• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    This invention relates to a modular counter which can be mounted and disassembled without tools, comprising two modules (A), (B) which are detachably connected to connecting sides by means of a locking device (30), (40). This locking device comprises a hook (42) movably connected to one module (A), (B) and hooked onto a hook-in element (32) of the other module (A), (B), and is provided around the hook in a hooked state, to move from a first position in which the said sides of the two modules are spaced apart at a distance from each other to a second position in which the said sides abut each other.
    公开号:BE1024128B9
    申请号:E20165402
    申请日:2016-06-01
    公开日:2018-08-31
    发明作者:Hubert Scheers
    申请人:Toogpunt Bvba;
    IPC主号:
    专利说明:

    (73) Holder (s):
    TOOGPUNT BVBA 2550, KONTICH Belgium (72) Inventor (s):
    SCHEERS Hubert 2550 KONTICH Belgium (54) MODULAR BAR (57) This invention relates to a modular bar that can be assembled and disassembled without tools, comprising two modules (A), (B) which are releasably connected by means of a locking device ( 30), (40). This locking device comprises a hook (42) which is movably connected to one module (A), (B) and is hooked onto a hooking element (32) of the other module (A), (B), and is provided around the hook to be moved in a hooked state from a first position in which the said sides of the two modules are spaced apart at a distance from one another to a second position in which the said sides connect against each other.
    Fig, tb
    BELGIAN INVENTION PATENT
    FPS Economy, K.M.O., Self-employed & Energy
    Publication number: 1024128 Filing number: BE2016 / 5402
    Intellectual Property Office International classification: A47F 5/10 A47F 9/00 A47B 87/00 F16B 12/20
    Date of grant: 20/11/2017
    The Minister of Economy,
    Having regard to the Paris Convention of 20 March 1883 for the Protection of Industrial Property;
    Having regard to the Law of March 28, 1984 on inventive patents, Article 22, for patent applications filed before September 22, 2014;
    Having regard to Title 1 Invention Patents of Book XI of the Economic Law Code, Article XI.24, for patent applications filed from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 on the filing, granting and maintenance of inventive patents, Article 28;
    Having regard to the application for an invention patent received by the Intellectual Property Office on 01/06/2016.
    Whereas for patent applications that fall within the scope of Title 1, Book XI, of the Code of Economic Law (hereinafter WER), in accordance with Article XI.19, § 4, second paragraph, of the WER, the granted patent will be limited. to the patent claims for which the novelty search report was prepared, when the patent application is the subject of a novelty search report indicating a lack of unity of invention as referred to in paragraph 1, and when the applicant does not limit his filing and does not file a divisional application in accordance with the search report.
    Decision:
    Article 1
    TOOGPUNT BVBA, Oever 12, 2550 KONTICH Belgium;
    represented by
    OSTYN Frans, Pres. Kennedypark 31c, 8500, KORTRIJK;
    CHIELENS Kristof, Pres. Kennedypark 31c, 8500, KORTRIJK;
    HOSTENS Veerle, Pres. Kennedypark 31c, 8500, KORTRIJK;
    CARDOON Annelies, Pres. Kennedypark 31c, 8500, KORTRIJK;
    a Belgian invention patent with a term of 20 years, subject to payment of the annual fees as referred to in Article XI.48, § 1 of the Code of Economic Law, for: MODULAR ARCH.
    INVENTOR (S):
    SCHEERS Hubert, Bank 12, 2550, KONTICH;
    PRIORITY:
    10/05/2016 BE BE2016 / 0094;
    BREAKDOWN:
    Split from basic application: Filing date of the basic application:
    Article 2. - This patent is granted without prior investigation into the patentability of the invention, without warranty of the Merit of the invention, nor of the accuracy of its description and at the risk of the applicant (s).
    Brussels, 20/11/2017,
    With special authorization:
    BE2016 / 5402
    Modular bar counter
    This invention relates to a bar comprising at least two modules that are detachably connected to each other.
    In this description and in the claims, the word "bar" is used not only in the narrow sense of a bar cabinet for serving and offering drinks, but also in the more general sense of a counter, a shop counter or a reception counter etc.
    In particular, this invention relates to a bar that is easy and quick to assemble and disassemble, so that it is suitable for setting up as a temporary construction, for example at events of a temporary nature, such as parties, receptions, fairs, etc.
    More specifically, this invention relates to a modular bar composed of two or more interconnectable modules. This makes it possible to assemble arches with very different lengths and configurations, with a limited number of different modules.
    A number of known modular arches comprise a supporting structure composed of modules, to which a front panel and side panels can be attached, but has the drawback that the arch is not sufficiently stable. In other known arches, assembling and disassembling is time-consuming and laborious, partly because various tools are required for this.
    Another drawback of certain known counters is that the individual modules occupy a fairly large volume, so that moving and transporting them is difficult and requires a vehicle with a relatively large loading volume.
    An object of this invention is to solve these drawbacks by providing a modular bar which is very stable and can also be set up and disassembled very quickly and without the use of tools, the individual modules of which are in disassembled condition can be transformed into a compact whole.
    BE2016 / 5402
    This object is achieved according to the present invention by providing a bar comprising at least two modules that are detachably connected to each other, of which neighboring modules are connected to adjacent sides by means of one or more locking devices, each locking device comprising a hook which is movably connected to one module and hooked onto a hook-in element which is part of or connected to the other module, the locking device being provided for moving the hook in the hooked-on condition from a first position, said sides of the two modules spaced apart to a second position with said sides abutting, each module comprising a first support and at least one second support pivotally connected to the first support, the first support and each second support forming an angle in a support structure are included, where the first support comprises a hay edge portion, and wherein the second support comprises a hinge body which extends substantially in line with the second support and is rotatably received in said high edge part of the first support.
    The said displacement of the hook can be a combination of a rotation and a translation. Preferably it is a rectilinear displacement. In particular, that displacement is perpendicular to the direction of the abutting sides of the modules.
    Such a hinge connection makes it possible to rotate the first and second carrier (s) which are angle-forming in the supporting construction and for instance form an intermediate angle of 90 °, in disassembled condition relative to each other to a position in which they abut each other according to extend in the same direction or in other words the intermediate angle is 0 °. As a result, each module can be closed completely in a disassembled drive position to a compact plane. As a result, each module is easy to handle and transport, and the parts of a relatively large counter can be transported in a relatively limited loading space. The locking device also makes it possible to convert the modules into a stable whole in a user-friendly manner
    BE2016 / 5402 together. During the movement, the hook exerts a tensile force on the hook-in element and the two modules are thereby drawn towards each other. The locking device thus ensures that the modules are pulled together with their connecting sides. This ensures great stability of the whole. The end position of the hook (said second position) can be such that the modules with their connecting sides are pulled together with a certain force, so that the modules are joined together to form a very stable whole. This force can be quite large for certain locking devices. Such a bar is very stable.
    In addition, the locking device can be designed with a manually operable operating mechanism. This mechanism can for instance comprise a lever arm with which the hook can be moved manually in the hooked-up state. Such a locking device can for instance also be a so-called pull latch (a so-called 'draw latch') which can be operated in a very simple manner without tools. The pull latch used may comprise an actuating mechanism with a rotatable part that can be rotated manually by means of a lever arm or an actuating arm.
    In a preferred embodiment of this modular bar, the hook is movable by rotating a rotation body about a rotation axis. Preferably
    Is that axis of rotation almost perpendicular to the plane in which the hook can be moved. The hook can be moved, for example, because this rotating body is connected to a cam that determines the position of the hook.
    In a special embodiment, the locking device is provided to first realize a hooking movement of the hook by rotating the rotation body, wherein the hook is rotated from a non-hook-in position to a hook-in position, and then the said displacement from the first position to the second position. Such a locking device makes it easier to mount the bar. To couple the modules into a stable whole, it is sufficient to position the modules with their respective sides to be coupled
    BE2016 / 5402 so that each hook faces a hooking element and then activates the locking mechanism operating mechanism.
    In a special embodiment, said rotation body is connected to an operating arm in order to be able to realize said rotation of the rotation body manually and without tools. This facilitates rötering and allows to develop a larger torque.
    In a very user-friendly embodiment, the operating arm is connected to the rotating body via a ratchet mechanism, so that the said rotation can be realized by a reciprocating rotational movement of the operating arm.
    The operating arm is preferably provided with a reversible ratchet mechanism. In the case of a ratchet mechanism which is reversible by changing the position of an operating element, such as by pressing a button, a contact element is preferably provided in the vicinity of the locking device, so that the position of the operating element can be changed by the operating element during the reciprocating rotational movement of the operating arm against the contact element.
    Preferably, the locking device is also provided for moving the hook from the second position to the first position. This also makes the disassembly of the bar very easy and quick to perform without the use of tools.
    In a most preferred embodiment, each module comprises at least one hook on a first side and at least one hooking element on the opposite second side, so that each module is connectable on the first side to the second side of a first other module, and connectable on the second side is with the first side of a second other module. All modules can thus be designed as virtually identical and interconnectable components of the bar's supporting structure.
    Preferably, each module of the bar according to the present invention comprises a first support provided for supporting one or more front panels and at least one
    BE2016 / 5402 second support which is incorporated in the support construction in an angle-forming manner relative to the first support, and each second support has an adjustable length.
    For example, the length of the second carriers can be reduced in the disassembled state, for instance in order to prevent two second carriers that are hingedly connected to the first carrier on opposite sides of the first carrier from overlapping each other in the folded state. The adjustable length of the second carriers also allows to adjust the width of the modules.
    This is realized, for example, in that each second carrier comprises a fixed part connected to the first carrier and comprises a second part which is slidable relative to this fixed part, and in that each second carrier comprises retaining means around the fixed part and the slidable part in at least two different withhold positions.
    In a very preferred embodiment, each module comprises a first carrier 15 which is pivotally connected to a second carrier on both opposite sides. In the support structure, the second supports preferably form an angle of approximately 90 ° with respect to the first support, so that a substantially U-shaped construction is formed. Each first and / or every second carrier are preferably designed as a frame-shaped whole. The first and second carriers can have the same height. Preferably, the first carrier has a greater height than the second carrier (s).
    To further improve the stability of the bar, the modules of the bar according to the invention preferably also comprise at least one leg of an adjustable length. This makes it possible to place the bar even on a floor with unevenness and level differences.
    In a particular embodiment of a module with a first carrier which is connected to at least one second carrier which is included in the supporting construction in an angle-forming manner, each second carrier comprises a leg of an adjustable length at a location remote from the first carrier.
    BE2016 / 5402
    Each leg of adjustable length is preferably provided with a fixed part and a part which can be displaced relative to this fixed part along the longitudinal direction of the leg, each leg also comprising retaining means around the fixed part and the sliding part of choice in at least one two different mutual positions, each position corresponding to a different leg length, and each leg also comprising a threaded portion extending longitudinally of the leg and a screw portion engaging the thread so that the leg length also is adjustable by rotating the screw part.
    This allows the leg length to be set quickly and accurately. In an initial adjustment phase, the leg length is adjusted by moving the sliding part in a position that is as close as possible to the required leg length. In a second adjustment phase, the leg length can then be adjusted very precisely to the length required to obtain an additional support point by rotating the screw part. In this way, each module can be quickly set up on a bottom in a very stable condition, even if that bottom shows unevenness and level differences.
    In a most preferred embodiment, each module is supported by a bottom element which is provided to be arranged on a bottom. The bottom element is preferably plate-shaped. It can have legs. If the bottom element comprises wheels, the entire module can be moved very easily.
    Preferably, each module consists mainly of metal, preferably a light metal such as, for example, aluminum.
    To illustrate the invention and to indicate further features and advantages thereof, a more detailed description of a preferred embodiment of the bar according to this invention follows. It is to be understood that this is only one of many possible embodiments within the scope of the patent protection defined in the appended claims, and that nothing in the description below should be construed as limiting this scope.
    BE2016 / 5402
    In this description, reference is made, by reference numerals, to the accompanying drawings, of which
    Figures 1 a and 1b are perspective drawings of a modular counter according to the invention, viewed from the front and from the rear of the counter respectively, figure 2 represents a separate counter module of the counter represented in figures 1a and 1b, figure 3 shows a separate counter module of the bar shown in figures 1a and 1b, without the bottom element on wheels, figure 4 represents the wheeled bottom element of the bar module of figure 2 separately, figure 5 represents a locking device of the bar in perspective, figure 6 the inside the housing parts of the locking device of figure 5, figures 7a to 7d represent the parts of the locking device of figure 5 contained within the housing, respectively, in four successive positions during the realization of the connection, figures 8a and 8b are perspective drawings of a first support of the bar module of figure 2 with a horizontal cut a hollow edge portion incorporating a hinge body, and the drawings showing the position of the hinge body, in an assembled module and in a disassembled and collapsed module, respectively, and figures 9a and 9b in perspective a vertical cross-section of a horizontal arm of a second carrier of the bar module of figure 2, respectively in a different mutual position of the fixed part and the slidable part of that arm.
    The modular bar counter shown in Figures 1a and 1b has an angle-forming configuration composed of three rectangular modules (A) and an angle module (B) as best seen in Figure 1b.
    BE2016 / 5402
    Each rectangular module (A) includes a U-shaped support structure (1) as most clearly seen in Figures 1 and 1. This support structure consists of a vertical front panel (4) with two vertical edge profiles (5a), (5b) to which respective wings (7), (8) are hinged.
    More specifically, the front panel (4) consists of a rectangular frame formed by four straight edge profiles (5a, 5b, 5c, 5d) and a plate (6) with elongated openings (6a) extending within said frame. The front panel (4) extends the full length of the long side of the bottom plate (2) and extends vertically vertically. The horizontal lower edge of the front panel (4) is lower than the level of the bottom plate (2).
    The two vertical edge profiles (5a), (5b) of the front panel (4) are hollow with a substantially rectangular cross section, as can be seen in Figures 8a and 8b. A respective wing (7), (8) is hinged to each vertical edge profile (5a), (5b) (see figure 3). Each wing (7), (8) consists of two horizontal arms (71), (72); (81), (82) with a respective fixed portion (71a), (72a); (81a), (82a) and a slidable portion (71b), (72b); (81b), (82b) slidable with respect to the fixed portion so that these arms (71), (72); (81), (82) have an adjustable length (see also Figures 9a and 9b). The horizontal arms of each wing (7), (8) are connected at their ends by a first vertical arm (73); (83). A second vertical arm (74); (84) also connects the horizontal arms of each wing (7), (8) at a location closer to the front panel (4).
    Each wing (7), (8) also has the first vertical arm (73); (83) a leg (60), (61) of adjustable length attached. As indicated in Figure 2, each leg (60), (61) includes a fixed portion (60a), (61a) and a portion (60b), (61b) slidable relative to that fixed portion, as well as means for mounting the slidable portion fix a number of different positions in relation to the fixed part. Each position corresponds to a different leg length.
    can be set very precisely.
    BE2016 / 5402
    The horizontal arms (71), (72); (81), (82) are hingedly connected to the hollow edge profiles (5a), (5b) of the front panel (4). The upper horizontal arms are lower than the upper edge of the front panel (4). The lower horizontal arms are slightly higher than the level of the bottom plate (2). A cylindrical hinge body (85) is included in the hollow edge profiles (5a), (5b) for each hinge action (Figures 8a and 8b). Each hinge body (85) has a threaded stem (85a) extending beyond the edge profile through a respective recess (87) in the wall of the hollow edge profile. This stem (85a) is screwed into a threaded bore (86) inserted into a slat (90) of the fixed portion (71a), (72a); (81a), (82a) of each horizontal arm. This bore (86) extends along the length of the arm. The stem (85a) screwed into the bore therefore also extends in line with the arm.
    The recess (87) in the wall of the hollow edge profiles (5a), (5b) is such that the hinge body (85) can rotate between a position where the stem (85a) is perpendicular to the plane of the plate (6) of the front panel (4) extends through the recess (87) (as shown in Figure 8a) and a position where the stem (85a) extends parallel to the plane of that plate (6) through the recess (87) figure 8b).
    This allows the wings (7), (8) to rotate with respect to the edge profiles (5a), (5b) of the front panel, between a position of use where the wings (7), (8) form a right angle to the front panel (5) - this is the position of the support structure in the assembled state - and a closed position (not shown in the figures) in which the horizontal arms run parallel to the surface of the plate (6) of the front panel (5).
    As mentioned, the horizontal arms (71), (72); (81), (82) of the wings (7), (8) a fixed portion (71a), (72a); (81a), (82a) and a slidable portion (71b), (72b); (81b), (82b) slidable with respect to the fixed portion so that these arms (71), (72); (81), (82) have an adjustable length (see Figures 9a and 9b). The fixed arm section (71a), (72a); (81a), (82a) include, as mentioned, a slat (90). In the
    BE2016 / 5402 at the bottom of the batten (90), three bores (91), (92), (93) are provided with equally spaced intervals. The slidable portion of each arm includes a hay profile (94) incorporating the slat (90) so that the hay profile (94) is slidable along the slat (90) along the length of the arm.
    On the outside of the hay profile (94) an adjustment device (95) is provided with a pin (96) which is opposite an opening in the wall of the hay profile (94) and is movable along its longitudinal direction between a blocking position whereby the pin (96) extends through the opening into the hollow space of the hollow profile and a more retracted position. For example, the pin (96) can be moved by means of a manually operated screw mechanism or pusher mechanism without the use of a tool and optionally held in the blocking position or in the retracted position.
    When the hollow profile (94) is positioned relative to the batten (90) such that a particular bore (91), (92), (93) of the batten (90) is opposite the pin (96), the the pin (96) brought into the blocking position extends through said opening into this bore, whereby the slat (90) and the hollow profile (94) are restrained in their mutual position. In the retracted position, the pin (96) does not extend into this bore so that the hay profile (94) can slide freely over the batten (96).
    The length of the two horizontal arms of a wing (7), (8) can be changed together by moving the pins (96) of these two arms to the retracted position, then simultaneously moving the hollow profile of each arm in the same direction with respect to the batten (90) until a respective other bore is opposite the pin (96), and finally return the pins (96) to the blocking position.
    The U-shaped support structure described above is placed on a rectangular base plate (2) (see Figures 2 and 4), and held in place by means of horizontal projections (50) on the edges of the base plate (2) and corresponding recesses in the components of the supporting structure.
    BE2016 / 5402
    The bottom plate is supported by four wheels (3). Each wheel (3) can be locked by means of a respective braking system.
    On the upper sides of the horizontal arms of each module (A), a worktop (97) is attached with a mainly rectangular shape. A higher counter (98) is attached to the top edge of the front panel (4). A rectangular wall panel (100) is attached to the front panel (4) of each rectangular module (A).
    The angle module (B) differs from the rectangular modules (A) in that the bottom plate (102), the wall panel (103) attached to it, the worktop (104) and the counter top (105) have a different shape, as shown in figure lb. The shape of the worktop approximates the shape of a circular sector with a center angle of 90 °, with the two straight sides running perpendicular to each other from a circular front. The wings of the angle module (B) are also not parallel here, as is the case with the rectangular modules, but follow the converging straight sides of the bottom plate (102). The wall panel (103) is curved so that it edges with the wall panels (100) of the adjacent rectangular modules (100).
    The neighboring modules (A), (B) are interconnected by means of a respective pull latch (30). Each pull latch includes two members, a first latch member (30) and a second latch member (40), which are connected to a respective module (A), (B). Each locking member (30), (40) is contained in a respective enclosure housing (31), (41) with an open side (see Figure 5). The locking members (30), (40) are attached to the modules so that the open sides of their respective housings (31), (41) face each other. In the figures 6 and 7a to 7d the locking parts (30), (40) are shown separately. The fronts of the housings (31), (41) are removed on these figures.
    The first locking member (30) includes a rod-shaped member (32) extending horizontally between the walls of the housing (31). The second locking member (40) includes a hook (42) protruding through the open side of the housing. By rotating a rotation body (43) counterclockwise, this hook (42) is first taken out
    BE2016 / 5402 rotated from a non-hook-in position (the position shown in Figure 6) to a hook-in position (the position shown in Figure 7a). As a result of this movement, the hook (42) hooks onto the rod-shaped element (32) of the first locking part (31) which is positioned opposite the second locking part.
    As the rotation body (43) is further rotated counterclockwise, the hook (42) is gradually moved away from the bar-shaped element (32) (see Figures 7b to 7d). This causes the two locking members (30), (40) to move together until they join (as shown in Figure 7d). When the locking parts (30), (40) are connected to respective modules, the modules are hereby pulled together until they fit together.
    The rotation of the rotating body (43) is effected by means of an operating arm (44) which engages the rotating body (43) and which is provided with a reversible ratchet mechanism provided with a head (45) connected to the operating arm (44). The operation of the ratchet mechanism is reversible by means of a button (45a) that is pushable on the top of the head (45) and a button (45b) that is pushable on the bottom of the head (45). After pressing the top button (45a), the ratchet mechanism is adjusted to counter-rotate the rotating body (43). By pressing the button (45b) at the bottom, the ratchet mechanism is adjusted to rotate the rotating body (43) clockwise.
    A contact element (46) includes a V-shaped recess (47) with an upper flank (47a) and a lower flank (47b) and is arranged such that the upper knob (45a) is pushable by performing an upward rotation of the operating arm with the upper knob (45a) abutting the upper flank (47a) of the contact element (46), and the lower knob (45b) being pushable by performing a downward rotation of the operating arm with the lower knob (45b ) against the bottom flank (47b) of the contact element (46).
    To realize a rotation of the rotation body (43) counterclockwise, the top button (45 a) must be pressed. This is achieved by first rotating the operating arm upwards until the top button (45a) hits the top flank (47a). One can control the operating arm during the further up and down
    BE2016 / 5402 also bring rotational movements up to the top position to ensure that the top button is pressed.
    To achieve a clockwise rotation of the rotating body (43), the lower button (45b) must be pressed. This is achieved by first rotating the operating arm downwards until the bottom knob (45b) hits the bottom flank (47b). During the further up and down rotational movements, the operating arm can also be brought into that lower position each time in order to always ensure that the lower button (45b) is pressed.
    A number of slots are provided in exactly the same place in the upper arms of the supporting structures (1) (see Figures 2 and 3). In order to perfectly position the connected supporting structures at the level of the wings, one or more slots of one arm of a supporting structure can be arranged to ensure that it fits perfectly with the corresponding slot in the arm of the neighboring supporting structure. Thus, one or more pairs of corresponding slots of adjacent supporting structures are formed. These positions can be fixed by inserting into the corresponding slots of a pair an elongated element extending through both slots of the pair (not shown in the figures). The elongated element can be a screw or a bolt. Preferably, this is done in two pairs of corresponding slots.
    This creates a perfect bearing surface for a worktop (97) of the bar.
    One or more vertical wall-forming panels (100), (103) are attached to the front panel (4) of the supporting construction (1) in order to obtain an aesthetically finished front of the bar. These panels can be made of any material, such as metal, wood, plastic or glass, or any combination of materials. One continuous wall-forming panel can be provided on the front of the bar or several panels connecting to each other. These panels can be attached with wing nuts. Magnets or click connections can also be provided for this.
    BE2016 / 5402
    The bar is also equipped with the necessary side panels and installations, such as a tap installation (101), a sink or a refrigerator. For example, the bar can also be equipped with a lighting installation, which may or may not be integrated in modules (A), (B).
    BE2016 / 5402
    1.
    2.
    3.
    4.
    5.
    权利要求:
    Claims (18)
    [1]
    CONCLUSIONS
    Modular counter comprising at least two modules (A), (B) which are detachably connected to each other, of which neighboring modules are connected to adjacent sides by means of one or more locking devices (30), (40), each locking device hook (42) movably connected to one module (A), (B) and hooked to a hook-in element (32) that is part of or connected to the other module (A), (B), and the locking device (30), (40) is arranged to move the hook in the hooked state from a first position wherein said sides of the two modules are spaced apart at a distance to a second position where said sides connect against each other, characterized in that each module comprises a first carrier (4) and at least one second carrier (7), (8) hingedly connected to the first carrier, that the first carrier (4) and each second carrier (7), (8) corner forming in a supporting structure z It is included that the first carrier (4) comprises a high edge portion (5a), (5b), and that the second carrier (7), (8) comprises a hinge body (85) which is essentially an extension of the second carrier (7), (8) extending and rotatably received in said high edge portion (5a), (5b) of the first carrier (4).
    Modular arch according to claim 1, characterized in that the hook (42) is movable by rotating a rotating body (43).
    Modular bar counter according to claim
    [2]
    2 characterized in that the rotation body (43) is rotatable about an axis of rotation substantially perpendicular to the plane in which the hook (42) is movable.
    Modular bar counter according to claim 2 or
    [3]
    3, characterized in that the rotating body (43) is connected to a cam which determines the position of the hook (42).
    Modular bar counter according to one of claims 2 to
    [4]
    4 characterized in that the locking device (30), (40) is provided to first realize a hooking-in movement of the hook (42) by rotating the rotation body (43).
    BE2016 / 5402 wherein the hook (42) is rotated from a non-hook-in position to a hook-in position, and then realize the said displacement from the first position to the second position.
    [5]
    5 opposite sides are pivotally connected to a second carrier (Ό, (8).
    5 said rotation body (43) is connected to an operating arm (44) in order to be able to realize said rotation of the rotation body manually and without tools.
    [6]
    Modular bar counter according to any one of claims 2 to 5, characterized in that it
    [7]
    Modular bar according to claim 6, characterized in that the operating arm (44) is connected to the rotating body (43) via a ratchet mechanism, so that
    [8]
    Modular bar according to any one of the preceding claims, characterized in that the locking device (30), (40) is also provided for moving the hook from the second position to the first position.
    15
    [9]
    Modular arch according to any one of the preceding claims, characterized in that each module (A), (B) comprises at least one hook (42) on a first side and at least one hooking element (32) on the opposite second side, so that each module is connectable on the first side to the second side of a first other module, and connectable on the second side to
    20 the first side of a second other module.
    [10]
    Modular counter according to any one of the preceding claims, characterized in that each module (A), (B) comprises a first carrier (4) and comprises at least one second carrier (7), (8) which is relative to the first carrier (4) is incorporated in the bar at an angle, and that every second carrier has an adjustable length.
    25
    The said rotation can be realized by a reciprocal rotational movement of the operating arm (44).
    [11]
    Modular counter according to claim 10, characterized in that each second support (7), (8) comprises a fixed part (71a), (72a), (81a), (82a) connected to the first support (4) and a second portion (71b), (72b), (81b), (82b) slidable relative to this fixed portion and each second carrier (7), (8)
    BE2016 / 5402 retaining means (96) includes for retaining the fixed portion and the slidable portion in at least two different mutual positions.
    [12]
    Modular counter according to any one of the preceding claims, characterized in that each module (A), (B) comprises a first support (4) which is attached to both
    [13]
    Modular bar according to one of the preceding claims, characterized in that each first and / or every second carrier are designed as a frame-shaped whole.
    10
    [14]
    Modular bar according to any one of the preceding claims, characterized in that each module comprises at least one leg (60), (61) of adjustable length.
    [15]
    Modular bar according to any one of the preceding claims, characterized in that each second carrier (7), (8) comprises a leg of an adjustable length at a location remote from the first carrier.
    15
    [16]
    Modular bar according to claim 14 or 15, characterized in that each leg comprises a fixed part (60a), (61a) and a part (60b), (61b) which is slidable with respect to this fixed part in the longitudinal direction of the leg, each leg also includes restraining means about the fixed portion and the sliding portion optionally in one of at least two different mutual positions
    20, each position corresponding to a different leg length, and each leg comprising a threaded portion extending along the length of the leg and a screw portion engaging the thread so that the leg length is also adjustable by rotating the screw part.
    25
    [17]
    Modular counter according to any one of the preceding claims, characterized in that each module is supported by a common support (2), (102) which is provided to be stable on a base.
    [18]
    Modular counter according to claim 17, characterized in that the common carrier (2), (102) is supported by wheels (3).
    BE2016 / 5402, χ103
    100
    a
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    同族专利:
    公开号 | 公开日
    BE1024128B1|2017-11-20|
    EP3292799A1|2018-03-14|
    BE1024128A1|2017-11-17|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5163536A|1990-11-30|1992-11-17|Southern Equipment Company|Modular foodservice equipment|
    DE202008014683U1|2008-11-10|2009-09-03|Janek, Thomas|Foldable, variable, two- and three-dimensionally adjustable mobile bar and buffet system|
    法律状态:
    2018-02-12| FG| Patent granted|Effective date: 20171120 |
    优先权:
    申请号 | 申请日 | 专利标题
    BEBE2016/0094|2016-05-10|
    BE201600094|2016-05-10|EP17170235.0A| EP3292799A1|2016-05-10|2017-05-09|Modular counter|
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