CN114961036A

CN114961036A - Green energy-saving assembly type building

Info

Publication number: CN114961036A
Application number: CN202210810358.5A
Authority: CN
Inventors: 邱福英
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-08-30

Abstract

The invention discloses a green energy-saving assembly type building, which relates to the technical field of assembly type buildings and comprises a wall body frame and a wiring assembly, wherein inner supporting plates are fixed at the top and the bottom of the inner wall of the wall body frame, sliding grooves are formed in the surfaces of the inner supporting plates, fixed inner side plates are attached to the surfaces of the inner supporting plates, bolts penetrate through the mounting hole grooves, second magnets are magnetically adsorbed on the surfaces of the first magnets, hole supplementing plates are fixed on the surfaces, far away from the first magnets, of the second magnets, pulleys are connected to the inner parts of the sliding grooves in a sliding mode, and the wiring assembly is arranged in the middle of the inner supporting plates. This green energy-conserving assembly type structure only needs several limited bolts of dismouting and single fixed interior plate can carry out the circuit to the wall body inside and lay, compares with the current wiring mode that needs a large amount of screws of dismouting and needs a plurality of inboard wallboards of dismouting, and this setting makes the wiring operation more swift effective, can effectively reduce artifical burden.

Description

Green energy-saving fabricated building

Technical Field

The invention relates to the technical field of assembly type buildings, in particular to a green energy-saving assembly type building.

Background

The prefabricated building is characterized in that the prefabricated building is assembled on a construction site, the prefabricated building is called as an assembly type building, the assembly type building has the advantage of saving resources and energy consumption, along with the development of modern industrial technology, a built house can be manufactured in a batch and set mode, only prefabricated house components are transported to the construction site to be assembled, and the wiring of circuits inside the wall body of the assembly type building needs to firstly remove the inner side wall plate, expose the inside of the wall body of the assembly type building, form holes in the corresponding positions of the wall plate after the wiring inside the wall body of the assembly type building, and then fix the inner side wall plate again.

The inner side wall board and the wall body of the existing fabricated building wall body are fixed through bolts, when wiring is conducted inside the wall body, all the bolts need to be taken down and the inner side wall board needs to be detached, and then the inner side wall board is fixed to the wall body through the bolts again after the wiring is completed, so that the wiring efficiency is low due to the arrangement.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a green energy-saving assembly type building, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a green energy-conserving assembled building, includes wall frame and wiring subassembly, wall frame's inner wall top all is fixed with interior fagging with the bottom, and the surface of interior fagging sets up threaded hole, the spout has still been seted up on the surface of interior fagging, and the spout is closer to wall frame's horizontal axis than the screw hole, the surface laminating of interior fagging has fixed interior plate, and the surface of fixed interior plate has seted up the mounting hole groove, the inside of mounting hole groove runs through there is the bolt, and the tip fixed surface of bolt has first magnet, the surface magnetism of first magnet adsorbs there is the second magnet, the surface fixing that first magnet was kept away from to the second magnet has the patch hole board, the inside sliding connection of spout has the pulley, and one side of pulley is connected with movable interior plate, wiring subassembly sets up in the middle part of interior fagging, wiring subassembly includes vertical vaulting pole, Vertical groove, spacing sawtooth, run through pole and U type frid, vertical groove has been seted up at the middle part of vertical vaulting pole, and one side inner wall equidistance in vertical groove is provided with spacing sawtooth, the inside in vertical groove is run through and is had the pole that runs through, and the both ends that run through the pole are fixed with U type frid.

Furthermore, the mounting hole groove coincides with the threaded hole, and the fixed inner side plate is fixedly connected with the inner support plate through the bolt mounting hole groove and the threaded hole.

Furthermore, the outer opening structure of the hole patching plate is matched with the inner opening structure of the mounting hole groove, and the surface of the hole patching plate is flush with the surface of the fixed inner side plate.

Further, the right side of vertical vaulting pole is provided with soundproof cotton, and soundproof cotton's right side is provided with dampproof board, the right side of dampproof board is provided with the outer panel.

Furthermore, the fixed inner side plate is positioned at one end of the surface of the inner supporting plate, and one side of the fixed inner side plate is attached to the side surface of the movable inner side plate.

Furthermore, the top and the bottom of one side of the fixed inner side plate and the movable inner side plate close to the wall body frame are provided with first inserting pieces, and the top and the bottom of the side surface of the wall body frame are provided with second inserting pieces.

Furthermore, the top and the bottom of the inner wall of the wall frame are also provided with elongated slots, and the elongated slots are positioned between the first inserting pieces and the second inserting pieces.

Further, the inside of elongated slot is provided with strengthens the subassembly, strengthen the subassembly and include spring, long slab, rubber strip and slot, the one end that the spring is close to first inserted sheet is fixed with the long slab, and the surface that the long slab is close to first inserted sheet is provided with the rubber strip, the slot has been seted up to the both sides of rubber strip.

Further, rubber strip one side is passed through slot, first inserted sheet and is connected with fixed interior plate, activity interior plate block, and the rubber strip opposite side passes through slot, second inserted sheet and is connected with wall body frame block.

Further, the use method of the green energy-saving fabricated building is as follows:

the method comprises the following steps: after the green energy-saving fabricated building is transported to a designated area and a circuit needs to be laid, firstly, the bolts are unscrewed to take down the fixed inner side plate, and at the moment, a part of the interior of the wall body frame is exposed;

step two: two rod bodies with certain length are utilized to enable two ends of the rod bodies to abut against two ends of the surface of the long plate, so that the rubber strip is retracted into the long groove, and at the moment, the movable inner side plate is manually pushed left and right to slide along the inside of the sliding groove through a pulley, so that the position of the exposed part can be adjusted;

step three: manually holding the U-shaped groove plate to pull outwards to enable the penetrating rod to withdraw from the limiting sawteeth, pushing the U-shaped groove plate up and down to enable the U-shaped groove plate to adjust the height of the U-shaped groove plate up and down along the interior of the vertical groove until the height of the U-shaped groove plate is matched with the height required by wiring, and then pushing the U-shaped groove plate back again to enable the penetrating rod to enter the limiting sawteeth to fix the height;

step four: wiring is carried out in the U-shaped groove plate after the height of the U-shaped groove plate is fixed, the position of the exposed part is adjusted by pushing the movable inner side plate, so that the exposed part can be conveniently wired, and holes are formed in the corresponding positions of the surfaces of the fixed inner side plate and the movable inner side plate of the socket switch part;

step five: pushing back the movable inner side plate in turn to make the movable inner side plate at one edge cling to the wall frame, the movable inner side plates cling to each other, the movable inner side plate at the other edge cling to the fixed inner side plate, and the fixed inner side plate is fixed to the surface of the inner supporting plate again through the bolts;

step six: get rid of two body of rod for the long slab resets based on the elastic action of spring so that the rubber strip inserts between fixed interior plate, activity interior plate and the wall body frame, and the slot of rubber strip one side is inserted to the first inserted sheet of fixed interior plate, activity interior plate side this moment inside, and the slot of wall body frame side second inserted sheet insertion rubber strip opposite side inside.

The invention provides a green energy-saving assembly type building, which has the following beneficial effects:

only need the limited several bolts of dismouting and single fixed interior plate can carry out the circuit to the wall body inside and lay, compare with the current wiring mode that needs a large amount of screws of dismouting and needs a plurality of interior wallboards of dismouting, this setting makes the wiring operation more swift effective, can effectively reduce artifical burden.

1. This green energy-conserving assembly type structure, the inboard wallboard divide into a plurality of activity interior plates and single fixed interior plate, only need to demolish limited bolt in order to expose the wall body that wall body frame inner space part exposes on the fixed interior plate, promote remaining activity interior plate again and make its effect slide housing will expose the position of part and adjust, so that expose the part through different positions and carry out the circuit and lay, and only need after the circuit is laid refill the bolt on the fixed interior plate in order to fix the interior plate again can, thereby be favorable to improving the inside circuit of assembly type building wall body and lay efficiency by a wide margin.

2. This green energy-conserving assembly type building, partly lay the circuit in U type frid through the exposure of wall body frame, and the manual work grips U type frid and draws outward and make and run through the pole and withdraw from between the spacing sawtooth, and promote U type frid from top to bottom and make it along vertical inslot portion height-adjusting from top to bottom, until U type frid height and the required high adaptation of wiring, it makes to run through the pole and get into with fixed height between the spacing sawtooth again to push back U type frid, thereby this sets up the height that makes U type frid and can adjust, thereby be favorable to laying the circuit to different height, thereby so that adapt to the not electrical apparatus power consumption of co-altitude.

3. This green energy-conserving assembly type structure, after fixed interior plate is fixed again, the activity interior plate and the wall body frame of edge department are hugged closely, and the activity interior plate also hugs closely each other, and the activity interior plate of another edge department then hugs closely with fixed interior plate, and the long slab resets based on the elastic action of spring so that the rubber strip inserts fixed interior plate, between activity interior plate and the wall body frame, fixed interior plate this moment, the first inserted sheet of activity interior plate side inserts inside the slot of rubber strip one side, and inside the second inserted sheet of wall body frame side inserts inside the slot of rubber strip opposite side, this is provided with and does benefit to the spacing effect of strengthening the activity interior plate, the laminating degree between the activity interior plate takes place not hard up promptly and still can carry on spacingly to it after becoming flexible, avoid the activity interior plate to take place the displacement after becoming flexible.

4. This green energy-conserving assembly type structure, rubber strip both sides are closely laminated with fixed interior plate, activity interior plate and wall body frame respectively, can fill the leakproofness between fixed interior plate, activity interior plate and the wall body frame through the rubber strip, and need not the sealed glue of glass glue class, no chemical to green.

Drawings

FIG. 1 is a schematic structural view of a wall frame of an energy-saving assembly building according to the present invention in a front cross-sectional view;

FIG. 2 is a schematic view of the external structure of the wall frame side of the green energy-saving fabricated building according to the present invention;

FIG. 3 is a schematic view of an interior elevation structure of a chute of a green energy-saving fabricated building according to the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 of a green energy-saving fabricated building according to the present invention;

FIG. 5 is a schematic side view of the wall frame of the green energy-saving fabricated building according to the present invention;

FIG. 6 is an enlarged schematic view of the green energy-saving fabricated building shown in FIG. 1 at B;

fig. 7 is a schematic structural diagram of a top view of a rubber strip of a green energy-saving fabricated building according to the invention.

In the figure: 1. a wall frame; 2. an inner supporting plate; 3. a threaded hole; 4. a chute; 5. fixing the inner side plate; 6. mounting a hole groove; 7. a bolt; 8. a first magnet; 9. a second magnet; 10. a hole supplementing plate; 11. a pulley; 12. a movable inner side plate; 13. a wiring assembly; 1301. a vertical stay bar; 1302. a vertical groove; 1303. a limiting saw tooth; 1304. penetrating the rod; 1305. a U-shaped groove plate; 14. sound insulation cotton; 15. a moisture-proof plate; 16. an outer panel; 17. a first tab; 18. a second insert; 19. a long groove; 20. a reinforcement assembly; 2001. a spring; 2002. a long plate; 2003. a rubber strip; 2004. and (4) a slot.

Detailed Description

As shown in fig. 1 to 6, the present invention provides a technical solution: a green energy-saving fabricated building comprises a wall body frame 1 and a wiring assembly 13, wherein an inner supporting plate 2 is fixed at the top and the bottom of the inner wall of the wall body frame 1, a threaded hole 3 is formed in the surface of the inner supporting plate 2, a sliding groove 4 is further formed in the surface of the inner supporting plate 2, the sliding groove 4 is closer to the horizontal central axis of the wall body frame 1 than the threaded hole 3, a fixed inner side plate 5 is attached to the surface of the inner supporting plate 2, a mounting hole groove 6 is formed in the surface of the fixed inner side plate 5, a bolt 7 penetrates through the mounting hole groove 6, a first magnet 8 is fixed on the end surface of the bolt 7, a second magnet 9 is magnetically adsorbed on the surface of the first magnet 8, a hole supplementing plate 10 is fixed on the surface of the second magnet 9 far away from the first magnet 8, a pulley 11 is slidably connected inside the sliding groove 4, one side of the pulley 11 is connected with a movable inner side plate 12, the wiring assembly 13 is arranged in the middle of the inner supporting plate 2, the wiring assembly 13 comprises a vertical stay bar 1301, a vertical groove 1302, limiting sawteeth 1303, a penetrating bar 1304 and a U-shaped groove plate 1305, wherein the vertical groove 1302 is formed in the middle of the vertical stay bar 1301, the limiting sawteeth 1303 are arranged on the inner wall of one side of the vertical groove 1302 at equal intervals, the penetrating bar 1304 penetrates through the vertical groove 1302, the U-shaped groove plate 1305 is fixed to two ends of the penetrating bar 1304, the mounting hole groove 6 is overlapped with the threaded hole 3, the fixed inner side plate 5 is fixedly connected with the mounting hole groove 6, the threaded hole 3 and the inner support plate 2 through a bolt 7, the outer opening structure of the hole supplementing plate 10 is matched with the inner opening structure of the mounting hole groove 6, the surface of the hole supplementing plate 10 is flush with the surface of the fixed inner side plate 5, the fixed inner side plate 5 is located at one end of the surface of the inner support plate 2, and one side of the fixed side plate 5 is attached to the side surface of the movable inner side plate 12;

the specific operation is as follows, when wiring is needed, firstly sucking out the hole patching plate 10 by using a sucker, separating the second magnet 9 from the first magnet 8, screwing out the bolt 7 to take the fixed inner side plate 5, exposing partial space in the wall body frame 1, then collecting the rubber strip 2003 into the long groove 19, then manually pushing the movable inner side plate 12 left and right to enable the movable inner side plate to slide along the inside of the sliding groove 4 through the pulley 11, enabling the position of the exposed part to be adjustable, manually holding the U-shaped groove plate 1305 to pull outwards to enable the penetrating rod 1304 to withdraw from between the limiting sawteeth 1303 through the exposed space with the adjustable position, vertically pushing the U-shaped groove plate 1305 to enable the U-shaped groove plate 1305 to adjust the height up and down along the inside of the vertical groove 1302 until the height of the U-shaped groove plate 1305 is matched with the height needed by wiring, then pushing back the U-shaped groove 1305 again to enable the penetrating rod 1304 to enter between the limiting sawteeth 1303 to fix the height, and then wiring is carried out inside the U-shaped groove 1305, and the position of the exposed portion is adjusted by pushing the movable inner side plate 12, so that the exposed portion is subjected to a wiring operation, the corresponding positions of the socket switch part on the surfaces of the fixed inner side plate 5 and the movable inner side plate 12 are drilled, after wiring is finished, the movable inner side plate 12 is pushed back in turn, so that the movable inner side plate 12 at one edge is tightly attached to the wall body frame 1, and the movable inner side plates 12 are also tightly attached to each other, and the movable inner side plate 12 at the other edge is tightly attached to the fixed inner side plate 5, the fixed inner side plate 5 is fixed to the surface of the inner supporting plate 2 again through the bolts 7, the orifice plate 10 is patted into the mounting hole groove 6, the second magnet 9 and the first magnet 8 are mutually adsorbed to prevent the orifice plate 10 from falling, and the surface of the orifice plate 10 is flush with the surface of the fixed inner side plate 5, so that the surfaces of the fixed inner side plate 5 and the movable inner side plate 12 can be painted or wall cloth and wallpaper can be pasted later.

As shown in fig. 1, soundproof cotton 14 is arranged on the right side of the vertical stay 1301, a moisture-proof plate 15 is arranged on the right side of the soundproof cotton 14, and an outer side plate 16 is arranged on the right side of the moisture-proof plate 15;

the soundproof cotton 14 is used for making sound insulation and noise reduction with respect to external sound, the moisture-proof plate 15 is used for preventing external moisture from intruding into the interior of the building, and the outer side plate 16 is an outer standing finish of the wall of the fabricated building.

As shown in fig. 3 and 7, the top and bottom of the fixed inner side plate 5 and the movable inner side plate 12 near the wall frame 1 are provided with first inserting pieces 17, the top and bottom of the side surface of the wall frame 1 are provided with second inserting pieces 18, the top and bottom of the inner wall of the wall frame 1 are further provided with elongated slots 19, the elongated slot 19 is located between the first insertion sheet 17 and the second insertion sheet 18, the reinforcing component 20 is arranged inside the elongated slot 19, the reinforcing component 20 comprises a spring 2001, an elongated plate 2002, a rubber strip 2003 and a slot 2004, the elongated plate 2002 is fixed at one end of the spring 2001 close to the first insertion sheet 17, and the surface of the long plate 2002 close to the first inserting piece 17 is provided with a rubber strip 2003, two sides of the rubber strip 2003 are provided with slots 2004, one side of the rubber strip 2003 is connected with the fixed inner side plate 5 and the movable inner side plate 12 in a clamping way through the slots 2004 and the first inserting piece 17, the other side of the rubber strip 2003 is connected with the wall frame 1 in a clamping mode through a slot 2004 and a second inserting piece 18;

specifically, before pushing the movable inner side plate 12 to adjust the position of the exposed space, two rods with a certain length are needed to make two ends of the rod abut against two ends of the surface of the long plate 2002, so that the rubber strip 2003 is retracted into the long groove 19, at this time, the movable inner side plate 12 is manually pushed left and right to slide along the inside of the sliding groove 4 through the pulley 11, so that the position of the exposed part can be adjusted, after wiring, the two rods are removed, so that the long plate 2002 is reset based on the elastic action of the spring 2001, so that the rubber strip 2003 is inserted between the fixed inner side plate 5, the movable inner side plate 12 and the wall frame 1, at this time, the first insertion piece 17 at the side surfaces of the fixed inner side plate 5 and the movable inner side plate 12 is inserted into the slot 2004 at one side of the rubber strip 2003, and the second insertion piece 18 at the side surface of the wall frame 1 is inserted into the slot 2004 at the other side of the rubber strip 2003, which is favorable for enhancing the limiting effect of the movable inner side plate 12, the utility model discloses a wall body frame 1, including fixed inner decking 5, activity inner decking 12 and wall body frame 1, the joint degree between the activity inner decking 12 takes place to become flexible promptly and still can carry on spacingly to it after becoming flexible, avoids taking place to shift after activity inner decking 12 becomes flexible, and rubber strip 2003 both sides closely laminate with fixed inner decking 5, activity inner decking 12 and wall body frame 1 respectively, can fill the leakproofness between fixed inner decking 5, activity inner decking 12 and wall body frame 1 through rubber strip 2003, and need not the sealed glue of glass glue class, need not chemical substance to green.

As shown in fig. 1-7, the usage of the green energy-saving fabricated building is as follows:

the method comprises the following steps: after the green energy-saving fabricated building is transported to a designated area and a circuit needs to be laid, firstly, the bolts 7 are unscrewed to take down the fixed inner side plates 5, and at the moment, a part of the interior of the wall body frame 1 is exposed;

step two: two rod bodies with certain length are utilized to enable two ends of each rod body to abut against two ends of the surface of the long plate 2002, so that the rubber strips 2003 are retracted into the long grooves 19, and at the moment, the movable inner side plates 12 are manually pushed left and right to slide along the inner part of the sliding groove 4 through the pulleys 11, so that the positions of exposed parts can be adjusted;

step three: manually holding the U-shaped groove plate 1305, pulling outwards to enable the penetrating rod 1304 to exit from the position limiting sawteeth 1303, pushing the U-shaped groove plate 1305 up and down to enable the height of the U-shaped groove plate 1305 to be adjusted up and down along the interior of the vertical groove 1302 until the height of the U-shaped groove plate 1305 is matched with the height required by wiring, and then pushing back the U-shaped groove plate 1305 again to enable the penetrating rod 1304 to enter the position limiting sawteeth 1303 to be fixed in height;

step four: wiring is carried out inside the U-shaped slot plate 1305 after the height of the U-shaped slot plate 1305 is fixed, the position of the exposed part is adjusted by pushing the movable inner side plate 12, so that the exposed part can be conveniently wired, and holes are formed on the corresponding positions of the surfaces of the fixed inner side plate 5 and the movable inner side plate 12 of the socket switch part;

step five: pushing back the movable inner side plate 12 in turn to make the movable inner side plate 12 at one edge tightly attached to the wall frame 1, the movable inner side plates 12 tightly attached to each other, and the movable inner side plate 12 at the other edge tightly attached to the fixed inner side plate 5, at this time, the fixed inner side plate 5 is fixed to the surface of the inner supporting plate 2 again through the bolt 7;

step six: the two rods are removed so that the long plate 2002 is restored based on the elastic action of the spring 2001 so that the rubber strip 2003 is inserted between the fixed inner side plate 5, the movable inner side plate 12 and the wall frame 1, at this time, the first inserting piece 17 of the side surfaces of the fixed inner side plate 5 and the movable inner side plate 12 is inserted into the slot 2004 of one side of the rubber strip 2003, and the second inserting piece 18 of the side surface of the wall frame 1 is inserted into the slot 2004 of the other side of the rubber strip 2003.

In summary, as shown in fig. 1 to 7, when the green energy-saving fabricated building is used, firstly, when wiring is needed, the hole patching plate 10 is sucked out by using the suction cup, at this time, the second magnet 9 is separated from the first magnet 8, then the bolt 7 is screwed out to remove the fixed inner side plate 5, and at this time, a part of space is exposed inside the wall frame 1;

two rod bodies with certain length are utilized to enable two ends of each rod body to abut against two ends of the surface of the long plate 2002, so that the rubber strips 2003 are retracted into the long grooves 19, and at the moment, the movable inner side plates 12 are manually pushed left and right to slide along the inner part of the sliding groove 4 through the pulleys 11, so that the positions of exposed parts can be adjusted;

based on the exposed space with the adjustable position, the U-shaped groove plate 1305 is manually held and pulled outwards to enable the penetrating rod 1304 to exit from the position limiting sawteeth 1303, the U-shaped groove plate 1305 is pushed up and down to enable the height of the U-shaped groove plate 1305 to be adjusted up and down along the interior of the vertical groove 1302 until the height of the U-shaped groove plate 1305 is matched with the height required by wiring, and then the U-shaped groove plate 1305 is pushed back again to enable the penetrating rod 1304 to enter the position limiting sawteeth 1303 to fix the height;

wiring is carried out inside the U-shaped slot plate 1305 after the height of the U-shaped slot plate 1305 is fixed, the position of the exposed part is adjusted by pushing the movable inner side plate 12, so that the exposed part can be conveniently wired, and holes are formed on the corresponding positions of the surfaces of the fixed inner side plate 5 and the movable inner side plate 12 of the socket switch part;

after wiring is finished, the movable inner side plate 12 is pushed back in sequence, the movable inner side plate 12 at one edge is tightly attached to the wall body frame 1, the movable inner side plates 12 are also tightly attached to each other, the movable inner side plate 12 at the other edge is tightly attached to the fixed inner side plate 5, the fixed inner side plate 5 is fixed to the surface of the inner supporting plate 2 again through the bolt 7, the pore supplementing plate 10 is beaten into the mounting hole groove 6, the second magnet 9 and the first magnet 8 are mutually adsorbed to prevent the pore supplementing plate 10 from falling, and the surface of the pore supplementing plate 10 is flush with the surface of the fixed inner side plate 5, so that paint is brushed on the surfaces of the fixed inner side plate 5 and the movable inner side plate 12 or wall cloth wallpaper is pasted on the surface of the fixed inner side plate 5 and the movable inner side plate 12 at the later period;

after wiring, two rod bodies are removed, so that the long plate 2002 is reset based on the elastic action of the spring 2001, the rubber strip 2003 is inserted into the space between the fixed inner side plate 5 and the movable inner side plate 12 and the wall body frame 1, at the moment, the first inserting piece 17 on the side surfaces of the fixed inner side plate 5 and the movable inner side plate 12 is inserted into the slot 2004 on one side of the rubber strip 2003, and the second inserting piece 18 on the side surface of the wall body frame 1 is inserted into the slot 2004 on the other side of the rubber strip 2003, and the arrangement is favorable for enhancing the limiting effect on the movable inner side plate 12, namely, the movable inner side plate 12 can be still limited after the joint degree between the movable inner side plates 12 is loosened, and displacement of the movable inner side plate 12 after the loosening is avoided;

and the two sides of the rubber strip 2003 are respectively tightly attached to the fixed inner side plate 5, the movable inner side plate 12 and the wall body frame 1, the sealing performance between the fixed inner side plate 5, the movable inner side plate 12 and the wall body frame 1 can be filled through the rubber strip 2003, and sealant such as glass cement is not needed, chemical substances are not needed, so that the wall body frame is green and environment-friendly.

Claims

1. A green energy-saving fabricated building comprises a wall frame (1) and a wiring assembly (13), and is characterized in that: the wall body frame is characterized in that an inner supporting plate (2) is fixed to the top and the bottom of the inner wall of the wall body frame (1), a threaded hole (3) is formed in the surface of the inner supporting plate (2), a sliding groove (4) is further formed in the surface of the inner supporting plate (2), the sliding groove (4) is closer to a horizontal central axis of the wall body frame (1) than the threaded hole (3), a fixed inner side plate (5) is attached to the surface of the inner supporting plate (2), a mounting hole groove (6) is formed in the surface of the fixed inner side plate (5), a bolt (7) penetrates through the inner portion of the mounting hole groove (6), a first magnet (8) is fixed to the end surface of the bolt (7), a second magnet (9) is adsorbed to the surface of the first magnet (8), a hole supplementing plate (10) is fixed to the surface of the second magnet (9) far away from the first magnet (8), and a pulley (11) is slidably connected to the inner portion of the sliding groove (4), and one side of pulley (11) is connected with activity interior side plate (12), wiring assembly (13) set up in the middle part of interior fagging (2), wiring assembly (13) include vertical vaulting pole (1301), vertical groove (1302), spacing sawtooth (1303), run through pole (1304) and U type frid (1305), vertical groove (1302) have been seted up at the middle part of vertical vaulting pole (1301), and one side inner wall equidistance of vertical groove (1302) is provided with spacing sawtooth (1303), the inside of vertical groove (1302) is run through and is had run through pole (1304), and the both ends of running through pole (1304) are fixed with U type frid (1305).

2. A green energy-saving fabricated building according to claim 1, wherein: the mounting hole groove (6) is coincided with the threaded hole (3), and the fixed inner side plate (5) is fixedly connected with the inner supporting plate (2) through the bolt (7) and the mounting hole groove (6), the threaded hole (3).

3. A green energy-saving fabricated building according to claim 1, wherein: the outer opening structure of the hole patching plate (10) is matched with the inner opening structure of the mounting hole groove (6), and the surface of the hole patching plate (10) is flush with the surface of the fixed inner side plate (5).

4. The green energy-saving fabricated building of claim 1, wherein: the right side of vertical vaulting pole (1301) is provided with soundproof cotton (14), and the right side of soundproof cotton (14) is provided with dampproof board (15), the right side of dampproof board (15) is provided with outer panel (16).

5. A green energy-saving fabricated building according to claim 1, wherein: the fixed inner side plate (5) is positioned at one end of the surface of the inner supporting plate (2), and one side of the fixed inner side plate (5) is attached to the side surface of the movable inner side plate (12).

6. The green energy-saving fabricated building of claim 1, wherein: the wall body frame is characterized in that the top and the bottom of one side of the fixed inner side plate (5) and the movable inner side plate (12) close to the wall body frame (1) are respectively provided with a first inserting piece (17), and the top and the bottom of the side of the wall body frame (1) are respectively provided with a second inserting piece (18).

7. A green energy-saving fabricated building according to claim 6, wherein: the top and the bottom of the inner wall of the wall body frame (1) are also provided with elongated slots (19), and the elongated slots (19) are positioned between the first inserting pieces (17) and the second inserting pieces (18).

8. A green energy-saving fabricated building according to claim 7, wherein: the novel solar cell module is characterized in that a reinforcing component (20) is arranged in the long groove (19), the reinforcing component (20) comprises a spring (2001), a long plate (2002), a rubber strip (2003) and slots (2004), the long plate (2002) is fixed at one end, close to the first inserting piece (17), of the spring (2001), the rubber strip (2003) is arranged on the surface, close to the first inserting piece (17), of the long plate (2002), and the slots (2004) are formed in two sides of the rubber strip (2003).

9. A green energy-saving fabricated building according to claim 8, wherein: one side of the rubber strip (2003) is connected with the fixed inner side plate (5) and the movable inner side plate (12) in a clamping mode through the slot (2004) and the first inserting sheet (17), and the other side of the rubber strip (2003) is connected with the wall body frame (1) in a clamping mode through the slot (2004) and the second inserting sheet (18).

10. A green energy-saving fabricated building according to any one of claims 1 to 9, wherein: the use method of the green energy-saving assembly type building comprises the following steps:

the method comprises the following steps: after the green energy-saving assembly type building is transported to a designated area and a circuit needs to be laid, firstly screwing off a bolt (7) to take down the fixed inner side plate (5), and at the moment, exposing a part of the interior of the wall body frame (1);

step two: two rod bodies with certain length are utilized to enable two ends of the rod bodies to abut against two ends of the surface of the long plate (2002), so that the rubber strip (2003) is retracted into the long groove (19), and at the moment, the movable inner side plate (12) is manually pushed left and right to slide along the inside of the sliding groove (4) through the pulley (11), so that the position of the exposed part is adjusted;

step three: manually holding the U-shaped groove plate (1305), pulling outwards to enable the penetrating rod (1304) to exit from the position between the limiting sawteeth (1303), pushing the U-shaped groove plate (1305) up and down to enable the height of the U-shaped groove plate (1305) to be adjusted up and down along the interior of the vertical groove (1302) until the height of the U-shaped groove plate (1305) is matched with the height required by wiring, and then pushing back the U-shaped groove plate (1305) again to enable the penetrating rod (1304) to enter the position between the limiting sawteeth (1303) to fix the height;

step four: the U-shaped groove plate (1305) is fixed in height and then is wired inside, the position of the exposed part is adjusted by pushing the movable inner side plate (12), so that the exposed part can be conveniently wired, and holes are formed on the corresponding positions of the surfaces of the fixed inner side plate (5) and the movable inner side plate (12) of the socket switch part;

step five: pushing back the movable inner side plate (12) in turn to enable the movable inner side plate (12) at one edge to be tightly attached to the wall frame (1), the movable inner side plates (12) are also tightly attached to each other, the movable inner side plate (12) at the other edge is tightly attached to the fixed inner side plate (5), and at the moment, the fixed inner side plate (5) is fixed to the surface of the inner supporting plate (2) again through the bolt (7);

step six: and removing the two rod bodies, so that the long plate (2002) is reset based on the elastic action of the spring (2001) to enable the rubber strip (2003) to be inserted between the fixed inner side plate (5), the movable inner side plate (12) and the wall frame (1), at the moment, the first inserting piece (17) on the side surfaces of the fixed inner side plate (5) and the movable inner side plate (12) is inserted into the slot (2004) on one side of the rubber strip (2003), and the second inserting piece (18) on the side surface of the wall frame (1) is inserted into the slot (2004) on the other side of the rubber strip (2003).