter element 20 reaches the set pressure is additionally provided. The second filter element 90 on the second bypass line 80 and the second bypass line 80 that connect the solenoid valve 70 and the hydraulic tank separately. Even when the first filter element 20 is not replaced, the hydraulic fluid is bypassed without being filtered by the first filter element 20 and flows into the solenoid valve 70 through the first bypass line 30. As the valve 70 is switched, hydraulic oil having no contaminant is filtered is introduced into the second filter element 90 through the second bypass line 80 to filter the contaminant to be introduced into the hydraulic tank at an appropriate time. Even if the first filter element 20 cannot be replaced, the hydraulic oil is filtered by the second filter element 90 to supply the hydraulic oil that has filtered the contaminants to various hydraulic devices, thereby contaminating the contaminants in the hydraulic oil. It has the effect to prevent the damage of the various hydraulic devices.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the contaminant removal device of the hydraulic oil for construction machinery according to the present invention, by informing the user of the replacement cycle of the first filter element before the pressure on the inlet side and the outlet side of the first filter element reaches the set pressure. Allows the user to exchange the first filter element before the filtration efficiency of the first filter element decreases, and the user continues to use the first filter element without replacing it at the time of replacement, thereby reducing the efficiency of the first filter element. Even if the hydraulic oil is bypassed without being filtered by the first filter element, the contaminants in the bypassed hydraulic fluid can be circulated after being filtered by the second filter element, thus preventing the occurrence of a breakdown of the hydraulic equipment by the contaminants in the hydraulic oil. It is possible to greatly prolong the life of various hydraulic equipments. Have the effect will be very useful inventions.

Claims (2)

A first filter element connected to both ends of the hydraulic tank and installed on a working oil circulation line through which the working oil in the hydraulic tank circulates, and filters contaminants contained in the working oil; When the pressure difference between the inlet side and the outlet side of the first filter element is reached to the set pressure is installed on the first bypass line connected to both ends of the hydraulic oil circulation line located on the inlet side and the outlet side of the first filter element A bypass valve for protecting the filter open to the filter; A pressure switch having both ends connected to hydraulic oil circulation lines positioned at an inlet side and an outlet side of the first filter element to sense a pressure difference between an inlet side and an outlet side of the first filter element; And When the first filter element is replaced when the first filter element is connected to the pressure switch, the user is aware of the situation of the first filter element before the pressure difference between the inlet side and the outlet side of the first filter element detected by the pressure switch reaches a set pressure. Indicator for indicating; It is a contaminant removal device of the hydraulic oil for construction machinery comprising a. The method of claim 1, A solenoid valve is further installed on the hydraulic oil circulation line connecting the outlet side of the first filter element and the hydraulic tank, and a second filter element is further installed on the second bypass line connecting the solenoid valve and the hydraulic tank. Contaminant removal device for construction machinery hydraulic fluid.

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