CN114718222A - Green energy-saving assembled building wall component - Google Patents

Abstract

The invention relates to a wall body component, in particular to a green energy-saving assembly type building wall body component. The invention provides a green energy-saving assembly type building wall component which has 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 assembly type building wall component which comprises an assembly rack and the like, wherein a first sliding groove in a T shape is formed in the right side of the assembly rack, and a T-shaped sliding rail capable of being in sliding fit with the first sliding groove is connected to the left side of the assembly rack. The connection relation that corresponds side by side about can realizing through first spout and T shape slide rail, the connection relation that the corner corresponds about can realizing through the T shape structure on the bridging post to the cooperation through guide slot and guide arm can also be carried out the connection relation that piles up and so reach diversified result of use, and the acoustic celotex board that sets up through the slidingtype can also conveniently carry out the dismouting.

Description

Green energy-saving assembled building wall component

Technical Field

The invention relates to a wall body component, in particular to a green energy-saving assembly type building wall body component.

Background

Different from the traditional construction mode, the prefabricated house is a type of house formed by transporting manufactured components and accessories to a construction engineering place for assembly and combination, and has the advantages of high construction speed, guaranteed quality, low noise, less dust emission and the like, so the house adopting the mode is a great trend of the modern building industry.

For example, a fabricated energy-saving building wall member disclosed in patent publication No. CN211143485U and publication No. 20200731 comprises a wall, a connecting plate, an upper wall member and a lower wall member, wherein a preformed hole is formed in one side of the wall. This energy-conserving building wall body component of assembled though can be provided with a plurality of horizontally preformed holes through one side at the wall body, be connected with spacing bolt on the preformed hole, spacing bolted connection has the connecting plate, the upper end of connecting plate is connected with fixed last cardboard, it is the setting of Z type to go up the cardboard, one end through last cardboard carries out the joint with the lower draw-in groove in the last wall body component, carry out the fixed spacing of bottom one side, main holding power is provided, be connected with mobilizable lower cardboard in the bottom of connecting plate, lower cardboard can shift up when the installation joint, can carry out the upper end when the wall body component is installed down and remove, the joint of draw-in groove under the bottom of being convenient for, after the joint is accomplished, cardboard and last draw-in groove joint will be down through the spring, reach the fixed effect of installation, but its structure and function are more single, can not reach required effect after the use.

For another example, a green energy-saving fabricated building wall component disclosed in patent publication No. CN209637061U and publication No. 20191115 comprises a first building wall and a second building wall, wherein two sides of the first building wall and the second building wall are respectively provided with a connecting groove and a connecting piece, and the first building wall and the second building wall are respectively composed of an external wall panel, an external splint, an external support panel, a polyurethane foam panel, an internal support panel, an internal splint and an internal wall panel. Although the green energy-saving assembly type building wall body component can be assembled between components through the matching of the connecting grooves, the connecting pieces and the fastening bolts, the components cannot be assembled tightly, and the green environment-friendly materials cannot be conveniently disassembled and replaced.

According to the defects in the prior art, the green energy-saving assembly type building wall body component which has diversified structures and functions, can adapt to different installation conditions and can be conveniently disassembled and replaced from green environment-friendly materials is designed.

Disclosure of Invention

In order to overcome the defects that the prior art has single structure and function and cannot conveniently disassemble and replace the green environment-friendly materials, the invention provides the green energy-saving assembly type building wall component which has diversified structure and function, can adapt to different installation conditions and can conveniently disassemble and replace the green environment-friendly materials.

In order to solve the technical problem, the invention provides a green energy-saving assembly type building wall member which comprises an assembly rack, a direct connection mechanism, a bridging mechanism and an assembly mechanism, wherein a first chute in a T shape is formed in the right side of the assembly rack, a T-shaped sliding rail capable of being in sliding fit with the first chute is connected to the left side of the assembly rack, and the assembly rack is provided with the direct connection mechanism for facilitating stacking and connecting of members, the bridging mechanism for bridging the members and the assembly mechanism for assembling and sealing the members.

Preferably, directly link the mechanism including first bolt and locating piece, the equal interval of the left and right sides on the upper portion of assembly jig is opened uniformly and is had the thread groove that is used for threaded connection spare part everywhere, the equal interval of the left and right sides of the lower part of assembly jig is evenly threaded connection have four can with thread groove screw-thread fit's first bolt, open at the top medial side of assembly jig has the constant head tank, the bottom medial side of assembly jig is connected with can the joint advance the locating piece in the constant head tank.

Preferably, the bridging mechanism is including bridging the post, guide arm and second bolt, the gliding style is equipped with bridging the post on the T shape slide rail, bridging the anterior of post is T shape structural design, T shape structure on the bridging post can with first spout slidingtype cooperation, open the lower part of bridging the post has the guide slot that is used for the direction, the upside of bridging the post be connected with can with guide slot slidingtype complex guide arm, open the upper portion of bridging the post has two screw holes, the lower part threaded connection of bridging the post have two can with screw hole screw thread complex second bolt.

Preferably, equipment mechanism is including first cardboard, first elastic component, the equipment shell, the acoustic celotex board, second elastic component and second cardboard, the rotary type is equipped with the equipment shell between the well side at the interior top of assembly jig and the well side of interior bottom, the upper portion front side of equipment shell is opened there is first draw-in groove, the left inner wall upside slidingtype of assembly jig is equipped with the first cardboard that is used for blocking first draw-in groove, be connected with three first elastic components between first cardboard and the assembly jig, the inside slidingtype of equipment shell is equipped with the acoustic celotex board that is used for giving sound insulation and falls the noise, the rear side of two inner walls all is connected with the second cardboard that is used for blocking the acoustic celotex board through nine second elastic components about the equipment shell.

Preferably, the material of the baffle is polyester fiber.

Preferably, still including the reinforcing mechanism who is used for increasing stability, reinforcing mechanism is including the stripper plate, the third elastic component, the dog, mounting panel and fixture block, the right part front side of assembly jig and the middle part front side of bridging post all are connected with the fixture block, the left part front side of assembly jig is connected with the mounting panel that is used for withholding the fixture block, the slidingtype is equipped with the stripper plate between mounting panel and the assembly jig, the assembly shell can extrude the stripper plate at rotatory in-process, both sides all are connected with the dog that is used for blocking the fixture block around the left part of stripper plate, be connected with two third elastic components between dog and the assembly jig.

Preferably, still including the transverse connection mechanism who is used for the transverse connection component, transverse connection mechanism is including link and push pedal, and the upper portion left and right sides of assembly jig has all opened the second spout, and slidingtype is equipped with the link between two second spouts, and the lower part front side of assembly jig is connected with the push pedal that is used for promoting the link.

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 equal slidingtype slider that is equipped with the acoustic celotex board contact in the left and right sides at the middle part of equipment shell, be connected with two fourth elastic components between slider and the equipment shell, the equal interval in both sides has opened three second draw-in grooves around the slider, the joint has the installation piece on the slider, the equal interval in two inner walls around the installation piece is connected with evenly with the second draw-in groove joint complex elastic ball, the power of fourth elastic component is greater than the power of elastic 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 connection relation that corresponds side by side about can realizing through first spout and T shape slide rail, the connection relation that the corner corresponds about can realizing through the T shape structure on the bridging post to the cooperation through guide slot and guide arm can also be carried out the connection relation that piles up and so reach diversified result of use, and the acoustic celotex board that sets up through the slidingtype can also conveniently carry out the dismouting.

2. The clamping block is buckled on the mounting plate on the other component, and then the clamping block is blocked by the clamping block, so that the clamping block is prevented from being separated from the mounting plate, and the connection between the components is more stable.

3. The connecting frame can facilitate transverse installation operation among a plurality of components, does not need to use excessive connecting pieces, and can facilitate disassembly and assembly of a plurality of parts.

4. The fireproof plate or other beneficial green energy-saving materials are arranged on the mounting block through screws or nails and other parts for fixing articles, so that the member has more diversified using methods, and meanwhile, the member can be conveniently detached and recycled.

Drawings

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

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

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

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

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

FIG. 6 is a cross-sectional view of a first partially assembled configuration of the assembly mechanism of the present invention.

FIG. 7 is a cross-sectional view of a second partially assembled construction of the assembly mechanism of the present invention.

Fig. 8 is a perspective sectional view of the reinforcing mechanism of the present invention.

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

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

FIG. 11 is a cross-sectional view of a portion of the three-dimensional structure of the mounting mechanism of the present invention.

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

Detailed Description

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

Example 1

The utility model provides a green energy-saving assembled building wall component, as shown in figure 1, including assembly jig 1, directly link mechanism 2, bridging mechanism 3 and equipment mechanism 4, the right side of assembly jig 1 is opened has the shape to be the first spout 11 of T shape, the left side bolt joint of assembly jig 1 have can with first spout 11 sliding type complex T shape slide rail, be provided with on the assembly jig 1 and directly link mechanism 2, bridging mechanism 3 and equipment mechanism 4.

As shown in fig. 2 and 3, the direct connection mechanism 2 includes a first bolt 21 and a positioning block 22, four thread grooves 24 are uniformly formed at intervals on both left and right sides of an upper portion of the assembly jig 1, four first bolts 21 capable of being in thread fit with the thread grooves 24 are uniformly in thread fit at intervals on both left and right sides of a lower portion of the assembly jig 1, a positioning groove 23 shaped like a waist is formed in the middle side of the top of the assembly jig 1, and the positioning block 22 capable of being clamped into the positioning groove 23 is bolted to the middle side of the bottom of the assembly jig 1.

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

As shown in fig. 5, 6 and 7, the assembling mechanism 4 includes a first clamping plate 41, a first elastic member 42, an assembling shell 43, a sound insulation plate 45, a second elastic member 46 and a second clamping plate 47, the assembling shell 43 is rotatably disposed between the middle side of the inner top and the middle side of the inner bottom of the assembling frame 1, a first clamping groove 44 is disposed on the front side of the upper portion of the assembling shell 43, the first clamping plate 41 is slidably disposed on the upper side of the left inner wall of the assembling frame 1, three first elastic members 42 are connected between the first clamping plate 41 and the assembling frame 1, the first elastic members 42 are rubber springs, the sound insulation plate 45 is slidably disposed inside the assembling shell 43, the sound insulation plate 45 is made of polyester fiber, the sound absorption coefficient of high frequency is large, and the rear sides of the left and right inner walls of the assembling shell 43 are connected to the second clamping plate 47 through nine second elastic members 46.

When an operator needs to use the component to assemble the building wall, firstly, the operator firstly corresponds or stacks a plurality of components together, the T-shaped sliding rail slides into the first sliding groove 11 on the other component in the process of corresponding left and right side by side, the T-shaped structure on the bridging column 31 slides into the first sliding groove 11 on the other component in the process of corresponding left and right corners, so that stable installation can be carried out, then the guide groove 35 on the bridging column 31 is sleeved on the guide rod 32 of the other component in the stacking process, the second bolt 34 is screwed downwards into the threaded hole of the other component, the two bridging columns 31 are connected together through the second bolt 34, further preliminary positioning is carried out, then the operator screws the first bolt 21 downwards into the threaded groove 24 of the other component, and connects the two assembly frames 1 together through the first bolt 21, in the process of connecting the two assembly brackets 1 together, the positioning block 22 is clamped to the positioning groove 23 of the other component, so that the components can be stably stacked together, at this time, the components have been basically installed, the operator drives the assembly shell 43 to rotate ninety degrees, the assembly shell 43 presses the first clamping plate 41 to move leftward in the rotating process, the first elastic member 42 is compressed, the assembly shell 43 continues to rotate and releases the first clamping plate 41, the first elastic member 42 is reset, the first clamping plate 41 moves rightward and is clamped into the first clamping groove 44 under the resetting effect of the first elastic member 42, so that the assembly shell 43 can be fixed, the components can have the sound insulation and noise reduction effects through the sound insulation plate 45 in the assembly shell 43, the operator drives the assembly shell 43 to rotate ninety degrees in the reverse direction, so that the first clamping plate 41 releases the first clamping groove 44, and then pulls the sound insulation plate 45 to move backward, the first second clamping plate 47 clamps the sound insulation board 45, the sound insulation board 45 can be prevented from moving out by the second clamping plate 47, the sound insulation board 45 can be pushed by the second clamping plate 47 at the left and right sides to move in a direction away from each other by moving the sound insulation board 45 backwards, the second elastic member 46 is compressed, so that the sound insulation board 45 can be drawn out from the assembly housing 43, after the sound insulation board 45 is drawn out from the assembly housing 43, the second clamping plate 47 can be loosened by the sound insulation board 45, the second elastic member 46 is reset, the second clamping plates 47 at the left and right sides can move in a direction approaching each other under the reset action of the second elastic member 46, then an operator can disassemble or replace the sound insulation board 45, when a plurality of connected components need to be disassembled, the operator unscrews the first bolt 21 and the second bolt 34 to make the first bolt 21 and the second bolt 34 respectively disengage from the thread groove 24 and the thread hole on the other component, and then makes the guide groove 35 on the bridging column 31 disengage from the guide bar 32 on the other component, thereby enabling disassembly of a plurality of connected components.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5, 8 and 9, the assembling device further comprises a reinforcing mechanism 5, wherein the reinforcing mechanism 5 comprises a pressing plate 51, a third elastic member 52, a stopper 53, a mounting plate 54 and a stopper 55, the stopper 55 is bolted to the front side of the right part of the assembling frame 1 and the front side of the middle part of the bridging column 31, the mounting plate 54 is connected to the front side of the left part of the assembling frame 1, the pressing plate 51 is slidably arranged between the mounting plate 54 and the assembling frame 1, the assembling shell 43 can press the pressing plate 51 in the rotating process, the stoppers 53 are welded to the front side and the rear side of the left part of the pressing plate 51, and two third elastic members 52 are connected between the stoppers 53 and the assembling frame 1.

In the process of correspondingly arranging a plurality of components side by side, the fixture block 55 can be buckled on the mounting plate 54 on the other component, therefore, the stability among a plurality of components is increased, the components are prevented from slowly moving left and right, then the assembling shell 43 can extrude the extrusion plate 51 to move left in the rotating process, the extrusion plate 51 can drive the stop block 53 to move left, the third elastic element 52 is compressed, the stop block 53 can stop the block 55 when moving left, thereby, the latch 55 is prevented from being separated from the mounting plate 54, and then the pressing plate 51 is released during the reverse rotation of the assembly housing 43, the third elastic member 52 is restored, the stopper 53 is moved rightward under the restoration of the third elastic member 52 to release the latch 55 and drive the pressing plate 51 to move rightward, and then during the detachment of the plurality of connected members, the operator then disengages the latch 55 from the mounting plate 54 on the other member to complete the removal.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 4 and 5, the device further comprises a transverse connecting mechanism 6, the transverse connecting mechanism 6 comprises a connecting frame 61 and a push plate 62, the left and right sides of the upper part of the assembly frame 1 are both provided with second sliding grooves 63, the connecting frame 61 is arranged between the two second sliding grooves 63 in a sliding manner, 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 push plate 62 presses the connecting frame 61 to move backward during the process of stacking a plurality of members by an operator, so that the connecting frame 61 can be stored in the mounting frame 1, the push plate 62 releases the connecting frame 61 after the plurality of members are disassembled, the operator can push the connecting frame 61 forward from the back, so that the connecting frame 61 extends from the mounting frame 1, then the operator can make the first sliding groove 11 on the mounting frame 1 be sleeved on the connecting frame 61 on another member during the process of transversely installing the members, so that the members can be transversely installed, and then the operator makes the first sliding groove 11 on the mounting frame 1 separate from the connecting frame 61 on another member, so that the members can be disassembled.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 10, and 11, the sound insulation and noise reduction device further includes an installation mechanism 7, the installation mechanism 7 includes a slider 71, a fourth elastic member 73, and an installation block 74, the slider 71 contacting the sound insulation board 45 is slidably disposed on both left and right sides of the middle portion of the assembly housing 43, two fourth elastic members 73 are connected between the slider 71 and the assembly housing 43, three second locking grooves 72 are uniformly formed on both front and rear sides of the slider 71 at intervals, the installation block 74 is fastened to the slider 71, elastic balls engaged with the second locking grooves 72 are uniformly connected to both front and rear inner walls of the installation block 74 at intervals, and a force of the fourth elastic member 73 is greater than a force of the elastic balls fastened to the second locking grooves 72.

Initially, the sound insulation board 45 presses the sliding block 71, the fourth elastic member 73 is in a compressed state, the elastic ball on the mounting block 74 is clamped in the second clamping groove 72 on the sliding block 71, an operator can mount the fire-proof board or other beneficial green energy-saving materials on the mounting block 74 through parts for fixing articles such as screws or nails during the process of assembling the wall body member, so that the members can have more diversified using methods, and then when the members are disassembled, the sound insulation board 45 is pulled out from the assembling shell 43 to enable the sound insulation board 45 to release the sliding block 71, the fourth elastic member 73 is reset, the sliding blocks 71 on the left side and the right side move in the direction of approaching each other under the reset action of the fourth elastic member 73, so that the elastic ball on the mounting block 74 is separated from the second clamping groove 72 on the sliding block 71, and then the mounting block 74 falls, so that the members can be conveniently disassembled, when reinserting the baffle 45 back to the inside of assembling shell 43, the baffle 45 can push the slider 71 of the left and right sides and move in the direction of keeping away from each other, and the fourth elastic component 73 compresses, and the operating personnel can overlap the installation piece 74 on the slider 71 again this moment, makes the installation piece 74 fix on the slider 71 through the cooperation of elastic ball and second draw-in groove 72.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (8)

1. The utility model provides a green energy-saving assembled building wall component, including assembly jig (1), open the right side of assembly jig (1) has first spout (11) that the shape is T shape, the left side of assembly jig (1) is connected with can with first spout (11) slidingtype complex T shape slide rail, a serial communication port, still including directly connecting mechanism (2), bridging mechanism (3) and equipment mechanism (4), be provided with on assembly jig (1) and be used for making things convenient for the component to pile up directly connecting mechanism (2), bridging mechanism (3) that are used for bridging the component and equipment mechanism (4) that are used for assembling and closed member.

2. The green energy-saving assembly type building wall component according to claim 1, wherein the direct connection mechanism (2) comprises a first bolt (21) and a positioning block (22), the left side and the right side of the upper portion of the assembly frame (1) are uniformly provided with four thread grooves (24) for screwing parts at intervals, the left side and the right side of the lower portion of the assembly frame (1) are uniformly screwed with four first bolts (21) capable of being in threaded fit with the thread grooves (24) 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) capable of being clamped into the positioning groove (23).

3. The green energy-saving assembled building wall component according to claim 2, wherein the bridging mechanism (3) comprises a bridging column (31), a guide rod (32) and a second bolt (34), the bridging column (31) is slidably arranged on the T-shaped slide rail, the front part of the bridging column (31) is designed to be a T-shaped structure, the T-shaped structure on the bridging column (31) can be slidably matched with the first slide groove (11), the lower part of the bridging column (31) is provided with a guide groove (35) for guiding, the upper side of the bridging column (31) is connected with the guide rod (32) which can be slidably matched with the guide groove (35), the upper part of the bridging column (31) is provided with two threaded holes, and the lower part of the bridging column (31) is in threaded connection with the two second bolts (34) which can be in threaded matching with the threaded holes.

4. The green energy-saving assembled building wall component according to claim 3, wherein the assembling mechanism (4) comprises a first clamping plate (41), a first elastic member (42), an assembling shell (43), a sound insulation plate (45), a second elastic member (46) and a second clamping plate (47), the assembling shell (43) is rotatably arranged between the middle side of the inner top part and the middle side of the inner bottom part of the assembling frame (1), a first clamping groove (44) is formed in the front side of the upper part of the assembling 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 assembling frame (1), three first elastic members (42) are connected between the first clamping plate (41) and the assembling frame (1), the sound insulation plate (45) used for sound insulation and noise reduction is slidably arranged in the assembling shell (43), and the second clamping plate (45) used for clamping the sound insulation plate (45) is connected to the rear sides of the left and right inner walls of the assembling shell (43) through nine second elastic members (46) (47).

5. A green energy-saving fabricated building wall element according to claim 4, characterized in that the material of the sound-proof board (45) is polyester fiber.

6. A green energy-saving fabricated building wall element according to claim 5, further comprising a reinforcing mechanism (5) for increasing stability, wherein the reinforcing mechanism (5) comprises a pressing plate (51) and a third elastic member (52), dog (53), mounting panel (54) and fixture block (55), the right part front side of assembly jig (1) and the middle part front side of bridging post (31) all are connected with fixture block (55), the left part front side of assembly jig (1) is connected with mounting panel (54) that are used for withholding fixture block (55), slidingtype stripper plate (51) that is equipped with between mounting panel (54) and assembly jig (1), stripper plate (51) can be crowded at rotatory in-process in assembly shell (43), both sides all are connected with dog (53) that are used for blocking fixture block (55) around the left part of stripper plate (51), be connected with two third elastic component (52) between dog (53) and assembly jig (1).

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

8. A green energy-saving assembly type construction wall component according to claim 7, characterized in that, it also comprises a mounting mechanism (7) for mounting fireproof materials or other materials, the mounting mechanism (7) comprises a sliding block (71), fourth elastic component (73) and installation piece (74), the equal slidingtype slider (71) that contacts with acoustic celotex board (45) that is equipped with in the left and right sides at the middle part of equipment shell (43), be connected with two fourth elastic component (73) between slider (71) and equipment shell (43), three second draw-in grooves (72) have been opened evenly at the equal interval in both sides around slider (71), the joint has installation piece (74) on slider (71), two inner walls are all evenly connected with at the interval around installation piece (74) with second draw-in groove (72) joint complex elastic ball, the power of fourth elastic component (73) is greater than the power of elastic ball joint on second draw-in groove (72).

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