CN114718222B

CN114718222B - Green energy-saving assembled building wall component

Info

Publication number: CN114718222B
Application number: CN202210341724.7A
Authority: CN
Inventors: 尹志国; 张优智; 张建磊; 王凌君
Original assignee: Xian Shiyou University
Current assignee: Xian Shiyou University
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2024-01-05
Anticipated expiration: 2042-04-02
Also published as: CN114718222A

Abstract

The invention relates to a wall member, in particular to a green energy-saving assembled building wall member. The invention provides a green energy-saving assembled building wall component which has more diversified structures and functions, can adapt to different installation conditions and can conveniently disassemble and replace green environment-friendly materials. The invention provides a green energy-saving assembled building wall component which comprises an assembly frame and the like, wherein a first chute which is in a T shape is formed in the right side of the assembly frame, and a T-shaped sliding rail which can be in sliding fit with the first chute is connected to the left side of the assembly frame. The left-right side-by-side corresponding connection relation can be achieved through the first sliding groove and the T-shaped sliding rail, the left-right corner corresponding connection relation can be achieved through the T-shaped structure on the bridging column, the stacked connection relation can be achieved through the cooperation of the guide groove and the guide rod, the diversified use effect can be achieved, and the sound insulation plate arranged through the sliding type can be disassembled and assembled conveniently.

Description

Green energy-saving assembled building wall component

Technical Field

The invention relates to a wall member, in particular to a green energy-saving assembled building wall member.

Background

Unlike traditional building mode, the assembled house is one kind of house that will make up with component and accessory transport to building engineering ground that will have made, because it possesses construction speed fast, the quality is ensured, noise is low and raise dust advantage such as little, so this mode house is a big trend of modern building industry, at present, current assembled building wall body component is mostly only constituteed by a piece component and a small amount of connecting piece, its structure and function are comparatively single, can not reach required effect after using, and is relatively poor in energy-concerving and environment-protective aspect, also some inconvenient installation and dismantlement.

For example, an assembled energy-saving building wall component disclosed in patent publication number CN211143485U and publication date 20200731 comprises a wall body, a connecting plate, an upper wall body component and a lower wall body component, wherein a preformed hole is formed in one side of the wall body. This assembled energy-conserving building wall body component is through being provided with a plurality of horizontally preformed holes in one side of wall body, be connected with stop bolt on the preformed hole, stop bolt is connected with the connecting plate, the upper end of connecting plate is connected with fixed last cardboard, go up the cardboard and be the Z type setting, carry out the joint through the one end of going up the cardboard and the lower draw-in groove in the upper wall body component, carry out the fixed spacing of bottom one side, provide main holding power, be connected with mobilizable lower cardboard in the bottom of connecting plate, lower cardboard can reciprocate when the installation joint, can carry out the upper end and remove when the wall body component is installed down, the joint of draw-in groove is down in the bottom of being convenient for, will go down cardboard and last draw-in groove joint through the spring after the joint is accomplished, reach the fixed effect of installation, but its structure and function are more single, can not reach the effect that needs after the use.

For example, the green energy-saving assembled building wall member disclosed in patent grant publication number CN209637061U and publication date 20191115 comprises a first building wall and a second building wall, wherein connecting grooves and connecting pieces are respectively arranged on two sides of the first building wall and the second building wall, and the first building wall and the second building wall are composed of an outer wall plate, an outer clamping plate, an outer supporting plate, a polyurethane foaming plate, an inner supporting plate, an inner clamping plate and an inner wall plate. The green energy-saving assembled building wall component can be assembled among components through the cooperation of the connecting grooves, the connecting pieces and the fastening bolts, but can not be assembled tightly, and the green environment-friendly material can not be disassembled and replaced conveniently.

According to the defects in the prior art, the structure and the function of the building wall member are diversified, the building wall member can adapt to different installation conditions, and the building wall member can be conveniently detached from and replaced with green environment-friendly materials.

Disclosure of Invention

The invention aims to overcome the defect that the structure and the function of the prior art are single and the green environment-friendly material cannot be conveniently detached and replaced, and the technical problem to be solved by the invention is to provide the green energy-saving assembled building wall component which has diversified structure and function, can adapt to different installation conditions and can conveniently detach and replace the green environment-friendly material.

In order to solve the technical problems, the invention provides the green energy-saving assembled building wall component, which comprises an assembly frame, a direct connection mechanism, a bridging mechanism and an assembly mechanism, wherein the right side of the assembly frame is provided with a first chute which is in a T shape, the left side of the assembly frame is connected with a T-shaped sliding rail which can be matched with the first chute in a sliding manner, and the assembly frame is provided with the direct connection mechanism which is used for facilitating the stacking connection of the components, the bridging mechanism which is used for bridging the components and the assembly mechanism which is used for assembling and closing the components.

Preferably, the direct connection mechanism comprises a first bolt and a positioning block, wherein the left side and the right side of the upper part of the assembly frame are uniformly provided with threaded grooves for connecting parts in a threaded manner at intervals, the left side and the right side of the lower part of the assembly frame are uniformly provided with four first bolts which can be in threaded fit with the threaded grooves in a threaded manner at intervals, the middle side of the top of the assembly frame is provided with a positioning groove, and the middle side of the bottom of the assembly frame is connected with the positioning block which can be clamped into the positioning groove.

Preferably, the bridging mechanism comprises a bridging column, a guide rod and a second bolt, wherein the bridging column is arranged on the T-shaped sliding rail in a sliding mode, the front part of the bridging column is of a T-shaped structure design, the T-shaped structure on the bridging column can be matched with the first sliding chute in a sliding mode, a guide groove for guiding is formed in the lower portion of the bridging column, the guide rod which can be matched with the guide groove in a sliding mode is connected to the upper side of the bridging column, two threaded holes are formed in the upper portion of the bridging column, and two second bolts which can be matched with the threaded holes in a threaded mode are connected to the lower portion of the bridging column in a threaded mode.

Preferably, the assembly mechanism comprises a first clamping plate, a first elastic piece, an assembly shell, a sound insulation plate, a second elastic piece and a second clamping plate, wherein the assembly shell is rotatably arranged between the middle side of the inner top of the assembly frame and the middle side of the inner bottom, a first clamping groove is formed in the front side of the upper part of the assembly shell, a first clamping plate used for clamping the first clamping groove is arranged on the upper side of the left inner wall of the assembly frame in a sliding mode, three first elastic pieces are connected between the first clamping plate and the assembly frame, the sound insulation plate used for sound insulation and noise reduction is arranged in the inner sliding mode of the assembly shell, and the second clamping plates used for clamping the sound insulation plate are connected to the rear sides of the left inner wall and the right inner wall of the assembly shell through nine second elastic pieces.

Preferably, the material of the baffle is polyester fiber.

Preferably, the device further comprises a reinforcing mechanism for increasing stability, the reinforcing mechanism comprises an extrusion plate, third elastic pieces, a stop block, a mounting plate and a clamping block, the clamping blocks are connected to the front side of the right part of the assembly frame and the front side of the middle part of the bridging column, the mounting plate for buckling the clamping blocks is connected to the front side of the left part of the assembly frame, the extrusion plate is slidably arranged between the mounting plate and the assembly frame, the extrusion plate can be extruded by the assembly shell in the rotating process, the stop blocks for blocking the clamping blocks are connected to the front side and the rear side of the left part of the extrusion plate, and two third elastic pieces are connected between the stop block and the assembly frame.

Preferably, the device further comprises a transverse connecting mechanism for the transverse connecting member, the transverse connecting mechanism comprises a connecting frame and a pushing plate, the left side and the right side of the upper portion of the assembly frame are respectively provided with a second chute, the connecting frame is arranged between the two second chutes in a sliding mode, and the pushing plate for pushing the connecting frame is connected to the front side of the lower portion of the assembly frame.

Preferably, still including the installation mechanism that is used for installing fire-proof material or other materials, installation mechanism is including the slider, fourth elastic component and installation piece, the left and right sides at the middle part of equipment shell all is equipped with the slider that contacts with the acoustic celotex board in a sliding way, be connected with two fourth elastic components between slider and the equipment shell, the equal interval in front and back both sides of slider is evenly opened there is three second draw-in grooves, the joint has the installation piece on the slider, the equal interval in front and back both walls of installation piece is evenly connected with second draw-in groove joint complex elasticity ball, the force of fourth elastic component is greater than the force of elasticity ball joint on the second draw-in groove.

On the basis of overcoming the defects of the prior art, the invention can also achieve the following beneficial effects:

1. the left-right side-by-side corresponding connection relation can be achieved through the first sliding groove and the T-shaped sliding rail, the left-right corner corresponding connection relation can be achieved through the T-shaped structure on the bridging column, the stacked connection relation can be achieved through the cooperation of the guide groove and the guide rod, the diversified use effect can be achieved, and the sound insulation plate arranged through the sliding type can be disassembled and assembled conveniently.

2. The clamping block is buckled on the mounting plate on the other component, and then is blocked by the stop block, so that the clamping block is prevented from being separated from the mounting plate, and the components can be connected more stably.

3. The connecting frame can be used for conveniently performing transverse installation operation among a plurality of components, excessive connecting pieces are not required to be used, and meanwhile, the connecting frame can be conveniently disassembled and assembled among a plurality of components.

4. The fireproof plate or other beneficial green energy-saving materials are installed on the installation block through screws or nails and other parts for fixing articles, so that the components can be used in a more diversified manner, and meanwhile, the components can be disassembled and recycled conveniently.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the direct connection mechanism of the present invention.

Fig. 3 is a schematic perspective view of a bridging mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the transverse connection mechanism of the present invention.

Fig. 5 is a perspective view of the assembly mechanism of the present invention.

Fig. 6 is a cross-sectional view of a first partial perspective of the assembly mechanism of the present invention.

Fig. 7 is a sectional view of a second partial perspective of the assembly mechanism of the present invention.

Fig. 8 is a perspective view of a reinforcement mechanism according to the present invention.

Fig. 9 is a partial perspective sectional view of the reinforcement mechanism of the present invention.

Fig. 10 is a schematic perspective view of the mounting mechanism of the present invention.

Fig. 11 is a partial perspective sectional view of the mounting mechanism of the present invention.

The marks in the drawings are: the device comprises a 1-assembly frame, a 11-first sliding groove, a 2-direct connection mechanism, a 21-first bolt, a 22-positioning block, a 23-positioning groove, a 24-threaded groove, a 3-bridging mechanism, a 31-bridging column, a 32-guide rod, a 34-second bolt, a 35-guiding groove, a 4-assembly mechanism, a 41-first clamping plate, a 42-first elastic piece, a 43-assembly shell, a 44-first clamping groove, a 45-sound insulation plate, a 46-second elastic piece, a 47-second clamping plate, a 5-reinforcing mechanism, a 51-extrusion plate, a 52-third elastic piece, a 53-stop block, a 54-mounting plate, a 55-clamping block, a 6-transverse connection mechanism, a 61-connection frame, a 62-push plate, a 63-second sliding groove, a 7-mounting mechanism, a 71-sliding block, a 72-second clamping groove, a 73-fourth elastic piece and a 74-mounting block.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides an energy-saving assembled building wall component of green, as shown in fig. 1, including assembly jig 1, directly link mechanism 2, bridging mechanism 3 and equipment mechanism 4, open on the right side of assembly jig 1 has the shape to be T first spout 11 of shape, and the left side bolt of assembly jig 1 has can with first spout 11 sliding fit's T shape slide rail, is provided with directly link mechanism 2, bridging mechanism 3 and equipment mechanism 4 on the assembly jig 1.

As shown in fig. 2 and 3, the direct connection mechanism 2 comprises a first bolt 21 and a positioning block 22, four thread grooves 24 are uniformly formed in the left side and the right side of the upper portion of the assembly frame 1 at intervals, four first bolts 21 which can be in threaded fit with the thread grooves 24 are uniformly connected with the left side and the right side of the lower portion of the assembly frame 1 at intervals in a threaded manner, a positioning groove 23 which is waist-shaped in shape is formed in the middle side of the top of the assembly frame 1, and the positioning block 22 which can be clamped into the positioning groove 23 is bolted to the middle side of the bottom of the assembly frame 1.

As shown in fig. 3, the bridging mechanism 3 includes a bridging post 31, a guide rod 32 and a second bolt 34, the bridging post 31 is slidably disposed on the T-shaped slide rail, the front portion of the bridging post 31 is designed as a T-shaped structure, the T-shaped structure on the bridging post 31 can be slidably matched with the first chute 11, the lower portion of the bridging post 31 is provided with a guide groove 35, the upper side of the bridging post 31 is connected with the guide rod 32 slidably matched with the guide groove 35, the upper portion of the bridging post 31 is provided with two threaded holes, and the lower portion of the bridging post 31 is threadably connected with two second bolts 34 threadably engaged with the threaded holes.

As shown in fig. 5, 6 and 7, the assembly mechanism 4 comprises a first clamping plate 41, a first elastic member 42, an assembly shell 43, a sound insulation plate 45, a second elastic member 46 and a second clamping plate 47, wherein the assembly shell 43 is rotatably arranged between the middle side of the inner top of the assembly frame 1 and the middle side of the inner bottom, a first clamping groove 44 is formed in the front side of the upper part of the assembly shell 43, the first clamping plate 41 is slidably arranged on the upper side of the left inner wall of the assembly frame 1, three first elastic members 42 are connected between the first clamping plate 41 and the assembly frame 1, the first elastic members 42 are rubber springs, the sound insulation plate 45 is slidably arranged in the assembly shell 43, the sound insulation plate 45 is made of polyester fibers, the high-frequency sound absorption coefficient is large, and the rear sides of the left inner wall and the right inner wall of the assembly shell 43 are respectively connected with the second clamping plate 47 through nine second elastic members 46.

When an operator needs to use the member to assemble a building wall, firstly, the operator corresponds or stacks a plurality of members together, slides a T-shaped sliding rail onto a first sliding groove 11 on another member in a process of corresponding left and right side by side, slides a T-shaped structure on a bridging column 31 onto the first sliding groove 11 on the other member in a process of corresponding left and right corners, can perform stable installation, then sleeves a guide groove 35 on the bridging column 31 onto a guide rod 32 of the other member in a process of stacking, screws a second bolt 34 downwards onto a threaded hole of the other member, connects the two bridging columns 31 together through the second bolt 34, performs preliminary positioning, then the operator screws a first bolt 21 downwards onto a threaded groove 24 of the other member, connects the two assembly frames 1 together through the first bolt 21, in the process of connecting the two assembly frames 1 together, the positioning block 22 is clamped to the positioning groove 23 of the other member, so that the members can be stably stacked together, the basic installation of the members is completed, an operator drives the assembly shell 43 to rotate ninety degrees again, the assembly shell 43 can press the first clamping plate 41 to move leftwards in the rotating process, the first elastic piece 42 is compressed, the assembly shell 43 continuously rotates to release the first clamping plate 41, the first elastic piece 42 is reset, the first clamping plate 41 can move rightwards to be clamped on the first clamping groove 44 under the reset action of the first elastic piece 42, the assembly shell 43 can be fixed, the members have the sound insulation and noise reduction effects through the sound insulation plates 45 in the assembly shell 43, the operator drives the assembly shell 43 to reversely rotate ninety degrees, the first clamping plate 41 releases the first clamping groove 44 and then pulls the sound insulation plates 45 to move backwards, the first second clamping plate 47 clamps the sound insulation plate 45, the sound insulation plate 45 can be prevented from being moved out through the second clamping plate 47, the second clamping plates 47 on the left side and the right side can be extruded to move in the directions away from each other by moving the sound insulation plate 45 backwards, the second elastic piece 46 is compressed, the sound insulation plate 45 can be pulled out of the assembly shell 43, after the sound insulation plate 45 is pulled out of the assembly shell 43, the second clamping plates 47 can be loosened by the sound insulation plate 45, the second elastic piece 46 is reset, the second clamping plates 47 on the left side and the right side can move in the directions close to each other under the effect of the reset of the second elastic piece 46, then an operator can detach or replace the sound insulation plate 45, when a plurality of connected components are required to be detached, the operator firstly unscrews the first bolt 21 and the second bolt 34, enables the first bolt 21 and the second bolt 34 to be separated from the threaded groove 24 and the threaded hole on the other component respectively, and then enables the guide groove 35 on the bridge column 31 to be separated from the guide rod 32 of the other component, and therefore the plurality of connected components can be detached.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5, 8 and 9, the device further comprises a reinforcing mechanism 5, the reinforcing mechanism 5 comprises an extrusion plate 51, a third elastic piece 52, a stop block 53, a mounting plate 54 and a clamping block 55, the clamping block 55 is respectively bolted to the front right side of the assembly frame 1 and the front middle side of the bridging column 31, the mounting plate 54 is connected to the front left side of the assembly frame 1, the extrusion plate 51 is slidably arranged between the mounting plate 54 and the assembly frame 1, the extrusion plate 51 can be extruded by the assembly shell 43 in the rotating process, the stop blocks 53 are welded to the front and rear left sides of the extrusion plate 51, and two third elastic pieces 52 are connected between the stop block 53 and the assembly frame 1.

In the process of corresponding a plurality of components left and right, the clamping blocks 55 can be buckled on the mounting plate 54 on the other component, stability among the plurality of components is improved, slow motion of the components left and right is avoided, then the assembly shell 43 can squeeze the extrusion plate 51 to move leftwards in the rotating process, the extrusion plate 51 can drive the stop block 53 to move leftwards, the third elastic piece 52 is compressed, the stop block 53 moves leftwards to block the clamping blocks 55, the clamping blocks 55 can be prevented from being separated from the mounting plate 54, then the extrusion plate 51 can be loosened in the reverse rotating process of the assembly shell 43, the third elastic piece 52 is reset, the stop block 53 can move rightwards under the reset action of the third elastic piece 52 to loosen the clamping blocks 55 and drive the extrusion plate 51 to move rightwards, and then in the process of disassembling the plurality of connected components, an operator can detach the clamping blocks 55 from the mounting plate 54 on the other component.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 4 and 5, the device further comprises a transverse connection mechanism 6, the transverse connection mechanism 6 comprises a connection frame 61 and a push plate 62, the left side and the right side of the upper part of the assembly frame 1 are respectively provided with a second sliding groove 63, the connection frame 61 is arranged between the two second sliding grooves 63 in a sliding mode, and the push plate 62 is bolted to the front side of the lower part of the assembly frame 1.

Initially, the connecting frame 61 is in an extended state, the pushing plate 62 presses the connecting frame 61 to move backward during stacking of a plurality of components, so that the connecting frame 61 can be retracted in the assembling frame 1, after the plurality of components are disassembled, the pushing plate 62 releases the connecting frame 61, the connecting frame 61 can be pushed forward from the rear direction by the operator, so that the connecting frame 61 extends out of the assembling frame 1, then during transverse installation of the components, the first sliding groove 11 on the assembling frame 1 is sleeved on the connecting frame 61 on another component, so that the components can be transversely installed, and then the first sliding groove 11 on the assembling frame 1 is separated from the connecting frame 61 on another component, so that the connecting frame can be disassembled.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 10 and 11, the device further comprises a mounting mechanism 7, the mounting mechanism 7 comprises a sliding block 71, fourth elastic pieces 73 and a mounting block 74, the left side and the right side of the middle part of the assembly shell 43 are respectively provided with the sliding block 71 which is contacted with the sound insulation plate 45 in a sliding mode, two fourth elastic pieces 73 are connected between the sliding block 71 and the assembly shell 43, three second clamping grooves 72 are uniformly formed in the front side and the rear side of the sliding block 71 at intervals, the mounting block 74 is clamped on the sliding block 71, elastic balls which are clamped and matched with the second clamping grooves 72 are uniformly connected in the front inner wall and the rear inner wall of the mounting block 74 at intervals, and the force of the fourth elastic pieces 73 is larger than that of the elastic balls clamped and matched with the second clamping grooves 72.

Initially, the baffle 45 presses the slide block 71, the fourth elastic member 73 is in a compressed state, the elastic balls on the mounting block 74 are clamped in the second clamping grooves 72 on the slide block 71, in the process of assembling the wall member, an operator can mount the fireproof plate or other beneficial green energy-saving materials on the mounting block 74 through screws or nails and other parts for fixing objects, so that the member can be used in a more diversified manner, then when the member is disassembled, the baffle 45 is pulled out of the assembling shell 43 to enable the baffle 45 to loosen the slide block 71, the fourth elastic member 73 is reset, the slide blocks 71 on the left side and the right side can move in a mutually approaching direction under the reset action of the fourth elastic member 73, so that the elastic balls on the mounting block 74 are separated from the second clamping grooves 72 on the slide block 71, then the mounting block 74 can fall down, the member can be conveniently disassembled, when the baffle 45 is reinserted into the inside the assembling shell 43, the slide blocks 71 on the left side and the right side can be pressed in a mutually separating direction, the fourth elastic member 73 can reset, and the slide blocks 71 on the left side and the second elastic member can be mounted on the slide block 71 through the second clamping grooves 72.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The green energy-saving assembled building wall component comprises an assembly frame (1), wherein a first chute (11) with a T shape is formed in the right side of the assembly frame (1), and a T-shaped sliding rail which can be matched with the first chute (11) in a sliding manner is connected to the left side of the assembly frame (1), and the green energy-saving assembled building wall component is characterized by further comprising a direct connection mechanism (2), a bridging mechanism (3) and an assembling mechanism (4), wherein the direct connection mechanism (2) for facilitating the stacking connection of the components, the bridging mechanism (3) for bridging the components and the assembling mechanism (4) for assembling and closing the components are arranged on the assembly frame (1);

the direct connection mechanism (2) comprises a first bolt (21) and a positioning block (22), wherein the left side and the right side of the upper part of the assembly frame (1) are uniformly provided with threaded grooves (24) for connecting parts in a threaded manner at intervals, the left side and the right side of the lower part of the assembly frame (1) are uniformly provided with four first bolts (21) which can be in threaded fit with the threaded grooves (24) in a threaded manner at intervals, the middle side of the top of the assembly frame (1) is provided with a positioning groove (23), and the middle side of the bottom of the assembly frame (1) is connected with the positioning block (22) which can be clamped into the positioning groove (23);

the bridging mechanism (3) comprises a bridging column (31), a guide rod (32) and a second bolt (34), wherein the bridging column (31) is slidably arranged on the T-shaped sliding rail, the front part of the bridging column (31) is of a T-shaped structure design, the T-shaped structure on the bridging column (31) can be slidably matched with the first sliding groove (11), a guide groove (35) for guiding is formed in the lower part of the bridging column (31), the guide rod (32) which can be slidably matched with the guide groove (35) is connected to the upper side of the bridging column (31), two threaded holes are formed in the upper part of the bridging column (31), and two second bolts (34) which can be in threaded fit with the threaded holes are connected to the lower part of the bridging column (31) in a threaded manner;

the assembly mechanism (4) comprises a first clamping plate (41), a first elastic piece (42), an assembly shell (43), a sound insulation plate (45), a second elastic piece (46) and a second clamping plate (47), wherein the assembly shell (43) is rotatably arranged between the middle side of the inner top of the assembly frame (1) and the middle side of the inner bottom, a first clamping groove (44) is formed in the front side of the upper part of the assembly shell (43), the first clamping plate (41) used for clamping the first clamping groove (44) is slidably arranged on the upper side of the left inner wall of the assembly frame (1), three first elastic pieces (42) are connected between the first clamping plate (41) and the assembly frame (1), the sound insulation plate (45) used for sound insulation and noise reduction is slidably arranged in the assembly shell (43), and the second clamping plate (47) used for clamping the sound insulation plate (45) is connected to the rear sides of the left inner wall and the right inner wall of the assembly shell (43) through nine second elastic pieces (46);

the sound insulation plate (45) is made of polyester fiber;

the device comprises a frame body, and is characterized by further comprising a reinforcing mechanism (5) for increasing stability, wherein the reinforcing mechanism (5) comprises an extrusion plate (51), third elastic pieces (52), a stop block (53), a mounting plate (54) and a clamping block (55), the front side of the right part of the frame body (1) and the front side of the middle part of a bridging column (31) are both connected with the clamping block (55), the front side of the left part of the frame body (1) is connected with the mounting plate (54) for buckling the clamping block (55), the extrusion plate (51) is slidably arranged between the mounting plate (54) and the frame body (1), the extrusion plate (51) can be extruded by an assembly shell (43) in the rotating process, the stop blocks (53) for blocking the clamping block (55) are respectively connected to the front side and the rear side of the left part of the extrusion plate (51), and two third elastic pieces (52) are connected between the stop block (53) and the frame body (1);

the fireproof and energy-saving type automobile door is characterized by further comprising a mounting mechanism (7) for mounting fireproof materials or other materials, wherein the mounting mechanism (7) comprises a sliding block (71), fourth elastic pieces (73) and a mounting block (74), the sliding block (71) which is in contact with the sound insulation plate (45) is arranged on the left side and the right side of the middle of the assembly shell (43), two fourth elastic pieces (73) are connected between the sliding block (71) and the assembly shell (43), three second clamping grooves (72) are uniformly formed in the front side and the rear side of the sliding block (71) at intervals, the mounting block (74) is clamped on the sliding block (71), the fireproof plate or other beneficial green and energy-saving materials are mounted on the mounting block (74) through screws or nails, elastic balls which are in clamping fit with the second clamping grooves (72) are uniformly arranged in the front and the rear side of the mounting block (74), and the force of the fourth elastic pieces (73) is larger than that of the elastic balls are clamped on the second clamping grooves (72).

2. The green energy-saving assembled building wall component according to claim 1, further comprising a transverse connection mechanism (6) for the transverse connection mechanism, wherein the transverse connection mechanism (6) comprises a connecting frame (61) and a pushing plate (62), the left side and the right side of the upper part of the assembling frame (1) are respectively provided with a second sliding groove (63), the connecting frame (61) is slidably arranged between the two second sliding grooves (63), and the pushing plate (62) for pushing the connecting frame (61) is connected to the front side of the lower part of the assembling frame (1).