DE2456428C2 - Carrier head for filters - Google Patents

Description

The invention relates to a carrier head for filters for screwing filter cartridges onto hydraulic tanks with an inlet space and an outlet space and with a fastening device for fastening

of the filter on the carrier head and with a connection leading from the inlet chamber to the outlet chamber, in which is arranged a valve which is closed when the filter cartridge is screwed on and when loosening the Filter cartridge opened from the fastening device will.

In an already proposed carrier head of the type specified in the preamble (DE-Paient 24 14 932) In the carrier head housing a vertically displaceable outlet nozzle is arranged, which is connected to the housing at The screwed-on filter cartridge forms a valve, which is the direct connection between the inlet opening and the tank blocked so that the liquid reaches the tank via the filter cartridge. When removing the filter cartridge from the The carrier head only opens the valve when the pretensioning of the sealing ring has been removed Position, the liquid may leak into the environment.

A carrier head for filters is also known (company brochure Purolator, "high-performance fine filter", Pi 1941 series, October 1971 edition), the one centrally protruding, vertically downwardly directed outlet port, on the one The filter cartridge is screwed on. The filter cartridge provides the fluid connection between the one in the carrier head trained inlet and outlet ports ago.

This carrier head has the disadvantage that when changing the filter cartridge liquid from the higher inlet port flows out into the environment and, for example, into the engine compartment of a jo Motor vehicle is running. This leads to undesirable soiling of the engine compartment.

The invention is based on the object of an outflow of liquid from the carrier head when Loosen the filter from its fastening device to js prevent and allow easy refilling of fluid in the hydraulic system.

The carrier head according to the invention is characterized by the fact that the valve as Slide valve is formed and the connection through openings in the carrier head housing in the axial direction Direction of fixed outlet, which protrudes centrally through the inlet chamber, to a centric Bore of the outlet port leads.

This ensures that the carrier head is particularly short in its overall axial length. Through the Mechanical actuation of the valve ensures that when the filter is unscrewed from the carrier head Valve opens reliably. Even if the filter and carrier head are installed in an inclined position, the Function of the valve not impaired. The diameter of the outlet connection can be due to the arranged within the support head valve device are made particularly small.

The valve can both automatically through the process of attaching the filter to the carrier head as can also be opened by a separate manual actuation direction.

In a preferred embodiment, the valve can be a rotary slide valve, the rotary slide with the The filter is operatively connected in such a way that when the filter is attached to the carrier head, the valve passage closed is.

In an advantageous embodiment, the valve can be a longitudinal slide valve whose opening direction 6 ·> spring-loaded closure member is in operative connection with the filter in such a way that when on the carrier head attached filter the valve passage is closed.

Advantageously: the valve is arranged in a connection from the inlet space, the cup-shaped and is designed to be open on the filter side, by means of an outlet connecting piece which centers the cup-shaped inlet space diirchitzt to the central bore of the outlet nozzle This cup-shaped training leads to the Inlet port allows easy refilling of fluid into the hydraulic system through its large opening.

A particularly favorable and space-saving embodiment of the subject invention is that the Outlet port is designed as a valve

One possibility, according to the invention, of designing the carrier head is as a rotary slide valve housing trained outlet pipe in that in the longitudinal bore one with a centrally continuous Rotary slide provided with a longitudinal bore is rotatably arranged, which end with its filter-side end protrudes from the outlet and at this end has a thread onto which the filter can be screwed is, and that the outlet nozzle and rotary valve have radial bores which are in a certain angular position between the outlet connection and the rotary valve in overlap and in a different angular position are not in any overlap between the outlet connection and the rotary valve. It is advantageous if the Rotary valve can be rotated through a certain angle limited by stops, in one of which End position the radial bores of the outlet connection and rotary valve are in overlap and in the In the other end position, the radial bores of the outlet connection and rotary valve are not in any overlap. As a result, the rotary slide valve is in the closed position when the filter is screwed on and in the unscrewing process of the filter, the rotary valve is rotated in the open position, the friction between the rotary valve thread and the filter thread must be larger than the friction on the sealing surfaces between the rotary valve and outlet port. The limitation of the angle of rotation of the rotary valve can be one on the cylindrical Be outer surface of the rotary valve radially circumferential groove into which protrudes a stop cam, which with the Carrier head housing is connected, the circumferential length of the groove being the circumferential length of the cylindrical Jacket surface corresponding to the specific angle of rotation plus the length of the stop cam in the circumferential direction is. It is advantageous if the thread on the filter-side end of the rotary valve has a right-hand thread is and that in the end position of the rotary valve after clockwise rotation, seen in the direction of the filter-side end of the rotary valve, the radial bore of the rotary valve with the radial bore of the outlet connection is in overlap.

A second possibility of designing the carrier head with one designed as a longitudinal slide valve The outlet stub consists in that the closure member is an axially displaceable tubular slide which forms the outlet stub encloses that in the outlet connection a radial bore leading from the inlet space to the outlet space is designed that the pipe slide by a compression spring with its in the cup-shaped inlet space protruding end can be lifted off a sealing surface at the bottom of the cup-shaped inlet space, and that the length of the pipe slide approximately equal to the Abi.and between the sealing surface at the bottom of the Cup-shaped inlet space and the bottom plate of one on the threaded filter-side end of the outlet port is screw-on filter. Advantage-

admittedly, the pipe valve is a stepped valve which is designed so that the acting on it resulting force due to the pressure prevailing in the inlet space to the bottom of the inlet space is directed that the pipe slide between the bottom plate of the screwed-on filter and the Sealing surface at the bottom of the inlet chamber has a small axial play, and that a radial channel is small Diameter in the area of the sealing surface penetrates the outlet port. It is advantageous if the The force of the compression spring is equal to or slightly greater than the weight of the pipe slide. Farther can advantageously limit the axial displaceability of the tubular slide at the outlet connection Be formed stop.

In both embodiments there is the advantage that between the inlet space and the outlet space a flow of relatively large cross-section when the filter is loosened is opened by its fastening device, so that larger quantities from the pipe system in the Inlet space of flowing liquid can be derived. For catching larger amounts of dirt in the liquid flowing from the inlet space directly into the outlet space is advantageous A filter screen is arranged in the connection from the inlet chamber to the outlet chamber.

Several embodiments of the invention are shown in the drawing and are described below described in more detail. It shows

F i g. 1 shows a first exemplary embodiment of a carrier head for filters in section;

FIG. 2 shows a section along the line IH-III from FIG. 1, and

F i g. 3 a second exemplary embodiment! of a carrier head for filters in section.

The in the F i g. The carrier heads shown in FIGS. 1 and 3 have a carrier head housing 1 with an inlet chamber 2 in the form of a cup. An inlet connection 3 opens out on the side wall of the inlet space 2. On the side of the carrier head facing the filter 4 fastened vertically on the carrier head, the inlet space 2 is open. Passages 5 provided with non-return valves 7 in the base plate 6 of the filter 4 are formed opposite the opening 9 of the inlet space 2 so that a flow from the inlet space 2 through the passages 5 into an outer filter space 8 of the filter 4 is possible. In the radially outer area around the opening 9 of the inlet space 2, the base plate 6 rests via an annular seal 10 on the side of the carrier head housing 1 facing the filter 4, whereby the transition from the inlet space 2 to the filter 4 is sealed to the outside . 11 "protrudes centrally through the cup-shaped inlet chamber 2, the central bore 12, 40 of the outlet nozzle 11, 11" connecting an inner filter chamber 13 of the filter 4 with an outlet chamber 14 formed below the cup-shaped inlet chamber 2 in the carrier head housing 1. The carrier heads are arranged on liquid containers 15 The outlet spaces 14 are connected to the interior spaces of the liquid containers 15 via outlet connections 16. The carrier heads lie on the liquid containers via ring seals 17

15 on. Between the ring seal 17 and the outlet connection

16 is an annular channel 18 is formed, which has a Connection channel 19 to the interior of the liquid container and via a further connection channel 20 with an arranged in the carrier head housing 1 air filter 21 is in connection, so that over the with the Outside air connected air filter 21 of the liquid container interior is ventilated.

In the longitudinal bore 37 of the outlet connection 11 'of the in the F i g. 1 and 2 is a carrier head with a centrally continuous longitudinal bore 40 provided rotary valve 38 is rotatably arranged. On the filter-side end 39 provided with a thread of the rotary slide valve 38 is the filter 4 with a threaded hole formed centrally in its base plate 6 25 screwed on. The centrally formed longitudinal bore 40 leads from the inner filter space 13 of the Filters 4 to the outlet space 14 in the carrier head. Outlet connection 11 'and rotary valve 38 have radial bores 41 and 42, which, as shown, in a certain angular position of the rotary valve 38 in the outlet connection • Γ are in overlap and a connection from Establish cup-shaped inlet space 2 for centrally formed longitudinal bore 40 in rotary valve 38. In Another angular position when rotating the rotary valve 38 by 90 ° is an overlap of the Radial bores 41 and 42, so that the connection from the inlet chamber 2 to the central longitudinal bore 40 in the Rotary valve 38 is locked. This angle of rotation of 90 ° is limited by stops, so that in the one End position the connection from the inlet chamber 2 to the central longitudinal bore 40 fully open and in the other end position this connection is completely blocked. The rotation limit stops are as in Fig. 2, formed by stop cams 43, which are attached to the filter-side end face 44 of the Outlet space 14 are formed and protrude into radially circumferential grooves 45, which in a collar 48 are formed on the end 46 of the rotary valve 38 which is applied to the filter 4. Through this covenant 48, which rests on the filter-side end face 44 of the outlet space 14 and by means of one on the rotary valve 38 attached and on the side of the outlet connection 11 'facing the filter 4 is ring 47 an axial movement of the rotary valve 38 is prevented.

The circumferential length of the radially circumferential grooves 45 is equal to the circumferential length corresponding to the angle of rotation of 90 ° on the cylindrical surface of the collar 48 plus the length of the stop cam 43 in Circumferential direction.

The friction in the right-hand thread connection between the filter-side end 24 of the rotary valve 38 and the threaded hole 25 in the bottom plate 6 of the filter 4 is through additional Means increased so that it is considerably larger than that

so friction between the rotary valve 38 and the outlet connection 11 ', so that when unscrewing, at by rotating the filter 4 to the left, first the rotary slide 38 until the stop cams 43 come into contact rotated at the groove ends and thereby the connection from the inlet chamber 2 to the central longitudinal bore 40 is opened in the rotary valve 38 and then only the rotation of the filter 4 on the The thread of the rotary slide 38 takes place. When the filter 4 is screwed onto the rotary slide 38, the high friction in the thread first by turning the rotary valve 38 to the right, the connection from Inlet chamber 2 blocked off to the central longitudinal bore 40 in the rotary valve 38 and then the filter 4 finally screwed on

The outlet connection 11 ″ of the one shown in FIG The carrier head has radial bores 49 which extend from the cup-shaped inlet space 2 to the outlet space 14 to lead. A pipe slide designed as a step valve

About 50 is axially displaceable on the outlet connection 11 "and is by a located at the bottom of the Compression spring 51 supporting cup-shaped inlet space 2 is pressed against base plate 6 of filter 4. As In the previous figures, the filter 4 is designed with a centrally formed in its base plate 6 Threaded bore 25 on the threaded end of the outlet connection 11 "on the filter side unscrewed. The length of the pipe slide 50 is a little smaller than the distance between the Contact surface of the slide valve 50 on the base plate 6 of the screwed-on filter 4 and one on the bottom of the Cup-shaped inlet space 2 formed sealing surfaces 52, so that the pipe slide 50 between the The bottom plate 6 of the filter 4 and the sealing surface 52 has a slight axial play. In the area of the sealing surface 52 a radial channel 55 is formed in the outlet connection 11 ", which from the area of the sealing surface 52 to a the radial bores 49 leads. Due to the small axial play that the pipe slide 50 at on the Has the carrier head screwed-on filter 4, is in the pressureless state in the inlet chamber 2 of Pipe slide 50 pressed by the compression spring 51 against the bottom plate 6 of the filter 4, so that over the resulting gap between the pipe slide 50 and sealing surface 52 a connection from the inlet chamber 2 via the radial channel 55 and the radial bore 49 to the outlet space 14 consists. This allows the pressureless in Inlet chamber 2 standing liquid can be discharged into the liquid container 15. There is pressure in the Inlet chamber 2, the pipe slide 50 is shifted downwards and sealingly against the sealing surface 52 pressed. This shift takes place in that the lower step 54 of the pipe slide 50 is larger than that upper step 56, whereby the resulting force acting on the pipe slide 50 to the bottom of the inlet space 2 is directed. As a result, the connection from the inlet chamber 2 via the radial channel 55 to the

ί Outlet space 14 interrupted.

When the filter 4 is loosened, the compression spring 51 lifts the pipe slide 50 from the sealing surface 52 and opens through the radial bores 49 a connection with a large cross-section from the inlet chamber 2 to the outlet

iü room 14.

By a stop 53 which is formed by a ring arranged on the outlet connection 11 ″ and on which the pipe slide 50 with its step 56 with axial displacement in the direction of the filter 4 for

) 5 contact comes, the axial displaceability of the Pipe slide limited. This prevents the slide valve 50 from sliding down from the outlet socket 11 " Not possible with unscrewed filter 4. With filter 4 screwed onto the carrier head and depressurized State in the inlet chamber 2 can therefore the liquid located there via the radial channel 55 in the Outlet space 14; when the filter 4 is unscrewed, it can flow out of the pipe system into inlet space 2 trailing liquid into the opening 9 of the inlet space 2 refilled liquid flow through the radial bores 49 into the outlet space 14, while when the filter 4 is screwed on, the liquid entering the inlet chamber 2 under pressure inevitably denotes the Filter 4 must flow through. Coarse dirt that is in the liquid that is above the radial channel 55 and the radial bores 49 passes directly from the inlet chamber 2 to the outlet chamber 14 intercepted by a filter screen 57 which is arranged behind the radial bores 49 in the direction of flow.

For this purpose 2 sheets of drawings

Claims (14)

Patent claims: 1. Carrier head for filters for screwing filter cartridges onto hydraulic tanks with a Inlet space and an outlet space and with a fastening device for fastening the filter on the carrier head and with a connection leading from the inlet space to the outlet space, in which a Valve is arranged, which is closed when the filter cartridge is screwed on and when loosening the The filter cartridge is opened by the fastening device, characterized in that the valve (11 ', 38 or 11 ", 50,52) as a slide valve is formed and the connection through openings (41, 49) in the carrier head housing (1) in the axial Direction of fixed outlet connection (11 ', U "), which centrally protrudes through the inlet chamber (2), to a central bore (12, 40) of the outlet port (11, 11 ") leads 2. Carrier head according to claim 1, characterized in that the valve (H ', 38) is a rotary slide valve is, the rotary valve with the filter (4) is in operative connection that when on the Carrier head attached filter (4) the valve passage is closed. 3. Carrier head according to claim 1, characterized in that the valve (11 ", 50, 52) is a longitudinal slide valve is, whose in the opening direction spring-loaded closure member (50) with the filter (4) in The operative connection is that the valve passage is closed when the filter (4) is attached to the carrier head is. 4. Carrier head according to one of the preceding claims, characterized in that the valve (H ', 38 or 11 ", 50, 52) is arranged in a connection from the inlet space (2), the Cup-shaped and designed to be open on the fiiterside, through an outlet connection (1Γ, 11 ") which is centrically the cup-shaped inlet chamber (2) protrudes to the central bore (12) of the outlet connector (11 ', 11 ") leads. 5. Carrier head according to claim 5, characterized in that the outlet nozzle (11 ', 11 ") as a valve is trained. 6. Carrier head according to claim 2, 4 and 5, characterized in that the rotary slide valve housing the outlet nozzle (1Γ) is, in its longitudinal bore (37) with a centrally continuous longitudinal bore (40) provided rotary slide valve (38) is rotatably arranged, which with its filter-side end (39) protrudes from the outlet connection (11 ') and at this end (39) has a thread on which the The filter (4) can be screwed on, and that the outlet connection (1 Γ) and rotary valve (38) have radial bores (41, 42) have, which in a certain angular position between the outlet nozzle (H ') and rotary valve (38) in overlap and in a different angular position between outlet connection (H ') and rotary valve (38) are in no overlap. 7. Carrier head according to claim 6, characterized in that the rotary valve (38) around a certain, limited by stops angle is rotatable, with the one end position Radial bores (41, 42) of outlet connection (H ') and rotary valve (38) are in overlap and are in the other end position, the radial bores (41, 42) of the outlet connection (H ') and rotary valve (38) in are not covered. 8. Carrier head according to claim 7, characterized in that the rotary valve (38) one on the cylindrical circumferential surface has a radially circumferential groove (45) into which a stop cam (43) j protrudes with the carrier head housing (1) is connected, and that the circumferential length of the groove (45) is the circumferential length on the cylindrical jacket surface corresponding to the specific angle of rotation plus the length of the stop cam (43) in the circumferential directionisL 9. Carrier head according to one of claims 6 to 8, characterized in that the thread on the filter-side end (39) of the rotary slide (38) is a right-hand thread, and that in the end position of the rotary slide (38) after clockwise rotation, viewed in the direction of the filter-side end (39) of the rotary valve (38), the radial bore (42) of the rotary valve (38 ) is in overlap with the radial bore (41) of the outlet connection (1 V) 2ü 10. Carrier head according to claim 3, 4 and 5, characterized characterized in that the closure member is an axially displaceable pipe slide (50) which the Outlet port (H ") encloses that in the outlet port (13") a radial, from the inlet chamber (2) to 2> outlet space (14) leading bore (49) formed is that the pipe slide (50) by a compression spring (51) with its in the cup-shaped Finlaßraum (2) protruding end of a sealing surface (52) at the bottom of the cup-shaped inlet space (2) su can be lifted off, and that the length of the pipe slide (50) is approximately equal to the distance between the sealing surface (52) at the bottom of the cup-shaped inlet space (2) and the bottom plate (6) of a threaded filter-side end of the 3) the outlet port (H ") is screw-on filter (4). 11. Carrier head according to claim 10, characterized characterized in that the pipe slide (50) is a stepped slide valve which is designed so that the on him acting resulting force due to the pressure in the inlet chamber (2) to the bottom of the Inlet chamber (2) is directed that the pipe slide (50) between the bottom plate (6) of the screwed Filiers (4) and the sealing surface (52) at the bottom of the inlet chamber (2) has a small axial play, and that a radial channel (55) of small diameter in the area of the sealing surface (52) the outlet port (H ") penetrates. 12. Carrier head according to one of claims 10 and 11, characterized in that the force of the compression spring (51) is the same or by a small amount is greater than the weight of the pipe slide (50). 13. Carrier head according to one of the preceding claims 10 to 12, characterized in that at the outlet connection (H ") a stop (53) which limits the axial displaceability of the tubular slide (50) is trained. 14. Carrier head according to one of the preceding claims, characterized in that in the Connection from the inlet space (2) to the outlet space (14) a filter screen (57) is arranged.