DE2363688A1 - Hydro-pneumatic pressure store - has sealed housing divided into two separate chambers for fluid and for gas - Google Patents

Abstract

Hydro-pneumatic pressure store with a gas-and fluid-tight housing whose inside is divided into two separate chambers, a fluid chamber with a fluid connection and a gas chamber with a gas filler opening for introducing a pressurised gas. The dividing wall in its edge region, is held between a ring-shaped holding component which does not touch the inner wall of the pressure store, and the inner wall. The holding component has the form of a tightly coiled spring of small diameter which is deformed from its stretched position to a ring, with the ends supported on each other. The ring has a greater diameter in the unbuilt-in state than in the built-in state. The coil spring is encased by a plastic tube, made of a more wear resistant material than that of the dividing wall.

Description

: ".- '' additional registration

to the
Patent application P 23 30 744.0

Subject: Hydro-pneumatic pressure accumulator

Applicant: Langen & Co, 40OO Düsseldorf, Klosterstrasse 49

The invention relates to a hydro-pneumatic pressure accumulator with a gas- and liquid-tight housing, the interior of which is divided into two gas- and liquid-tight by a walkable partition separate spaces is divided, one of which is a fluid space provided with a fluid connection is, while the other is a gas space with a closable gas filling opening for filling a under pressure standing gas, the partition wall in the area of its edge between a non-touching the inner wall of the pressure accumulator annular holding member and the inner wall is held with preload, the holding member having the shape of a tightly wound coil spring of small diameter, which deforms from its stretched position to form a circular ring the ends are supported on each other and the circular ring has a larger diameter when not installed than when installed, according to patent application P 23 30 744.0.

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236388a

Although the pressure accumulator after the main registration has proven itself well, they showed up in certain work areas some parts in need of improvement. Especially with ratios between operating pressure and Gas bias greater than about 3 to 5 and with the simultaneous use of a not very abrasion-resistant partition material, there was the phenomenon that there was abrasion on the partition wall caused by rubbing on the edges of the helical spring. Starting from the consideration that said, not very abrasion-resistant materials for the partition wall for reasons of compatibility with the pressure medium to be filled into the liquid space and that also higher pressure ratios than the ones described can occur at times it is therefore the object of the invention; a sufficient service life even under the above-mentioned unfavorable operating conditions to ensure.

According to the invention, the solution to this problem is to that the coil spring is encased in a plastic tube made of a more abrasion-resistant Manterial than that of the partition is made.

Such a hose does not in any way interfere with the function of the helical spring and tends apart from being more solid Material is less susceptible to wear, as the relative movements between the hose and the helical spring are extremely small in contrast to the relative movements that can occur when the partition wall is flexed.

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The invention is illustrated by means of one in the figures Embodiment explained in more detail.

Figure 1 shows a section through an inventive Pressure accumulator along its axis.

Figure 2 shows an enlarged partial view of the ends of the helical spring with a lock holding them together.

A pressure accumulator has one of two housing parts 1 and 2 existing housing. The housing parts 1 and 2 are through Electron beam welding or a similar process connected to one another in a gas-tight manner. The housing part 1 has its inner wall a groove 3, which in a perpendicular to Acjise the accumulator running plane revolves. before the welding, a workable partition 4 is introduced into the housing part 1, which in its edge zone circumferential, inwardly directed beads 5 and 6 has. Between these beads 5 and 6 is a helical spring bent into a circular ring 7 inserted. The ends 8 and 9 of the curved coil spring 7 are held together by a lock which consists of a disc 10 with two pins 11 and 12 attached concentrically on both sides. The diameter of the disc 10 corresponds to the diameter of the helical spring 7. The diameter of the pins 11 and 12, however, is chosen so that that they can be inserted into the interior of the helical spring 7 and rest there essentially without play. the Width of the disk 10 is preferably equal to or smaller than the width or the diameter of the wire from which the coil spring 7 is wound. The helical spring 7 does not directly touch the partition 4, but is located inside a hose 13, which consists of an abrasion

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solid material is made. The length of the hose 13 is dimensioned so that its ends in the installed state preferably free of play, possibly with a certain preload bump into each other. The partition 4 is snapped into the housing part 1 together with the mounted helical spring 7. The diameter of the circular ring formed from the helical spring 7 is reduced, so that "the" hose

13 with bias against the partition 4 and this with bias is pressed against the inner wall of the housing part 1. The final position of the partition 4 is reached when the The circular ring formed from the helical spring 7 reaches the area of the groove 3 and there presses the partition 4 into the groove 3. Another type of assembly is that the partition 4 is initially without the coil spring 7 in the Housing part 1 is pushed in and then the helical spring 7 with initially overlapping ends 8 and 9 between the beads 5 and 6 is inserted. The ends 8 and 9 can be spread apart with a tool until they with the help of the lock 10, 11 and 12 in their final position can be fixed. The partition 4 then divides the pressure accumulator in a gas- and liquid-tight manner into a liquid space

14 and a gas space 15. In the liquid space 14 opens a liquid connection 16, while in the housing part 2 a closable gas filler opening 17 is provided by the pressurized gas can be filled into the gas space 15. After filling with gas, the gas filling opening 17 closed by a gas filler screw 18.

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Claims (2)

Patent claims: - riydro-pneumatic pressure accumulator with a gas and Liquid-tight housing, the interior of which is covered by a walkable partition wall in two gas and liquid tight separate rooms is divided, one of which is provided with a fluid connection The liquid space is, while the other is a gas space with a closable gas filling opening for Filling a pressurized gas is, the partition in the region of its edge between a the inner wall of the accumulator not touching the annular retaining member and the inner wall with pretension is held, wherein the retaining member is in the form of a tightly coiled coil spring of small diameter has, which is deformed from its extended position to form a circular ring, with the ends facing each other and the circular ring has a larger diameter when not installed than when installed, according to patent application P 23 30 744.0, characterized in that the helical spring (7) of a Plastic tube (13) is sheathed, which consists of a More abrasion-resistant material than that of the partition (4) is made. 2. - Hydro-pneumatic pressure accumulator according to claim 1, characterized characterized in that the inner diameter of the plastic hose (13) in The initial state is greater than the outer diameter of the helical spring (7) and after feeding a certain heat shrinks in its diameter in the manner of a shrink tube and preferably the Coil spring (7) coated with pretension. 50982 6/05 17 .fc. Blank page