EP2101011A1 - Adjustable support - Google Patents

Abstract

The support (1) has base elements (3) i.e. hollow body, rotatable around a common axis. The base elements include respective outer wall parts (9) with respective inwardly lying guide surfaces (13) for guiding the base elements by interlocking and rotation. The guide surfaces enclose an opening and are adjacent to surface regions. The base elements include respective guide elements (15), which are combined together with the guide surfaces of one of the base element for guiding the base elements. The base elements include an identical structure and are combined together with each other.

Description

The invention relates to an adjustable support, in particular a height-adjustable floor supports for system floors, such. Double, exhibition or assembly floors according to the preamble of claim 1.

From the DE 44 20 807 C2 a height-adjustable support member is known, which consists of two about a common axis relative to each other rotatable parts, wherein the facing sides have helically coiled concentric and the same slope having complementary surface areas which extend substantially around the entire circumference of the parts. The surface areas of the first part in this case have a groove, while the surface areas of the second part have a spring which cooperate to guide the two parts against each other.

From the DE 197 18 061 For example, there is known a floor support consisting of two base elements having a plurality of pairs of complementary helical pitch passages extending along the outer edge of the floor support. Between the pitch passages, a recess is provided in the one base element and a guide pin in the case of the other base element, so that the base elements can be inserted into one another via guide pins and recess in order to guide the elements against one another.

Such supports are preferably used to support subsequently or temporarily constructed system floors, such as elevated exhibition floors for events, shop fittings, office equipment, in showrooms and as raised floors on exhibition stands. They have the advantage that they can be set up quickly and have a high load capacity.

The known supports have the disadvantage that the production is relatively expensive, since several molds for the preparation of the individual parts of the supports are necessary.

The structure of the supports is relatively time-consuming, as always a matching element must be at hand for an element.

It is therefore the object underlying the present invention to provide an adjustable support which is easy to manufacture and allows a quick construction of the support.

The object is solved by the features of claim 1.

An adjustable support, in particular a height-adjustable floor support for system floors, such as double, exhibition or mounting floors consists at least of a first and a second base member which are at least partially plugged into each other and rotatable about a common axis. In this case, the first and the second base element in the nested state with each other facing sides are based on each other and by the rotation of the base elements against each other, the length of the support for height adjustment of a system base is changeable. The first and the second base element each have at least two outer wall parts, each with a helically wound surface region having an incline, wherein the surface regions of the outer wall parts each extend on the mutually facing sides of the base elements and are complementary to the surface regions of the respective other base element, in such a way that, in the assembled state of the base elements, the surface areas of a base element for supporting the base elements can be brought into abutment against the surface areas of the respective other base element. The outer wall parts of the first and the second base element each enclose at least one recess and have, on the surface areas adjacent, inner guide surfaces for guiding the base elements in the nesting and twisting. In this case, the first and the second base element each have at least one guide element which cooperates with the inner guide surfaces of the respective other base element for guiding the base elements and the first and the second base element have an identical structure.

By virtue of the fact that the first and second base elements are identically constructed or, in other words, congruent, it is possible to produce both basic elements of a support with the same casting tool. As a result, the manufacturing cost is significantly reduced, since only one type of casting tool must be provided. Since each base element can interact with each other, a quick set-up is possible since it is not necessary to search for a corresponding counterpart for a base element.

By providing at least one guide element on the base element, which interacts with a guide surface of the respective other base element, a particularly advantageous guidance is furthermore possible, since both base elements have an inner and an outer-part.

Preferably, the first and the second base member each have in the recess at least one helical pitch gear with an outer guide surface, wherein the at least one pitch gear forming at least one guide element of a base member, such that the outer guide surfaces of the pitch gear a base element with the inner guide surfaces of the outer wall parts of the respective other base element cooperate.

In this way, it is possible that the base elements are always performed in an advantageous manner to each other despite an identical structure, since the inner and outer guide surfaces have a relatively large contact surface against each other.

The arrangement of the outer walls and inner pitch passages, the leadership of the base elements via the inner and outer guide surfaces at least over a large part of the possible rotation of the base elements against each other.

In a preferred embodiment, each pitch passage of a base member has a pitch surface portion having a pitch complementary to a pitch surface area of a pitch gear of the other base member such that in the mated condition of the base members, a pitch surface area of a base member for supporting the base members can be brought together in abutment to a pitch surface area of a pitch gear of the respective other base element.

In this way, it is possible that the base elements are supported not only on the surface areas of the outer wall parts, but also a support on the slope surface areas of the pitch transitions of the base elements takes place. As a result, the pressure load of the individual surface areas is substantially reduced, so that a very high load capacity of the support is made possible.

Preferably, it is provided that the outer wall parts and / or the pitch threads have abutment surfaces which cooperate with the abutment surfaces of the respective other base element, such that two cooperating abutment surfaces of the base elements abut each other in a starting position of the support in which the length of the support is minimal ,

By providing the stop surfaces, it is possible to move the support by rotation of the base elements in the starting position, without paying attention to the angle of rotation of the base elements to each other. For example, when using the support as a floor support of a system floor, in which all floor supports are used in the minimum position, a particularly simple and quick construction is possible because the supports are quickly displaceable to the starting position in which they have the minimum length.

In addition, each base element may comprise at least one stop means, which cooperates with a stop means of the respective other base element, wherein in an end position of the support in which the length of the support is maximum, two stop means of the base elements abut each other.

This ensures that the supports can be brought into the end position in which the maximum length of the support is reached, without the base elements are rotated during rotation against each other and separate from each other. In the rotation of the base elements against each other thus falling apart of the support is prevented, so that a secure construction is ensured. The support can thus be adjusted even in the loaded state, without the risk that the support falls apart during the turning process. In addition, the end position of the supports can be adjusted without paying attention to the angle of rotation of the base elements relative to one another, so that, for example, floors which exclusively use supports of the maximum length as floor supports can be constructed in a particularly simple and rapid manner.

The invention can provide in an advantageous manner that the stop means is arranged on the inner guide surface of an outer wall part, wherein preferably the stop element simultaneously forms a guide element of the base element. Due to the dual function of a stop means as an end stop and at the same time guide element, a particularly simple construction of a base element is ensured.

Alternatively or additionally, a stop means may be arranged on one of the pitch gears or all pitch gears.

It can be provided that the pitch gears each have an inner second guide surface, and another guide element is arranged on the pitch gears, wherein the further guide element cooperates with the other guide surfaces of the respective other base member. In this case, preferably one of the stop elements form the further guide element.

By providing a second inner guide surface, the guidance of the base elements to each other is further improved.

It can be provided that the surface areas of the outer wall parts and / or the pitch surface areas of the pitch gears have a toothing, which cooperate with the teeth of the adjacent surface areas or pitch surface areas of the respective other base element in supporting the base elements to each other, such that a unwanted twisting is prevented when loading the support.

By providing a toothing on the adjoining surface areas ensures that the base elements securely support each other.

The toothing has the advantage that there is a discrete division, so that two adjacent supports always have the same length by rotation of the base elements against each other at the same angle. The toothing helps to set the same length for adjacent supports, since the number of tooth jumps when turning the base elements from the starting position can be determined by the tooth jumps are optically counted or that with a jump of a tooth on the next tooth the corresponding typical " Rattling noise "is counted.

In a particularly preferred embodiment, it is provided that the outer surfaces of the outer wall parts, the inner guide surfaces of the outer wall parts, the outer guide surfaces of the pitch gears and / or the inner second guide surfaces of the pitch gears are each Ausformschrägen.

By providing the said surfaces as shaping slopes, so that these surfaces are slightly inclined relative to the vertical, it is possible to easily remove the base elements from the casting mold in their production process.

It can be provided that the outer surfaces of the outer wall parts and / or the inner second guide surfaces of the pitch gears have attack points for a rotary tool, such that in the nested state of the base elements, a rotation of the base elements against each other by means of the tool is possible. By providing points of attack, it is possible to rotate the base elements against each other even in partially loaded condition. It can be provided that the tool engages the points of engagement such that even if several attachments are supported on the support, a rotation of the base elements against each other is possible.

It is preferably provided that each base element has two outer wall parts, which are offset by 180 ° and / or has two pitch passages, which are offset by 180 °.

It can be provided that the pitch gears are each offset by 90 ° relative to one of the two outer wall parts. By providing two outer wall parts, which are offset by 180 °, the base elements must be rotated by a maximum of 180 ° from each other to reach in the initial position of the support in the end position of the support.

The offset by 90 ° arrangement of the pitch gears with respect to the outer wall parts is further ensured that the base elements are plugged into one another in an advantageous manner and in the rotation against each other an advantageous leadership is guaranteed.

The base elements may be formed as a hollow body, wherein preferably reinforcing ribs are arranged in the hollow body. Here, a material-saving production of the base elements is possible, it being ensured by the reinforcing ribs that the base elements are designed to be particularly stable.

Fig. 1

eine schematische perspektivische Explosionsansicht einer erfindungsgemäßen Stütze,

Fig. 2

die schematische perspektivische Draufsicht auf eine Seite eines Basiselementes, die im Einsatz dem anderen Basiselement zugewandt ist und

Fig. 3

eine schematische Draufsicht auf die Stand- oder Tragseite eines Basiselements.

In the following, an embodiment of the present invention will be explained in more detail with reference to the figures. Show it:

Fig. 1

a schematic exploded perspective view of a support according to the invention,

Fig. 2

the schematic perspective top view of one side of a base member, which faces the other base member in use and

Fig. 3

a schematic plan view of the standing or supporting side of a base member.

In Fig. 1 an adjustable support 1 according to the invention in the form of a floor support is shown in a schematic exploded view. The adjustable support 1 consists of a first and a second base member 3 and an adapter plate 5. The first and the second base member 3 are of identical construction.

The first and the second base element 3 are plugged into one another to form a floor support. In the nested state, the base elements 3 with the sides 7 face each other. The base elements have a round cross-section, wherein the page 7 opposite side is the standing or support side 8 of the base member. The standing or supporting side 8 of the base element 3 is the side which - depending on the use of the base element 3 - either the side on which the base member is, the base member forms the lower part of the support 1 or the side which indirectly or a floor directly carries when the base member forms the upper part of the support.

An adapter plate 5 can be placed on the support side 8 in order to ensure a good connection between the floor support and the floor to be raised. For this purpose, the adapter plate 5 projections 6, which can cooperate with corresponding holes in the bottom plates. For this purpose, the projections 6 are arranged offset on the adapter plate 5 by 90 °, so that a projection is in engagement with a bottom plate when four more floor panels to be attached to the floor support, such that the floor support is located in the central region of a floor. Two projections are engaged with a bottom plate when another bottom plate is to be placed on the bottom support. This is the case when the floor support is at the edge of a floor. All four protrusions may also engage in a single floor panel when the floor support is located in the corner of a floor. The projections can be used simultaneously to fix at least two floor slabs laid on a floor support to prevent slippage of the floor slabs.

The base elements 3 each have two outer wall parts 9, which have an outer surface 31 and an inner guide surface 13. The outer wall parts 9 each have a helically wound surface region 11 having an incline.

The surface regions 11 of the outer wall parts 9 each extend on the mutually facing sides 7 of the base elements 3 and are complementary to corresponding surface area 11 of the respective other base element 3. This makes it possible that in the assembled state of the base elements 3, the surface areas 11 of a base member 3 for Supporting the base elements 3 can be brought together in abutment with the surface areas 11 of the respective other base element 3.

The end faces of the outer wall parts 9 adjacent to the end of the rising surface area 11 are designed as abutment surfaces 23 so that the abutment surfaces of an outer wall part 9 of a base element 3 can cooperate with the abutment surfaces 23 of an outer wall part 9 of the other base element 3 in the assembled state of the base elements 3.

Between the outer wall parts 9, a recess is formed, in which two pitch passages 15 are arranged. The pitch gears 15 have an outer guide surface 19 and an inner second guide surfaces 27. Furthermore, a gradient surface region 21 is arranged on the gradient gears, which is complementary to a gradient surface region 21 of a pitch passage 15 of the respective other base element 3.

In the mated condition of the base elements 3, a gradient area 21 of a base element 3 can thus be supported on the gradient area 21 of a pitch passage 15 of the respective other base element 3. The support of the base elements 3 against each other thus takes place both on the slope surface areas 21 and on the surface areas 11.

The pitch gears 15 also serve as a guide element for guiding the base elements in the nesting and the rotation against each other. For this purpose, the outer guide surface 19 of the pitch gears 15 bears against the inner guide surface 13 of the outer wall parts.

The end faces of the pitch passage adjoining at the end of the pitch surface areas are designed as stop faces 23. The abutment surfaces 23 of the outer wall parts 9 are in the starting position of the floor support, in which the floor supports has the minimum length, to the abutment surfaces 23 of the outer wall parts of the other base element, as well as the abutment surfaces 23 of the pitch gears 15 on the corresponding abutment surfaces 23 of the pitch gears 15th abut the other base element 3. This makes it possible, by simply rotating the base elements 3 against each other to reach the stop position, the starting position of the floor support.

At the inner second guide surfaces 27 stop means 25 are arranged, which simultaneously serve as further guide elements by cooperating with a protruding edge with the inner second guide surface 27 of the other base element 3. This makes it possible to provide a further guide, so that a guide of the base members 3 to each other is possible when the outer guide surfaces 19 are no longer in contact with the inner guide surfaces 13. In addition, the stop means 25 serve as a stop of the base members 3 to each other when the end position of the floor support is reached while the floor support has the maximum length. In this way, it is ensured that an over-rotation of the base elements 3 against each other is prevented, so that a falling apart of the base elements 3 is prevented during rotation. In addition, the achievement of the end position is possible in a simple manner by the base elements 3 are rotated until the striking means 25 against each other.

In one embodiment, not shown, the stop means may alternatively or additionally be arranged on the inner guide surfaces.

The inner second guide surface 27 can also serve as a centering guide for the adapter plate 5 by a corresponding guide means 10 is arranged on the adapter plate 5, which cooperates with the inner second guide surface 27.

The surface regions 11 of the outer wall parts 9 and the slope surface regions 21 of the pitch gears 15 may have teeth 29 which ensure a toothing of the base elements 3 against each other. This prevents unwanted twisting when the floor support is loaded. The teeth 29 may be formed so that a self-locking occurs by both flanks of the teeth are inclined over the horizontal in the same direction.

The outer walls 9 and the pitch passages 15 each extend through 180 °, wherein the pitch gears 15 are offset from the outer wall portions 9 by 90 °. This is how out Fig. 2 it can be seen, the complete page 7 provided with teeth, so that in each rotational position of the base elements to each other teeth of a base member 3 with the teeth of the other base member 3 are engaged.

The surface areas of the outer wall parts are arranged to correspond to portions of two intertwined, helically wound surfaces. Also, the slope surface areas are part surfaces of two intertwined, helically curved rising surfaces.

The outer surface 31 and the inner guide surfaces 13 of the outer wall 9, the outer guide surfaces 19 and the inner second guide surfaces 27 of the pitch gears 15 may be formed as Ausformschrägen so that they have a slight cone shape. As a result, an easy detachment of the base elements from a mold is possible.

How best Fig. 3 it can be seen, the base elements are formed as a hollow body. For reinforcement, the base elements on reinforcing ribs, which extend radially. In addition, circumferential reinforcing ribs 33 may also be provided.

On the outer surface 31 and / or the inner second guide surfaces attack points may be provided, which is engaged by a tool with which a base member relative to the other can be rotated. The points of attack are not shown in the illustrated embodiments. In one embodiment, the stop means 25 are the points of attack for the tool.

In an embodiment of the present invention, not shown, it may be provided that the adapter disc has nubs which cooperate with the reinforcing ribs on the support side of a base element, so that the adapter disc is rotatably connected to the base element. When bottom parts are placed on such a floor support, the upper base element is thus fixed, so that only the lower base element can be rotated. This is an advantage when adjusting the floor support since the rotation of the base elements against each other, the upper base element does not need to be held.

It is also possible that on the side of the base member openings are provided which can cooperate with the projections of the adapter disc, so that a plurality of floor supports can be placed one above the other with the aid of the adapter disc.

In a particularly advantageous embodiment of the floor support, the adapter plate on the top and bottom projections, which then engage in the corresponding openings on the support or support side of the base elements.

Of course, it is possible that three or more outer wall parts are provided on a base member instead of two outer wall parts. Also, more than two pitch gears can be arranged in the recess. It is not absolutely necessary that the number of outer wall parts and the number of pitch gears match.

The support according to the invention need not necessarily have only one adapter disc. It is also possible that several adapter discs of the same or different height belong to the support according to the invention, which can be placed on the support side or under the stand side.

It can be provided that markings are provided on the outer surface of the outer wall parts, which cooperate with the markings of the respective other base part, so that for example the position of the base elements to one another, the angle of rotation and / or the resulting length of the support can be read.

The support according to the invention can be used in many ways. In addition to being used as a floor support, the support can also be used to support other items. For example, it is provided that the adjustable support is arranged such that its axis runs horizontally. For example, the support may be attached as an adjustable stop to a wall to which a door or the like may strike. For this purpose, for example, be provided that a base part is fixed to the wall and the other base part is connected via clamping means with the first base part.

It is also possible to use the support for fastening cassettes or wall panels for walls or ceilings, so that they can be spaced with the aid of adjustable supports with a uniform distance from a wall.

Furthermore, it is possible to provide the support according to the invention as an adjustable base for machines or tools. It is for example possible to store on two or more supports according to the invention a puller for screed, concrete or other bulk materials, so that the height of the scraper is adjustable by means of the adjustable supports according to the invention.

Claims (14)

Adjustable support (1), in particular height-adjustable floor support for system floors, double, exhibition or assembly floors, at least consisting of a first and a second base element (3) which are at least partially plugged into each other and rotatable about a common axis, - Wherein the first and the second base member (3) in the nested state with mutually facing sides (7) are mutually supported and by the rotation of the base elements (3) against each other, the length of the support (1) for height adjustment of a system floor is changeable, - Wherein the first and the second base member (3) each having at least two outer wall parts (9) each having a helically wound, having a slope surface area (11), wherein the surface areas (11) of the outer wall parts (9) respectively facing each other Side (7) of the base elements (3) extend and are complementary to the surface areas (11) of the respective other base element (3), such that in the assembled state of the base elements (3), the surface areas (11) of a base element (3) for support the base elements (3) can be brought into abutment against the surface regions (11) of the respective other base element (3), - Wherein the outer wall parts (9) of the first and the second base member (3) each enclose at least one recess and adjacent to the surface areas, inner guide surfaces (13) for guiding the base elements (3) in the nesting and the rotation, characterized, - That the first and the second base member (3) each have at least one guide element (15) which cooperates with the inner guide surfaces (13) of the respective other base element (3) for guiding the base elements (3) and - That the first and the second base member (3) have an identical structure. Support according to claim 1, characterized in that the first and second base element (3) in each case in the recess at least one helically curved pitch passage (15) having an outer guide surface (19), wherein the at least one pitch passage (15), the at least one guide element (15) of a base element (3), such that the outer guide surfaces (19) of the pitch passage (15) of a base element (3) with the inner guide surfaces (13) of the outer wall parts (9) of the respective other base element (3) cooperate. A support according to claim 2, characterized in that each pitch passage (15) of a base element (3) has a slope surface area (21) having a slope which is complementary to a pitch surface area (21) of a pitch passage (15) of the other base element (3) is such that in the assembled state of the base elements (3) a slope area (21) of a base element (3) for supporting the base elements (3) on each other in abutment with a slope area (21) of a pitch (15 ) of the respective other base element (3) can be brought. Support according to one of claims 1 to 3, characterized in that the outer wall parts (9) and / or the pitch passages (15) abutment surfaces (23) which cooperate with the stop surfaces (23) of the respective other base element (3), in such that two cooperating stop surfaces (23) of the base elements (3) in an initial position of the support (1), in which the length of the support (1) is minimal, abut each other. Support according to one of claims 1 to 4, characterized in that each base element (3) at least one stop means (25) which cooperates with a stop means (25) of the respective other base element (3), wherein in an end position of the support (1 ), in which the length of the support (1) is maximum, two abutment means (25) of the base elements (3) abut each other. Support according to claim 5, characterized in that the stop means (25) on the inner guide surfaces (13) of an outer wall part (9) is arranged, wherein preferably the stop means (25) simultaneously forms a guide element (25) of a base element. Support according to claim 5 or 6, characterized in that a stop means (25) is arranged on one of the pitch passages (15). Support according to one of claims 2 to 7, characterized in that the pitch passages (15) each have an inner second guide surface (27), and a further guide element (25) on the pitch passages (15) is arranged, wherein the further guide element (25 ) cooperates with the inner second guide surfaces (27) of the respective other base element (3) and wherein preferably one of the stop elements (25) forms the further guide element (25). Support according to one of claims 1 to 8, characterized in that the surface areas (11) of the outer wall parts (9) and / or the slope surface areas (21) of the pitch passages (15) have a toothing (29) with the toothing ( 29) of the adjacent surface regions (11) or slope surface areas (21) of the respective other base element (3) in the support of the base elements (3) cooperates with each other, such that an unwanted rotation under load of the support (1) is prevented. Support according to one of claims 1 to 9, characterized in that outer surfaces (31) of the outer wall parts (9), the inner guide surfaces (13) of the outer wall parts (9), the outer guide surfaces (19) of the pitch passages (15) and / or inside second guide surfaces (27) of the pitch gears (15) are each Ausformschrägen. Support according to one of claims 8 to 10, characterized in that outer surfaces (31) of the outer wall parts (9) and / or the inner second guide surfaces (27) of the pitch gears (15) points of attack for a rotary tool have, such that in the nested state the basic elements a rotation of the base elements (3) against each other by means of the tool is possible. Support according to one of claims 1 to 11, characterized in that each base element (3) has two outer wall parts (9) which are offset by 180 ° and / or two pitch passages (15) which are offset by 180 °. Support according to claim 12, characterized in that the two pitch passages (15) are each offset by 90 ° with respect to one of the two outer wall parts (9). Support according to one of claims 1 to 13, characterized in that the base elements (3) are formed as hollow bodies, wherein preferably reinforcing ribs (33) are arranged in the hollow body.

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