CN115405003A

CN115405003A - Ultralow-energy-consumption assembled component

Info

Publication number: CN115405003A
Application number: CN202211255515.7A
Authority: CN
Inventors: 张�浩; 樊英杰
Original assignee: Tangshan Zhuoneng Building Materials Technology Co ltd
Current assignee: Tangshan Zhuoneng Building Materials Technology Co ltd
Priority date: 2022-10-13
Filing date: 2022-10-13
Publication date: 2022-11-29

Abstract

The utility model relates to an ultra-low energy consumption assembled component, which belongs to the technical field of insulation boards and comprises an insulation board, a first steel wire and a second steel wire mesh, wherein a plurality of connecting mechanisms are distributed between the first steel wire mesh and the second steel wire mesh, each connecting mechanism comprises a connecting rod, a first connecting assembly is arranged at one end of the connecting rod close to the first steel wire mesh, and a second connecting assembly is arranged at one end of the connecting rod close to the second steel wire mesh; the first connecting assembly comprises a first mounting plate and a sleeve, the sleeve is fixed with the first mounting plate, the connecting rod penetrates through the first mounting plate and is inserted into the sleeve, and the connecting rod extends out of the sleeve and then is in threaded connection with a clamping nut; first mounting groove has been seted up on the first installation piece, has seted up a plurality of first spliced eye on the first installation piece, and horizontal muscle is in first mounting groove with one of them cross point position of erecting the muscle, is fixed with on the first limiting plate to peg graft the first inserted link of complex with first spliced eye. This application has the effect that increases the joint strength between heated board and the wire net.

Description

Ultralow energy consumption assembled component

Technical Field

The application relates to the technical field of insulation boards, in particular to an ultralow-energy-consumption assembled component.

Background

The cast-in-place concrete outer wall external heat insulation construction technology is characterized in that a heat insulation plate is installed on the inner side of an outer template, steel wire meshes are installed on one side or two sides of the heat insulation plate, and concrete can be poured after the heat insulation plate, the steel wire meshes and the inner and outer templates are connected through connecting pieces. After the concrete is solidified, the steel wire mesh composite heat-insulation plate and the concrete are molded into a whole, and the steel wire mesh composite heat-insulation plate has the advantages of firm fixation, long service life, short construction period and the like.

In order to reduce the workload of site construction, the steel wire mesh composite insulation boards are increasingly adopted in the existing external wall external insulation cast-in-place concrete construction system, namely, the insulation boards and the steel wire meshes are assembled through positioning support pieces in a factory and then transported to the site.

As shown in fig. 1, the insulation board is provided with a first steel wire mesh 2 on one side of the insulation board 1, a second steel wire mesh 3 on the other side of the insulation board 1, a plurality of connecting rods 61 are arranged on the insulation board 1, one ends of the connecting rods 61 are welded and fixed (or fixed by iron wire binding) with steel bar cross points in the first steel wire mesh 2, and the other ends of the connecting rods 61 penetrate through the insulation board 1 and are welded and fixed with the second steel wire mesh 3.

Connecting rod 61 inserts in heated board 1, holds and takes place the skew, leads to connecting rod 61 to wear out heated board 1 back, and the other end of connecting rod 61 deviates the reinforcing bar intersect on the second wire net 3, and when connecting rod 61 welded with second wire net 3, can only with the steel bar welding on the second wire net 3, heated board 1 was low with second wire net 3's joint strength.

Disclosure of Invention

In order to increase the joint strength between heated board and the wire net, this application provides an ultra-low energy consumption assembled component.

The application provides an ultra-low energy consumption assembled component adopts following technical scheme:

an ultra-low energy consumption fabricated component comprises a heat insulation plate, a first steel wire mesh and a second steel wire mesh, wherein the heat insulation plate is positioned between the first steel wire mesh and the second steel wire mesh;

a plurality of connecting mechanisms are uniformly distributed between the first steel wire mesh and the second steel wire mesh, each connecting mechanism comprises a connecting rod, each connecting rod penetrates through the heat insulation board and is perpendicular to the heat insulation board, one end of each connecting rod extends out from one end, far away from the second steel wire mesh, of the first steel wire mesh, one end, far away from the second steel wire mesh, of each connecting rod extends out from one end of the first steel wire mesh, one end, close to the first steel wire mesh, of each connecting rod is provided with a first connecting assembly, each connecting rod is fixed with the first steel wire mesh through a first connecting assembly, one end, close to the second steel wire mesh, of each connecting rod is provided with a second connecting assembly, and one end, close to the second steel wire mesh, of each connecting rod is fixed with the second steel wire mesh through a second connecting assembly;

the first connecting assembly comprises a first mounting plate and a sleeve, the first mounting plate is tightly attached to the heat-insulating plate, the sleeve is fixed with the first mounting plate, the connecting rod penetrates through the first mounting plate and is inserted into the sleeve, and the connecting rod extends out of the sleeve and then is in threaded connection with a clamping nut;

first wire net is formed by a plurality of horizontal muscle and perpendicular muscle cross welding, sheathed tube one side be provided with the fixed first base of first mounting panel, first base is kept away from one side of first mounting panel is provided with first installation piece, first mounting groove has been seted up on the first installation piece, first mounting groove is cross type groove, first installation piece is kept away from a plurality of first spliced eyes have been seted up to one side of first base, first installation piece is kept away from one side of first base is provided with first limiting plate, horizontal muscle is in with one of them crosspoint position of erecting the muscle in the first mounting groove, first limiting plate is close to one side of first installation piece be fixed with the first spliced pole of first spliced eye grafting complex.

Through adopting above-mentioned technical scheme, when being connected first wire net with the heated board, make the connecting rod stretch out from the sleeve pipe and be connected with supporting tight nut, the horizontal muscle of first wire net inserts in first mounting groove with one of them crosspoint position of erecting the muscle, later inserts first spliced pole on the first limiting plate in the first spliced eye to it is fixed with the heated board to fix second wire net with the heated board through second coupling assembling. First wire net and second steel wire and heated board are connected fixedly through a plurality of coupling mechanism between to it is more stable to make first wire net and second wire net be connected with the heated board.

Optionally, the second connecting assembly comprises a second mounting plate and a second base fixed to the second mounting plate, the second mounting plate is tightly attached to the heat insulation plate, a locking bolt is arranged on the second mounting plate, the second mounting plate passes through the locking bolt and is fixed to the heat insulation plate, a second mounting block is fixed to one side, away from the second mounting plate, of the second mounting plate, a second mounting groove is formed in the second mounting block, the structure of a second steel wire mesh is the same as that of the first steel wire mesh, a cross point of a transverse rib and a cross point of a longitudinal rib of the second steel wire mesh are clamped in the second mounting groove, a plurality of second inserting holes are formed in the second mounting block, one end, away from the second base, of the second mounting block is provided with a second limiting plate, one side, close to the second limiting plate, of the second mounting block is fixed with a plurality of second inserting rods in inserting and connecting fit with the second inserting holes, a clamping groove seat fixed to the second mounting plate is formed in one side of the second mounting block, a clamping groove is formed in the clamping seat, and one end, away from the first steel wire mesh and the clamping groove is 90 degrees in bending and the clamping groove.

Through adopting above-mentioned technical scheme, when installing the second wire net, make the connecting rod wear out from the locking bolt, it is fixed with the heated board through the locking bolt with the second mounting panel, the horizontal muscle of second wire net inserts in the second mounting groove with perpendicular muscle cross point position, insert the second spliced pole on the second limiting plate in the second spliced eye, thereby it is fixed with the heated board to fix the second wire net, buckle in the draw-in groove of 90 degrees and joint with the connecting rod, thereby it is fixed with the heated board to fix the second wire net, be convenient for install and strengthened the joint strength of second wire net and heated board.

Optionally, the connecting rod includes head rod, adapter sleeve and second connecting rod, the inside intermediate position of adapter sleeve is fixed with the separation blade, the adapter sleeve with the separation blade is hot melt plastic products, the one end of head rod is inserted the one end of adapter sleeve, the other end of adapter sleeve is inserted to the one end of second connecting rod.

Through adopting above-mentioned technical scheme, the head rod passes through the adapter sleeve with the second connecting rod and is connected, and the adapter sleeve of making through hot melt plastics separates head rod and second connecting rod, through this cold and hot bridge cut-off processing structure, has reduced thermal transmission, has increased the heat preservation effect of heated board.

Optionally, a protruding block is fixed on one of the side walls of the heat-insulating plate, a slot is formed in the other side wall of the heat-insulating plate, the slot is formed in the side wall of the heat-insulating plate opposite to the side wall of the heat-insulating plate on which the protruding block is fixed, and when the heat-insulating plate is installed, one of the protruding blocks of the heat-insulating plate is inserted into the other slot of the heat-insulating plate.

Through adopting above-mentioned technical scheme, when installing the polylith heat preservation, two adjacent heated boards insert the lug of one of them heated board in the slot of another heated board to be convenient for install the heated board.

Optionally, a first connecting frame is arranged between the insulation board and the first steel wire mesh, a second connecting frame is arranged between the second steel wire mesh and the insulation board, a fixing assembly is arranged between the first connecting frame and the second connecting frame, the first connecting frame and the second connecting frame are fixed through the fixing assembly, the first connecting frame comprises a horizontal plate and a vertical plate, the horizontal plate is perpendicular to and fixed to the vertical plate, a circle of first clamping groove is formed in the side wall of the insulation board, the vertical plate of the first connecting frame is inserted into the first clamping groove, the horizontal plate of the first connecting frame is in contact with the insulation board, and the second connecting frame is identical in structure to the first connecting frame;

the heated board has been seted up the second draw-in groove on being close to the lateral wall of second connection frame, the vertical board of second connection frame inserts in the second draw-in groove, the horizontal plate of second connection frame with the heated board contact, fixed subassembly includes the connecting plate, the spread groove has been seted up on the lateral wall of heated board, sets up the lateral wall of the heated board of spread groove with fixed the lateral wall of the heated board of lug sets up perpendicularly, the connecting plate is located in the spread groove, the connecting plate is close to the lateral wall of first connection frame with the lateral wall parallel and level of heated board, the one end of connecting plate with first connection frame passes through fix with rivet, the other end of connecting plate with the second connection frame passes through fix with rivet.

Through adopting above-mentioned technical scheme, when installing first steel mesh and second steel mesh, install first carriage and second carriage on the heated board earlier, put the spread groove with the connecting plate, make the vertical board of first carriage insert in the first draw-in groove of heated board, the horizontal plate and the heated board contact of first carriage, later insert the vertical board of second carriage in the second draw-in groove of heated board, make the horizontal plate and the heated board contact of second carriage, it is fixed with first carriage and second carriage with the connecting plate through the rivet afterwards, thereby fix first carriage and second carriage on the heated board, through this kind of mode, be convenient for fix first carriage and second carriage.

Optionally, the connecting plate is made of a teflon plate.

Through adopting above-mentioned technical scheme, the polytetrafluoroethylene board can reduce thermal transmission to the thermal insulation performance of heated board has been increased.

Optionally, a gasket is arranged between two adjacent insulation boards.

Through adopting above-mentioned technical scheme, the gasket can increase the leakproofness between two heated boards.

Optionally, first accommodating grooves are formed in the sides, close to each other, of the two heat insulation plates, the first accommodating grooves are located on one side of the first connecting frame, the first accommodating groove in one of the heat insulation plates and the first accommodating groove in the other heat insulation plate correspond to each other and are communicated with each other, a split bolt is arranged in each first accommodating groove, the split bolt penetrates through the first connecting frames on the two heat insulation plates, and both ends of the split bolt are in threaded connection with first locking nuts;

the second holding tank has all been seted up to one side that two heated boards are close to each other, the second holding tank is located one side of second connecting frame, also be provided with split bolt in the second holding tank, split bolt runs through two second connecting frame and the first lock nut of threaded connection on the heated board.

Through adopting above-mentioned technical scheme, when installing two heated boards, put into the split bolt in the first holding tank, make the split bolt run through the first connecting frame on two heated boards, later fix the first connecting frame on two heated boards through first lock nut. Then put into the split bolt in the second holding tank, make the split bolt run through the second link on two heated boards, later fixed with the second link on two heated boards through first lock nut, be convenient for assemble a plurality of heated boards.

Optionally, the both sides of heated board all are provided with the light mortar layer, first wire net with the second wire net all is located in the light mortar layer, one side of light mortar layer is provided with the reservation groove, and when will two when the heated board is connected, two reservation groove on the light mortar layer on the heated board constitutes a reinforcing groove, be provided with first mortar layer and second mortar layer in the reinforcing groove, be provided with net cloth between first mortar layer and the second mortar layer, the lateral wall of second mortar layer with the lateral wall parallel and level on light mortar layer.

Through adopting above-mentioned technical scheme, put first mortar layer, net cloth and second mortar layer in the reinforcing groove after installing the heated board on the wall to the joint strength between two heated boards has further been increased.

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

1. the first steel wire mesh and the second steel wire are fixedly connected with the heat insulation board through a plurality of connecting mechanisms, so that the first steel wire mesh and the second steel wire mesh are more stably connected with the heat insulation board;

2. the polytetrafluoroethylene plate can reduce the heat transfer, so that the heat insulation performance of the heat insulation plate is improved;

3. the first connecting rod is connected with the second connecting rod through the connecting sleeve, the connecting sleeve made of hot-melt plastic separates the first connecting rod from the second connecting rod, and the structure is processed through the cold and hot bridge broken bridge, so that the heat transfer is reduced, and the heat preservation effect of the heat preservation plate is improved.

Drawings

Fig. 1 is a schematic structural view embodying the related art.

Fig. 2 is a schematic diagram of an overall structure embodying the present application.

Fig. 3 is a schematic view of a thermal insulation panel and a first steel mesh embodying the present application.

Fig. 4 is a schematic diagram of an insulation board and a second steel wire mesh embodying the present application.

Fig. 5 is a schematic view of a heat-insulating plate, a first card slot and a first connecting frame in the present application.

Fig. 6 is a schematic view of a connecting rod embodying the present application.

Fig. 7 is a schematic diagram of a first connection assembly and a first steel wire mesh embodying the present application.

Fig. 8 is a schematic view of an explosive structure of a first coupling assembly embodying the present application.

Fig. 9 is a schematic diagram of a second connector assembly and a second wire mesh embodying the present application.

Fig. 10 is a schematic illustration of an explosive structure embodying the second connecting assembly of the present application.

Fig. 11 is a schematic view of a locking bolt embodying the present application.

Fig. 12 is a schematic view of a first accommodating groove embodying the present application.

Fig. 13 is a schematic view of a split bolt embodying the present application.

Fig. 14 isbase:Sub>A schematic cross-sectional view showingbase:Sub>A-base:Sub>A in fig. 13.

Description of reference numerals: 1. a heat-insulating board; 11. a first card slot; 12. a second card slot; 13. a bump; 14. a slot; 15. connecting grooves; 16. a gasket; 17. a first accommodating groove; 171. oppositely pulling the bolts; 172. a first lock nut; 18. a second accommodating groove; 19. a third accommodating groove; 191. an expansion screw; 192. a second lock nut; 2. a first steel wire mesh; 3. a second steel wire mesh; 4. a first connection frame; 41. a horizontal plate; 42. a vertical plate; 5. the second connecting frame 6, the connecting mechanism 61 and the connecting rod; 611. a first connecting rod; 612. connecting sleeves; 6121. a baffle plate; 613. a second connecting rod; 62. a first connection assembly; 621. a first mounting plate; 622. a first limit plate; 6221. a first plugging rod; 623. a sleeve; 624. tightly abutting the nut; 625. a first base; 626. a first mounting block; 6261. a first mounting groove; 6262. a first plug hole; 63. A second connection assembly; 631. a second mounting plate; 632. a second base; 633. a second mounting block; 6331. a second mounting groove; 6332. a second plug hole; 634. a second limiting plate; 6341. a second plug-in rod; 635. a guide sleeve; 636. locking the bolt; 6361. a through hole; 637. a buckle seat; 6371. a limiting groove; 7. a fixing component; 71. a connecting plate; 72. riveting; 8. a light mortar layer; 9. a reinforcement groove; 91. reserving a groove; 92. a first mortar layer; 93. a mesh cloth; 94. and a second mortar layer.

Detailed Description

The present application is described in further detail below with reference to fig. 2-14.

The embodiment of the application discloses an ultralow-energy-consumption assembled component. Referring to fig. 2, 3 and 4, ultra-low energy consumption assembled component includes heated board 1, and one side of heated board 1 is provided with first wire net 2, and the opposite side of heated board 1 is provided with second wire net 3, and first wire net 2 is formed by the reinforcing bar of a plurality of horizontal settings and the steel reinforcement welding of a plurality of vertical settings, and the structure of second wire net 3 is the same with the structure of first wire net 2.

Heated board 1 is located between first wire net 2 and the second wire net 3, is connected with first link frame 4 between first wire net 2 and the heated board 1, is connected second link frame 5 between second wire net 3 and the heated board 1, all has 3 mm's clearance between first wire net 2 and second wire net 3 and the heated board 1, and the light mortar layer 8 that has 5mm thick is pour to the both sides of heated board 1. First wire net 2 and second wire net 3 all are located light mortar inside.

When producing the assembled component, in the mill, install first wire net 2 and second wire net 3 on heated board 1 earlier, later pour light mortar layer 8, dry the back with light mortar layer 8, transport this assembled component and install on the building site. Connect heated board 1, first wire net 2 and second wire net 3 and pour light mortar layer 8 in the mill, this kind of assembled component material saving to be convenient for install at the job site.

Referring to fig. 3, 4 and 5, the insulation board 1 is provided with a connecting mechanism 6, and the first steel wire mesh 2 and the second steel wire mesh 3 are connected through the connecting mechanism 6. The cross section of the first connection frame 4 is T-shaped, the first connection frame 4 comprises a horizontal plate 41 and a vertical plate 42, and the horizontal plate 41 is fixed with the vertical plate 42 and is arranged perpendicular to the vertical plate 42. The outer side wall of one side of the insulation board 1 close to the first connecting frame 4 is provided with a first clamping groove 11, the first clamping groove 11 is arranged along the periphery of the insulation board 1 for a circle, the vertical plate 42 of the first connecting frame 4 is inserted into the first clamping groove 11, and the horizontal plate 41 of the first connecting frame 4 is in contact with one side of the insulation board 1 far away from the second steel wire mesh 3.

Be provided with second connecting frame 5 between second wire net 3 and heated board 1, the structure of second connecting frame 5 is the same with the structure of first connecting frame 4. The outer side wall of one side of the insulation board 1 close to the second connecting frame 5 is provided with a second clamping groove 12, the second clamping groove 12 is arranged in a circle along the periphery of the insulation board 1, the vertical plate 42 of the second connecting frame 5 is inserted into the second clamping groove 12, and the horizontal plate 41 of the second connecting frame 5 is in contact with one side of the insulation board 1 far away from the first steel wire mesh 2.

Be fixed with lug 13 on the lateral wall of heated board 1, seted up slot 14 on another lateral wall of heated board 1, lug 13 and slot 14 are located heated board 1 two relative lateral walls, and when installing two heated boards 1, lug 13 on a heated board 1 inserts in slot 14 on another heated board 1.

Be provided with fixed subassembly 7 between first linking frame 4 and the second linking frame 5, first linking frame 4 and second linking frame 5 are fixed through fixed subassembly 7. The fixing component 7 comprises a connecting plate 71, a connecting groove 15 is formed in the side wall of the heat insulation plate 1, and the side wall of the heat insulation plate 1, where the connecting groove 15 is formed, is perpendicular to the side wall of the fixing bump 13. The connecting plate 71 is located in the connecting groove 15, one end of the connecting plate 71 is fixed to the first connecting frame 4 by a rivet 72, and the other end of the connecting plate 71 is fixed to the second connecting frame 5 by a rivet 72. When installing first wire net 2 and second wire net 3, install first link frame 4 and second link frame 5 earlier.

Referring to fig. 6, 7 and 8, coupling mechanism 6 includes connecting rod 61, and connecting rod 61 sets up with heated board 1 is perpendicular, and heated board 1 all stretches out at the both ends of connecting rod 61, and the one end of connecting rod 61 is provided with first connecting element 62, and connecting rod 61 is connected fixedly through first connecting element 62 and first wire net 2.

The connecting rod 61 comprises a first connecting rod 611, a connecting sleeve 612 and a second connecting rod 613, the first connecting rod 611 and the second connecting rod 613 are both steel bars, and the connecting sleeve 612 is made of hot-melt plastic. A baffle 6121 is fixed at the middle position inside the connecting sleeve 612, one end of the first connecting rod 611 is inserted into the connecting sleeve 612, one end of the second connecting rod 613 is also inserted into the connecting sleeve 612, and the first connecting rod 611 and the second connecting rod 613 are separated by the baffle 6121. When the insulation board 1 is produced, the connecting rod 61 and the insulation board 1 are integrally formed.

When assembling the connecting rod 61, one end of the first connecting rod 611 and one end of the second connecting rod 613 are heated, and then the heated ends of the first connecting rod 611 and the second connecting rod 613 are inserted into the connecting sleeve 612, respectively, so that the connecting sleeve 612 is fixed to the first connecting rod 611 and the second connecting rod 613. The first connecting rod 611 and the second connecting rod 613 are fixed by the connecting sleeve 612, so that the heat transfer is reduced, and the heat preservation effect of the heat preservation plate 1 is improved.

The first connecting assembly 62 comprises a first mounting plate 621, one side of the first mounting plate 621 is tightly attached to the heat insulation plate 1, a sleeve 623 is fixed on one side of the first mounting plate 621 away from the heat insulation plate 1, and the first connecting rod 611 penetrates through the first mounting plate 621 and penetrates through the sleeve 623. One end of the first connecting rod 611 far away from the connecting sleeve 612 is threaded, and one end of the first connecting rod 611 far away from the connecting sleeve 612 is threaded with a fastening nut 624. The tightening nut 624 tightens the sleeve 623, thereby fixing the first mounting plate 621 to the heat insulation plate 1. The first mounting plate 621 is provided with a screw, and the first mounting plate 621 is further fixed with the heat insulation plate 1 through the screw.

One side of sleeve 623 is provided with first base 625, and first base 625 is fixed with first mounting panel 621, and one side that first base 625 kept away from first mounting panel 621 is fixed with first installation piece 626, has seted up first mounting groove 6261 on the first installation piece 626, and first mounting groove 6261 is cross type groove, and one side that first base 625 was kept away from to first installation piece 626 is provided with first limiting plate 622.

A plurality of first plug-in holes 6262 have been seted up to one side that first installation piece 626 is close to first limiting plate 622, and one side that first limiting plate 622 is close to first plug-in hole 6262 is fixed with a plurality of first plug-in poles 6221, a plurality of first plug-in poles 6221 and a plurality of first plug-in holes 6262 one-to-one, first plug-in pole 6221 and the cooperation of pegging graft of first plug-in hole 6262. One of them crosspoint of horizontal muscle and the perpendicular muscle of first wire net 2 blocks in first mounting groove 6261, and first wire net 2 is located between first installation piece 626 and first mounting groove 6261.

Referring to fig. 9, 10 and 11, one end of the connecting rod 61, which is far away from the first steel wire mesh 2, is provided with a second connecting assembly 63, and the second connecting assembly 63 fixes the connecting rod 61 and the second steel wire mesh 3. The second connecting assembly 63 includes a second mounting plate 631, one side of the second mounting plate 631 clings to the heat insulation board 1, and the second mounting plate 631 is located on one side of the heat insulation board 1 far away from the first mounting plate 621.

One side that heated board 1 was kept away from to second mounting panel 631 is fixed with second base 632, and the one end that heated board 1 was kept away from to second base 632 is fixed with second installation piece 633, has seted up second mounting groove 6331 on the second installation piece 633, and second mounting groove 6331 is cross type groove, and the horizontal muscle of second wire net 3 and one of them crosspoint card of erecting the muscle are in second mounting groove 6331.

One side that second installation piece 633 kept away from second base 632 is provided with second limiting plate 634, be fixed with a plurality of second spliced poles 6341 on the second limiting plate 634, one side that second installation piece 633 is close to second limiting plate 634 is provided with a plurality of second spliced eyes 6332, a plurality of second spliced poles 6341 and a plurality of second spliced eyes 6332 one-to-one, second spliced pole 6341 and the cooperation of pegging graft of the second spliced eye 6332 that corresponds to restrict second wire net 3 between second installation piece 633 and second limiting plate 634.

One side of second base 632 is provided with uide bushing 635, and uide bushing 635 and second mounting panel 631 are fixed, is provided with locking bolt 636 in the uide bushing 635, and locking bolt 636 runs through uide bushing 635 and second mounting panel 631 and with heated board 1 threaded connection. The locking bolt 636 has a through hole 6361, and the second connecting rod 613 extends out of the through hole 6361.

One side of the second mounting block 633 is provided with a buckle seat 637, the bottom of the buckle seat 637 is fixed to the second mounting plate 631, the buckle seat 637 is provided with a limit groove 6371, and the second connecting rod 613 extends out of the through hole 6361 and then bends 90 degrees and is clamped in the limit groove 6371, so that one end of the second connecting rod 613, which is far away from the connecting sleeve 612, is limited.

Referring to fig. 12, 13 and 14, a gasket 16 is arranged on the side where the two insulation boards 1 contact with each other, and the gasket 16 increases the sealing effect. A plurality of first holding tanks 17 have all been seted up to one side that two heated boards 1 are close to each other, first holding tank 17 is located the one side that is close to first holding frame 4, first holding tank 17 one-to-one on two heated boards 1 sets up, be provided with a split bolt 171 in the first holding tank 17 of two correspondences, the both ends of split thread are located two corresponding first holding tanks 17 respectively, split bolt 171 runs through first holding frame 4 on one of them heated board 1 and the first holding frame 4 on another heated board 1, the end threaded connection of split bolt 171 has first lock nut 172.

A plurality of second holding grooves 18 have all been seted up to one side that two heated boards 1 are close to each other, and second holding groove 18 is located one side that is close to second connecting frame 5, also is provided with split bolt 171 in two second holding grooves 18 that correspond each other, and split bolt 171's both ends also are provided with this split bolt 171 threaded connection's first lock nut 172.

When installing heated board 1, heated board 1 has seted up third holding tank 19 on being close to one side on ground, and subaerial inflation screw 191 of installing, when being connected heated board 1 and ground, inflation screw 191 runs through first carriage 4 and threaded connection has second lock nut 192.

The one side that the light mortar layer 8 of two heated boards 1 is close to each other all is provided with the reservation groove 91, and reservation groove 91 sets up along heated board 1's direction of height, connects two heated boards 1 back, and a reinforcing groove 9 is constituteed to reservation groove 91 on two light mortar layers 8, is provided with first mortar layer 92, net cloth 93 and second mortar layer 94 in the reinforcing groove 9. The mesh cloth 93 is positioned between the first mortar layer 92 and the second mortar layer 94, and the side of the second mortar layer 94 far away from the first mortar layer 92 is flush with the outer side wall of the light mortar layer 8. The mesh cloth 93 layer has a function of reinforcing the crack resistance of the first mortar layer 92 and the second mortar layer 94.

The implementation principle of the ultralow-energy-consumption assembled component in the embodiment of the application is as follows: when installing heated board 1 and first wire net 2 and second wire net 3, put into spread groove 15 with connecting plate 71 earlier, be connected first carriage 4 and second carriage 5 with heated board 1, later fixed with the one end of connecting plate 71 and first carriage 4 through rivet 72, pass through rivet 72 with the other end of connecting plate 71 and fix with second carriage 5.

Then, the first steel wire mesh 2 is placed on the side of the first connection frame 4 away from the second connection frame 5, and one end of the first connection rod 611 extends out of the sleeve 623 and is screwed with the fastening nut 624, so that the first mounting plate 621 is fixed. Make the horizontal muscle of first wire net 2 and erect muscle intersect the position and insert in first mounting groove 6261 to insert first spliced pole 6221 on the first limiting plate 622 into first spliced eye 6262, thereby it is fixed with heated board 1 with first wire net 2.

When installing second wire net 3, place second wire net 3 second connecting frame 5 and keep away from one side of first connecting frame 4, make second connecting rod 613 wear out from locking bolt 636, it is fixed with heated board 1 with second mounting panel 631 through locking bolt 636, the horizontal muscle and the perpendicular muscle crossing point position of second wire net 3 insert in second mounting groove 6331, insert second spliced pole 6341 on the second limiting plate 634 in second spliced eye 6332, thereby it is fixed with heated board 1 to mesh second wire 3, the one end of keeping away from first connecting rod 611 with second connecting rod 613 stretches out the back from through-hole 6361 and buckles 90 degrees and block in spacing groove 6371.

And then pouring the light mortar layers 8 on the two sides of the insulation board 1, and after the insulation board 1 is aired after pouring is finished, transporting the insulation board 1 to a construction site to install the insulation board 1.

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

1. An ultra-low energy consumption fabricated component, characterized in that: the insulation board comprises an insulation board (1), a first steel wire mesh (2) and a second steel wire mesh (3), wherein the insulation board (1) is positioned between the first steel wire mesh (2) and the second steel wire mesh (3);

a plurality of connecting mechanisms (6) are uniformly distributed between the first steel wire mesh (2) and the second steel wire mesh (3), each connecting mechanism (6) comprises a connecting rod (61), each connecting rod (61) penetrates through the heat insulation board (1) and is perpendicular to the heat insulation board (1), one end of each connecting rod (61) extends out from one end, far away from the second steel wire mesh (3), of the first steel wire mesh (2), one end, far away from the second steel wire mesh (3), of each connecting rod (61) extends out from one end of the first steel wire mesh (2), one end, close to the first steel wire mesh (2), of each connecting rod (61) is provided with a first connecting assembly (62), each connecting rod (61) is fixed with the first steel wire mesh (2) through the corresponding first connecting assembly (62), one end, close to the second steel wire mesh (3), of each connecting rod (61) is provided with a second connecting assembly (63), and one end, close to the second steel wire mesh (3), of each connecting rod (61) is fixed with the second steel wire mesh (3) through the corresponding second connecting assembly (63);

the first connecting assembly (62) comprises a first mounting plate (621) and a sleeve (623), the first mounting plate (621) is tightly attached to the insulation board (1), the sleeve (623) is fixed to the first mounting plate (621), the connecting rod (61) penetrates through the first mounting plate (621) and is inserted into the sleeve (623), and the connecting rod (61) extends out of the sleeve (623) and then is in threaded connection with a pressing nut (624);

the first steel wire mesh (2) is formed by cross welding of a plurality of transverse ribs and vertical ribs, one side of a sleeve (623) is provided with a first base (625) fixed to the first mounting plate (621), one side, away from the first mounting plate (621), of the first base (625) is provided with a first mounting block (626), a first mounting groove (6261) is formed in the first mounting block (626), the first mounting groove (6261) is a cross-shaped groove, one side, away from the first base (625), of the first mounting block (626) is provided with a plurality of first plug-in holes (6262), one side, away from the first base (625), of the first mounting block (626) is provided with a first limiting plate (622), one of cross points of the transverse ribs and the vertical ribs is located in the first mounting groove (6261), and one side, close to the first mounting block (626), of the first limiting plate (622) is fixed with a first plug-in rod (6221) matched with the first plug-in holes (6262).

2. An ultra low energy consumption fabricated component according to claim 1, wherein: the second connecting assembly (63) comprises a second mounting plate (631) and a second base (632) fixed with the second mounting plate (631), the second mounting plate (631) is tightly attached to the heat insulation plate (1), a locking bolt (636) is arranged on the second mounting plate (631), the second mounting plate (631) is fixed with the heat insulation plate (1) through the locking bolt (636), one side, far away from the second mounting plate (631), of the second base (632) is fixed with a second mounting block (633), a second mounting groove (6331) is formed in the second mounting block (633), the structure of the second steel wire mesh (3) is the same as that of the first steel wire mesh (2), one cross point of a transverse rib and one cross point of a longitudinal rib of the second steel wire mesh (3) is clamped in the second mounting groove (6331), a plurality of second inserting holes (6332) are formed in the second mounting block (633), one side, far away from the second base (632), of the second mounting block (633) is provided with a second inserting hole (634), and one side of the second mounting block (637) is provided with a plurality of second inserting holes (6332), and one side of the second mounting block (637) is provided with a plurality of second inserting holes (637) which is matched with a second inserting rod (637) fixed with a second fixing base (637), limiting groove (6371) have been seted up on buckle seat (637), connecting rod (61) are kept away from the one end of first wire net (2) is buckled 90 degrees and with limiting groove (6371) joint.

3. An ultra low energy consumption fabricated component according to claim 1 or 2, wherein: the connecting rod (61) comprises a first connecting rod (611), a connecting sleeve (612) and a second connecting rod (613), a blocking piece (6121) is fixed at the middle position inside the connecting sleeve (612), the connecting sleeve (612) and the blocking piece (6121) are hot-melt plastic products, one end of the first connecting rod (611) is inserted into one end of the connecting sleeve (612), and one end of the second connecting rod (613) is inserted into the other end of the connecting sleeve (612).

4. An ultra low energy consumption fabricated component according to claim 1, wherein: be fixed with lug (13) on one of them lateral wall of heated board (1), be provided with slot (14) on another lateral wall of heated board (1), seted up slot (14) heated board (1) lateral wall sets up with being fixed with lug (13) heated board (1) lateral wall is relative, when two when heated board (1) is installed, one of them lug (13) of heated board (1) insert another in slot (14) of heated board (1).

5. An ultra low energy consumption fabricated component according to claim 4, wherein: a first connecting frame (4) is arranged between the heat insulation board (1) and the first steel wire mesh (2), a second connecting frame (5) is arranged between the second steel wire mesh (3) and the heat insulation board (1), a fixing component (7) is arranged between the first connecting frame (4) and the second connecting frame (5), and the first connecting frame (4) and the second connecting frame (5) are fixed through the fixing component (7);

the first connecting frame (4) comprises a horizontal plate (41) and a vertical plate (42), the horizontal plate (41) is perpendicular to and fixed with the vertical plate (42), a circle of first clamping grooves (11) are formed in the side wall of the heat insulation plate (1), the vertical plate (42) of the first connecting frame (4) is inserted into the first clamping grooves (11), the horizontal plate (41) of the first connecting frame (4) is in contact with the heat insulation plate (1), and the structure of the second connecting frame (5) is the same as that of the first connecting frame (4);

the insulation board (1) is close to the side wall of the second connecting frame (5), a second clamping groove (12) is formed in the side wall of the second connecting frame (5), the vertical plate (42) of the second connecting frame (5) is inserted into the second clamping groove (12), the horizontal plate (41) of the second connecting frame (5) is in contact with the insulation board (1), the fixing component (7) comprises a connecting plate (71), a connecting groove (15) is formed in the side wall of the insulation board (1), the side wall of the insulation board (1) of the connecting groove (15) is perpendicular to the side wall of the insulation board (1) of the protruding block (13), the connecting plate (71) is located in the connecting groove (15), the connecting plate (71) is close to the side wall of the first connecting frame (4) and the side wall of the insulation board (1) are parallel and level, one end of the connecting plate (71) is fixed with the first connecting frame (4) through a rivet (72), and the other end of the connecting plate (71) is fixed with the second connecting frame (5) through a rivet (72).

6. An ultra low energy consumption fabricated component according to claim 5, wherein: the connecting plate (71) is made of a polytetrafluoroethylene plate.

7. An ultra-low energy consumption fabricated component of claim 5, wherein: and a gasket (16) is arranged between two adjacent heat insulation plates (1).

8. An ultra low energy consumption fabricated component according to claim 7, wherein: first accommodating grooves (17) are formed in one side, close to each other, of each of the two heat insulation plates (1), the first accommodating grooves (17) are located on one side of the first connecting frame (4), the first accommodating groove (17) in one of the heat insulation plates (1) corresponds to and is communicated with the first accommodating groove (17) in the other heat insulation plate (1), a split bolt (171) is arranged in each first accommodating groove (17), the split bolt (171) penetrates through the first connecting frames (4) on the two heat insulation plates (1), and two ends of the split bolt (171) are in threaded connection with first locking nuts (172);

second holding tank (18) have all been seted up to one side that two heated board (1) are close to each other, second holding tank (18) are located one side of second link (5), also be provided with split bolt (171) in second holding tank (18), split bolt (171) run through two second link (5) and threaded connection first lock nut (172) on heated board (1).

9. An ultra-low energy consumption fabricated component of claim 1, wherein: the both sides of heated board (1) all are provided with light mortar layer (8), first wire net (2) with second wire net (3) all are located in light mortar layer (8), one side of light mortar layer (8) is provided with reserve tank (91), and is when with two when heated board (1) is connected, two reserve tank (91) on light mortar layer (8) on heated board (1) constitute one enhancement groove (9), be provided with first mortar layer (92) and second mortar layer (94) in enhancement groove (9), be provided with net cloth (93) between first mortar layer (92) and second mortar layer (94), the lateral wall of second mortar layer (94) with the lateral wall parallel and level of light mortar layer (8).