• 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:
    A building board for mounting on a support structure including a set of joists (150). The building board comprises a frame element (101) substantially shaped as a straight block including two opposite main sides with a relatively large limiting area and square edge sides with a relatively small limiting area. A first type of snap-in means (A1) is arranged along a first edge side and the second type of snap-in means (A2) is arranged along a second edge side opposite the first edge side. The snap-in means of the first type (A1) is, in connection with mounting the building board on the support structure, configured to receive a snap-in member of the second type (A2) of another building board, so that it is connected to the mounted building board. Either of the snap-in means of said first or second type (A1, A2) comprises a groove (1118) configured to receive at least one clamping element (1518) for clamping and holding the first and second building boards against a latch included in the building structure (150). (Fig. 1)
    公开号:SE1251040A1
    申请号:SE1251040
    申请日:2012-09-18
    公开日:2014-03-19
    发明作者:Peter Lindberg
    申请人:Oneday Wall Ab;
    IPC主号:
    专利说明:

    15 20 25 30 it is possible to produce boards for cladding floors, ceilings or walls, which boards both provide aesthetically pleasing joints and are robust in terms of construction. Attaching the building boards to a load-bearing structure, such as a structure including joists, is, however, not entirely straightforward as, for example, a set of screws is required to mechanically connect each building board to the load-bearing structure.
    SUMMARY OF THE INVENTION The object of the present invention is therefore to provide a solution through which building boards can be mounted on a support structure in a cost-effective, simple and safe manner.
    According to a first aspect of the invention, the object is achieved by the initially described building board, wherein either of the snap-in means of said first or second type comprises a groove configured to receive at least one clamping element for clamping and holding the first and the second building board against a rule included in the support structure.
    This building board is advantageous, as its configuration considerably facilitates mounting of the building board on a building structure, which includes joists.
    According to an embodiment of this aspect of the invention, the first type of snap-in means is formed in a first edge structure of the building board. The first edge structure can in turn include a first edge strip, which is integrated in the building board. Correspondingly, the second type of snap-in means is advantageously formed in a second edge structure of the building board, which second edge structure may include a second edge strip integrated in the building board.
    According to another embodiment of this aspect of the invention, the edging strips essentially consist of aluminum, plastic, rubber, wood or MDF [Medium Density Fibreboard]. These materials are all advantageous depending on the type of building and environment in which the building board is used. Furthermore, the frame element may comprise a ceramic material, plaster, glass, concrete, mineral wool and / or cardboard.
    These materials can also be advantageous depending on the type of building and environment in which the building board is suitable for use.
    According to a further embodiment of this aspect of the invention, the edging strips have been integrated in the building board during a manufacturing process in which the frame element was designed, for example by casting. Thus, the edging strips can be designed of a material other than the frame element, so that the respective material properties of the edging strips and the frame element can be adapted to the requirements placed on the respective part, for example regarding strength, machining ability and cost.
    According to a further embodiment of this aspect of the invention, at least one of the snapping means forms part of the chair element. A cross-sectional profile of the snap-in member in question is produced here by removing material from the body element while it is in solid form, such as by milling. This is desirable as it enables a very simple and efficient manufacturing process for the building board.
    According to yet another embodiment of this aspect of the invention, the first type of female-type snap-in means and the second type of male-type snap-in means. Thereby, the assembly procedure can be made extremely uncomplicated.
    According to yet another embodiment of this aspect of the invention, at least one of the main sides of the building board is covered by a reinforcing layer, which covers the respective main side. Such a reinforcement layer gives the building board a good strength and contributes to giving the building board an aesthetically pleasing surface.
    According to a second aspect of the invention, the object is achieved by the method initially described, wherein a first leg of a clamping element is inserted into a groove in either of the snap-in means of said first or second type. A second building board is coupled to the first building board by inserting a snap-in member of the second type of the second building board into the snap-in means of the first building board of the first type. Then the second building board is mounted against the support structure, so that a first edge side of the second building board connects to a rule in the building structure. The advantages of this method, as well as of the preferred embodiments thereof, appear from the discussion above with reference to the proposed construction board.
    BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be explained in more detail by means of embodiments, which are described by way of example, and with reference to the accompanying drawings.
    Figure 1 schematically illustrates how building boards and a rule are mounted according to a first embodiment of the invention, Figure 2 schematically illustrates how building boards and a rule are mounted according to a second embodiment of the invention, Figure 3a-b schematically illustrates how building boards and a rule are mounted according to a third embodiment of the invention, Figures 4a-b schematically illustrate how building boards and a rule according to a fourth embodiment of the invention, and show a flow chart of the general mounting method according to the invention.
    FIGURE 5 DESCRIPTION OF EMBODIMENTS OF THE INVENTION We first refer to Figure 1, which in a schematic cross-sectional profile illustrates how two building boards are joined and clamped to hold against a rule 150 according to a first embodiment of the invention. After assembly, the rule 150 10 15 20 25 30 is assumed to be part of a support structure together with a number of similar rules.
    According to the invention, each building board comprises a respective frame element 101, 102, which has an essential shape of a straight block including two opposite main sides with a relatively large limiting area and four edge sides with a relatively small limiting area.
    A first type of snap-in means A1, for example of the female type, is arranged along a first edge side of each building board. A second type of snap-in means A2, for example of the male type, is arranged along a second edge side of each building board. As shown in Figure 1, the second edge side is opposite to the first edge side. The snap-in means of the first type A1 is configured to, after mounting the building board against the support structure, receive a snap-in member of the second type A2 of another building board, so that this building board is connected to the already mounted building board. The clamping means A1 of the first type also comprises a groove 1118, which is configured to receive at least one clamping element 151S for clamping and holding the building board against the latch 150. Here the clamping element 151S is included as an integral part of the latch 150. This in turn means that the bolt 150 is most suitably mounted after a first building board has been positioned in the desired position. If, for example, the building board is a wall board, the bolt 150 can be controlled in a desired position via at least one of a floor and a roof bolt which is parallel to the wall to be built.
    The positioning of the first building board is illustrated in Figure 1 by a circled number 1. Correspondingly, the clamping of the first building board against the latch 150 is illustrated by inserting the clamping element 151S with a circled number 2, and the interconnection of the second building board with the first building board. via the snapping means A1 and A2 with a circled number 3.
    According to an embodiment of the invention, the first type of snap-in means A1 is formed in a first edge structure of the building board, so that the snap-in means A1 and / or A2 form a part of the frame element 101 and 102, respectively, as shown in Figure 1. This can be achieved by first casting a building board of conventional shape, ie as a straightening block. After hardening of the building board, the desired cross-sectional profiles of the snap-in members A1 and / or A2 are then produced by removing material from the frame element 101 and 102, respectively, for example by milling.
    Figure 2 shows schematically, in a cross-sectional profile, how two building boards are joined together and clamped for holding against a rule 250 according to a second embodiment of the invention. All reference numerals which correspond to those in Figure 1 are indicate the same elements as described above with reference to Figure 1.
    As shown in Figure 2, the snap means A2 of the second type comprises a groove 1128. This groove is in turn configured to receive at least one clamping element 2528 of the latch 250.
    This configuration means that when mounting, it is convenient to start by positioning the rule 250 in a support structure, which is indicated by a circled number 1. Then a first building board is mounted against the rule 250, as shown in Figure 2, which is indicated by a framed The figure 250 is provided with an integrated first leg 2528. A second building board is connected to the first building board by inserting a snap-in means of the second type A2 of the second building board into the snap-in means of the first building board of the first type A1. In connection with this, the first leg 2528 is also inserted in a groove 1128 in the snap-in member, the second type A2 of the second building board. This results in the second building board being mounted against the bolt 250, so that a first edge side of the second building board connects to the bolt 250, which is indicated by a circled number 3.
    Because the edge structure in which the groove 1128 is included is relatively strong, for example due to the edge structure comprising a special edge strip or the edge structure including a reinforcing material, the groove can be configured to clamp the first and the second building board on the basis of friction. the counter-rule 250 and the support structure in which it is included. Figure 3a shows diagrammatically, in cross-sectional profile, how two building boards are joined together and clamped for holding against a bolt 350 according to a third embodiment of the invention.
    The bolt 350, which may be a conventional wooden bolt, is advantageously mounted in a first step, which is illustrated by a circled number 1. Then a first building board is positioned so that a distal side of its snap-in means of the first type A1 connects to a side of the bolt 350 which is substantially perpendicular to the main sides of the first building board. This is illustrated by a circled number 2. Then at least one clamping element 351 is inserted in the groove 1118, which is illustrated by a circled number 3. Clamping elements 351 have such dimensions in relation to the rule 350 and are arranged in such a way around the rule 350 that the first the clamping disc after insertion of the clamping element 351 is clamped and held against the bolt 350. The clamping element 351 advantageously comprises a first leg 3518 configured to be inserted into the groove 1118 and a second leg 351B configured to grip a corner of the bolt 350 as shown in Figure 3a. The second leg 351B is further suitably provided with a locking means in the form of a barb 351H for holding the clamping element 351 in position around the bolt 250.
    Figure 3b shows a perspective view of the proposed clamping element 350.
    When the first building board has been clamped against the bolt 350 according to the procedure above, a second building board can be joined to the first building board by interconnecting the second type of A2 snap means of the second building board with the first type A1 snap means of the first building board.
    This is illustrated by a dialed number 4.
    Figure 4a shows schematically, in cross-sectional profile, how two building boards are joined together and clamped for holding against a rule 450 according to a fourth embodiment of the invention.
    The bolt 450 is advantageously a metal profile, which for example has a general U-shape as shown in Figure 4. Similar to the embodiment described above, the bolt 450 is suitably mounted in a first step, which is illustrated by a circled number Thereafter, a first building board is positioned so that a distal side of its snap-in means of the first type A1 connects to a side of the bolt 450 which is substantially perpendicular to the main sides of the first building board. This is illustrated by a dialed number 2.
    Then at least one clamping element 451 is inserted into the groove 111S, which is illustrated by a circled number 3. Clamping element 351 has such dimensions in relation to the latch 350 and its profile that, when the clamping element 451 is inserted into the groove 111S and placed around a projection 450E of the latch 450 , the first building board is clamped and held against the rule 450.
    The clamping member 451 advantageously comprises a first leg 451S configured to be inserted into the groove 111S and a second leg 451B configured to grasp said projections of the latch 450 (as shown in Figure 4a). In addition, the second leg 451B is suitably resilient and provided with a locking member in the form of a curved member 451H configured to hold the clamp member 451 in position at the latch 450. Figure 4b shows a perspective view of the proposed clamp member 450, where for example suitable configurations of the legs 451S and 451B are shown.
    When the first building board has been clamped against the bolt 450 according to the procedure above, a second building board can be joined to the first building board by interconnecting the second building board A2 type snap-in means with the first building board snap-in means of the first type A1.
    This is illustrated by a dialed number 4.
    According to an embodiment of the invention, at least one of the first type of snap-in means A1 and the second type of snap-in means A2 is formed an edge strip 111 and 112, respectively, which in turn is integrated in the building board. The edging strips 111 and 112 can either be glued to the frame element 101 and / or 102, or the edging strips 111 and 112 can be integrated therein in connection with a manufacturing process in which the frame element 101/102 is formed, such as casting.
    The body element 101/102 may preferably consist of, or mainly include, a brittle material, such as plaster or a ceramic material; a hard material, such as glass or concrete; or a soft material, such as mineral wool or cardboard.
    Whether separate edging strips 111/112 have been joined to the frame element 101/102 or whether the snap-in means A1 / A2 have been produced by removing material from the frame element 101/102, it is advantageous if at least one of the main sides of the building board is covered by a reinforcement layer. the main page (ie also a possible edging 111/112).
    If the support structure is a wall structure, this advantage also includes at least one of a floor rail and a roof rail in which said bars 150, 250, 350 and 450, respectively, are attached and which are adapted to abut against building boards in the form of wall boards.
    For the purpose of summarizing, the general method according to the invention for mounting building boards on a support structure including a set of joists will now be described with reference to the flow chart in Figure 5.
    In a first step 510, a first building board is mounted, so that a first edge side thereof connects to a rule in a support structure. This can either mean that the building board is first positioned in the desired position and that a bolt is then mounted to the building board (as in Figure 1); or that a bolt is mounted first and the building board is then positioned next to the bolt (as in Figures 2, 3 and 4).
    In any case, in a subsequent step 520, a leg of a clamping element is inserted into a groove in a snap-in member of either the first edge side of the first building board or a second edge side of a second building board. If the clamping element is inserted into the first edge side of the first building board, according to certain embodiments of the invention a second leg of the clamping element is also fitted around an edge of the bolt, so that the first building board is clamped and held against the bolt. As mentioned above, in such a case it is advantageous if the second leg of the clamping element comprises a locking means configured to engage in said rule by means of mechanical clamping and thereby lock the first building board in the support structure.
    In a step 530, which is performed either in parallel with or after step 520, the second building board is connected to the first building board by inserting a snap-in means of a second type of the second building board into the snap-in means of the first building board of the first type.
    In a subsequent step 540, the second building board is mounted against the support structure, so that a first edge side of the second building board connects to a rule in the same way as the first building board in step 510 above. If the building cladding is thus completed, the assembly is completed. Otherwise, a step 550 follows in which the second building board is considered the first building board, and the procedure loops back to step 520.
    The invention is not limited to the embodiments described with reference to the figures but can be varied freely within the scope of the appended claims.
    权利要求:
    Claims (15)
    [1]
    A building board for mounting on a support structure including a set of joists (150, 250, 350, 450), the building board comprising a frame element (101) which has an essential shape of a straight block including two opposite main sides with a relatively large limiting area and four edge sides with relatively small boundary surface, where a first type of snap-in means (A1) is arranged along a first of said edge sides and second type of snap-in means (A2) is arranged along a second of said edge sides, which second edge side is opposite to said first edge side and where the snap-in means of the first type (A1) after mounting the building board against the support structure is configured to receive a snap-in member of the second type (A2) of another building board so that it is connected to the mounted building board, characterized in that either the snapping means of said first or second type (A1, A2) comprises a groove (1118; 1128) configured to receive at least one clamp elements (1518, 2528, 251, 351) for clamping and holding the first and second building boards against a rule (150) included in the support structure; 250; 350; 450).
    [2]
    The building board according to claim 1, wherein the first type of snap-in means (A1) is formed in a first edge structure of the building board.
    [3]
    The building board according to claim 2, wherein the first edge structure includes a first edge strip (111) which is integrated in the building board.
    [4]
    The building board according to any one of claims 2 or 3, wherein the second type of snap-in means (A2) is formed in a second edge structure of the building board.
    [5]
    The building board according to claim 4, wherein the second edge structure includes a second edge strip (112) which is integrated in the building board. 10 15 20 25 30 12
    [6]
    The building board according to claim 5, wherein the first and second edging strips (A1; A2) consist essentially of one of: aluminum, plastic, rubber, wood and MDF [Medium Density Fibreboard].
    [7]
    The building board according to claim 6, wherein the first and second edging strips (A1, A2) have been integrated therein during a manufacturing process in which the frame element (101) was formed.
    [8]
    The building board according to claim 1, wherein either of the snap-in means of said first or second type (A1, A2) forms part of the body element (101), wherein a cross-sectional profile of said at least one snap-in member (A1, A2) is produced by removing material from the body member (101) while it is in solid form.
    [9]
    The building board according to any one of the preceding claims, wherein the first type of snap-in means (A1) is of the female type and the second type of snap-in means (A2) is of the male type.
    [10]
    The building board according to any one of the preceding claims, wherein the frame element (101) comprises at least one of: a ceramic material, plaster, glass, concrete, mineral wool or cardboard.
    [11]
    The building board according to any one of claims 5 to 10, wherein at least one of said main sides is covered by a reinforcing layer, which covers each side of said main sides.
    [12]
    A method of mounting building boards on a support structure including a set of joists (150, 250, 350, 450), the building board comprising a frame member (101) having an essential shape of a straight block including two opposite main sides with relatively large boundary surface and four edge sides with relatively small boundary surface, where a first type of snapping means (A1) is arranged along a first of said edge sides and a second type of snapping means (A2) is arranged along a second of said edge sides, which second edge side is opposite to said first edge side, the method comprising mounting a first building board against the support structure so that a first edge side of said edge sides thereof connects to a bolt (150, 250, 350, 450) in the support structure, characterized by inserting a first leg (1518, 2528, 3518, 4518) of a clamping element (150, 250, 351, 451) in a groove (1118, 1128) in either of the snapping means of said first or second type (A1; A2), interconnecting a second building board with the first building board by inserting a snap-in means of the second type (A2) of the second building board into the snap-in means of the first building board of the first type (A1), and then mounting the second building board against the support structure so that a first edge side of said edge sides of the second building board connects to a rule (150, 250, 350, 450) in the support structure.
    [13]
    The method of claim 12, wherein the first leg (3518, 4518) of the clamp member (351, 451) is inserted into a groove (1118) in the snap member of the first type (A1), the method further comprising fitting a second leg (351B, 451B) of the clamping member (351, 451) around an edge of said bar (350, 450), so that the first building board is held against said bar (350; 450).
    [14]
    The method of claim 13, wherein the second leg (351B, 451B) of the clamp member (351, 451) comprises a locking member (351 H; 451H) configured to engage in said rule (350; 450) by mechanical clamping and thereby lock it. the first building board in the support structure.
    [15]
    The method of any of claims 12 to 14, wherein the support structure includes at least one of a floor rail and a roof rail in which said set of bars (150, 250, 350, 450) is attached and which is adapted to abut against said first and second building boards.
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3131442A|1959-06-04|1964-05-05|Persson-Melin Signe Harriet|Board for panels and similar covering material|
    US3362120A|1965-10-18|1968-01-09|Holland Plastics Company|Dry wall construction and method of assembly|
    US3427771A|1966-02-11|1969-02-18|Flintkote Co|Roof deck system|
    US3585772A|1968-03-29|1971-06-22|Boise Cascade Corp|Ceiling tile system|
    US3667180A|1970-11-03|1972-06-06|Robertson Co H H|Fastening means for double-skin foam core building construction panel|
    US4065902A|1976-10-26|1978-01-03|Sir Walter Lindal|Sheetmetal covered roof planks having waterproof joints|
    SE445476B|1980-07-11|1986-06-23|Sven Rune Disen|DISCOVERED BODY AND SET FOR ITS PREPARATION|
    US4463533A|1982-06-24|1984-08-07|Mullet Willis J|Sheet material roofing panel|
    SE455476B|1986-10-22|1988-07-18|Asea Atom Ab|INCORPORATIVE, URGENT AND FIXED DEVICE|
    GB2216918B|1987-04-09|1991-07-17|Ward Building Systems Ltd|Building cladding system|
    US4936078A|1988-12-02|1990-06-26|Porter William H|Interconnecting panels|
    SE469137B|1990-11-09|1993-05-17|Oliver Sjoelander|DEVICE FOR INSTALLATION OF FRONT COVER PLATE|
    GB9416852D0|1994-08-19|1994-10-12|Gill Norman|Structure of interlocking panels|
    US5758464A|1997-01-30|1998-06-02|Celotex Corporation|Insulation system for metal furred walls|
    JP3403370B2|2000-03-24|2003-05-06|ニチハ株式会社|Fastening member for building board, building board to which the fastening member is fixed, and fastening structure thereof|
    DE10064280C1|2000-12-22|2002-10-10|Huelsta Werke Huels Kg|Panel for interior construction and method for creating new walls of a room or for cladding existing surfaces of a room|
    DE20200268U1|2001-12-20|2002-03-28|Huelsta Werke Huels Kg|panel member|
    RU29076U1|2001-03-27|2003-04-27|Акционерное общество закрытого типа "ИНТЕКО" "Интеллектуальные технологические комплексы"|Facade cladding panel|
    US20040211144A1|2001-06-27|2004-10-28|Stanchfield Oliver O.|Flooring panel or wall panel and use thereof|
    AU2004242129B2|2003-05-19|2009-10-22|James Hardie Technology Limited|Building material, building system and method of installing the same|
    US8051623B2|2004-04-26|2011-11-08|Stephen N. Loyd Irrevocable Family Trust|Curtain wall system and method|
    SE532999C2|2008-10-13|2010-06-08|Peter Lindberg|Process for making building boards|
    US8205395B2|2008-10-31|2012-06-26|Jakiel Gary G|Wall system and method of installation of a wall system|
    DE102009033150A1|2009-07-13|2011-01-27|Akzenta Paneele + Profile Gmbh|Mounting bracket and mounting rail and method for setting up a cladding surface|
    US20110197535A1|2010-02-13|2011-08-18|Geoffrey Alan Baker|Laying and mechanically joining building panels or construction elements|
    SE535583C2|2011-02-14|2012-10-02|Lindberg Foervaltning Ab P|Edge strip for wall panel mounting|
    US8621810B2|2011-02-28|2014-01-07|Kingspan Insulated Panels, Inc. |Building wall system|
    GB2495475A|2011-10-03|2013-04-17|Hardie James Technology Ltd|Non combustible flooring comprising decking components and intermediate joining members|ITUB20152839A1|2015-08-04|2017-02-04|Tecnoacustica S R L|FIXING MEANS FOR COVERING STRIPS.|
    GB2540443B|2015-11-06|2018-10-31|Thomas Smart Hugh|A kit of parts for fixing a plurality of cladding boards to a surface|
    JP2019065543A|2017-09-29|2019-04-25|ニチハ株式会社|Fixture and wall structure of building|
    CN111794461B|2020-07-18|2021-07-02|福建大华建设工程股份有限公司|Assembled ceramic tile wall surface structure and construction method thereof|
    法律状态:
    2021-10-12| NUG| Patent has lapsed|
    优先权:
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