CN214220351U

CN214220351U - Energy-saving assembled building wall

Info

Publication number: CN214220351U
Application number: CN202023111570.8U
Authority: CN
Inventors: 王志鹏; 宫玉乐; 谭永泉; 王纪伟
Original assignee: Tianjin Tianzhu Haopeng Industrial Construction Co ltd
Current assignee: Tianjin Tianzhu Haopeng Industrial Construction Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-09-17
Anticipated expiration: 2030-12-22

Abstract

The utility model discloses an energy-saving assembled building wall, which comprises a first wallboard and thin steel bars, wherein one side of the first wallboard is connected with thick steel bars, one end of each thick steel bar is sleeved with a steel bar sleeve, and one end of each steel bar sleeve is connected with a second wallboard; being close to the draw-in groove the both sides of recess all are connected with the fixture block, be connected with the spring between the fixture block, the dressing trough that permeates has all been seted up to one side of first butt joint board and second butt joint board, the internal wall at the dressing trough that permeates is fixed to the thin steel bar. This energy-saving assembled building wall, be provided with butt joint piece and butt joint groove, when the wall area is not enough, need splice and increase the wall area, can install two sets of first wallboards and second wallboard respectively and accomplish the back, aim at the butt joint groove of first butt joint board one side with the butt joint piece of second butt joint board one side from last down inserting, align up to the upper and lower both sides edge of first butt joint board and second butt joint board, enlarge the area concatenation of wall body into original twice, the concatenation of being convenient for.

Description

Energy-saving assembled building wall

Technical Field

The utility model relates to a building material technical field specifically is an energy-saving assembly type building wall.

Background

The building is formed by assembling prefabricated parts and components on a construction site, is called as an assembly type building, and is divided into five types of building block buildings, plate buildings, box buildings, framework plate buildings, lifting plate and rise building and the like according to the form and construction method of prefabricated components.

Most energy-saving assembled building wall bodies on the market at present are inconvenient to install and butt joint, and are inconvenient for pouring cement paste for fixation, so that the existing energy-saving assembled building wall bodies are improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving assembled building wall to solve the most installation of being not convenient for of the energy-saving assembled building wall in the existing market that above-mentioned background art provided, the butt joint of being not convenient for pours the fixed problem of grout not convenient for.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving assembly type building wall comprises a first wallboard and thin steel bars, wherein one side of the first wallboard is connected with thick steel bars, one end of each thick steel bar is sleeved with a steel bar sleeve, and one end of each steel bar sleeve is connected with a second wallboard;

the top of the second wallboard close to the thick steel bar is provided with a thread groove, a sealing sleeve is connected between the thread groove and the thick steel bar, one sides of the sealing sleeve and the steel bar sleeve are both provided with a slurry permeating hole, and one end of the sealing sleeve is provided with a hexagonal fastening groove;

one side of each of the first wall plate and the second wall plate is connected with an inserting block, one side of each inserting block is connected with a first butt joint plate, one side of each first butt joint plate is provided with a butt joint groove, a second butt joint plate is embedded in each butt joint groove, and one side of each second butt joint plate is connected with a butt joint block;

the inserting grooves are formed in the two sides of the inserting block, the grooves are formed in one side of the inserting block, the clamping blocks are connected to the two sides of the grooves close to the clamping grooves, springs are connected between the clamping blocks, the grout permeating grooves are formed in the first butt joint plate and one side of the second butt joint plate, and the thin steel bars are fixed on the inner wall of the grout permeating grooves.

Preferably, sliding connection is adopted between the thick steel bars and the steel bar sleeve, and the grout permeating holes are uniformly distributed on the surface of the steel bar sleeve in an annular array mode.

Preferably, the sealing sleeve is in threaded connection with the thread groove, and the sealing sleeve is in sliding connection with the thick steel bar.

Preferably, a telescopic structure is formed between the clamping blocks through springs, the overall dimension of the clamping blocks is matched with the internal dimension of the clamping grooves, the clamping grooves are symmetrically distributed on two sides of the slot in a pairwise mode, and the inserting blocks are in sliding connection with the slot.

Preferably, the butt joint block and the butt joint groove are both in a dovetail shape, and the butt joint block and the butt joint groove are in sliding connection.

Preferably, the included angle between the slurry permeating groove and the first wallboard is 45 degrees, and the thin steel bars are distributed on two sides of the slurry permeating groove in a zigzag manner.

Compared with the prior art, the beneficial effects of the utility model are that: this energy-saving assembled building wall:

1. arranging a thick steel bar and a steel bar sleeve, aligning the thick steel bar on one side of a first wall plate with the steel bar sleeve on one side of a second wall plate, then inserting the thick steel bar into the steel bar sleeve, aligning a slot on one side of a first butt joint plate or a second butt joint plate with an insert block on one side of the first wall plate and the second wall plate, enabling the insert block to enter the slot, extruding a spring into a groove by a fixture block, and then extruding the spring into the groove until the fixture block moves to the position of the fixture groove, the fixture block loses extrusion, resetting under the action of spring force, entering the fixture groove for clamping, connecting the first wall plate with the second wall plate, and facilitating installation;

2. the butt joint blocks and the butt joint grooves are arranged, when the area of the wall is insufficient, the wall needs to be spliced to increase the area of the wall, after two groups of first wall boards and second wall boards are respectively installed, the butt joint blocks on one side of the second butt joint board are aligned with the butt joint grooves on one side of the first butt joint board and inserted from top to bottom until the edges of the upper side and the lower side of the first butt joint board are aligned with the edges of the second butt joint board, the area of the wall is spliced and expanded to be twice of the original area, and splicing is facilitated;

3. the cement paste inlet pipe is provided with a paste through hole and a paste through groove, fresh cement paste is conveyed to the inside of the quasi-thread groove through a pipeline, the cement paste enters the space between the first wall plate and the second wall plate to be automatically filled, the cement paste can also be connected with the other group of the first wall plate and the second wall plate from the paste through groove, meanwhile, the cement paste can be filled in the paste through hole to play a role in reinforcement, the thick steel bar, the steel bar sleeve and the thin steel bar are positioned in the cement paste to serve as a framework, when the cement paste is input, the sealing sleeve is aligned to the thread groove, the sealing sleeve is rotated through the hexagonal fastening groove at one end of the sealing sleeve, the thread sliding is formed between the sealing sleeve and the thread groove, meanwhile, the hollow part of the sealing sleeve is aligned to the thick steel bar, the sliding is started between the sealing sleeve and the thick steel bar along with the thread sliding of the sealing sleeve, the cement paste which enters the hollow part in the sealing sleeve gradually flows out of the paste through hole along with the reduction of the gap between the sealing sleeve and the thick steel bar, and after the cement paste is solidified, the spliced multiple groups of first wall plates and the second wall plates are firmly fixed through the cement paste.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic view of a first wall panel of the present invention;

fig. 3 is a schematic view of the second wall panel of the present invention;

FIG. 4 is a schematic view of the enlarged structure of the part A of the present invention;

FIG. 5 is a schematic view of the enlarged structure of the part B of the present invention;

fig. 6 is a schematic view of the local enlarged structure at the position C of the present invention.

In the figure: 1. a first wall panel; 2. coarse steel bars; 3. a reinforcing steel bar sleeve; 4. a second wall panel; 5. a slurry penetration hole; 6. a thread groove; 7. sealing sleeves; 8. a hexagonal fastening groove; 9. inserting a block; 10. a first butt plate; 11. a slot; 12. a card slot; 13. a groove; 14. a spring; 15. a clamping block; 16. a butt joint block; 17. a second butt joint plate; 18. a butt joint groove; 19. a slurry permeating groove; 20. and (5) thin steel bars.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an energy-saving assembly type building wall comprises a first wall plate 1, thick steel bars 2, steel bar sleeves 3, a second wall plate 4, slurry through holes 5, threaded grooves 6, a sealing sleeve 7, a hexagonal fastening groove 8, an inserting block 9, a first butt joint plate 10, an inserting groove 11, a clamping groove 12, a groove 13, a spring 14, a clamping block 15, a butt joint block 16, a second butt joint plate 17, a butt joint groove 18, a slurry through groove 19 and thin steel bars 20, wherein one side of the first wall plate 1 is connected with the thick steel bars 2, the thick steel bars 2 are in sliding connection with the steel bar sleeves 3, the slurry through holes 5 are uniformly distributed on the surface of the steel bar sleeves 3 in an annular array mode, the thick steel bars 2 on one side of the first wall plate 1 are aligned with the steel bar sleeves 3 on one side of the second wall plate 4, then the thick steel bars 2 are inserted into the steel bar sleeves 3, installation is convenient, cement slurry can be filled in the slurry through holes 5 to play a reinforcing role, one end of each thick steel bar sleeve 3, one end of the steel bar sleeve 3 is connected with a second wallboard 4;

the top of the second wall plate 4 close to the thick steel bar 2 is provided with a thread groove 6, a sealing sleeve 7 is connected between the thread groove 6 and the thick steel bar 2, the sealing sleeve 7 is in threaded connection with the thread groove 6, the sealing sleeve 7 is in sliding connection with the thick steel bar 2, the sealing sleeve 7 is rotated through the hexagonal fastening groove 8 at one end of the sealing sleeve 7, the sealing sleeve 7 and the thread groove 6 slide in a thread way, meanwhile, the hollow part of the sealing sleeve 7 can be aligned to the thick steel bar 2, the sealing sleeve 7 and the thick steel bar 2 start to slide along with the sliding of the thread of the sealing sleeve 7, the cement slurry entering the hollow part of the sealing sleeve 7 gradually flows out from the slurry through hole 5 along with the reduction of the gap between the sealing sleeve 7 and the thick steel bar 2 until the sealing sleeve 7 completes sealing, one sides of the sealing sleeve 7 and the reinforcing steel bar sleeve 3 are both provided with a slurry permeating hole 5, and one end of the sealing sleeve 7 is provided with a hexagonal fastening groove 8;

the wall body splicing structure is characterized in that one sides of the first wall plate 1 and the second wall plate 4 are both connected with an inserting block 9, one side of the inserting block 9 is connected with a first butt joint plate 10, one side of the first butt joint plate 10 is provided with a butt joint groove 18, a second butt joint plate 17 is embedded in the butt joint groove 18, one side of the second butt joint plate 17 is connected with a butt joint block 16, the butt joint block 16 and the butt joint groove 18 are both in a dovetail shape, the butt joint block 16 is in sliding connection with the butt joint groove 18, the butt joint block 16 on one side of the second butt joint plate 17 is aligned with the butt joint groove 18 on one side of the first butt joint plate 10 and inserted from top to bottom until the edges of the upper side and the lower side of the first butt joint plate 10 and the second butt joint plate 17 are aligned, the area of the wall body is spliced and expanded to be twice as large as that the wall body is convenient to splice;

one side of each of the first butt plate 10 and the second butt plate 17 close to the insert block 9 is provided with a slot 11, two sides of each slot 11 are provided with a slot 12, one side of the insert block 9 is provided with a groove 13, two sides of the groove 13 close to the slot 12 are connected with fixture blocks 15, the fixture blocks 15 form a telescopic structure through springs 14, the appearance size of each fixture block 15 is matched with the inner size of the slot 12, the slot 12 is symmetrically distributed on two sides of the slot 11 in a pairwise manner, the insert block 9 is in sliding connection with the slot 11, the fixture blocks 15 are extruded to firstly extrude the springs 14 into the grooves 13 until the fixture blocks 15 move to the slot 12, the fixture blocks 15 lose extrusion, are reset under the action of the springs 14 to enter the slots 12 for clamping, the first wall plate 1 is connected with the second wall plate 4 for convenient installation, the springs 14 are connected between the fixture blocks 15, one side of each of the first butt plate 10 and one side of the second butt plate 17 are provided with slurry permeating slots 19, pass through the contained angle between dressing trough 19 and the first wallboard 1 and be 45, and thin reinforcing bar 20 uses the zigzag distribution in the both sides of passing through dressing trough 19, pass through the pipeline with fresh grout and toward 6 inside transport of accurate thread groove, make grout get into automatic packing between first wallboard 1 and the second wallboard 4, grout also can be followed and passed through dressing trough 19 and another first wallboard 1 of group, be connected between the second wallboard 4, treat that grout solidifies the back, firmly fix through grout between the first wallboard 1 of multiunit after the concatenation and the second wallboard 4, thin reinforcing bar 20 is fixed at the inner wall of passing through dressing trough 19.

The working principle is as follows: when the energy-saving assembled building wall is used, firstly, the thick steel bars 2 on one side of the first wall board 1 are aligned with the steel bar sleeves 3 on one side of the second wall board 4, then the thick steel bars 2 are inserted into the steel bar sleeves 3, then the slot 11 on one side of the first butt joint board 10 or the second butt joint board 17 is aligned with the insertion blocks 9 on one sides of the first wall board 1 and the second wall board 4, so that the insertion blocks 9 enter the slot 11, then the clamping block 15 is extruded to firstly extrude the spring 14 into the groove 13 until the clamping block 15 moves to the position of the clamping groove 12, the clamping block 15 loses extrusion, the clamping block is reset to enter the clamping groove 12 under the action of the spring 14, the first wall board 1 is connected with the second wall board 4, the installation is convenient, when the wall area is insufficient, the splicing is needed to increase the wall area, after two groups of the first wall board 1 and the second wall board 4 are respectively installed, the butt joint block 16 on one side of the second butt joint board 17 is aligned with the slot 18 on one side of the first butt joint board 10 and inserted downwards from top, until the upper and lower edges of the first butt joint plate 10 and the second butt joint plate 17 are aligned, the area of the wall body is spliced and expanded to be two times of the original area, splicing is convenient, fresh cement paste is conveyed towards the inside of the quasi-threaded groove 6 through a pipeline, the cement paste enters the space between the first wall plate 1 and the second wall plate 4 to be automatically filled, the cement paste can also be connected with the other group of the first wall plate 1 and the second wall plate 4 from the slurry through groove 19, simultaneously, the cement paste can be filled into the slurry through hole 5 to play a reinforcing role, the thick steel bar 2, the steel bar sleeve 3 and the thin steel bar 20 are positioned in the cement paste to serve as a framework, when the cement paste is completely input, the sealing sleeve 7 is aligned to the threaded groove 6, the sealing sleeve 7 is rotated through the hexagonal fastening groove 8 at one end of the sealing sleeve 7, the thread between the sealing sleeve 7 and the threaded groove 6 slides, meanwhile, the hollow part of the sealing sleeve 7 is aligned to the thick steel bar 2, and along with the thread sliding of the sealing sleeve 7, the sealing sleeve 7 and the thick steel bar 2 start to slide, cement paste entering the hollow part of the sealing sleeve 7 gradually flows out of the grout penetration holes 5 along with the reduction of a gap between the sealing sleeve 7 and the thick steel bar 2 until the sealing sleeve 7 is sealed, and after the cement paste is solidified, the spliced multiple groups of first wall plates 1 and second wall plates 4 are firmly fixed through the cement paste.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an energy-saving assembled building wall, includes first wallboard (1) and thin reinforcing bar (20), its characterized in that: one side of the first wallboard (1) is connected with a thick steel bar (2), one end of the thick steel bar (2) is sleeved with a steel bar sleeve (3), and one end of the steel bar sleeve (3) is connected with a second wallboard (4);

a thread groove (6) is formed in the top of the second wallboard (4) close to the thick steel bar (2), a sealing sleeve (7) is connected between the thread groove (6) and the thick steel bar (2), slurry permeating holes (5) are formed in one sides of the sealing sleeve (7) and the steel bar sleeve (3), and a hexagonal fastening groove (8) is formed in one end of the sealing sleeve (7);

one side of each of the first wall plate (1) and the second wall plate (4) is connected with an inserting block (9), one side of each inserting block (9) is connected with a first butt joint plate (10), one side of each first butt joint plate (10) is provided with a butt joint groove (18), a second butt joint plate (17) is embedded in each butt joint groove (18), and one side of each second butt joint plate (17) is connected with a butt joint block (16);

be close to inserted block (9) slot (11) have all been seted up to one side of first butt joint board (10) and second butt joint board (17), draw-in groove (12) have all been seted up to slot (11) both sides, recess (13) have been seted up to inserted block (9) one side, be close to draw-in groove (12) the both sides of recess (13) all are connected with fixture block (15), be connected with spring (14) between fixture block (15), grout groove (19) have all been seted up to one side of first butt joint board (10) and second butt joint board (17), thin reinforcing bar (20) are fixed at the inner wall of grout groove (19).

2. The energy-saving fabricated building wall according to claim 1, wherein: the thick steel bars (2) are in sliding connection with the steel bar sleeve (3), and the slurry permeating holes (5) are uniformly distributed on the surface of the steel bar sleeve (3) in an annular array mode.

3. The energy-saving fabricated building wall according to claim 1, wherein: the sealing sleeve (7) is in threaded connection with the thread groove (6), and the sealing sleeve (7) is in sliding connection with the thick steel bar (2).

4. The energy-saving fabricated building wall according to claim 1, wherein: the clamping blocks (15) form a telescopic structure through springs (14), the overall dimension of the clamping blocks (15) is matched with the internal dimension of the clamping grooves (12), the clamping grooves (12) are symmetrically distributed on two sides of the slot (11) in a pairwise mode, and the inserting blocks (9) are in sliding connection with the slot (11).

5. The energy-saving fabricated building wall according to claim 1, wherein: the butt joint block (16) and the butt joint groove (18) are both in a dovetail shape, and the butt joint block (16) is in sliding connection with the butt joint groove (18).

6. The energy-saving fabricated building wall according to claim 1, wherein: the included angle between the slurry permeating groove (19) and the first wallboard (1) is 45 degrees, and the thin steel bars (20) are distributed on two sides of the slurry permeating groove (19) in a zigzag mode.