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    • 专利摘要:
    Adapter (3) for hanging an object on a quasi horizontally oriented longitudinal support profile with two parallel undercuts running in a longitudinal direction. The adapter comprises a base (31) having a central axis (311) and two wing portions (32) movable on the base (31) relative to the central axis (311) and each provided with a snap-in projection (323). The wing parts (32) are formed corresponding to the undercuts of the support profile. The adapter further comprises biasing means (36) biasing the wing members (32) so as to be moved to a latching position with the base (31) in which the latching projections (323) of the wing members (32) are engageable behind the undercuts of the support profile , The adapter (3) also has a release structure (35) with an actuating element. The wing members (32) are movable by the release structure (35) upon actuation of the actuating element against the bias of the biasing means (36) in an exemption to the base (31).
    公开号:CH713064A1
    申请号:CH01408/16
    申请日:2016-10-20
    公开日:2018-04-30
    发明作者:Jerabek Harald;Sander Marco
    申请人:Visplay Int Ag;
    IPC主号:
    专利说明:

    TECHNICAL FIELD The invention relates to an adapter for hanging an object on a quasi horizontally oriented longitudinal support profile with two longitudinal parallel undercuts. The invention further relates to a support or suspension system with such an adapter, a support profile and an object.
    PRIOR ART For the presentation of goods, for example, in sales shops or at trade fairs or for the design and functionalization of rooms, those mounted on walls and mounted on the floor goods carriers, room designers and functional consoles, including those used on the ceiling are attached. In this case, such objects are partially mounted directly to the ceiling or to the ceiling connected fasteners such as hooks screwed into the ceiling.
    Often, however, there is a need to make changes in the room. For example, it may be desirable to reorganize the space or to provide functions such as power to other locations in the room. Or there may be a need to change the merchandise display or its presentation. In this case, the mentioned goods carriers usually have to be disassembled and replaced relatively expensively from the ceiling or reassembled at another location.
    In order to have more flexibility for a regular redesign of the room, the functionalities of the merchandise display and associated presentation elements, support systems are known in which carriers are attached indirectly to the ceiling. For example, many such support systems include support profiles such as square tubes or rails mounted either directly or suspended on the ceiling. On such ceiling support profiles then carriers are attached, which can carry objects of the type mentioned. Here, the objects can be moved, umgehängt, exchanged or removed without major modifications are necessary or the support profiles themselves must be re-assembled.
    In some applications, support systems with support profiles can also be embedded in panels or similar constructions. For example, the support profiles can be attached to the supporting ceiling. Laterally next to the support profiles then panels or stretched textile materials can be mounted on the load-bearing ceiling. Thus, the support profiles can be visually perceived as part of the ceiling itself.
    To attach the carrier to the support profiles, it is known to screw the goods carrier to the support profiles or to clamp by means of clamping screws to the support profiles. Such attachment is relatively expensive and tools must be used which typically require the assistance of a person skilled in the art. In addition, the attachment to the support profile itself must be done, which is typically close to the ceiling so high in the room. This makes the attachment and design of the carrier or their arrangement inflexible and uncomfortable. Alternatively, it is known to hang the carrier loosely on the support profiles. Although such a suspension allows a relatively simple moving and rearranging the carrier, but so suspended carriers are relatively unstable and uncertain.
    The present invention is therefore an object of the invention to propose a system or components that achieve a simple, flexible and secure fastening a carrier to a support profile to allow flexible placement of an object in a room.
    DESCRIPTION OF THE INVENTION The object is achieved according to the invention by an adapter as defined in independent claim 1 and by a suspension system as defined in claim 15. Advantageous embodiments of the invention will become apparent from the dependent claims.
    The essence of the invention consists in the following: An adapter for suspending an object on a quasi horizontally oriented longitudinal support profile with two parallel in a longitudinal direction undercuts comprises a base having a central axis and two movable at the base relative to the central axis wing parts. The wing parts are each equipped with a latching projection, wherein the wing parts are formed corresponding to the undercuts of the support profile. The adapter further comprises a biasing means and a release structure. The biasing means biases the wing parts, so that they are in an exemption or in particular in a detent position in which the latching projections of the wing portions behind the undercuts of the support are latched, are moved to the base. The release structure has an actuating element, wherein the wing parts are movable by the release structure upon actuation of the actuating element against the bias of the biasing device in the locking position or in particular in the release to the base.
    The object to be suspended can be any part which, for example, should be arranged in a room at a certain location for a specific purpose. For example, such an object may be a connection console to which electrical devices or data communication devices are connected. So it can be for
    Power supply or data transmission over the support profile serve to a place in the room at which otherwise a power supply or data transmission would be difficult or expensive. Or the object may be a room design element such as a panel, a room divider, a noise barrier or a curtain. Or the object may be an information carrier such as a poster, a graphic or a price tag.
    The support profile may in particular be a ceiling support profile. The ceiling support profile may for example also be provided for the presentation of goods or for the installation of other devices such as lights and the like. Also, the support profile may be live, so that it can be electrified on him, for example, via the adapter mounted elements. The support profile may be rail-shaped or basically tubular. Typically, the support profile is straight in its longitudinal direction, but it can also be curved or angular.
    The undercuts can be provided as steps or noses on the support profile. They can also be formed by a part of a surface of the support profile. In particular, they can each have a quasi-horizontal upwardly directed abutment surface against which the Einrastvorsprünge the wing parts can rest when the adapter is mounted on the support profile. As a result, a vertical movement of the adapter can be blocked down. Even if the undercuts can be segmented or interrupted along the longitudinal course of the support profile, they are advantageously formed continuously. Such continuous undercuts allow an efficient displacement of the adapter along the support profile when it is mounted on the support profile and thus is in the locked position.
    The base of the adapter may be formed in several parts or in particular in one piece. Its central axis can divide the base into two more or less equal or symmetrical parts or sections. When the adapter is attached to the support profile, the center axis of the base may extend along the longitudinal direction of the support profile and in particular coincide with a longitudinal center axis of the support profile. The base can serve as a support for the wing parts and other components of the adapter such as described below, a suspension structure or a suspension.
    The adapter may be integrally formed or consist of several components that are composed. The components may in turn be grouped in one piece or individually. The wing parts can be made in two parts or together in one piece. For example, they may be connected together in one piece via the pretensioning device. Regardless of a one-piece or multi-piece configuration, the wing parts can, however, be movable or tiltable relative to one another and, in particular, toward one another or away from one another.
    The wing parts are formed corresponding to the undercuts of the support profile by being shaped and arranged with their Einrastvorsprüngen so that they can cooperate with the undercuts. For example, in embodiments in which the undercuts each have a quasi-horizontal upwardly directed abutment surface, the latching projections each comprise a quasi-horizontal downwardly directed stop surface, wherein the wing parts are dimensioned so that the abutment surfaces of the latching projections correspond to the stop surfaces of the undercuts.
    The term "movable with respect to the central axis" may refer to the wing parts in that the wing parts can be at least partially moved to the central axis and / or away from the central axis. Not as movable with respect to the central axis in this sense, a movement along the central axis can be understood.
    The term "behind the undercuts of the support profile latched" may refer in connection with the wing parts to the fact that the latching projections interact with the undercuts, so that the adapter is attached to the support section. In this case, when the adapter is locked, so while the adapter is arranged in the detent position as intended on the support section, a movement along the support profile still be possible, a vertical movement down but not.
    In the locking position of the adapter is arranged so that it can not be removed vertically from the support section in particular down when it is attached thereto or mounted. In particular, the adapter can be attached in its latching position hanging on the support section, so that a vertical movement is prevented downwards. At the same time, the adapter can be designed such that it can be moved along the carrier profile when it is in the locked position. For this purpose, the projections of the wing parts and the undercuts of the support profile are advantageously designed so that a comfortable or low-friction sliding or sliding of the adapter along the support profile is possible.
    In the exemption, the latching projections of the wing parts are not in interaction with the undercuts of the support profile or away from them, so that the adapter can also be moved back down relative to the support profile. The adapter can thus be taken from the support profile relieved or removed.
    By biasing the biasing means the wing parts, the adapter may be without further action in its exemption or in its detent position. In this case, the adapter can be particularly easily mounted on the support section by being pressed on or on this, the wing parts are moved briefly and then moved back behind the undercuts. The adapter can be switched on or snapped on the support profile.
    The biasing means can bias the wing parts by pulling them towards each other in the locking position. They can then be moved into the release by being pushed apart. Preferably, the undercuts are aligned to the outside or away from the longitudinal axis. Alternatively, the biasing means may bias the wing members by urging them away from each other in the locked position. They can then be moved into the release by being pressed towards each other. Preferably, the undercuts are aligned inwards or to the longitudinal axis.
    The inventive adapter allows a simple and secure attachment to the support profile, especially if this is provided as a ceiling support profile. An object to be arranged in the room can be mounted on the adapter, so that it can be fastened to the carrier profile together with the adapter. The adapter can be moved in this fastened position along the support profile so that the object can be moved along the support profile in the room. Also, the adapter allows easy tool-free assembly and disassembly of the support profile, which can improve the flexibility of the arrangement of the object in the room.
    Preferably, the wing parts are each tiltably mounted on the base, so that they are movable relative to the central axis of the base by tilting to the base. The wing parts themselves can essentially retain their shape or do not need to be deformed. In this way, the wing parts can be efficiently realized in a stable design and be movable to the base.
    In a first preferred embodiment, the actuating element of the release structure comprises a pull rope, wherein the release structure is adapted to that the wing parts are movable by pulling the pull rope in the release to the base. Such a pull rope allows easy convenient operation of the adapter in particular to its detachment from the support profile. In addition, such a pull rope can be easily dimensioned so that it can be operated comfortably and efficiently. For example, its length can be adapted to a room height or a suspension height of the object, so that the actuating element can be operated from the ground without ladder or the like.
    In this case, the release structure preferably comprises a deflection element, wherein the pull rope is connected via the deflection element with the wing parts. The deflecting element may be a curved or curved cable guide. In this case, the pull rope can be deflected with advantage over at least 90 °, over at least 120 ° and in particular by about 180 °. About such a deflection, the pull rope can act like a flaschenzugartig on one or both wing parts. This allows the wing parts to be moved efficiently into the release position.
    In a second preferred embodiment, the actuating element of the release structure comprises a rod, wherein the release structure is adapted to that the wing parts are movable by pulling or pushing the rod in the release to the base. The pulling and pushing of the rod may refer to a movement relative to the base. Such a rod may allow efficient actuation of the release structure in many embodiments. In particular, it can also allow a flexible design of the wing parts.
    Preferably, the wing portions are formed in a cross section at right angles to the central axis of the base each quasi L-shaped. Such a shape of the wing parts allows efficient operation of the release structure regardless of a direction of action of the latching projections. For example, such a shape may allow the actuating element of the release structure to act quasi vertically on the wing sections and nevertheless a more or less lateral movement, ie a movement outwards or inwards or a movement towards or away from the central axis of the latching projections triggers. This may allow efficient actuation of the release structure and movement of the wing members into the release.
    In this case, the wing parts preferably each have a substantially horizontal portion and a substantially vertical portion, wherein the latching projections are arranged on the vertical portions of the wing portions and the actuating element of the release structure to the vertical portions of the wing portions or in particular to the horizontal portions the wing parts is coupled. In this case, the sections mentioned can lie substantially horizontally or substantially vertically, in particular either in the detent position or in the release position. With the coupling of the actuating element to the wing parts, these can be moved efficiently. In particular, this can create a moment on the wing parts which tilts or pivots them.
    Preferably, the adapter comprises a pendulum mount mounted on the base. Such a suspension allows a flexible and customizable suspension of the object on the support profile. In particular, the oscillating design makes it possible to make adjustments to the position of the object in the room when it is already suspended from the supporting profile. For example, the object can be pulled directly to move without a significant moment is generated on the support profile.
    Preferably, the adapter has a mounted on the base suspension structure. The suspension structure can be made more or less solid. It can for example be a suspension rod or something similar. Such a suspension structure, which may be fixed or movable or oscillating mounted on the base, allows a stable and fixed arrangement of the object in space when it is attached to the adapter via the suspension structure.
    In particular, it can also be achieved with a suspension structure that the object is arranged at a predefined distance from the carrier profile.
    In this case, the suspension structure preferably at its base end remote from the longitudinal end of a rotatable coupling member on which the object can be fastened. Such a coupling member, which is rotatable in particular in a horizontal plane, makes it possible for the object to be aligned in the desired manner when it is suspended from the carrier profile. This allows the room in a preferred manner equip or design.
    The suspension structure can be designed so that it is also the actuating element of the release structure at the same time. In particular, the release structure can be actuated by a specific movement of the suspension structure, such as lifting. Alternatively, the actuating element of the release structure preferably extends at least as far as a longitudinal end of the suspension structure facing away from the base. These two versions of the actuator allow easy operation of the release structure of a lower end of the suspension structure, so that the adapter can be easily detached from the ground from the support section and removed.
    In a first preferred embodiment, the Einrastvorsprünge the wing parts are designed as sliding bearings. Such bearings allow an efficient displacement of the adapter along the support profile while it is in its detent position or while it is suspended from the support profile. Also, such slide bearings are relatively simple and inexpensive to produce. In an alternative second embodiment, the Einrastvorsprünge the wing parts are designed as rollers for the same purpose.
    The biasing device can be realized in different ways. For example, it may be implemented via the inherent elasticity of the wing parts directly in them. Preferably, the biasing means on a spring element which presses the wing parts in the direction of the detent position. The spring element may, for example, a leaf spring-like elastic low-profile component, which connects the two wing parts together, be executed. Such a spring element allows efficient expedient biasing of the wing parts.
    Another aspect of the invention relates to a support system with an object to be arranged in a space, a longitudinal support profile with two longitudinal parallel undercuts and an adapter as described above. The support profile can be mounted almost horizontal aligned near a ceiling of the room. The adapter is designed so that the object can be fastened to the carrier profile. An actuator of a release structure of the adapter is operable from a floor of the room.
    Such a support system allows a simple, flexible and secure attachment of the object to the support profile, whereby a flexible arrangement of the object is achieved in the room. In particular, the support system according to the invention makes it possible to efficiently achieve the effects and advantages of the adapter according to the invention and its preferred embodiments described above.
    Preferably, the adapter and the support profile of the support system are formed so that the adapter along the support profile or in the longitudinal direction of the support profile is displaceable when the adapter is attached to the support profile. This allows a flexible reshaping of the space or positioning of the object in space.
    BRIEF DESCRIPTION OF THE DRAWINGS Further advantageous embodiments of the invention will become apparent from the following description of exemplary embodiments of the invention with the aid of the schematic drawing. In particular, the adapter according to the invention and the support system according to the invention will be described in more detail below with reference to the accompanying drawings with reference to exemplary embodiments. Show it:
    1 is a perspective view of a first embodiment of an inventive adapter of a first embodiment of an inventive support system.
    Fig. 2 is a side view of the support system of Fig. 1;
    FIG. 3 is an exploded perspective view of the adapter of FIG. 1 without a suspension structure; FIG.
    Fig. 4 is a front view of the adapter of Fig. 3;
    Fig. 5 is a cross-sectional view taken along line B-B of Fig. 4;
    Fig. 6 is a cross-sectional view of the support system of Fig. 1 with the adapter in the locked position;
    Figure 7 is a cross-sectional view of the support system of Figure 1 with the adapter in an exemption.
    Fig. 8 is a cross-sectional view of the support system of Fig. 1 with the adapter detached;
    Fig. 9 is a perspective view of the support system of Fig. 1 with a divider as an object to be suspended prior to transfer;
    FIG. 10 is a perspective view of the support system of FIG. 9 during transfer; FIG.
    Fig. 11 is another perspective view of the support system of Fig. 9 during transfer;
    Fig. 12 is a perspective view of the support system of Fig. 9 after transfer;
    Fig. 13 is a side view of the support system of Fig. 9 during a displacement;
    14 is a perspective view of a second embodiment of an inventive adapter of a second embodiment of a support system according to the invention with a pin board as suspended object.
    Fig. 15 is a perspective view of the detail D of Fig. 14;
    Fig. 16 is a perspective view of the detail E of Fig. 14; and
    FIG. 17 is a cross-sectional view of the adapter of FIG. 14. FIG.
    Way (s) for Carrying Out the Invention Certain terms are used in the following description for convenience and are not intended to be limiting. The words "right", "left", "bottom" and "top" denote directions in the drawing referred to. The terms "inward," "outward," "below," "above," "left," "right," or the like, are used to describe the arrangement of designated parts to each other, the movement of designated parts toward each other, and the directions toward or away from geometric center of the invention and named parts thereof as shown in the figures used. These relative relative terms also include other positions and orientations than those shown in the figures. For example, when a part shown in the figures is turned over, elements or features described as "below" are then "above." The terminology includes the words expressly mentioned above, derivatives thereof, and words of similar meaning.
    To avoid repetition in the figures and the associated description of the various aspects and embodiments, certain features are to be understood as being common to various aspects and embodiments. The omission of an aspect in the description or a figure does not suggest that this aspect is lacking in the associated embodiment. Rather, such omission may serve the purpose of clarity and prevention of repetition. In this context, the following definition applies to the entire further description: If reference signs are included in a figure for the purpose of clarity of drawing, but are not mentioned in the directly related descriptive text, reference is made to the explanation thereof in the preceding description of the figures. If reference signs are also mentioned in the description text which belongs directly to a figure, which are not included in the associated figure, reference is made to the preceding and following figures. Like reference numerals in two or more figures indicate similar or like elements.
    Fig. 1 shows a first embodiment of an inventive adapter 3 of an embodiment of an inventive support system 1 with a base 31 and a vertically attached thereto via a pendulum suspension 33 suspension belt 34 as a suspension structure. At its lower longitudinal end facing away from the base 31, the suspension belt 34 is equipped with a coupling member 37. The coupling member 37 comprises a rotary bearing 371 and fixing means 372, to which an object to be suspended by means of the adapter 3 can be fastened. About the rotary bearing 371, the suspended by means of the adapter 3 object can be rotated about a vertical axis of rotation.
    The base 31 has a central axis 311. At its two ends in the direction of the central axis 311, the base 31 is respectively provided with two lateral securing portions 312 which extend vertically upwards. Mirror symmetrical to the central axis 311, two opposing wing parts 32 are tiltably mounted on the base 31. The wing portions 32 each have a vertical portion 321 from the upper end portions of each one latching projection 323 extends as a sliding bearing inwards. The latching projections 323 face each other and are aligned with each other.
    The adapter 3 further comprises a release structure 35 and a biasing means 36. The biasing means 36 comprises two leaf spring portions 361 which act on the two wing members 32 and biasing them into the locking position shown in FIG.
    In Fig. 2, the support system 1 is shown from one side. It can be seen that the release structure 35 has a pull cable 351 which extends from the base 31 in the suspension belt 34 down. The support system 1 further comprises a ceiling support profile 2 as a support profile. The ceiling support profile 2 is designed longitudinally and quasi square-shaped from the outside. It has a longitudinal axis 21 or central longitudinal axis. When attached as shown in Fig. 2 adapter 3, the central axis 311 of the base 31 extends parallel to the longitudinal axis 21 of the ceiling support profile 2. The adapter 3 is in the locked position in which it is immovably fixed in a vertical direction down to the ceiling support profile 2. Along the ceiling support profile 2 or along its longitudinal axis 21, however, the adapter 3 is horizontally displaceable.
    Fig. 3 shows the adapter 3 in an exploded view. In this case, individual components of the adapter 3 can be seen, which are supported by the base 31. The vertical portions 321 of the wing portions 32 each include an inner wall portion 3211 and an outer wall portion 3212 fixedly secured thereto by three horizontal screws. The inner wall portions 3211 of the two wing portions 32 are integrally formed together and connected to each other via the two parallel leaf spring portions 361 of the biasing means 36. The latching projections 323 are respectively formed on one of the two inner wall portions 3211 of the vertical portions 321 of the wing portions 32. The outer wall portions 3212 of the vertical portions 321 of the wing portions 32 are each formed integrally with a horizontal portion 322 of the wing portions 32. The horizontal portions 322 extend inwardly towards each other and are each provided at their inner end with two recesses 3221 for passing the traction cable 351. The wing parts 32 are thus configured in each case L-shaped. They are fixed to the base 31 together with the biasing means 36 by means of four vertical screws.
    The release structure 35 comprises a base part 354, through which the pull cable 351 is guided. At its two longitudinal ends, the traction cable 351 is equipped with a traction head 353. The traction cable 351 extends from the base part 354 arranged a traction head 353 through the base and out of this vertically downwards, turns at a lowest point and extends vertically back up through the base 354 through to the other pulling head 353th
    The suspension 33 comprises a horizontal plate 332 fixedly bolted to the base 31, and two mounting louvers 333 extending through the base 31 and the base 354 of the release structure 35. The base 354 of the release structure 35 is between a horizontal plate 332 of the suspension 33 and base 31 clamped and thus firmly connected to this. The mounting louvers 333 are connected via a pendulum axis 331 with the horizontal plate 332.
    In Fig. 4, the adapter 3 is shown without suspension strap 34 from the front. The base 31 forms a front wall, which closes the adapter 3 in the direction of the central axis 311. The adapter 3 is formed slide-like over large parts. The pull cable 351 of the release structure 35 extends vertically downward between the two mounting louvers 333 of the suspension 33. The latching projections 323 of the wing portions 32 project beyond side portions of the base 31 inwardly.
    Fig. 5 shows a cross section of the adapter 3 along a plane in which the central axis 311 of the base 31 is located. It can be seen that the pull cable 351 of the release structure 35 extends from top to bottom on both sides through the indentations 3221 of the horizontal sections 322 of the wing parts 32 and ends in one of the two tension heads 353. The two indentations 3221 of the horizontal sections 322 of the wing parts 32 together form two passages, which are dimensioned so that the pull cable 351 fits through, but the tension heads 353 do not. The train heads 353 are thus applied to an underside of the horizontal sections 322.
    Starting from the traction heads 353 and the horizontal portions 322 of the wing portions 32, the traction cable 351 is turned on both sides in each case via a formed in the base 354 rounded deflection guide 352 as a deflecting element by 180 °. So it runs from the traction heads 353 a short distance vertically upwards, is then turned by the deflection guides and then extends vertically downwards. The pull rope 351 is arranged by means of the Umlenkführungen 352 flaschenzugartig. That is, a pull on the pull cable 351 down causes movement of the pulling heads 353 and thus the horizontal portions 322 upwards.
    In Fig. 6, the adapter 3 is shown in a cross section at right angles to the central axis 311 of the base 31. In particular, the adapter 3 is attached to the ceiling support profile 2, of which a lower part is shown. The adapter 3 is in the locked position.
    Each of the undercuts 22 is provided with a horizontal upwardly directed abutment surface 221 and a chamfered downwardly and inwardly aligned insertion surface 222. The latching projections 323 of the wing parts 32 are arranged, shaped and dimensioned corresponding to the undercuts 22 of the ceiling support profile 2. In this case, the latching projections 323 each comprise a horizontal downwardly directed abutment surface 3231 and a chamfered upwardly and inwardly aligned Aufspreizfläche 3232. In the mounted on the ceiling support profile 2 position of the adapter 3 of Fig. 6, the wing portions 32 of the biasing means 36 in the detent position in which they are respectively arranged so that the vertical portions 321 are exactly vertical and the horizontal portions 322 are aligned exactly horizontally. The latching projections 323 are located above and behind the undercuts 22. In this case, the stop surfaces 3231 of the latching projections 323 rest on the stop surfaces 221 of the associated undercut 22. A vertical movement of the adapter 3 relative to the ceiling support profile 2 down is blocked in this way.
    To remove the adapter 3 from the ceiling support profile 2, the pull cable 351 of the release structure 35 is pulled down as shown in Fig. 7 by means of the arrow. As explained above in connection with FIG. 5, the pulling heads 353 are thereby moved upwards by means of the deflection guides 352 in the manner of a pulley. In this case, they press from below against the horizontal portions 322 of the wing parts 32. As a result, the wing members 32 are tilted against the spring force of the leaf spring portions 361 of the biasing device 36 to the outside, so that the latching projections 323 moves to the left and right out and away from the undercuts 22 become. The adapter 3 is now in the free position and can be removed from the ceiling support profile 2 down.
    Fig. 8 shows the adapter 3 detached from the ceiling support profile 2. The pull cable 351 is not pulled down, so that the biasing means 36, the wing parts 32 moves back into the locked position. To mount or attach the adapter 3 on the ceiling support profile 2, it can be easily pressed adapter 3 from bottom to top of the ceiling support profile 2. In this case, the insertion surfaces 222 of the undercuts 22 act on the Aufspreizflächen 3232 of Einrastvorsprünge 323. The wing parts 32 are thereby tilted upward while the adapter 3 against the spring force of the biasing device 36 to the outside and snap behind the undercuts 22 as soon as the adapter. 3 moved sufficiently far up. In this way, the insertion surfaces 222 and the Aufspreizflächen 3232 allow a very simple and comfortable fastening of the adapter 3 on the ceiling support rail 2. The securing portions 312 of the base 31 ensure when mounting the adapter 3 on the ceiling support profile 2 that the adapter 3 is placed clean. In particular, they prevent the wing parts 32 from tilting or bending on one side or excessively.
    In Fig. 9, the support system 1 is shown in an insert in which it carries a partition 4 as a suspended object. Two identical ceiling support profiles 2 are mounted parallel to each other on a ceiling of a room. The partition wall 4 is attached to the coupling members 37 of two identical adapters 3 and suspended therefrom on the two ceiling support profiles 2. In this case, the two adapters 3 are mounted on a respective one of the ceiling support profiles 2 as shown in Fig. 6.
    To reshape the room, the partition 4 can be flexibly moved and suspended on the ceiling support profiles 2. For example, as shown in FIG. 10, one of the two adapters 3, as described in connection with FIG. 7, can be detached from the associated ceiling support profile 2. As shown in Fig. 11, the partition 4 can then be rotated due to the equipped with rotary bearings 371 coupling members 37 of the adapter 3, the partition 4 until it is below the one of the two ceiling support profiles 4. Then, as shown in FIG. 12, the detached adapter 3 can be fixed again to another ceiling support profile 2, so that the partition wall 4 then hangs on a single ceiling support profile 2. Compared to the original position, the partition wall 4 is rotated by 90 ° and the space can be divided or redesigned.
    As shown in Fig. 13, allows the pendulum embodiment of the suspension 33 by means of its pendulum axis 331, that the partition wall 4 is inclined at a displacement due to the tensile force attached to it. The latching projections 323 of the adapter 3 slide on the undercuts 22 of the ceiling support profiles 2. The partition 4 can be easily moved in this way, for example via a table 5 without a significant torque acting on the adapter 3 and the ceiling support profile 2. Thus, the adapter 3 and the cover support profile 2 can be spared in a sliding movement.
    Fig. 14 shows a second embodiment of a support system 10 according to the invention with two second embodiments of an inventive adapter 30. In addition to the adapters 30, the support system 10 includes a pin wall 40. The adapters 30 each have a square tube 340 as a suspension structure and a release structure 350 , The pinboard 40 is clamped between the square tubes 340 of the two adapters 30.
    As can be seen in FIG. 15, the two adapters 30 each comprise a base 310 with a center axis 3110 and two wing parts 320 tiltably mounted thereon to the central axis 3110. At their two ends in the direction of the center axis 3110, the base 310 is in each case with two side securing portions 3120 extending vertically upwards. The wing parts 320 each have a vertical portion 3210, in the upper end region of which in each case a latching projection 3230 extends inwards. The latching projections 3230 are each formed by folding over the vertical sections 3210 of the wing sections 320.
    In Fig. 16, a handle 3510 of the release structure 350 of the adapter 30 is shown. In this case, the handle 3510 surrounds the associated square tube 340. To actuate the release structure 350, the handle 3510 is pushed up along the square tube 340 as explained below with reference to FIG. 17.
    Fig. 17 shows the adapter 30 in cross section. It can be seen that the wing portions 320 each have a horizontal portion 3220, wherein the two horizontal portions 3220 extend toward each other. The release structure 350 includes, in addition to the handle 3510, a rod 3520 vertically aligned inside the square tube 340 and a stop member 3530 disposed at the top of the rod 3520. At its lower end, the rod 3520 is coupled to the handle 3510. If the handle 3510 is then pushed upwards along the square tube 340, the rod 3520 and with it the stop member 3530 are also moved upwards. As a result, the stop member 3530 presses against the horizontal portions 3220 of the wing members 320, thereby tilting them outward, respectively. The adapter 30 is thus in the exemption.
    Although the invention has been shown and described in detail by means of the figures and the associated description, this illustration and this detailed description are to be understood as illustrative and exemplary and not as limiting the invention. In order not to transpose the invention, in some instances, well-known structures and techniques may not be shown and described in detail. It is understood that those skilled in the art can make changes and modifications without departing from the scope of the following claims. In particular, the present invention covers
    权利要求:
    Claims (15)
    [1]
    further embodiments with any combinations of features that may differ from the explicitly described combinations of features. For example, the invention can also be realized in the following form: The latching sections can be realized as rollers or the like. Such rollers can allow a particularly simple displacement of the adapter while it is mounted on the support profile. - In embodiments of the adapter in which the biasing means presses the wing parts in the direction of the release, the adapter can be mounted on the support rail by the actuator moves the wing parts against the bias in the locked position. To release the adapter from the support profile, the actuator can release the wing parts again, so that they are moved by the biasing device in the release. The adapter can then be removed from the support profile. The present disclosure also includes embodiments having any combination of features that are mentioned or shown above or below various embodiments. It also comprises individual features in the figures, even if they are shown there in connection with other features and / or are not mentioned above or below. Also, the alternatives of embodiments and individual alternatives described in the figures and the description may be excluded from the subject matter of the invention or from the disclosed subject matter. The disclosure includes embodiments which exclusively comprise the features described in the claims and in the exemplary embodiments as well as those which include additional other features. Furthermore, the term "comprise" and derivatives thereof do not exclude other elements or steps. Likewise, the indefinite article "a" or "a" and derivatives thereof does not exclude a multitude. The functions of several features listed in the claims may be fulfilled by a unit or a step. The mere fact that certain masses are listed in mutually different dependent claims does not mean that a combination of these masses can not be used to advantage. The terms "essentially", "approximately", "approximately" and the like in conjunction with a property or a value in particular define exactly the property or exactly the value. The terms "about" and "approximately" in the context of a given numerical value or range may refer to a value or range that is within 20%, within 10%, within 5%, or within 2% of the given value or range. All reference signs in the claims are not to be understood as limiting the scope of the claims. claims
    An adapter (3; 30) for suspending an object (4; 40) from a substantially horizontally oriented longitudinal support profile (2; 20) having two parallel undercuts (22) extending in a longitudinal direction, comprising a base (31; 310). with a central axis (311; 3110), two wing portions (32; 320) movable on the base (31; 310) with respect to the central axis (311; 3110), each provided with a latching projection (323; 3230), the wing portions (32; 320) corresponding to the undercuts (22) of the support profile (2; 20) are formed, a biasing means (36) which biases the wing members (32; 320) so that they in a detent position to the base (31 in which the latching projections (323; 3230) of the wing parts (32; 320) can be latched behind the undercuts (22) of the carrier profile (2; 20), and a release structure (35; 350) having an actuating element (351; 3510, 3520), wherein the wing parts (32; 320) by the Lös structure (35; 350) are movable in an actuation of the actuating element (351, 3510, 3520) against the bias of the biasing means (36) in an exemption to the base (31, 310).
    [2]
    An adapter (3; 30) as claimed in claim 1, wherein the wing members (32; 320) are each tiltably mounted on the base (31; 310) so as to be relative to the central axis (311; 3110) of the base (31; 310) are movable by tilting toward the base (31; 310).
    [3]
    An adapter (3; 30) as claimed in claim 1 or 2, wherein the actuating member (351; 3510,3520) of the release structure (35; 350) comprises a pull cord (351), the release structure (35; 350) being adapted thereto in that the wing parts (32; 320) can be moved to the base (31; 310) by pulling on the pulling cable (351).
    [4]
    An adapter (3; 30) according to claim 3, wherein the release structure (35; 350) comprises a deflection element (352), wherein the tension cable (351) is connected to the wing portions (32; 320) via the deflection element (352) ,
    [5]
    The adapter (3; 30) according to claim 1 or 2, wherein the actuator (351; 3510, 3520) of the release structure (35; 350) comprises a rod (3520), the release structure (35; 350) being formed thereto in that the wing parts (32; 320) are movable by pulling or pushing the rod (3520) into the clearance to the base (31; 310).
    [6]
    6. An adapter (3; 30) according to one of the preceding claims, in which the wing parts (32; 320) are each quasi L-shaped in a cross section perpendicular to the central axis (311; 3110) of the base (31; 310).
    [7]
    The adapter (3; 30) of claim 6, wherein the wing portions (32; 320) each have a substantially horizontal portion (322; 3220) and a substantially vertical portion (321; 3210), the latching projections (323 3230) are arranged on the vertical portions (321; 3210) of the wing portions (32; 320) and the actuating element (351; 3510,3520) of the release structure (35; 350) is attached to the vertical portions (321; 3210) of Wing portions (32; 320) or in particular to the horizontal portions (322; 3220) of the wing portions (32; 320) is coupled.
    [8]
    An adapter (3; 30) according to any one of the preceding claims, comprising a pendulum suspension (33) mounted on the base (31; 310).
    [9]
    An adapter (3; 30) according to any one of the preceding claims, comprising a suspension structure (34; 340) mounted to the base (31; 310).
    [10]
    10. An adapter (3; 30) according to claim 9, wherein the suspension structure (34; 340) has a rotatable coupling member (37) at its longitudinal end facing away from the base (31; 310), to which the object (4; 40) can be fastened is.
    [11]
    The adapter (3; 30) of claim 9 or 10, wherein the actuator (351; 3510, 3520) of the release structure (35; 350) extends from the base (31; 310) at least to one of the bases (31; 310) facing away from the longitudinal end of the suspension structure (34, 340).
    [12]
    An adapter (3; 30) as claimed in any one of the preceding claims, wherein the latching projections (323; 3230) of the wing members (32; 320) are formed as sliding bearings (323; 3230).
    [13]
    An adapter (3; 30) according to any one of claims 1 to 11, wherein the latching projections (323; 3230) of the wing members (32; 320) are configured as rollers.
    [14]
    An adapter (3; 30) as claimed in any one of the preceding claims, wherein the biasing means (36) comprises a spring member (361) urging the wing members (32; 320) toward the detent position.
    [15]
    A support system comprising an object (4; 40) to be placed in a space, a longitudinal support profile (2; 20) having two longitudinal parallel undercuts (22) and an adapter (3; 30) as claimed in any one of the preceding claims Support profile (2, 20) is mounted near a ceiling of the room quasi horizontally aligned, the adapter (3; 30) is configured so that the object (4; 40) on the support profile (2; 20) can be fastened, and an actuating element ( 351, 3510, 3520) of a release structure (35; 350) of the adapter (3; 30) is operable from a floor of the room.
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    同族专利:
    公开号 | 公开日
    CH713064A8|2018-07-13|
    DE102017124554A1|2018-04-26|
    CH713064B1|2021-03-31|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4135692A|1978-01-05|1979-01-23|Ferguson William J|Hanger device|
    US5247725A|1992-09-25|1993-09-28|Great American Management And Investment, Inc.|Fixture installation device|
    US5806823A|1995-06-12|1998-09-15|Callas; Mike T.|Sign holder and tool for installation and removing a sign holder from a support|
    US6048010A|1998-04-16|2000-04-11|Stocker; Harold L.|Apparatus for manipulating suspended display systems|
    US6634610B1|2002-11-27|2003-10-21|Design & Deliver, Incorporated|Retractable self-leveling ceiling sign hanger|
    WO2012123771A1|2011-03-16|2012-09-20|Bronzoni Pier Luigi|Magnetic display holder|
    法律状态:
    2018-05-15| PK| Correction|Free format text: BERICHTIGUNG ERFINDER |
    2018-07-13| PK| Correction|Free format text: ERFINDER BERICHTIGT. |
    2018-10-31| PCAR| Change of the address of the representative|Free format text: NEW ADDRESS: GRELLINGERSTRASSE 60, 4052 BASEL (CH) |
    优先权:
    申请号 | 申请日 | 专利标题
    CH01408/16A|CH713064B1|2016-10-20|2016-10-20|Adapter for hanging an object and support system.|CH01408/16A| CH713064B1|2016-10-20|2016-10-20|Adapter for hanging an object and support system.|
    DE102017124554.5A| DE102017124554A1|2016-10-20|2017-10-20|Adapter and support system|
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