Disclosure of Invention
In order to solve the technical problems, the invention provides a fan-shaped suspended ceiling system of mineral wool boards, which can solve the problem of unstable skeleton structure of the fan-shaped suspended ceiling system.
To achieve the object of the invention, the invention provides a fan-shaped suspended ceiling system of mineral wool boards, comprising: a trapezoidal mineral wool board; the mineral wool boards are arranged on the installation frameworks; and a rectangular equipment belt installed between adjacent installation frameworks; wherein, any one of the installation frameworks includes: the distance between the outer ends of the two pairs of bones is larger than the distance between the inner ends of the two pairs of bones, and the two adjacent pairs of bones at two sides of the equipment belt are parallel to each other; the two ends of the main bone are fixedly connected with the two auxiliary bones through a stabilizing piece; and the stabilizing member; the fixing piece comprises an outer connecting piece, an inner limiting piece and a threaded connecting piece, wherein the inner limiting piece is positioned in the outer connecting piece and connected with the outer connecting piece through the threaded connecting piece, and the inner limiting piece can horizontally rotate around the threaded connecting piece relative to the outer connecting piece; the inner limiting piece is provided with a through mounting channel, the outer connecting piece is provided with a through limiting channel, the lower part of the outer connecting piece is provided with a matching part connected with the auxiliary bone, the limiting channel is positioned in the mounting channel, and the main bone passes through the mounting channel and the limiting channel and is transversely limited by the limiting channel.
Optionally, the outer connector comprises: a first top plate provided with a first mounting hole on the plate surface; the first left side plate is positioned below the first top plate, the upper end of the first left side plate is connected with the left end of the first top plate, and the lower end of the first left side plate is provided with a first sub-matching part matched with the auxiliary bone; the first right side plate is positioned below the first top plate, the upper end of the first right side plate is connected with the right end of the first top plate, and the lower end of the first right side plate is provided with a second sub-matching part matched with the auxiliary bone; the first left side plate, the first top plate and the first right side plate enclose the installation channel.
Optionally, the inner limiting member includes: the second top plate is provided with a second mounting hole on the plate surface, the first mounting hole corresponds to the second mounting hole, and the threaded connecting piece is arranged at the first mounting hole and the second mounting hole in a penetrating manner; the second left side plate is arranged at intervals with the first left side plate, is positioned below the second top plate and between the first left side plate and the first right side plate, and the upper end of the second left side plate is connected with the left end of the second top plate; the second right side plate is arranged at intervals with the first right side plate, is positioned below the second top plate and between the second left side plate and the first right side plate, and the upper end of the second right side plate is connected with the right end of the second top plate; the limiting channel is formed by surrounding the second left side plate, the second top plate and the second right side plate.
Optionally, the second mounting hole is a threaded hole, the threaded connection piece is a bolt, the first sub-matching portion and the second sub-matching portion are both T-shaped grooves with downward openings, and the two T-shaped grooves are matched with the T-shaped guide rail on the upper portion of the auxiliary bone.
Optionally, the first top plate, the first left side plate and the first right side plate are of an integrated structure, and the second top plate, the second left side plate and the second right side plate are of an integrated structure.
Optionally, the fan-shaped suspended ceiling system of mineral wool boards further comprises: and the hoisting rope component is connected with the installation framework and is used for suspending the installation framework on the inner roof of the building.
Compared with the prior art, the fan-shaped suspended ceiling system of the mineral wool board has the advantages that the main bones and the auxiliary bones are fixed together through the stabilizing piece, the limiting structure on the stabilizing piece can limit the transverse movement of the main bones while the main bones and the auxiliary bones are fixed at 90 degrees, the stability of the skeleton structure of the fan-shaped suspended ceiling system is ensured, and the problem of shaking of the fan-shaped suspended ceiling system is avoided.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail hereinafter with reference to the accompanying drawings. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be arbitrarily combined with each other.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.
The fan-shaped ceiling system of mineral wool boards according to some embodiments of the present invention is described below with reference to the accompanying drawings.
The fan-shaped suspended ceiling system of the mineral wool board provided by the invention, as shown in fig. 5, comprises: a trapezoidal mineral wool board 1; a plurality of groups of trapezoid installation frameworks which are transversely and sequentially arranged, and the mineral wool board 1 is installed on the installation frameworks; and arectangular equipment belt 2 installed between the adjacent installation frameworks; wherein, any installation skeleton includes: the two pairs ofbones 3 are symmetrically arranged in the transverse direction, the distance between the outer ends of the two pairs ofbones 3 is larger than the distance between the inner ends of the two pairs of bones, and the two adjacent pairs ofbones 3 at two sides of theequipment belt 2 are parallel to each other; themain bone 4 is transversely arranged above the twoauxiliary bones 3, and two ends of themain bone 4 are fixedly connected with the twoauxiliary bones 3 through the stabilizingpieces 5; and a stabilizingmember 5 having thereon a limit structure for limiting lateral movement of themain bone 4.
According to the fan-shaped suspended ceiling system of the mineral wool board, themain ribs 4 and theauxiliary ribs 3 are fixed together through the stabilizingpieces 5, and the limiting structures on the stabilizingpieces 5 can limit the transverse movement of themain ribs 4 while themain ribs 4 and theauxiliary ribs 3 are fixed at 90 degrees and non-90 degrees, so that the stability of the skeleton structure of the fan-shaped suspended ceiling system is ensured, and the problem of shaking of the fan-shaped suspended ceiling system is avoided.
In addition, the fan-shaped suspended ceiling system of the mineral wool board provided by the embodiment of the invention can also have the following additional technical characteristics:
as shown in fig. 2 and 3, in a first embodiment of the present invention, preferably, the stabilizingmember 5 includes an outer connectingmember 51, an innerlimiting member 52 and a threaded connectingmember 6, the inner limitingmember 52 is located inside the outer connectingmember 51 and connected to the outer connectingmember 51 by the threaded connectingmember 6, and the innerlimiting member 52 is horizontally rotatable about the threaded connectingmember 6 with respect to the outer connectingmember 51; wherein, have the installation passageway that link up on theinterior locating part 52, have the spacing passageway that link up on the outer connectingpiece 51, the lower part of outer connectingpiece 51 has the cooperation portion that is connected withvice bone 3, and spacing passageway is located the installation passageway, andmain bone 4 passes installation passageway and spacing passageway, and spacing passageway is spacingmain bone 4 in horizontal direction.
According to the stabilizingpiece 5 provided by the invention, the innerlimiting piece 52 can horizontally rotate in the outer connectingpiece 51, so that not only can themain bone 4 be fixed under a non-90-degree included angle be met, but also the position of themain bone 4 is limited by the inner connecting piece in the outer connectingpiece 51 by matching with the threaded connectingpiece 6, so that themain bone 4 is firmly positioned in the stabilizingpiece 5, and the problem of unstable framework structure of a fan-shaped suspended ceiling system is solved. Of course, the stabilizingpiece 5 provided by the invention also firmly fixes themain bone 4 under the 90-degree included angle between themain bone 4 and the stabilizingpiece 5.
Specifically, theouter connector 51 includes: a first top plate provided with a first mounting hole on the plate surface; the first left side plate is positioned below the first top plate, the upper end of the first left side plate is connected with the left end of the first top plate, and the lower end of the first left side plate is provided with a first sub-matching part matched with theauxiliary bone 3; the first right side plate is positioned below the first top plate, the upper end of the first right side plate is connected with the right end of the first top plate, and the lower end of the first right side plate is provided with a second sub-matching part matched with theauxiliary bone 3; wherein, enclose into the installation passageway between first left side board, first roof and the first right side board.
Further, theinner stopper 52 includes: the second top plate is provided with a second mounting hole on the plate surface, the first mounting hole corresponds to the second mounting hole, and the threaded connectingpiece 6 is arranged at the first mounting hole and the second mounting hole in a penetrating way; the second left side plate is arranged at intervals with the first left side plate, is positioned below the second top plate and between the first left side plate and the first right side plate, and the upper end of the second left side plate is connected with the left end of the second top plate; the second right side plate is arranged at intervals with the first right side plate, is positioned below the second top plate and between the second left side plate and the first right side plate, and the upper end of the second right side plate is connected with the right end of the second top plate; and a limiting channel is enclosed among the second left side plate, the second top plate and the second right side plate.
After the outer connectingpiece 51 is fixed on theauxiliary bone 3, the innerlimiting piece 52 can rotate around the threaded connectingpiece 6, so that after themain bone 4 stretches into the innerlimiting piece 52, the innerlimiting piece 52 can automatically adjust the angle to match the included angle between themain bone 4 and the stabilizingpiece 5 and limit themain bone 4 in the limiting channel, and finally the purpose of firmly positioning themain bone 4 is achieved by screwing the threaded connectingpiece 6 against the upper end face of themain bone 4.
The outer connectingpiece 51 and the innerlimiting piece 52 may also be designed into a frame structure that is transversely penetrated, and the purpose of the present application may also be achieved, which is not described herein, but should be within the protection scope of the present application.
Optionally, the second mounting hole is a threaded hole, the threaded connectingpiece 6 is a bolt, the first sub-matching portion and the second sub-matching portion are all T-shaped grooves with downward openings, and the two T-shaped grooves are matched with the T-shaped guide rail on the upper portion of theauxiliary bone 3.
Of course, the first mounting hole and the second mounting hole may be non-threaded holes, and the threadedconnection member 6 may be a bolt and nut structure, so that the purposes of the present application may be achieved.
Preferably, the first top plate, the first left side plate and the first right side plate are of an integrated structure, and the second top plate, the second left side plate and the second right side plate are of an integrated structure.
As shown in fig. 4 and 5, in a second embodiment of the present invention, the stabilizingmember 5 preferably includes: atop plate 55 having mounting holes on the plate surface; afront side plate 53 having an upper end connected to one of left and right ends of a front plate edge of thetop plate 55 and a lower end having a first fitting structure connected to thesub-bone 3; arear side plate 54 having an upper end connected to the other of the left and right ends of the rear plate side of thetop plate 55 and a lower end provided with a second fitting structure connected to thesub-bone 3; and ascrew connector 6 installed at the installation hole; wherein thefront side plate 53 and therear side plate 54 are spaced apart in the left-right direction and the front-rear direction, and thescrew 6 is located between thefront side plate 53 and therear side plate 54 in the left-right direction.
According to the stabilizingpiece 5 provided by the invention, thefront side plate 53 and therear side plate 54 are arranged at intervals in the front-rear direction and the left-right direction, so that after themain bone 4 stretches into the space between thefront side plate 53 and therear side plate 54, themain bone 4 can rotate in a certain range between thefront side plate 53 and therear side plate 54, the problem that an included angle between themain bone 4 and theauxiliary bone 3 is not 90 degrees is solved, themain bone 4 is compressed through the threaded fastener, and meanwhile, two side surfaces of themain bone 4 are respectively compressed on a group of side edges opposite to thefront side plate 53 and therear side plate 54, so that the purpose of firmly fixing themain bone 4 and theauxiliary bone 3 together through the stabilizingpiece 5 is realized, and the problem of unstable framework structure of a fan-shaped suspended ceiling system is solved.
The positions of thefront side plate 53, therear side plate 54 and thetop plate 55 are determined according to the circle center position of the fan-shaped suspended ceiling system of the mineral wool board, and the positions of thefront side plate 53, therear side plate 54 and thetop plate 55 are reasonably arranged according to specific use conditions by a person skilled in the art.
Specifically, the stabilizingmember 5 further includes: afirst positioning plate 56 positioned at the rear side of thefront side plate 53 and fixed at the lower part of thefront side plate 53, wherein a matching groove connected with theauxiliary bone 3 is enclosed between thefirst positioning plate 56 and thefront side plate 53; and asecond positioning plate 57 positioned at the front side of therear side plate 54 and fixed to the lower portion of therear side plate 54, and a fitting groove connected to thesub-bone 3 is also defined between thesecond positioning plate 57 and therear side plate 54.
Wherein, thefirst positioning plate 56 and thesecond positioning plate 57 are both in a U shape; the lower part of thefront side plate 53 is bent backwards to form a first step structure, and thefirst positioning plate 56 is positioned at the first step structure; the lower portion of therear side plate 54 is bent forward with a second step structure where thesecond positioning plate 57 is located.
The first step structure, the second step structure and the U-shaped plate are assembled with the T-shaped guide rail on the upper part of theauxiliary bone 3, the T-shaped guide rail is limited in the up-down direction, and the horizontal shaking of the stabilizingpiece 5 can be further prevented.
Preferably, the upper end of thefirst positioning plate 56 is connected with thefront side plate 53 through a screw, the upper end of thesecond positioning plate 57 is connected with therear side plate 54 through a screw, the threaded connectingpiece 6 is a bolt, and the mounting hole is a threaded hole.
Thefirst positioning plate 56 and thesecond positioning plate 57 of the stabilizingpiece 5 are connected with thefront side plate 53 and therear side plate 54 through screws, so that the stabilizingpiece 5 can be mounted on theauxiliary bone 3 at any time through adjusting the tightness of the screws in the field mounting process, the field construction is more convenient, and the practicability is more remarkable.
Of course, the mounting hole may be a non-threaded hole, and the threadedconnection member 6 may be a bolt-nut structure, so that the purpose of the present application may be achieved.
As shown in fig. 6, the installation framework is connected with the building roof by a hoisting rope assembly 7 above the installation framework.
In summary, according to the fan-shaped suspended ceiling system of the mineral wool board, the main bones and the auxiliary bones are fixed together through the stabilizing piece, and the limiting structure on the stabilizing piece can limit the transverse movement of the main bones while meeting the requirement of fixing the main bones and the auxiliary bones at 90 degrees, so that the stability of the skeleton structure of the fan-shaped suspended ceiling system is ensured, and the problem of shaking of the fan-shaped suspended ceiling system is avoided.
In the description of the present invention, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.
In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although the embodiments of the present invention are described above, the embodiments are only used for facilitating understanding of the present invention, and are not intended to limit the present invention. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is to be determined by the appended claims.