DE2516728C3 - Filter device for pressurized water hydraulics - Google Patents

Description

The invention relates to a filter device for pressurized water hydraulics.

Filters in hydraulic systems must be cleaned or replaced as they become increasingly dirty. Through the necessary assembly work for the Auszw. Installation, this maintenance work is time-consuming. To the To simplify matters, filters have already been developed that are mechanically scraped-in when they are installed can be cleaned by hand. Although this already saves working time, it is necessary for this Work, however, still necessarily has a worker available. Especially in the Pressurized water hydraulics in mining, with particularly large ones due to the ongoing renovation of the lines Dirt accumulation, the time required to clean the filter is important. True, filters are self-cleaning in the form of backwash filters, as can be seen, for example, from DE-OS 22 37 912, are known, but are Such designs for use in pressurized water hydraulics due to the considerable erosion effect of the Pressurized water not possible.

The object of the invention is therefore to provide a filter device to design for pressurized water hydraulic systems so that a self-cleaning even when operating with very high water pressure is possible and the time required for cleaning, mainly due to the previous cumbersome removal and installation of the filter is significantly reduced.

The solution according to the invention is characterized in that in the supply line to the hydraulic system before and after the filter a switching valve is arranged, the downstream valve with a Pressure medium accumulator is connected, and to switch the valves both a cleaning process introductory switch as well as one that can be acted upon by the pressure medium reservoir and terminates the cleaning process Switch is inserted.

The switch that initiates the cleaning process can be used as a pressure in front of and behind the filter be formed pressurizable differential pressure switch. It is also advantageous to use the pressure medium accumulator to be connected to the hydraulic fluid supply line upstream of the filter via an additional switching valve. In order to be able to constantly supply the hydraulic system even during the cleaning process, this is one Filter and the switching valves bypass line provided. There is a possibility of the valves and switches to be designed to be electrically actuatable or to be pressure or pressure-sensitive for the valves and switches. Use differential pressure controlled elements, which is particularly important in mining because of its increased Safety regulations are advantageous The arrangement of all individual parts of the is particularly favorable Overall device on a common base plate, so that they can be easily exchanged and transportable implement is formed

In addition to the considerable reduction in the time required for cleaning, it is achieved that one for this purpose Available labor is no longer necessary

In the drawing, an embodiment of the invention is shown and explained schematically.

The electrically switchable valves la and Iu in the example shown are downstream or downstream of the pressure filter 2. superior. The switching valves are both by the electrical differential pressure switch 3 and a Switching contact 4 switchable. The switching contact 4 is also connected to a pressure medium accumulator 5, which can be filled with pressure medium from the supply line 11 via a connecting valve 7 The supply line to the pressure medium accumulator 5 is denoted by 12 and the discharge line by 13. Via a bypass line 14 with a check valve 6, the pressure medium source 10 can be short-circuited with the hydraulic system. All individual parts are arranged on a common base plate 15.

From the pressure source IO, the pressure medium flow first leads via the switching valve 16 into the pressure filter 2 and from there via the second switching valve la to the hydraulic system (not shown). When the hydraulic system reaches the maximum pressure, given by the pressure relief valve on the pump - for example when the hydraulic cylinder moves to its end position - the slightly lower connecting valve 7 opens shortly beforehand, so that the Druckmitteleo memory 5 is filled via line 12. The filled memory 5 then opens the switching contact 4. If the filter contamination becomes too great, the differential pressure switch 3 is switched by the associated pressure difference on the filter, whereby the two valves \ b and la are switched over. From this point on, the contents of the pressure medium reservoir can blow the filter free in the return flow via both valves la and Xb. The memory contents with the filter dirt

enters a container 8. During the flushing process, the hydraulic system is carried along via the bypass line 14 the check valve 6 arranged therein is supplied. This valve has a high spring tension, so that the Bypass is only opened when the filter is rinsed, in these A second filter can be installed bypass if required. Through the flushing process, the pressure difference at the differential pressure switch 3 is reversed, so that this opens the memory 5 after the flushing process empty, the switching contact 4 is switched by the spring and controls both valves la and \ b back to the starting position.

Instead of the electrically controlled valves and the associated spring-loaded switches, pressure- or differential pressure-switched elements are used, which is particularly important in mining, because here There are special regulations for electrical components for safety reasons.

1 sheet of drawings

Claims (7)

Patent claims: 1. Filter device for pressurized water hydraulics, characterized in that a switching valve (Xa, Xb) is arranged in the supply line (11) to the hydraulic system before and after the filter (2), the downstream valve (ia) having a pressure medium reservoir (5 ) is connected, and to switch both valves (la, Xb) both a switch (3) initiating the cleaning process and a switch (4) which can be acted upon by the pressure medium reservoir (5) and which terminates the cleaning process is used 2. Filter device according to claim 1, characterized in that as the cleaning process introductory switch (3) a differential pressure switch that can be acted upon by the pressure upstream and downstream of the filter (2) djerit- 3. Filter device according to claims 1 and / or 2, characterized in that the Pressure medium accumulator (5) via an additional switching valve (7) with the supply line (11) in front of the filter (2) connected is. 4. Filter device according to one or more of claims 1 to 3, characterized in that a bypass line (14) bypassing the filter (2) and the switching valves (la, \ b) is provided. 5. Filter device according to one or more of the Claims 1 to 4, characterized in that the valves (la, 16,7) can be actuated electrically. 6. Filter device according to one or more of claims 1 to 5, characterized in that the valves (la, \ b, 7) and switches (3, 4) are designed as pressure or differential pressure controlled elements. 7. Filter device according to one or more of claims 1 to 6, characterized in that all Individual parts are arranged on a common base plate (15).