CN211923271U - Ultralow energy consumption architectural decoration structure of cornicing - Google Patents

Abstract

The utility model relates to an ultralow energy consumption architectural decoration structure of cornicing relates to the technical field of ultralow energy consumption building, including the parapet, the parapet outside has set firmly the skeleton, the skeleton outsourcing is equipped with the decorative board, the parapet both sides are equipped with the heat preservation respectively, the skeleton is equipped with the insulation board with the parapet junction. The utility model discloses a set up the heat preservation in parapet both sides and set up the insulation board between skeleton and parapet, can avoid producing cold and hot bridge between skeleton and the parapet, reduce the energy of ultralow energy consumption building and scatter and disappear.

Description

Ultralow energy consumption architectural decoration structure of cornicing

Technical Field

The utility model belongs to the technical field of the technique of ultralow energy consumption building and specifically relates to an ultralow energy consumption architectural decoration structure of cornicing is related to.

Background

The ultra-low energy consumption building is an integrator of various technical products, the renewable energy is fully utilized to ensure that the sum of all consumed primary energy is not more than 120 kilowatt per hour, and the low energy consumption standard is realized by the building outer wall with high heat insulation and sound insulation and strong sealing performance and the renewable energy.

At present, a fixed steel frame is generally installed on the structure of a rear-mounted cornice, and then an outer decorative plate is wrapped outside the fixed steel frame. However, when the cornice structure is used in an ultra-low energy consumption building, a cold and hot bridge is formed at the position where the cornice is connected with the building, so that the heat exchange between the ultra-low energy consumption building and the outside is increased, and the energy consumption of the ultra-low energy consumption building is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ultralow energy consumption architectural decoration structure of cornicing has energy-conserving heat retaining advantage.

The utility model discloses a can realize through following technical scheme:

the utility model provides an ultralow energy consumption architectural decoration structure of cornicing, includes the parapet, the parapet outside has set firmly the skeleton, the skeleton outsourcing is equipped with the decorative board, the parapet both sides are equipped with the heat preservation respectively, skeleton and parapet junction are equipped with the insulation board.

Through adopting above-mentioned technical scheme, through setting up heated board and insulation board, can block the cold and hot bridge cut-off of skeleton and parapet to reduce building structure and external heat transfer, reduce the energy loss, have energy-conserving heat retaining advantage.

The utility model discloses further set up to: the skeleton includes the installation pipe, goes up stay tube, jib and dead lever, the installation pipe sets up on the parapet along the length direction interval of parapet, it sets firmly the one end of keeping away from the parapet at installation pipe top surface to go up the stay tube, the jib sets firmly the bottom at the installation pipe, the dead lever sets firmly the one end of keeping away from the installation pipe at the jib along the direction that is on a parallel with the installation pipe, the decorative board correspondence sets firmly on dead lever and stay tube.

Through adopting above-mentioned technical scheme, form decorative board installation skeleton through last stay tube and the dead lever of its upper and lower both sides of an installation pipe cooperation, guarantee the stability of skeleton, reduce again with the parapet be connected, reduce thermal scattering and disappearing.

The utility model discloses further set up to: the side that the installation pipe is close to the parapet sets firmly the mounting panel, the insulation board sets up between mounting panel and parapet.

Through adopting above-mentioned technical scheme, be convenient for with the stable fixing of installation pipe on the parapet, utilize the insulation board to reduce its cold and hot bridge reaction that produces because of the contact simultaneously.

The utility model discloses further set up to: the mounting plate is fixedly arranged on the parapet through a wall penetrating bolt and a nut screwed on the wall penetrating bolt, and a polyurethane heat insulation gasket is arranged between the nut and the mounting plate.

By adopting the technical scheme, the polyurethane heat insulation gasket can block a cold and hot bridge between the wall-penetrating bolt and the parapet wall, and heat loss is reduced.

The utility model discloses further set up to: the utility model discloses a fixing device for parapet, including the parapet, the length direction of parapet is to the length setting, the both ends of dead lever have set firmly the reinforced pipe respectively, the reinforced pipe leads to long the setting along the length direction of parapet, the top surface of reinforced pipe has set firmly the trombone slide, the trombone slide upper end sets firmly the lower stay tube that leads to long the setting along the parapet, the lower stay tube sets firmly the bottom surface at the installation pipe.

Through adopting above-mentioned technical scheme, draw through setting up the trombone slide with the dead lever both ends and connect fixedly, guarantee the stability and the anti deformability of skeleton and decorative board bottom surface.

The utility model discloses further set up to: the upper supporting pipe is arranged at intervals.

By adopting the technical scheme, the upper supporting tubes with proper number are selected according to the length of the cornice, and the supporting of the upper structure is ensured.

The utility model discloses further set up to: the square pipe perpendicular to the parapet is laid at the upper portion of the upper supporting pipe at intervals, a galvanized sheet is laid on the square pipe, a waterproof layer is laid on the galvanized sheet, an extruded sheet is arranged on the waterproof layer, and a decorative sheet is arranged on the extruded sheet.

Through adopting above-mentioned technical scheme, guarantee the waterproof insulation performance at cornice top.

The utility model discloses further set up to: one end that square pipe is close to the parapet extends and extends to the heat preservation outside to the parapet is inboard, square pipe has set firmly the registration arm that leads to long setting along the parapet extending direction in the inboard one end of parapet, the one end that the decorative board is close to the registration arm turns over the cladding downwards on the registration arm.

Through adopting above-mentioned technical scheme, through setting up the registration arm, with the decorative board cladding on the locating plate, can protect the corner that the cornice stretches out the parapet inboard to decorating.

To sum up, the utility model discloses a beneficial technological effect does:

1. by arranging the heat insulation board and the insulation board, cold and hot bridge breaks of the framework and the parapet wall can be blocked, so that heat transfer between the building structure and the outside is reduced, energy loss is reduced, and the building heat insulation board has the advantages of energy conservation and heat insulation;

2. the decorative plate mounting framework is formed by matching the upper supporting tubes and the fixing rods on the upper side and the lower side of the mounting tube, so that the stability of the framework is ensured, the connection with a parapet is reduced, and the heat loss is reduced;

3. through setting up the registration arm, with the decorative board cladding on the locating plate, can protect the corner that the cornice stretches out the parapet inboard to decorating.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the mounting plate and the through-wall bolt of the present invention.

In the figure, 1, parapet; 2. a framework; 21. installing a pipe; 22. an upper support tube; 23. a lower support tube; 24. a boom; 25. fixing the rod; 26. a reinforcement tube; 27. mounting a plate; 28. a through-wall bolt; 29. a nut; 3. a decorative plate; 4. a polyurethane heat insulating gasket; 5. pulling the tube; 6. a square tube; 7. galvanizing a plate; 8. a waterproof layer; 9. a heat-insulating layer; 10. an insulating plate; 11. extruding a plastic plate; 12. a positioning tube; 13. and (4) a guardrail.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Refer to fig. 1 and fig. 2, for the utility model discloses an ultralow energy consumption architectural decoration structure of cornicing, including parapet 1, be provided with skeleton 2 at parapet 1's outside perpendicular to parapet 1 and level, it has decorative board 3 to coat outside skeleton 2, decorative board 3 is aluminum plate, aluminum plate can spout the fluorine carbon paint outward, thereby form the cornicing, be equipped with heat preservation 9 respectively along its length direction in parapet 1's both sides, heat preservation 9 is the heated board, paste on parapet 1, skeleton 2 is equipped with high density insulation board 10 with parapet 1 junction simultaneously. Through setting up heated board and insulation board 10, can block skeleton 2 and parapet 1's cold and hot bridge cut-off to reduce building structure and external heat transfer, reduce the energy loss.

The framework 2 comprises a mounting pipe 21, an upper supporting pipe 22, a lower supporting pipe 23, a suspender 24, a fixing rod 25 and a reinforcing pipe 26, the mounting pipe 21 is a galvanized pipe, the galvanized pipe is uniformly arranged outside the parapet 1 along the length direction of the parapet 1 at intervals, the mounting pipe 21 is perpendicular to the parapet 1 and horizontally arranged, a mounting plate 27 is welded at one end of the mounting pipe 21 close to the parapet 1, the mounting plate 27 is connected with the parapet 1 through a wall penetrating bolt 28 in a pulling mode, a nut 29 is screwed on the wall penetrating bolt 28 to fix the mounting plate 27 on the parapet 1, a polyurethane heat insulation gasket 4 is arranged between the nut 29 and the mounting plate 27, the polyurethane heat insulation gasket 4 can block a cold and hot bridge between the wall penetrating bolt 28 and the parapet 1, and heat loss is reduced.

Go up the length direction of support tube 22 along parapet 1 and lead to the length and set up two, the material is the galvanized pipe, also can increase the quantity of support tube 22 simultaneously according to the length of encorbelmenting of cornicing, goes up support tube 22 interval welding on the top surface of installation tube 21 for two, and one of them support tube 22 welds on the top surface of installation tube 21 keeping away from parapet 1 one end for fixed decorative board 3.

The hanger rod 24 is a galvanized pipe and is welded on the bottom surface of the installation pipe 21, the fixing rod 25 is welded on the bottom of the hanger rod 24, the fixing rod 25 is parallel to the installation pipe 21, and the decorative plate 3 at one end of the framework 2 far away from the parapet wall 1 and the decorative plate 3 on the bottom surface of the framework 2 are respectively arranged on the upper supporting pipe 22 and the fixing rod 25 through screws. Further, length is led to along the length direction of parapet 1 at dead lever 25 both ends and is provided with reinforced pipe 26, has lower support tube 23 in the bottom welding of installation pipe 21 directly over reinforced pipe 26, and the welding that the interval is even between lower support tube 23 and the reinforced pipe 26 has trombone slide 5, and trombone slide 5 is aluminium square pipe, draws to connect the dead lever 25 both ends fixedly through setting up trombone slide 5, guarantees the stability and the resistance to deformation ability of skeleton 2 and 3 bottom surfaces of decorative board.

Furthermore, the square pipe 6 perpendicular to the parapet 1 is welded on the upper portion of the upper supporting pipe 22 at an even interval, the square pipe 6 is a galvanized pipe, one end of the square pipe 6 abuts against the side wall of the upper supporting pipe 22 located on the outermost side, the other end of the square pipe extends towards the inner side of the parapet 1 and extends to the outer side of the heat preservation layer 9, and meanwhile, the square pipe 6 located on the top surface of the parapet 1 abuts against the top surface of the parapet 1 and is fixedly connected with the parapet through expansion bolts. The galvanized plate 7 is laid on the square pipe 6, the SBS waterproof layer 8 is laid on the galvanized plate 7, the extruded sheet 11 is arranged on the waterproof layer 8, and the decorative plate 3 is arranged on the extruded sheet 11, so that the waterproof performance and the heat insulation performance of the cornice top surface are guaranteed. Further, be equipped with 2% slope at the top surface of decorative board 3, the slope reduces towards parapet inboard gradually to the rainwater of the top surface of cornicing is drawn forth through the drainage system of roofing to the roof drainage, avoids the rainwater of the top surface of cornicing to direct outwards outflow.

The one end that is located parapet 1 inboard at square pipe 6 has registration arm 12 along the length direction welding of parapet 1, and registration arm 12 laminates on the lateral wall of insulation layer 9 to turn over decorative board 3 and roll over down with the cladding of registration arm 12, through setting up registration arm 12, with the cladding of decorative board 3 on the locating plate, can protect the corner that the parapet 1 inboard was stretched out to the decoration cornice.

When the super low energy consumption building top surface sets up and plants the roof, 1 inboard at parapet sets firmly guardrail 13, guardrail 13 highly apart from the roof finish at least 1.1m, thereby make outdoor air, behind the orbit of at least 1.1m pipe, the temperature influence of air itself falls to minimumly, play the thermal-insulated effect of air bed bridge cut-off, reduce the energy consumption of building, and guarantee the security, be full of the polyurethane foam in 13 intraductals of guardrail 13 that are connected with parapet 1 simultaneously, can reduce thermal transmission and scatter and disappear.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an ultralow energy consumption architectural decoration structure of cornicing, includes parapet (1), its characterized in that: the parapet (1) outside has set firmly skeleton (2), skeleton (2) outsourcing is equipped with decorative board (3), parapet (1) both sides are equipped with heat preservation (9) respectively, skeleton (2) and parapet (1) junction are equipped with insulation board (10).

2. The cornice structure for ultra-low energy consumption architectural decoration according to claim 1, wherein: skeleton (2) are including installation pipe (21), go up supporting tube (22), jib (24) and dead lever (25), installation pipe (21) sets up on parapet (1) along the length direction interval of parapet (1), go up supporting tube (22) and set firmly the one end of keeping away from parapet (1) at installation pipe (21) top surface, jib (24) set firmly the bottom at installation pipe (21), dead lever (25) set firmly the one end of keeping away from installation pipe (21) at jib (24) along the direction that is on a parallel with installation pipe (21), decorative board (3) are corresponding to set firmly on dead lever (25) and last supporting tube (22).

3. The cornice structure for ultra-low energy consumption architectural decoration according to claim 2, wherein: one side that installation pipe (21) are close to parapet (1) sets firmly mounting panel (27), insulation board (10) set up between mounting panel (27) and parapet (1).

4. The cornice structure for ultra-low energy consumption architectural decoration according to claim 3, wherein: the mounting plate (27) is fixedly arranged on the parapet wall (1) through a wall penetrating bolt (28) and a nut (29) screwed on the mounting plate, and a polyurethane heat insulation gasket (4) is arranged between the nut (29) and the mounting plate (27).

5. The cornice structure for ultra-low energy consumption architectural decoration according to claim 2, wherein: the utility model discloses a fixing device for parapet, including dead lever (25), reinforcing pipe (26) have been set firmly respectively at the both ends of dead lever (25), reinforcing pipe (26) lead to long the setting along the length direction of parapet (1), the top surface of reinforcing pipe (26) has set firmly trombone slide (5), trombone slide (5) upper end sets firmly along the lower stay tube (23) that parapet (1) lead to long the setting, lower stay tube (23) set firmly the bottom surface at installation pipe (21).

6. The cornice structure for ultra-low energy consumption architectural decoration according to claim 2, wherein: the upper supporting tubes (22) are arranged in a plurality at intervals.

7. The cornice structure for ultra-low energy consumption architectural decoration according to claim 2, wherein: go up square pipe (6) of stay tube (22) upper portion interval laid perpendicular to parapet (1), square pipe (6) upper berth is equipped with galvanized sheet (7), galvanized sheet (7) upper berth is equipped with waterproof layer (8), be equipped with extruded sheet (11) on waterproof layer (8), be equipped with decorative board (3) on extruded sheet (11).

8. The cornice structure for ultra-low energy consumption architectural decoration according to claim 7, wherein: one end that side pipe (6) are close to parapet (1) extends and extends to heat preservation (9) outside to parapet (1) inboard, side pipe (6) have set firmly along parapet (1) extending direction through the registration arm (12) that sets up in the inboard one end of parapet (1), the cladding is turned over on registration arm (12) to the one end that decorative board (3) are close to registration arm (12) down.

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