CN116290476A

CN116290476A - Composite building wall

Info

Publication number: CN116290476A
Application number: CN202310595264.5A
Authority: CN
Inventors: 李垒
Original assignee: Zhongyi Chengda Construction Group Co ltd
Current assignee: Zhongyi Chengda Construction Group Co ltd
Priority date: 2023-05-25
Filing date: 2023-05-25
Publication date: 2023-06-23
Anticipated expiration: 2043-05-25
Also published as: CN116290476B

Abstract

The application relates to a composite building wall relates to the field of building construction, including plate body one and plate body two, a table wall fixedly connected with that plate body one is close to plate body two assembles the piece, plate body two is close to a table wall of plate body one and has offered and has assembled the groove, assemble the piece and assemble the groove grafting, assemble the lateral wall of piece with all there is the clearance between the lateral wall of assembling the groove, install on the plate body two through supporting tightly thereby assemble the lateral wall of piece and will assemble the locking mechanical system of locking between piece and the plate body two. The application has the effect of comparatively using manpower sparingly to accomplish and assemble the piece and aim at pegging graft with assembling the groove.

Description

Composite building wall

Technical Field

The present application relates to the field of building construction, and in particular to a composite building wall.

Background

The traditional clay brick wall board is troublesome in construction and longer in construction period due to heavy weight, and more construction wastes such as cement ash and the like can be generated in the construction process. Therefore, the traditional clay brick wall board has been gradually replaced by the novel spliced composite building wall board.

A general composite building wall is formed by splicing plates made of various different materials, referring to fig. 1, the composite building wall comprises a first plate body 1 and a second plate body 2, a surface wall of the first plate body 1 is fixedly connected with an assembly block 11, an assembly groove 21 is formed in a surface wall of the second plate body 2, and the assembly block 11 is matched with the assembly groove 21 in shape and size. The assembly block 11 is inserted into the assembly groove 21, and the assembly block 11 is in interference fit with the assembly groove 21, so that the assembly conforming to the building wall is completed.

Because the shapes and sizes of the assembling block 11 and the assembling groove 21 are matched, the assembling block 11 is not easy to align and insert into the assembling groove 21 in the process of inserting the assembling block 11 and the assembling groove 21, and therefore the first plate body 1 or the second plate body 2 needs to be manually moved repeatedly until the assembling block 11 is completely aligned with the assembling groove 21. However, manually moving the first plate 1 or the second plate 2 to fully align the splice block 11 with the splice tray 21 is labor-consuming.

Disclosure of Invention

In order to achieve alignment and insertion of the assembly blocks and the assembly grooves, which saves labor, the application provides a composite building wall.

The application provides a composite building wall adopts following technical scheme:

the utility model provides a composite building wall, includes plate body one and plate body two, a table wall fixedly connected with of plate body one is close to plate body two assembles the piece, a table wall of plate body two is close to plate body one has been seted up and has been assembled the groove, assemble the piece and assemble the groove grafting, assemble the lateral wall of piece with all there is the clearance between the lateral wall of assembling the groove, install on the plate body two through supporting tightly thereby will assemble the locking mechanical system of locking between piece and the plate body two.

Through adopting above-mentioned technical scheme, when needs splice between plate body one and the plate body two, aim at the assembly groove with the piece of assembling and to the direction that is close to plate body two remove plate body one, until the piece of assembling is pegged graft and is got into the assembly inslot. At this time, a gap exists between the side wall of the assembly block and the side wall of the assembly groove, namely the size of the assembly block is smaller than that of the assembly groove, so that the assembly block can be aligned with the assembly groove smoothly and can be spliced with the assembly groove. After the splicing block and the splicing groove are spliced, the side wall of the splicing block is abutted by adjusting the locking mechanism, so that the locking between the first plate body and the second plate body can be completed.

Preferably, the sliding tray is provided on the side wall of the assembly tray, the locking mechanism comprises a locking block inserted in the sliding tray in a sliding manner, a transition cavity is provided in the second plate body, a communication air pipe is communicated between the transition cavity and the sliding tray, a vent hole communicated with the transition cavity is provided on a surface wall of the second plate body, and a plugging piece for plugging the vent hole is detachably connected to the vent hole.

Through adopting above-mentioned technical scheme, dismantle the shutoff piece of air vent department, later let in gas through the air vent to the transition cavity in, the internal atmospheric pressure of transition cavity increases this moment. The air flow in the transition cavity enters the sliding groove along the communicating air pipe, so that the locking block can be pushed by the air flow to move along the sliding groove towards the direction closer to the assembling block until the locking block abuts against the assembling block, and then the locking between the assembling block and the second plate body is completed, and the operation is simple and convenient.

Preferably, each side wall of the assembling groove is provided with a sliding groove, and each sliding groove is in sliding connection with a locking block.

Through adopting above-mentioned technical scheme, all be equipped with the locking piece around the piece of assembling, when every locking piece all to the in-process that is close to the direction removal of assembling the piece, a plurality of locking pieces promote the piece of assembling and center in the central part of assembling the groove gradually, do benefit to the comparatively level and smooth that the lateral wall of plate body one and the lateral wall of plate body two were assembled.

Preferably, the bottom wall of the assembling groove is provided with a mounting hole which is used for connecting the assembling groove with the transition cavity, a piston airbag block is inserted in the transition cavity in a sliding manner, one end, far away from the transition cavity, of the piston airbag block penetrates through the mounting hole and stretches into the assembling groove, and each side wall of one end, placed in the transition cavity, of the piston airbag block is tightly attached to each corresponding side wall of the transition cavity.

Through adopting above-mentioned technical scheme, when the assembly piece inserts the groove of assembling, the piston gasbag piece is close to a table wall of assembly piece to the first conflict of assembly piece, still has the clearance between plate body one and the plate body two this moment. Then the first plate body is knocked in the direction close to the second plate body, the first plate body gradually moves towards the direction close to the second plate body, and the assembling block pushes the piston airbag block to gradually move towards the direction close to the inside of the transition cavity. The air pressure in the transition cavity is increased, so that the air flow in the transition cavity gradually enters the sliding groove along the communicating air pipe, and the air flow pushes the locking block to gradually move towards the direction close to the assembling block. When the plate body is gradually pushed in the direction close to the second plate body, each locking block can automatically move in the direction close to the assembly blocks under the influence of air flow, so that time and labor are saved, and resources are saved.

Preferably, each side wall of the assembly block is provided with a locking groove, one locking groove corresponds to one locking block, and the locking groove is used for being spliced with the locking block.

Through adopting above-mentioned technical scheme, when the plate body one and the two one sides that are close to each other of plate body are hugged closely each other, every locking piece all aims at corresponding locking groove, lets in gas in the transition cavity through the air vent this moment, and the locking piece can continue to be close to the direction motion of assembling the piece, until every locking piece all pegging graft with corresponding locking groove. Thus, the assembly between the first plate body and the second plate body is reinforced.

Preferably, a surface wall of the second plate body, which is close to the first plate body, is provided with grooves corresponding to the number of the communication air pipes, each of the grooves is formed in one section of the communication air pipe, a limiting mechanism is connected to the second plate body and comprises limiting blocks fixed in each groove, one side of each limiting block is hinged to a clamping rod piece, a torsion spring is connected between each limiting block and the corresponding clamping rod piece, and one end of each clamping rod piece is clamped with the corresponding communication air pipe between each limiting block.

Through adopting above-mentioned technical scheme, rotate the clamp member, make the clamp member to be close to or keep away from the tracheal direction rotation of intercommunication, so can adjust the mediation of intercommunication trachea or not. When the first plate body and the second plate body are not mutually spliced, the limiting mechanism intercepts the communicated air pipe, and air is introduced into the transition cavity through the air vent, so that the piston air bag block is conveniently pushed by air flow to gradually move into the splicing groove. When the first plate body is spliced with the second plate body, the limiting mechanism is adjusted so that the communicating air pipe is dredged, and at the moment, air can be introduced into the sliding groove through the communicating air pipe, so that the locking block can move smoothly in a direction close to the splicing block.

Preferably, the clamping rod piece comprises a clamping section with one end used for compressing the communication air pipe and a bearing section with the other end, a surface wall of the first plate body, which is close to the second plate body, is fixedly connected with a mounting block corresponding to the number of the clamping rod pieces, and when the assembling block stretches into the assembling groove and contacts with one surface of the piston air bag block, which is close to the assembling block, each mounting block is abutted against the bearing section so that the clamping section is separated from the corresponding communication air pipe.

Through adopting above-mentioned technical scheme, at the assembly in-process of plate body one with plate body two, when the piece is stretched into and is assembled the inslot and conflict piston gasbag piece is close to one surface of assembling the piece to the piece of assembling, every installation piece all stretches into corresponding recess in and conflict and accept the section rotation. The bearing section rotates to drive the clamping section to gradually move in the direction away from the communicating air pipe, and at the moment, the communicating air pipe recovers ventilation. Namely, in the process of assembling the first plate body and the second plate body, the communicated air pipe can automatically recover ventilation, so that the method is rapid and convenient.

Preferably, the blocking piece comprises a blocking block in threaded connection with the vent hole.

Through adopting above-mentioned technical scheme, rotate the shutoff piece and can accomplish the dismantlement and the installation of shutoff piece and air vent department, easy operation is convenient.

In summary, the present application includes at least one of the following beneficial technical effects:

the size of the assembly block is smaller than that of the assembly groove, so that the assembly block can be aligned with the assembly groove smoothly and can be spliced with the assembly groove, and the side wall of the assembly block is abutted by the adjustment locking mechanism, so that the locking between the first plate body and the second plate body can be completed;

the plurality of locking blocks push the assembling blocks to gradually center in the center of the assembling groove, so that the side wall of the first plate body and the side wall of the second plate body are more flat;

namely, in the process of assembling the first plate body and the second plate body, the communication air pipe can automatically recover ventilation.

Drawings

Fig. 1 is a schematic diagram of a structure embodying the background art.

Fig. 2 is a schematic diagram of the overall structure of a composite building wall embodying the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a communication air pipe according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a first and second embodiment of the present application in a non-spliced state.

Fig. 5 is a schematic structural view showing a limiting mechanism according to an embodiment of the present application.

Reference numerals illustrate: 1. a first plate body; 11. assembling blocks; 111. a locking groove; 12. a mounting block; 2. a second plate body; 21. an assembling groove; 211. a sliding groove; 212. a mounting hole; 22. a transition cavity; 23. a vent hole; 24. a groove; 3. a locking mechanism; 31. a locking block; 32. a communicating air pipe; 33. a piston airbag block; 4. a block; 5. a restriction mechanism; 51. a limiting block; 52. a rotating shaft; 53. a clamping rod piece; 531. a clamping section; 532. the receiving section.

Detailed Description

The present application is described in further detail below in conjunction with fig. 2-5.

The embodiment of the application discloses a composite building wall. Referring to fig. 2 and 3, the composite building wall comprises a first plate body 1 and a second plate body 2 positioned at two sides of the first plate body 1, wherein an assembly block 11 is formed on the upper surface wall and the lower surface wall of the first plate body 1 in a uniform and integrated manner, an assembly groove 21 is formed on the surface wall, which is close to the two second plate bodies 2, of the first plate body, one assembly block 11 corresponds to one assembly groove 21, and the assembly block 11 is spliced with the assembly groove 21.

The cross section area of the assembling groove 21 is larger than that of the assembling block 11, and after the assembling block 11 is spliced with the assembling groove 21, gaps exist between the side walls of the assembling block 11 and the corresponding side walls of the assembling groove 21. A locking mechanism 3 which locks the assembly block 11 and the second plate body 2 by abutting each side wall of the assembly block 11 is arranged in each second plate body 2.

A transition cavity 22 is formed in the second plate body 2, a vent hole 23 communicated with the transition cavity 22 is formed in one side wall of the second plate body 2, and a plugging piece for sealing the vent hole 23 is detachably connected to the vent hole 23. The closure comprises a closure block 4, the closure block 4 being threadedly connected to the vent hole 23 to seal the vent hole 23.

Each side wall of the assembling groove 21 is provided with a sliding groove 211, the locking mechanism 3 comprises a locking block 31 which is in sliding connection with each sliding groove 211, a connecting air pipe 32 is arranged between the bottom wall of each sliding groove 211 and the transition cavity 22, one end of each connecting air pipe 32 is communicated with the transition cavity 22, and the other end of each connecting air pipe 32 is communicated with the corresponding sliding groove 211.

The air is inflated into the transition cavity 22 through the vent holes 23, the air pressure in the transition cavity 22 is increased, at this time, the air flow in the transition cavity 22 enters the sliding groove 211 along each communication air pipe 32, and each locking block 31 is gradually moved away from the inside of the sliding groove 211 by the air flow in the sliding groove 211. So every locking piece 31 all stretches out sliding tray 211 gradually, and every locking piece 31 all around the piece 11 all gradually to being close to the direction removal of piece 11, at this in-process, four locking pieces 31 have the effect of centering the calibration to piece 11, do benefit to the comparatively neat that plate body 1 and plate body two 2 were assembled. When each locking block 31 abuts against the corresponding side wall of the assembling block 11, the assembling block 11 and the second plate body 2 are locked.

Referring to fig. 3 and 4, the bottom wall of the assembly groove 21 is provided with a mounting hole 212, the mounting hole 212 communicates the assembly groove 21 with the transition cavity 22, the locking mechanism 3 further comprises a piston airbag block 33 which is in sliding connection with the transition cavity 22, the upper end of the piston airbag block 33 extends into the assembly groove 21, and the piston airbag block 33 protrudes out of the bottom wall of the assembly groove 21.

In the process of assembling the first plate body 1 and the second plate body 2, the assembling block 11 on the first plate body 1 is aligned and inserted into the assembling groove 21 of the second plate body 2, and the assembling groove 21 is larger than the assembling block 11 in size, so that the assembling block 11 is easy to insert into the assembling groove 21. After the splice block 11 is inserted into the splice groove 21, the splice block 11 first abuts against the upper surface of the piston airbag block 33, and the block 4 is in a state of sealing the vent hole 23.

The first plate body 1 is knocked in the direction approaching to the second plate body 2, the first plate body 1 drives the second plate body 2 to gradually press down the piston airbag block 33, so that the piston airbag block 33 gradually moves into the transition cavity 22, the air pressure in the transition cavity 22 is increased, and at the moment, the air flow pushes each locking block 31 to gradually move towards the direction approaching to the assembling block 11 through each communicating air pipe 32. When the side walls of the first plate body 1 and the second plate body 2 close to each other are tightly attached to each other, each locking block 31 abuts against the corresponding side wall of the assembly block 11, and locking is completed between the first plate body 1 and the second plate body 2.

In order to further strengthen the connection between the first plate body 1 and the second plate body 2, each side wall of the assembly block 11 is provided with a locking groove 111, and one locking block 31 corresponds to one locking groove 111. When the side walls of the first plate body 1 and the second plate body 2, which are close to each other, are tightly attached to each other, the air is ventilated into the transition cavity 22, and at the moment, the locking blocks 31 are continuously moved towards the direction close to the assembling blocks 11 under the influence of air pressure, and each locking block 31 is gradually inserted into the corresponding locking groove 111, so that the connection between the first plate body 1 and the second plate body 2 is reinforced.

When the first plate body 1 and the second plate body 2 are not spliced, in order to adjust one end of the piston airbag block 33 to gradually enter the splicing groove 21, ventilation is carried out to the transition cavity 22 through the ventilation hole 23, and the air flow pushes the piston airbag block 33 to rise. In order to reduce the occurrence of the displacement of the locking block 31 caused by the air flow entering the sliding groove 211 along the communication air pipe 32, the second plate body 2 is connected with a limiting mechanism 5 for intercepting the communication air pipe 32.

When the control air flow is needed to push the piston airbag block 33 to move, each communication air pipe 32 is stopped by the limiting mechanism 5. When ventilation into the slide groove 211 is required to control the movement of the lock block 31, the air passage 32 may be restored by adjusting the restriction mechanism 5.

Referring to fig. 4 and 5, a surface wall of the second plate body 2 provided with the assembling groove 21 is provided with four grooves 24, one groove 24 corresponds to one communication air pipe 32, each communication air pipe 32 passes through the corresponding groove 24 when being arranged, and one section of the communication air pipe 32 is arranged in the groove 24.

The restriction mechanism 5 includes a restriction block 51 fixedly attached in each groove 24, and each communication air tube 32 contacts the upper surface of the corresponding restriction block 51. The upper surface of the limiting block 51 is rotatably connected with a rotating shaft 52, the rotating shaft 52 is fixedly connected with a clamping rod piece 53, the rotating shaft 52 is sleeved with a torsion spring, one end of the torsion spring is fixed with the limiting block 51, and the other end of the torsion spring is fixed with the clamping rod piece 53. One end of the clamping rod piece 53 is a clamping section 531, the other end is a receiving section 532, and when the torsion spring is in a normal state, the clamping end and the limiting block 51 clamp the corresponding communication air pipe 32 so as to cut off the communication air pipe 32.

Four mounting blocks 12 are fixedly connected to a surface wall of the first plate body 1, which is close to the second plate body 2, and one mounting block 12 is opposite to one groove 24. When the assembling blocks 11 enter the assembling groove 21 and abut against the upper surface of the piston airbag block 33, each mounting block 12 presses down one end of the corresponding receiving section 532, and at this time, each clamping end rotates upwards and is separated from the communicating air pipe 32, and the communicating air pipe 32 is restored to dredging.

The caliber of the groove 24 is far greater than the cross-sectional area of the mounting blocks 12, so that each mounting block 12 can smoothly enter the corresponding groove 24 and abut against the receiving section 532 in the process of entering the assembling groove 21 by the assembling block 11, and special attention is not required to align the mounting blocks 12 with the mounting grooves.

The implementation principle of the composite building wall body of the embodiment of the application is as follows: the first plate 1 is placed above the second plate 2, the assembly block 11 is controlled to be aligned with the assembly groove 21, and then the first plate 1 is moved downwards until the assembly block 11 is inserted into the assembly groove 21 and abuts against the upper surface of the piston airbag block 33. At this time, each mounting block 12 abuts against the receiving section 532 of the limiting mechanism 5, and the clamping section 531 in each limiting mechanism 5 rotates to be separated from the communicating air pipe 32, so that the communicating air pipe 32 is restored to be dredged.

The first plate body 1 is knocked in a direction approaching the second plate body 2, the second plate body 2 gradually descends to press the piston airbag block 33, and the piston airbag hole gradually descends to increase the air pressure in the transition cavity 22. The air flow pushes each locking block 31 to gradually separate from the sliding groove 211 and move towards the direction approaching to the assembling block 11, and when the surfaces of the first plate body 1 and the second plate body 2 approaching to each other are mutually clung, the four locking blocks 31 push the assembling block 11 to be centered.

The plugging block 4 is rotated to separate the plugging block 4 from the vent hole 23, and then the air is ventilated into the transition cavity 22 through the vent hole 23, at the moment, the pressure of the piston airbag block 33 by the assembling block 11 is difficult to rise, the air flow enters the sliding groove 211 through the communication air pipe 32 and continuously pushes the locking blocks 31 to move until each locking block 31 is spliced with the corresponding locking groove 111, and thus the assembling between the adjacent first plate body 1 and the adjacent second plate body 2 is completed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a composite building wall, includes plate body one (1) and plate body two (2), a table wall fixedly connected with that plate body one (1) is close to plate body two (2) assembles piece (11), a table wall that plate body two (2) are close to plate body one (1) has seted up and has assembled groove (21), its characterized in that: the assembly block (11) is inserted into the assembly groove (21), gaps exist between the side wall of the assembly block (11) and the side wall of the assembly groove (21), and the second plate body (2) is provided with a locking mechanism (3) which locks the assembly block (11) and the second plate body (2) by abutting against the side wall of the assembly block (11); the utility model discloses a sealing device for a building board, including a board body (2), a plurality of grooves (21) are formed in the board body, sliding grooves (211) are formed in the side walls of the assembling grooves (21), locking mechanisms (3) comprise locking blocks (31) which are connected with the sliding grooves (211) in a sliding mode, transition cavities (22) are formed in the board body (2), communication air pipes (32) are communicated between the transition cavities (22) and the sliding grooves (211), vent holes (23) communicated with the transition cavities (22) are formed in a surface wall of the board body (2), and sealing pieces for sealing the vent holes (23) are detachably connected at the vent holes (23).

2. A composite construction wall according to claim 1, wherein: each side wall of the assembling groove (21) is provided with a sliding groove (211), and each sliding groove (211) is in sliding insertion connection with a locking block (31).

3. A composite construction wall according to claim 1 or 2, wherein: the bottom wall of the assembly groove (21) is provided with a mounting hole (212) which is used for connecting the assembly groove (21) with the transition cavity (22), a piston airbag block (33) is inserted in the transition cavity (22) in a sliding mode, one end, far away from the transition cavity (22), of the piston airbag block (33) penetrates through the mounting hole (212) and stretches into the assembly groove, and each side wall of one end, placed in the transition cavity (22), of the piston airbag block (33) is tightly attached to each corresponding side wall of the transition cavity (22).

4. A composite construction wall according to claim 3, wherein: each side wall of the assembly block (11) is provided with a locking groove (111), one locking groove (111) corresponds to one locking block (31) and the locking groove (111) is used for being inserted into the locking block (31).

5. A composite construction wall according to claim 4, wherein: the utility model discloses a board body II (2) is close to a table wall of board body I (1) and has seted up with recess (24) that intercommunication trachea (32) quantity corresponds, every in corresponding recess (24) are all arranged in to one section of intercommunication trachea (32), be connected with limiting mechanism (5) on board body II (2), limiting mechanism (5) are including fixing limiting block (51) in every recess (24), every one side of limiting block (51) all articulates there is clamp rod spare (53), and is connected with the torsional spring between limiting block (51) and clamp rod spare (53), presss from both sides between one end and the limiting block (51) of clamp rod spare (53) with corresponding intercommunication trachea (32) clamp.

6. A composite construction wall according to claim 5, wherein: the clamping rod piece (53) comprises a clamping section (531) with one end used for compressing the communication air pipe (32), and further comprises a bearing section (532) with the other end, a surface wall of the first plate body (1) close to the second plate body (2) is fixedly connected with mounting blocks (12) corresponding to the clamping rod piece (53), when the assembling blocks (11) extend into the assembling groove (21) and contact with one surface of the piston air bag block (33) close to the assembling blocks (11), each mounting block (12) is abutted against the bearing section (532) so that the clamping section (531) is separated from the corresponding communication air pipe (32).

7. A composite construction wall according to claim 1, wherein: the blocking piece comprises a blocking block (4) in threaded connection with the vent hole (23).