CN113338470B - Connect assembled integrative wall of fastening - Google Patents

Abstract

The invention relates to a fabricated integrated wall with tight connection. It has solved the not good and inconvenient problem of assembly type cavity structural stability among the prior art. It is including assembling the grillage, assembly grillage circumference is sealed and fixed through the skeleton subassembly, and assembly grillage both sides are equipped with the protection skin, the slip grafting device that sets up through a plurality of equidistance between protection skin and the assembly grillage is connected, and assembly grillage inner wall is equipped with the grout access structure who communicates in each slip grafting device, form the heat preservation clearance between the slip grafting device, skeleton subassembly circumference is equipped with the slip locking device who is located protection outer wall through the locating frame body, and it is internal that protection skin and assembly grillage circumference are fixed in the locating frame. The invention has the advantages that: stable in structure and assembly are convenient.

Description

Connect assembled integrative wall of fastening

Technical Field

The invention relates to the technical field of building structures, in particular to an assembled integrated wall with tight connection.

Background

The matched building has the advantages of short construction period, high factory degree, economy, convenience and environmental protection, is more emphasized at home and abroad, is highly advocated while the shortcomings are exposed, and the key improvement is the manufacturing process, the component variety and the installation method. The variety and the structure of the prefabricated member manufactured in an industrial manner need to be improved towards diversified and practical innovation, the coverage rate of the prefabricated member is improved, and the bottleneck restricting the construction period is eliminated. At present, the problems of large on-site construction work amount, low assembly rate and long construction period exist in the matched building, for example, secondary masonry of a filler wall and plastering are needed in a construction site, and the two subsequent constructions cause adverse factors which restrict the construction period, achieve the environmental protection standard and reduce the manufacturing cost; meanwhile, the wall structure of the existing fabricated building is not convenient and fast to assemble, and the structural stability is not good after the assembly is completed, so that the engineering quality of the building is easily influenced.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, the chinese patent document discloses a premix structure, a infill integral wall [ cn201821077237.x ], which comprises transverse structural beams, longitudinal structural columns and infill walls between the structural beams and the structural columns, which are integrally formed, the infill walls are disposed at the lower part of the abdomen of the integral wall, the structural columns are disposed at both sides of the infill walls, the structural beams are disposed above the structural columns and the infill walls, and the peripheral sides of the structural beams and the structural columns are provided with beard ribs extending from the inside to the outside; the structure column is internally provided with a connecting plate, the connecting plate is connected with the assembled steel column and then is poured together with the wall surface in the post-pouring section, and the whole building does not need secondary masonry of a filler wall and plastering.

The problem that assembly type building assembly engineering volume is big and assembly efficiency is low among the prior art has been solved to a certain extent to above-mentioned scheme, but this scheme still has a lot of insufficiencies, for example: the wall structure of the fabricated building is not convenient and fast enough during assembly, and the structural stability is not good after the assembly is completed, so that the engineering quality of the building is easily influenced.

Disclosure of Invention

The invention aims to solve the problems and provide a firmly-connected assembled integrated wall with reasonable design and good stability.

In order to achieve the purpose, the invention adopts the following technical scheme: this connect integrative wall of fastening assembled, including the assembly grillage, assembly grillage circumference is sealed and fixed through skeleton subassembly, and assembly grillage both sides are equipped with the protection skin, the slip grafting device that sets up through a plurality of equidistance between protection skin and the assembly grillage is connected, and assembly grillage inner wall is equipped with the grout access structure who communicates in each slip grafting device, form the heat preservation clearance between the slip grafting device, skeleton subassembly circumference is equipped with the slip locking device who is located protection outer wall through the locating frame body, and it is internal that protection skin and assembly grillage circumference are fixed in the locating frame. Through setting up the protection skin in assembly grillage both sides, and utilize the slip grafting device to connect assembly grillage and protection skin, it is convenient to assemble, and after the assembly was accomplished, utilize grout access structure pouring mortar to make and connect the fastening of being connected between assembly grillage and the protection skin, utilize the position fixing frame body to fix a position assembly grillage and the outer circumference of protection in addition, simultaneously, use slip locking device to lock both sides, structural stability is better.

In foretell connect fastening's integrative wall of assembled, the positioning frame body comprises two liang of end to end of vertical portion and horizontal part, and links to each other through grafting mechanism grafting between vertical portion and the horizontal part end to end, and positioning frame body circumference inboard has positioning groove, and skeleton subassembly circumference joint sets up in positioning groove.

In foretell integrative wall of assembled of connection fastening, grafting mechanism is uncovered including setting up the inserting groove at vertical portion both ends, the inserting groove tip, the horizontal part both ends are equipped with the connecting portion that extend towards the inserting groove level, and connecting portion one side end is equipped with the grafting lug that corresponds the setting with the inserting groove, inserting groove one end is equipped with the constant head tank that corresponds the setting with connecting portion, and when the grafting lug is pegged graft in the inserting groove, connecting portion set up in the constant head tank, and horizontal part up end and vertical portion up end keep flushing, be equipped with straining spring between connecting portion and the horizontal part. The arrangement of the inserting mechanism enables the circumferential directions of the positioning frame bodies to be connected conveniently, the arrangement of the tensioning spring can be adapted to walls with different widths, and the structure is stable.

In the integrative wall of foretell assembled of connecting the fastening, slip locking device includes that the axial sets up vertical spout at vertical, be connected with the horizontal steel wire stay cord that is the level setting through a plurality of longitudinal sliding connecting piece in the vertical spout, horizontal steel wire stay cord closely laminates and forms the location to the protection skin with the protection skin, the axial is equipped with horizontal spout on the horizontal part, and be connected with the vertical steel wire stay cord of vertical setting through a plurality of transverse sliding connecting piece in the horizontal spout, vertical steel wire stay cord closely laminates and forms the location to the protection skin with the protection skin, vertical steel wire stay cord and vertical crisscross setting of horizontal steel wire stay cord. The sliding locking device can keep the relative fixation between the two sides of the protective outer layer and the positioning frame body, so as to prevent the falling.

In foretell integrative wall of assembled of connection fastening, the slip grafting device includes that a plurality of top-down set gradually the arc positioning mechanism in assembly grillage both sides, the outer orientation of protection is equipped with in one side of assembly grillage and is the one-to-one setting with arc positioning mechanism and is used for the arc grafting mechanism of pegging graft in arc positioning mechanism, arc positioning mechanism tip is equipped with the support guide way that is the level setting, and support guide way and arc positioning mechanism circumference inboard intercommunication each other, arc positioning mechanism sets up and is the multiunit setting in assembly grillage both sides equidistance, and the first tail end of the arc positioning mechanism that is located same transverse axis line is located same longitudinal axis. The arrangement of the supporting guide groove enables the protective outer layer to save time and labor during assembly.

In foretell integrative wall of assembled of connecting the fastening, arc positioning mechanism is including being the guide part that the slope set up, guide part one end is connected with the horizontal part grafting portion that is the level and sets up through the arc kink, the axial is equipped with the guiding gutter on the guide part, and the guiding gutter both sides are equipped with towards arc kink and horizontal part grafting portion axial extension's location step, it is uncovered that the one end that the guiding gutter is close to the location step, the other end is the closed form, the guide part, arc kink and horizontal part grafting portion integrated into one piece and one side and assembly grillage side fixed connection, the opposite side closely laminates with the outer inner wall of protection.

In the integrative wall of foretell assembled of connection fastening, arc grafting mechanism is including the direction grafting portion that is the slope setting, direction grafting portion is connected with the horizontal grafting portion that is the level setting through the connecting portion of buckling, and direction grafting portion and horizontal grafting portion downside axial are equipped with the grafting bellying of pegging graft in the location step, the grafting bellying and the guiding gutter of horizontal grafting portion downside are corresponding the setting, and when the grafting bellying sets up in the location step, arc grafting mechanism one side closely laminates with the assembly grillage, and closely laminate between downside and the arc positioning mechanism, direction grafting portion, connecting portion of buckling and horizontal grafting portion integrated into one piece set up. The arc-shaped positioning mechanism and the arc-shaped inserting mechanism are matched with each other, so that the protective outer layer can be firmly fixed on the outer wall of the assembling plate frame and is tightly connected.

In the assembled integral wall with the connection and fastening, the grouting channel structure comprises a flow guide channel arranged on the inner wall of the assembling plate frame, the flow guide channel is vertically arranged, the upper end of the flow guide channel is provided with a grouting inlet positioned on the upper end surface of the positioning frame body, the lower end of the flow guide channel is mutually communicated with a flow guide part arranged at the end part of the flow guide groove, an arc-shaped flow guide groove is arranged between the flow guide part and the flow guide channel, the arc-shaped flow guide groove and the flow guide part are mutually communicated, the flow guide part and the flow guide groove are mutually communicated, one end of the flow guide groove, far away from the flow guide part, is provided with a slurry leakage port, the slurry leakage port is communicated with the arc-shaped flow guide groove positioned at the end part of the arc-shaped positioning mechanism adjacent to the lower end through an inclined pipeline, the slurry leakage port in the arc-shaped positioning mechanism at the bottom of the assembling plate frame is connected with a slurry discharge pipe arranged along the assembling level through the vertically arranged slurry guide pipe, and two ends of the slurry discharge pipe are provided with slurry discharge ports, and the slurry discharge port is positioned on the outer wall of the positioning frame body. The arrangement of the grouting channel structure can fill mortar into the diversion trench, so that the positioning step and the inserting convex part are fixedly connected, and the structural strength is enhanced.

In foretell integrative wall of assembled of connection fastening, the skeleton subassembly is including setting up the fixed frame in the assembly panel frame week outside, fixed frame circumference four corners is equipped with fixed skeleton, and fixed skeleton both sides are equipped with the weld part that extends the setting towards fixed frame both sides outer wall, fixed connection between weld part and the fixed frame, and be located and connect through the U-shaped steelframe between the weld part of fixed frame both sides, and be located and draw the net through the steel wire between the U-shaped steelframe of coplanar and link to each other, the width that the steel wire drawn the net is the same with the thickness of assembly grillage. The framework component is arranged to enable the structural strength of the assembly plate frame to be better, and the assembly plate frame has larger bearing strength.

In foretell integrative wall of assembled of fastening of connection, the inclination of guide part and direction grafting portion is the same, and the arc positioning mechanism's that sets up on the assembly grillage height is less than the height that corresponds the arc grafting mechanism who sets up at the outer inner wall of protection, and the support guide way height that is located same horizontal axis is the same, and the support guide way setting of the arc positioning mechanism tip that is located same horizontal plane is at adjacent arc positioning mechanism's horizontal grafting portion upside, and when grafting bellying slides in the location step that is located the guide part, grafting bellying one end and support do not produce the contact between the guide way.

Compared with the prior art, the invention has the advantages that: reasonable in design, the assembly is convenient, is connected through slip grafting device between protection skin and the assembly grillage, and it is more convenient to assemble, and makes to protect and be connected more firmly between skin and the assembly grillage through grout access structure, simultaneously, utilizes the location framework to fix a position assembly grillage and the outer circumference of protection to use slip locking device to lock protection skin both sides, structural stability is better.

Drawings

FIG. 1 is a partial cross-sectional view of the present invention;

FIG. 2 is a side elevational view of the mounting plate bracket of the present invention;

FIG. 3 is an elevational view of the inner wall of the protective outer layer of the present invention;

FIG. 4 is a schematic view of the arc positioning mechanism of the present invention;

FIG. 5 is a cross-sectional view of the sliding plug apparatus of the present invention;

FIG. 6 is a front view of the present invention;

FIG. 7 is a schematic view of the assembly of the plugging mechanism of the present invention;

fig. 8 is a schematic view of the mounting position of the frame assembly in the present invention.

In the figure, an assembly plate frame 1, a framework component 2, a fixed outer frame 21, a fixed framework 22, a welding part 23, a U-shaped steel frame connection 24, a steel wire pull net 25, a protective outer layer 3, a sliding insertion device 4, a heat preservation gap 41, an arc-shaped positioning mechanism 42, a guide part 421, an arc-shaped bent part 422, a horizontal part insertion part 423, a diversion groove 424, a positioning step 425, an arc-shaped insertion mechanism 43, a guide insertion part 431, a bent connection part 432, a horizontal insertion part 433, an insertion convex part 434, a support guide groove 44, a grouting channel structure 5, a diversion channel 51, a grouting inlet 52, a diversion part 53, a grout leakage port 54, an inclined pipeline 55, a grout guide pipe 56, a grout discharge pipe 57, a grout discharge port 58, an arc-shaped diversion groove 59, a positioning frame body 6, a vertical part 61, a horizontal part 62, a positioning groove 63, a sliding locking device 7, a longitudinal sliding chute 71, a longitudinal sliding connection piece 72, a transverse steel wire pull rope 73, The transverse sliding chute 74, the longitudinal steel wire pull rope 76, the plugging mechanism 8, the plugging groove 81, the connecting part 82, the plugging convex block 83, the positioning groove 84 and the tension spring 85.

Detailed Description

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

As shown in fig. 1-8, this connect assembled integral wall of fastening, including assembly grillage 1, 1 circumference of assembly grillage is sealed and fixed through skeleton subassembly 2, and assembly grillage 1 both sides are equipped with protection skin 3, be connected through the slip plug device 4 that a plurality of equidistance set up between protection skin 3 and the assembly grillage 1, and assembly grillage 1 inner wall is equipped with the grout access structure 5 that communicates in each slip plug device 4, form heat preservation clearance 41 between the slip plug device 4, 2 circumferences of skeleton subassembly are equipped with the slip locking device 7 that is located the outer wall of protection skin 3 through orientation frame body 6, and protection skin 3 and assembly grillage 1 circumference are fixed in orientation frame body 6. Through set up slip grafting device 4 between assembly grillage 1 and protection skin 3, it is more convenient when the assembly to make assembly grillage 1 and protection skin 3, and the assembly is accomplished the back, utilize grout access structure 5 to inject the mortar in towards slip grafting device 4, it is firm to make to be connected between assembly grillage 1 and the protection skin 3, and simultaneously, utilize slip locking device 7 to lock the outer 3 outer walls of protection, structural strength and stability have not only effectively been improved, and effectively greatly simplified the assembly step, the assembly efficiency is improved.

The positioning frame body 6 is formed by connecting two vertical portions 61 and two horizontal portions 62 end to end, the vertical portions 61 and the horizontal portions 62 are connected end to end in an inserted mode through the inserting mechanisms 8, the inner side of the circumferential direction of the positioning frame body 6 is provided with a positioning groove 63, and the framework assembly 2 is clamped and connected in the circumferential direction of the positioning groove 63. Positioning groove 63 can fix a position skeleton subassembly 2 when the assembly, reduces the relative displacement between orientation framework 6 and the protection skin 3.

Visibly, grafting mechanism 8 is including setting up the inserting groove 81 at vertical portion 61 both ends, inserting groove 81 tip is uncovered, horizontal part 62 both ends are equipped with towards the connecting portion 82 of inserting groove 81 horizontal extension, and connecting portion 82 one side tip is equipped with the grafting lug 83 that corresponds the setting with inserting groove 81, inserting groove 81 one end is equipped with the constant head tank 84 that corresponds the setting with connecting portion 82, and when grafting lug 83 pegs graft in inserting groove 81, connecting portion 82 sets up in constant head tank 84, and horizontal part 62 up end and vertical portion 61 up end keep flushing, be equipped with taut spring 85 between connecting portion 82 and the horizontal part 62. The tension spring 85 is provided here so that the horizontal portion 62 of the positioning frame 6 can be freely extended in accordance with the width of the frame assembly 2, thereby improving the flexibility of fitting.

Obviously, the sliding locking device 7 includes a vertical sliding groove 71 axially arranged on the vertical, a horizontal steel wire pulling rope 73 horizontally arranged is connected in the vertical sliding groove 71 through a plurality of vertical sliding connecting pieces 72, the horizontal steel wire pulling rope 73 is closely attached to the outer protection layer 3 and positions the outer protection layer 3, a horizontal sliding groove 74 is axially arranged on the horizontal portion 62, a vertical steel wire pulling rope 76 vertically arranged is connected in the horizontal sliding groove 74 through a plurality of horizontal sliding connecting pieces 75, the vertical steel wire pulling rope 76 is closely attached to the outer protection layer 3 and positions the outer protection layer 3, and the vertical steel wire pulling rope 76 and the horizontal steel wire pulling rope 73 are vertically staggered. The lateral sliding connector 75 and the longitudinal sliding connector 72 can slide freely as required, and are fixed to the positioning frame 6 by screws.

Further, the sliding insertion device 4 comprises a plurality of arc-shaped positioning mechanisms 42 sequentially arranged on two sides of the assembly plate rack 1 from top to bottom, the protective outer layer 3 is provided with arc-shaped insertion mechanisms 43 which are arranged in a one-to-one correspondence manner with the arc-shaped positioning mechanisms 42 and are used for being inserted into the arc-shaped positioning mechanisms 42 towards one side of the assembly plate rack 1, the end portions of the arc-shaped positioning mechanisms 42 are provided with supporting guide grooves 44 which are horizontally arranged, the supporting guide grooves 44 are communicated with the inner sides of the circumferential direction of the arc-shaped positioning mechanisms 42, the arc-shaped positioning mechanisms 42 are arranged on two sides of the assembly plate rack 1 at equal intervals and are arranged in a plurality of groups, and the head end portions and the tail end portions of the arc-shaped positioning mechanisms 42 which are positioned on the same transverse axis are positioned on the same longitudinal axis. The protective outer layer 3 comprises a filling layer and a coating layer which are connected into a whole, wherein the coating layer 22 is made of a light high-strength non-combustible material, the fire resistance limit can be more than 2 hours and can reach the A-level fire-proof standard, so that the fire-proof requirement of any building can be met, and the coating layer can be used for building heat preservation and is safe and can not cause fire.

Specifically, arc positioning mechanism 42 is including the guide part 421 that is the slope setting, guide part 421 one end is connected with the horizontal part grafting portion 423 that is the level setting through arc kink 422, the axial is equipped with guiding gutter 424 on guide part 421, and guiding gutter 424 both sides are equipped with towards arc kink 422 and horizontal part grafting portion 423 axial extension's location step 425, the one end that location step 425 is close to support guide way 44 is uncovered, the other end is the closed form, guide part 421, arc kink and horizontal part grafting portion 423 integrated into one piece and one side and assembly grillage 1 side fixed connection, the opposite side closely laminates with the outer 3 inner walls of protection. The guiding groove 424 is located at the lower side of the positioning step 425, and the closed end of the positioning step 425 also forms a limiting structure.

Furthermore, the arc-shaped inserting mechanism 43 comprises a guiding inserting part 431 which is obliquely arranged, the guiding inserting part 431 is connected with a horizontal inserting part 433 which is horizontally arranged through a bending connecting part 432, an inserting protruding part 434 which is inserted into the positioning step 425 is axially arranged at the lower sides of the guiding inserting part 431 and the horizontal inserting part 433, the inserting protruding part 434 at the lower side of the horizontal inserting part 433 is correspondingly arranged with the flow guide groove 424, when the inserting protruding part 434 is arranged in the positioning step 425, one side of the arc-shaped inserting mechanism 43 is tightly attached to the assembling plate frame 1, the lower side of the arc-shaped inserting mechanism 42 is tightly attached to the arc-shaped positioning mechanism 42, and the guiding inserting part 431, the bending connecting part 432 and the horizontal inserting part 433 are integrally formed. When inserting protrusion 434 is disposed on positioning step 425, the flow of mortar in guiding groove 424 is not affected, and when guiding groove 424 is filled with mortar, fixing is formed between inserting protrusion 434 and positioning step 425.

More specifically, the grouting passage structure 5 comprises a flow guide passage 51 arranged on the inner wall of the assembly plate frame 1, the flow guide passage 51 is vertically arranged, the upper end of the flow guide passage 51 is provided with a grouting inlet 52 positioned on the upper end surface of the positioning frame body 6, the lower end of the flow guide passage 51 is communicated with a flow guide part 53 arranged at the end part of the flow guide groove 424, an arc-shaped flow guide groove 59 is arranged between the flow guide part 53 and the flow guide passage 51, the arc-shaped flow guide groove 59 and the flow guide part 53 are communicated with each other, the flow guide part 53 is communicated with the flow guide groove 424, one end of the flow guide groove 424, which is far away from the flow guide part 53, is provided with a grout leakage port 54, the grout leakage port 54 is communicated with the arc-shaped flow guide groove 59 positioned at the end part of the arc-shaped positioning mechanism 42 adjacent to the lower end through an inclined pipeline 55, and the grout leakage port 54 in the arc-shaped positioning mechanism 42 positioned at the bottom of the assembly plate frame 1 is connected with a grout discharge pipe 57 horizontally arranged along the assembly plate frame 1 through a vertically arranged grout guide pipe 56, the two ends of the slurry discharge pipe 57 are provided with slurry discharge ports 58, and the slurry discharge ports 58 are positioned on the outer wall of the positioning frame body 6. Mortar is poured from the grouting inlet 52, and when the mortar overflows from the mortar discharge port 58, the mortar is indicated to fill each diversion trench 424, and the grouting is stopped.

In detail, skeleton subassembly 2 is including setting up the fixed frame 21 in the outside of assembly grillage 1 circumference, fixed frame 21 circumference four corners is equipped with fixed skeleton 22, and fixed skeleton 22 both sides are equipped with the weld part 23 of the fixed frame 21 both sides outer wall extension setting of orientation, fixed connection between weld part 23 and the fixed frame 21, and be located and connect 24 through the U-shaped steelframe between the weld part 23 of fixed frame 21 both sides, and be located and link to each other through the steel wire trombone slide 25 between the U-shaped steelframe of coplanar, the width of steel wire trombone slide 25 is the same with the thickness of assembly grillage 1. The framework component 2 is mainly used for enhancing the structural strength of the assembling plate frame 1, the arc-shaped positioning mechanism 42 is arranged on the fixed outer frame 21, and the circumferential clamping of the fixed outer frame 21 is arranged in the positioning groove 63 of the positioning frame body 6.

Preferably, the inclination angles of the guide portion 421 and the guide insertion part 431 are the same, the height of the arc positioning mechanism 42 arranged on the assembly plate rack 1 is smaller than the height of the arc insertion mechanism 43 correspondingly arranged on the inner wall of the protective outer layer 3, the height of the support guide groove 44 on the same horizontal axis is the same, the support guide groove 44 at the end of the arc positioning mechanism 42 on the same horizontal plane is arranged on the upper side of the horizontal insertion part 433 of the adjacent arc positioning mechanism 42, and when the insertion convex part 434 slides in the positioning step 425 on the guide portion 421, no contact is generated between one end of the insertion convex part 434 and the support guide groove 44. This arrangement prevents the arc insertion mechanism 43 from colliding with the arc positioning mechanism 42 during assembly.

In summary, the principle of the present embodiment is: during assembly, firstly, the inserting convex part 434 at the lower end of the horizontal part inserting part 423 is placed in the supporting guide groove 44 and faces the arc-shaped positioning mechanism 42, until the inserting convex part 434 completely enters the positioning step 425, at the moment, the framework component 2 is used for circumferentially fixing the assembling plate frame 1 and the protective outer layer 3, then the positioning frame body 6 is used for positioning the fixed outer frame 21, the outer wall of the protective outer layer 3 is locked through the sliding locking device 7, at the moment, mortar is injected through the grouting inlet 52, when the mortar overflows from the mortar discharging port 58, the mortar is full of each diversion trench 424, at the moment, grouting is stopped, the grouting inlet 52 and the mortar discharging port 58 are sealed, and assembly is completed.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the assembling plate frame 1, the frame component 2, the fixed outer frame 21, the fixed frame 22, the welding part 23, the U-shaped steel frame connection 24, the steel wire netting 25, the protective outer layer 3, the sliding insertion device 4, the heat insulation gap 41, the arc-shaped positioning mechanism 42, the guide part 421, the arc-shaped bent part 422, the horizontal part insertion part 423, the guiding groove 424, the positioning step 425, the arc-shaped insertion mechanism 43, the guide insertion part 431, the bent connection part 432, the horizontal insertion part 433, the insertion projection 434, the support guide groove 44, the grouting channel structure 5, the guiding channel 51, the grouting inlet 52, the guiding part 53, the grout outlet 54, the inclined pipeline 55, the grout guide pipe 56, the grout discharge pipe 57, the grout discharge port 58, the arc-shaped guiding groove 59, the positioning frame body 6, the vertical part 61, the horizontal part 62, the positioning groove 63, the sliding locking device 7, the longitudinal sliding groove 71, the longitudinal sliding connection 72, and the like are more widely used herein, The terms transverse wire rope 73, transverse sliding groove 74, transverse sliding connection 75, longitudinal wire rope 76, plug-in mechanism 8, plug-in groove 81, connecting part 82, plug-in projection 83, positioning slot 84, tension spring 85, etc., but do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (7)

1. An assembled integrated wall with fastening connection comprises an assembly plate frame (1), wherein the assembly plate frame (1) is circumferentially sealed and fixed through a framework component (2), protective outer layers (3) are arranged on two sides of the assembly plate frame (1), it is characterized in that the protective outer layer (3) is connected with the assembly plate frame (1) through a plurality of sliding plug-in devices (4) which are arranged at equal intervals, and the inner wall of the assembly plate frame (1) is provided with a grouting channel structure (5) communicated with each sliding inserting device (4), a heat insulation gap (41) is formed between the sliding inserting devices (4), a sliding locking device (7) positioned on the outer wall of the protective outer layer (3) is arranged on the framework component (2) in the circumferential direction through a positioning frame body (6), the protective outer layer (3) and the assembling plate frame (1) are circumferentially fixed in the positioning frame body (6); the sliding insertion device (4) comprises a plurality of arc-shaped positioning mechanisms (42) which are sequentially arranged on two sides of the assembly plate frame (1) from top to bottom, arc-shaped insertion mechanisms (43) which are arranged in a one-to-one correspondence manner with the arc-shaped positioning mechanisms (42) and are used for being inserted into the arc-shaped positioning mechanisms (42) are arranged on one side of the assembly plate frame (1) in the direction of the protective outer layer (3), supporting guide grooves (44) which are horizontally arranged are formed in the end portions of the arc-shaped positioning mechanisms (42), the supporting guide grooves (44) are communicated with the inner sides of the arc-shaped positioning mechanisms (42) in the circumferential direction, the arc-shaped positioning mechanisms (42) are arranged on two sides of the assembly plate frame (1) at equal intervals and are arranged in multiple groups, and the head end portions and the tail end portions of the arc-shaped positioning mechanisms (42) which are positioned on the same transverse axis are positioned on the same longitudinal axis; the arc positioning mechanism (42) comprises a guide part (421) which is obliquely arranged, one end of the guide part (421) is connected with a horizontal part inserting part (423) which is horizontally arranged through an arc bending part (422), a flow guide groove (424) is axially arranged on the guide part (421), positioning steps (425) which axially extend towards the arc bending part (422) and the horizontal part inserting part (423) are arranged on two sides of the flow guide groove (424), one end, close to the supporting guide groove (44), of each positioning step (425) is open, the other end of each positioning step is closed, the guide part (421), the arc bending part and the horizontal part inserting part (423) are integrally formed, one side of each positioning step is fixedly connected with the side face of the assembling grillage (1), and the other side of each positioning step is tightly attached to the inner wall of the protecting outer layer (3); arc grafting mechanism (43) including direction grafting portion (431) that is the slope and sets up, direction grafting portion (431) be connected with horizontal grafting portion (433) that is the level and sets up through buckling connecting portion (432), and direction grafting portion (431) and horizontal grafting portion (433) downside axial are equipped with grafting bellying (434) of pegging graft in location step (425), grafting bellying (434) and guiding gutter (424) of horizontal grafting portion (433) downside be and correspond the setting, and when grafting bellying (434) set up in location step (425), arc grafting mechanism (43) one side closely laminates with assembly grillage (1), and closely laminates between downside and arc positioning mechanism (42), direction grafting portion (431), buckle connecting portion (432) and horizontal grafting portion (433) integrated into one piece setting.

2. The assembled integral wall with the fastened connection according to claim 1, wherein the positioning frame body (6) is formed by connecting a vertical part (61) and a horizontal part (62) end to end in pairs, the vertical part (61) and the horizontal part (62) are connected in an inserting manner through an inserting mechanism (8), a positioning groove (63) is formed in the circumferential inner side of the positioning frame body (6), and the framework assembly (2) is clamped and arranged in the positioning groove (63) in the circumferential direction.

3. The assembled and integrated wall with fastening connection as claimed in claim 2, wherein the insertion mechanism (8) comprises insertion grooves (81) provided at both ends of the vertical portion (61), the end part of the insertion groove (81) is open, the two ends of the horizontal part (62) are provided with connecting parts (82) which horizontally extend towards the insertion groove (81), and the end part of one side of the connecting part (82) is provided with an inserting convex block (83) which is arranged corresponding to the inserting groove (81), one end of the inserting groove (81) is provided with a positioning groove (84) which is arranged corresponding to the connecting part (82), when the inserting convex block (83) is inserted into the inserting groove (81), the connecting part (82) is arranged in the positioning groove (84), and the upper end surface of the horizontal part (62) is kept flush with the upper end surface of the vertical part (61), a tension spring (85) is arranged between the connecting part (82) and the horizontal part (62).

4. Joint fastening fabricated integral wall according to claim 3, characterized in that said sliding locking means (7) comprises a longitudinal sliding groove (71) axially arranged on a vertical, the longitudinal sliding chute (71) is internally connected with a horizontal transverse steel wire pull rope (73) through a plurality of longitudinal sliding connecting pieces (72), the transverse steel wire pull rope (73) is tightly attached to the protective outer layer (3) and positions the protective outer layer (3), a transverse sliding groove (74) is axially arranged on the horizontal part (62), and the transverse sliding chute (74) is internally connected with a vertical longitudinal steel wire pull rope (76) through a plurality of transverse sliding connecting pieces (75), the longitudinal steel wire pull rope (76) is tightly attached to the protective outer layer (3) and positions the protective outer layer (3), the longitudinal steel wire pull ropes (76) and the transverse steel wire pull ropes (73) are vertically arranged in a staggered manner.

5. Connect assembled integral wall of fastening of claim 1, characterized in that, grout access structure (5) including set up water conservancy diversion passageway (51) at assembly grillage (1) inner wall, water conservancy diversion passageway (51) be vertical setting and the upper end have be located the grout entry (52) of positioning frame body (6) up end, water conservancy diversion passageway (51) lower extreme and set up intercommunication each other between water conservancy diversion portion (53) of guiding gutter (424) tip, and be equipped with arc guiding gutter (59) between water conservancy diversion portion (53) and the water conservancy diversion passageway (51), arc guiding gutter (59), water conservancy diversion portion (53) between communicate each other, water conservancy diversion portion (53) and guiding gutter (424) between communicate each other, and one end that water conservancy diversion portion (53) was kept away from in water conservancy diversion groove (424) is equipped with hourglass thick liquid mouth (54), leak thick liquid mouth (54) through slope pipeline (55) with be located the adjacent arc positioning mechanism (42) of lower extreme ) Arc guiding gutter (59) of tip are linked together, and leak thick liquid mouth (54) in arc positioning mechanism (42) that are located assembly grillage (1) bottom are connected with row thick liquid pipe (57) along assembly grillage (1) level setting through leading thick liquid pipe (56) of vertical setting, row thick liquid pipe (57) both ends row thick liquid mouth (58) have, and arrange thick liquid mouth (58) and be located positioning frame body (6) outer wall.

6. Connect assembled integral wall of fastening of claim 5, characterized in that, skeleton subassembly (2) including set up at the fixed frame (21) of assembly grillage (1) circumference outside, fixed frame (21) circumference four corners be equipped with fixed skeleton (22), and fixed skeleton (22) both sides be equipped with towards fixed frame (21) both sides outer wall extension set up weld part (23), weld part (23) and fixed frame (21) between fixed connection, and be located and connect (24) through the U-shaped steelframe between the weld part (23) of fixed frame (21) both sides, and be located and link to each other through steel wire netting (25) between the U-shaped steelframe of coplanar, the width of steel wire netting (25) the same with the thickness of assembly grillage (1).

7. The assembled integral wall with the fastened connection as claimed in claim 6, wherein the inclination angles of the guide portion (421) and the guide insertion portion (431) are the same, the heights of the arc-shaped positioning mechanisms (42) arranged on the assembly plate frame (1) are smaller than the heights of the arc-shaped insertion mechanisms (43) correspondingly arranged on the inner wall of the protective outer layer (3), the height of the support guide grooves (44) on the same horizontal axis is the same, the support guide grooves (44) at the ends of the arc-shaped positioning mechanisms (42) on the same horizontal plane are arranged on the upper sides of the horizontal insertion portions (433) of the adjacent arc-shaped positioning mechanisms (42), and when the insertion convex portion (434) slides in the positioning step (425) on the guide portion (421), no contact is generated between one end of the insertion convex portion (434) and the support guide groove (44).

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