CZ278260B6 - Bearing, adjustable for height for transfer and lifting, optionally lowering of heavy loads - Google Patents

Abstract

In a vertically adjustable bearing for the transfer and raising of heavy loads, for example in bridge construction, in order to form a liquid space (7) surrounded on all sides, a diaphragm plate (6) or (8) made from material having high tensile strength is arranged between the vessel bottom (2) and the elastomer plate (4) and/or between the cover (1) and the elastomer plate (4), which diaphragm plate is connected non-displaceably along its periphery and in a sealing manner with the vessel bottom (2) and/or the cover (1) (Figure 1). <IMAGE>

Description

The invention relates to a height-adjustable bearing for the transmission and lifting or lowering of heavy loads, for example in bridge construction.

BACKGROUND OF THE INVENTION

Height-adjustable bearings for carrying heavy loads have long been known.

For example, a height-adjustable load-lifting bearing is known, as described in DE 17 59 032. In this height-adjustable bearing, it is pressed from the outside by means of a pressure line which extends through the housing bottom and which opens between the housing bottom and the elastomeric plate. into an elastomer-filled pressure space formed between the housing and the lid, a rubber-curable pressure liquid. In this case, the elastomer is compressed locally so that the pressure fluid extends from the mouth of the pressure pipe in a more or less uniform layer in the increasing gap between the sleeve and the elastomeric plate, due to the incompressibility of the elastomer with the injected pressure fluid. lift according to the amount of injected liquid. In this case, the spreading of the pressurized liquid between the sleeve and the elastomeric plate occurs completely uncontrollably. With larger lifting masses, it cannot be excluded that the pressurized liquid also penetrates into the gap between the housing wall and the elastomeric plate. Here, the pressurized fluid may rise up to the annular gap between the housing wall and the lid and, under certain circumstances, may also leak outside if the seal formed therein is not sufficient to retain the fluid under high pressure.

To overcome these drawbacks, it is an object of the present invention DE 25 27 128 that a diaphragm bag is provided between the elastomeric plate and the bottom of the housing in which the pressure medium is so that the pouch abuts against the wall of the housing. The diaphragm bag is connected to an external pressure source.

The problem with this solution is that the flexible bag is pushed against the wall of the housing and into the corners and that it is difficult to make a connection to an external pressure pipe.

During tilting of the lid or during its lifting or lowering under high pressure the firmly pressed bag against the housing wall cannot easily follow the displacements of the lid with respect to the housing wall. This creates folds in the elastic material of the bag and causes considerable wear when rubbed against the housing wall. The resilient material is not resistant to this, in particular because the continuous tilting causes excessive dynamic stress, which leads very quickly to leakage of the bag in the region of the housing wall.

-1GB 278260 B6

This makes the bearing unusable for lifting and lowering. Additional sealing problems arise when connecting the pressure line passing through the bottom of the housing to the bag.

SUMMARY OF THE INVENTION

It is an object of the present invention to overcome these drawbacks.

These drawbacks are overcome by the height-adjustable bearing according to the invention, characterized in that a diaphragm plate is provided at the bottom of the housing and / or on the lid below the elastomeric plate, which is concentric, made of a tensile-resistant material, e.g. metal and plastic. mass. The diaphragm plate is firmly and tightly connected to the bottom of the housing or the lid along its circumference.

The amount of liquid required to lift the bearing or to increase the pressure space is injected by a sealable inlet from the outside into a tightly closed liquid space formed between the housing bottom and the membrane plate, or between the lid and the membrane plate. The diaphragm plate is elastically and / or plastically deformed, roughly in accordance with the spherical surface, with the exception of the narrow edge region which is connected to the bottom of the housing or to the lid.

The tensile stresses in the diaphragm, which arise from the thin-walled diaphragm plate with pressure fluid, are transmitted by firmly connecting the circuit to the bottom of the housing or to the lid.

The edge of the plate can be attached to the bottom of the housing or to the lid by gluing and / or screwing. In the case of a metal membrane plate, for example a thin deep-drawing plate, the edge of the plate can also be connected to the bottom of the housing or to the lid by welding.

The connection of the diaphragm plate to the bottom of the housing or to the lid can also be effected by a clamping ring screwed to the edge of the sheet, whereby the diaphragm plate is tightly pressed against its periphery to the bottom of the housing or the lid.

In such a solution, the fluid space filled with the pressurized liquid is formed only within the basic pressure space, below the elastomeric plate. Thus, when the volume of the pressurized fluid is changed, there are no relative displacements between the fluid space closure and the housing wall. Therefore, there is also no wear.

Since strokes of the raised or lowered masses of only a few centimeters are suitable, the membrane stresses in the domed thin membrane drs always remain well below the strength limits of the material. This arrangement virtually eliminates the leakage of the fluid space even in long-term operation.

Since the bottom of the housing, in contrast to the bag solution, creates in itself a lower limitation of the liquid space in which the pressure line entering the outside is provided, all sealing problems are eliminated. The same applies, of course, to the arrangement of the liquid space between the lid and the elasto

-2GB 278260 Ββ measuring plate and for pressure pipes coming from the outside and provided in the lid wall.

Another variant is that one membrane plate is connected to both the bottom of the housing and the lid. Corresponding pressure lines in the bottom of the housing and in the lid then allow the lifting of larger masses or the lifting of the curable or non-curable pressure fluids at different times.

A further advantageous development of the invention consists in that the diaphragm plate connected to its housing bottom and / or lid is provided with little profiling or ribbing. Thus, for example, at the beginning of the indentation, a more uniform distribution of the liquid can be obtained by means of grooves over the entire surface of the plate. In addition, this increases the deformation potential of the plate in the case of larger camber.

The pressure line leading to the liquid space can be closed in a known manner by a non-return valve.

A further advantageous embodiment of the invention consists in that two or more diaphragm plates of different diameters are arranged one above the other between the housing bottom and the elastomeric plate, or also between the lid and the elastomeric plate, and each of them is fixedly connected to the housing bottom or the lid. wherein the amount of liquid required for lifting is forced through independent pressure lines between the bottom of the housing and the diaphragm plate and between the lid and the second diaphragm plate, as well as between the stacked diaphragm plates.

Another advantageous embodiment of the invention is that the elastomeric plate is, for example, bonded to the membrane unit by gluing or vulcanization. This solution is particularly suitable when an elastomer is also chosen as the material for the membrane plate, which for example ensures a particularly high resistance to aggressive pressurized liquids, for example oil resistance.

If the elastomeric plate itself already has the required resistance, a separate membrane plate can finally be completely dispensed with. The elastomeric plate then also assumes the function of the membrane plate. Accordingly, it is rigidly connected on its circumference to the bottom of the housing or to the lid. This connection can be achieved, for example, by an annular bonding, or by correspondingly vulcanizing the elastomeric plate to the bottom of the housing or to the lid.

A further embodiment of the invention consists in vulcanizing the elastomeric plate along its periphery not directly to the bottom of the housing or the lid of the housing, but to a closure plate arranged on its bottom surface or top surface, the closure plate being for example metal.

The enclosed fluid space is then formed between the membrane plate and between the closure plate (s). For this purpose, the pressure line extending from the outside of the housing and / or the lid passing through the lid shortly before its end must be passed upwards or downwards by the closure plate or closure plates, thereby ensuring its opening in the liquid cavity formed between the elastomeric plate and the closure plate.

-3GB 278260 B6

In order to prevent the ingress of pressure fluid into the gap between the bottom of the sleeve or the cover of the sleeve and the closure plate, for example, an annular seal must be provided on the pressure pipe duct between the two metal parts.

For example, an annular seal can be inserted into a corresponding groove in the bottom, possibly in the lid and / or in the shutter plate, and the two metal parts can be screwed together from the outside so that the sealing ring is pressed firmly into the groove, supply pipe.

Description of the drawings

The invention is explained in more detail below with reference to the drawing.

FIG. 1 is a cross-sectional view of a height-adjustable bearing with a diaphragm plate welded to the bottom.

Giant. 2 shows a cross-section of a height-adjustable bearing with diaphragm plates welded to both the bottom and the lid.

Fig. 3 shows a partial cross-section of a height-adjustable bearing and a diaphragm plate which is pressed against the bottom of the housing by a screwed ring.

Giant. 4 shows a cross-section of another variant of a height-adjustable bearing with two diaphragm plates arranged one above the other and welded to the bottom of the housing.

FIG. 5 is a partial cross-sectional view of a height-adjustable bearing with a diaphragm plate provided with profiling or ribbing.

FIG. 6 is a cross-sectional view of another variant of a height-adjustable bearing in which the elastomeric plate and the membrane plate are vulcanized into one unit.

Fig. 7 shows a cross-section of a height-adjustable bearing in which locking plates are arranged below the elastomeric plate and above the elastomeric plate.

Giant. 8 is a partial cross-sectional view of a pressure line duct seal at the transition between the housing bottom and the closure plate.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows a cover 1 which is displaced by a measure x of stroke. The starting position is shown in dashed lines. Originally, only the elastomeric plate 4 filled by the pressure space between the housing lid 1, the housing bottom 2 and the housing wall 2 is enlarged by the pressure liquid pushed through the pressure line 5 with the check valve 9. The liquid space Z is closed from all sides by a thin, domed and circumferentially In accordance with the convexity of the membrane plate 6, the elastomeric plate 4 also deforms, the material being compressed from the center to the edges.

-4GB 278260 B6

FIG. 2 shows the lifting process of arranging the diaphragm plate 6 between the housing bottom 2 and the elastomeric plate 4 of the α-second diaphragm plate 8 between the lid 1 and the elastomeric plate

4. The two diaphragm plates 6, 8 are in each case firmly connected by welding or screwing on their circumferences 6a, 8a to the bottom 2 of the housing or to the cover 1. Under the diaphragm plate 6 a pressure line 5 extends from the outside. the second diaphragm plate 2 opens into the lid 1 of the second pressure line 10. As shown in FIG. 2, the lid 1 has been lifted by twice the stroke x after the pressurized fluid has been injected into the fluid space 7 between the housing bottom 2 and the membrane plate 6 and the second fluid space 7a between the lid 1 and the second membrane plate 8.

In the variant according to FIG. 3, the diaphragm plate 6 is pressed on its periphery to the bottom 2 of the housing by a clamping ring 15, which is fastened to the bottom 2 of the housing by the fixing screws 16. The inner edge of the clamping ring 15 is adapted in accordance with the deformation of the diaphragm plate 6. In this case, the diaphragm plate 6 is formed, for example, of a flexible plastic.

FIG. 4 shows a variant with two diaphragm plates 6, 13 arranged one above the other, which are on their circumferences 6a. 13a are welded to the bottom 2 of the housing. In this case, the pressure fluid is forced into the third liquid space 7b between the two diaphragm plates 6, 13 by the third pressure line 14 and into the space Ί between the lower diaphragm plate 6 and the housing bottom 2 by an independent pressure line 14a.

FIG. 5 shows a larger scale connection of the diaphragm plate 6 to the housing bottom 2 and the inlet of the pressure line 5 in the housing bottom 2 below the diaphragm plate 6. The diaphragm plate 6 is profiled or ribbed 17. The starting position of the diaphragm plate 6 is shown in dashed lines. . The diaphragm plate 6 is firmly connected to the bottom 2 of the housing by a weld seam on its periphery 6a.

FIG. 6 shows an elastomeric plate 4 firmly connected to the membrane plate 6 in one membrane unit 4 + 6. This membrane unit 4 + 6 is vulcanized to the bottom 2 of the housing by the periphery 18 of the unit. The bearing is shown in a raised condition, i.e. after the pressurized fluid has been pushed into the fluid space 7, which is firmly closed and formed between the housing bottom 2 and the membrane unit 4 + 6. The membrane unit 4 + 6 deforms accordingly.

Also in FIG. 7, the elastomeric plate 4 with the upper and lower membrane plates forms one unit. In this case, it is assumed that the membrane plates are formed of the same elastomer as the elastomeric plate 4 itself. The unitary elastomeric plate 4 thus formed is vulcanized over the periphery 18 of the unit and the upper periphery 18a of the unit 19, 19a. The pressure line 5 or the second pressure line 10 is bent up or down approximately in the middle of the bearing and is led through the closure plate 19 or the top closure plate 19a further up to the forming fluid space 7, 7a. The bearing is shown in an elevated state, wherein the liquid space 7 or the second liquid space 7a is formed both between the lower closure plate 19 and the upper closure plate 19a, by an elastomeric plate 4. ·

-5GB 278260 B6

In FIG. 8, an upwardly bent pressure line 5 and its transition into a shut-off plate 19 are shown on a larger scale in the housing bottom 2 and a flexible annular seal 20 is mounted on the pressure line 5 between the housing bottom 2 and the shut-off plate 19. The sealing plate 19 is pressed against the housing base plate 2 from the outside by the accessible screws 21 of the sealing plate in the region of the seal 20, the seal 20 being pushed into the corresponding annular groove in the housing base 2 and the sealing plate 19 by high pressure.

Claims (9)

1. A height-adjustable bearing for the transfer and lifting or lowering of heavy loads, for example in bridge construction, which consists of a steel housing with a housing bottom, housing walls and a lid, forming a closed pressure space on all sides in which the elastomeric plate is closed. a pressure line connected to a pressure fluid source, characterized in that it is concentrically on the bottom (2) of the sleeve between the bottom (2) of the housing and the elastomeric plate (4) and / or between the lid (1) and the elastomeric plate (4); / or a planar diaphragm plate (6, 8) of tensile-resistant material is provided on the cover (1) and is rigidly and tightly connected to its housing base (2) or lid (1) along its periphery (6a, 8a). Height-adjustable bearing according to claim 1, characterized in that the diaphragm plate (6, 8) is made of metal and is connected to its housing base (2) and / or the cover (1) by welding along its perimeter (6a, 8a). , vulcanization, wedging or screwing. Height-adjustable bearing according to claim 1, characterized in that the diaphragm plate (6, 8) is made of plastic and is connected along its circumference (6a, 8a) to the housing bottom (2) and / or to the cover (1). by vulcanizing, gluing, wedging or screwing. Height-adjustable bearing according to claim 1, characterized in that the diaphragm plate (6, 8) is pressed on its circumference (6a, 8a) to the housing bottom (2) and / or to the cover (1) by a screwed clamping ring (15). . Height-adjustable bearing according to claim 1, characterized in that the diaphragm plate (6) is provided with profiling or ribs (17). -6'4 Height-adjustable bearing according to one of Claims 1 to 5, characterized in that the enclosed fluid space (7, 7a) is divided by at least one additional diaphragm plate (13) which is connected along its circumference (13a) to the housing bottom (2) and and / or with the cover (1), and the pressure line (14a) opens between the bottom (2) of the housing and / or the cover (1) and the diaphragm plate (6) or the second diaphragm plate (8) and the independent pressure line (14) it opens between adjacent diaphragm plates (6, 8, 13). Height-adjustable bearing according to claim 1, characterized in that the membrane plate (6) is made of a rubber-like plastic or elastomer and forms a membrane unit with the elastomeric plate (4), which unit is vulcanized on its periphery (18) to form a membrane unit. the base (2) of the housing and / or the lid (1). Height-adjustable bearing according to claim 7, characterized in that the membrane unit is vulcanized on one upper plate (19), for example of metal, on its upper and / or lower side along the circumference (18). Height-adjustable bearing according to Claim 8, characterized in that the pressure line (5, 10) arranged in the bottom (2) of the housing or in the cover (1) is arranged upwards or downwards by a closing plate (19) up to the liquid a seal (20) is provided at the transition between the housing bottom (2) or the lid (1) and the closure plate (19).