CN213926881U - Heat-insulating energy-saving assembled wallboard structure - Google Patents

Abstract

The application relates to a heat-insulating and energy-saving assembled wallboard structure, which comprises a keel frame and a plurality of boards arranged on the keel frame, wherein the edges of the boards are provided with abutting convex edges abutted against the keel frame, the keel frame is provided with abutting strips, the abutting strips are positioned between two adjacent boards and abut against the abutting convex edges between the two adjacent boards, and the keel frame is also provided with a fixing component for fixing the abutting strips; the butt is provided with the joint groove on the tight strip, the protruding edge of butt is provided with the joint cooperation in the joint strip in joint groove. This application has the effect of being convenient for change the heat preservation wallboard of part.

Description

Heat-insulating energy-saving assembled wallboard structure

Technical Field

The application relates to the technical field of heat-insulating wallboards, in particular to a heat-insulating energy-saving assembled wallboard structure.

Background

The heat-insulating wall plate is used for heat insulation of buildings. The common heat-insulating wall board is a plastic board formed by using polystyrene resin as a raw material, adding other raw and auxiliary materials and polymer, has the moisture-proof and waterproof performances, and can reduce the thickness of a side wall protection structure in a building wall body so as to increase the indoor use area.

The existing heat-insulating wall board is assembled in an assembling mode, and then the heat-insulating wall board is attached to a wall surface; the fixing mode between present heat preservation wallboard often is fixed dead lock structure, and when the local damage of heat preservation wallboard, need to change heat preservation wallboard on every side together, causes very big waste.

SUMMERY OF THE UTILITY MODEL

In order to improve the phenomenon that current heat preservation wallboard local when taking place to damage is difficult for changing, this application provides a heat preservation energy-saving assembled wallboard structure.

The application provides a heat preservation energy-saving assembled wallboard structure adopts following technical scheme:

a heat-insulating and energy-saving assembled wallboard structure comprises a keel frame and a plurality of boards arranged on the keel frame, wherein the edges of the boards are provided with abutting convex edges abutting against the keel frame, the keel frame is provided with abutting strips, the abutting strips are positioned between two adjacent boards and abut against the abutting convex edges between the two adjacent boards, and the keel frame is also provided with a fixing component for fixing the abutting strips; the butt is provided with the joint groove on the tight strip, the protruding edge of butt is provided with the joint cooperation in the joint strip in joint groove.

By adopting the technical scheme, when the plate bodies are installed, the abutting convex edges of the plate bodies abut against the keel frame, the abutting strips are placed between two adjacent plate bodies, the clamping grooves in the abutting strips are aligned with the clamping blocks on the abutting convex edges, the abutting strips are pressed downwards until the clamping blocks are clamped into the clamping grooves, and therefore the two adjacent plate bodies are limited to move in the direction close to or away from each other; and when the heat preservation wallboard is locally damaged, the abutting strip can be unlocked to relieve the abutting of the abutting strip on the convex edge of the abutting, and the plate body can be replaced.

Preferably, the fixed subassembly including set up in screw rod and screw-thread fit on the keel frame in the thread bush of screw rod, the lateral wall of supporting the strip is seted up and is supplied the perforation that the screw rod wore to establish, the perforation link up two relative lateral walls of supporting the strip.

Through adopting above-mentioned technical scheme, when fixed to tight strip, can align the perforation and the screw rod on the tight strip that supports to make the screw rod pass the perforation, then screw up the thread bush, so that the thread bush will support tight strip and support tightly, thereby, support the tight strip with the protruding edge of butt support tightly on keel frame, in order to realize the fixed of plate body.

Preferably, one side of the abutting strip, which is far away from the keel frame, is provided with a containing groove for containing the threaded sleeve, and the containing groove runs through the through hole.

Through adopting above-mentioned technical scheme, the thread bush holding makes the roughness on the surface of wall body better in the storage tank.

Preferably, a water stopping sleeve is arranged in the accommodating groove, and the water stopping sleeve is coated outside the threaded sleeve.

Through adopting above-mentioned technical scheme, thereby the setting up of stagnant water cover makes the clearance between thread bush and the storage tank littleer, and the leakproofness is better, reduces the infiltration of rainwater.

Preferably, the keel frame is further provided with an auxiliary fixing assembly for assisting in fixing the abutting convex edge.

Through adopting above-mentioned technical scheme, add supplementary fixed subassembly with the protruding edge of fixed butt to supplementary fixed is carried out to the plate body, makes the fixed of plate body more firm.

Preferably, supplementary fixed subassembly is including offering in slot on the keel frame and set up in the grafting piece on the protruding edge of butt, the grafting piece grafting cooperate in the slot, the spout has been seted up to the cell wall of slot, it is provided with the inserted bar to slide in the spout, the confession has been seted up to the lateral wall of grafting piece the locked groove that the inserted bar was pegged graft.

Through adopting above-mentioned technical scheme, support tight strip with the protruding edge of butt support tightly behind keel frame, the grafting cooperation of rethread inserted bar and locked groove to carry out the secondary to the protruding edge of butt joint and fix, further make the fixed of plate body more firm.

Preferably, a spring used for providing elasticity for the inserted link is arranged in the sliding groove, and when the spring is in a natural state, the inserted link is in insertion fit with the locking groove.

Through adopting above-mentioned technical scheme, the spring provides elasticity to the inserted bar to make the inserted bar and the cooperation of pegging graft of locked groove, thereby make the inserted bar be difficult for withdrawing from the locked groove, make the fixed of plate body more stable.

Preferably, the keel frame faces one side of the abutting strip and is provided with a yielding groove, the yielding groove is communicated with the sliding groove, the side wall of the inserted bar is provided with a shifting block, and the shifting block is in sliding fit with the yielding groove.

Through adopting above-mentioned technical scheme, thereby the setting of shifting block makes the inserted bar break away from the locked groove through stirring the shifting block in order to unblock the plate body.

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

1. the plate bodies are tightly propped against the keel frame through the propping strips, so that the two adjacent plate bodies are relatively independent, and the surrounding plate bodies do not need to be removed during replacement;

2. add supplementary fixed subassembly with the protruding edge of fixed butt to supplementary fixed is carried out to the plate body, makes the fixed of plate body more firm.

Drawings

FIG. 1 is a schematic overall structure of the present application;

FIG. 2 is a cross-sectional view of the caulking member and the holding strip after they are exploded in the present application;

FIG. 3 is a cut-away side view of the present application;

fig. 4 is an enlarged view of a portion a in fig. 3.

Description of reference numerals: 1. a wall body; 2. a keel frame; 3. a plate body; 4. abutting the convex edge; 41. a clamping block; 42. an insertion block; 421. locking the groove; 5. a tightening strip; 51. a clamping groove; 52. perforating; 53. a containing groove; 54. a butting block; 6. a screw; 7. a threaded sleeve; 71. an abutting portion; 8. a water stop ring; 9. a slot; 10. a chute; 101. a limiting groove; 11. inserting a rod; 111. a limiting block; 112. shifting blocks; 12. a spring; 13. a yielding groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The utility model provides a heat preservation energy-saving assembled wallboard structure, refers to figure 1, including installing keel frame 2 in the 1 outside of wall body, keel frame 2 includes many vertically and horizontally staggered's vertical pole and horizontal pole, and wherein, two adjacent vertical poles and two adjacent horizontal poles concatenations form an installation unit, all install a plate body 3 on every installation unit, and plate body 3 is the setting of square body form.

Referring to fig. 1 and 2, four side edges of the plate body 3 are integrally formed with abutting convex edges 4, and the abutting convex edges 4 are used for abutting against the keel frame 2. In this embodiment, when four butt convex edges 4 of the wallboard are all butted with the keel frame 2, the inner side of the wallboard is attached to the wall body 1.

Referring to fig. 2 and 3, a tightening strip 5 is arranged on one side of the keel frame 2 away from the wall 1, and the tightening strip 5 is connected with the keel frame 2 through a steel wire (not shown in the figure). Specifically, the tightening strip 5 is arranged in a long strip shape, the tightening strip 5 is located between two adjacent plate bodies 3, and the tightening strip 5 is used for tightly abutting the convex edge 4 of the abutting joint between the two adjacent plate bodies 3 against the keel frame 2. In this embodiment, the side walls of the abutting strip 5 and the abutting convex edge 4 are covered with elastic rubber pads, so as to increase the sealing performance between the abutting convex edge 4 and the abutting strip 5.

Referring to fig. 2 and 3, the clamping groove 51 is formed in one side, facing the keel frame 2, of the tightening strip 5, and the clamping groove 51 is formed in the length direction of the tightening strip 5. The abutting convex edge 4 is integrally formed with a clamping block 41, and the clamping block 41 is matched with the clamping groove 51 in a clamping mode. In this embodiment, the number of the clamping grooves 51 is two, and the two clamping grooves 51 are respectively in one-to-one corresponding clamping fit with the clamping blocks 41 between the two adjacent plate bodies 3.

Referring to fig. 2 and 3, in order to facilitate the engagement of the engaging block 41 into the engaging groove 51, an arc surface is formed on the top of the engaging block 41. In other embodiments, an inclined guide surface may be further provided on the top of the clamping block 41.

Referring to fig. 2, a screw 6 perpendicular to the keel frame 2 is fixedly installed on the keel frame 2, a through hole 52 for the screw 6 to penetrate through is formed in the tightening strip 5, the through hole 52 penetrates through two opposite side walls of the tightening strip 5, and the screw 6 penetrates through the through hole 52 and is in threaded fit with the threaded sleeve 7. One side of the abutting strip 5 departing from the keel frame 2 is provided with a containing groove 53 penetrating through the through hole 52, the section of the containing groove 53 is circular, and the thread sleeve 7 can be contained in the containing groove 53. A water stop sleeve (not shown) is installed in the accommodating groove 53, the water stop sleeve is an elastic rubber sleeve, and when the threaded sleeve 7 is accommodated in the accommodating groove 53, the water stop sleeve is wrapped outside the threaded sleeve 7. One end of the water stop sleeve is connected with a water stop ring 8, and the water stop ring 8 is positioned at the notch of the accommodating groove 53. The side wall of the threaded sleeve 7 is provided with an abutting part 71 for abutting against the water stop ring 8, and when the threaded sleeve 7 is accommodated in the accommodating groove 53, the abutting part 71 is matched with the abutting strip 5 to abut against the water stop ring 8, so that rainwater is prevented from permeating from the accommodating groove 53.

Referring to fig. 3 and 4, a slot 9 is provided on one side of the keel frame 2 departing from the wall 1, an insertion block 42 inserted and matched with the slot 9 is integrally formed on one side of the keel frame 2 along the abutting convex edge 4, and the slot 9 is matched with the insertion block 42 so as to position the plate body 3.

The slot wall of the slot 9 is provided with a sliding slot 10, and the sliding slot 10 is arranged along the width direction of the abutting strip 5. The sliding groove 10 is slidably mounted with an insertion rod 11, a side wall of the insertion block 42 is provided with a lock groove 421, and the insertion rod 11 can slide to be inserted and matched with the lock groove 421. The limiting groove 101 is formed in the sliding groove 10 along the length direction of the sliding groove 10, and the side wall of the inserted bar 11 is provided with a limiting block 111 matched with the limiting groove 101 in a sliding mode, so that the sliding of the inserted bar 11 is limited, and the sliding of the inserted bar 11 is more stable.

Referring to fig. 3 and 4, a spring 12 is sleeved on a side wall of the insertion rod 11, and the spring 12 is located in the sliding groove 10. One end of the spring 12 is connected to the limiting block 111, and the other end is connected to a side wall of the sliding groove 10 away from the slot 9, and when the spring 12 is in a natural state, one end of the insertion rod 11 penetrates into the slot 9. Meanwhile, when the insertion block 42 is inserted into the insertion slot 9 and the locking groove 421 on the insertion block 42 is aligned with the insertion rod 11, the insertion rod 11 is inserted into the locking groove 421, so as to assist in fixing the abutting ledge 4.

In addition, referring to fig. 3 and 4, a yielding groove 13 penetrating through the sliding groove 10 is formed in one side of the keel frame 2 facing the abutting strip 5, a shifting block 112 in sliding fit with the yielding groove 13 is arranged on the side wall of the inserted rod 11, and the shifting block 112 extends out of the yielding groove 13. The lateral wall of shifting block 112 is equipped with the inclined plane, supports tight strip 5 and is fixed with butt piece 54 towards one side of keel frame 2, and butt piece 54 is used for contradicting the inclined plane to carry on spacingly to shifting block 112, so that inserted bar 11 is difficult for withdrawing from keyway 421, thereby makes the fixed of plate body 3 more stable.

The implementation principle of the application is as follows: when the plate bodies 3 are installed, the abutting convex edges 4 of the plate bodies 3 abut against the keel frame 2, the abutting strips 5 are placed between two adjacent plate bodies 3, the clamping grooves 51 on the abutting strips 5 are aligned with the clamping blocks 41 on the abutting convex edges 4, the abutting strips 5 are pressed downwards until the clamping blocks 41 are clamped into the clamping grooves 51, the inserting blocks 42 on the abutting convex edges 4 are inserted into the inserting grooves 9, the inserting rods 11 are inserted into the locking grooves 421 in a matching mode, the inserting blocks 42 are fixed, meanwhile, the threaded sleeves 7 are screwed tightly to the abutting strips 5, the abutting strips 5 abut against the abutting convex edges 4 to the keel frame 2, the abutting convex edges 4 are fixed accordingly, double fixing of the plate bodies 3 is achieved, and firmness of the plate bodies 3 is guaranteed; and when the heat preservation wallboard part takes place to damage, can unblock supports tight strip 5 to remove and support tight strip 5 to the protruding butt along 4 of butt joint, nevertheless to plate body 3 change can, and when plate body 3 changed, because relatively independent between two adjacent plate bodies 3, thereby it need not to demolish plate body 3 on every side to make when changing.

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 (8)

1. The utility model provides a heat preservation energy-saving assembled wallboard structure which characterized in that: the anti-collision device comprises a keel frame (2) and a plurality of plate bodies (3) arranged on the keel frame (2), wherein the edges of the plate bodies (3) are provided with abutting convex edges (4) which abut against the keel frame (2), the keel frame (2) is provided with abutting strips (5), the abutting strips (5) are positioned between two adjacent plate bodies (3), the abutting strips (5) abut against the abutting convex edges (4) between the two adjacent plate bodies (3), and the keel frame (2) is also provided with a fixing component for fixing the abutting strips (5); the butt joint strip is provided with joint groove (51) on tight strip (5), be provided with the joint on the protruding edge of butt (4) cooperate in the joint strip of joint groove (51).

2. The heat-insulating energy-saving assembled wallboard structure of claim 1, wherein: the fixing assembly is matched with a threaded sleeve (7) of the screw rod (6) in a threaded mode, the screw rod (6) is arranged on the keel frame (2), a through hole (52) for the screw rod (6) to penetrate is formed in the side wall of the abutting strip (5), and the through hole (52) penetrates through two opposite side walls of the abutting strip (5).

3. The heat-insulating energy-saving assembled wallboard structure of claim 2, wherein: one side of the abutting strip (5) departing from the keel frame (2) is provided with a containing groove (53) used for containing the thread sleeve (7), and the containing groove (53) penetrates through the through hole (52).

4. The heat-insulating energy-saving assembled wallboard structure of claim 3, wherein: a water stopping sleeve is arranged in the accommodating groove (53), and the water stopping sleeve is coated outside the threaded sleeve (7).

5. The heat-insulating energy-saving assembled wallboard structure of claim 1, wherein: the keel frame (2) is further provided with an auxiliary fixing component for assisting in fixing the abutting convex edge (4).

6. The heat-insulating energy-saving assembled wallboard structure of claim 5, wherein: supplementary fixed subassembly is including seting up in slot (9) on keel frame (2) and set up in plug block (42) of the protruding edge of butt (4), plug block (42) grafting cooperation in slot (9), spout (10) have been seted up to the cell wall of slot (9), it is provided with inserted bar (11) to slide in spout (10), the confession has been seted up to the lateral wall of plug block (42) locked groove (421) that inserted bar (11) were pegged graft.

7. The heat-insulating energy-saving assembled wallboard structure of claim 6, wherein: a spring (12) used for providing elastic force for the inserted bar (11) is arranged in the sliding groove (10), and when the spring (12) is in a natural state, the inserted bar (11) is in insertion fit with the locking groove (421).

8. The heat-insulating energy-saving assembled wallboard structure of claim 7, wherein: skeleton (2) orientation one side of resisting tight strip (5) has seted up groove of stepping down (13), groove of stepping down (13) link up spout (10), the lateral wall of inserted bar (11) is provided with shifting block (112), shifting block (112) sliding fit in groove of stepping down (13).

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