DE4029953C1 - Adjustable pressure gas spring with gas filled cylinder - has arrester distributed over protective tube periphery, covered by protective ring - Google Patents

Abstract

The gas pressure spring presurised gas filled cylinder has seals both ends fixed to it by an all round restriction. The enclosed piston has a rod sealed through one end seal and enclosed by a protective tube, sliding over the cylinder when the piston rod retracts. A radially acting arrester in a recess in the protective tube is closed off radially outwards by a housing on the tube. Several arresters (4) are fitted round the protective tube (30) and are covered by an arrester ring (5). The ring moves axially between arrresting and release setting, and has two adjacent section (52, 58) of dissimilar dia. Thus in the arrest setting the ring is forced into one of the drawn-in recesses (21', 22') on the cylinder tube in the smaller dia section (52) of the ring, and in the release setting the arresters give free access to the cylinder in the larger dia sections (58). USE/ADVANTAGE - For car bonnets, boat lids etc, with easy handling without risk of damage and injury.

Description

The invention relates to a gas pressure spring according to the upper Concept of claim 1.

Gas pressure springs of the type mentioned are known and ver spreads in use. An area of application for such gas compression springs is to support opening as well Keep open larger flaps or lids, e.g. B. Charge trunk or trunk flaps on motor vehicles, front flaps on sales stands, maintenance flaps on machines housing and system housings etc. For many of these applications For safety reasons, it makes sense or even mandatory, the flap in its open position or in other positions in addition to locking ren to prevent accidental movement of the flap, e.g. B. attack unintentionally as a result of wind pressure or others to exclude the burdens.

A gas pressure spring with the characteristics of the generic term of claim 1 is known from US 48 07 855. At the This gas pressure spring is a single locking pin in an egg hollow cylindrical guide housing in the radial direction the gas pressure spring slidably mounted. The management ge housing protrudes laterally from the protective tube and ent holds a locking pin next to the locking pin Coil spring connecting the pin with one in radial direction force of the gas spring acting on the inside hits. On the outer face of the guide housing The pin is led outwards and shows there  widened head that serves as a handle. In this is in the inserted state of the gas pressure spring right end of the locking pin on the outside of the cylinder the gas pressure spring. When extending the piston rod ge the cylinder slides on the inner end of the lock pin over until the end of the Zy Lindert passed the locking pin. At this moment the locking pin jumps under the force of the screws spring radially inwards and locks in this position a return or insertion movement of the piston rod. To release the lock, the locking pin must be from Hand be pulled radially outwards and it has to immediately inserted the gas pressure spring at least as far be that again the cylinder in contrast to the reaches the inner end of the locking pin. This represents ne extremely laborious and unergonomic Handling is also a simultaneous actuation several spaced apart gas pressure springs, such as they z. B. needed for heavier flaps, for egg ne single person practically impossible. Finally is to be regarded as disadvantageous that this locking device acts as a foreign body on the gas pressure spring, which The appearance of the gas pressure spring is impaired.

Another known security measure according to the DE-PS 34 42 262 consists in pivoting the protective tube bar at the outer end of the piston rod of the gas pressure spring articulate and this protective tube when completely out driven piston rod, d. H. in the open position ner parallel to the piston rod in an inclined position to swivel. It is supported in this inclined position then the piston rod-side locking body of the Zylin ders on the end of the protective tube, so that a unintentional insertion of the piston rod into the cy linder is made impossible. Being a disadvantage here when viewed that it when pivoting the protective tube by hitting the piston rod slightly  Damage to this can come with the Time for leaks and loss of compressed gas out of the gas pressure spring until it finally works becomes unable to function. It is also considered to be disadvantageous hen that the locking relatively unintentionally can be solved if z. B. the protective tube by An bump is pivoted slightly. In addition, the se known gas spring in its locking position ugly external appearance, which in vie len applications.

It is therefore the task of a gas pressure spring type mentioned with an easy to use and reliable locking option fen, when damage to parts of the gas pressure feather is excluded and which also appeal of the external appearance.

This object is achieved according to the invention by a gas spring of the type mentioned with the characterizing features of claim 1.

With the invention, a gas pressure spring is created, which is simple and safe at least in a certain one Position, preferably in the with the Kol fully extended rod, can be locked. This can cause damage on the gas pressure spring, especially on its piston rod ge, do not occur because of the locking between Protective tube and cylinder tube is done, both relatively represent insensitive components of the spring. Furthermore here the piston rod is still reversed from the protective tube ben. To adjust between its locking position and release position is only a small axial Ver the locking ring must be moved easily by hand can be made. Thanks to this simple operation speed of the locking device becomes a high user friendliness achieved. In addition, the manufacturing is up  wall for the gas spring low because the locking body per and the locking ring simple and inexpensive construction parts are. Finally, the new gas spring instructs appealing external appearance because because the new locking device harmoniously in the shape of the Gas spring integrated and in no way disturbing in Appearance occurs.

The further development of gas pressure specified in claim 2 spring enables further uses, in which not only in certain preferred positions but also in be loving intermediate positions a finding of the spring is provided, with the lock according to Art a friction brake.

Another embodiment of the gas pressure spring looks according to Claim 3 at least one groove in the outer circumference of the cylin derrohres, which in addition to the recoveries another latching lock enables. Depending on your needs of course also several grooves in the course of the cylinder barrel res be provided. Because the cylinder is smooth on the inside must remain is a correspondingly greater material thickness ke to use for the cylinder barrel, which is grooving allowed by circumferential grooves.

Further refinements and developments of gas pressure Feather according to the invention are in the dependent claims 4 to 11 specified.

The following are exemplary embodiments of the invention explained using a drawing. The figures of the drawing show:

Fig. 1 is a gas pressure spring in the locked state, in longitudinal section, partly in elevation,

Fig. 2 shows the gas spring of FIG. 1 in the release state, in partial longitudinal section,

Fig. 3, the gas pressure spring according to FIGS. 1 and 2 in the braking state, also in partial longitudinal section and

Fig. 4 shows a locking ring in a modified Ausfüh tion as part of the gas spring, also in partial longitudinal section.

As shown in FIG. 1 of the drawing, the exemplary embodiment of the gas pressure spring 1 shown here consists of a cylinder 2 and a piston rod 3 guided out of it and a piston guided in the cylinder and not visible here. The cylinder 2 consists of a cylinder tube 20 which is closed gas-tight at its ends by a closure piece 21 and 22, respectively. The upper closure piece 21 in the drawing is seen with a threaded end 23 for the assembly of the gas spring 1 ver. The lower closure piece 22 in the drawing is provided with a sealed bushing for the piston rod 3 . The interior of the cylinder tube 20 is filled with a pressure medium, in particular high pressure gas, as is known. For the secure and pressure-tight sealing of the cylinder tube 20 , the closure pieces 21 and 22 are fixed by means of indentations 21 'and 22 ' around the cylinder tube 20 .

Furthermore, Fig. 1 shows that at the outer, lower end of the piston rod 3, a head piece 31 is arranged, to which a protective tube 30 is attached, which extends from the outer end of the piston rod 3 to the cylinder 2 out. The connection between the head piece 31 and the protective tube 30 also takes place here by a retraction 31 'of the protective tube 30 . In addition, the head piece 31 has an outwardly pointing thread end 33 for the assembly of the gas pressure spring 1 . As far as written so far, this gas spring 1 corresponds to known constructions.

What is new in the gas pressure spring 1 shown is that it has an integrated device for locking. This is formed by a number of locking bodies 4 and a locking ring 5 . The locking body 4 be sitting here the shape of cylindrical pins with frustoconical ends 40th Alternatively, the locking bodies can also be polygonal in cross-section, they can have rounded ends or they can be spherical overall. The locking body 4 are arranged in openings 30 'in the protective tube 30 slidably mounted in a radial tung Rich, wherein here the Durchbre interruptions 30' of the protection tube 30 are arranged in the vicinity of the cylinder-side end.

The locking ring covering the outside of the locking body 5 has the shape of a collar ring and has several areas of different inner diameters arranged one above the other in its interior. In the present exemplary embodiment, these are a guide region 50 , a region of small inner diameter 52 , a region of medium inner diameter 55 and a region of larger inner diameter 58 in succession from bottom to top. At its front end on the cylinder side, the locking ring 5 has a collar 59 which projects inwards and surrounds the cylinder tube 20 with clearance. The guide area 50 has an inner diameter which ensures a sufficient displacement play against the outer diameter of the protective tube 30 .

In the locking state of the gas pressure spring 1 shown in FIG. 1 of the drawing, the locking bodies 4 rest with their radially outer end face on the region of smaller inner diameter 52 of the locking ring 5 .

In this state, the locking body 4 are pressed with their radially inner ends into the retraction 22 'located there in the extended state of the piston rod 3 ' at the lower end of the cylinder 2 . A displacement of the piston rod 3 relative to the cylinder 2 is no longer possible.

If the piston rod 3 is to be moved relative to the cylinder 2 , the locking ring 5 is to be transferred from its locking position shown in FIG. 1 into the release position shown in FIG. 2. In this release position, the locking body 4 lies with its radially outer end face in the region 58 of the larger inner diameter of the locking ring 5 . In this position there is clearance between the radially inner end face of the locking body 4 and the outer circumference of the cylinder tube 20 , so that an unimpeded displacement of the piston rod 3 with the protective tube 30 relative to the cylinder 2 is possible. As FIG. 2 further shows, lies in this release position of the locking ring 5 with its collar 59 on the cylinder-side end face of the protective tube 30.

Except in FIG. 1 and locked position shown to the release position shown in Fig. 2, in the present embodiment example of the gas spring 1 of the locking ring 5 occupy a third position, NaEM Lich a braking position. In this braking position, the rod 3 is possible with the protective tube 30 relative to the cylinder 2 at any displacement position of the piston, the locking body 4 are with their radially outer end in the region 55 of the mean inner diameter of the locking ring 5th At the same time, the lock body 4 are pressed against the cylinder 2, with its radially inner face at the outer peripheral surface of the cylinder tube 20 in this braking position, thereby achieving a frictional braking effect. Since for the Arre animal body 4 preferably an elastomeric material is used ver and since the cylinder tube 20 of the cylinder 2 made of metal, for. B. steel or aluminum, a sufficiently large braking force can be easily generated for a secure locking of the gas pressure spring 1 in any intermediate position.

Fig. 4 of the drawing finally shows in partial longitudinal section, the locking ring 5 in a modified Ausfüh tion. This embodiment of the locking ring 5 has just as the above with reference to FIGS. 1 to 3 explained locking ring 5 inside it again, the regions of different inside diameter, whereby the top sequentially the guide portion 50, the portion 52 smaller inner diameter, Be ranging here from the bottom 55 mean inner diameter and the area 58 of larger inner diameter and at the upper end of the locking ring 5 the collar 59 can be mentioned. The named regions 50 , 52 , 55 and 58 are each cylindrical surfaces, the adjacent surfaces being connected to one another via inclined surfaces 51 , 54 and 57 . In contrast to the first-described design of the locking ring 5 , an encircling lower bead 53 and 56 is additionally provided at the transition from the area 52 of smaller inner diameter to the inclined surface 54 following upwards and at the transition from the area 55 of medium internal diameter to the inclined surface 57 . These circumferential beads 53 and 56 improve the securing of the locking ring 5 against automatic displacement. In order to give the locking ring 5 a certain basic position, at least one compression spring can additionally be arranged between this and the protective tube 30 .

Claims (11)

1. Detectable gas pressure spring, consisting of a cylinder filled with compressed gas from a cylinder tube with end closure bodies, which are each firmly connected to this by at least one circumferential retraction of the cylinder tube, further be standing from a piston which is displaceably guided in the cylinder with a sealing by one the closure body outwardly guided piston rod and from egg nem surrounding the piston rod, connected to its outer end, when inserting the piston rod over the cylinder sliding protective tube, little least a locking body is radially displaceably mounted in an opening in the protective tube and where at a Locking body is arranged radially on the outside of the protective housing, characterized in that

• - That several locking bodies ( 4 ) distributed over the circumference of the protective tube ( 30 ) are provided,
• - That the locking body ( 4 ) radially on the outside covering, the protective tube ( 30 ) surrounding Arre animal ring ( 5 ) is arranged on the protective tube ( 30 ),
• - That the locking ring ( 5 ) is axially displaceable between at least two positions, namely a locking position and a release position, and
• - That the locking ring ( 5 ) has at least two axially adjacent or one above the other areas ( 52 ; 58 ) of different inner diameter, the locking body in the locking position ( 4 ) in the area ( 52 ) of the smaller inner diameter of the locking ring ( 5 ) lying in one of the circumferential indentations ( 21 ', 22 ') of the cylin derrohres are pressed and in the release position the locking body ( 4 ) lying in the area of the larger inner diameter of the locking ring ( 5 ) have free access to the cylinder tube ( 20 ) .

2. Gas pressure spring according to claim 1, characterized in that the locking ring ( 5 ) in a third axial position, namely a braking position, is displaceable and that according to the locking ring ( 5 ) one in the axial direction of the first two areas ( 52 , 58th ) has a separate third region ( 55 ) with an inner diameter, the dimension of which lies between the inner diameter of the other two regions ( 52 , 58 ), the locking body ( 4 ) in the region ( 55 ) of the mean inner diameter of the locking ring ( 5 ) lying on the outer circumferential surface of the cylinder tube ( 20 ) outside of half of its recesses ( 21 ', 22 ') can be pressed. 3. Gas pressure spring according to claim 1, characterized in that at least one groove is provided in the course of the cylinder tube ( 20 ) in the sen outer circumference between the end recesses gene ( 21 ', 22 '), the contour of which is essentially that of the recesses ( 21st ', 22 ') corresponds, the cylinder tube ( 20 ) having a sufficient for an insertion of the groove, ver increased wall thickness. 4. Gas pressure spring according to one of claims 1 to 3, characterized in that the locking body ( 4 ) consist of an essentially incompressible elastomeric material. 5. Gas pressure spring according to one of claims 1 to 4, characterized in that the locking body ( 4 ) are pins with rounded or frustoconical ends ( 40 ). 6. Gas pressure spring according to one of claims 1 to 4, characterized in that the locking body ( 4 ) are Ku gels. 7. Gas pressure spring according to one of claims 1 to 6, characterized in that the locking body ( 4 ) and the locking ring ( 5 ) are arranged on the cylinder-side end of the protective tube ( 30 ). 8. Gas pressure spring according to claim 7, characterized in that the locking ring ( 5 ) is designed as a coupling ring with a cylinder side, the cylinder tube ( 20 ) with free passage surrounding collar ( 59 ). 9. Gas pressure spring according to one of claims 1 to 8, characterized in that the different diameter water areas ( 52 , 55 , 58 ) of the locking ring ( 5 ) are interconnected by intermediate inclined surfaces ( 54 , 57 ). 10. Gas pressure spring according to claim 9, characterized in that at the transition from the inclined surface ( 54 ; 57 ) to the smaller diameter area ( 52 ; 55 ) each has an inwardly projecting circumferential nose or bead ( 53 ; 56 ). 11. Gas pressure spring according to one of claims 1 to 10, characterized in that between the locking ring ( 5 ) and the protective tube ( 30 ) at least one pressure spring acting in the axial direction is arranged.