CN214884506U - Three-net built-in composite heat insulation system - Google Patents

Abstract

The utility model discloses a three nets built-in compound incubation system, the power distribution equipment comprises an equipment body, the equipment body comprises first heat preservation mechanism, second heat preservation mechanism and third heat preservation mechanism, second heat preservation mechanism sets up between first heat preservation mechanism and third heat preservation mechanism, first heat preservation mechanism, second heat preservation mechanism and third heat preservation mechanism are inside all to be installed one the heated board. The utility model discloses in, at inside first heat preservation mechanism that is provided with of equipment body, second heat preservation mechanism and third heat preservation mechanism, first heat preservation mechanism simultaneously, a heated board is all installed to second heat preservation mechanism and the inside heated board that all installs of third heat preservation mechanism, heated board both sides surface all is provided with first steel wire stratum reticulare and second steel wire stratum reticulare, through setting up three heat preservation mechanism, be convenient for improve the heat preservation effect of shear force wall, change the heat preservation form of traditional shear force wall, and through setting up first steel wire stratum reticulare and second steel wire stratum reticulare, be convenient for improve the compressive property of every heat preservation mechanism.

Description

Three-net built-in composite heat insulation system

Technical Field

The utility model relates to a shear force wall heat preservation technical field especially relates to three nets built-in compound incubation system.

Background

Shear walls (shear walls) are also called wind-resistant walls or earthquake-resistant walls, structural walls. The wall body mainly bears horizontal load and vertical load { gravity } caused by wind load or earthquake action in the house or the structure. Preventing shear failure of the structure. It is divided into a plane shear wall and a cylinder shear wall. The plane shear wall is used in reinforced concrete frame structure, plate lifting structure and flat slab system. In order to increase the rigidity, strength and collapse resistance of the structure, the reinforced concrete shear wall can be cast in situ or prefabricated in some parts. The cast-in-place shear wall, the peripheral beams and the columns are simultaneously poured, and the integrity is good. The cylinder shear wall is used in high-rise buildings, high-rise structures and suspension structures and is formed by enclosing of partition walls of elevator rooms, staircases, equipment and auxiliary rooms, and the cylinder wall is a cast-in-place reinforced concrete wall body which has higher rigidity and strength and can bear larger horizontal load than a plane shear wall.

The prior art has the following problems:

in the existing shear wall heat insulation system, a double-layer steel wire mesh is generally used for heat insulation, so that the shear wall is easy to use for a long time, the heat insulation effect of the shear wall is reduced to some extent, the traditional steel wire mesh fixing mode is unstable, and the falling-off condition is easy to occur.

Therefore, a three-net built-in composite heat insulation system is provided to solve the defects.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, among the current shear force wall heat preservation system, generally all be double-deck wire net and keep warm to it is easy in long-time use, the heat preservation effect of its shear force wall descends to some extent, and fixed mode is unstable between the traditional wire net moreover, the condition that drops appears easily, and the three nets that propose put compound incubation system.

In order to achieve the above purpose, the utility model adopts the following technical scheme: three nets built-in compound incubation system, including the equipment body, the equipment body comprises first heat preservation mechanism, second heat preservation mechanism and third heat preservation mechanism, second heat preservation mechanism sets up between first heat preservation mechanism and third heat preservation mechanism, first heat preservation mechanism, second heat preservation mechanism and third heat preservation mechanism are inside all to be installed one the heated board, heated board side surface is provided with first steel wire stratum reticulare, heated board opposite side surface is provided with the second steel wire stratum reticulare, install the strengthening rib between first heat preservation mechanism, second heat preservation mechanism and the third heat preservation mechanism.

Preferably, the surface outside the equipment body is provided with first locking piece, second locking piece and third locking piece, first locking piece and third locking piece are fixed at this end of equipment, the second locking piece is installed between first locking piece and third locking piece, first locking piece, second locking piece and third locking piece one end have seted up the locked groove.

Preferably, the first steel wire mesh layer and the second steel wire mesh layer are the same in specification, and the first steel wire mesh layer and the second steel wire mesh layer are formed by cross weaving of steel wires.

Preferably, the locked groove is provided with three, and the three locked groove is respectively in the mutual joint of first heat preservation mechanism, second heat preservation mechanism and third heat preservation mechanism, locked groove and heat preservation mechanism interference fit.

Preferably, the end parts of the first heat-preserving mechanism, the second heat-preserving mechanism and the third heat-preserving mechanism are provided with mounting holes.

Preferably, the surface of the first locking piece, the surface of the second locking piece and the surface of the third locking piece penetrate through the locking grooves and are provided with mounting holes, and the first locking piece, the second locking piece and the third locking piece penetrate through the mounting holes through fasteners and are mutually fixed with the first heat-preservation mechanism, the second heat-preservation mechanism and the third heat-preservation mechanism.

Preferably, one end of the fastener is provided with an external thread, and one end of the fastener is spirally sleeved with a fixing cap through the external thread.

Preferably, the first locking block, the second locking block and the third locking block are respectively provided with two locking blocks, and the two locking blocks are symmetrically arranged at two ends of the equipment body.

Compared with the prior art, the utility model has the advantages that;

1. the utility model discloses, at inside first heat preservation mechanism that is provided with of equipment body, second heat preservation mechanism and third heat preservation mechanism, first heat preservation mechanism simultaneously, a heated board is all installed to second heat preservation mechanism and the inside heated board that all installs of third heat preservation mechanism, heated board both sides surface all is provided with first steel wire stratum reticulare and second steel wire stratum reticulare, through setting up three heat preservation mechanism, be convenient for improve the heat preservation effect of shear force wall, change the heat preservation form of traditional shear force wall, and through setting up first steel wire stratum reticulare and second steel wire stratum reticulare, be convenient for improve the compressive property of every heat preservation mechanism.

2. The utility model discloses, through setting up first locking piece, second locking piece and second locking piece, be convenient for fix three heat preservation mechanism, three locked groove has been seted up to the side at the locking piece, when fixed, the staff is in the three locked groove difference joint of locking piece one end in the three heat preservation mechanism outside, later rethread fastener runs through the mounting hole on locking piece and heat preservation mechanism surface and fixes it, this mode easy operation, the three heat preservation mechanism of being convenient for fixes to guarantee the stability between the heat preservation mechanism.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a three-net built-in composite heat insulation system provided by the utility model;

FIG. 2 is a schematic view of a heat preservation mechanism of a three-net built-in composite heat preservation system provided by the utility model;

FIG. 3 is a side view of a three-net built-in composite thermal insulation system provided by the utility model;

fig. 4 is a schematic view of a locking block of a three-net built-in composite heat insulation system provided by the utility model;

fig. 5 is a schematic view of the fastening fixture of the three-net built-in composite thermal insulator of the present invention.

Illustration of the drawings:

1. an apparatus body; 2. a first lock block; 3. a first heat preservation mechanism; 4. mounting holes; 5. locking the groove; 6. a thermal insulation board; 7. a first steel wire mesh layer; 8. a second steel wire mesh layer; 9. a second heat preservation mechanism; 10. a third heat preservation mechanism; 11. reinforcing ribs; 12. a second lock block; 13. a third locking block; 14. a fastener; 15. an external thread; 16. and (4) fixing the cap.

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. 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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, a three-mesh built-in composite thermal insulation system comprises an apparatus body 1, the apparatus body 1 is composed of a first thermal insulation mechanism 3, a second thermal insulation mechanism 9 and a third thermal insulation mechanism 10, the second thermal insulation mechanism 9 is arranged between the first thermal insulation mechanism 3 and the third thermal insulation mechanism 10, a thermal insulation board 6 is respectively arranged in the first thermal insulation mechanism 3, the second thermal insulation mechanism 9 and the third thermal insulation mechanism 10, a first steel wire mesh layer 7 is arranged on the surface of one side of the thermal insulation board 6, a second steel wire mesh layer 8 is arranged on the surface of the other side of the thermal insulation board 6, the first steel wire mesh layer 7 and the second steel wire mesh layer 8 have the same specification, the first steel wire mesh layer 7 and the second steel wire mesh layer 8 are respectively formed by cross weaving of steel wires, the first thermal insulation mechanism 3, mounting holes 4 are formed in the end portions of the second heat-insulating mechanism 9 and the third heat-insulating mechanism 10, and reinforcing ribs 11 are arranged among the first heat-insulating mechanism 3, the second heat-insulating mechanism 9 and the third heat-insulating mechanism 10.

In this embodiment: through setting up first heat preservation mechanism 3, second heat preservation mechanism 9 and third heat preservation mechanism 10, simultaneously first heat preservation mechanism 3, an heated board 6 is all installed to second heat preservation mechanism 9 and third heat preservation mechanism 10 inside, 6 both sides surfaces of heated board all are provided with first steel wire stratum reticulare 7 and second steel wire stratum reticulare 8, through setting up three heat preservation mechanism, be convenient for improve the heat preservation effect of shear force wall, change the heat preservation form of traditional shear force wall, and through setting up first steel wire stratum reticulare 7 and second steel wire stratum reticulare 8, be convenient for improve every heat preservation mechanism's compressive property.

Specifically, the outer side surface of the equipment body 1 is provided with a first locking block 2, a second locking block 12 and a third locking block 13, the first locking block 2 and the third locking block 13 are fixed at the end part of the equipment body 1, the second locking block 12 is installed between the first locking block 2 and the third locking block 13, one end of the first locking block 2, one end of the second locking block 12 and one end of the third locking block 13 are provided with three locking grooves 5, the three locking grooves 5 are respectively clamped with a first heat preservation mechanism 3, a second heat preservation mechanism 9 and a third heat preservation mechanism 10, the locking grooves 5 are in interference fit with the heat preservation mechanisms, the surfaces of the first locking block 2, the second locking block 12 and the third locking block 13 are provided with mounting holes 4 through the locking grooves 5, the first locking block 2, the second locking block 12 and the third locking block 13 are mutually fixed with the first heat preservation mechanism 3, the second heat preservation mechanism 9 and the third heat preservation mechanism 10 through the mounting holes 4 by fasteners 14, one end of the fasteners 14 is provided with external threads 15, one end of the fastener 14 is spirally sleeved with a fixing cap 16 through an external thread 15.

In this embodiment: through setting up first locking piece 2, second locking piece 12 and third locking piece 13, when fixing heat preservation mechanism, the staff is in the three heat preservation mechanism outside to three locked groove 5 difference joint of locking piece one end, and later rethread fastener 14 runs through mounting hole 4 on locking piece and heat preservation mechanism surface and fixes it, and this mode easy operation is convenient for three heat preservation mechanism fixes to guarantee the stability between the heat preservation mechanism.

Specifically, the first locking block 2, the second locking block 12 and the third locking block 13 are respectively provided with two locking blocks, and the two locking blocks 2, the second locking block 12 and the third locking block 13 are symmetrically arranged at two ends of the equipment body 1.

In this embodiment: through setting up a plurality of locking pieces, be convenient for improve the stability of three heat preservation mechanism in equipment body 1 inside.

The working principle is as follows: by arranging the first heat preservation mechanism 3, the second heat preservation mechanism 9 and the third heat preservation mechanism 10, meanwhile, the heat preservation plates 6 are respectively arranged in the first heat preservation mechanism 3, the second heat preservation mechanism 9 and the third heat preservation mechanism 10, the surfaces of two sides of each heat preservation plate 6 are respectively provided with the first steel wire mesh layer 7 and the second steel wire mesh layer 8, by arranging the three heat preservation mechanisms, the heat preservation effect of the shear wall is convenient to improve, the heat preservation form of the traditional shear wall is changed, and by arranging the first steel wire mesh layer 7 and the second steel wire mesh layer 8, the compression resistance of each heat preservation mechanism is convenient to improve, when the heat preservation mechanisms are fixed, a worker respectively clamps the three locking grooves 5 at one end of the locking block outside the three heat preservation mechanisms, and then fixes the locking block and the mounting holes 4 on the surfaces of the heat preservation mechanisms through the fasteners 14, the mode is simple to operate and is convenient for fixing the three heat preservation mechanisms, thereby ensuring the stability between the heat preservation mechanisms. The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. Three nets built-in compound incubation system, including equipment body (1), its characterized in that, equipment body (1) comprises first heat preservation mechanism (3), second heat preservation mechanism (9) and third heat preservation mechanism (10), second heat preservation mechanism (9) set up between first heat preservation mechanism (3) and third heat preservation mechanism (10), a heated board (6) is all installed to first heat preservation mechanism (3), second heat preservation mechanism (9) and third heat preservation mechanism (10) inside, heated board (6) side surface is provided with first steel wire net layer (7), heated board (6) opposite side surface is provided with second steel wire net layer (8), install strengthening rib (11) between first heat preservation mechanism (3), second heat preservation mechanism (9) and third heat preservation mechanism (10).

2. The three-net built-in composite heat insulation system according to claim 1, characterized in that a first locking block (2), a second locking block (12) and a third locking block (13) are arranged on the outer side surface of the equipment body (1), the first locking block (2) and the third locking block (13) are fixed at the end of the equipment body (1), the second locking block (12) is installed between the first locking block (2) and the third locking block (13), and a locking groove (5) is formed in one end of each of the first locking block (2), the second locking block (12) and the third locking block (13).

3. The three-wire built-in composite heat insulation system according to claim 1, wherein the first steel wire mesh layer (7) and the second steel wire mesh layer (8) are the same in specification, and the first steel wire mesh layer (7) and the second steel wire mesh layer (8) are formed by cross weaving of steel wires.

4. The three-net built-in composite heat insulation system according to claim 2, wherein the number of the locking grooves (5) is three, the three locking grooves (5) are respectively clamped with the first heat insulation mechanism (3), the second heat insulation mechanism (9) and the third heat insulation mechanism (10), and the locking grooves (5) are in interference fit with the heat insulation mechanisms.

5. The three-net built-in composite heat preservation system according to claim 1, wherein mounting holes (4) are formed in the end portions of the first heat preservation mechanism (3), the second heat preservation mechanism (9) and the third heat preservation mechanism (10).

6. The three-net built-in composite heat insulation system according to claim 2, wherein the surfaces of the first locking block (2), the second locking block (12) and the third locking block (13) penetrate through the locking groove (5) to be provided with mounting holes (4), and the first locking block (2), the second locking block (12) and the third locking block (13) penetrate through the mounting holes (4) through fasteners (14) to be fixed with the first heat insulation mechanism (3), the second heat insulation mechanism (9) and the third heat insulation mechanism (10) mutually.

7. The three-net built-in composite thermal insulation system according to claim 6, wherein an external thread (15) is arranged at one end of the fastener (14), and a fixing cap (16) is spirally sleeved at one end of the fastener (14) through the external thread (15).

8. The three-net built-in composite heat insulation system according to claim 2, wherein the first locking block (2), the second locking block (12) and the third locking block (13) are respectively provided with two, and the two first locking blocks (2), the second locking block (12) and the third locking block (13) are symmetrically arranged at two ends of the equipment body (1).

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