CN115370041A - Energy-saving and environment-friendly assembled wall structure and assembling method thereof - Google Patents

Abstract

The utility model relates to an energy-concerving and environment-protective assembled wall body structure and assembly method thereof, it includes the wall body, the equal fixed mounting in both sides of wall body has the installation piece, and one of it rotates to install connecting sleeve one side that the wall body was kept away from to the installation piece, and another one side demountable installation that the wall body was kept away from to the installation piece has the screw rod, connecting sleeve's inner wall have with screw rod assorted screw thread, the wall body is provided with two shielding plates, two the shielding plate sets up relatively, two the one side that the shielding plate deviates from each other all with a wall coplane of wall body, the slot has all been seted up towards the same both sides with the wall of wall body to the installation piece, two the equal fixed mounting in one side that the shielding plate moves towards each other has the inserted bar, the inserted bar damping is pegged graft in the slot. This application has the effect of the planarization of the wall of improvement behind the wall interconnect.

Description

Energy-saving and environment-friendly assembled wall structure and assembling method thereof

Technical Field

The application relates to the field of assembly type wall bodies, in particular to an energy-saving and environment-friendly assembly type wall body structure and an assembly method thereof.

Background

The fabricated wall is generally a building element which is manufactured in a factory and then transported to a construction site to be directly joined to form a building.

In construction work, when a construction worker builds a temporary building, the construction worker generally builds a prefabricated wall. The assembled wall body generally uses fasteners such as bolt and expansion nail to connect, connects the dismantlement back of the assembled wall body in convenient later stage through the fastener and retrieves to play energy-concerving and environment-protective effect.

In view of the above-mentioned related art, the inventor believes that after the fastener connects two assembled walls to each other, a recess or a protrusion may occur on the wall surface of the assembled wall, thereby affecting the flatness of the wall surface after the assembled wall is connected.

Disclosure of Invention

In order to improve the smoothness of the wall surfaces after the wall bodies are connected with each other, the application provides an energy-saving and environment-friendly assembly type wall body structure and an assembly method thereof.

The application provides an energy-saving and environment-friendly assembled wall structure and an assembling method thereof, which adopt the following technical scheme:

the utility model provides an energy-concerving and environment-protective assembled wall structure, includes the wall body, the equal fixed mounting in both sides of wall body has the installation piece, one of it is rotated to one side that the wall body was kept away from to the installation piece and installs connecting sleeve, another one side demountable installation that the wall body was kept away from to the installation piece has the screw rod, connecting sleeve's inner wall has with screw rod assorted screw thread, the wall body is provided with two shielding plates, two the shielding plate sets up relatively, two the one side that the shielding plate deviates from each other all with a wall coplane of wall body, the slot has all been seted up towards the same both sides with the wall of wall body to the installation piece, two the equal fixed mounting in one side that the shielding plate moved towards each other has the inserted bar, the inserted bar damping is pegged graft in the slot.

Through adopting above-mentioned technical scheme, after aligning two wall bodies, let the screw thread wear to locate connecting sleeve to make two wall bodies link together. And then the inserted rod is inserted into the slot, so that the shielding plate is installed between the two walls. The connecting sleeve and the screw rod are shielded by the shielding plates, and meanwhile, one surfaces of the two shielding plates, which deviate from each other, are coplanar with one wall surface of the wall body, so that the flatness of the wall surface after the wall bodies are connected with each other is improved. When the wall needs to be disassembled, the blocking plate is pulled, so that the inserted rod is pulled out of the slot. And then, rotating the connecting sleeve to separate the connecting sleeve from the screw. And then the wall body is recovered for reuse, thereby playing the role of energy conservation and environmental protection.

Optionally, be provided with connecting sleeve one side fixed mounting that the wall body was kept away from to the installation piece has the dwang, connecting sleeve empty jacket is in the dwang, the one end that the installation piece was kept away from to the dwang articulates there is the gag lever post, the inner wall fixed mounting that connecting sleeve is close to the one end of installation piece has first spacing ring.

Through adopting above-mentioned technical scheme, when two wall body interconnect, the connecting sleeve screws on the screw rod, and the screw rod struts the gag lever post, and later the gag lever post compresses tightly first spacing to play the restriction sleeve and rotate. The rotation of the sleeve is limited, so that the self-rotating condition of the connecting sleeve driven by the wall body during vibration is reduced. When two walls are disassembled, the connecting sleeve is pulled, so that the connecting sleeve is taken down from the rotating rod, and the walls are convenient to transport.

Optionally, a threaded groove is formed in one side, away from the wall body, of the mounting block, where the threaded rod is arranged, and the threaded rod threads penetrate through the threaded groove.

Through adopting above-mentioned technical scheme, when needs transportation wall body, take off the screw rod from the thread groove to conveniently transport the wall body.

Optionally, a first chute is formed in the inner side wall, located above the slot, of the slot, a clamping block slides up and down in the first chute, a bayonet for the clamping block to penetrate is formed in the rod body of the insertion rod, a control rod is fixedly mounted on one side, close to the bottom of the first chute, of the clamping block, and the control rod can be attracted by a magnet.

By adopting the technical scheme, the magnet attracts the control rod, and the control rod drives the clamping block to be arranged in the first sliding groove. When the inserted bar is inserted into the slot and one end of the inserted bar, which is far away from the shielding plate, is positioned below the first sliding groove, the magnet is far away from the control rod, so that the clamping block falls down to abut against the inserted bar. Then, the baffle plate is pushed, the inserted rod is tightly propped against the bottom of the slot, and the clamping block falls into the bayonet from the first sliding slot. The clamping block and the clamping opening are clamped with each other, so that the situation that the inserted rod is pulled out from the slot when the wall body vibrates is reduced. When the shielding plate needs to be taken down from the wall body, the magnet attracts the control rod, so that the clamping block enters the first sliding groove from the bayonet, then the shielding plate is pulled, the inserting rod is pulled out from the inserting groove, and the shielding plate is convenient to take down from the wall body.

Optionally, the control rod is arranged in the horizontal direction, a second chute for the control rod to slide up and down is formed in one inner side wall of the first chute close to the shielding plate, and the second chute penetrates through one side of the mounting block close to the shielding plate.

Through adopting above-mentioned technical scheme, the second spout makes things convenient for the control lever to go up and down along with the fixture block, and the control lever is close to the shielding plate simultaneously to make things convenient for magnet and control lever inter attraction.

Optionally, a placing opening is formed in one side, away from the wall body, of the mounting block, the placing opening is communicated with the first sliding groove and the second sliding groove, the placing opening is used for enabling the fixture block to enter the first sliding groove, and the control rod enters the second sliding groove.

Through adopting above-mentioned technical scheme, through connecting sleeve and screw rod interconnect back between two walls, put into the mouth of placing with control rod and fixture block. Then after the inserted bar is inserted into the slot, the magnet attracts the control rod, then the control rod is pulled to enter the second sliding groove, and the control rod drives the clamping block to enter the first sliding groove. After the control rod enters the second sliding groove and the clamping block enters the first sliding groove, the magnet is separated from the control rod, and therefore the clamping block can conveniently fall into the bayonet.

Optionally, the fixture block includes damping portion and guide part, guide part fixed mounting is in the bottom side of damping portion, control lever fixed mounting is in one side that the guide part was kept away from to the damping portion, the not hard up bayonet socket of wearing to locate of guide part, the bayonet socket is worn to locate in the damping of damping portion, the guide way has been seted up to an inside wall of second spout, the inside wall that the guide way is located the below communicates in first spout, the inside wall that the guide way is located the top reduces gradually by notch to tank bottom and is the slope setting.

Through adopting above-mentioned technical scheme, get into the slot at the inserted bar, and the bayonet socket and the in-process of first spout coincidence gradually, the guide part gets into inside the bayonet socket. After the bayonet is overlapped with the first sliding groove, the shielding plate is continuously pushed, so that the insertion rod is continuously inserted into the slot. At this time, the control rod and the inner side wall of the guide groove above the control rod are mutually extruded, so that the damping part is pressed into the bayonet. The damping part is inserted into the bayonet in a damping mode, so that the situation that the inserted bar shakes inside the slot is reduced.

Optionally, the inside connecting rod that is provided with of slot, the connecting rod rotates and is connected with two rotor plates, one side fixed mounting that the connecting rod was kept away from to the rotor plate has the slide bar, the slide bar is parallel to each other with the connecting rod, the drive groove has been seted up to the inside wall that the slot is located the below, the drive groove is located first spout under, the third spout that supplies the tip of slide bar to slide is seted up to two inside walls in drive groove, the third spout sets up along the length direction of slot, the connecting rod is provided with the mechanism that rises, the mechanism that rises is used for driving the connecting rod and rises.

Through adopting above-mentioned technical scheme, when needs pull down the shielding plate from the wall body, pulling the shielding plate, let the inserted bar move toward the slot outside, when first spout aligns with the bayonet socket, the mechanism that rises drives the connecting rod and rises, and the connecting rod upwards is with fixture block jack-up, and the damping portion of fixture block shifts out from the bayonet socket. Then the magnet and the control rod are mutually attracted, and the control rod drives the clamping block to return to the inside of the first sliding groove, so that the shielding plate is convenient to take down from the wall body.

Optionally, the ascending mechanism includes limiting plate, ejector pin, spring and second spacing ring, the lift groove has been seted up to the tank bottom in drive groove, the lift groove is worn to locate by the ejector pin, the homocentric cover of spring and second spacing ring is in the ejector pin, the all lateral walls of second spacing ring and the inside wall fixed connection in lift groove, limiting plate fixed mounting is in the ejector pin, the one end that the tank bottom in lift groove was kept away from to the ejector pin supports pastes in the connecting rod, spring fixed mounting is between limiting plate and second are spacing.

Through adopting above-mentioned technical scheme, when the inserted bar got into the slot, inserted bar extrusion rotor plate, rotor plate got into the drive inslot portion, and the rotor plate drives connecting rod extrusion ejector pin simultaneously to make the ejector pin withdraw the drive inslot portion, thereby make things convenient for the inserted bar to insert inside the slot. When the inserted bar is pulled out from the slot and the first sliding groove is aligned with the bayonet, the spring restores to drive the ejector rod to jack up upwards. The ejector rod drives the connecting rod to move upwards, the connecting rod jacks up the clamping block, so that the damping part of the clamping block is pulled out of the bayonet, and then the clamping block is conveniently driven to enter the second sliding groove through the magnet.

An assembly method of an energy-saving and environment-friendly assembly type wall structure comprises the following steps:

s1, inserting a screw into a thread groove, sleeving a connecting sleeve into a rotating rod, and then neatly placing two walls to align the screw with the connecting sleeve;

s2, rotating the connecting sleeve, pushing the two walls to approach each other, and after the connecting sleeve tightly abuts against the rotating rod, the limiting rod is propped open by the screw rod and tightly abuts against the first limiting ring;

s3, placing the control rod and the fixture block into the placing opening, placing the two shielding plates between the two walls, inserting the insertion rod into the slot, pushing the control rod when one end of the insertion rod, which is far away from the shielding plates, shields the first sliding opening, so that the control rod enters the second sliding groove, the fixture block enters the second sliding groove, then the fixture block falls under the action of gravity, and the guide part of the fixture block abuts against the insertion rod;

s4, continuously pushing the inserting rod into the slot, and after the bayonet is aligned with the first sliding groove, enabling the guide part of the clamping block to enter the bayonet;

s5, the inserted rod is continuously pushed, the damping portion of the clamping block is extruded by the inner side wall, located above the guide groove, of the guide groove, the damping portion of the clamping block enters the bayonet, and when the inserted rod is tightly abutted to the inner bottom wall of the insertion groove, the clamping block is in damping insertion connection with the bayonet.

Through adopting above-mentioned technical scheme, the screw rod is located to the connecting sleeve thread bush to make two wall body interconnect together, later shelter from through the shielding plate, thereby improve the planarization of the wall behind the wall body interconnect. Later when needs are dismantled, extract the inserted bar from the slot, rotate the connecting sleeve and take off from the screw rod to the convenience is dismantled the recovery to the wall body.

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

1. when two walls are connected with each other, the connecting sleeve is sleeved on the screw rod, so that the two walls are connected together, the inserted rod is inserted into the slot in a damping manner, so that the shielding plate is arranged between the two connected walls, the connecting sleeve and the screw rod between the two walls are shielded by the shielding plate, and the surfaces of the two shielding plates, which are deviated from each other, are coplanar with one wall surface of the wall body, so that the flatness of the wall surface of the wall body after the walls are connected with each other is improved;

2. when the inserted bar is inserted into the slot, the clamping block enters the bayonet and is clamped with the bayonet through the clamping block, so that the falling condition of the shielding plate from the wall body is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment of the application when two walls are connected to each other and the insertion rod abuts against the bottom of the slot;

FIG. 2 is an exploded view of a coupling sleeve according to an embodiment of the present application;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an exploded view of a screw according to an embodiment of the present application;

FIG. 5 is a schematic view of the entire structure of the embodiment of the present application when two walls are connected to each other and the bayonets are aligned with the first sliding slots;

FIG. 6 is a cross-sectional view of FIG. 5 at B-B;

FIG. 7 is a schematic structural view of an embodiment of the present application when the bayonet is aligned with the second sliding slot;

FIG. 8 is a cross-sectional view of FIG. 7 at C-C;

fig. 9 is an enlarged view of fig. 8 at D.

Description of the reference numerals: 1. a wall body; 2. mounting blocks; 3. rotating the rod; 4. a connecting sleeve; 5. a first limit ring; 6. a limiting rod; 7. a thread groove; 8. a screw; 9. a shielding plate; 10. a slot; 11. inserting a rod; 12. a first chute; 13. a second chute; 14. a third chute; 15. a clamping block; 151. a damping part; 152. a guide portion; 16. a control lever; 17. a bayonet; 18. a placement port; 19. a drive slot; 20. a lifting groove; 21. a lifting mechanism; 211. a limiting plate; 212. a top rod; 213. a spring; 214. a second stop collar; 22. a connecting rod; 23. a rotating plate; 24. a guide groove; 25. a slide bar.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses an energy-saving and environment-friendly assembled wall body 1 structure and an assembling method thereof.

Referring to fig. 1, an energy-saving and environment-friendly assembly type wall 1 structure comprises a wall 1, wherein mounting blocks 2 are fixedly mounted on two sides of the wall 1, the top sides of the mounting blocks 2 are flush with the top side of the wall 1, and the bottom sides of the mounting blocks 2 are flush with the bottom side of the wall 1.

Referring to fig. 2 and 3, a rotating rod 3 is fixedly mounted on one side, away from the wall body 1, of one of the mounting blocks 2, a connecting sleeve 4 is sleeved on the rotating rod 3 in an empty mode, and a first limiting ring 5 is fixedly mounted on the inner wall of one end, close to the mounting block 2, of the rotating rod 3. The one end that dwang 3 kept away from installation piece 2 articulates there is gag lever post 6.

Referring to fig. 4, a threaded groove 7 and a screw 8 are formed in one side of the other mounting block 2 away from the wall 1. The screw 8 is threaded through the thread groove 7. The inner wall of the connecting sleeve 4 has a thread matching the threaded rod 8. Each wall body 1 is provided with a plurality of screw rods 8 and connecting sleeves 4, and the screw rods 8 and the connecting sleeves 4 are arranged at intervals along the height direction of the wall body 1.

When the wall body 1 needs to be spliced, the rotating rod 3 is sleeved in the connecting sleeve 4, and the screw 8 is screwed into the thread groove 7. Then, the two walls 1 are aligned, and the connecting sleeve 4 of one wall 1 is screwed into the screw 8 of the other wall 1, so that the two walls 1 are connected with each other. After the screw rod 8 is screwed into the connecting sleeve 4, the screw rod 8 can be unfolded to open the limiting rod 6, so that the limiting rod 6 compresses the first limiting ring 5, the first limiting ring 5 is compressed through the limiting rod 6, and the self-rotating condition of the connecting sleeve 4 is reduced. When the wall body 1 is transported, the connecting sleeve 4 is rotated, and the screw 8 is pulled out of the connecting sleeve 4, so that the limiting rod 6 loosens the first limiting ring 5. And then the screw rod 8 is screwed down from the thread groove 7, and the connecting sleeve 4 is taken down from the rotating rod 3, so that the space occupied by the wall body 1 is reduced, and the wall body 1 is convenient to transport.

Referring to fig. 1 and 2, the wall 1 is provided with two shielding plates 9, and the two shielding plates 9 are arranged oppositely. The surfaces of the two shielding plates 9 which deviate from each other are coplanar with a wall surface of the wall body 1. The slot 10 has all been seted up with the wall both sides that the wall orientation is the same of wall body 1 to installation piece 2, and the equal fixed mounting in one side of two shielding plates 9 mutual orientation has inserted bar 11. The inserted rod 11 is inserted in the slot 10 in a damping manner.

After the two walls 1 are connected through the connecting sleeve 4 and the screw 8, the inserted rod 11 is inserted into the slot 10, so that the two shielding plates 9 are installed between the two walls 1. After the insertion rod 11 is inserted into the insertion slot 10, the shielding plate 9 abuts against the mounting block 2. The shielding plates 9 shield the parts between the two walls 1, and one surfaces of the two shielding plates 9, which deviate from each other, are coplanar with one wall surface of the wall 1, so that the flatness of the wall surface after the wall bodies 1 are connected with each other is improved.

Referring to fig. 5 and 6, a first sliding groove 12 is formed in an inner side wall of the slot 10 above the slot, and a locking block 15 slides up and down in the first sliding groove 12.

Referring to fig. 4 and 6, the latch 15 includes a damping portion 151 and a guide portion 152, and the guide portion 152 is fixedly mounted to a bottom side of the damping portion 151. The control lever 16 is fixedly mounted on the top side of the damping portion 151, and the control lever 16 is disposed in the horizontal direction. The inner side of the first sliding chute 12 close to the shielding plate 9 is provided with a second sliding chute 13 for the control rod 16 to slide up and down, and the second sliding chute 13 penetrates through one side of the mounting block 2 close to the shielding plate 9.

Referring to fig. 2 and 6, the shank of the insert rod 11 is provided with a bayonet 17 through which the latch 15 is inserted. When the latch 15 is inserted into the bayonet 17, the guide portion 152 is loosely inserted into the bayonet 17, and the damping portion 151 is inserted into the bayonet 17 for damping. The control rod 16 is made of a metal that can be attracted by a magnet. A guide groove 24 has been seted up to an inside wall of second spout 13, and the inside wall that guide groove 24 is located the below communicates in first spout 12, and the inside wall that guide groove 24 is located the top reduces gradually by notch to tank bottom and is the slope setting.

When the inserting rod 11 is inserted into the slot 10, the guiding portion 152 first enters the bayonet 17, and then the inserting rod 11 is pushed into the slot 10, and the control rod 16 and the inner side wall of the guiding groove 24 above each other are pressed against each other, so that the damping portion 151 enters the bayonet 17. The clamping block 15 and the clamping opening 17 are clamped with each other, so that the situation that the insert rod 11 is pulled out of the slot 10 under the influence of the vibration of the wall body 1 is reduced. Meanwhile, the damping part 151 is arranged in the bayonet 17 in a damping mode, so that the situation that the inserted rod 11 shakes in the slot 10 is reduced.

Referring to fig. 1 and 3, a placing opening 18 is formed in one side of the mounting block 2 away from the wall 1, and the placing opening 18 is communicated with the first sliding chute 12 and the second sliding chute 13. The clamping block 15 and the control rod 16 are placed inside the placing opening 18, then after the inserting rod 11 is inserted into the slot 10, the magnet is used for attracting the control rod 16 to enter the second sliding groove 13, and the control rod 16 drives the clamping block 15 to enter the first sliding groove 12. The magnet then moves away from the lever 16 and the latch 15 is free to fall under gravity. Through the placing opening 18, the control rod 16 can be conveniently placed inside the second sliding groove 13, and the clamping block 15 can be conveniently placed inside the first sliding groove 12. When the inserting rod 11 abuts against the bottom of the slot 10, one end of the control rod 16 away from the latch 15 abuts against the shielding plate 9.

Referring to fig. 7 and 8, a driving groove 19 is formed in an inner side wall of the slot 10 located below, and the driving groove 19 is located right below the first sliding groove 12.

Referring to fig. 8 and 9, a lifting groove 20 is formed at the bottom of the driving groove 19. The lifting groove 20 is provided therein with a lifting mechanism 21. The lifting mechanism 21 includes a limit plate 211, a jack 212, a spring 213, and a second limit ring 214. The push rod 212 penetrates through the lifting groove 20, and the spring 213 and the second limit ring 214 are both sleeved on the push rod 212. The limit plate 211 is fixedly sleeved on the rod 212, the limit plate 211 is located above the second limit ring 214, and the peripheral side wall of the second limit ring 214 is fixedly connected with the inner side wall of the lifting groove 20. The spring 213 is fixedly installed between the limit plate 211 and the second limit ring 214.

Referring to fig. 8 and 9, the top end of the top rod 212 is provided with a connecting rod 22, and the connecting rod 22 and the top end of the top rod 212 abut against each other. The connecting rod 22 is rotatably connected with two rotating plates 23, and a sliding rod 25 is fixedly mounted on one side of the rotating plates 23 far away from the connecting rod 22. The two inner side walls of the driving slot 19 are provided with third sliding slots 14 for the sliding of the end portions of the sliding rods 25, and the third sliding slots 14 are arranged along the length direction of the slot 10.

When the insert rod 11 is inserted into the slot 10, the insert rod 11 presses the rotating plate 23, thereby moving the connection rod 22 downward to press the push rod 212. The ram 212 retracts inside the lifting groove 20. After the bayonet 17 is aligned with the first sliding slot 12, the spring 213 is restored, so that the plunger 212 pushes up the connecting rod 22 while the guide 152 of the latch 15 enters the inside of the bayonet 17. The insertion rod 11 then continues to move forward, thereby returning the connecting rod 22 and the rotating plate 23 back to the inside of the driving groove 19. The damping portion 151 of the latch 15 then enters the inside of the bayonet 17.

When the plunger 11 is pulled out from the slot 10 and the plunger 11 moves until the bayonet 17 is aligned with the first sliding slot 12, the push rod 212 is pushed by the spring 213 to rise, thereby moving the connecting rod 22 upward. The latch 15 is pushed up by the connecting rod 22, and the damper 151 is pulled out from the bayonet 17. By pulling the damping portion 151 out of the bayonet 17, the magnet is used to attract the control rod 16 to pull the latch 15 out of the bayonet 17.

The embodiment of the application also discloses an assembly method of the energy-saving and environment-friendly assembly type wall body 1 structure, which comprises the following steps:

s1, inserting a screw 8 into a thread groove 7, sleeving a connecting sleeve 4 into a rotating rod 3, and then neatly placing two walls 1 to align the screw 8 with the connecting sleeve 4;

s2, rotating the connecting sleeve 4, pushing the two walls 1 to approach each other, and after the connecting sleeve 4 tightly abuts against the rotating rod 3, the limiting rod 6 is propped open by the screw 8 and tightly abuts against the first limiting ring 5;

s3, placing the control rod 16 and the fixture block 15 into the placing opening 18, placing the two shielding plates 9 between the two walls 1, inserting the insertion rod 11 into the slot 10, pushing the control rod 16 when one end of the insertion rod 11, which is far away from the shielding plates 9, shields the first sliding opening, so that the control rod 16 enters the second sliding groove 13, the fixture block 15 enters the second sliding groove 13, then the fixture block 15 falls under the action of gravity, and the guide part 152 of the fixture block 15 abuts against the insertion rod 11;

s4, the inserting rod 11 is continuously pushed to enter the slot 10, and after the bayonet 17 is aligned with the first sliding groove 12, the guide part 152 of the clamping block 15 enters the bayonet 17;

s5, the inserting rod 11 is continuously pushed, the damping portion 151 of the clamping block 15 is extruded by the inner side wall, located above the guide groove, of the guide groove, the damping portion 151 of the clamping block 15 enters the bayonet 17, and when the inserting rod 11 tightly abuts against the inner bottom wall of the inserting groove 10, the clamping block 15 is in damping insertion connection with the bayonet 17.

The implementation principle of the energy-saving and environment-friendly assembled wall 1 structure and the assembling method thereof in the embodiment of the application is as follows: when splicing the wall bodies 1, the two wall bodies 1 are aligned with each other, and then the screw rods 8 are sleeved with the connecting sleeves 4 through threads, so that the two wall bodies 1 are connected with each other. The control rod 16 and the fixture block 15 are placed in the placing opening 18, then the inserting rod 11 of the shielding plate 9 is inserted into the slot 10, when one end, far away from the shielding plate 9, of the inserting rod 11 shields the first sliding groove 12, the magnet is used for attracting the control rod 16, the control rod 16 enters the second sliding groove 13, and the control rod 16 drives the fixture block 15 to enter the first sliding groove 12. Allowing the magnet to separate from lever 16, latch 15 drops downward against plunger 11.

Then, the plunger 11 is pushed forward, and the guide portion 152 of the latch 15 enters the inside of the notch 17 when the notch 17 is aligned with the first sliding slot 12. Then, the inserting rod 11 is pushed forward, when the inserting rod 11 abuts against the bottom of the slot 10, the control rod 16 and the inner side wall of the guiding slot above the guiding slot are pressed against each other, so that the damping portion 151 enters the bayonet 17. So that the shielding 9 is installed between the two walls 1. Shelter from the connection between two wall bodies 1 through shielding plate 9, two simultaneously shelter from the one side that deviates from each other and the one side coplane of wall body 1 to improve the roughness behind wall body 1 interconnect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective assembled wall body (1) structure which characterized in that: including wall body (1), the equal fixed mounting in both sides of wall body (1) has installation piece (2), one of it the one side that wall body (1) were kept away from in installation piece (2) is rotated and is installed connecting sleeve (4), another one side demountable installation that wall body (1) was kept away from in installation piece (2) has screw rod (8), the inner wall of connecting sleeve (4) have with screw rod (8) assorted screw thread, wall body (1) is provided with two shielding plate (9), two shielding plate (9) set up relatively, two the one side that shielding plate (9) deviates from each other all with a wall coplane of wall body (1), slot (10) have all been seted up to the wall both sides the same towards of installation piece (2) and wall body (1), two the equal fixed mounting in one side of shielding plate (9) orientation each other has inserted bar (11), inserted bar (11) damping is pegged graft in slot (10).

2. An energy-saving and environment-friendly assembled wall body (1) structure according to claim 1, characterized in that: be provided with connecting sleeve (4) one side fixed mounting that wall body (1) was kept away from in installation piece (2) has dwang (3), connecting sleeve (4) empty ways in dwang (3), the one end that installation piece (2) were kept away from in dwang (3) articulates there is gag lever post (6), the inner wall fixed mounting that connecting sleeve (4) are close to the one end of installation piece (2) has first spacing ring (5).

3. An energy-saving and environment-friendly assembled wall body (1) structure as claimed in claim 1, wherein: the side, away from the wall body (1), of the mounting block (2) provided with the screw (8) is provided with a thread groove (7), and the screw (8) penetrates through the thread groove (7).

4. An energy-saving and environment-friendly assembled wall body (1) structure as claimed in claim 1, wherein: first spout (12) have been seted up to the inside wall that slot (10) are located the top, first spout (12) are inside to slide from top to bottom and have fixture block (15), bayonet socket (17) that supply fixture block (15) to wear to establish are seted up to the pole body of inserted bar (11), one side fixed mounting that fixture block (15) are close to the tank bottom of first spout (12) has control lever (16), control lever (16) can be attracted by the magnet.

5. An energy-saving and environment-friendly assembled wall body (1) structure as claimed in claim 4, wherein: the control rod (16) is arranged in the horizontal direction, a second sliding groove (13) for the control rod (16) to slide up and down is formed in one inner side wall, close to the shielding plate (9), of the first sliding groove (12), and the second sliding groove (13) penetrates through one side, close to the shielding plate (9), of the mounting block (2).

6. An energy-saving and environment-friendly assembled wall body (1) structure as claimed in claim 5, wherein: one side, far away from the wall body (1), of the mounting block (2) is provided with a placing opening (18), the placing opening (18) is communicated with the first sliding groove (12) and the second sliding groove (13), the placing opening (18) is used for enabling the clamping block (15) to enter the first sliding groove (12), and the control rod (16) enters the second sliding groove (13).

7. An energy-saving and environment-friendly assembly type wall body (1) structure according to claim 5, characterized in that: fixture block (15) include damping portion (151) and guide part (152), guide part (152) fixed mounting is in the bottom side of damping portion (151), control lever (16) fixed mounting is in one side that guide part (152) were kept away from in damping portion (151), bayonet socket (17) are worn to locate in guide part (152) becoming flexible, bayonet socket (17) are worn to locate in damping portion (151) damping, the guide way has been seted up to an inside wall of second spout (13), the inside wall that the guide way is located the below communicates in first spout (12), the inside wall that the guide way is located the top reduces gradually by notch to tank bottom and is the slope setting.

8. An energy-saving and environment-friendly assembly type wall body (1) structure according to claim 7, characterized in that: the utility model discloses a slot, including slot (10), connecting rod (22) rotate and be connected with two rotor plates (23), one side fixed mounting that connecting rod (22) were kept away from in rotor plate (23) has the slide bar, the slide bar is parallel to each other with connecting rod (22), drive groove (19) have been seted up to the inside wall that slot (10) are located the below, drive groove (19) are located first spout (12) under, third spout (14) that the tip that supplies the slide bar slided are seted up to two inside walls of drive groove (19), the length direction setting of slot (10) is followed in third spout (14), connecting rod (22) are provided with ascending mechanism (21), ascending mechanism (21) are used for driving connecting rod (22) to rise.

9. An energy-saving and environment-friendly assembly type wall body (1) structure according to claim 8, characterized in that: ascending mechanism (21) include limiting plate (211), ejector pin (212), spring (213) and second spacing ring (214), lift groove (20) have been seted up to the tank bottom of drive groove (19), ejector pin (212) are worn to locate lift groove (20), spring (213) and second spacing ring (214) homoenergetic overlap in ejector pin (212), the week lateral wall of second spacing ring (214) and the inside wall fixed connection of lift groove (20), limiting plate (211) fixed mounting is in ejector pin (212), the one end that the tank bottom of lift groove (20) was kept away from in ejector pin (212) is supported and is pasted in connecting rod (22), spring (213) fixed mounting is between limiting plate (211) and second are spacing.

10. An assembling method using the energy-saving and environment-friendly assembled wall structure as claimed in any one of claims 1 to 9, characterized by comprising the steps of:

s1, inserting a screw rod (8) into a thread groove (7), sleeving a connecting sleeve (4) into a rotating rod (3), and then neatly placing two wall bodies (1) to enable the screw rod (8) to be aligned with the connecting sleeve (4);

s2, rotating the connecting sleeve (4), pushing the two walls (1) to approach to each other, and after the connecting sleeve (4) is tightly abutted to the rotating rod (3), the limiting rod (6) is propped open by the screw (8) and tightly abutted to the first limiting ring (5);

s3, placing the control rod (16) and the fixture block (15) into the placing opening (18), placing the two shielding plates (9) between the two walls (1), inserting the insertion rod (11) into the slot (10), pushing the control rod (16) when one end, far away from the shielding plates (9), of the insertion rod (11) shields the first sliding opening, so that the control rod (16) enters the second sliding groove (13), the fixture block (15) enters the second sliding groove (13), then the fixture block (15) falls under the action of gravity, and the guide part (152) of the fixture block (15) abuts against the insertion rod (11);

s4, the inserting rod (11) is continuously pushed to enter the slot (10), and after the bayonet (17) is aligned with the first sliding groove (12), the guide part (152) of the clamping block (15) enters the bayonet (17);

s5, the inserting rod (11) is continuously pushed, the damping portion (151) of the clamping block (15) is extruded by the inner side wall, located above, of the guide groove, the damping portion (151) of the clamping block (15) enters the bayonet (17), and when the inserting rod (11) is tightly abutted to the inner bottom wall of the inserting groove (10), the clamping block (15) is in damping insertion connection with the bayonet (17).

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