SK20296A3 - Pressure-control device - Google Patents

Abstract

Proposed is a pressure-control device in which, in particular in the region weakened by adjacent bores (1, 2), the mechanical stresses are minimized. To this end, at least one aperture (3) is located at a specified distance (Y) from the point of minimum thickness (A1) of the wall between the two adjacent bores (1, 2) in the surface of the housing (5) and close to the wall.

Description

Pressure control device

Technical field

The invention relates to a pressure control device, in particular a brake pressure control device, such as an anti-lock control device, a drive overrun control device according to the preamble of claim 1.

BACKGROUND OF THE INVENTION

DE-A-42 81 988 discloses a shut-off body having an electromagnetically actuated valve function, which is designed as a valve housing, i.e. a cartridge into which a channel system of a valve housing block which guides the pressure medium and which is equipped with a channel system. Under certain circumstances, the pressing process not only results in mechanical compression of the material volume that is in the region of the stepped bore into the groove shape on the valve seat, but also in undesirable deformation and over-stress in adjacent and weakened areas of the valve housing block, thereby adversely affecting compliance at these strength-sensitive areas.

GB-A-2021240 shows a solenoid valve which is inserted into a housing having a magnetic anchor leakage in the housing of a metal-guided lifter, leaking an annular space, which is sealed in the direction of the ambient air by a membrane fixed to the housing.

Your magnet. This leaking annular space is connected to another chamber and to the brake valve outlet valve. In the electromagnetic excitation of the solenoid valve, the ball valve, located in front of the magnet lift, is lifted from the valve seat on the side of the housing, whereby the pressurized medium can escape from the wheel brake cylinder as leakage current around the magnet lift into the leaking annular space.

EP-A-0492110 discloses a pressure control device having centering apertures disposed in the housing between the solenoid valve receiving apertures in which the centering pins of the mounting mechanism are inserted to allow for a precise alignment of the conductor film plate against the electromagnetic contact pins valves.

DE-A-4016754 discloses a control device for braking valves which are in a housing. The winding of the valve extends at high pressure with electromagnetic pairs positioned side by side of the coils of each electromagnetic by means of a pin into each recess of the valve receiving aperture, thereby providing a lock against rotation.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pressure control device which, in particular in those areas of the housing which are attenuated by adjacent openings, has as little mechanical stress as possible.

In the pressure control device of the type described at the outset, this object is achieved according to the invention by means of the features of claim 1.

Further advantageous embodiments of the invention are provided by the features set forth in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and advantageous embodiments of the device according to the invention result from the exemplary embodiments, which are described in more detail and explained in connection with the drawing.

In FIG. 1 is a schematic plan view of a housing section of a pressure control device.

In FIG. 3 shows a further plan view of a housing section of an alternative embodiment of a pressure control device. In FIG. 3 is a cross-sectional view of the housing taken along line X - X in FIG. Third

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 schematically shows the in-line location of a plurality of apertures 1, 8 in the housing 5 of the pressure control device for the anti-slip brake device. The apertures 1, 3 are provided with correspondingly large dimensions for accommodating electromagnetically actuated here but not illustrated in detail here, so that only a relatively small wall thickness A1 remains between adjacent apertures 1, 2 of one row X. The pressure regulating device housing 5 is block-shaped and made of steel or aluminum. The openings 1, 2 are preferably in the form of stepped openings, the diameter of which preferably decreases in the direction of the interior of the housing 5, wherein the closing bodies 4 are pressed therein, or in a particular embodiment electromagnetically operated hydraulic valves. Between the openings 1, 2 and outside the row X of the openings 1, 2 are recesses 3, which are formed as blind openings, which are located at a defined perpendicular distance Y to the smallest thickness A1 of the housing wall and which are located diametrically to the longitudinal axis Each recess 3 is thus positioned at a targeted location in the region that increases from the smallest wall thickness A1 of the cabinet to the inner edge of the cabinet 5. At the same time, it is necessary to create defined light dimensions to advantageously reposition the mechanical compressive stresses from the smallest wall thickness. the widths of the recesses 5, so that the relief reliefs 3 acting as the stress relief openings 3 have a diameter at least as large as the smallest wall thickness A1.

The invention is based on the discovery that by providing a recess 3 with a defined size, shape and distance from adjacent openings 1, 2, a locally targeted cross-sectional weakening is created in the housing 5, which allows a favorable distribution of the compressive forces in the material composition. This prevents an inadmissible increase of the compressive stresses or an inadmissible increase of the stress in the region of the smallest wall thicknesses A1.

In FIG. 2 is shown as in FIG. 1, a section of the housing 5 for a pressure regulating device in plan view, wherein two mutually adjacent openings 1, 2, which are simultaneously designed to accommodate electromagnetically actuated hydraulic valves, i.e. the closing bodies 4, are arranged as graduated openings. According to the invention, however, the recesses 3 are not limited to the area between the two openings 1, 2, but are in the form of annular grooves which are arranged concentrically with respect to the axes of the openings 1, 2 and intersect in the region of the smallest wall thicknesses A1.

In FIG. 3 is a side view of the pressure control device of FIG. 2, with the cutting plane passing through the openings 1, 2. For mounting as electromegnetic hydraulic valves of the formed shut-off bodies 4, the openings 1, 2 are designed as graduated openings, the shut-off bodies 4 being held in each case by two self-expanding locations 6. This occurs as a result of the pressing process in the corresponding groove base of the closure body 4 of the pushed material, which is plastically deformed from that region of the housing 5 which forms the spacing of the openings J, 2. The openings 1, 2 shown are connected to several channels 7 which are connected via a pipe connection to a pressure medium consumer, i.e. a wheel brake 8 or a supply pressure medium, i.e. a brake source 9 of a drive overrun control device. They can be seen very well from FIG. 2, said recesses 3, which are arranged as annular grooves, positioned concentrically to the two axes of the openings 1, 2 and which enter the material of the housing 5 by only a few millimeters. Annular grooves intersect between the two openings 1, 2 of the adjacent enclosing bodies 4 in the region of the smallest wall thickness A1 of the cabinet wall, thereby creating in sections a targeted weakening of the cross-section of the cabinet 5.

Claims (5)

1. Pressure control device, in particular a brake pressure control device, such as an anti-lock control device, a drive overrun control device having a housing in which apertures and ducts are located, the apertures having dimensions to accommodate the closing bodies so that only small wall thicknesses and wherein the openings are made in the direction of the interior of the casing with an average-sized graduated openings into which the sealing bodies are molded and the openings are plastically deformed, characterized in that at a defined distance (Y) near the wall to the smallest thickness ( A1) of the cabinet wall of two adjacent openings (1, 2) in the surface of the cabinet (5), there is at least one recess (3) having at least as large a diameter as the smallest wall thickness (A1) of the cabinet, (3) a defined size, shape and distance from each other of the apertures (1, 2) A locally targeted cross-sectional weakening in the housing (5) is provided to prevent an unacceptable increase in tension in the weakened wall region of the apertures (1, 2). Pressure control device according to claim 1, characterized in that the recess (3) is formed by a blind hole. Pressure control device according to claim 1, characterized in that the closing body (4) is designed as an electromagnetic actuator. Hydraulic valve. Pressure control device according to claim 3, characterized in that a plurality of openings (1, 2) in the row (X) are arranged in the housing (5) in the housing (5) for receiving the electromagnetically controllable hydraulic valves. a region of wider cross-sectional areas of the housing (5) disposed with multiple recesses (3). 5th Control device pressure by claim 1, V y z n acing team that recess (3) Is a formed as a groove. 6th Control device pressure by claim 5, v y z n acing team that always suspensor In the openings (1, 2), a plurality of grooves are disposed than the annular grooves, and the closing bodies (4) are accommodated in these openings (1, 2). Pressure control device according to claim 5, characterized in that the grooves of two adjacent openings (1, 2) continuously and continuously intersect in the direction of the smallest wall thickness (A1) of the housing wall.