CN211622241U - Heatable hollow brick convenient to installation and dismantlement - Google Patents

Abstract

The utility model discloses a heatable hollow brick convenient to installation and dismantlement relates to the hollow brick field, for the inconvenient dismantlement of the current heatable hollow brick among the solution prior art and the problem of installation. The heating structure is characterized in that a second heatable hollow brick is installed on one side of the first heatable hollow brick, one side and the upper end of the second heatable hollow brick and the first heatable hollow brick are respectively provided with a second groove, the other side and the lower end of the second heatable hollow brick and the first heatable hollow brick are respectively provided with a first convex block, the lower sides and one sides of the first heatable hollow brick and the second heatable hollow brick are respectively provided with a first groove, the upper sides and the other sides of the first heatable hollow brick and the second heatable hollow brick are respectively provided with a second convex block, the inner surface of each hollow hole is provided with a heat absorption silicone grease layer, the inner surface of the first heatable hollow brick is provided with a fixed frame, and a supporting plate is arranged inside the fixed frame.

Description

Heatable hollow brick convenient to installation and dismantlement

Technical Field

The utility model relates to an air brick technical field specifically is a heatable air brick convenient to installation and dismantlement.

Background

The hollow brick is prepared by using clay, shale and the like as main raw materials through raw material treatment, forming and sintering, has light weight, high strength, good heat preservation, sound insulation and noise reduction performances, is used for building a brick wall in general home decoration by adopting 1/2 brick walls, if the hollow brick is used for manufacturing the brick wall, the width of the wall body is continuously painted and painted in the inner 120-thick wall, has the main advantages that the dead weight is light, the weight is generally 95 brick walls 2/3, no too large burden is brought to the structure of a house, the sound insulation effect is also available, because the holes in the hollow brick are considered in the arrangement of the sound insulation function, the thickness of the wall body of the hollow brick is the same as that of the hollow brick, the dead weight is slightly better than that of the hollow brick, the hollow brick is prepared by using clay, shale and the like as the main raw materials through raw material treatment, forming and sintering, and the total area of the holes of the hollow brick accounts for the area, the hole rate of the hollow brick is generally above 15%.

Compared with solid bricks, the hollow bricks can save a large amount of soil for land and fuel for brick burning, and reduce the transportation weight; the labor intensity in brick making and building is reduced, and the construction progress is accelerated; the self weight of a building is reduced, the number of building layers is increased, the manufacturing cost is reduced, the outer surface of the existing sintered hollow brick is painted with paint or other coatings, the durability, frost resistance, corrosion resistance and dimensional stability of the brick are all superior to those of autoclaved and steam-cured bricks doped with fly ash, but the existing heatable hollow brick is inconvenient to disassemble and assemble; therefore, the market urgently needs to develop a heatable hollow brick convenient to mount and dismount to help people solve the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heatable hollow brick convenient to installation and dismantlement to solve the inconvenient dismantlement of current heatable hollow brick and the problem of installation that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a heatable hollow brick convenient to installation and dismantlement, includes first heatable hollow brick, but the second heatable hollow brick is installed to one side of first heatable hollow brick, but one side and the upper end of second heatable hollow brick and first heatable hollow brick all are provided with the second recess, and the opposite side and the lower extreme of second heatable hollow brick and first heatable hollow brick all are provided with first lug, the shape of first lug is the same with the shape of second recess, and the inside and the second heatable hollow brick sliding connection of second heatable hollow brick are gone into to first lug card of first heatable hollow brick.

Preferably, the first heatable hollow brick and the second heatable hollow brick are respectively provided with a first groove on one side and below, the second convex blocks are respectively arranged on the other side and above the first heatable hollow brick and the second heatable hollow brick, the shape of each second convex block is the same as that of each first groove, and the first convex block, the second convex block, the first groove and the second groove are respectively arranged into an integral structure with the second heatable hollow brick and the first heatable hollow brick.

Preferably, the first heatable hollow brick and the second heatable hollow brick are provided with hollow columns in the inner parts, hollow holes are formed in the inner parts of the hollow columns, and the hollow columns extend to the outer parts of the first heatable hollow brick and are arranged into an integral structure with the first heatable hollow brick.

Preferably, the inner surface of the hollow hole is provided with a heat absorption silicone grease layer, the surface of the heat absorption silicone grease layer is provided with a convex surface, and the heat absorption silicone grease layer is bonded with the hollow column.

Preferably, the inner surface of the first heatable hollow brick is provided with a fixing frame, the fixing frame is clamped with the first heatable hollow brick, and an inorganic fiber filling layer is arranged inside the fixing frame.

Preferably, the inside of fixed frame is provided with the backup pad, and the backup pad sets up structure as an organic whole with fixed frame, and the upper end and the lower extreme of backup pad all install the limiting plate, and the both ends of limiting plate respectively with backup pad and fixed frame welded connection, and the below of backup pad installs the foaming polyurethane extrusion pad, the foaming polyurethane extrusion pad is binded with the backup pad and is connected.

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

1. the utility model, through the arrangement of the first convex block, when the hollow brick needs to be installed and fixed, after the first heatable hollow brick is placed, the second lug of the second heatable hollow brick is clamped into the first groove of the first heatable hollow brick to push the second heatable hollow brick, so that the second heatable hollow brick is parallel to the first heatable hollow brick, and other hollow bricks can be clamped by the second groove and the second lug above the first heatable hollow brick and the second heatable hollow brick, the structural shapes of the hollow bricks are the same and are all square whole, thereby can be convenient for carry out the installation of a plurality of hollow bricks, and the connected mode through the draw-in groove can make and have better stability between first heatable hollow brick and the second heatable hollow brick, when making simple to operate, structural strength is higher, and the result of use is better.

2. The utility model discloses a setting through fixed frame, when first heatable hollow brick and second heatable hollow brick heat, steam stretches into inside first heatable hollow brick and the second heatable hollow brick through the hollow hole, conduct heat through the hollow post, and the heat absorption silicone grease layer of hollow post internal surface can transmit the heat for the inside inorganic fiber filling layer of first heatable hollow brick, heat is fast conducted through the inorganic fiber filling layer, make the whole rapid heating of first heatable hollow brick, make work efficiency improve, and the inside integrality that keeps overall structure through fixed frame of first heatable hollow brick after the heating, carry out spacing support through backup pad and limiting plate, make fixed frame improve self intensity, rethread extrusion backup pad, when making the backup pad atress, still can make heat conduction efficiency improve, excellent in use effect.

Drawings

Fig. 1 is an overall schematic view of a heatable hollow brick of the present invention, which is easy to install and disassemble;

FIG. 2 is a side cross-sectional view of a heatable hollow brick of the present invention for easy installation and removal;

fig. 3 is the internal structure view of a heatable hollow brick front view convenient to installation and dismantlement of the utility model.

In the figure: 1. a first heatable hollow brick; 2. a second heatable hollow brick; 3. a first bump; 4. a second bump; 5. a first groove; 6. a second groove; 7. a hollow bore; 8. a hollow column; 9. a heat-absorbing silicone layer; 10. an inorganic fiber filler layer; 11. a fixing frame; 12. a support plate; 13. a limiting plate; 14. a foamed polyurethane extruded mat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Referring to fig. 1-3, the present invention provides an embodiment: a heatable hollow brick convenient for installation and disassembly comprises a first heatable hollow brick 1, a second heatable hollow brick 2 is installed on one side of the first heatable hollow brick 1, second grooves 6 are respectively arranged on one side and the upper end of the second heatable hollow brick 2 and the first heatable hollow brick 1, first convex blocks 3 are respectively arranged on the other side and the lower end of the second heatable hollow brick 2 and the first heatable hollow brick 1, the shape of each first convex block 3 is the same as that of each second groove 6, the first convex blocks 3 of the first heatable hollow brick 1 are clamped into the second grooves 6 of the second heatable hollow brick 2 and are in sliding connection with the second heatable hollow brick 2, after the first heatable hollow brick 1 is placed, the second convex blocks 4 of the second heatable hollow brick 2 are clamped into the first grooves 5 of the first heatable hollow brick 1, the second heatable hollow brick 2 is pushed, the second heatable hollow block 2 is kept parallel to the first heatable hollow block 1.

Further, the below and one side of first heatable hollow brick 1 and second heatable hollow brick 2 all are provided with first recess 5, and the top and the opposite side of first heatable hollow brick 1 and second heatable hollow brick 2 all are provided with second lug 4, and the shape of second lug 4 is the same with the shape of first recess 5, first lug 3, second lug 4, first recess 5 and second recess 6 all set up as an organic whole structure with second heatable hollow brick 2 and first heatable hollow brick 1, second recess 6 and second lug 4 of rethread first heatable hollow brick 1 and second heatable hollow brick 2 top can carry out the block with other hollow bricks.

Further, the inside of first heatable hollow brick 1 and second heatable hollow brick 2 all is provided with hollow column 8, the inside of hollow column 8 is provided with hollow hole 7, and hollow column 8 extends to 1 outside of first heatable hollow brick and sets up structure as an organic whole with first heatable hollow brick 1, when first heatable hollow brick 1 and second heatable hollow brick 2 heat, steam passes through hollow hole 7 and stretches into inside first heatable hollow brick 1 and second heatable hollow brick 2, carry out heat transfer through hollow column 8.

Further, the internal surface of hollow hole 7 is provided with heat absorption silicone grease layer 9, and the surface on heat absorption silicone grease layer 9 is provided with the convex surface, and heat absorption silicone grease layer 9 bonds with hollow post 8 and is connected, and heat absorption silicone grease layer 9 can give the inside inorganic fiber filling layer 10 of first heatable hollow brick 1 with heat transfer, leads heat through inorganic fiber filling layer 10 fast, makes the whole rapid heating of first heatable hollow brick 1.

Further, the inner surface of the first heatable hollow brick 1 is provided with a fixing frame 11, the fixing frame 11 is engaged with the first heatable hollow brick 1, and the fixing frame 11 is provided with an inorganic fiber filling layer 10 inside.

Further, the inside of fixed frame 11 is provided with backup pad 12, backup pad 12 sets up to a body structure with fixed frame 11, and limiting plate 13 is all installed to the upper end and the lower extreme of backup pad 12, and the both ends of limiting plate 13 respectively with backup pad 12 and fixed frame 11 welded connection, and foamed polyurethane extrusion pad 14 is installed to the below of backup pad 12, foamed polyurethane extrusion pad 14 binds with backup pad 12 and is connected, carry out spacing support through backup pad 12 and limiting plate 13, make fixed frame 11 improve self intensity, rethread extrusion backup pad 12, when making the backup pad atress, still can make heat conduction efficiency improve.

The working principle is as follows: when the heating device is used, after the first heatable hollow brick 1 is placed, the second convex block 4 of the second heatable hollow brick 2 is clamped into the first groove 5 of the first heatable hollow brick 1, the second heatable hollow brick 2 is pushed, the second heatable hollow brick 2 and the first heatable hollow brick 1 are kept parallel, other hollow bricks can be clamped through the second groove 6 and the second convex block 4 above the first heatable hollow brick 1 and the second heatable hollow brick 2, the plurality of hollow bricks are identical in structural shape and are all a square whole, so that the plurality of hollow bricks can be conveniently installed, in addition, through the connection mode of the clamping grooves, better stability can be realized between the first heatable hollow brick 1 and the second heatable hollow brick 2, when the first heatable hollow brick 1 and the second heatable hollow brick 2 are heated, hot air extends into the first heatable hollow brick 1 and the second heatable hollow brick 2 through the air hole 7, carry out heat transfer through hollow post 8, and the heat absorption silicone grease layer 9 of hollow post 8 internal surface can be with heat transfer for 1 inside inorganic fiber filling layer 10 of first heatable hollow brick, through the quick heat conduction of inorganic fiber filling layer 10, make 1 whole rapid heating of first heatable hollow brick, make work efficiency improve, and 1 inside integrality that keeps overall structure through fixed frame 11 of first heatable hollow brick after the heating, carry out spacing support through backup pad 12 and limiting plate 13, make fixed frame 11 improve self intensity, rethread extrusion backup pad 12, when making the backup pad atress, still can make heat conduction efficiency improve, during the dismantlement, the accessible promotes arbitrary hollow brick, it is whole to make the hollow brick roll-off, convenient dismantlement.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 (6)

1. A heatable hollow block for easy mounting and dismounting, comprising a first heatable hollow block (1), characterized in that: the heating structure is characterized in that a second heatable hollow brick (2) is installed on one side of the first heatable hollow brick (1), second grooves (6) are formed in one side and the upper end of the second heatable hollow brick (2) and the upper end of the first heatable hollow brick (1), first convex blocks (3) are arranged on the other side and the lower end of the second heatable hollow brick (2) and the lower end of the first heatable hollow brick (1), the shape of each first convex block (3) is the same as that of each second groove (6), and the first convex blocks (3) of the first heatable hollow brick (1) are clamped into the second grooves (6) of the second heatable hollow brick (2) and are connected with the second heatable hollow brick (2) in a sliding mode.

2. A heatable hollow block for ready installation and removal according to claim 1 wherein: the structure is characterized in that first grooves (5) are formed in the lower portion and one side of each of the first heatable hollow brick (1) and the second heatable hollow brick (2), second bumps (4) are arranged on the upper portion and the other side of each of the first heatable hollow brick (1) and the second heatable hollow brick (2), the shape of each second bump (4) is the same as that of each first groove (5), and the first bumps (3), the second bumps (4), the first grooves (5) and the second grooves (6) are all in an integrated structure with the second heatable hollow brick (2) and the first heatable hollow brick (1).

3. A heatable hollow block for ready mounting and dismounting according to claim 2, wherein: the interior of first heatable hollow brick (1) and second heatable hollow brick (2) all is provided with hollow column (8), and the inside of hollow column (8) is provided with hollow hole (7), and hollow column (8) extend to first heatable hollow brick (1) outside and first heatable hollow brick (1) set up as an organic whole structure.

4. A heatable hollow block for ready mounting and dismounting according to claim 3, wherein: the inner surface of the hollow hole (7) is provided with a heat absorption silicone grease layer (9), the surface of the heat absorption silicone grease layer (9) is provided with a convex surface, and the heat absorption silicone grease layer (9) is bonded with the hollow column (8).

5. A heatable hollow block for ready mounting and dismounting according to claim 3, wherein: the inner surface of the first heatable hollow brick (1) is provided with a fixing frame (11), the fixing frame (11) is clamped with the first heatable hollow brick (1), and an inorganic fiber filling layer (10) is arranged inside the fixing frame (11).

6. A heatable hollow block for ready installation and removal according to claim 5 wherein: the inside of fixed frame (11) is provided with backup pad (12), and backup pad (12) set up structure as an organic whole with fixed frame (11), and limiting plate (13) are all installed to the upper end and the lower extreme of backup pad (12), and the both ends of limiting plate (13) respectively with backup pad (12) and fixed frame (11) welded connection, and the below of backup pad (12) installs foaming polyurethane extrusion pad (14), foaming polyurethane extrusion pad (14) are bonded with backup pad (12) and are connected.

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