CN219411278U - Footing bearing structure of energy-conserving wallboard of high stability type - Google Patents

Abstract

The utility model discloses a footing supporting structure of a high-stability energy-saving wallboard, relates to the technical field of wallboard footing supporting, and aims to solve the problems that an existing wallboard footing mounting supporting structure is complicated and complicated to mount by a user due to the fact that screws are adopted, staff is required to punch holes on site or a custom board containing screw holes is adopted for mounting, the cost is high, and the attractiveness of the wallboard is affected. Comprising the following steps: the wallboard comprises a wallboard body, wherein a footing supporting block is arranged below the wallboard body; further comprises: the first combined connecting block is arranged at the lower end of the bottom foot supporting block, a second combined connecting block is integrally arranged above the first combined connecting block, the first combined connecting block and the second combined connecting block form the bottom foot supporting block, and embedded blocks are arranged on two sides of the lower surface of the first combined connecting block; the bottom support block is arranged below the first combined connecting block, and embedded grooves are formed in two sides of the outer wall of the upper surface of the bottom support block.

Description

Footing bearing structure of energy-conserving wallboard of high stability type

Technical Field

The utility model relates to the technical field of wallboard footing support, in particular to a footing support structure of a high-stability energy-saving wallboard.

Background

Wallboard, which refers to a building material. The house structure is composed of walls and floors, and is divided into a bearing wallboard and a non-bearing wallboard, wherein the wallboard structure is mainly used for houses, apartments, office buildings, schools and other public buildings;

in the wallboard installation and placement process, the wallboard is required to be supported and fixed at the footing of the wallboard for facilitating the positioning and fixing of users.

However, the existing wallboard footing mounting support structure adopts a screw fixing mode, so that a user is complicated and complicated to mount, staff is required to punch holes on site or a custom board containing screw holes is adopted for mounting, the cost is high, and the attractiveness of the wallboard is affected; therefore, the existing requirements are not met, and a footing supporting structure of the high-stability energy-saving wallboard is provided.

Disclosure of Invention

The utility model aims to provide a footing supporting structure of a high-stability energy-saving wallboard, which solves the problems that the prior wallboard footing mounting supporting structure proposed in the background art is complicated and complicated to mount by a user due to the adoption of a screw fixing mode, and the problem that staff is required to punch holes on site or install by adopting a custom board containing screw holes is high in cost and affects the attractiveness of the wallboard.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a footing support structure for a highly stable energy efficient wallboard, comprising: the wallboard comprises a wallboard body, wherein a footing supporting block is arranged below the wallboard body;

further comprises:

the first combined connecting block is arranged at the lower end of the bottom foot supporting block, a second combined connecting block is integrally arranged above the first combined connecting block, the first combined connecting block and the second combined connecting block form the bottom foot supporting block, and embedded blocks are arranged on two sides of the lower surface of the first combined connecting block;

the bottom sprag piece, it sets up the below of first combination connecting block, the both sides of bottom sprag piece upper surface outer wall all are provided with the embedded groove, be provided with wallboard extension groove between the embedded groove, all be provided with the slot on the outer wall of bottom sprag piece, embedded piece, wallboard body, the inside of slot is provided with mortise and tenon piece, and the one end of mortise and tenon piece runs through the bottom sprag piece and extends to outside.

Preferably, the outer walls of the two sides of the first combined connecting block are provided with inclined planes, and the inside of each inclined plane is provided with a reserved through hole.

Preferably, the second combined connecting block comprises a mounting block, the mounting block is positioned at the middle position of the second combined connecting block, and the outer walls on two sides of the mounting block are bonded with edge protection plates.

Preferably, the middle position department of bottom sprag piece is provided with wallboard and extends the groove, the inside of installation piece is provided with the mounting groove, and the mounting groove extends to the outside of first combination connecting block, and with wallboard extends the groove intercommunication.

Preferably, a sealing rubber strip is adhered to the notch of the mounting groove.

Preferably, the wallboard body comprises a reinforced keel base plate, wherein a polyester fiber sound absorbing plate is arranged at the rear end of the reinforced keel base plate, and an outer decoration plate is arranged at the rear end of the polyester fiber sound absorbing plate.

Preferably, the front end of steel reinforcement fossil fragments base plate is provided with glass magnesium board, the front end of glass magnesium board is provided with XPS heated board, the front end of XPS heated board sets up the PVC waterproof board.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the first combined connecting block, the second combined connecting block and the bottom supporting block are arranged to play a role in supporting and reinforcing the wallboard body, specifically, the first combined connecting block is inserted into the embedded groove of the bottom supporting block by utilizing the embedded block to be combined, the wallboard body is inserted from the mounting groove and extends into the wallboard extending groove, so that the lower end of the wallboard body is positioned in the first combined connecting block, the second combined connecting block and the bottom supporting block, the stability of the wallboard is improved, the wallboard is limited and reinforced by means of the insertion depth, on the basis, the mortise and tenon block is inserted, the mortise and tenon block is used for limiting the lower end of the wallboard body to be clamped and limited at the bottom supporting block, the first combined connecting block is limited and fixed above the bottom supporting block due to the fact that the embedded block is penetrated, the bottom of the wallboard body is more stable when the wallboard body is placed, a great amount of time consumed by a user is not required to be used for punching, screw fixing and other operations, the assembly effect is improved, and the assembly difficulty is reduced.

2. The polyester fiber acoustic panel can improve the effect of making an uproar falls in inhaling of wallboard body, and the glass magnesium board is used for making the wallboard body possess fire behavior, improves wallboard security, and XPS heated board is used for playing thermal-insulated effect, makes the wallboard possess energy-conserving nature, and PVC waterproof board is used for playing outside waterproof effect.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the assembled structure of the foot support block and the bottom support block of the present utility model;

FIG. 3 is a schematic view of a partial structure of a second combined connection block according to the present utility model;

FIG. 4 is a schematic view of a wall panel body according to the present utility model;

in the figure: 1. a wallboard body; 101. PVC waterproof board; 102. XPS heated board; 103. a glass magnesium plate; 104. reinforcing steel bars reinforce the keel base plate; 105. a polyester fiber sound absorbing plate; 106. an outer plaque; 2. a foot support block; 3. the first combined connecting block; 301. an inclined surface; 302. reserving a through hole; 303. an embedded block; 4. the second combined connecting block; 401. edge protection plates; 402. a mounting block; 403. a mounting groove; 404. sealing the rubber strip; 5. a bottom support block; 501. an embedding groove; 502. a wallboard extension groove; 503. a slot; 504. mortise and tenon block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-4, an embodiment of the present utility model is provided: a footing support structure for a highly stable energy efficient wallboard, comprising: the wall plate comprises a wall plate body 1, wherein a footing supporting block 2 is arranged below the wall plate body 1;

further comprises:

the first combined connecting block 3 is arranged at the lower end of the bottom foot supporting block 2, a second combined connecting block 4 is integrally arranged above the first combined connecting block 3, the first combined connecting block 3 and the second combined connecting block 4 form the bottom foot supporting block 2, and embedded blocks 303 are arranged on two sides of the lower surface of the first combined connecting block 3;

the bottom support block 5 is arranged below the first combined connecting block 3, embedded grooves 501 are formed in two sides of the outer wall of the upper surface of the bottom support block 5, wallboard extending grooves 502 are formed between the embedded grooves 501, slots 503 are formed in the outer walls of the bottom support block 5, the embedded blocks 303 and the wallboard body 1, mortise and tenon blocks 504 are arranged in the slots 503, and one ends of the mortise and tenon blocks 504 penetrate through the bottom support block 5 and extend to the outside;

through setting up first combination connecting block 3, second combination connecting block 4, bottom sprag piece 5 plays the effect of supporting and strengthening wallboard body 1, specifically, first combination connecting block 3 utilizes embedded block 303 to insert to bottom sprag piece 5's embedded groove 501 in make up, wallboard body 1 inserts from mounting groove 403, and extend to wallboard extension inslot 502, make wallboard body 1 lower extreme be in first combination connecting block 3, second combination connecting block 4, bottom sprag piece 5's inside, make wallboard stability obtain improving, rely on the degree of depth of insertion restriction and consolidate the wallboard, on this basis, insert mortise and tenon piece 504, make mortise and tenon piece 504 with wallboard body 1 lower extreme block restriction in bottom sprag piece 5 department, first combination connecting block 3 is fixed in bottom sprag piece 5 top because of embedded block 303 is run through equally, make wallboard body 1 bottom more stable when placing, and need not the user to consume a large amount of time to punch, the screw is fixed etc. operate, improve the assembly effect, the reduction assembly degree of difficulty.

Referring to fig. 1 and 2, the outer walls on two sides of the first combined connection block 3 are provided with inclined planes 301, the inside of each inclined plane 301 is provided with a reserved through hole 302, and the reserved through holes 302 facilitate the nailing operation of the user in a reinforcing manner, so that the inner wallboard is reinforced, and the stability is improved.

Referring to fig. 1-3, the second combined connection block 4 includes a mounting block 402, the mounting block 402 is located at a middle position of the second combined connection block 4, and edge protection plates 401 are adhered to outer walls of two sides of the mounting block 402, where the edge protection plates 401 are used for protecting the mounting block 402.

Referring to fig. 1-3, a wallboard extending groove 502 is provided in the middle position of the bottom supporting block 5, a mounting groove 403 is provided in the mounting block 402, and the mounting groove 403 extends to the outside of the first combined connecting block 3 and is communicated with the wallboard extending groove 502, the mounting groove 403 is used for mounting the wallboard body 1, and the wallboard extending groove 502 is used for extending and combining the lower ends of the wallboards.

Referring to fig. 3, a sealing rubber strip 404 is adhered to the notch of the mounting groove 403, and the sealing rubber strip 404 has an effect of improving the sealing performance of the notch.

Referring to fig. 4, the wallboard body 1 includes a reinforced keel base plate 104, a polyester fiber sound absorbing plate 105 is disposed at the rear end of the reinforced keel base plate 104, an outer decoration plate 106 is disposed at the rear end of the polyester fiber sound absorbing plate 105, and the reinforced keel base plate 104 is made of reinforced keels, so that stability is improved, and the sound absorbing and noise reducing effects of the wallboard body 1 can be improved by the polyester fiber sound absorbing plate 105.

Referring to fig. 4, a glass magnesium board 103 is disposed at the front end of a steel reinforcement keel substrate 104, an XPS insulation board 102 is disposed at the front end of the glass magnesium board 103, a PVC waterproof board 101 is disposed at the front end of the XPS insulation board 102, the glass magnesium board 103 is used for enabling the wallboard body 1 to have fireproof performance, improving wallboard safety, the XPS insulation board 102 is used for playing an insulation role, enabling the wallboard to have energy conservation performance, and the PVC waterproof board 101 is used for playing an external waterproof role.

Working principle: the first combined connecting block 3 is inserted into the embedded groove 501 of the bottom supporting block 5 by utilizing the embedded block 303 to be combined, the wallboard body 1 is inserted from the mounting groove 403 and extends into the wallboard extending groove 502, so that the lower end of the wallboard body 1 is positioned in the first combined connecting block 3, the second combined connecting block 4 and the bottom supporting block 5, the stability of the wallboard is improved, the wallboard is limited and reinforced by virtue of the insertion depth, on the basis, the mortise and tenon block 504 is inserted, the mortise and tenon block 504 is used for limiting the lower end of the wallboard body 1 to be clamped and limited at the bottom supporting block 5, the first combined connecting block 3 is limited and fixed above the bottom supporting block 5 because the embedded block 303 is penetrated, the bottom of the wallboard body 1 is more stable when being placed, and a great amount of time is not consumed by a user to perform operations such as punching, screw fixing and the like, the assembly effect is improved, and the assembly difficulty is reduced;

the polyester fiber acoustic panel 105 can improve the sound absorption and noise reduction effect of wallboard body 1, and glass magnesium board 103 is used for making wallboard body 1 possess fire behavior, improves wallboard security, and XPS heated board 102 is used for playing thermal-insulated effect, makes the wallboard possess energy-conserving nature, and PVC waterproof board 101 is used for playing outside waterproof effect.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The foot supporting structure of the high-stability energy-saving wallboard comprises a wallboard body (1), wherein a foot supporting block (2) is arranged below the wallboard body (1);

the method is characterized in that: further comprises:

the first combined connecting block (3) is arranged at the lower end of the bottom foot supporting block (2), a second combined connecting block (4) is integrally arranged above the first combined connecting block (3), the first combined connecting block (3) and the second combined connecting block (4) form the bottom foot supporting block (2), and embedded blocks (303) are arranged on two sides of the lower surface of the first combined connecting block (3);

bottom sprag piece (5), it sets up the below of first combination connecting block (3), the both sides of bottom sprag piece (5) upper surface outer wall all are provided with embedded groove (501), be provided with wallboard extension groove (502) between embedded groove (501), all be provided with slot (503) on the outer wall of bottom sprag piece (5), embedded piece (303), wallboard body (1), the inside of slot (503) is provided with mortise and tenon piece (504), and the one end of mortise and tenon piece (504) runs through bottom sprag piece (5) and extends to the outside.

2. The footing support structure of a highly stable energy-efficient wall panel of claim 1 wherein: inclined surfaces (301) are arranged on the outer walls of the two sides of the first combined connecting block (3), and reserved through holes (302) are formed in the inclined surfaces (301).

3. The footing support structure of a highly stable energy-efficient wall panel in accordance with claim 2 wherein: the second combined connecting block (4) comprises a mounting block (402), the mounting block (402) is located at the middle position of the second combined connecting block (4), and edge protection plates (401) are adhered to the outer walls of the two sides of the mounting block (402).

4. A footing support structure for a highly stable energy-efficient wall panel in accordance with claim 3 wherein: the middle position department of bottom sprag piece (5) is provided with wallboard extension groove (502), the inside of installation piece (402) is provided with mounting groove (403), and mounting groove (403) extend to the outside of first combination connecting block (3), and with wallboard extension groove (502) intercommunication.

5. The footing support structure of a highly stable energy-efficient wall panel of claim 4 wherein: and a sealing rubber strip (404) is adhered to the notch of the mounting groove (403).

6. The footing support structure of a highly stable energy-efficient wall panel of claim 5 wherein: wallboard body (1) are including reinforcing bar reinforcement fossil fragments base plate (104), the rear end of reinforcing bar reinforcement fossil fragments base plate (104) is provided with polyester fiber abatvoix (105), the rear end of polyester fiber abatvoix (105) is provided with outer plaque (106).

7. The footing support structure of a highly stable energy-efficient wall panel of claim 6 wherein: the front end of steel reinforcement fossil fragments base plate (104) is provided with glass magnesium board (103), the front end of glass magnesium board (103) is provided with XPS heated board (102), the front end of XPS heated board (102) sets up PVC waterproof board (101).