CN109184037B - New structure of wallboard - Google Patents

Abstract

The utility model provides a wallboard new construction, includes wallboard subassembly (1), stand subassembly (2), and its technical essential is: the upright post assembly (2) comprises a main upright post (25), an annular piece (26) arranged on the main upright post (25) and a side connecting piece (27) assembled on the annular piece (26), wherein the side connecting piece (27) comprises a wallboard connecting part (271); the wallboard assembly comprises a wallboard end enclosure (131), and the wallboard end enclosure (131) comprises a matching part II (132) which is in rotary matching with the wallboard connecting part (271). The problems of inconvenient installation and transportation, high manufacturing cost, poor assembly operability and the like of the traditional wallboard structure are fundamentally solved, and the wallboard has the advantages of simple and compact structure, easiness in production and assembly, small assembly error, high processing fault tolerance and the like.

Description

New structure of wallboard

Technical Field

The invention relates to a connecting structure of building components, in particular to a connecting structure of mutually plate-shaped building components, and particularly relates to a novel wallboard structure. The IPC classification number is E04B2/88 or E04D13/18.

Background

The existing common wall body can only play the roles of supporting, maintaining and dividing space, and if things on the other side of the wall are needed to be transported, the common wall body needs to be wound around a doorway, so that a lot of time is wasted, and the common wall body is troublesome and laborious. In addition, the existing wall body installation mode is single, the wallboard replacement is complicated, and in the patent application with the prior patent publication number of CN 203655057U, although a rotatable wall body is protected, the wall body is realized by matching the handle with the bearing, so that great labor force and time are wasted.

An "office panel system incorporating an improved locking and alignment mechanism" as disclosed in US4956953a is provided with a longitudinal groove at its end so that the tube can be rotated about its longitudinal axis. The lower end of the tube is provided with a crank which can rotate the tube by 90 degrees and hide the crank at the same time. However, in this technical solution, the angle of relative rotation between the two panels is limited, and the tube is used as the upright and the rotation center axis at the same time, so that the structural stability is poor, and the assembly is not facilitated. A similar structure is also disclosed in US patent application US20170130444 A1.

For example, U.S. patent application publication No. US2001/0025460A1 discloses a "partition wall" in which rotation between wall panels is achieved by providing a plurality of openings in the uprights, providing connectors in the openings, and providing adapters at the ends of the connectors for pre-mounting the wall panels. The technical scheme mainly adopts a main body structure with a plurality of openings arranged on the circumference of the central upright post, and a connecting piece structure with a dumbbell-shaped section is arranged between the wall body and the openings. But obvious this connecting piece receives the restriction of opening edge at the swing angle of stand end, and the opening can lead to the connecting piece to deviate from the opening and can not play effectual spacing if making too big on the one hand, on the other hand can influence the rigidity of stand, and then influences overall structure's stability. Although the degrees of freedom of the wallboard end are relatively high, the wallboard end can interfere with the outer edge of the central upright post when rotating, thereby influencing the rotation angle of the wallboard. In addition, because the dumbbell-shaped connecting piece is adopted, the structural strength is relatively poor, and the stability of the whole structure is affected.

An "adjustable roof ridge device" as disclosed in US5826380a, in which the roof is fixed to the inner and outer sleeves respectively, and then the angle adjustment is achieved by the inner and outer sleeves being mutually engaged, so as to be mutually rotated within a reasonable distance.

Disclosure of Invention

The invention aims to provide a novel wallboard structure, which fundamentally solves the problems of inconvenient installation and transportation, high manufacturing cost, poor assembly operability and the like of the traditional wallboard structure, and has the advantages of simple and compact structure, easy production, easy assembly, small assembly error, high processing fault tolerance and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the new wallboard structure comprises a wallboard component and a stand column component, and is technically characterized in that: the upright post component comprises a main upright post, an annular piece arranged on the main upright post, and a side connecting piece assembled on the annular piece, wherein the side connecting piece comprises a wallboard connecting part and an upright post connecting part; the wallboard assembly comprises a wallboard end enclosure, and the wallboard end enclosure comprises a matching part II which is rotationally matched with the wallboard connecting part.

Through foretell main scheme, can realize the large-angle cooperation between wallboard subassembly and the stand subassembly to wallboard swing among the prior art has been solved completely and has been little, needs to set up open-ended problem according to mounted position (swing angle).

Further, in order to facilitate the assembly of the ring and the side engagement members, the ring includes a ring support, and an assembly groove provided along an outer edge of the ring support.

Further, for the installation of making things convenient for the ring spare, avoid rotatory error simultaneously, improve the processing fault tolerance, reduce manufacturing cost, the interval is equipped with a plurality of spacing grooves that are used for assembling the ring spare on the main stand.

Further, for making things convenient for the production, transportation, the installation of wallboard, with wallboard global design into the part unit that can assemble, the wallboard subassembly still includes a plurality of wallboard units that can overlap joint in order, the wallboard head include with wallboard unit one end complex cooperation portion I.

Further, for the perfect match of the upper sill end of the wallboard assembly and the upright post, the aesthetic degree of the upper end and the lower end of the upright post is improved, and the upright post assembly further comprises an end support piece which comprises an arc piece matched with the upper end or/and the lower end of the wallboard assembly.

Further, for the convenience set up bearing structure at the main stand outer fringe, improve structural stability, make things convenient for the installation of outside casing simultaneously, improve pleasing to the eye degree, tip support piece still is equipped with constant head tank II including installing the support piece on the arc piece on the support piece, and spacing has vice stand in the constant head tank II.

The invention has the beneficial effects that: compared with the existing modularized rotatable wall structure, the wall structure is improved at the joint between the wallboard component and the upright post component, and specifically, the stability of the structure is ensured by taking the side joint component which is completely supported in the vertical direction and the wallboard end socket with higher rigidity as a connecting medium between the wallboard component and the upright post component. One end of the side connecting piece is almost completely clamped and matched with and fixed on the upright post, and the connecting piece cannot swing in the prior art in the assembly process. The other end of lateral part linking piece adopts the tubular structure, and rotatory overlap joint wallboard head on this wallboard connecting portion has simultaneously wallboard head and wallboard unit are fixed completely, and wallboard unit and last floorbar cooperation, go up the floorbar and continue the joint again in the tip support piece, through the gradual transmission of atress part, the final realization has guaranteed the stability after the location angle locking when the wallboard subassembly has high corner. Meanwhile, the stability is further improved by the clamping groove structure of the cross beam arranged in the end supporting piece.

The main upright post is provided with the limit groove in advance, the annular piece is provided with the matched bolt structure, the annular piece can be rotationally matched with the upright post, and the bearing structure can be additionally arranged between the bolt structure and the limit groove for improving the stability of the rotation matching. Due to the design of rotary fit, the irreversible error generated by drilling or on-site drilling in the original structural factory is almost completely avoided, and meanwhile, the use of an assembly groove structure with extremely high requirements on the angle precision on the annular piece is possible.

In addition, in order to improve the aesthetic degree of stand, improve holistic rigidity simultaneously, set up vice stand and casing in the main stand outer fringe, the casing is directly fixed on vice stand to adjacent formation annular structure about through. The auxiliary upright post can be used as a supporting structure, and the shell can be used as a dustproof and anti-corrosion barrier and a supporting structure.

In conclusion, the invention has the advantages of simple and compact structure, easy production, easy assembly, small assembly error, high processing fault tolerance rate and the like.

Drawings

Fig. 1a-1 is a schematic isometric view of the invention in its use state I.

Fig. 1a-2 are schematic isometric side view of the invention in use state II.

Fig. 2 is an exploded view of a column assembly according to yet another embodiment of the present invention.

Fig. 2a is a schematic view of a part of the enlarged structure of the portion a in fig. 2.

Fig. 3a is a schematic structural view of the installation step 1 of the pillar assembly according to the present invention.

Fig. 3b is a schematic structural view of the installation step 2 of the pillar assembly according to the present invention.

Fig. 4a is a schematic structural view of the wallboard assembly installation step 1 of the present invention.

Fig. 4b is a schematic structural view of the wallboard assembly installation step 2 of the present invention.

Fig. 4c is a schematic structural view of the wallboard assembly mounting step 3 of the present invention.

Fig. 4d is a schematic structural view of the wallboard assembly mounting step 4 of the present invention.

Fig. 4e-1 is a schematic view of the construction of the wallboard assembly mounting step 5 of the present invention.

Fig. 4e-2 is a schematic view of another embodiment of the wallboard assembly of the present invention in use, illustrating an installation step 5.

Fig. 4f is a schematic structural view of the wallboard assembly mounting step 6 of the present invention.

Fig. 4g is a schematic structural view of the wallboard assembly mounting step 7 of the present invention.

Fig. 4h-1 is a schematic view of the construction of the wallboard assembly mounting step 8 of the present invention.

Fig. 4h-2 is a schematic view of another embodiment of the wallboard assembly of the present invention in use, illustrating the installation step 8.

Fig. 5a is a schematic structural diagram of an installation step 1 according to another embodiment of the present invention.

Fig. 5b is a schematic structural diagram of an installation step 2 according to another embodiment of the present invention.

Fig. 5c is a schematic structural diagram of an installation step 3 according to another embodiment of the present invention.

Fig. 5d is a schematic structural diagram of an installation step 4 according to another embodiment of the present invention.

Fig. 5e is a schematic structural diagram of an installation step 5 according to another embodiment of the present invention.

Fig. 5f is a schematic structural diagram of an installation step 6 according to another embodiment of the present invention.

Fig. 5g is a schematic structural diagram of an installation step 7 according to another embodiment of the present invention.

Fig. 5h-1 is a schematic structural diagram of an installation step 8 according to another embodiment of the present invention.

Fig. 5h-2 is a schematic diagram I of a partial enlarged structure of fig. 5 h-1.

Fig. 5h-3 is a partially enlarged schematic structural view II of fig. 5 h-1.

Detailed Description

The following describes the present invention in detail by way of specific embodiments with reference to fig. 1 to 5.

Example 1

As shown in fig. 1, 3 and 4, the new wallboard structure mainly comprises a column assembly 2 and a wallboard assembly 1 limited on the column assembly 2.

The wallboard assembly 1 mainly comprises a bottom beam assembly 11, a plurality of wallboard units 12, wallboard sealing heads 13 arranged at the end parts of the wallboard units 12 and a top beam assembly 14. The wallboard end enclosure 13 includes a mating portion I131 for mounting the wallboard unit 12 and a mating portion II 132 for rotational mating with the wallboard connector 271 of the side adapter 27.

The top beam assembly 14 and the top beam assembly 11 adopt similar structures, taking the top beam assembly 14 as an example, the top beam assembly comprises a hollow top beam 141 and a tip 142 (not shown in the tip diagram of the bottom beam 11) with an arc surface which is limited at the end part of the top beam 141, positioning screw holes which are mutually matched in position are formed in the top beam 141 and the tip 142, and positioning bolts 143 penetrate through the positioning screw holes so as to limit the tip 142 in the top beam 141. Meanwhile, to facilitate the cooperation of the top beam 141 or the bottom beam 111 with the wallboard unit 12 of the wallboard assembly 1, grooves 141a and 111a are provided on the top beam 141 or the bottom beam 111, which are opposite to each other in opening. The wallboard unit 12 is captured between the top beam 141 and the bottom beam 111 in a top-to-bottom fit from bottom to top.

The upright post assembly 2 mainly comprises a base assembly 23, a main upright post 25 limited on the base assembly 23, end supporting pieces 24 limited on the upper end and the lower end of the main upright post 25 and arranged in a mirror image mode, plate pieces 28 arranged on the upper end supporting pieces 24, annular pieces 26 arranged on the main upright post 25 at intervals, an upright post shell 22 arranged outside the main upright post 25, side connecting pieces 27 assembled on the annular pieces 26 and a cover 21 fixed on the plate pieces 28.

The base assembly 23 includes a base 233 fixed on a horizontal plane, and a chassis 232 fixed on the base 233 by a base bolt assembly 231. Wherein, the chassis 232 is provided with a bar-shaped hole 232a, which is convenient for fixing the base bolt assembly 231. The chassis 232 is provided with positioning posts 232b to facilitate mounting of the wallboard connector 271 of the side engaging member 27.

The end supporting member 24 comprises a pair of symmetrically arranged arc-shaped members 244, symmetrically arranged positioning grooves I241 between the two arc-shaped members 244, and supporting members 243 fixedly supported on the arc-shaped members 244, wherein a plurality of positioning grooves II 242 are arranged on the supporting members 243, and auxiliary upright posts 29 are arranged between the positioning grooves II 242 of the upper end supporting member 24 and the lower end supporting member 24. The arcuate surfaces of the ends 142 of the cross beam may mate with the outer walls of the arcuate members 244 of the end support 24 when the included angle between the side wall panel assemblies is not 180.

The main upright post 25 is provided with a plurality of limit grooves 251 which are machined in advance according to the number of the annular pieces 26 and the assembly height. During assembly, the annular piece 26 is sleeved on the main upright post 25, then the bolts 265 penetrate into the screw holes 264, the studs of the bolts 265 are annularly arranged and are located in the limiting grooves 251, so that on one hand, an effective supporting effect is achieved, and on the other hand, the annular piece 26 can rotate relative to the main upright post 25, and therefore installation errors are eliminated.

The side of the main column 25 is fitted with a side engaging member 27 through a fitting groove 262 of the ring member 26, and the side engaging member 27 includes a wall plate connecting portion 271 and a column connecting portion 272. The column casing 22 is formed of a plurality of casing units distributed in a ring shape, the casing units including at least an end casing 221 and a middle casing 222, and each casing unit being fixed to a corresponding sub column 29. Annular grooves (not shown) may also be provided in the support 243 of the end support 24 to effectively cooperate with the assembly of the end of the column housing 22. Wherein the post connection 272 is received in the corresponding mounting slot 262 of each ring 26.

The installation process of the upright post assembly of the embodiment is shown in fig. 3a and 3b, and specifically includes the following steps:

step 101, adjustably mounting the chassis 232 to the concrete by means of the bolt assemblies 231, mounting the end supports 24 to the chassis 232.

Step 102, the side engaging members 27 are respectively and limitedly arranged on the positioning slots I241 on both sides of the end supporting member 24, and the bottoms thereof are respectively positioned on the positioning posts 232 b.

The installation process of the wallboard assembly in this embodiment is shown in fig. 4a to 4h, and the specific installation of the limiting groove 251 in part of the drawings includes the following steps:

step 201, sequentially limiting the bottom beam assembly on the side of the end support 24, wherein the wallboard unit 12 and the wallboard end enclosure 13 are fixedly connected by a bolt assembly (not labeled in the figure), the mating portion I131 of the wallboard end enclosure 13 corresponds to the wallboard unit, and the mating portion II 132 corresponds to the side connector 27.

Step 202, taking the ring-shaped piece 26.

In step 203, the ring-shaped element 26 is fitted over the main upright 25.

Step 204, repeating the steps 201-203, and assembling the annular piece and the wallboard unit from bottom to top in sequence.

In step 205, the end shells 221 and the middle shell 222 are assembled on the ring 26 with the aid of the secondary uprights.

At step 206, the end supports 24 are installed that mirror the bottom-disposed end supports.

At step 207, header assemblies are installed on each side of the end supports 24.

And step 208, sequentially installing the plate 28 and the decorative cover 21.

Example 2

As shown in fig. 5a to 5h-3, similar to the embodiment 1, the difference is that the side connector 27 is a split structure, the column housing 22 is a structure inserted into the ring member, the end support 24 and the auxiliary column 29 are almost omitted by improving the support structure, and the ring member 26 is another embodiment based on the embodiment 2. In general, the present embodiment greatly simplifies the structure, makes the installation more convenient, and at the same time further reduces the manufacturing and assembly costs, and its specific installation steps are as follows:

step 301, fixing the base 233 on the pre-buried concrete foundation by the base bolt assembly 231, sleeving the ring-shaped member 26 on the main upright post 25 for standby, and taking a pair of bottom beam assemblies 11 for standby after determining the installation angle (180 ° is taken as an example in the embodiment).

Step 302, the upright post connecting parts 272 of the side connecting members 27 arranged in a segmented manner are clamped on the assembling grooves 262 of the annular members 26, connecting members 273 are arranged on the tops of the side connecting members 27, and the annular members 26 on the upper parts are limited through the hook parts on the connecting members 273. Wherein the bottom ring 26 is in direct contact with the base 233 and the bottom of the wallboard connector 271 of the lowermost side adapter 27 mates with the base bolt assembly 231.

Step 303, as in example 1, secures the wallboard end enclosure 13 to the end of the wallboard cell 12 for use.

Step 304, the floor beam assembly is matched to the side of the upright post assembly 2, wherein the clamping groove 111b of the bottom beam 111 is matched with the wallboard connecting part 271 of the side connecting piece 27, the bottom beam screw hole 111c of the bottom beam 111 is matched with the base bolt assembly 231 on the corresponding side, and after the bottom beam assembly 11 is assembled, the wallboard unit 12 is matched to the side connecting piece 27 through the wallboard end socket 13; at this time, the next set of the ring member 26, the side engaging member 27, and the connecting member 273 are continuously prepared for use.

Step 305, the side connection member 27 located in the middle is preferably provided with a plugging portion 271a at the bottom of the wallboard connecting portion 271, so that the side connection member 27 arranged in a segmented manner has a certain rigidity in the horizontal direction after being assembled into an integral structure, and can play a role in stabilizing the integral structure; in the same way as in step 4, a plurality of wallboard units 12 with wallboard end caps 13 are assembled on the side of the main upright post 25.

At step 306, after the top most ring member 26 and side engagement members 27 are all installed, the column housing 22 is removed for use.

Step 307, the post housing 22 is inserted into the assembly groove 262 of the ring member 26, wherein the end housing 223 is provided with a notch structure (not labeled in the figure), the middle housing 224 can be in insertion fit with the adjacent housing structure, the reserved notch is matched with the topmost side connector 27, and preferably, in order to facilitate the installation of the top beam assembly 14, a screw hole 271b is provided at the top of the post connecting portion 271 of the topmost side connector 27.

308, the clamping groove 141b of the top beam 141 is matched on the side connecting piece 27 and fixed on the screw hole 271b through the positioning bolt 143; finally, the plate 28 and the decorative cover 21 are sequentially installed.

In addition, similarly to embodiment 1, in order to enhance the rigidity of the overall structure, a limiting groove 251 may be preset outside the main column 25, and the ring 26 may be rotatably limited on the limiting groove 251 by a bolt. The ring 26 can be limited in the vertical direction mainly through the connecting part 273 or the limiting groove 251, and when the limiting groove is used, a bolt component for matching with a stud to be screwed into the limiting groove is also needed on the ring 26.

Example 3

As shown in fig. 2 and 2a, this embodiment is another implementation of the ring member 26 in embodiment 2. The ring member 26 includes a ring support 263, a reinforcing portion 261 and an assembling groove 262 provided along an outer edge of the ring support 263. Preferably, the reinforcement 261 and the fitting groove 262 are spaced apart, thereby securing structural stability of the ring-shaped member 26 and uniformly distributing structural strength thereof. A plurality of screw holes 264 (preferably, an even number of screw holes are symmetrically arranged) are provided at equal heights in the reinforcement 261, and stud bolts 265 are fitted into the screw holes 264.

In addition, the column housing 22 adopts the structure of embodiment 2, the side joint members 27 adopt an integral structure, and the assembly of the roof beam assembly 14 and the floor beam assembly 11 is the same as that of embodiment 2.

Reference numerals illustrate:

1 wall assembly

11 bottom beam assembly

111 bottom beam

111a groove

111b clamping groove

111c bottom beam screw hole

12 wallboard unit

13 wallboard end socket

131 fitting part I

132 mating part II

14 roof beam subassembly

141 top beam

141a groove

141b clamping groove

142 end

143 positioning bolt

2 column assembly

21 decorative cover

22 column casing

221 end shell

222 middle casing

223 end housing

224 middle casing

23 base assembly

231 base bolt assembly

232 chassis

232a strip-shaped hole

232b positioning column

233 base

24 end support

241 positioning groove I

242 positioning groove II

243 support

244 arc-shaped piece

25 main column

251 limit groove

26 ring-shaped piece

261 reinforcement

262 assembly groove

263 annular support

264 screw hole

265 column bolt

27 side engagement member

271 wallboard connecting portion

272 column connection part

271a plug-in connection

271b screw hole

273 connecting piece

28 plate

29 auxiliary posts.

Claims (7)

1. The utility model provides a wallboard new construction, includes wallboard subassembly (1), stand subassembly (2), its characterized in that: the upright post assembly (2) comprises a main upright post (25), an annular piece (26) arranged on the main upright post (25) and a side connecting piece (27) assembled on the annular piece (26), wherein the side connecting piece (27) comprises a wallboard connecting part (271) and an upright post connecting part (272); the wallboard assembly comprises a wallboard end socket (13), and the wallboard end socket (13) comprises a matching part II (132) which is in rotary matching with the wallboard connecting part (271);

a plurality of limit grooves (251) for assembling the annular piece (26) are formed in the main upright post (25) at intervals;

the annular piece (26) comprises an annular support (263), an assembly groove (262) arranged along the outer edge of the annular support (263), a reinforcing part (261), the reinforcing part (261) and the assembly groove (262) are arranged at intervals, a plurality of screw holes are formed in the reinforcing part (261) at equal heights, and upright bolts (265) are assembled in the screw holes.

2. The new construction of wallboard of claim 1, wherein: the wallboard assembly (1) further comprises a plurality of wallboard units (12) which can be sequentially arranged, and the wallboard sealing head (13) comprises a matching part I (131) matched with one end of the wallboard unit (12).

3. The new construction of wallboard of claim 1, wherein: the bottom end of the wallboard connecting part (271) of the side connecting piece (27) is provided with a plug-in part (271 a) and/or the top end is provided with a screw hole.

4. The new construction of wallboard of claim 1, wherein: the column assembly (2) further comprises an end support (24), the end support (24) comprising an arcuate member (244) cooperating with the upper end or/and the lower end of the wall panel assembly (1).

5. The new construction of wallboard of claim 4, wherein: the end supporting piece (24) further comprises a supporting piece (243) arranged on the arc-shaped piece (244), a positioning groove II (242) is formed in the supporting piece (243), and a secondary upright post (29) is limited in the positioning groove II (242).

6. The new construction of wallboard of claim 1, wherein: a main column (25) is externally provided with a column casing (22).

7. The new construction of wallboard of claim 6, wherein: the column housing (22) includes an end housing (221) and a middle housing (222).