DE1279375B - Power transmission linkage - Google Patents

Description

Power transmission linkage The invention relates to a power transmission linkage with a membrane arranged in a housing, which on one side below the effect of a pressure-generating, in particular, depending on the temperature Mean stands and on the other side at least one conical area having deformable plug rests within one of the shape of the plug is arranged in its relaxed position adapted pipe and with one in the pipe displaceably arranged piston is in a force-locking connection.

In the known embodiments of this type, when the pressure rises the plug pressed through the conical part of the tube. The compression of the The plug causes it to elongate and the piston over a greater distance moved as the pressure generating agent travels. In addition, the plug is here pressed tightly against the inner side walls of the pipe to make a good seal to prevent the surrounding medium from entering the interior. To the piston travel to lengthen it even further and thus increase the translation, it stands to reason that the To increase the aspect ratio of the pipe parts separated by the conical part. However, there are relatively narrow limits here. It will be too strong at one Reduction in cross section of the plug strong forces against the conical ones Walls exerted, so that there is a large friction and increased wear. Very large forces are therefore required to overcome the friction during the return movement, which may no longer be of the springs in the corresponding dimensions can be applied. There is therefore a risk that the plug will be too slow slides back and voids form between the plug and the membrane, in which gases or liquids can be sucked in from the outside. Also surrendered There are very high shear forces in the material of the plug, so that - this is relatively tires quickly and the plug has to be replaced.

Furthermore, the slimmer part of the plug in cross section must not too thin, so that there are also limits in this regard. One too strong thickening of the plug part, which is larger in diameter, is also not possible, since otherwise the entire arrangement is too large.

The object of the present invention is to achieve the largest possible transmission ratios to achieve with a small structure and low stress on the plug material.

This is achieved according to the invention in that the plug enclosing the plug Tube has at least two conical sections that extend in the direction of the The pistons are tapered and connected to one another by a cylindrical spacer are, the length of which is such that the plug within its usable Deformation area is deformed at most once at each cross-sectional point.

In this way a slimmer and shorter plug is achieved, which naturally also affects the dimensions of the pipe and thus the overall dimensions of the linkage has a favorable effect. In addition, excessive use of the Stopper material prevented by friction and shear force, and also ensured is that the material is only deformed once with each pass, so that there is also no unnecessary fatigue. In addition, the restoring forces can be within the usual limits, the recovery time of the grafting of those the membrane or the pressure generating means is adapted, so that cavities between Plugs and membrane can be avoided with certainty.

Further details and refinements of the invention result from the description below. Herein is F i g. 1 is a longitudinal section through a power transmission linkage according to the invention, FIG. 2- the side view of a sealing plug for use in the element of FIG. 1, with the shape of the plug in front the insertion into the element is shown, FIG. 3 is a cross section through a in the element according to FIG. 1 membrane used before inserting it into the power transmission linkage and Fig. 4 is a longitudinal section through another embodiment of the element according to the invention.

The power transmission linkage 1 according to the invention comprises a housing 2, a supply of a pressure-generating substance 3, a membrane 4 and a deformable one Rubber stopper 5. The housing 2 consists of a pot-like part 6, a sleeve 7 and a movable piston 8. A clamping ring 9 holds the part 7, as usual, in fixed position against the housing 6.

The part 7 comprises several bore sections 10, 11 and 12 with parallel Walls. The bore 10 has a greater inside diameter than the bore, while the Bore 11 for its part has a greater inside width than bore 12. The holes 10, 11 and 12 are connected to one another by conical sections 13 and 14. The walls of these sections serve as shoulders that support the graft. fen 5 during an expansion of the pressure-generating substance 3 compress.

The pressure-generating substance 3 consists in the embodiment shown from a material that expands when the temperature rises, e.g. B.

Wax or para-dibromobenzene. However, the pressure can also be caused by this be developed that a pressure medium from a remote pressure source via a initiated with the pot 6 connected pipeline in the power transmission linkage will.

The membrane 4 is made of vulcanized rubber or another elastic material. It has an edge portion 15 between the flanges 16 and 17 of parts 6 and 7 can be clamped, and a thickened middle part30, so that the membrane is in its position according to FIG. 1 can accept without tearing.

The plug 5 consists of a deformable elastic material, such as vulcanized Rohgunnni or that known under the trade name Ameripol Product. Before being inserted into the element according to FIG. 1 has the plug 5 the Shape according to Fig. 2. The cylindrical part 18 ~ thus has a larger diameter in the direction of arrow 19 as the cylindrical part 20. The parts 18 and 20 are connected by a tapered part 21. In the situation according to FIG. 1, the Shoulder 21 against shoulder 13. Parts 18 and 20 are about 0.025 or 0.05 mm wider in the direction of arrow 19 than the corresponding holes 10 and 11, so that the creation of a sealing pressure between the plug and the bores is supported if the parts in their in F i g. 1 are the position shown.

The sealing pressure is provided by a spring arrangement (not shown) which acts on the piston 8 in the direction of arrow 25. This spring arrangement presses the plug between the wall 8 and the reservoir 3 together, so that the side surfaces of the parts 18 and 20 a sealing pressure to the outside against the surfaces 10 and 11 exercise in the direction of arrow 19.

There is a disk between the plug 5 and the piston 8 24 with low friction, the main function of which is to penetrate the plug 5 to prevent the gap between the piston 8 and its guide bore 12.

The disc 24 can be made of a plastic, such as polytetrafluoroethylene, Polyvinyl chloride, polymonochlorotrifluoroethylene, polyadipamide, polyvinyl chloride acetate, Polyvinylidene chloride, polyethylene, polymethylene, Polychlorether or acrylonitrile resin, exist. The disc 24 is preferably quite thin, e.g. B. about 0.375 to 1.25 mm. It consists of a relatively hard plastic with some elasticity, so that it fits tightly in the guide bore 12, but slide with little friction can. The listed materials also give the disc certain lubricating properties, so that it cannot stick or rub in the guide hole.

During an expansion of the substance 3 from its state according to Fig. 1, e.g. B. during a temperature rise in the surrounding atmosphere 23 is the plug 5 pushed through the bores 10 and 11 upwards. The plug part 18 suffers a crushing effect when it passes through the tapered part 13. This squeezing action reduces the side dimensions of the part 18 and thereby causes that the plug 5 is extended. Moved during the upward movement of the plug 5 the part 20 through the tapered part 14 in the bore 12, whereby the plug receives a further extension. The plug extension causes an enlargement the movement of the piston 8 compared to the linear expansion of the substance 3.

When the temperature in the atmosphere 23 drops, the substance reverses 3 back into the position shown, and the aforementioned spring arrangement presses the piston 8 back to its position shown in the bore 12. At the beginning of this downward movement the plug parts 18 and 20 are in the compressed state in the Bores 11 and 12, so that they side pressures against the walls of the holes in the direction of the Pfeiiesl9 exercise. These side pressures are sufficient to create a pressure seal which form the interior of the power transmission linkage against the atmosphere 23 seals. These side pressures strive to reduce the frictional resistance to the downward movement of the whole plug. Each of the plug parts 18 and 20 is, however, around compressed a lesser amount than would be the case if the plug would be pressed through a single larger shoulder, e.g. B. if the Bohrsteilll would be omitted and the plug part 18 past a single paragraph immediately would be pressed into the channel 12. As a result of this limited crushing of the plug parts 18 and 20, the side pressures are kept to a tolerable minimum, and the Frictional resistance to the downward movement of the plug is insufficient to to cause the plug to fall behind the substance during a temperature drop 3 remains. If the plug were to remain there would be negative pressure between the plug and the membrane 4, through the liquid or gas from the The atmosphere 23 is sucked past the piston 8 and the plug 5 into the interior of the element could be. The time delay is also harmful in itself because it is a delay the adjustment of a device controlled by the force-transmitting element means.

The displacement of the plug 5 is much less than that of the piston 8, because the plug is lengthened by the shoulders 13 and 14.

Characterized in that the total displacement of the plug 5 on a possible is limited to a low value, there is less wear due to friction between the plug and the walls the hole. By the invention Construction, the wear of the plug is limited to a minimum.

If desired, more than two tapered bore sections can also be used are provided, depending on the required piston movement for a given volume expansion the substance 3. In this context it should be noted that the path of the piston 8 through Reduction of the piston diameter and the associated guide diameter as well by applying a third tapered portion between the bore 12 and the now existing narrower guide hole could be enlarged.

The relative diameters of the different sections with parallel Walls should of course be chosen in such a way that the side pressures exerted by the various plug parts are sufficient to penetrate the interior of the force-transmitting element during the downward movement of the piston 8 against the To seal the penetration of foreign matter from the atmosphere 23 without, however, remaining behind of the piston behind the movement of the substance 3.

The inventive construction of the plug with several In paragraphs it is possible to achieve a large piston stroke with a piston of small diameter to achieve. By matching the lengths of the various sections accordingly of the plug and the piston guide and plug chamber do not need a cross-sectional area of plugging to suffer more than one reduction in area, with each stage this reduction in area is kept to a reasonable extent. By the use of two or more paragraphs becomes the base of the wad on one kept high ratio relative to the piston area, so that a considerable change in volume is permissible without the membrane being excessively stretched in the longitudinal direction.

Two major advantages of the construction according to the invention are to see that once the volume swept by the membrane is made large can be done by the linear displacement of the membrane is small, its surface area however, is large and that, on the other hand, the plug for any given cross-sectional area undergoes an executable taper.

If desired, the plug could be extended so that the membrane 4 initially has the pot-like shape shown in FIG. An increase in pressure in the substance 3 would thereby move the membrane upwards to the level of the flange 16 bring.

Again, there would be the advantages of multi-paragraph grafting maintained.

Claims (2)

Claims: 1. Power transmission linkage with one in one Housing arranged membrane, which on its one side under the action of a in particular as a function of the temperature pressure generating means stands and on the other side on a at least one conical area having, deformable plug rests within one of the shape of the plug in its relaxed position adapted pipe is arranged and displaceable with a in the pipe arranged piston is in frictional connection, thereby marked e i c h n e t that the tube (2) surrounding the plug (18) is at least two conical formed sections (13, 14) which extend in the direction of the piston (8) taper and are connected to one another by a cylindrical intermediate piece (11), the length of which is such that the plug is within its usable deformation range is deformed at most once at each cross-sectional point. 2. Power transmission linkage according to claim 1, characterized in that that between the piston (8) and the plug (18) a disk (24) made of a hard Plastic is arranged. References considered: U.S. Patents No. 2,368 181, 2,534,497, 2636776.