CN218061022U - Energy-saving foundation structure of assembled building wall - Google Patents

Abstract

The utility model discloses an energy-conserving foundation structure of assembled building wall, relate to assembled building wall technical field, including the wallboard, one side of wallboard is connected with the second spliced pole, the another side of wallboard is connected with first spliced pole, the junction of first spliced pole and second spliced pole is connected with a plurality of connecting bolt, this structure can realize the quick block between the two through the spread groove of first spliced pole and the block groove of second spliced pole, cooperation connecting bolt can make and to fix fast between a plurality of wallboards, fixed connection is convenient, the assistance of supports such as mount has been reduced, reduce the installation consumptive material, the installation effectiveness has been improved, energy-conserving effect has been realized, and through a plurality of inserted blocks and activity groove and coupling spring, the whole segmentation absorptive capacity to external force of wallboard has been increased, the intensity of wallboard has been improved, and connect in the inside connecting strip of first bracing piece and second bracing piece, can increase the fore-aft toughness of wallboard, improve the stability after the installation, prevent that it from rocking.

Description

Energy-saving foundation structure of assembled building wall

Technical Field

The utility model relates to an assembly type building wall technical field specifically is an energy-conserving foundation structure of assembly type building wall.

Background

Through the retrieval, chinese patent discloses an energy-conserving foundation structure of assembled building wall (notice number CN 211597360U), this patent technique includes the wallboard frame, be wavy on two opposite lateral walls of wallboard frame, and the both ends of wallboard frame are provided with coupling mechanism, coupling mechanism includes the square frame of fixed welding in wallboard frame one end wherein and the splint of fixed welding at two symmetries of wallboard frame other end, the through-hole has been seted up to the inside of square frame, and fixed welding has the bolt base with through-hole assorted on the inner wall of square frame, the through-hole is evenly distributed on the height of wallboard frame. Through setting up hollow wallboard frame to be designed with the strengthening rib in the wallboard frame, hollow wallboard frame can remain the heat-proof quality of building wall, and the strengthening rib also can strengthen the structural strength of building wall, has reduced foam polymeric material's use, has reduced the waste of consumables, has reached energy saving and emission reduction effect, and the practicality is strong, is fit for promoting.

In above-mentioned patent and prior art, reduced foam polymeric material's use, reduced the waste of consumables, but this structure is when in actual use, can't realize the fixed effect of fast assembly, need additionally build the steelframe and come its to be fixed in installation department, and the installation that assembled building wall need can be convenient fast is fixed, need not to consume unnecessary civil engineering material and can accomplish the building combination of wall body, realizes the actual function of wall body.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an energy-conserving foundation structure of assembled building wall has solved the fixed problem of unable realization rapid Assembly.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an energy-saving foundation structure of an assembly type building wall comprises a wallboard, wherein one side of the wallboard is connected with a second connecting column, the other side surface of the wallboard is connected with a first connecting column, and a plurality of connecting bolts are connected at the joint of the first connecting column and the second connecting column;

the wallboard includes the frame, the inboard of frame is provided with the support element, the upper and lower surface of frame all is connected with the apron.

As a further technical scheme of the utility model, the supporting element includes a plurality of first bracing pieces, and is a plurality of the both sides of first bracing piece all are connected with the second bracing piece, a plurality of flexible grooves have all been seted up to the upper and lower surface of first bracing piece and second bracing piece, the both ends of first bracing piece and second bracing piece all are connected with the connector.

As a further technical scheme of the utility model, a block groove has been seted up on a side surface of second spliced pole, the spread groove has been seted up with block groove correspondence in the surface of first spliced pole, two be connected through first spliced pole and second spliced pole and connecting bolt between the wallboard, just the surface of wallboard and first spliced pole and second spliced pole has all been scribbled fire retardant coating.

As a further technical scheme of the utility model, the inside wall of frame and the both ends face that runs through supporting element are connected with a plurality of strengthening ribs, two be connected with the connecting strip between the connector, the connecting strip runs through and is connected with the surface of connector in the both ends face of first bracing piece and second bracing piece, the both sides of first bracing piece all are connected with a plurality of insertion pieces.

As a further technical scheme of the utility model, it is a plurality of the surface of piece all is connected with two coupling springs inserts, the lower surface of second bracing piece both sides all corresponds with the slip path of inserting the piece and has seted up the activity groove, coupling spring's one end is connected in the inside wall in activity groove.

As a further technical scheme of the utility model, it is a plurality of first bracing piece and second bracing piece all are dislocation interval distribution, the connecting strip is the alloy material of high tenacity, the internal diameter size of activity groove and the slip path looks adaptation of insertion piece, the inside packing of outer frame has the heat preservation cotton.

Advantageous effects

The utility model provides an energy-conserving foundation structure of assembled building wall. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides an energy-conserving foundation structure of assembled building wall, first spliced pole and the second spliced pole through the wallboard both sides can realize the quick aggregate erection between the wallboard, and the spread groove of first spliced pole and the block groove of second spliced pole can realize the quick block between the two, cooperation connecting bolt can make can quick fixed between a plurality of wallboards, and fixed connection is convenient, the assistance of supports such as mount has been reduced, reduce the installation consumptive material, the installation effectiveness is improved, energy-conserving effect has been realized.

2. The utility model provides an energy-conserving foundation structure of assembled building wall, a plurality of inserts through first bracing piece both sides and closes the movable groove of the department that corresponds with second bracing piece surface to cooperation movable inslot's connecting spring has increased the whole segmentation absorbing capacity to external force of wallboard, has improved the intensity of wallboard, and the inside connecting strip of first bracing piece and second bracing piece can increase the fore-and-aft toughness of wallboard, improve the stability after the installation, prevent that it from rocking.

Drawings

FIG. 1 is a schematic structural view of an energy-saving foundation structure of a prefabricated building wall;

FIG. 2 is a top view of an energy saving infrastructure of a prefabricated building wall;

FIG. 3 isbase:Sub>A cross-sectional view A-A of FIG. 2 of an energy saving infrastructure ofbase:Sub>A prefabricated building wall;

FIG. 4 is an exploded view of an energy saving infrastructure of a prefabricated building wall;

fig. 5 is a schematic view illustrating a connection structure of a first support bar and a second support bar of an energy-saving foundation structure of a prefabricated building wall.

In the figure: 1. a wallboard; 11. an outer frame; 12. a cover plate; 13. a support unit; 131. a first support bar; 132. a telescopic groove; 133. a connector; 134. an insertion block; 135. a connecting spring; 136. a movable groove; 137. a second support bar; 138. a connecting strip; 14. reinforcing ribs; 2. a first connecting column; 21. connecting grooves; 3. a second connecting column; 31. a clamping groove; 4. and connecting the bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the utility model provides an energy-saving foundation structure technical scheme of prefabricated building wall: the utility model provides an energy-conserving foundation structure of assembled building wall, includes wallboard 1, and one side of wallboard 1 is connected with second spliced pole 3, and wallboard 1's another side is connected with first spliced pole 2, and the junction of first spliced pole 2 and second spliced pole 3 is connected with a plurality of connecting bolt 4, and wallboard 1 includes frame 11, and the inboard of frame 11 is provided with support element 13, and the upper and lower surface of frame 11 all is connected with apron 12.

As shown in fig. 3-4, the supporting unit 13 includes a plurality of first supporting rods 131, both sides of the plurality of first supporting rods 131 are connected with the second supporting rod 137, the upper and lower surfaces of the first supporting rods 131 and the second supporting rod 137 are provided with a plurality of telescopic grooves 132, both ends of the first supporting rods 131 and the second supporting rod 137 are connected with the connectors 133, the inner side wall of the outer frame 11 and both end surfaces penetrating through the supporting unit 13 are connected with a plurality of reinforcing ribs 14, the two connectors 133 are connected with the connecting strip 138, the connecting strip 138 penetrates through both end surfaces of the first supporting rods 131 and the second supporting rod 137 and is connected with the surfaces of the connectors 133, both sides of the first supporting rods 131 are connected with a plurality of insertion blocks 134, and the connecting strip 138 connected to the inside of the first supporting rods 131 and the second supporting rod 137 through the two connectors 133 can increase the longitudinal toughness of the first supporting rods 131 and the second supporting rod 137.

As shown in fig. 1-2, a clamping groove 31 is formed in the surface of one side of the second connecting column 3, a connecting groove 21 is formed in the surface of the first connecting column 2 corresponding to the clamping groove 31, the two wallboards 1 are connected through the first connecting column 2, the second connecting column 3 and the connecting bolt 4, fireproof coatings are coated on the surfaces of the wallboards 1, the first connecting column 2 and the second connecting column 3, the wallboards 1 can be quickly clamped and connected through the first connecting column 2 and the second connecting column 3 on the two sides of the wallboards, the wallboards are convenient to quickly assemble and install, and the installation efficiency is improved.

As shown in fig. 5, the surfaces of the plurality of insertion blocks 134 are connected with two connecting springs 135, the lower surfaces of both sides of the second supporting rod 137 correspond to the sliding path of the insertion blocks 134 and are provided with movable grooves 136, one end of each connecting spring 135 is connected to the inner side wall of each movable groove 136, the plurality of first supporting rods 131 and the second supporting rods 137 are distributed at intervals in a staggered manner, the connecting strips 138 are made of high-toughness alloy materials, the inner diameter of each movable groove 136 is matched with the sliding path of the insertion blocks 134, the inner part of the outer frame 11 is filled with heat insulation cotton, the first supporting rods 131 are matched with the movable grooves 136 on the surfaces of the insertion blocks 134 and the connecting springs 135 on both sides of the first supporting rods 131 and the second supporting rods 137, the sectional absorption capacity of the wall board 1 for external force can be increased, and the wall board 1 is firmer when in use.

The utility model discloses a theory of operation: when the wallboard 1 is used, the first connecting column 2 on one side of the wallboard 1 is inserted along the surface of the second connecting column 3 on one side of the other wallboard 1, so that the connecting groove 21 of the first connecting column 2 is completely clamped with the clamping groove 31 of the second connecting column 3, and then the connecting bolt 4 is inserted into the inner side of the first connecting column 2 along the surface of the second connecting column 3 and fixed, so that the combined installation of the wallboard 1 is completed;

when the wall panel 1 is impacted by external force, the first supporting rod 131 is connected to swing along the two second supporting rods 137, the plurality of inserting blocks 134 connected to the two sides of the first supporting rod 131 slide along the inner side wall of the movable groove 136, and the connecting spring 135 is pressed, so that the first supporting rod 131 and the second supporting rod 137 can absorb the external force in sections, and the wall panel 1 is prevented from being bent.

Claims (6)

1. An energy-saving foundation structure of an assembly type building wall comprises a wallboard (1), and is characterized in that one side of the wallboard (1) is connected with a second connecting column (3), the other side face of the wallboard (1) is connected with a first connecting column (2), and the joint of the first connecting column (2) and the second connecting column (3) is connected with a plurality of connecting bolts (4);

wallboard (1) includes frame (11), the inboard of frame (11) is provided with supporting element (13), the upper and lower surface of frame (11) all is connected with apron (12).

2. The energy-saving foundation structure of fabricated building wall as claimed in claim 1, wherein said supporting unit (13) comprises a plurality of first supporting rods (131), a plurality of second supporting rods (137) are connected to both sides of said first supporting rods (131), a plurality of telescopic grooves (132) are opened on the upper and lower surfaces of said first supporting rods (131) and said second supporting rods (137), and said connectors (133) are connected to both ends of said first supporting rods (131) and said second supporting rods (137).

3. The energy-saving foundation structure of assembled building wall as claimed in claim 1, wherein a fastening groove (31) is formed on one side surface of the second connecting column (3), a connecting groove (21) is formed on the surface of the first connecting column (2) corresponding to the fastening groove (31), two wallboards (1) are connected with each other through the first connecting column (2), the second connecting column (3) and the connecting bolt (4), and the surfaces of the wallboards (1), the first connecting column (2) and the second connecting column (3) are coated with fireproof paint.

4. The energy-saving foundation structure of assembled building wall of claim 2, characterized in that, the inside wall of frame (11) and the both ends face that runs through supporting element (13) are connected with a plurality of strengthening ribs (14), two be connected with connecting strip (138) between connector (133), connecting strip (138) run through in the both ends face of first bracing piece (131) and second bracing piece (137) and be connected with the surface of connector (133), the both sides of first bracing piece (131) all are connected with a plurality of insertion piece (134).

5. The energy-saving foundation structure of the fabricated building wall as claimed in claim 4, wherein the surfaces of the plurality of inserting blocks (134) are connected with two connecting springs (135), the lower surfaces of both sides of the second supporting rod (137) are provided with movable grooves (136) corresponding to the sliding paths of the inserting blocks (134), and one ends of the connecting springs (135) are connected to the inner side walls of the movable grooves (136).

6. The energy-saving foundation structure of an assembled building wall as claimed in claim 5, wherein the plurality of first supporting rods (131) and second supporting rods (137) are distributed at intervals in a staggered manner, the connecting bar (138) is made of a high-toughness alloy material, the inner diameter of the movable groove (136) is adapted to the sliding path of the insertion block (134), and the outer frame (11) is filled with heat insulation cotton.

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