CN115434453A - Close splicing connecting piece of non-bearing partition wall and non-bearing partition wall - Google Patents

Abstract

The invention discloses a close splicing connecting piece of a non-bearing partition wall and the non-bearing partition wall. The non-bearing partition wall comprises a plurality of wall bodies and a close splicing connecting piece, wherein each wall body comprises two parallel wall boards, and a wiring space is reserved between the two wall boards; the front and rear ends of the wall panel each include a groove for a U-shaped keel of the clip termination assembly. Close piece together the connecting piece and include the termination subassembly, and the termination subassembly includes that two U type card fossil fragments and at least one close piece together side pipe, and U type card fossil fragments include wallboard joint portion and joint recess, and close piece together side pipe includes two joint portions, the joint portion of close piece together side pipe and the joint recess joint that corresponds U type card fossil fragments. The close-jointed connecting piece of the non-bearing partition wall enables the wall body to be convenient to disassemble and assemble, the U-shaped clamping keels clamped on the wall body are in positioning butt joint with the close-jointed square tubes, so that the wall bodies can be tightly spliced, and the spliced parts of the wall bodies are not easy to misplace or have gaps.

Description

Close splicing connecting piece of non-bearing partition wall and non-bearing partition wall

[ technical field ]

The invention relates to an assembled partition wall, in particular to a close-splicing connecting piece of a non-bearing partition wall and the non-bearing partition wall.

[ background art ]

The assembly type decoration adopts dry construction, completely realizes waterless operation, and realizes the organic connection of decoration parts by assembling the decoration parts produced in factories on site. Briefly, a decoration company prefabricates professional components such as an inner partition wall plate, a top plate base layer, a surface layer and a floor panel layer in a factory and then transports the components to a decoration site for assembly and embedding. The installation of partition board in current assembly type structure is generally when partition board prefabrication production, reserve the reinforcing bar at partition board and wall post face link, when partition board installs predetermined position, through supporting fixedly temporarily, again with the reinforcement that the wall post crosspoint was reserved or the welding, the formwork, concreting, after the concrete reaches specified intensity, the preset that rethread partition board top is buried the piece and is adopted the welding to connect the processing with roof plate or the preset that buries under the roof beam, hardly accomplish closely the assembly, the gap is more obvious between the wall body, the assembly effect is not ideal, and can produce a lot of dusts and building rubbish when wanting to demolish the wall body that originally assembled.

[ summary of the invention ]

The invention aims to solve the technical problem of providing a close splicing connecting piece which can ensure that wall bodies are spliced tightly, and splicing parts of the wall bodies are not easy to misplace or have gaps and are not bearing partition walls.

The invention also aims to solve the technical problem of providing the non-bearing partition wall which has the advantages that the wall bodies are tightly spliced, and the spliced parts of the wall bodies are not easy to misplace or have gaps.

In order to solve the technical problems, the invention adopts the technical scheme that the close-splicing connecting piece of the non-bearing partition wall comprises a connecting component, wherein the connecting component comprises two U-shaped clamping keels and at least one close-splicing square tube, the U-shaped clamping keels comprise wallboard clamping parts and clamping grooves, the close-splicing square tube comprises two clamping parts, and the clamping parts of the close-splicing square tubes are clamped with the clamping grooves of the corresponding U-shaped clamping keels; the front end and the rear end of wallboard include the recess respectively, and the recess of wallboard front end and rear end is used for the U type card fossil fragments of joint termination subassembly.

In the close splicing connecting piece, the terminal connecting component comprises a splicing square pipe and two close splicing square pipes, and the splicing square pipe comprises two clamping grooves which are arranged at the two longitudinal ends of the splicing square pipe; the splicing square tube is arranged between the two U-shaped clamping keels, and two clamping parts of the close splicing square tube are respectively clamped with the clamping grooves of the U-shaped clamping keels and the clamping grooves of the splicing square tube.

In the close splicing connecting piece, the end connecting component comprises 4U-shaped clamping keels and two channel irons, and the two channel irons and the two U-shaped clamping keels are arranged on one side of the splicing square pipe along the transverse direction and are separately arranged along the longitudinal direction of the splicing square pipe; the bottom plate of the channel iron is fixed on the splicing square tube through a plurality of screws, and the two wing plates of the channel iron are clamped with the clamping grooves corresponding to the U-shaped clamping keels.

The close splicing connecting piece comprises an angle connecting component, wherein the angle connecting component comprises an angle connecting square pipe, 4U-shaped clamping keels and 4 channel irons; the two channel irons and the two U-shaped clamping keels are arranged on one side of the angle joint square pipe in the transverse direction and are separately arranged in the longitudinal direction of the joint square pipe; the other two channel irons and the other two U-shaped clamping keel are arranged on one side of the angle joint square pipe along the longitudinal direction and are separately arranged along the transverse direction of the joint square pipe; the bottom plate of the channel iron is fixed on the angle joint square pipe through a plurality of screws; and the two wing plates of the channel iron are clamped with the clamping grooves of the corresponding U-shaped clamping keels.

In the close splicing connecting piece, the wallboard clamping part of the U-shaped clamping keel comprises the clamping part and the flanges arranged at the two sides of the front end of the clamping part, and the side surface of the clamping part and the back surface of the flange are sawtooth surfaces; the clamping groove is an elastic groove, and the clamping surface of the elastic groove comprises a clamping bulge.

The close-fit connecting piece comprises a female angle edge banding, wherein the female angle edge banding comprises 90-degree angle iron and an insertion fixing plate connected with the angle iron; the angle iron of the internal corner edge-closing strip is arranged between two U-shaped clamping keels which are adjacent in an orthogonal mode, and the inserting fixing plate of the internal corner edge-closing strip is pressed between the U-shaped clamping keel and the splicing square pipe or between the U-shaped clamping keel and the corner splicing square pipe.

In the close-fitting connecting piece, the middle part of the close-fitting square tube comprises a T-shaped flange orthogonal to the long axis of the close-fitting square tube, and two sides of the outer end of the T-shaped flange comprise convex strips orthogonal to the flange; the flange is clamped between the two U-shaped clamping keels.

A non-bearing partition wall comprises a plurality of wall bodies and the close splicing connecting piece, wherein each wall body comprises two parallel wall plates, and a wiring space is reserved between the two wall plates; the front end and the rear end of wallboard include the recess that is used for joint termination subassembly U type card fossil fragments card respectively.

The non-bearing partition wall comprises a wall body and a plurality of bearing plates, wherein the wall body comprises two keels; the wallboard comprises a bare board or a decorative board, the bare board comprises a sandwich board, and the sandwich board comprises two gypsum boards and a rock wool layer clamped between the two gypsum boards; the decorative plate comprises a sandwich plate and a panel, and the panel is attached to the outer surface of the decorative plate; the gypsum boards protrude out of the rock wool layer at the front end and the rear end of the sandwich board to form grooves at the front end and the rear end of the wallboard; the keel comprises two wallboard grooves, a bulge is arranged between the two wallboard grooves, and the height of the bulge is greater than that of the wallboard groove; two wall plate grooves of the first keel face downwards, two wall plate grooves of the second keel face upwards, and the depth of the wall plate grooves of the first keel is greater than that of the wall plate grooves of the second keel; the upper ends of the two wallboards are respectively embedded in the two wallboard grooves of the first keel, the lower ends of the two wallboards are respectively embedded in the two wallboard grooves of the second keel, and a gap is reserved between the upper ends of the two wallboards and the bottom of the two wallboard grooves of the upper keel; the two wallboards of the wall body are separated by the protrusion of the keel to form a wiring space.

The non-bearing partition wall comprises a plurality of foundation bolts and a plurality of hanging bolts, wherein each hanging bolt comprises a plurality of nuts; the wall body comprises an upper wall body and a lower wall body; the upper wall body is arranged above the lower wall body; the upper ends of the plurality of hanging bolts are fixed on the ceiling, and the plurality of hanging bolts downwards sequentially penetrate through the first keel of the upper wall body, the second keel of the upper wall body and the first keel of the lower wall body; the first keel of the upper wall body is fixed on the ceiling through upper nuts of a plurality of hanging bolts, and the second keel of the upper wall body and the first keel of the lower wall body are arranged back to back and are fixed by middle nuts and lower nuts of a plurality of hanging bolts; the second keel of the lower wall body is fixed on the ground through a plurality of foundation bolts, the wallboard of the upper wall body is a bare board, and the wallboard of the lower wall body is a decorative board.

Above non-bearing partition wall, the wallboard include two U type card fossil fragments, on the top and the bottom of sandwich panel, gypsum board protrusion in rock wool layer forms the recess of sandwich panel top and bottom, two U type card fossil fragments joint respectively in the recess of sandwich panel top and bottom

The close-splicing connecting piece of the non-bearing partition wall enables the wall body to be convenient to disassemble and assemble, the U-shaped clamping keels clamped on the wall body are in positioning butt joint with the close-splicing square tubes, so that the wall bodies can be tightly spliced, and the spliced parts of the wall bodies are not easy to misplace or have gaps.

[ description of the drawings ]

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a structural view of a non-load-bearing partition wall body in embodiment 1 of the present invention.

Fig. 2 is an internal structure view of a non-load-bearing partition wall body in embodiment 1 of the present invention.

Fig. 3 is an installation structure view of a non-load-bearing partition wall in embodiment 2 of the present invention.

Fig. 4 is a partially enlarged view of the portion i in fig. 3.

Fig. 5 is a partial enlarged view of the portion ii in fig. 3.

Fig. 6 is a partially enlarged view of the region iii in fig. 3.

Fig. 7 is a sectional view of a non-load-bearing partition wall splicing structure in embodiment 3 of the invention.

Fig. 8 is a partially enlarged view of the portion iv in fig. 7.

Figure 9 is a cross-sectional view of a U-shaped clip keel according to embodiment 3 of the invention.

Figure 10 is a perspective view of a U-shaped clip keel according to embodiment 3 of the invention.

Fig. 11 is a perspective view of a close-packed square tube in example 3 of the present invention.

Figure 12 is a cross-sectional view of a non-load bearing partition wall splicing structure according to example 4 of the invention.

Figure 13 is a cross-sectional view of a non-load bearing partition wall splicing structure according to example 5 of the invention.

Fig. 14 is a partially enlarged view of the v portion in fig. 12.

Fig. 15 is a partially enlarged view of the vi portion in fig. 13.

Fig. 16 is a perspective view of a spliced square tube according to example 4 of the present invention.

Fig. 17 is a perspective view of a close-coupled square tube in example 5 of the present invention.

Figure 18 is a cross-sectional view of a non-load bearing partition wall splicing structure according to embodiment 6 of the invention.

Fig. 19 is a partially enlarged view of the region vii in fig. 18.

Figure 20 is a cross-sectional view of a non-load bearing partition wall splicing structure of example 7 of the invention.

Fig. 21 is a partially enlarged view of the region viii in fig. 20.

FIG. 22 is an enlarged view of a portion of FIG. 20 taken at IX.

[ detailed description of the invention

The structure of the non-load-bearing partition wall and the splicing structure of the non-load-bearing partition wall according to the embodiment of the invention are shown in fig. 1 to 22.

Embodiment 1 of the invention, a structure of a non-load-bearing partition wall is shown in fig. 1 and fig. 2, a wall 100 includes two wall panels 10 arranged in parallel and two keels 20, and a routing space 15 is left between the wall panels 10. The wall panel 10 may be a bare panel or a decorated panel, the bare panel being a sandwich panel comprising two gypsum boards 11 and a rock wool layer 12 sandwiched between the two gypsum boards 11. The decorative board comprises a sandwich board and a face board 13, and the face board 13 is attached to the outer surface of the decorative board, namely the outer surface of the outer gypsum board 11. At the front and rear ends of the sandwich panel, gypsum panels 11 protrude from the rock wool layer 12 to form recesses 14 at the front and rear ends of the panel 10, respectively. As shown in fig. 1-5, keel 20 has two drywall recesses 21, a projection 22 between two drywall recesses 21, the height of projection 22 being equal to or greater than the height of drywall recess 21. A plurality of bolt holes are formed in the boss 22 at the center of the keel 20 for fixing the wall 100. The two keels 20 are an upper keel 20A and a lower keel 20B, respectively, the upper keel 20A is disposed at the upper end of the wall 100, and the lower keel 20B is disposed at the lower end of the wall 100. Two of the channels 21 of the upper keel 20A face downward and two of the channels 21 of the lower keel 20B face upward. The upper ends of the two wallboards 10 are respectively embedded in the two wallboard grooves 21 of the upper keel 20A. The lower ends of the two wallboards 10 are respectively embedded in the two wallboard grooves 21 of the lower keel 20B. The protrusion 22 of the keel 20 separates the two wall panels 10 of the wall 100 to form a routing space 15.

In order to facilitate the installation and assembly of the wall 100, each wall panel 10 of the wall 100 includes 4U-shaped keels 40, and the front and rear U-shaped keels 40 are respectively clamped in the grooves 14 at the front and rear ends of the wall panel 10, so as to facilitate the assembly of the wall panel. At the top and the bottom of wallboard 10 sandwich panel, 11 protrusion in rock wool layer 12 of gypsum board form the recess 16 of sandwich panel top and bottom, and two U type card fossil fragments 40 joint respectively are in the recess 16 of sandwich panel top and bottom from top to bottom, and two U type card fossil fragments 40 of wallboard 10 top and bottom can protect the edge of 11 tops of gypsum board and bottom.

The installation structure of the non-bearing partition wall according to embodiment 2 of the present invention is shown in fig. 3 to 6, and includes a plurality of anchor bolts 30A and a plurality of hanger bolts 30B, the anchor bolts 30A and the hanger bolts 30B both use expansion bolts, and the anchor bolts 30A and the hanger bolts 30B each have a plurality of nuts. The wall 100 includes an upper wall 100B and a lower wall 100A. The upper wall 100B is disposed above the lower wall 100A. The upper ends of the hanger bolts 30B are fixed to the ceiling 300, and the hanger bolts 30B pass through the upper keel 20A of the upper wall 100B, the lower keel 20B of the upper wall 100B, and the upper keel 20A of the lower wall 100A in this order. The upper keel 20A of the upper wall 100B is fixed to the ceiling by the upper nuts 31 of the hanger bolts 30B, and the lower keel 20B of the upper wall 100B is arranged back-to-back with the upper keel 20A of the lower wall 100A and fixed by the middle nuts 32 and the lower nuts 33 of the hanger bolts 30B. The lower keel 20B of the lower wall 100A is fixed to the ground 400 by a plurality of anchor bolts 30A. Since the upper wall 100B is installed above the ceiling 200, the wall panels 10 of the upper wall 100B may be bare panels, and the wall panels 10 of the lower wall 100A may be decorative panels. The degree of depth of upper keel 20A wallboard recess 21 is greater than the degree of depth of lower keel 20B wallboard recess 21, and two blocks of wallboard 10 installation backs leave clearance delta between the tank bottoms of two wallboard recesses 21 of upper keel 20A and the upper end of wallboard 10, and clearance delta is greater than the degree of depth h of keel 20B's wallboard recess 21 to wallboard 10's dismantlement is convenient for.

A splicing structure of a non-load-bearing partition wall in embodiment 3 of the present invention is shown in fig. 7 to 11, and includes two walls 100 to be butted and a terminal assembly, and the splicing structure in embodiment 3 of the present invention is a most basic splicing structure of the non-load-bearing partition wall. The end connection assembly comprises a U-shaped clamping keel 40 clamped in the wall body and two close-spliced square tubes 50, as shown in fig. 9 and 10, the U-shaped clamping keel 40 comprises a wallboard clamping part 41 and an elastic clamping groove 42, the close-spliced square tubes 50 are provided with two clamping parts 51, and the clamping parts 51 of the close-spliced square tubes 50 are clamped with the elastic clamping grooves 42 of the corresponding U-shaped clamping keels 40. The wallboard clamping part 41 of the U-shaped clamping keel 40 comprises a clamping part 411 and flanges 412 arranged on two sides of the front end of the clamping part, and the side surface of the clamping part 411 and the back surface of the flange 412 are saw-toothed surfaces. The latch 411 is inserted into the groove 14 at the front or rear end of the wall panel 10 and fixed to the groove 14 by the serrated surface. The two clamping surfaces of the elastic clamping groove 42 are elastic thin-walled and provided with outward clamping bulges 421, so that a space is reserved for the clamping groove 42, and the square pipe 50 can be conveniently and densely spliced. When the two walls 100 are butted, the close-fit square tubes 50 play a role in transverse centering of the walls, so that the two walls can be tightly assembled, and gaps are not easy to generate between the walls. The side surface of the clamping part 411 and the back surface of the flange 412 are provided with saw-toothed surfaces, so that the engagement force of the U-shaped keel 40 and the wall board 10 can be improved, and the assembling reliability can be enhanced.

The splicing structure of the non-bearing partition wall in embodiment 4 of the present invention is shown in fig. 12, 14 and 16, and is used when a wall body needs T-shaped connection, based on embodiment 3, the splicing structure of the non-bearing partition wall in embodiment 4 is additionally provided with two splicing square pipes 60, two close-spliced square pipes 50, two channel irons 61, and a wall body 100 needing T-shaped connection and transverse arrangement, wherein each splicing square pipe 60 includes two elastic clamping grooves 62 arranged at two longitudinal ends of each splicing square pipe 60. Two concatenation side pipes 60 are arranged between the U type card fossil fragments 40 of two vertical butt joint's wall body 100, and 4 two joint portions of close concatenation side pipe 50 respectively with the elasticity joint recess 42 of U type card fossil fragments 40 and the elasticity joint recess 62 joint of concatenation side pipe 60.

The two channel irons 61 are disposed on one side of the spliced square pipe 60 in the transverse direction and are separately disposed in the longitudinal direction of the spliced square pipe 60. The screw 63 passes through the bottom plate of the channel iron 61 and is fixed on the splicing square pipe 60. The two wing plates of the channel iron 61 are in clamping alignment with the elastic clamping grooves 42 of the corresponding U-shaped clamping keels 40 at the end part of the transversely-arranged wall body 100.

The spliced structure of the non-load-bearing partition wall in the embodiment 5 of the invention is shown in fig. 13, 15 and 17, and the spliced structure of the non-load-bearing partition wall in the embodiment 5 is different from that in the embodiment 3 only in that the middle part of the close-spliced square pipe 50 comprises a T-shaped flange 52 which is orthogonal to the long axis of the close-spliced square pipe 50, and two sides of the outer end of the T-shaped flange 52 comprise convex strips 53 which are orthogonal to the flange. T-shaped flange 52 is sandwiched between the two U-shaped keel members 40 of the opposing wall panels 10.

The splicing structure of the non-load-bearing partition wall in the embodiment 6 of the invention is shown in fig. 18 and 19 and is used for orthogonal connection of the end parts of two walls 100. Example 6 the splice structure of a non load bearing partition comprises an angle joint assembly comprising an angle joint square tube 70 and 4 channel irons 61. One wall body 100 and two channel irons 61 which are arranged transversely are arranged on one side of the corner joint pipe 70 along the transverse direction, and the two channel irons 61 are arranged separately along the longitudinal direction of the joint square pipe 60. One wall body 100 and the other two channel irons 61 which are arranged longitudinally are arranged on one side of the angle square pipe 70 along the longitudinal direction, and the two channel irons 61 are arranged in a way of being separated along the transverse direction of the splicing square pipe 60. The bottom plate of the channel iron 61 is fixed to the angle joint pipe 70 by a plurality of screws 71. The two wing plates of the channel iron 61 are clamped with the elastic clamping grooves 42 on the corresponding two wall 100U-shaped clamping keels 40.

The splicing structure of the non-load-bearing partition wall in embodiment 7 of the present invention is shown in fig. 20 to 22, and is used for the internal corner edge folding of the wall 100 in the orthogonal connection. The splicing structure of the non-bearing partition wall in the embodiment 7 of the invention comprises an internal corner edge strip 80, wherein the internal corner edge strip 80 comprises an angle iron 81 with an angle of 90 degrees and an insertion fixing plate 82 connected with the angle iron 91. The angle iron 81 of the female angle edge banding 80 is arranged between two orthogonally adjacent wall panels 10, as shown in fig. 21, and the insertion fixing plate 82 of the female angle edge banding 80 is pressed between the U-shaped clip keel 40 and the splicing square tube 60 of the wall body. As shown in fig. 22, the insertion fixing plate 92 of the female corner edge strip 80 is pressed between the U-shaped clip 40 and the corner joint pipe 70 of the wall.

The structure of the non-bearing partition wall and the splicing structure of the non-bearing partition wall in the embodiment of the invention have the following beneficial effects:

1) The wall bodies can be spliced tightly through the close splicing connecting pieces, and the spliced parts are not easy to misplace or have gaps.

2) The maintenance or the dismantlement after the nonbearing partition wall is assembled is convenient, and the dust is few.

3) The non-bearing partition wall has the function of earthquake resistance, and the ground keel and the top keel are respectively fixed with the floor slab, so that the safety is good, and compared with a brick wall, the non-bearing partition wall can not cause serious injury to a human body even if the non-bearing partition wall collapses and falls.

4) The wall body and the components can be prefabricated in a factory and flexibly assembled on a construction site; the height of the wallboard is customized in batches in factories, and the labor and the materials are saved without cutting on site.

5) The structure is reasonable, the hollow partition wall can improve the fire-proof, sound-proof and shock-proof grade, the assembly type technical requirements of pipeline separation are met, and the functions of wall thickness, sound insulation and the like can be combined and adjusted according to the functional requirements.

6) The wall body is light in weight, the weight of the building is reduced, the service life is prolonged, and a single wall body can be easily carried and installed by a worker.

7) The wall body of decorative board possesses the decoration function, can satisfy fire prevention sound insulation demand, and firm, antidetonation, incombustible, heat preservation, sound insulation are suitable for buildings such as school, hospital, hotel, official working, house.

8) The wall body adopts hollow structure, and the interval can be installed according to actual demand, satisfies assembled pipeline separation piping, distribution.

9) Can dismantle used repeatedly, the assembly type mounting means can not harm the dismouting, realizes that the indoor space is variable, and the user of being convenient for maintains, rebuilds, practices thrift the cost.

10 The construction performance is high, the modularized assembly type installation process has no pollution on site, short construction period, high quality and good effect.

Claims (11)

1. The utility model provides a close union piece of non-bearing partition wall, includes the termination subassembly, its characterized in that, the termination subassembly includes that two U type card fossil fragments and at least one close side of piecing together manage, and U type card fossil fragments include wallboard joint portion and joint recess, and close side of piecing together manages including two joint portions, close joint portion and the joint recess joint that corresponds U type card fossil fragments of piecing together square.

2. The close-fitting connection piece according to claim 1, wherein the terminal assembly comprises a square splicing tube and two of the square splicing tubes, the square splicing tube comprises two clamping grooves arranged at two longitudinal ends of the square splicing tube; the splicing square tube is arranged between the two U-shaped clamping keels, and two clamping parts of the close splicing square tube are respectively clamped with the clamping grooves of the U-shaped clamping keels and the clamping grooves of the splicing square tube.

3. The splice joint of claim 2 wherein the end fitting assembly comprises 4 of said U-shaped clips and two channel bars, the two channel bars and the two U-shaped clips being disposed on one lateral side of the square splice tube and spaced apart longitudinally of the square splice tube; the bottom plate of the channel iron is fixed on the splicing square tube through a plurality of screws, and the two wing plates of the channel iron are clamped with the clamping grooves corresponding to the U-shaped clamping keels.

4. The splice joint of claim 1 including an angle joint assembly comprising an angle joint square tube, 4 of said U-shaped clips and 4 channel bars; the two channel irons and the two U-shaped clamping keels are arranged on one side of the angle joint square pipe in the transverse direction and are separately arranged in the longitudinal direction of the joint square pipe; the other two channel irons and the other two U-shaped clamping keel are arranged on one side of the angle joint square pipe along the longitudinal direction and are separately arranged along the transverse direction of the joint square pipe; the bottom plate of the channel iron is fixed on the angle joint square pipe through a plurality of screws; two wing plates of the channel iron are clamped with the clamping grooves of the corresponding U-shaped clamping keels.

5. The splice joint of any one of claims 1 to 4 wherein the wall panel clip portion of the U-shaped clip includes a clip portion and flanges disposed on both sides of the front end of the clip portion, the sides of the clip portion and the rear of the flanges being serrated; the clamping groove is an elastic groove, and the clamping surface of the elastic groove comprises a clamping bulge.

6. The splice joint of claim 3 or 4, comprising female angle edging comprising 90 ° angle iron and an insert fixing plate connected to the angle iron; the angle iron of the internal corner edge banding is arranged between two U-shaped clamping keels which are orthogonal and adjacent, and the insertion fixing plate of the internal corner edge banding is pressed between the U-shaped clamping keel and the splicing square pipe or between the U-shaped clamping keel and the corner splicing square pipe.

7. The splice joint of claim 1 wherein the middle section of the square splice tube includes a T-shaped flange orthogonal to the long axis of the square splice tube, and wherein both sides of the outer end of the T-shaped flange include tabs orthogonal to the flange; the flange is clamped between the two U-shaped clamping keels.

8. A non-bearing partition wall comprises a plurality of wall bodies and a close splicing connecting piece, and is characterized in that the wall bodies comprise two wall plates which are arranged in parallel, and a wiring space is reserved between the wall plates; the splicing fitting is the splicing fitting of any one of claims 1 to 7; the front end and the rear end of wallboard include the recess that is used for joint termination subassembly U type card fossil fragments card respectively.

9. A non-load bearing partition according to claim 8 wherein the wall includes two keels; the wallboard comprises a bare board or a decorative board, the bare board comprises a sandwich board, and the sandwich board comprises two gypsum boards and a rock wool layer clamped between the two gypsum boards; the decorative plate comprises a sandwich plate and a panel, and the panel is attached to the outer surface of the decorative plate; the gypsum boards protrude out of the rock wool layer at the front end and the rear end of the sandwich board to form grooves at the front end and the rear end of the wallboard; the keel comprises two wallboard grooves, a bulge is arranged between the two wallboard grooves, and the height of the bulge is greater than that of the wallboard groove; two wall plate grooves of the first keel face downwards, two wall plate grooves of the second keel face upwards, and the depth of the wall plate grooves of the first keel is greater than that of the wall plate grooves of the second keel; the upper ends of the two wallboards are respectively embedded in the two wallboard grooves of the first keel, the lower ends of the two wallboards are respectively embedded in the two wallboard grooves of the second keel, and a gap is reserved between the upper ends of the two wallboards and the bottom of the two wallboard grooves of the upper keel; the two wallboards of the wall body are separated by the protrusion of the keel to form a wiring space.

10. A non-load bearing partition according to claim 9 comprising a plurality of anchor bolts and a plurality of hanger bolts, the hanger bolts comprising a plurality of nuts; the wall body comprises an upper wall body and a lower wall body; the upper wall body is arranged above the lower wall body; the upper ends of the plurality of hanging bolts are fixed on the ceiling, and the plurality of hanging bolts downwards sequentially penetrate through the first keel of the upper wall body, the second keel of the upper wall body and the first keel of the lower wall body; the first keel of the upper wall body is fixed on the ceiling through upper nuts of a plurality of hanging bolts, and the second keel of the upper wall body and the first keel of the lower wall body are arranged back to back and are fixed by middle nuts and lower nuts of a plurality of hanging bolts; the second keel of the lower wall body is fixed on the ground through a plurality of foundation bolts, the wallboard of the upper wall body is a bare board, and the wallboard of the lower wall body is a decorative board.

11. A non-load bearing partition according to claim 9 wherein the wall panel includes two of said U-shaped studs projecting from the rock wool layer at the top and bottom ends of the sandwich panel to form recesses at the top and bottom ends of the sandwich panel, the two U-shaped studs being engaged in the recesses at the top and bottom ends of the sandwich panel respectively.

Images