CN118087755A - Supporting framework of assembled partition wall - Google Patents

Abstract

The invention relates to the technical field of assembled buildings, in particular to a supporting framework of an assembled partition wall, which comprises a wall-following keel, and is characterized in that a top-following keel is inserted at the top end of the wall-following keel, a bottom-following keel is inserted at the bottom end of the wall-following keel, and a transverse strut keel is inserted in the middle of the wall-following keel; a plurality of vertical keels are inserted between the top keel and the transverse support keels and between the bottom keel and the transverse support keels, and code grooves are formed in two sides of each vertical keel; a plurality of code loading parts are inserted between two adjacent vertical keels, a code tightening part is inserted between the code loading parts and the transverse support keels, and two ends of the code loading parts and the code tightening parts are both in sliding connection with the code groove. The invention has simple stacking filling operation and effectively reduces the construction workload; the code loading components are stacked and pressed by the code tightening components, so that the compactness between the code loading components is effectively improved, and the structural stability of the supporting framework is effectively improved; meanwhile, the code assembling component or the code tightening component is convenient to detach, and the overall stability of the supporting framework cannot be affected by independently detaching the code assembling component or the code tightening component.

Description

Supporting framework of assembled partition wall

Technical Field

The invention relates to the technical field of assembled buildings, in particular to a supporting framework of an assembled partition wall.

Background

The skeleton partition wall is also called as a keel partition wall, mainly uses timber or steel to form a skeleton, and then uses two sides as surface layers. In brief, the light partition wall is formed by installing panels on two sides of a partition wall keel, and the framework is respectively composed of an upper threshold, a lower threshold, vertical ribs, transverse ribs, diagonal braces and the like. The spacing between the vertical ribs depends on the specification of the materials, and then the horizontal ribs are set between the vertical ribs along the height direction by using the materials with the same section according to the specification of the plate, and the two ends are tightly supported and nailed so as to increase the stability.

The specification of the Chinese patent CN202110771640.2 discloses a combined type supporting framework for an assembled partition wall, the combined type supporting framework for the assembled partition wall is assembled in a clamping manner, the single framework is easy to be detached independently, the convenient replacement of the single framework is realized, in addition, the length extension of the framework body is realized in a combined manner, the free adjustment can be carried out according to the actual installation requirement, and the application range of the supporting framework is improved.

Above-mentioned patent combines among the prior art fossil fragments support body to adopt the grafting mode when the installation, makes the dragon skeleton body after the installation become a whole, and a large amount of mosaic structure causes braced skeleton to build work load big, influences the efficiency of construction when the construction degree of difficulty increases, and the dismantlement work of fossil fragments is also relatively complicated simultaneously, demolishs the partial structure on the support body alone and influences the overall stability of wall body easily.

Disclosure of Invention

The invention aims to solve the technical problem of providing a supporting framework of an assembled partition wall, which can effectively solve the problems in the background art.

In order to solve the problems, the invention adopts the following technical scheme: the support framework of the assembled partition wall comprises a wall-following keel, and is characterized in that a top-following keel is inserted at the top end of the wall-following keel, a bottom-following keel is inserted at the bottom end of the wall-following keel, and a transverse strut keel is inserted in the middle of the wall-following keel; a plurality of vertical keels are inserted between the top keel and the transverse support keels and between the bottom keel and the transverse support keels, and code grooves are formed in two sides of each vertical keel; a plurality of code loading parts are inserted between two adjacent vertical keels, a code tightening part is inserted between the code loading parts and the transverse support keels, and two ends of the code loading parts and the code tightening parts are both in sliding connection with the code groove.

Preferably, the code loading component comprises two partition bars which are connected in a cross rotation way, a plurality of mounting pages are arranged on the surface of each partition bar, two ends of each partition bar are hinged with code blocks, and the code blocks are in sliding connection with code grooves on the vertical keels;

The tightening part comprises a square tube and a screw tube, the screw tube is vertically connected with the square tube, the two ends of the square tube are respectively inserted with a telescopic strut, and the outer ends of the telescopic struts are in sliding connection with the stacking groove; a telescopic spring is arranged between the square tube and the telescopic supporting column, one end of the telescopic spring is fixedly connected with the square tube, and the other end of the telescopic spring is fixedly connected with the telescopic supporting column; the inside threaded connection of a spiral shell section of thick bamboo has the bolt, bolt one end and stull fossil fragments one side contact.

Preferably, an adjusting component is arranged between the vertical keel and the horizontal keel, the adjusting component comprises an upper lifting block, a Zhang Geye and a lower lifting block, zhang Geye is arranged between the upper lifting block and the lower lifting block, one end of Zhang Geye is hinged with the upper lifting block, and the other end is hinged with the lower lifting block; the Zhang Geye is provided with two pieces which are respectively arranged on two opposite sides of the lifting block; the upper lifting block or the lower lifting block is inserted with the cross brace keel.

Preferably, zhang Geye is splayed, and a screw is connected between the middle parts of the two hinges in a threaded manner.

Preferably, the edge top keel, the edge bottom keel and the cross brace keel are all formed by multi-section splicing, and grooves are formed in the surfaces of the edge top keel, the edge bottom keel and the cross brace keel.

Preferably, the two ends of the telescopic stay are provided with sliding blocks, the sliding blocks and the code blocks on the parting strips are provided with through holes, the middle parts of the sliding blocks and the code blocks are provided with assembling grooves, and the assembling grooves are mutually perpendicular and communicated with the through holes; the code paste blocks are inserted into the assembly grooves.

Preferably, the middle part of sign indicating number subsides piece has seted up the recess, the inside cover of recess is equipped with the rubber circle, the periphery and the sign indicating number groove sliding contact of rubber circle.

Preferably, the middle part cover of sign indicating number subsides piece is equipped with presses the stopper, press the stopper and contradict with the inner circle of rubber circle, the top of pressing the stopper is equipped with the screw, the screw is connected with the top screw thread of sign indicating number subsides piece.

Preferably, the assembly groove is provided with a connecting block, connecting holes are formed in two ends of the connecting block, the connecting holes are communicated with the through holes, and connecting rods are inserted into the connecting holes and the through holes.

Preferably, the connecting rod is U-shaped, two ends of the connecting rod respectively penetrate through two adjacent code blocks or two sliding blocks, and locking nuts are connected to bottoms of two ends of the connecting rod.

Compared with the prior art, the invention provides the supporting framework of the assembled partition wall, which has the following beneficial effects:

When the partition wall is built to form the framework, the wall keel and the roof keel are firstly installed and built according to the size of the partition wall, then the transverse support keel and the vertical keel are built according to the design of the framework grid, and the built grid is filled in a stacking way by using the stacking component, so that the stacking filling operation is simple, and compared with the building workload of the existing support framework, the building workload of the existing support framework is effectively reduced; after the filling of the code loading components is finished, the code loading components are stacked and pressed by using the code tightening components, so that the compactness between the code loading components is effectively improved, and the structural stability of the supporting framework is further effectively improved; meanwhile, the code loading components or the code tightening components which are stacked in the grid structure are convenient to detach, the code loading components or the code tightening components in different grids are not mutually influenced, and the overall stability of the supporting framework is not influenced by independently detaching the code loading components or the code tightening components;

according to the invention, through the matching of the assembly groove and the code sticking block, the installation stability of the code loading part and the code tightening part is effectively improved; through the cooperation of equipment groove and connecting block, can realize connecting two code loading parts or two tight code loading parts, the stacking of the large-span grid frame of being convenient for fills.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a perspective view of a code loading part and a code tightening part according to an embodiment of the present invention;

FIG. 3 is a perspective view of a coding unit according to an embodiment of the present invention;

FIG. 4 is a perspective view of a code tightening part according to an embodiment of the present invention;

FIG. 5 is a perspective view of a code slot and a code block according to an embodiment of the present invention;

FIG. 6 is a perspective view of an adjusting member according to an embodiment of the present invention;

FIG. 7 is a perspective view of a second code block and a code patch block according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating a construction of a second code patch according to an embodiment of the present invention;

FIG. 9 is a perspective view of a two-by-two assembly code component interface according to an embodiment of the present invention;

fig. 10 is a disassembled structure diagram of a second code block and a connecting block according to an embodiment of the present invention.

Wherein: 1. the wall-following keels, 11, the roof-following keels, 12, the bottom-following keels, 13, the transverse support keels, 14, the vertical keels, 15, the code groove, 2, the code-loading component, 21, the parting bead, 22, the mounting page, 23, the code block, 3, the code-tightening component, 31, the square tube, 32, the screw barrel, 33, the telescopic supporting column, 34, the telescopic spring, 35, the bolt, 36, the sliding block, 37, the through hole, 4, the adjusting component, 41, the lifting block, 42, zhang Geye, 43, the lifting block, 44, the screw rod, 5, the assembly groove, 6, the code-pasting block, 61, the groove, 62, the rubber ring, 63, the pressing plug, 64, the screw, 7, the connecting block, 71, the connecting hole, 72, the connecting rod, 73 and the locking nut.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Embodiment one: 1-2 show, a supporting framework of an assembled partition wall, including along the wall joist 1, along the top and bottom of the wall joist 1 peg graft along the top joist 11 and along the bottom joist 12 respectively, peg graft along the middle part of the wall joist 1 have the stull joist 13, peg graft along the top joist 11 and along between bottom joist 12 and the stull joist 13 have many vertical joists 14, all adopt the multistage to splice and form along the top joist 11, along bottom joist 12 and stull joist 13, and all offer the slot along the top joist 11, along bottom joist 12 and the surface of stull joist 13, the slot is used for peg graft each other, and use the bolt fastening, carry on along the top joist 11, along the bottom joist 12 and the installation of stull joist 13 according to the size of partition wall builds, effectively adapt to different buildings, the both sides of vertical joist 14 have offered the sign indicating number groove 15, peg 2 has been peg 2 between two adjacent vertical joists 14, peg graft between the sign indicating number part 3, both ends of the sign indicating number part 2 and the sign indicating number part 3 are all connected with the groove 15 in a sliding way;

When the partition wall supporting framework is built, the wall keel 1 and the top keel 11 are assembled and built according to building environment and the size of the partition wall to be built, then the cross brace keels 13 and the vertical keels 14 are selected for grid building, and then the stacking component 2 is placed into the built grids for stacking and filling, so that compared with the existing supporting framework building work, the stacking mode has low workload and effectively improves the building efficiency of the supporting framework; after the filling of the code loading part 2 is finished, the code loading part 2 is stacked and pressed by the code tightening part 3, so that the code loading part 2 is tightly overlapped, the structural stability of the supporting framework is improved, the code tightening part 3 is convenient to detach, and the code tightening part 3 after the disassembly does not influence the code tightening part 3 in other grid structures.

Fig. 2-5 show that the code loading part 2 is composed of two cross-rotationally connected parting strips 21, the surface of each parting strip 21 is fixedly connected with a plurality of mounting pages 22, the mounting pages 22 are linearly arranged along the length direction of each parting strip 21, two ends of each parting strip 21 are hinged with code blocks 23, and the code blocks 23 are in sliding connection with the code grooves 15; the tightening part 3 is composed of a square tube 31 and a screw tube 32 which are vertically and fixedly connected, two ends of the square tube 31 are respectively inserted with a telescopic strut 33, the outer end of the telescopic strut 33 is in sliding connection with the tightening groove 15, the inner end of the telescopic strut 33 is fixedly connected with a telescopic spring 34, the screw tube 32 is internally and spirally connected with a bolt 35, and the outer end of the bolt 35 is in contact with one side of the transverse strut keel 13;

When the stacking and filling of the stacking component 2 are carried out, the divergence amplitude of the parting strips 21 on the stacking component 2 is adjusted according to the distance between the wall keels 1 and the vertical keels 14 or between two adjacent vertical keels 14, the stacking blocks 23 at two ends of the parting strips 21 are placed in the stacking grooves 15, the stacking component 2 is sequentially stacked and stacked until the space between the vertical keels 14 is filled, then the telescopic supporting columns 33 at two ends of the tightening component 3 are placed in the stacking grooves 15, the stacking blocks 23 are pressed, the bolts 35 are screwed, the bolts 35 are abutted against the cross support keels 13, and the stacking and pressing of the tightening component 3 on the stacking component 2 is realized.

Fig. 6 shows that the inserting end of the vertical keel 14 and the transverse supporting keel 13 is sleeved with an adjusting component 4, the adjusting component 4 comprises an upper lifting block 41, two ends of the upper lifting block 41 are hinged with an open hinge 42, the bottom ends of the two open hinges 42 are hinged with a lower lifting block 43, and the upper lifting block 41 or the lower lifting block 43 is inserted into the transverse supporting keel 13; zhang Geye 42 is arranged in a splayed shape, a screw rod 44 is connected between the middle parts of the two hinges 42 in a threaded manner, the screw rod 44 is rotated to adjust the distance between the two hinges 42, so that the opening and closing of Zhang Geye are realized, the distance between the upper lifting block 41 and the lower lifting block 43 is adjusted through the opening and closing of Zhang Geye, the height adjustment of the vertical keel 14 is realized, and the construction of a partition wall grid structure is further adjusted;

In the grid construction process of the cross brace keels 13 and the vertical keels 14, the erection height of the cross brace keels 13 is adjusted according to the arrangement of the grid structure, then the adjusting screw 44 is rotated to drive the two hinges 42 to open or close, the distance between the upper lifting block 41 and the lower lifting block 43 is changed, the height adjustment of the vertical keels 14 is realized, and the size arrangement of the constructed grid is adjusted.

Embodiment two: compared with the first embodiment, the present embodiment mainly adds the assembly groove 5, the code paste block 6 and the connection block 7, and the specific additional structure is as follows, and the other structures are identical to those of the first embodiment.

Figures 1,4 and 7-8 show that the two ends of the telescopic strut 33 are provided with sliding blocks 36, the sliding blocks 36 and the code blocks 23 on the parting bead 21 are all hollow, and the middle parts of the sliding blocks 36 and the code blocks 23 are all provided with assembling grooves 5; the upper part of the assembly groove 5 is inserted with a code sticking block 6, a new function is added for the outer ends of the code block 23 and the telescopic supporting column 33 by installing the code sticking block 6, a groove 61 is formed in the middle of the code sticking block 6, a rubber ring 62 is sleeved in the groove 61, the outer end of the rubber ring 62 is in sliding contact with the code groove 15, the rubber ring 62 is tightly attached to the code groove 15, so that the contact effect of the code block 23 and the sliding block 36 with the code groove 15 is improved, and the installation stability of the code loading part 2 and the code tightening part 3 is effectively improved; the inside of the code pasting block 6 is sleeved with a pressing plug 63, the bottom end of the pressing plug 63 is abutted against the inner ring of the rubber ring 62, a screw 64 is connected between the top end of the pressing plug 63 and the top end of the code pasting block 6 in a threaded manner, the pressing plug 63 is driven to lift by the screw 64, the inner ring of the rubber ring 62 is extruded, the outer ring of the rubber ring 62 protrudes outwards, and the tight strength between the rubber ring 62 and the code groove 15 is enhanced;

When the stacking and filling of the stacking component 2 are carried out, the stacking block 6 is installed in the assembling groove 5 on the sliding blocks 36 at two ends of the stacking block 23 and the telescopic supporting columns 33, then after the stacking block 23 and the sliding blocks 36 are placed in the stacking groove 15, the screw 64 is screwed to drive the pressing plug 63 to extrude the inner ring of the rubber ring 62, and the outer ring of the rubber ring 62 is extruded and pushed out, so that the rubber ring 62 is tightly contacted with the inner wall of the stacking groove 15, and the installation stability of the stacking component 2 and the tightly stacking component 3 is effectively improved.

Fig. 1 and fig. 9-10 show that a connecting block 7 is inserted into the assembly groove 5, connecting holes 71 are formed in two ends of the connecting block 7, the connecting holes 71 are communicated with the through holes 37, connecting rods 72 are inserted between the two connecting holes 71, the connecting blocks 7 are arranged in the assembly groove 5, the connecting blocks 7 connect two adjacent code blocks 23 and are locked by using locking nuts 73, so that two assembly code components 2 are butted, and the butted code components 2 are suitable for filling grids with larger spans; the connecting rod 72 is in U-shaped bending arrangement, two ends of the connecting rod 72 respectively penetrate through two adjacent code blocks 23, locking nuts 73 are connected to bottoms of two ends of the connecting rod 72, the U-shaped connecting rod 72 penetrates through the code blocks 23, and the locking nuts 73 are used for locking two ends of the connecting rod 72, so that locking strength of the two adjacent code blocks 23 is effectively improved;

When the large-span grid is stacked and filled, the connecting blocks 7 can be arranged in the assembly grooves 5 of the stacking blocks 23 and the sliding blocks 36, two ends of each connecting block 7 are respectively inserted into two adjacent stacking blocks 23 or two sliding blocks 36, then two ends of each connecting rod 72 respectively penetrate through connecting holes 71 at two ends of each stacking block 23 and each connecting block 7, or two ends of each connecting rod 72 respectively penetrate through connecting holes 71 at two ends of each sliding block 36 and each connecting block 7, and then the extending ends of each connecting rod 72 are locked by using the locking nuts 73, as shown in fig. 9, if the multi-assembly stacking components 2 are in butt joint, four stacking blocks 23 can be penetrated by using the longer connecting rods 72, so that the connection of two adjacent stacking components 2 or two tight stacking components 3 is realized, and the stacking and filling of the large-span grid frame is facilitated.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The support framework of the assembled partition wall comprises a wall-following keel (1), and is characterized in that a top-following keel (11) is inserted at the top end of the wall-following keel (1), a bottom-following keel (12) is inserted at the bottom end of the wall-following keel, and a transverse strut keel (13) is inserted at the middle of the wall-following keel; a plurality of vertical keels (14) are respectively inserted between the edge top keels (11) and the transverse support keels (13) and between the edge bottom keels (12) and the transverse support keels (13), and code grooves (15) are respectively formed in two sides of each vertical keel (14); a plurality of code loading parts (2) are inserted between two adjacent vertical keels (14), a code tightening part (3) is inserted between the code loading parts (2) and the transverse support keels (13), and two ends of the code loading parts (2) and the code tightening parts (3) are in sliding connection with the code grooves (15).

2. The supporting framework of the assembled partition wall according to claim 1, wherein the code loading component (2) comprises two partition strips (21) which are connected in a cross rotation mode, a plurality of mounting pages (22) are arranged on the surface of each partition strip (21), two ends of each partition strip (21) are hinged with code blocks (23), and the code blocks (23) are in sliding connection with code grooves (15) on the vertical keels (14);

The tightening part (3) comprises a square tube (31) and a screw tube (32), the screw tube (32) is vertically connected with the square tube (31), two ends of the square tube (31) are respectively inserted with a telescopic strut (33), and the outer end of the telescopic strut (33) is in sliding connection with the stacking groove (15); a telescopic spring (34) is arranged between the square tube (31) and the telescopic supporting column (33), one end of the telescopic spring (34) is fixedly connected with the square tube (31), and the other end of the telescopic spring (34) is fixedly connected with the telescopic supporting column (33); the inside threaded connection of screw shell (32) has bolt (35), bolt (35) one end and stull fossil fragments (13) one side contact.

3. A supporting framework of an assembled partition wall according to claim 2, wherein an adjusting component (4) is arranged between the vertical keel (14) and the horizontal keel (13), the adjusting component (4) comprises an upper lifting block (41), a Zhang Geye (42) and a lower lifting block (43), the Zhang Geye (42) is arranged between the upper lifting block (41) and the lower lifting block (43), one end of the Zhang Geye (42) is hinged with the upper lifting block (41), and the other end is hinged with the lower lifting block (43); two parts are arranged on Zhang Geye (42) and are respectively arranged on two opposite sides of the lifting block (41); the upper lifting block (41) or the lower lifting block (43) is inserted into the cross brace keel (13).

4. A supporting framework for a fabricated partition wall according to claim 3, wherein Zhang Geye (42) is splayed, and a screw (44) is screwed between the middle parts of the two hinges (42).

5. The supporting framework of the assembled partition wall according to claim 1, wherein the top keel (11), the bottom keel (12) and the cross brace keel (13) are formed by multi-section splicing, and grooves are formed in the surfaces of the top keel (11), the bottom keel (12) and the cross brace keel (13).

6. The supporting framework of the assembled partition wall according to claim 2 or 4, wherein the two ends of the telescopic supporting column (33) are provided with sliding blocks (36), the sliding blocks (36) and the code blocks (23) on the partition bar (21) are provided with through holes (37), the middle parts of the sliding blocks (36) and the code blocks (23) are provided with assembling grooves (5), and the assembling grooves (5) are mutually perpendicular and communicated with the through holes (37); a code sticking block (6) is inserted in the assembly groove (5).

7. The supporting framework of the assembled partition wall according to claim 6, wherein a groove (61) is formed in the middle of the stacking block (6), a rubber ring (62) is sleeved in the groove (61), and the periphery of the rubber ring (62) is in sliding contact with the stacking groove (15).

8. The supporting framework of the assembled partition wall according to claim 7, wherein a pressing plug (63) is sleeved in the middle of the code sticking block (6), the pressing plug (63) is abutted against the inner ring of the rubber ring (62), a screw (64) is arranged at the top end of the pressing plug (63), and the screw (64) is in threaded connection with the top end of the code sticking block (6).

9. The supporting framework of the assembled partition wall according to claim 6, wherein the assembling groove (5) is provided with a connecting block (7), both ends of the connecting block (7) are provided with connecting holes (71), the connecting holes (71) are communicated with the through holes (37), and connecting rods (72) are inserted into the connecting holes (71) and the through holes (37).

10. The supporting framework of the assembled partition wall according to claim 9, wherein the connecting rod (72) is in a U shape, two ends of the connecting rod (72) respectively penetrate through two adjacent code blocks (23) or two sliding blocks (36), and locking nuts (73) are connected to bottoms of two ends of the connecting rod (72).