CN104060709A - Combined energy-saving heat preservation building wall board with heat insulation bridges - Google Patents

Abstract

The invention provides a combined energy-saving heat preservation building wall board with heat insulation bridges, and relates to a heat preservation outer wall board in the field of buildings. The combined energy-saving heat preservation building wall board comprises a board body and board cores wrapped in the board body, a groove is formed in one side edge of the board body, hollowed holes are formed in the bottom of the groove and directly reach the board cores, a convex edge matched with the groove is arranged on the other side edge of the board body and is composed of two parallel ridges arranged at intervals, and hollowed holes are formed in the valley bottom between the ridges and also directly reach the board cores. The groove side of one board body is matched with the convex edge side of the other board body in a convex-concave mode, spaces corresponding to each other in a one-to-one mode between the hollowed holes in the valley bottom between the ridges and the hollowed holes in the bottom of the groove are filled with heat insulation materials which are the same as the materials of the board cores to form the heat insulation bridges connecting the board bodies. Foamed joint mixtures are used for better integrating heat preservation core boards of two wall boards, the heat insulation bridges are further formed, and the effect of improving heat preservation performance of a wall is achieved.

Description

Adiabatic bridge combination energy-saving heat-preserving building wallboard

Technical field

The present invention relates to a kind of building field thermal insulation external wall panel, relate in particular to a kind of adiabatic bridge combination energy-saving heat-preserving building wallboard.

Background technology

Heat-preserving building wallboard is a kind of conventional heat insulating material, and it is mainly used in the thermal insulation of construction wall.The seam crossing of original heat-preserving building wallboard is that the groove of two blocks of side fascias is interlocked with fin and is closely connected, as shown in Figure 6, after wallboard is installed, formed at longitudinal seam place one wide approximately 50 millimeters, long for the high inside of body of wall is without the seam of heat insulating material, if mutually fasten between polylith warming plate, just there will be a seam without heat insulating material every a segment distance, owing to there is no heat insulating material, seam crossing thermal resistance will be relatively low, cause wall thermal insulating ability to decline, therefore need a kind of thermal insulation external wall panel with adiabatic bridge construction to solve this problem.

Summary of the invention

The present invention, for above-mentioned the deficiencies in the prior art, provides a kind of adiabatic bridge combination energy-saving heat-preserving building wallboard.

Adiabatic bridge combination energy-saving heat-preserving building wallboard of the present invention, to be formed by plate body and plate core, in described plate body wrapped folder plate core, one side of plate body be the bottom land of groove, this groove arranging engrave hole I, this is engraved hole I and directes reach plate core, another side of plate body is that fin, this fin that can agree with mutually with groove inwall are made up of two crest line spacing parallel arrangings, and the lowest point between crest line is being arranged and engraved hole II, this is engraved hole II and also directes reach plate core; Agree with the lug edge phase convex-concave of another plate body on the groove limit of one plate body, hole I phase that what what between crest line, arranged the lowest point engrave hole II and groove bottom land arranged engrave one to one space-filling have the thermal insulation material identical with board core material matter, to form the adiabatic bridge of step by step tray body.

As a further improvement on the present invention, described plate body be wrapped folder in the outer field housing of plate core, this housing be by the constructional materials such as concrete or magnesia cement solidify form.

As a further improvement on the present invention, described plate core is to form by filled high molecular foam material in the inner chamber of plate body.

As a further improvement on the present invention, described adiabatic bridge is to be agreed with and in the groove forming, filled high molecular foam material and form by the mutual convex-concave of different plate bodys.

Adiabatic bridge combination energy-saving heat-preserving building wallboard of the present invention, change fin into two crest lines by original single crest line, make to form one to one and the multiple holes that communicate with warming plate core in the fin of plate body and groove, make the side of warming plate core not be subject to the covering of the surperficial bed of material and outside exposed, when construction and installation, in the cavity forming at seam crossing, inject polyurethane foam gap filler, by foaming gap filler, the insulation central layer of two blocks of wallboards is better combined together, and then form adiabatic bridge, reach the effect that improves wall insulation performance.

Brief description of the drawings

Fig. 1 is front view of the present invention;

Fig. 2 is top view of the present invention;

Fig. 3 is that Fig. 1 A-A is to sectional view;

Fig. 4 is the structural representation that the present invention installs rear seam crossing;

Fig. 5 is that Fig. 4 B-B is to sectional view;

Fig. 6 is existent technique structural representation.

Detailed description of the invention

Embodiment 1

Adiabatic bridge combination energy-saving heat-preserving building wallboard of the present invention, to be formed by plate body 1 and plate core 2, in plate body 1 wrapped folder plate core 2, as depicted in figs. 1 and 2, one side of plate body 1 be the bottom land of groove 4, this groove 4 arranging engrave hole I 3, this is engraved hole I 3 and directes reach plate core 2, another side of plate body 1 is that fin 5, this fin 5 that can agree with mutually with groove 4 inwalls are made up of two crest line 6 spacing parallel arrangings, the lowest point that crest line is 6 is being arranged and is being engraved hole II 8, this is engraved hole II 8 and also directes reach plate core 2, as shown in Figures 2 and 3; Agree with the fin of another plate body 15 limit phase convex-concaves on groove 4 limits of one plate body 1, hole I 3 phases that what hole II 8 that what arranged 6 the lowest point of crest line engrave was arranged with groove 4 bottom lands engrave one to one space-filling have the thermal insulation material identical with plate core 2 materials, to form the adiabatic bridge 7 of step by step tray body 1, as shown in Figure 4 and Figure 5.

Embodiment 2

Adiabatic bridge combination energy-saving heat-preserving building wallboard of the present invention, is to be made up of plate body 1 and plate core 2, plate body 1 be wrapped folder in the outer field housing of plate core 2, this housing be by the constructional materials such as concrete or magnesia cement solidify form, as depicted in figs. 1 and 2.One side of plate body 1 be the bottom land of groove 4, this groove 4 arranging engrave hole I 3, this is engraved hole I 3 and directes reach plate core 2, another side of plate body 1 is that fin 5, this fin 5 that can agree with mutually with groove 4 inwalls are made up of two crest line 6 spacing parallel arrangings, the lowest point that crest line is 6 is being arranged and is being engraved hole II 8, this is engraved hole II 8 and also directes reach plate core 2, as shown in Figures 2 and 3; Agree with the fin of another plate body 15 limit phase convex-concaves on groove 4 limits of one plate body 1, hole I 3 phases that what hole II 8 that what arranged 6 the lowest point of crest line engrave was arranged with groove 4 bottom lands engrave one to one space-filling have the thermal insulation material identical with plate core 2 materials, to form the adiabatic bridge 7 of step by step tray body 1, as shown in Figure 4 and Figure 5.

Embodiment 3

Adiabatic bridge combination energy-saving heat-preserving building wallboard of the present invention, to be formed by plate body 1 and plate core 2, plate body 1 is that wrapped folder is in the outer field housing of plate core 2, this housing is to be solidified and formed by the constructional materials such as concrete or magnesia cement, plate core 2 is to form by filled high molecular foam material in the inner chamber of plate body 1, as depicted in figs. 1 and 2.One side of plate body 1 be the bottom land of groove 4, this groove 4 arranging engrave hole I 3, this is engraved hole I 3 and directes reach plate core 2, another side of plate body 1 is that fin 5, this fin 5 that can agree with mutually with groove 4 inwalls are made up of two crest line 6 spacing parallel arrangings, the lowest point that crest line is 6 is being arranged and is being engraved hole II 8, this is engraved hole II 8 and also directes reach plate core 2, as shown in Figures 2 and 3; Agree with the fin of another plate body 15 limit phase convex-concaves on groove 4 limits of one plate body 1, hole I 3 phases that what hole II 8 that what arranged 6 the lowest point of crest line engrave was arranged with groove 4 bottom lands engrave one to one space-filling have the thermal insulation material identical with plate core 2 materials, to form the adiabatic bridge 7 of step by step tray body 1, described adiabatic bridge 7 is to be agreed with and in the groove forming, filled high molecular foam material and form by the mutual convex-concave of different plate bodys 1, as shown in Figure 4 and Figure 5.

Claims (4)

1. adiabatic bridge combination energy-saving heat-preserving building wallboard, to be formed by plate body (1) and plate core (2), it is characterized in that the middle wrapped folder of plate body (1) plate core (2), one side of plate body (1) is groove (4), the bottom land of this groove (4) is being arranged and is being engraved hole I (3), this is engraved hole I (3) and directes reach plate core (2), the fin (5) of another side of plate body (1) for agreeing with mutually with groove (4) inwall, this fin (5) is made up of two crest lines (6) spacing parallel arranging, the lowest point between crest line (6) is being arranged and is being engraved hole II (8), this is engraved hole II (8) and also directes reach plate core (2), agree with fin (5) the limit phase convex-concave of another plate body (1) on groove (4) limit of one plate body (1), hole I (3) phase that what what between crest line (6), arranged the lowest point engrave hole II (8) and groove (4) bottom land arranged engrave one to one space-filling have the thermal insulation material identical with plate core (2) material, to form the adiabatic bridge (7) of step by step tray body (1).

2. adiabatic bridge combination energy-saving heat-preserving building wallboard as claimed in claim 1, it is characterized in that plate body (1) be wrapped folder in the outer field housing of plate core (2), this housing is to be solidified and is formed by concrete or magnesia cement constructional materials.

3. adiabatic bridge combination energy-saving heat-preserving building wallboard as claimed in claim 1 or 2, is characterized in that plate core (2) is by filled high molecular foam material formation in the inner chamber of plate body (1).

4. the adiabatic bridge combination energy-saving heat-preserving building wallboard of stating as claim 1 or 2, is characterized in that adiabatic bridge (7) is to be agreed with and in the groove forming, filled high molecular foam material formation by the mutual convex-concave of different plate bodys (1).