CN212295197U - Vertical main keel structure of honeycomb calcium silicate board wall - Google Patents

Abstract

The utility model discloses a vertical main keel structure of a honeycomb calcium silicate board wall, wherein the vertical main keel is an integral aluminum profile structure, the main body of the vertical main keel comprises a square column, and the front side and the rear side of the square column are respectively provided with a wallboard fixing part for fixing the honeycomb calcium silicate board; a clip-shaped clamping groove is formed between the 2 right-angle plates on the left side and the right side of the square column and the outer side wall of the square column; the vertical main keel is matched with a fastener, an insert, a clamping piece, a connecting beam and the like for use, and is used for splicing and fixing adjacent honeycomb calcium silicate wallboards as a constructional column. When the honeycomb calcium silicate wallboard is matched, the honeycomb calcium silicate wallboard can be cut to a proper length in advance when being customized in a factory according to the actual size. The advantages are that: the vertical main keel is in a structure mode of constructing the column by the keel, two layers of cellular calcium silicate wallboards which are arranged at intervals are assembled on the vertical main keel to serve as walls, and the installation is simple, the operation is easy and the operation is convenient; because the honeycomb calcium silicate wallboard has light dead weight, the load bearing burden of a building is small, the strength of a wall body system is high, and the anti-seismic performance is greatly improved.

Description

Vertical main keel structure of honeycomb calcium silicate board wall

Technical Field

The utility model relates to an installation field of honeycomb calcium silicate board wall especially relates to a wall body assembly mounting by honeycomb calcium silicate board for the wall body.

Background

The assembly type building will be paid more and more attention, and is a great trend of future decoration and building engineering. The existing indoor partition wall system has the problems of low installation speed, low efficiency and the like due to the fact that a unified standard installation module is not available; meanwhile, the conventional partition wall system has the following technical defects:

1. the square brick partition wall is operated by a wet method, and also has multiple working procedures of ash scraping, polishing, airing, surface finishing and the like, so that the construction speed is low; the material waste is large, and decoration pollution is easy to generate; the weight is heavy, so that the bearing load of the building is increased, and the seismic performance is poor;

2. the light steel keel gypsum board partition wall is treated by the gypsum board emulsion paint, the using conditions of the partition wall have great limitation, the partition wall has low strength, is not moisture-resistant, is easy to mildew and has poor fireproof performance, the gypsum board has low strength and is easy to crack, and the earthquake-resistant performance is poor, so that the partition wall can not meet the special requirements of some special spaces.

SUMMERY OF THE UTILITY MODEL

For solving the existence above-mentioned defect of current partition wall, the utility model provides an accelerate vertical main keel structure of wall body assembly's honeycomb calcium silicate board wall.

In order to achieve the purpose, the utility model adopts the technical proposal that:

the utility model provides a vertical main keel structure of honeycomb calcium silicate board wall, includes vertical main keel, and vertical main keel is used for concatenation and fixing between the adjacent honeycomb calcium silicate board as the constructional column, characterized by: the vertical main keel is of an integral aluminum profile structure, the main body of the vertical main keel comprises a square column, and wallboard fixing parts for fixing the honeycomb calcium silicate wallboard are arranged on the front side and the rear side of the square column; the wallboard fixing part comprises 2 clamping top plates, and the 2 clamping top plates are oppositely and symmetrically arranged on the outer side wall of the square column; the clamping top plate comprises a right-angle connecting plate, an inclined wall plate, a transition steering plate and a flat top plate which are sequentially connected end to end; the right-angle connecting plates of the 2 clamping top plates are oppositely and symmetrically arranged on the outer side wall of the square column, and an embedded clamping groove is formed between the right-angle connecting plates and the outer side wall of the square column; the inner end of the inclined wall plate is arranged at the outer end part of the right-angle connecting plate, the outer end of the inclined wall plate is inclined and expanded outwards, the inner end of the transition steering plate is arranged at the outer end part of the inclined wall plate, the outer end of the transition steering plate is folded outwards and then inclined and expanded outwards, the inner end of the flat top plate is arranged at the outer end part of the transition steering plate, the outer end of the flat top plate is suspended in the air, and the flat top plate is parallel to the outer side wall of the square column where the wall plate fixing part; the transition steering board of 2 blocks of card roof forms a trapezoidal notch of falling in opposite directions relatively, and the inclined wall board of 2 blocks of card roof forms a trapezoidal slotted hole in opposite directions, and the trapezoidal slotted hole is located the outside of inlaying the card groove, and the joint of falling trapezoidal notch and trapezoidal slotted hole forms the joint throat mouth of a binding off.

Furthermore, an extension arm is arranged at the end part of the flat top plate and is horizontally connected with the flat top plate through an inward-bent arm, an opening round hole with an outward opening is formed in the bent arm, and a back-folded edge plate bent inwards by 90 degrees is arranged at the tail end of the extension arm; the transition deflector bends upwards and outwards, and the inverted trapezoidal notch presents an inverted trapezoidal structure.

Furthermore, 2 right-angle plates are arranged on the left side and the right side of the square column, the 2 right-angle plates are oppositely and symmetrically arranged on the outer side wall of the square column, and a clip-shaped clamping groove is formed between the right-angle plates and the outer side wall of the square column; the both ends of returning the font draw-in groove all are equipped with can be in returning the gliding angle sign indicating number of font draw-in groove, outside the outer end level of angle sign indicating number stretches out back the font draw-in groove, the outer end of angle sign indicating number is equipped with the pull rod that is used for transverse connection between the vertical main joist.

Furthermore, the outer end of the angle code is provided with a mounting and fixing hole, the tail end of the pull rod is provided with a threaded hole, and the angle code and the pull rod are connected through the mounting and fixing hole and the threaded hole.

Furthermore, the inner end of the angle code is also provided with a mounting and fixing hole, both ends of the side wall of the square column where the square-shaped clamping groove is located are provided with threaded holes, and the angle code is fixed in the square-shaped clamping groove through screws and the threaded holes.

Furthermore, the corner brace is provided with a bayonet with two narrowed opposite ends at the right angle, the end part of the inner end of the corner brace is of a semicircular structure, the end part of the outer end of the corner brace is of a chamfer structure, and the outer end of the corner brace is provided with a connecting strip hole which is used as a pull rod mounting position to be adjusted at the rear side of the mounting fixing hole.

Further, the upper and lower both ends of vertical main joist all are equipped with fixed component, fixed component includes bottom plate and 2 splint, 2 splint parallel to each other set up perpendicularly at the middle part of bottom plate with interval, 2 splint's parallel spaced size and the width matching of square column, 2 splint separately insert in the font draw-in groove that returns that the square column left and right sides corresponds, be equipped with the fixed rectangular hole of vertical setting on the splint, both sides also are equipped with fixed rectangular hole respectively about on the bottom plate, splint set up the inboard at the angle sign indicating number inner end, fixed component passes through for the fixed rectangular hole screw fixation on the splint on the screw hole of square column, fixed component passes through for the fixed rectangular hole screw assembly on the bottom plate to fix on floor or ceiling.

From the above, for prior art, the utility model has the following advantages: the structure is scientific, and the design is reasonable; the vertical main keel is in a structure mode of constructing the column by the keel, two layers of cellular calcium silicate wallboards which are arranged at intervals are assembled on the vertical main keel to serve as walls, and the installation is simple, the operation is easy and the operation is convenient; because honeycomb calcium silicate wallboard dead weight is light, and the bearing burden of building is little, and wall system intensity is high, and anti-seismic performance improves by a wide margin, through the utility model discloses the concatenation is fixed back, the inside cavity of wall body of formation, double-deck honeycomb calcium silicate wallboard sound insulation is effectual, and moisture-resistant mould proof, refractory capacity can reach A level, the requirement of adaptable various special space partition wall.

Drawings

Fig. 1 is a reference diagram of the usage state of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is an exploded view of fig. 2.

Figure 4 is a perspective view of the vertical main runner.

Fig. 5 is a top view of fig. 4 (with the orientation indicated in the figure as a reference orientation reference for the present application).

Fig. 6 is a perspective view of the fastener.

Fig. 7 is a top view of fig. 6.

Fig. 8 is a perspective view of the insert.

Fig. 9 is a top view of fig. 8.

Fig. 10 is a top view of the clip piece.

Fig. 11 is a perspective view of the corner brace.

Fig. 12 is a perspective view of the drawbar.

Fig. 13 is a perspective view of the fixing member.

The reference numbers illustrate: 1-vertical main keel, 2-fastener, 3-plug-in unit, 4-fastener, 5-pull rod, 6-rubber pad, 7-honeycomb calcium silicate wallboard, 8-fixing member and 9-corner connector; 10-square column, 11-wallboard fixing part; 13-card top plate, 14-right-angle plate, 15-clip groove, 16-insert groove, 17-threaded hole, 131-right-angle connecting plate, 132-inclined wall plate, 133-transition steering plate, 134-flat top plate, 135-inverted trapezoid notch, 136-trapezoid slotted hole, 137-card throat, 138-bent arm, 139-opening round hole, 13 a-extension arm, 13 b-turned edge plate, 23-triangle positioning groove, 31-U-shaped body, 32-plug plate, 33-concave-convex anti-slip texture, 34-triangle convex clip end, 35-triangle convex limiting block, 36-first triangle edge, 37-second triangle edge and 38-insert groove; 41-plug board, 42-snap gauge; 91-bayonet, 92-connecting strip hole; 81-bottom plate, 82-clamping plate, 83-fixing elongated hole.

Detailed Description

The present invention and its advantageous technical effects are further described in detail below with reference to the accompanying drawings and preferred embodiments.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components in a specific posture, and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated.

Referring to fig. 3, the vertical main keel structure of the calcium silicate honeycomb panel wall of the preferred embodiment of the present invention comprises a vertical main keel 1, the vertical main keel 1 is used as a constructional column for splicing and fixing between adjacent calcium silicate honeycomb panels 7, referring to fig. 4 to 5, the vertical main keel 1 is an integral aluminum profile structure, the main body of the vertical main keel comprises a square column 10, and both the front side and the rear side of the square column 10 are provided with panel fixing parts 11 for fixing the calcium silicate honeycomb panels 7;

referring to fig. 1 to 5, the wall plate fixing portion 11 includes 2 top clamping plates 13, and the 2 top clamping plates 13 are oppositely and symmetrically disposed on the outer side wall of the square column 10; the clamping top plate 13 comprises a right-angle connecting plate 131, an inclined wall plate 132, a transition steering plate 133 and a flat top plate 134 which are sequentially connected end to end; the right-angle connecting plates 131 of the 2 clamping top plates 13 are oppositely and symmetrically arranged on the outer side wall of the square column 10, and an embedding groove 16 is formed between the right-angle connecting plates and the outer side wall of the square column 10; the inner end of the inclined wall plate 132 is arranged at the outer end of the right-angle connecting plate 131, the outer end of the inclined wall plate 132 is inclined and expanded outwards, the inner end of the transition steering plate 133 is arranged at the outer end of the inclined wall plate 132, the outer end of the transition steering plate 133 is folded outwards and then inclined and expanded outwards, the inner end of the flat top plate 134 is arranged at the outer end of the transition steering plate 133, the outer end of the flat top plate 134 is suspended, and the flat top plate 134 is parallel to the outer side wall of the square column 10 where the wall plate fixing part 11 is located; the transition steering plates 133 of the 2 card top plates 13 oppositely form an inverted trapezoidal notch 135, the inclined wall plates 132 of the 2 card top plates 13 oppositely form a trapezoidal slot 136, the trapezoidal slot 136 is positioned at the outer side of the insert slot 16, and a closed clamping throat 137 is formed at the joint of the inverted trapezoidal notch 135 and the trapezoidal slot 136; the trapezoid slotted hole 136 plays an elastic buffering role for the whole wallboard fixing part 11, so that the anti-seismic performance of the whole honeycomb calcium silicate board keel wall is improved, and the honeycomb calcium silicate board keel wall is prevented from easily collapsing when a strong earthquake occurs; the transition deflector plate 133 and angled wall plate 132 provide some flexibility to the clamping throat 137.

Referring to fig. 4 to 5, in order to increase the contact area with the cellular calcium silicate wallboard 7 and increase the elastic tension of the flat top plate 134, further, an extension arm 13a is disposed at the end of the flat top plate 134, the extension arm 13a is horizontally connected with the flat top plate 134 through an inward-bent arm 138, an opening round hole 139 which is open outwards is disposed in the bending arm 138, and a return-folded side plate 13b which is bent inwards by 90 degrees is disposed at the end of the extension arm 13 a; the transition deflector 133 is bent obliquely upward and outward, and the inverted trapezoid-shaped notch 135 has an inverted trapezoid-shaped structure.

Referring to fig. 4-5, further, 2 right-angle plates 14 are arranged on the left side and the right side of the square column 10, the 2 right-angle plates 14 are symmetrically arranged on the outer side wall of the square column 10 in opposite directions, and a clip-shaped slot 15 is formed between the right-angle plates and the outer side wall of the square column 10; the both ends of returning font draw-in groove 15 all are equipped with can be in returning font draw-in groove 15 gliding angle sign indicating number 9, and outside the outer end level of angle sign indicating number 9 stretched out returning font draw-in groove 15, the outer end of angle sign indicating number 9 was equipped with the pull rod 5 that is used for transverse connection between the vertical main joist 1.

Referring to fig. 3 and 11, further, the outer ends of the corner connectors 9 are provided with mounting and fixing holes, the tail end of the pull rod 5 is provided with a threaded hole 17, and the corner connectors 9 and the pull rod 5 are connected through the mounting and fixing holes and the threaded hole 17.

Referring to fig. 3 and 11, further, the inner end of the corner brace 9 is also provided with a mounting and fixing hole, both ends of the side wall of the square column 10 where the clip groove 15 is located are provided with a threaded hole 17, and the corner brace 9 is fixed in the clip groove 15 through a screw and the threaded hole 17.

Referring to fig. 3 and 11, further, a bayonet 91 with two narrowed opposite ends is arranged at a right angle of the corner brace 9, an end portion of an inner end of the corner brace 9 is of a semicircular structure, an end portion of an outer end of the corner brace 9 is of a chamfered structure, and a connecting strip hole 92 for adjusting an installation position of the pull rod 5 is arranged at the rear side of the installation fixing hole at the outer end of the corner brace 9.

Referring to fig. 3 and 13, further, fixing members 8 are respectively arranged at the upper end and the lower end of the vertical main keel 1, each fixing member 8 includes a bottom plate 81 and 2 clamping plates 82, the 2 clamping plates 82 are vertically arranged in the middle of the bottom plate 81 in parallel at intervals, the parallel interval of the 2 clamping plates 82 is matched with the width of the square column 10, the 2 clamping plates 82 are separately inserted into the clip grooves 15 corresponding to the left side and the right side of the square column 10, the clamping plates 82 are provided with longitudinally arranged fixing strip holes 83, the left side and the right side of the bottom plate 81 are also provided with the fixing strip holes 83, the clamping plates 82 are arranged on the inner sides of the inner ends of the corner connectors 9, the fixing members 8 are fixed on the threaded holes 17 of the square column 10 through the fixing strip holes 83 on the clamping plates 82 by screws, and the fixing members 8 are fixed on the floor or the ceiling through the fixing strip holes 83 on the bottom. The fixed elongated holes 83 of the clamping plates 82 can be slightly adjusted in the vertical relation and the ground position relative to the vertical main keel 1.

Vertical main keel structure is as the main part spare of honeycomb calcium silicate board keel wall assembly system, during the use, still uses with other accessories cooperation, if honeycomb calcium silicate board keel wall assembly system still includes following cooperation external member: a fastener 2, an insert 3, a clamping piece 4 and a pull rod 5, wherein,

referring to fig. 6-7, the fastener 2 is used for connecting the honeycomb calcium silicate wallboard 7 and the plug-in 3, the fastener 2 is in a U-shaped structure with a square font, the fastener 2 is vertically embedded in the side edge of the honeycomb calcium silicate wallboard 7, and an inwards concave triangular positioning groove 23 is formed in the inner wall of the fastener 2; the fastener 2 and the plate honeycomb calcium silicate wallboard 7 are bonded through viscose; the triangular positioning groove 23 is used for fastening the plug-in 3, so that errors are reduced;

referring to fig. 8-9, the insert 3 is used for connecting the fastener 2, the clamping piece 4 and the vertical main keel 1, the insert 3 comprises a U-shaped body 31 and a plug board 32, and the U-shaped body 31 is fittingly inserted in the fastener 2; referring to fig. 1-3, a triangular protrusion limiting block 35 matched and matched with the triangular positioning groove 23 of the fastener 2 is arranged on the outer side of the U-shaped body 31; the plug board 32 is vertically arranged outside the opening end of the U-shaped body 31, and the end part of the plug board 32 is provided with a triangular outer convex clamping end 34; the triangular convex clamping end 34 extends into the trapezoidal groove hole 136 of the wallboard fixing part 11 of the vertical main keel 1; when in use, the calcium silicate boards are arranged on the left side and the right side of the vertical main keel 1 in a bilateral symmetry manner, the two plug-in components 3 embedded at the side edges of the adjacent honeycomb calcium silicate wallboard 7 form a bilateral symmetry manner, the plug boards 32 corresponding to the two plug-in components 3 are also clamped on the left wall part and the right wall part of the clamping throat 137 in a bilateral symmetry manner, and the clamping groove 38 is naturally formed between the plug boards 32 of the two plug-in components 3;

referring to fig. 10, the clip member 4 is used for connecting the vertical main keel 1 and the insert 3, the clip member 4 includes an insert plate 41 and a clip plate 42, the clip plate 42 is vertically arranged on the side surface of the insert plate 41 to form a T-shaped structure, the insert plate 41 is inserted into the insert slot 16, and the clip plate 42 is inserted into the insert slot 38 outwards and is tightly fitted with the wall portions of the plug plates 32 on both sides; concave-convex anti-slip textures 33 are arranged on the outer side of the plug plate 32, and the concave-convex anti-slip textures 33 are attached to the corners of the wall of the clamping throat 137;

the stability and the friction force are enhanced, and the shearing force in two directions generated by the honeycomb calcium silicate wallboards 7 on the left side and the right side is borne, so that the clamping piece 4 has certain elasticity, the installation error is reduced, and the fastening is enhanced;

referring to fig. 1-2, a rubber pad 6 is disposed on the outer side of the flat top plate 134 to serve as a cushion pad between the cellular calcium silicate wallboard 7 and the wallboard fixing part 11.

Referring to fig. 10, further, the clamping plate 42 is a rectangular hollow plate, the inserting plate 41 and the clamping plate 42 are of an integrally formed profile structure, a narrow slit 43 is arranged at an outer end of the clamping plate 42, and the rectangular hollow plate is divided into two parts by the narrow slit 43.

Further, the top end of the triangular protrusion limiting block 35 is of an arc transition structure, and the gradient of a first triangular edge 36 close to the end part is larger than that of a second triangular edge 37 far away from the end part.

When the honeycomb calcium silicate wallboard is installed for use, the matched honeycomb calcium silicate wallboard 7 preferably comprises an aluminum honeycomb plate and a calcium silicate plate, and the calcium silicate plate is compounded on the outer side surface of the aluminum honeycomb plate; a honeycomb calcium silicate wallboard 7, which is mainly a wallboard made of an aluminum honeycomb plate and a calcium silicate plate through gluing; the front surface of the wallboard can be processed by film coating, roll coating and 3D printing to form patterns and textures such as stone imitation, wood imitation, ceramic tile imitation and the like. When the aluminium honeycomb panel of both ends about honeycomb calcium silicate wallboard 7 is installed, the fretwork is handled into the fretwork groove that matches with fastener 2 shape for installation fastener 2, fastener 2 passes through special viscose bonding in the fretwork inslot.

During the wall body installation, vertical main joist 1 is as the constructional column of concatenation and fixed honeycomb calcium silicate wallboard 7, and in fig. 1~ 3, honeycomb calcium silicate wallboard 7 constitutes the wallboard, and the wallboard is total two-layer, and tandem interval sets up. Preferably, vertical main joist 1, fastener 2, plug-in components 3, fastener 4 and pull rod 5 etc. can make the material of section bar structure, like aluminium alloy etc. during the use, can be as required length process in advance can, so both can reduce manufacturing cost, can also reduce mounting process.

The installation reference of vertical main joist 1 and other accessories during cooperation concatenation and fixed wallboard refers to fig. 1~ 3, can be according to actual dimensions, the length of each wallboard installation component of intercepting in advance when the mill customization, like the various length specification of vertical main joist 1, fastener 2, plug-in components 3, fastener 4, pull rod 5, confirms the specification of honeycomb calcium silicate wallboard 7. Then the aluminum honeycomb plates at the left end and the right end of the honeycomb calcium silicate wallboard 7 are hollowed into hollowed grooves matched with the shape of the fastener 2, and the fastener 2 is adhered in the hollowed grooves. The insert plate 41 of the card member 4 is inserted into the insert groove 16 with the card plate 42 facing outward. Overlapping and inserting the fixing component 8 and the corner brace 9I inside and outside into the corresponding clip grooves 15 at the left side and the right side of the square column 10, and fixing the fixing component and the corner brace on the upper end and the lower end of the square column 10 by screws; the fixing members 8 are screwed to the respective floors or ceilings through the fixing elongated holes 83 of the bottom plate 81 (note: the screws here may be explosion screws previously provided on the floors or ceilings). The angle bracket 9 and the pull rod 5 are connected through the mounting fixing hole and the threaded hole 17 to form a connecting beam. Arranging a rubber pad 6 outside a wallboard fixing part 11 in the vertical main keel 1; finally, the fastener 2, the clamping piece 4 and the vertical main keel 1 are connected through the plug-in 3, the U-shaped bodies 31 of the plug-in 3 on the left side and the right side are sleeved in the fastener 2 in a matching mode, and the U-shaped bodies 31 of the plug-in 3 are embedded in the calcium silicate board; the card plates 42 are then inserted outwardly into the insert slots 38 and into tight engagement with the walls of the plug plates 32 on either side. After one side is installed, the other side is installed again, and thus the installation of the wall surface can be completed. Other mounting methods can also be adopted, and the mounting can be changed properly according to actual conditions.

In the above description, details, such as structures and processes, which are conventionally used in the prior art, are not repeated for brevity. Processing technique and parts which are not disclosed are processed according to the conventional technology in the prior art.

The invention is not limited to the embodiments disclosed and described above, but rather, modifications and variations of the invention are possible within the scope of the invention as defined in the claims.

Claims (7)

1. The utility model provides a vertical main keel structure of honeycomb calcium silicate wallboard wall, includes vertical main keel (1), and vertical main keel (1) is used for the concatenation and the fixing between adjacent honeycomb calcium silicate wallboard (7) as the constructional column, characterized by: the vertical main keel (1) is of an integral aluminum profile structure, the main body of the vertical main keel comprises a square column (10), and the front side and the rear side of the square column (10) are respectively provided with a wallboard fixing part (11) for fixing the honeycomb calcium silicate wallboard (7);

the wallboard fixing part (11) comprises 2 clamping top plates (13), and the 2 clamping top plates (13) are oppositely and symmetrically arranged on the outer side wall of the square column (10); the clamping top plate (13) comprises a right-angle connecting plate (131), an inclined wall plate (132), a transition steering plate (133) and a flat top plate (134) which are sequentially connected end to end; the right-angle connecting plates (131) of the 2 clamping top plates (13) are oppositely and symmetrically arranged on the outer side wall of the square column (10), and an embedding groove (16) is formed between the right-angle connecting plates and the outer side wall of the square column (10); the inner end of the inclined wall plate (132) is arranged at the outer end of the right-angle connecting plate (131), the outer end of the inclined wall plate (132) is inclined and expanded outwards, the inner end of the transition steering plate (133) is arranged at the outer end of the inclined wall plate (132), the outer end of the transition steering plate (133) is folded outwards and then inclined and expanded outwards, the inner end of the flat top plate (134) is arranged at the outer end of the transition steering plate (133), the outer end of the flat top plate (134) is suspended, and the flat top plate (134) is parallel to the outer side wall of the square column (10) where the wall plate fixing part (11) is located; transition deflector plate (133) of 2 calorie of roof (13) are relative relatively forming one and are reversed trapezoidal notch (135) in opposite directions, and inclined wall board (132) of 2 calorie of roof (13) are relative relatively forming one trapezoidal slotted hole (136) in opposite directions, and trapezoidal slotted hole (136) are located the outside of inlay card groove (16), and the junction of falling trapezoidal notch (135) and trapezoidal slotted hole (136) forms a joint throat (137) of binding off.

2. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 1, wherein: an extension arm (13 a) is arranged at the end part of the flat top plate (134), the extension arm (13 a) is horizontally connected with the flat top plate (134) through a bending arm (138) which bends inwards, an opening round hole (139) which opens outwards is formed in the bending arm (138), and a reverse folding side plate (13 b) which bends inwards by 90 degrees is arranged at the tail end of the extension arm (13 a); the transition deflector (133) is bent upwards and outwards in an inclined mode, and the inverted trapezoidal notch (135) is of an inverted trapezoidal structure.

3. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 1 or 2, wherein: the left side and the right side of the square column (10) are respectively provided with 2 right-angle plates (14), the 2 right-angle plates (14) are oppositely and symmetrically arranged on the outer side wall of the square column (10), and a clip-shaped clamping groove (15) is formed between the right-angle plates and the outer side wall of the square column (10); the both ends of returning font draw-in groove (15) all are equipped with can be in returning font draw-in groove (15) gliding angle sign indicating number (9), and outside the outer end level of angle sign indicating number (9) stretched out back font draw-in groove (15), the outer end of angle sign indicating number (9) was equipped with pull rod (5) that are used for transverse connection between vertical main joist (1).

4. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 3, wherein: the outer end of the angle code (9) is provided with a mounting and fixing hole, the tail end of the pull rod (5) is provided with a threaded hole (17), and the angle code (9) and the pull rod (5) are connected through the mounting and fixing hole and the threaded hole (17).

5. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 4, wherein: the inner end of the angle code (9) is also provided with a mounting and fixing hole, both ends of the side wall of the square column (10) where the square-shaped clamping groove (15) is located are provided with threaded holes (17), and the angle code (9) is fixed in the square-shaped clamping groove (15) through screws and the threaded holes (17).

6. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 5, wherein: the corner connector is characterized in that a bayonet (91) which is narrowed at two opposite ends is arranged at the right angle of the corner connector (9), the end part of the inner end of the corner connector (9) is of a semicircular structure, the end part of the outer end of the corner connector (9) is of a chamfer structure, and the outer end of the corner connector (9) is provided with a connecting strip hole (92) which is used as a pull rod (5) to be adjusted in the mounting position on the rear side of a mounting and fixing hole.

7. The vertical main keel structure of the calcium silicate honeycomb panel wall as claimed in claim 6, wherein: the upper end and the lower end of the vertical main keel (1) are respectively provided with a fixing component (8), each fixing component (8) comprises a bottom plate (81) and 2 clamping plates (82), the 2 clamping plates (82) are vertically arranged in the middle of the bottom plate (81) in parallel at intervals, the parallel interval size of the 2 clamping plates (82) is matched with the width of the square column (10), the 2 clamping plates (82) are separately inserted into the corresponding clip-shaped slots (15) on the left side and the right side of the square column (10), the fixing structure is characterized in that a fixing strip hole (83) is longitudinally formed in the clamping plate (82), the fixing strip hole (83) is formed in the left side and the right side of the bottom plate (81) respectively, the clamping plate (82) is arranged on the inner side of the inner end of the corner brace (9), the fixing component (8) is fixed to a threaded hole (17) of the square column (10) through the fixing strip hole (83) in the clamping plate (82) through a screw assembly, and the fixing component (8) is fixed to the floor or the ceiling through the fixing strip hole (83) in the bottom plate (81) through a screw assembly.

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