JP2009513403A - Piston type accumulator - Google Patents

Abstract

【Task】
The present invention relates to a piston 8 movable in an axial direction in a housing bore 5, and a seal 4 interposed between the piston 8 and the housing bore 5 and fixed to the inside of the housing bore 5. The present invention relates to a piston type accumulator comprising a cover 6 closing the housing bore 5. The housing bore 5 is formed as a stepped bore having an enlarged diameter at the end closed by the cover 6, and the seal 4 is fixed in the stepped bore.
[Selection] Figure 2

Description

  The present invention relates to a piston type accumulator, in particular to a low pressure accumulator for a vehicle slip control hydraulic brake system according to the introduction of claim 1.

  German Offenlegungsschrift 102 36 966 A1 discloses a set of piston-type accumulators for a hydraulic unit for a slip-controlled vehicle brake system. Each piston is disposed in a seal fixed in the housing bore of the hydraulic unit so as to be movable in the axial direction. The housing bore is closed by a cover.

German Patent Application No. 10236966A1

  In order to fix the seal, an annular groove is formed in the housing bore, and a great deal of labor is required for assembly from the viewpoint of the arrangement of the seal. Prior to inserting the piston into the housing bore, provisions must be made to ensure an accurate fit of the seal to the annular groove. Otherwise, the seal can be damaged by the fitting of the piston and under certain circumstances the seal will twist out of the housing bore, which can only be detected by a leak test of the piston type accumulator.

  In view of the above-mentioned viewpoints, an object of the present invention is to provide a piston type accumulator that operates easily and reliably without the above-mentioned drawbacks.

  According to the invention, this object is achieved in a piston-type accumulator of the type described above by using the features of claim 1.

  The present invention relates to a new piston type accumulator, in which a housing bore is formed as a blind hole, the open end of the housing bore spaced from the bottom of the bore is a seal to the housing bore. In order to ensure the simplest but secure accommodation, it extends outward as an enlarged stepped bore. Preferably, the arrangement of the seal in the stepped bore is carried out in two different ways of assembly, i.e. before inserting the piston into the housing bore, or preferably after inserting the piston into the housing bore. A chamfer is formed at the end of the piston body to provide a seal on the stepped bore after the piston has been inserted into the housing bore.

  The stepped bore can prevent the seal from being damaged, and can immediately detect that the seal is already damaged. Another advantage is that the stepped bore seal is well positioned so that the piston can be wetted by the accumulator fluid in the housing bore during its operating stroke and can be lubricated over almost the entire length of the piston body. obtain. Thus, in surprisingly simple form, dry operation and unacceptable piston friction are successfully avoided. Furthermore, since the wide surface from the housing bore to the seal is wetted, oxygen in the atmosphere is separated from the sliding surfaces of the housing bore and the piston, and oxidation of the outer peripheral surface (sliding surface) of the housing wall and the piston, Corrosion can be avoided.

  Further features, advantages and possible applications of the invention can be seen from the dependent claims.

  Further features, advantages and possible applications of the present invention are described in detail by means of two embodiments.

  1 and 2 exemplarily show a piston type accumulator that functions as a low pressure accumulator for a slip control vehicle brake system, and this piston type accumulator is movable in the axial direction in the housing bore 5. It has a piston 8, and a seal 4 disposed between the piston 8 and the housing bore 5 and fixed inside the housing bore 5. The housing bore 5 is gas tightly closed by a cover 6.

  In the present invention, the housing bore 5 is formed as a stepped bore having an enlarged diameter at the end closed by the cover 6, in which the seal 4 operates particularly simply and reliably. So that it is fixed.

  To consider the effect achieved by such a two-piston type accumulator of the present invention, please refer to the previous page of the specification.

  In both the embodiment of FIGS. 1 and 2, the stepped bore is further divided into at least one first bore step 1 and at least one second bore step 2. In order to properly guide the piston 8 and to supplementarily support the seal 4 with the first bore step 1, the diameter of the stepped bore in the region of the first bore step 1 is that of the housing bore 5. It corresponds to the inner diameter.

  The wall of the second bore step 2 is used to introduce and seal the seal 4 in the axial direction in the stepped bore, and for this purpose, the stepped bore is connected to the first bore step 1 and It has an enlarged inner diameter with respect to the second bore step 2, and this inner diameter corresponds to the outer diameter of the seal 4. The vertical spacing of the second bore step 2 relative to the first bore step 1 corresponds to the height required to insert the seal 4.

  Further, the stepped bore of FIGS. 1 and 2 has a third bore step 3 in front of the outer end of the housing bore 5 where “atmosphere acts”, and this bore step 3 forms the housing bore 5. The cover 6 is fixed by a stepped bore formed by plastic deformation of the housing material.

  In addition, as shown in FIGS. 1 and 2, in order to fix the seal 4 in its axial position at the first bore step 1 so as to operate as easily and reliably as possible, the second bore step 2 And the third bore step 3 is formed with a holding portion 7. For this purpose, the holding part 7 is directly supported by the second bore step 2 and at least partially covers the seal 4 in the direction of the surrounding piston surface (piston body). The outer diameter of the holding portion 7 always corresponds to the outer diameter of the stepped bore, and the inner diameter of the holding portion 7 always corresponds to the outer diameter of the piston 8 guided by the housing bore 5.

  In the first embodiment of FIG. 1, the holding part 7 is formed as an annular washer, which is formed by the second bore step 2 and the seal 4 by the edge 9 of the cover 6 closing the housing bore 5. It is pressed in the axial direction.

  Instead of the holding part 7 which is formed as an annular washer arranged separately into a stepped bore, FIG. 2 is directly formed by the edge 9 of the cover 6 closing the housing bore 5. The holding part 7 is shown. For this purpose, the thin edge 9 of the substantially bowl-shaped cover 6 is bent at a right angle, i.e. horizontally outward, so as to form the outer shape of an annular washer. In order to attach the cover 6 to the second bore step 2 and fix the holding part 7, the outer surface of the bent edge 9 is covered with the housing material of the hydraulic unit that is plastically deformed.

  1 and 2, the cover 6 as well as the piston 8 is preferably formed as a deep-drawn bowl. In the embodiment of FIG. 2, the inner diameter of the bowl in the region of the edge 9 is In order to secure the seal 4, it has a minimum clearance with respect to the outer diameter of the piston 8.

  According to FIG. 2, the bowl profile of the cover 6 continues from the smallest clearance to the bottom of the bowl and has a portion 13 whose inner diameter is such that the piston 8 is introduced into the bowl with sufficient margin. Has been increased like a funnel to get. This allows a sufficient radial space in the cover 6 to allow fluid to flow into the chamber 10 of the housing bore 5 during the filling stage of the piston-type accumulator, i.e. below the bottom of the bowl. In this case, the upper stroke of the piston 8 against the compression spring 11 compressed between the piston 8 and the cover 6 is ensured without being obstructed (not tightened).

  Accordingly, the wall thickness of the cover 6 is increased in the direction of the edge 9 which is bent at right angles to form the holding part 7 in FIG. A particularly strong support structure has been achieved. For this reason, in order to attach the cover 6, it is possible to receive the caulking force at the edge 9 generated when the housing material is plastically deformed without restricting strain (distortion-free). In addition, the strong support structure of the edge 9 simultaneously functions as the holding portion 7 in FIG. 2 and allows a particularly large burst pressure from the cover 6.

  In FIG. 2, the bottom of the thin, deep-drawn piston has a small supporting nose 12 in the direction of the bottom of the housing bore 5, by means of these noses, the piston type accumulator not shown in the figure. In the filling position, the piston 8 is prevented from inappropriately adhering or sticking to the bottom of the housing bore 5.

  Due to the support nose 12, the effective piston surface can be used with little change during the filling and discharging of the piston-type accumulator, so that an improved response in all operating situations is achieved.

  The piston type accumulator in FIGS. 1 and 2 is connected to the suction side of the ABS pump in the discharge operation by a check valve 14 inserted in the bottom of the housing bore 5, and this ABS pump is connected to the pump housing bore 15. In FIG. In order to fill the piston type accumulator, an additional hydraulic channel, not shown, opens to the bottom of the housing bore 5 and is connected to the brake pressure damping valve of the ABS hydraulic unit.

  Due to the integrated structural means described here, the operational performance of the piston-type accumulator is not affected by the inclusion of air that may be present between the piston 8 and the cover 6, and preferably the ventilation Alternatively, the bleed can be omitted.

  The operating characteristics of the piston-type accumulator, in particular the filling volume of the chamber 10, varies with the various compression springs 11 and / or depths in the cover 6 into which the chamfered end of the piston 8 is plunged during the accumulator filling operation. Depending on the gauge, it can be arbitrarily adjusted in a preferred manner.

  As shown in FIGS. 1 and 2, the seal 4 is preferably formed as a ring made of elastomer, in particular as an O-ring. Other embodiments can of course be implemented if desired or necessary. It is also possible to modify the compression spring 11, the cover 6 and the piston 8 of the illustrated type without departing from the spirit of the invention.

  1 and 2, the bottom of the piston and the bottom of the cover have a concave shape so that the compression spring 11 is centered at the ends of the two wire coils. Changes in this respect can also be made without affecting the spirit of the present invention if requested or necessary.

The longitudinal cross-sectional view of the piston type accumulator mounted in the ABS hydraulic unit of 1st Embodiment of this invention. It is a longitudinal cross-sectional view of the piston type accumulator of 2nd Embodiment of this invention, and shows another fixing method of the seal | sticker in the piston type accumulator of an ABS hydraulic unit.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... 1st bore level difference, 2 ... 2nd bore level difference, 3 ... 3rd bore level difference, 4 ... Seal, 5 ... Housing bore, 6 ... Cover, 7 ... Holding part, 8 ... Piston, 9 ... Edge, DESCRIPTION OF SYMBOLS 10 ... Chamber, 11 ... Compression spring, 12 ... Supporting nose part, 13 ... Part, 14 ... Check valve.

Claims (11)

An axially movable piston in the housing bore, a seal interposed between the piston and the housing bore and fixed to the inside of the housing bore, and a cover closing the housing bore; In a piston type accumulator, in particular a low pressure accumulator in a slip control vehicle brake system,
The housing bore (5) is formed as a stepped bore having an enlarged diameter at the end closed by the cover (6), and a seal (4) is fixed in the stepped bore. Piston type accumulator characterized by that.   A first bore step (1) and a second bore step (2) are provided inside the stepped bore, and the stepped bore in the region of the first bore step (1) is provided. The diameter corresponds to the inner diameter of the housing bore (5), and the inner diameter of the stepped bore in the region of the second bore step (2) corresponds to the outer diameter of the seal (4). The piston-type accumulator according to claim 1, wherein   The stepped bore at the outer edge (9) of the housing bore (5) is defined by a third bore step (3), which is the plasticity of the housing material. 3. The piston type accumulator according to claim 1, wherein the piston type accumulator is formed by deformation and has a cover (6) fixed in the stepped bore.   In order to fix the seal (4) at the first bore step (1), a holding portion (7) is provided between the second bore step (2) and the third bore step (3). The piston type accumulator according to claim 2, wherein the piston type accumulator is provided.   The holding part (7) is in direct contact with the second bore step (2), and the seal (4) is at least partially covered in the direction of the surrounding piston surface by the holding part (7). The piston-type accumulator according to claim 4, wherein   The holding portion (7) is formed as an annular washer that is pressed against the second bore step (2) and the seal (4) by a cover (6) closing the housing bore (5). The piston type accumulator according to claim 4, wherein   The outer diameter of the holding portion (7) corresponds to the diameter of the stepped bore, and the inner diameter of the holding portion (7) corresponds to the outer diameter of the piston (8) guided by the housing bore (5). The piston type accumulator according to any one of claims 4 to 6, wherein the piston type accumulator is provided.   The piston-type accumulator according to claim 4, characterized in that the holding part (7) is directly formed by an edge (9) of the cover (6) closing the housing bore (5). Lator.   The edge (9) of the substantially bowl-shaped cover (6) is bent outward at right angles so as to form the outer shape of an annular washer, and is covered with a plastically deformed housing material. The piston type accumulator according to claim 8.   The cover (6) is preferably formed as a deep-drawn bowl, and the inner diameter of the bowl in the region of the edge (9) is the piston (8) to secure the seal (4). 10) The piston type accumulator according to any one of claims 1 to 9, wherein the piston type accumulator has a minimum clearance with respect to an outer diameter.   In the working stroke area of the piston (8), the bowl has at least one part (13) in the direction of the bottom of the bowl, and the inner diameter of this part (13) is sufficient for the piston. The piston-type accumulator according to claim 10, wherein the piston-type accumulator is expanded like a funnel in the direction of the bottom of the bowl so that it can pass through.

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