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    • 专利摘要:
    An adapter (1) for attaching a goods carrier to a longitudinal support profile comprises a connecting element (13), with which the goods carrier is connectable, and a mounting structure (12), via which the adapter (1) on the support profile is detachably fastened. The mounting structure (12) has an adjusting mechanism (122), with which the adapter (1) in a released position, a hinged position and a fixed position can be adjusted. In the released position of the adapter (1) can be arranged freely on the support profile and removable from this. In the suspended position of the adapter (1) can be fastened to the support profile and simultaneously movable along the support profile. In the fixed position of the adapter (1) is firmly connected to the support profile.
    公开号:CH712455A1
    申请号:CH00618/17
    申请日:2017-05-09
    公开日:2017-11-15
    发明作者:Jerabek Harald
    申请人:Visplay Int Ag;
    IPC主号:
    专利说明:

    Description TECHNICAL FIELD The invention relates to an adapter according to the preamble of independent claim 1 and to a goods carrier with such an adapter and a fastening system with such an adapter and a mounting rail. Such adapter with a connecting element, with which the goods carrier is connectable, and a mounting structure, via which the adapter on the support profile is detachably fastened, can be used to attach a goods support to a longitudinal support profile.
    PRIOR ART For the presentation of goods, for example in sales outlets or at trade fairs, in addition to goods carriers mounted on walls and set up on the floor, those which are fastened to the ceiling are also used. In this case, the goods carriers are partially mounted directly on the ceiling or to the ceiling connected fasteners such as hooks screwed into the ceiling.
    Typically, there is a constant need to change the display of goods or their presentation, that is to issue new goods and / or rearrange the goods. 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 merchandise display and associated presentation elements, support systems are known in which goods carriers are attached indirectly to the ceiling. For example, many such support systems include support profiles such as square tubes that are mounted either directly or pendulum-mounted on the ceiling. On the support profiles then goods carriers are attached, which are occupied with goods to be issued. The goods carriers can be moved, replaced or removed, without major modifications are necessary or the support profiles themselves must be re-assembled.
    The support profiles of such support systems are expediently robust and designed to carry relatively large loads. For example, the support profiles can be designed so that they can support multiple goods carriers, each carrying up to about one hundred kilograms load.
    In some applications, support systems with support profiles may 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 goods 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 it must be used tools that make the Approach of a professional necessary. This makes the attachment and design of the goods carrier or their arrangement inflexible and uncomfortable. Alternatively, it is known to hang the goods carrier to the support profiles. Although such a hanging allows a relatively simple moving and rearranging the goods carrier but suspended goods carrier are relatively unstable and there may be a risk that the whole product carrier or its load falls down.
    The present invention is therefore based on the object to propose a system or components that allow a simple, flexible and secure fastening of a goods carrier to a support profile.
    DESCRIPTION OF THE INVENTION The object is achieved according to the invention by an adapter as defined by the features of independent claim 1 and by a product carrier as defined by the features of independent claim 14 and by a fastening system such as it is defined by the features of independent 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 attaching a goods carrier to a longitudinal support profile comprises a connecting element with which the goods carrier is connectable, and a mounting structure, via which the adapter on the support profile is releasably fastened. The mounting structure has an actuating mechanism with which the adapter can be set to a released position, a suspended position and a fixed position. In the released position, the adapter can be arranged freely on the support profile and removable from this. In the hinged position, the adapter can be fastened to the support profile and simultaneously movable along the support profile. In the fixed position, the adapter is firmly connected to the support profile.
    The term "actuating mechanism" is understood in the context of the invention, a construction with which an adjustment of the adapter is made possible in the three positions. In particular, this can be done without tools with the adjusting mechanism. The adjusting mechanism may have components and formations that accomplish or initiate the placement of the mounting structure. It can also interact with other components of the setting mechanism or the adapter, so that the adapter is adjustable in the three positions.
    The term "goods carrier" may refer to a device that is provided for presenting or laying out or arranging goods. He may have adapted to the goods means for their arrangement. For example, it may include a run on which a good can be placed. Or it can be equipped with hooks or the like for hanging hangers. For use with a ceiling rail, the shelf may include a bar connected to the connector of the adapter. This allows the product carrier mounted on the ceiling support rail to extend downwardly from the ceiling to a height at which the goods are easily visible and accessible to persons.
    The term "detachable" in connection with the mounting structure of the adapter may relate in particular to the fact that the adapter can be attached to the support profile as intended and removed from it again. In particular, it does not mean that the adapter or the support profile has to be damaged or disassembled in any way in order to remove the adapter.
    The support profile may in particular be a ceiling support profile or a ceiling support rail. The term "longitudinal" may refer to a linear, quasi-linear or even curved shape in connection with the support profile. The linear expansion is in any case greater than the expansion in width. In this case, the support profile or named parts thereof may be designed substantially straight in a cross section along a longitudinal direction.
    The term "along" as used herein may refer to extending or moving over the full or substantially full length. In this case, one part can run along another part by extending parallel thereto, arranged sequentially next to it or running alongside it. However, at least over long distances, one part typically does not run on or in the other part but is separated from it. Similarly, one part may be moved along another part by being moved or moved parallel thereto or in engagement therewith. In particular, the adapter can be hung in the suspended position in the support profile and thereby attached to this and at the same time it can be moved to the support section. In the case of a ceiling support profile, this may mean that the adapter is fixed vertically (in the z-direction) to the carrier profile in the suspended position and is movable horizontally (in the x-direction and / or in the y-direction) when it is loaded on the carrier profile.
    The term "freely disposable and removable" may refer to the adapter in the released position and the support profile that the adapter is set so that it is not in engagement with the support profile. So it can be freely positioned on the support profile, moved along this and removed from it. In the released position, the adapter typically does not hold itself on the support profile. In the case of a ceiling support profile, this may mean that the adapter in the released position is movable vertically and horizontally (x-direction, y-direction and z-direction), regardless of whether it is arranged on the support profile or is otherwise located.
    The term "fixed" in connection with the connection of the adapter with the support profile in the fixed position may refer in particular to a (in the x-direction, in the y-direction and in the z-direction) stationary connection. In particular, in this position, the adapter and the support profile are quasi immovable or immovably connected to each other.
    By the adapter is configured via its adjusting mechanism to be set in the three different positions, it can be very easily and conveniently mounted on the support section. He can be arranged or mounted in a suspended position on the support section, for example, in a first step. For example, it can be pressed from bottom to top vertically or in the z-direction on or in the attached to a ceiling support profile. In a second step, it can then be moved along the support profile horizontally or in an x-direction or y-direction and aligned therewith. In a third step, the adapter can then be placed in the fixed position. In this position, the adapter and its goods carrier is securely attached to the support profile and neither horizontally nor vertically movable. The goods carrier can now be safely loaded with goods. To rearrange the product carrier, the adapter can again be placed in the hinged position so that it can be moved along the support profile and thus along the ceiling. To disassemble the product carrier, the adapter is placed in the released position and can be easily removed from the support profile. Thus, the adapter according to the invention thus makes possible a reversible, simple, flexible and secure fastening of the product carrier on the carrier profile to which no tool is required.
    Preferably, the mounting structure of the adapter on two opposing mounting portions, which cooperate for fastening the adapter on the support section with two along the support profile extending contact portions of the support profile, wherein the adjusting mechanism of the mounting structure, a distance between the mounting portions is variable, so that the Distance between the mounting sections in the released position, in the hinged position and in the fixed position is different in each case. The mounting portions may be formed wing-shaped or wall-section-shaped. They can face each other and / or run parallel to each other. Such an embodiment of the mounting structure allows a simple, safe and tool-free placement of the adapter in the three positions.
    In this case, the mounting portions of the mounting structure preferably each have a hook-on with a contact surface, wherein the mounting lugs are so connected to the contact portions of the support profile that the contact surfaces of the hanging tabs abut against corresponding contact surfaces of the contact portions. The suspension lugs of the two mounting portions may be oriented towards or away from each other. Such suspension lugs allow efficient attachment or suspension of the adapter to the support profile. In particular, when mounting the adapter on the support profile, the attachment noses can snap into the support profile via the resilient mounting sections, which can be particularly comfortable. In addition, the mounting lugs allow a safe placement of the adapter in the mounted position in which the mounting lugs are engaged in the support profile.
    Preferably, in the released position, the distance between the mounting portions are dimensioned so that the contact surfaces of the mounting lugs of the mounting portions are freely movable past the contact surfaces of the contact portions of the support profile, in the mounted position, the distance between the mounting portions such that the Contact surfaces of the mounting lugs of the mounting portions bear against the contact surfaces of the contact portions of the support profile, when the adapter is arranged on the support profile, and dimensioned in the fixed position, the distance between the mounting portions so that the contact surfaces of the attachment tabs of the mounting portions abut the contact surfaces of the contact portions of the support profile and the mounting portions are pressed against the contact portions of the support profile when the adapter is arranged on the support profile.
    Preferably, the adapter has a base on which the mounting portions of the mounting structure are fixed so that they are resiliently movable toward and away from each other. The adapter may also include two analogous mounting structures extending, for example, from two opposite sides of the base. By the mounting portions are resiliently or elastically movable to each other, they can be relatively easily and efficiently placed in the three positions of the adapter. Also, they allow such a snap into the support profile, when the adapter is in the hinged position, allowing easy and safe hanging on the adapter.
    Preferably, the adjusting mechanism of the mounting structure comprises a length-adjustable axle member which is arranged between the two mounting portions and connected thereto. By the length of the axle element being adjustable, the mounting portions can be efficiently moved away from each other and towards each other. Thereby, the distance of the mounting portions to each other can be easily adjusted.
    In this case, the axle element of the adjusting mechanism of the mounting structure preferably comprises a cylinder sleeve and two axle journals, wherein the axle journals are connected to one of the two mounting portions, project into the cylinder sleeve and are axially movable to the cylinder sleeve. The cylinder sleeve may be substantially hollow cylindrical or have a substantially hollow cylindrical portion. The axle journals may be suitably cylindrical or have a substantially cylindrical portion. The connection between the journal and mounting section may be solid or loose.
    The cylinder sleeve and the axle journal are preferably rotatable relative to each other about a longitudinal axis. In this case, the axle journals preferably each have a substantially radially projecting pin and the cylinder sleeve is preferably equipped with two each designed as a guide contour cutouts, the pins of the axle each extend through one of the guide contours of the cylinder sleeve. The guide contour can be formed so that a rotation of the cylinder sleeve and the journal relative to each other causes a longitudinal displacement of the journal to the cylinder sleeve. As a result, the axle element can be adjusted in length efficiently via a rotational movement.
    The guide contours of the cylinder sleeve are each preferably shaped so that the axle journals are axially movable relative to each other depending on a rotation of the cylinder sleeve and the axle journal. The term "axial" as used in this context may refer in particular to a longitudinal axis of the axle or the cylinder sleeve and the journal. Advantageously, all these longitudinal axes lie on a straight line. Such a design of the guide contours allows a precise simultaneous longitudinal displacement of the journal over a relatively simple rotational movement.
    Preferably, the adjusting mechanism of the mounting structure on a firmly connected to the cylinder sleeve actuating lever, via which the cylinder sleeve is rotatable relative to the axle journal about the longitudinal axis. Such an actuating lever allows a simple controlled rotation or rotation of the cylinder sleeve and journal to each other. Advantageously, the actuating lever is rotatably connected to the journal or in particular to the cylinder sleeve.
    In this case, the mounting structure preferably has a spring element and the cylinder sleeve of the axle element is preferably equipped with a toothing, wherein the spring element engages in the mounted position of the adapter in the toothing, so that the mounting structure is secured in the mounted position of the adapter. The spring element can also engage in the fixed position of the adapter in the toothing and secure this position. Such a spring element and such a toothing allow safe placement and leaving the adapter in the three positions.
    Preferably, the adjusting mechanism comprises an at least partially disposed around the cylinder sleeve of the axle element non-circular edge portion, which is designed so that a distance between the flank portion and the contact surface of the hanging nose of the mounting portions in the fixed position of the adapter is smaller than in the hinged Position of the adapter. In particular, the smaller distance may be dimensioned such that the contact surface of the associated contact portion of the support profile is clamped between the flank portion and the contact surface of the suspension nose. The adjusting mechanism may also comprise two analogous each laterally formed around the cylinder sleeve flank sections. This allows a preferred uniform clamping and fixing.
    Another aspect of the invention relates to a product carrier having a support structure and an adapter as described above. Such a carrier enables efficient implementation of the invention and the preferred embodiments thereof with the effects and advantages as listed above, among others.
    Another aspect of the invention relates to a fastening system with an adapter as described above and a longitudinal support profile or ceiling support profile. Such a fastening system allows for efficient implementation of the invention and the preferred embodiments thereof with the effects and advantages as listed above, among others. The ceiling support profile or support profile is preferably configured as described in more detail below: The ceiling support profile is provided for fastening a goods carrier to a ceiling. It is formed longitudinally and comprises a mounting structure for mounting on the ceiling and an opposite to or at an angle to the mounting structure aligned Trägerereinhängeeinrichtung. The Trägerereinhängeeinrichtung, in which the goods carrier or the adapter is suspended, extending along the support profile. The support profile may also have a busbar element running along the carrier retracting device.
    The ceiling support profile may have an upper side and a lower side, wherein the mounting structure on the upper side and the Trägereinhängeeinrichtung and also the busbar element on the bottom or from the bottom are formed accessible. The ceiling support profile can be made as a one-piece component, for example, of a metal or a robust plastic. It can be shaped in its external appearance as a square tube.
    About the mounting structure, the support profile can be firmly connected to the ceiling. For example, a rod which is screwed to the ceiling, be connected to the mounting structure. The attachment structure may include apertures or bores formed in the ceiling support profile into which an element connected to the ceiling may be inserted or through which such element may be bolted to the support profile.
    The Trägerereinhängeeinrichtung is advantageously designed so that the goods carrier or the adapter can be hung at different points along the ceiling support profile in this. In particular, it can interact with the product carrier or adapter in such a way that it can be suspended at any desired location in the longitudinal direction. This allows a particularly flexible fastening and aligning of the goods carrier in the room. It can also be hung at the same time in the Trägereinhängeeinrichtung the same ceiling support profile several goods carrier.
    The term "aligned" in connection with the attachment structure and the hanger means may refer to a functional orientation of these parts. In this case, the orientation of the attachment structure may be the direction in which the ceiling support profile can be attached. For a horizontal ceiling, this direction is typically vertical from the ceiling support profile. With the orientation of the Trägereinhängeeinrichtung the direction may be meant, from which the goods carrier is hung, or in which this depends. In a ceiling support profile attached to a horizontal ceiling, this direction is therefore usually vertically downwards, when the support hanger device is aligned counter to the attachment structure. If it is aligned at an angle to this direction is inclined to the ceiling support profile or laterally away from the ceiling support profile. For example, in this case the carrier hooking device can be oriented at right angles or at a virtually right angle to the fastening structure. Typically, when mounted on the horizontal ceiling ceiling support profile, the fastening device is formed on the top of the ceiling support profile and the Trägereinhängeeinrichtung on the underside of the ceiling support profile.
    The ceiling support profile may have a busbar element. The busbar arranged in the busbar element of the ceiling support profile or thereby implemented busbar can be connected to supply a consumer on or in the goods carrier or adapter with this. This connection can be essentially independent of any support function. For example, a consumer such as a screen or a light on the goods carrier may be provided, which is connected via a cable with an adapter, which in turn is used in the in the busbar of the support profile. The busbar can also feed and possibly even carry electronic loads, which are independent of the goods carriers or adapters. Typically, such consumers are relatively light compared to loaded goods carriers, so that the bus bar must be much less sustainable than the Trägereinhängeeinrichtung.
    Preferably, the busbar element is parallel to the Trägereinhängeeinrichtung. By a parallel arrangement of the busbar element for Trägereinhängeeinrichtung the support profile can be designed and made efficient and space-saving.
    The term "suspended" in connection with the goods carrier or adapter and the Trägereinhängeeinrichtung can refer to any configuration that is suitable for attaching the goods carrier relationship as adapter on the ceiling support profile. Such a suspension can in particular differ from a hanging of the goods carrier or adapter around the support element. The hanging on the ceiling support section of the goods carrier or adapter can be covered when hanging and thus protected from the outside and not visible. The hanging can thus relate to the fact that the product carrier or adapter contacted only from one side of the ceiling support profile from which the Trägerereinhängeeinrichtung is accessible. For example, the Trägerereinhängeeinrichtung comprise a series of hooks or slots into which a corresponding portion of the goods carrier or adapter can engage. Alternatively, the Trägereinhängeeinrichtung have a clamping structure, in or to which a matching portion of the goods carrier or adapter can be clamped.
    Preferably, the Trägereinhängeeinrichtung on a along the ceiling support profile extending Einhängenut. The term "groove" may refer in this context to a channel-shaped, elongated or longitudinal and typically angled recess in the ceiling support profile. In this case, grooves may have two opposite side walls, a rear wall connecting the two side walls and an opening opposite the rear wall. In the case of a carrier hanger which can be accessed vertically from below, the open side or the opening can be at the bottom, the side walls can extend upwards from the opening or the open side and the rear wall can be at the top. The open side can be so wide open that it is physically absent, or consists exclusively of the opening. The groove may be formed at an angle in an angle, in particular, the side walls and the open or closed side each describe an angle such as a quasi-right angle.
    In this case, the suspension groove preferably has a slot-shaped opening and a reference width adjoining the opening, wherein the opening extends over less than the entire reference width of the Einhängenut. The term "width" in connection with the hanging groove and with other grooves mentioned in connection with the ceiling support profile may refer to a width of an interior of the groove. For grooves with parallel or quasi-parallel side walls, the width may correspond to a distance between the side walls. The reference width corresponds to the width of the Einhängenut, which adjoins directly to the opening. In a uniform Einhängenut with parallel side walls, the reference width corresponds to the distance of the side walls, which is constant. In the case of a hooking groove that narrows continuously from the opening, the reference width corresponds to the maximum width of the hooking groove or the maximum distance between the side walls. In an analogous manner, the reference width corresponds to the minimum width of the Einhängenut or the minimum distance between the side walls at a continuously widening from the opening hanger.
    By the slot-shaped opening does not extend over the entire reference width of the Einhängenut, extends adjacent and along the opening at least on one side but preferably on both sides a wall portion of the Einhängenut as a contact portion. The wall section can be engaged behind by a section of the goods carrier inserted through the opening into the hook-in groove, so that the goods carrier or adapter can be held in the hook-in groove. In particular, the slot-shaped opening can be accessible quasi vertically from below. The wall section is correspondingly virtually horizontal.
    Introduced into the Einhängenut suspension eye of the goods carrier or the adapter can reach behind the contact sections or their noses and prevent the goods carrier can be pulled out again vertically through the slot-shaped opening of the Einhängenut. As a result, the goods carrier can be hung in a simple manner efficiently anywhere on the support profile and attached.
    The Trägerereinhängeeinrichtung preferably has two parallel, along the ceiling support profile extending Einhängenuten. Such equipment of the ceiling support profile with two Einhängeuten allows a relatively stable attachment of the goods carrier or adapter. In particular, the goods carrier or adapter may be formed with a portion which can engage in both Einhängeuten simultaneously. Thus, the load can be improved over the width of the ceiling support profile distributed, which can increase the stability. In addition, the goods carrier or adapter can be stabilized with respect to a lateral movement.
    In this case, the busbar element is preferably formed between the two Einhängeuten. Such an embodiment of the ceiling support profile allows a space-saving efficient arrangement of the Einhängenuten and the busbar element. In particular, it can be achieved that the Einhängenuten are relatively far away from each other and close to the longitudinal edges of the ceiling support profile, which may be advantageous for the distribution of the load on the support profile and for the stability of suspending the goods carrier or adapter.
    In a first preferred embodiment of the ceiling support profile, the busbar element is a busbar. Such a configuration allows the ceiling support profile and busbar integrally formed. A one-piece design allows easy and efficient handling.
    In a second preferred embodiment of the ceiling support profile, the busbar element is a busbar receptacle. The busbar receptacle may be shaped to be suitable for selectively mounting a plurality of different bus bars. As a result, the ceiling support profile can be equipped with a preferred busbar at the option of a user. The user is not so using a specific one
    Busbar tied, but he can select an example adapted to the intended application or provided for a preferred light busbar and equip the ceiling support profile so.
    Preferably, the attachment structure of the ceiling support profile comprises a ceiling mounting groove. Similar to the Einhängenut and the busbar mounting groove and the Deckenbefestigungsnut may also have a slot-shaped opening and a reference width adjoining the opening, wherein the opening does not extend over the entire reference width of Deckenbefestigungsnut.
    The Deckenbefestigungsnut allows the ceiling support profile is connected to one or more arbitrary points along the ceiling support profile with the ceiling. This allows mounting of the ceiling support profile on the ceiling, in which the condition of the ceiling can be accommodated. In particular, can be taken into account by the flexible ceiling mounting along the ceiling support profile locations on the ceiling, which are particularly suitable for attachment of the ceiling support profile. For attachment to the ceiling, for example, a nut can be inserted into the Deckenbefestigungsnut. Through the opening of the Deckenbefestigungsnut through in the mother then, for example, a support rod can be screwed, which in turn can be mounted on the ceiling.
    Preferably, a laterally oriented Hilfskonstruktionsnut extends along the ceiling support profile. Similar to the Einhängenut, Stromschienenbefestigungsnut and he fastening groove and the Hilfskonstruktionsnut may also have a slot-shaped opening and a reference width adjoining the opening, wherein the opening does not extend over the entire reference width of the Hilfskonstruktionsnut.
    Such a lateral Hilfskonstruktionsnut may be suitable for the flexible assembly of the support profile with different auxiliary structures. For example, a nut can be inserted into the lateral Hilfskonstruktionsnut, which is bolted to a clamping frame. The clamping frame, which may be provided for example for textiles, then extends laterally away from the ceiling support profile. Or a nut can be inserted into the Hilfskonstruktionsnut, which is bolted to a ring. On the ring then various devices can be hooked for example about carabiners. Or it can be clamped by means of rubber or strings tarpaulins directly in the rings. Or curtain rods of hanging fabric can be inserted into the rings. Other auxiliary structures may be lateral support profiles which are hung directly into the Hilfskonstruktionsnut. For example, such support profiles can be formed angularly or quasi L-shaped. On the suspended in the Hilfskonstruktionsnut support profiles ceiling materials such as wood materials, gypsum fibers or plasterboard, glass, plastics, sheets or perforated metal expanded metal, acoustically effective materials, surface lights or the like may be launched.
    With auxiliary structures of the type described above, for example, the ceiling can be formed optically flush with the ceiling support profile. It can thus be efficiently formed by means of such ceiling support profile a suspended ceiling, which is provided with vertically accessible from below power and mounting rails.
    In this case, preferably two laterally oriented, opposite Hilfskonstruktionsnuten extend along the ceiling support profile. A two-sided equipment of the ceiling support profile with Hilfskonstruktionsnuten allows two-sided equipping the ceiling support profile with auxiliary structures of the type described above or alternative.
    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 invention will be described in more detail below with reference to the accompanying drawings with reference to embodiments. Show it:
    1 is a partially exploded perspective view from above of an embodiment of an inventive adapter of an embodiment of a fastening system according to the invention;
    FIG. 2 is a bottom perspective view of the adapter of FIG. 1; FIG.
    Fig. 3 is a side view of the adapter of Fig. 1 in its hinged position;
    Fig. 4 is a plan view of the adapter of Fig. 3;
    5 is a front view of an embodiment of an inventive support profile of the fastening system of Fig. 1.
    Fig. 6 is a front view of the adapter and the support profile of the fastening system of Fig. 1 in the suspended position of the adapter;
    Fig. 7 is a side view of the adapter of Fig. 1 in its fixed position;
    Fig. 8 is a plan view of the adapter of Fig. 7;
    Fig. 9 is a front view of the adapter and the support profile of the fastening system of Figure 1 in the fixed posi tion of the adapter.
    Fig. 10 is a side view of the adapter of Fig. 1 in its released position;
    Fig. 11 is a plan view of the adapter of Fig. 10; and
    Fig. 12 is a front view of the adapter and the support profile of the fastening system of Fig. 1 in the dissolved posi tion of the adapter.
    Modes 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.
    In order to avoid repetition in the figures and the associated description of the various aspects and exemplary 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 an embodiment of an inventive adapter 1, wherein a part of its actuating mechanism 122 is removed for illustration. The adapter 1 comprises a central base 11, a connecting element 13 and a mounting structure 12 with the adjusting mechanism 122, two pairs of mounting portions 121 and two spring levers 123. Each pair of the mounting portions 121 extends from the base 11 in a longitudinal direction of the adapter 1 Mounting portions 121 are formed wall-shaped or wing-shaped. The two mounting portions 121 of a pair face each other and are more or less parallel to each other. They are firmly connected to the base 11 and can be resiliently moved toward or away from each other. The mounting portions 121 each have a hooking lug 1212 formed as an inverted or crimped shape. The two hooking lugs 1212 of a pair of the mounting portions 121 face each other and are aligned with each other toward the inside.
    The adjusting mechanism 122 of the mounting structure 12 comprises two length-adjustable axle elements 1221, which are each arranged between the two mounting portions 121 of a pair. The axle elements 1221 each comprise a cylinder sleeve 12error: character: # not found 212 and two axle journals 12 211. The cylinder sleeves 12 212 each have a hollow-cylindrical section with a longitudinal axis and an inner space. The hollow cylindrical portion of the cylinder sleeves 12 212 is each equipped with two analogue guide contours 12 215, which are formed by cutouts in the cylinder wall. Each of the four journal 12 211 has a projecting from one side into the associated cylinder sleeve 12 212 cylindrical pin 12 217, which is dimensioned according to the interior of the cylinder sleeve 12 212. On the side, each of the four stub axles 12 211 is fixedly connected to one of the four mounting sections 121 via a respective fastening screw 12 213.
    The axle journals 1211 each include a radially projecting from the pin cylinder 12 217 pin 12 214 which extends through one of the guide contours 12 215 of the associated cylinder sleeve 12 212 therethrough. The cylinder sleeves 12 212 are each rotatable or rotatable about the respective two journal pins 12 211 about their longitudinal axes. For manual rotation of the cylinder sleeves 12 212, these are each firmly connected to an actuating lever 1222. Rotating the cylinder sleeves 12 212 about their longitudinal axes causes the pins 12 214 of the axle journals 12 211 to be displaced along the guide contours 12 215. As a result of the shape of the guide contours 12 215, the axle journals 12 211 are thereby moved along the longitudinal axis or axially. Thereby, the mounting portions 121 are moved towards and away from each other and the distance between the mounting portions 121 is adjusted.
    On the outer surface of its cylinder walls, the cylinder sleeves 12 212 are each equipped with a toothing 12 216 aligned in the circumferential direction. The spring levers 123 are each leaf spring-like and approximately T-shaped and extend from the base 11 in the longitudinal direction over the axle 1221. In the region of the teeth 12 216 of the cylinder sleeves 12 212, the spring lever 123 are each formed with a tooth opening 1231, in which the teeth of the teeth 12 216 of the associated cylinder sleeve 12 212 engage in certain rotational positions.
    The adjusting mechanism 122 further comprises four flank portions 1223. They are non-circular and flange around the cylinder sleeve 12 212 arranged around, each cylinder sleeve 12 212 is provided at its two longitudinal ends in each case with one of the flank portions 1223. The flank portions 1223 are respectively disposed adjacent to one of the mounting portions 121.
    In Fig. 2, the adapter is shown from below, wherein the adjusting mechanism 122 of the mounting structure 12 is completely installed. The connecting element 13 has a horizontal plate into which an opening is introduced as a goods carrier connection 131. In the goods carrier terminal 131, an arm or a rod of a goods carrier can be introduced and firmly connected to the adapter 1. In this case, a rotational position of the arm can be adjusted freely, whereby the goods carrier can be adjusted adapted to the intended application.
    The suspension lugs 1212 each have a downwardly directed horizontal contact surface 12121. The contact surfaces 12121 are formed by the end of Umfalzung.
    Fig. 3 and Fig. 4 show the adapter 1 in a hinged position. For this purpose, the two actuating levers 1222 are rotated approximately in a diagonal position downwards. The pins 12 214 of the journal 12 211 lie approximately in the middle of the guide contours 12 215. The guide contours 12 215 have at this point on a saddle on which they run in the direction of rotation and not bevelled. The teeth 12 216 each engage with their central tooth in the tooth opening 1231 of the associated spring lever 123 a. As a result, the adapter 1 is secured in the hinged position.
    Fig. 5 shows an embodiment of an elongated ceiling support profile 2 as an embodiment of a support profile of an inventive connection system. The ceiling support profile 2 is integrally formed and viewed from the outside has approximately the shape of a square tube. In the illustration of Fig. 2, the support profile 1 is aligned, as it is typically provided for mounting on a ceiling. In this case, it has an upper side associated with the ceiling, an underside associated with the floor, and two flank sides which connect the upper side, as it were, at right angles to the lower side.
    The support section 2 comprises a centrally accessible from its bottom forth, groove-shaped busbar receptacle 23 with two parallel vertical side walls 232, the two side walls 232 connecting the upper rear wall 233 and the rear wall 233 opposite opening 231. The opening 231 extends over the entire width of the busbar receptacle 23 and along the entire ceiling support profile 2. Accordingly, the opening 231 is slot-shaped and accessible from the underside of the ceiling support profile 2 and visible.
    The ceiling support profile 2 further comprises a Trägereinhängeeinrichtung 22, the two laterally and parallel to the busbar holder 23, along the entire ceiling support profile 2 extending Einhängenuten 221 includes. The suspension grooves 221 each have two quasi-vertical side walls 2213, an upper rear wall 2215 connecting the side walls 2213, a lower opening 2211 opposite the rear wall, and two wall sections located laterally of the opening 2211. The side walls 2213, which belong to one of the two hook-in grooves 221, widen slightly towards the bottom, so that they are spaced somewhat further apart at their lower ends than at their upper ends. Adjacent to the opening 2211, the side walls 2213 are thus spaced furthest apart from one another, this maximum distance defining a reference width 2212 of the associated hanging groove 221.
    The openings 2211 of the two Einhängeuten 221 extend over the entire length of the ceiling support profile 2 and are thus slot-shaped. The wall portions of the hook-in grooves 221 are each formed by the associated opening 2211 extending over less than the entire reference width 2212. The reference widths 2212 of the insertion grooves 221 are therefore larger than the width of their slot-shaped openings 2211. The suspension grooves 221 are aligned vertically downwards. The inner wall portions of the Einhängenuten 21 are formed as contact portions of the ceiling support profile 2 and each have an outwardly directed nose 2216. The tabs 2216 each form an upwardly directed horizontal contact surface 2216.
    On the rear wall 233 of the busbar receptacle 23, a busbar mounting groove 234 is formed with two parallel, vertical side walls 2342, an upper rear wall 2343 connecting the two side walls 2342 and a lower slot-shaped opening 2341 opposite the rear wall 2343. The opening 2341 of the busbar mounting groove 234 has a width that is less than a distance between the two side walls 2342. Accordingly, the busbar mounting slot 234 has wall sections 2344 adjacent to the opening 2341 and connected to the sidewalls 2342 at right angles. The busbar mounting groove 234 extends over the entire length of the busbar receptacle 23 and thus over the entire length of the ceiling support profile 2. It is aligned vertically downwards.
    Opposite the busbar receptacle 23 is at the top of the ceiling support profile 2, a Deckenbefestigungsnut 24 configured as a mounting structure. The ceiling mounting groove 24 comprises two parallel side walls 242, a lower rear wall 243 connecting the side walls 242 and an upper opening 241 opposite the rear wall 243. The opening 241 extends over the entire length of the ceiling support profile 2 and is thus slot-shaped. It has a width which is smaller than a distance between the side walls 242. Between the opening 241 and the side walls 242 two wall sections 244 are arranged, which connect at right angles to the side walls 242. At their inner, facing ends, the wall portions 244 are provided with a flange portion so as to extend upwardly and downwardly adjacent to the opening 241. The ceiling mounting groove 24 is vertically upwardly aligned.
    At the two flank sides of the ceiling support profile 2, two opposing Hilfskonstruktionsnuten 25 are configured, which are aligned horizontally, laterally, to the left and to the right. They each comprise two parallel side walls 252, an inner rear wall 253 connecting the side walls 252 and an outer opening 251 opposite the rear wall 253. The openings 251 extend over the entire length of the ceiling support profile 2 and are thus slot-shaped. They have a width which is smaller than a distance between the side walls 252. Between the opening 251 and the side walls 252 two wall sections 254 are arranged, which connect at right angles to the side walls 252. At their ends facing each other, the wall portions 254 are each bent inwardly.
    In Fig. 6 shows an embodiment of an inventive fastening system 3 is shown, in which the adapter 1 is mounted in the ceiling support profile 2. For this purpose, the adapter 1 as shown by the arrow in Fig. 6 vertically inserted from bottom to top in the ceiling support profile 2. In this case, the mounting portions 121 of the adapter 1 are inserted into the Einhängenuten 22 of the ceiling support profile 2. During insertion, the mounting portions 121 are bent inwardly for a short time until the hanging tabs 1212 are placed past the lugs 2216 of the contact portions of the hitching grooves 22 and snap behind them. The contact surfaces 12121 of the suspension lugs 1212 of the adapter 1 rest on the contact surfaces 2216 of the contact sections of the ceiling support profile 2. The adapter 1 is suspended on the ceiling support profile 2 and can not be moved vertically downwards or in the z-direction in this position. Along the ceiling support profile 2 so horizontal, the adapter 1 but can be moved and positioned.
    Fig. 7 and Fig. 8 show the adapter 1 in a fixed position. In this case, the two operating levers 1222 are rotated in a horizontal position upwards. The pins 12 214 of the journal 12 211 are located at the inner longitudinal end of the guide contours 12 215. From its center or its saddle forth the guide contours 12 215 run obliquely inwards. When adjusting the operating lever 1222 in the fixed position, the pins 12 214 from the outer edge of the guide contours 12 215 are pushed towards each other inwardly. As a result, the stub axles 12 211 and with them the mounting portions 121 are moved towards each other. At this time, the mounting portions 121 of a pair are resiliently bent toward each other. In the fixed position, the distance between the mounting portions 121 of a pair is thus smaller than in the released position. The teeth 12 216 each engage with their one tooth in the tooth opening 1231 of the associated spring lever 123 a. As a result, the adapter 1 is secured in the fixed position.
    In Fig. 9, the fastening system 3 is shown with the arranged in the fixed position adapter 1. In this case, the adapter 1 is mounted analogously to the above-described hinged position in the ceiling support profile 2. In contrast to the hinged position, the mounting portions 121 are pressed against the contact portions of the ceiling support profile 2 in the fixed position. As a result, a displacement of the adapter 1 along the ceiling support profile 2 is prevented.
    Due to the non-circular configuration of the flank sections 1223 of the actuating mechanism 122, the distances between the flank sections 1223 and the contact surfaces 12121 of the suspension lugs 1212 of the associated mounting sections 121 are increasingly reduced when the adapter 1 is moved into the fixed position. As a result, the lugs 2214 of the contact portions of the ceiling support profile 2 between the flank portions 1223 and the attachment lugs 1212 of the adapter 1 are clamped. The adapter 1 is thus in the fixed position by pressing the mounting portions 121 against the contact portions of the ceiling support profile 2, by resting the contact surfaces 12121 of the hanging 1212 on the contact surfaces 2216 of the contact portions of the ceiling support profile 2 and by clamping the lugs 2214 of the contact portions of Ceiling support 2 between the mounting lugs 1212 and the edge portions 1223 of the adapter 1 fixed and immovably mounted on the ceiling support profile 2.
    Figs. 10 and 11 show the adapter 1 in a released position. The two operating levers 1222 are turned down into a vertical position. The pins 12214 of the axle journals 12211 lie at the outer longitudinal end of the guide contours 12215. The guide contours 12215 extend obliquely outwards from their middle or saddle. As the actuation levers 1222 are moved to the released position, the pins 12214 are pushed outwardly away from the inner edge of the guide contours 12215. As a result, the stub axles 12211 and with them the mounting portions 121 are moved away from each other. In this case, the mounting portions 121 of a pair are resiliently bent away from each other. In the fixed position, the distance between the mounting portions 121 of a pair is therefore greater than in the released position and greater than in the fixed position.
    To adjust the adapter 1 from the fixed to the hinged position as well as from the hinged to the released position of the spring lever 123 must be pushed up. As a result, the toothing 12 216 is released from the tooth opening 1231 and the cylinder sleeves 12 212 are released for rotation.
    In Fig. 12, the fastening system 3 is shown with the arranged in the released position adapter 1. In this case, the mounting portions 121 of the journal 12 211 of the axle 1221 by the rotation of the
    权利要求:
    Claims (15)
    [1]
    Cylinder sleeves 12 212 bent outward so far that the suspension lugs 1212 of the mounting portions 121 are no longer engaged with the lugs 2214 of the contact portions of the ceiling support section 2. Also, the flank portions 1223 are no longer in contact with the lugs 2214. The mounting portions 121 can be carried out freely from the Einhängeuten 22 of the ceiling support profile 2 vertically downwards. The adapter 1 is thus freely removable in the released position of the ceiling support profile 2 and is no longer held by this. Although the invention has been shown and described in detail by means of the figures and the associated description, this description 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 other embodiments with any combinations of features that may differ from the feature combinations explicitly described. 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 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 (1) for attaching a goods carrier to a longitudinal support profile (2), comprising a connecting element (13) to which the goods carrier is connectable, and a mounting structure (12) via which the adapter (1) on the support profile (2 ) is releasably attachable, characterized in that the mounting structure (12) has an actuating mechanism (122) with which the adapter (1) in a released position, a hinged position and a fixed position can be adjusted, wherein in the released position of the adapter (1) freely on the support profile (2) can be arranged and removed from this, in the mounted position of the adapter (1) on the support profile (2) attachable and simultaneously along the support profile (2) is movable, and in the fixed position of the adapter ( 1) is firmly connected to the support profile (2).
    [2]
    2. Adapter (1) according to claim 1, wherein the mounting structure (12) has two opposing mounting portions (121) for attaching the adapter (1) on the support profile (2) with two along the support profile (2) extending contact portions the support profile (2) cooperation, wherein the adjusting mechanism (122) of the mounting structure (12) a distance between the mounting portions (121) is variable, so that the distance between the mounting portions (121) in the released position, in the suspended position and in The fixed position is different.
    [3]
    3. Adapter (1) according to claim 2, wherein the mounting portions (121) of the mounting structure (12) each have a suspension nose (1212) having a contact surface (12 121), wherein the mounting lugs (1212) with the contact portions of the support profile (12). 2) are connectable, that the contact surfaces (12 121) of the suspension lugs (1212) abut against corresponding contact surfaces (2216) of the contact portions.
    [4]
    4. Adapter (1) according to claim 3, wherein in the released position, the distance between the mounting portions (121) is dimensioned such that the contact surfaces (12121) of the hanging lugs (1212) of the mounting portions (121) free at the contact surfaces (2216 ) of the contact portions of the support profile (2) are movable past, in the suspended position, the distance between the mounting portions (121) is dimensioned so that the contact surfaces (12121) of the attachment lugs (1212) of the mounting portions (121) on the contact surfaces (2216) the contact portions of the support profile (2) abut when the adapter (1) on the support profile (2) is arranged, and in the fixed position, the distance between the mounting portions (121) is dimensioned such that the contact surfaces (12121) of the suspension lugs (1212 ) abut the mounting portions (121) on the contact surfaces (2216) of the contact portions of the support profile (2) and the mounting portions (121) are pressed against the contact portions of the support profile (2), we nn the adapter (1) on the support profile (2) is arranged.
    [5]
    The adapter (1) according to any one of claims 2 to 4, comprising a base (11) to which the mounting portions (121) of the mounting structure (12) are fixed so as to be resiliently movable toward and away from each other.
    [6]
    6. Adapter (1) according to one of claims 2 to 5, wherein the adjusting mechanism (122) of the mounting structure (12) comprises a length-adjustable shaft member (1221) which is arranged between the two mounting portions (121) and connected thereto.
    [7]
    7. Adapter (1) according to claim 6, wherein the shaft member (1221) of the adjusting mechanism (122) of the mounting structure (12) comprises a cylinder sleeve (12 212) and two journal (12 211), wherein the journals (12 211) with each one of the two mounting portions (121) are connected, protrude into the cylinder sleeve (12 212) and the cylinder sleeve (12 212) are axially movable.
    [8]
    8. Adapter (1) according to claim 7, wherein the cylinder sleeve (12 212) and the axle journal (12 211) are rotatable relative to each other about a longitudinal axis.
    [9]
    9. adapter (1) according to claim 8, wherein the axle journals (12 211) each have a substantially radially projecting pin (12 214) and the cylinder sleeve (12212) is provided with two in each case as a guide contour (12 215) formed cutouts, wherein the pins (12 214) of the journal (12 211) respectively through one of the guide contours (12 215) of the cylinder sleeve (12 212) extend therethrough.
    [10]
    10. Adapter (1) according to claim 9, wherein the guide contours (12 215) of the cylinder sleeve (12 212) are each formed so that the axle journals (12 211) depending on a rotation of the cylinder sleeve (12 212) and the journal ( 12 211) are axially movable relative to each other.
    [11]
    11. Adapter (1) according to one of claims 8 to 10, wherein the adjusting mechanism (122) of the mounting structure (12) with the cylinder sleeve (12 212) fixedly connected actuating lever (1222) over which the cylinder sleeve (12212) relative to the stub axle (12211) is rotatable about the longitudinal axis.
    [12]
    12. Adapter (1) according to claim 11, wherein the mounting structure (12) has a spring element (123) and the cylinder sleeve (12 212) of the axle element (1221) is provided with a toothing (12 216), wherein the spring element (123 ) engages in the mounted position of the adapter (1) in the toothing (12 216), so that the mounting structure (12) in the mounted position of the adapter (1) is secured.
    [13]
    13. Adapter (1) according to one of claims 8 to 12, wherein the adjusting mechanism (122) at least partially around the cylinder sleeve (12 212) of the shaft member (1221) arranged non-circular edge portion (1223), so that a distance between the flank portion (1223) and the contact surface (12 121) of the attachment nose (1212) of one of the mounting portions (121) in the fixed position of the adapter (1) is smaller than in the suspended position of the adapter (1).
    [14]
    14. Claim 14: goods carrier with a support structure and an adapter (1) according to one of the preceding claims.
    [15]
    15. Claim 15: fastening system with an adapter (1) according to one of claims 1 to 13 and a longitudinal support profile (2).
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    同族专利:
    公开号 | 公开日
    DE102016005677A1|2017-11-09|
    US10349757B2|2019-07-16|
    US20170318987A1|2017-11-09|
    CH712455B1|2021-08-31|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4869378A|1988-08-29|1989-09-26|Hospital Systems, Inc.|Mounting rail for hospital appliances and bracket|
    US5288046A|1991-10-07|1994-02-22|Santa Cruz Industries|Universal shelf extender|
    US20110315840A1|2010-06-28|2011-12-29|Dan Connolly|Universal cam lock mount|
    EP2752134A1|2013-01-03|2014-07-09|Microdel Ltd.|Utility corner shelf bracket|
    US4103852A|1976-07-12|1978-08-01|Fisk James C|Adjustable instrument mounting bracket|
    US6773172B1|2003-08-20|2004-08-10|Joseph M. Johnson|Quick-release clamp for photographic equipment|
    US8800212B2|2011-11-23|2014-08-12|Parallax Group International, Llc|Wall mounting devices|
    US20140252187A1|2013-02-05|2014-09-11|Cody Petrovic|Modular mounting system using picatinny-type rail|
    US9919657B2|2015-09-04|2018-03-20|Arctic Cat, Inc.|Retaining device for vehicle racks|
    DE102016005677A1|2016-05-09|2017-11-09|Visplay International Ag|Adapter, goods carrier and fastening system|
    EP3305138A1|2016-10-05|2018-04-11|Ariel Haroush|Modular powered secure product display mount|DE102016005677A1|2016-05-09|2017-11-09|Visplay International Ag|Adapter, goods carrier and fastening system|
    JP6855914B2|2017-05-10|2021-04-07|株式会社デンソー|Control module|
    JP6946725B2|2017-05-10|2021-10-06|株式会社デンソー|Control module|
    法律状态:
    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
    DE102016005677.0A|DE102016005677A1|2016-05-09|2016-05-09|Adapter, goods carrier and fastening system|
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