CN216109069U - Passive low energy consumption external wall insulation structure for building - Google Patents

Abstract

The utility model provides a passive low-energy-consumption building external wall heat-insulating structure, which comprises an assembly loading frame; the section of the main body of the assembly carrying frame is in a structure like a Chinese character 'tian', an assembly carrying plate is integrally arranged on a vertical surface at one end of the assembly carrying frame, an assembly bearing structure is integrally arranged at two ends of the assembly carrying frame, the locking assembly structure further comprises an installation carrying groove, and the installation carrying groove is formed in a vertical surface at the other side of the assembly carrying frame; the heat conduction connecting plate is arranged on the inner side of the assembling groove, and a limiting and locking structure is arranged on one side of the heat conduction connecting plate; a heat absorbing shield plate installed inside the loading slot; the locking carries groove and locking screw cooperation, can carry out spacing assembly to the heat conduction fishplate bar, and the locking is carried protruding and can be convenient for fix a position the installation to the heat absorption sunshade forms coherent heat-conduction structure with the heat conduction fishplate bar, conducts the heat that solar illumination produced in building body outer wall, and then improves the holistic heat preservation effect of building body.

Description

Passive low energy consumption external wall insulation structure for building

Technical Field

The utility model belongs to the technical field of building decoration and protection structures, and particularly relates to a passive low-energy-consumption building external wall heat insulation structure.

Background

The definition of the judgment method is that A-B is a wall, if the A-B wall line can cut the related building enclosure structure is an inner wall, otherwise, the A-B wall line is an outer wall, and from the point of architecture, the building is enclosed to form an indoor and outdoor boundary member called an outer wall, and the A-B wall line has the functions of: bear certain load, shelter from wind and rain, preserve heat and insulate heat, prevent noise, prevent fire and be safe, etc.

If the application number is: CN201920158217.3 discloses a self-decoration heat insulation board directly used for building outer walls, relating to building materials. The utility model provides a direct heated board that is used for building outer wall from area to decorate, includes cement foaming heat preservation main part layer, concrete surface course, decorates the top layer, cement foaming heat preservation main part layer and concrete surface course pass through cement binder bonding fixed, the concrete surface course is directly connected through the priming paint layer with decorating the top layer, the upper and lower terminal surface on cement foaming heat preservation main part layer seted up the bridging hole respectively, the bridging hole in be provided with the bridging post. The utility model has simple structure and firm plates, can be used for the main body part of the main building structure of the passive low-energy-consumption house and realizes low-energy-consumption, assembled and industrialized operation.

Based on the above, current outer wall insulation structure is mostly the integral type setting, can not dismantle the change alone to the part after the assembly installation is accomplished, and then need change comprehensively after the outer damage of local protection to certain unnecessary wasting of resources has been caused, current outer wall insulation structure can not conduct illumination temperature simultaneously, has caused the waste of unnecessary heat resources, and then has reduced the problem of heat preservation effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a passive low-energy-consumption external wall insulation structure for a building, which aims to solve the problems that the conventional external wall insulation structure is mostly arranged in an integrated manner, a local part cannot be detached and replaced independently after assembly and installation are finished, and further the conventional external wall insulation structure needs to be replaced comprehensively after the local protective outer layer is damaged, so that certain unnecessary resource waste is caused, and meanwhile, the conventional external wall insulation structure cannot conduct illumination temperature, so that unnecessary heat resource waste is caused, and further the insulation effect is reduced.

The utility model relates to a purpose and an effect of a passive low-energy-consumption external wall heat-insulation structure for a building, which are achieved by the following specific technical means:

a passive low-energy-consumption building external wall heat-insulating structure comprises an assembly loading frame;

the cross section of the main body of the assembly carrying frame is in a structure in a shape like a Chinese character 'tian', an assembly carrying plate is integrally arranged on a vertical surface at one end of the assembly carrying frame, assembly bearing structures are integrally arranged at two ends of the assembly carrying frame, positioning assembly structures are arranged on vertical surfaces at two sides of the assembly carrying frame, the locking assembly structure comprises an assembly groove, the assembly groove is arranged on a vertical surface at one side of the assembly carrying frame, the locking assembly structure further comprises an installation groove, and the installation groove is arranged on a vertical surface at the other side of the assembly carrying frame;

the heat conduction connecting plate is arranged on the inner side of the assembling groove, and a limiting and locking structure is arranged on one side of the heat conduction connecting plate;

and the heat absorption shielding plate is arranged on the inner side of the loading groove.

Further, the assembly frame further includes:

the mounting support plate is integrally arranged on the vertical surface of one side of the mounting support frame;

the mounting opening penetrates through one side of the mounting support plate;

the mounting screw is arranged on the inner side of the mounting opening;

the assembling opening penetrates through one side of the mounting support plate;

and the positioning slot is arranged on one side of the mounting support plate.

Further, the assembly carrier includes:

the locking opening penetrates through one side of the assembly carrier plate;

the locking screw piece is arranged on the inner side of the locking opening;

and the positioning lug is integrally arranged on the other side of the assembly carrier plate.

Further, the assembly receiving structure includes:

the bearing top projection is integrally arranged at one end of the assembly loading frame, and the cross section of the main body of the bearing top projection is of a W-shaped structure;

the bearing loading groove is formed on the inner side of the bearing top boss;

the mounting bottom projection is integrally arranged at the other end of the mounting frame;

the limiting clamping groove is formed in the inner side of the mounting bottom projection, and the section of the main body of the limiting clamping groove is of a V-shaped structure.

Further, the locking assembly structure further includes:

the locking and carrying groove is formed in the inner side of the assembling groove;

the locking screw hole is formed in the inner side of the locking loading groove;

the locking load is convex, and the locking load is convex integrally arranged at four corners of the inner side of the loading groove.

Further, the heat conductive connection plate includes:

the heat conduction connecting protrusion is integrally arranged on the vertical surface of one side of the heat conduction connecting plate, and the cross section of the heat conduction connecting protrusion main body is of a triangular structure;

the limiting bearing groove is formed in the vertical surface of the other side of the heat conducting connecting plate;

the preset opening penetrates through the inner side of the limiting carrying groove.

Further, the limit locking structure includes:

the limiting locking plate is arranged on the inner side of the limiting loading groove;

the locking carrying hole penetrates through one side of the limiting locking plate;

and the assembly locking piece is arranged on the inner side of the locking carrying hole.

Further, the heat absorbing louver includes:

the fixed carrier grooves are formed in four corners of one side of the heat absorption shielding plate;

the assembly screw hole penetrates through one side of the fixed carrier groove;

the installation locking piece is arranged on the inner side of the assembly screw hole;

the heat-conducting clamping protrusions are integrally arranged on the vertical surface of one side of the heat-absorbing shielding plate, and the cross section of the heat-conducting clamping protrusion main body is of a triangular structure.

The utility model at least comprises the following beneficial effects:

1. according to the utility model, the assembly carrying frame and the assembly carrying plate are arranged, and the assembly carrying plate is matched with the installation screw piece, so that the assembled assembly carrying frame can be quickly installed, the assembly holes are matched with the positioning grooves, a plurality of groups of assembly carrying frames can be transversely locked and assembled through the locking screw piece, and the outer walls of buildings with different areas can be conveniently matched.

2. According to the utility model, the assembly bearing structure and the locking assembly structure are arranged, the bearing top protrusion, the bearing carrying groove are matched with the mounting bottom protrusion and the limiting clamping groove, the assembly bearing frame can be stably assembled in the longitudinal direction through the mortise and tenon structure, and further the building outer walls with different areas can be conveniently matched, the locking carrying groove is matched with the locking screw hole, the heat conducting connecting plate can be subjected to limiting assembly, the locking carrying protrusion can be used for conveniently positioning and mounting the heat absorbing shielding plate, so that the heat absorbing shielding plate and the heat conducting connecting plate form a coherent heat conduction structure, heat generated by sunlight is conducted to the building outer wall, and further the overall heat insulation effect of the building is improved.

3. The heat-conducting connecting plate can be locked and assembled before the assembly carrier frame is installed by arranging the heat-conducting connecting plate, the limiting locking structure and the heat-absorbing shielding plate, the limiting locking plate is matched with the assembly locking piece, the heat-absorbing shielding plate can absorb heat generated by too-hot illumination and can be used for decorating and insulating the outer wall of a building body, the heat-conducting connecting protrusion is matched with the heat-conducting clamping protrusion, the heat can be conducted to the heat-conducting connecting plate and then conducted to the outer wall of the building body, the temperature-increasing and insulating effects are achieved, the heat-absorbing shielding plate is easy to damage when the decorating and insulating protection is achieved, the heat-absorbing shielding plate is arranged in a split mode, quick and independent disassembly and replacement can be achieved after the heat-absorbing shielding plate is damaged, unnecessary waste of resources is prevented, and the practicability of the device is improved.

Drawings

Fig. 1 is an overall front view structure diagram of the present invention.

Fig. 2 is a schematic diagram of the overall split front view structure of the present invention.

Fig. 3 is a schematic diagram of the overall split side view structure of the present invention.

Fig. 4 is a schematic structural diagram of the assembly carrier frame of the present invention.

Fig. 5 is a schematic view of an assembly structure of the heat absorbing shield of the present invention.

FIG. 6 is a schematic view of the overall assembly structure of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. assembling a loading frame;

101. mounting a carrier plate; 102. mounting and tapping; 103. installing a screw piece; 104. assembling and opening a hole; 105. positioning and slotting; 106. assembling a carrier plate; 1061. a locking aperture; 1062. a locking screw; 1063. positioning the bump; 107. bearing and connecting the top projection; 1071. a bearing groove; 1072. mounting a bottom projection; 1073. a limiting clamping groove; 108. assembling a slot; 1081. locking the carrying groove; 1082. locking the screw hole; 1083. installing a loading groove; 1084. locking the load bearing boss;

2. a heat conducting joint plate;

201. heat conduction bonding; 202. a limiting load slot; 203. presetting an opening; 204. a limit locking plate; 2041. a locking carrier hole; 2042. assembling a locking piece;

3. a heat absorbing shield;

301. a fixed loading slot; 302. assembling a screw hole; 303. installing a locking piece; 304. the heat conducting clamp is convex.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Example (b):

as shown in figures 1 to 6:

the utility model provides a passive low-energy-consumption building external wall heat-insulating structure, which comprises an assembly loading frame 1;

the cross section of the main body of the assembly loading frame 1 is in a structure like a Chinese character 'tian', one end vertical face of the assembly loading frame 1 is integrally provided with an assembly loading plate 106, two ends of the assembly loading frame 1 are integrally provided with assembly bearing structures, two side vertical faces of the assembly loading frame 1 are provided with positioning assembly structures, each locking assembly structure comprises an assembly open slot 108, the assembly open slot 108 is arranged on one side vertical face of the assembly loading frame 1, each locking assembly structure also comprises an installation loading slot 1083, and the installation loading slot 1083 is arranged on the other side vertical face of the assembly loading frame 1; the heat conduction connecting plate 2 is arranged on the inner side of the assembling groove 108, and a limiting and locking structure is arranged on one side of the heat conduction connecting plate 2; a heat absorbing shield 3, wherein the heat absorbing shield 3 is installed inside the loading groove 1083.

As shown in fig. 3 and 4, the assembly receiving structure includes:

the bearing top protrusion 107, the bearing top protrusion 107 is integrally arranged at one end of the assembly loading frame 1, and the cross section of the main body of the bearing top protrusion 107 is of a W-shaped structure; a receiving groove 1071, the receiving groove 1071 being opened inside the receiving protrusion 107; the mounting bottom projection 1072 is integrally arranged at the other end of the mounting frame 1; the limiting clamping groove 1073 is formed in the inner side of the mounting bottom projection 1072, and the cross section of the limiting clamping groove 1073 is of a V-shaped structure; the locking assembly structure further includes: a lock-up carrier groove 1081, the lock-up carrier groove 1081 being open inside the assembly slot 108; a locking screw hole 1082, the locking screw hole 1082 being opened inside the locking groove 1081; the locking loading protrusions 1084 are integrally arranged at four corners of the inner side of the loading groove 1083; accept structure and locking assembly structure's setting through the equipment, it is protruding 107 to bear the top, bear and bear groove 1071 and installation end protruding 1072, spacing draw-in groove 1073 cooperation, can make the assembly carry frame 1 through the mortise and tenon structure, stabilize the assembly on vertical, and then be convenient for cooperate the building body outer wall of different areas, locking year groove 1081 and locking screw 1082 cooperation, can carry out spacing assembly to heat conduction fishplate bar 2, locking year protruding 1084 can be convenient for fix a position the installation to heat absorption sunshade 3, so that heat absorption sunshade 3 forms coherent heat conduction structure with heat conduction fishplate bar 2, conduct the heat that solar illumination produced in the building body outer wall, and then improve the holistic heat preservation effect to the building body.

As shown in fig. 3 and 5, the heat conductive joint plate 2 includes:

the heat conduction connecting protrusion 201 is integrally arranged on the vertical surface of one side of the heat conduction connecting plate 2, and the cross section of the main body of the heat conduction connecting protrusion 201 is in a triangular structure; the limiting load groove 202 is formed in the vertical surface of the other side of the heat conducting connecting plate 2; the preset opening 203 is formed in the inner side of the limit carrier groove 202 in a penetrating mode; spacing locking structure includes: the limiting locking plate 204 is arranged on the inner side of the limiting carrier groove 202, and the limiting locking plate 204 is arranged on the inner side of the limiting carrier groove 202; the locking loading hole 2041 is formed in the side, on which the limiting locking plate 204 is arranged, of the locking loading hole 2041 in a penetrating manner; an assembly locking piece 2042, the assembly locking piece 2042 being disposed inside the locking loading hole 2041; the heat absorbing shield 3 includes: the fixed carrier grooves 301, the fixed carrier grooves 301 are arranged at four corners of one side of the heat-absorbing shade plate 3; the assembly screw hole 302 is formed in one side of the fixed carrier groove 301 in a penetrating mode, and the assembly screw hole 302 penetrates through the fixed carrier groove 301; the mounting locking piece 303, the mounting locking piece 303 is arranged on the inner side of the mounting screw hole 302; the heat-conducting clamping convex 304 is integrally arranged on the vertical surface of one side of the heat-absorbing shield plate 3, and the cross section of the main body of the heat-conducting clamping convex 304 is in a triangular structure; through heat conduction fishplate bar 2, spacing locking structure and heat absorption sunshade 3's setting, spacing locking plate 204 cooperates with assembly latch 2042, can lock the assembly to heat conduction fishplate bar 2 before the installation of assembly year frame 1, heat absorption sunshade 3 can absorb the heat that too hot illumination produced, decorate the heat preservation protection to building body outer wall simultaneously, heat conduction connects protruding 201 and the protruding 304 cooperation of heat conduction card, can conduct the heat in heat conduction fishplate bar 2, and then conduct in building body outer wall, and then realize the heat preservation effect that heats, heat absorption sunshade 3 plays and damages easily when decorating the heat preservation protection, and then the setting of heat absorption sunshade 3 disconnect-type, can realize dismantling the change alone fast after enabling heat absorption sunshade 3 to damage, and then prevent the unnecessary waste of resource, improve the practicality of device.

As shown in fig. 3 and 4, the mounting frame 1 further includes:

the mounting carrier plate 101, the mounting carrier plate 101 is integrally arranged on one side vertical surface of the mounting carrier frame 1; the mounting opening 102 is formed in one side of the mounting carrier plate 101 in a penetrating manner; a mounting screw 103, the mounting screw 103 being disposed inside the mounting opening 102; the assembling opening 104 is formed in one side of the mounting carrier plate 101 in a penetrating mode, and the assembling opening 104 is formed in the other side of the mounting carrier plate 101; a positioning slot 105, wherein the positioning slot 105 is arranged at one side of the mounting carrier plate 101; the mounting carrier plate 106 includes: a locking opening 1061, the locking opening 1061 penetrating through the assembly carrier 106; a locking screw 1062, the locking screw 1062 being disposed inside the locking opening 1061; a positioning bump 1063, the positioning bump 1063 being integrally disposed on the other side of the assembly carrier 106; through the arrangement of the assembly carrying frame 1 and the assembly carrying plate 106, the assembly carrying plate 101 is matched with the installation screw 103, the assembly carrying frame 1 can be rapidly installed after assembly, the assembly opening hole 104 is matched with the positioning groove 105, the multi-assembly carrying frame 1 can be transversely locked and assembled through the locking screw 1062, and then the building outer walls with different areas can be conveniently matched.

In another embodiment, as shown in fig. 1, the limiting slots 1073 can be additionally provided with extrusion pads, so as to further improve the assembly stability among multiple groups, and the extrusion pads are wedges made of rubber.

The specific use mode and function of the embodiment are as follows:

in the utility model, when in use, the heat conducting connecting plate 2 is limited and assembled through the matching of the locking carrying groove 1081 and the locking screw hole 1082, the locking carrying projection 1084 is convenient for positioning and installing the heat absorbing shield 3, so that the heat absorbing shield 3 and the heat conducting connecting plate 2 form a coherent heat conduction structure, the installation carrier plate 101 is matched with the installation screw piece 103, the assembled loading frame 1 is quickly installed after the assembling is completed, the assembling hole 104 is matched with the positioning groove 105, the multi-assembly loading frame 1 is locked and assembled in the transverse direction through the locking screw piece 1062, the bearing top projection 107 and the bearing carrying groove 1071 are matched with the installation bottom projection 1072 and the limiting clamping groove 1073, so that the assembled loading frame 1 is stably assembled in the longitudinal direction through the mortise and tenon structure, the heat absorbing shield 3 absorbs the heat generated by too hot illumination, meanwhile, the outer wall of a building is decorated and protected, the heat conducting projection 201 is matched with the heat conducting clamping projection 304 to conduct the heat to the heat conducting connecting plate 2, and then is conducted to the outer wall of the building body, thereby realizing the effects of temperature increase and heat preservation.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a passive form low energy consumption outer wall insulation construction for building which characterized in that: comprises an assembly loading frame (1);

the cross section of the main body of the assembly carrying frame (1) is of a structure shaped like a Chinese character 'tian', an assembly carrying plate (106) is integrally arranged on a vertical face at one end of the assembly carrying frame (1), assembly carrying structures are integrally arranged at two ends of the assembly carrying frame (1), positioning assembly structures are arranged on vertical faces at two sides of the assembly carrying frame (1), each locking assembly structure comprises an assembly groove (108), each assembly groove (108) is formed in a vertical face at one side of the assembly carrying frame (1), each locking assembly structure further comprises an installation groove (1083), and each installation groove (1083) is formed in a vertical face at the other side of the assembly carrying frame (1);

the heat conduction connecting plate (2) is arranged on the inner side of the assembling groove (108), and a limiting and locking structure is arranged on one side of the heat conduction connecting plate (2);

the heat absorption shielding plate (3), the heat absorption shielding plate (3) is installed on the inner side of the installation groove (1083).

2. The passive low-energy-consumption building exterior wall insulation structure according to claim 1, wherein the assembly frame (1) further comprises:

the mounting carrier plate (101), the mounting carrier plate (101) is integrally arranged on the vertical surface of one side of the mounting carrier frame (1);

the mounting opening (102), the mounting opening (102) runs through and is arranged on one side of the mounting carrier plate (101);

the mounting screw (103), the mounting screw (103) is arranged on the inner side of the mounting opening (102);

the assembling opening (104), the assembling opening (104) penetrates through one side of the mounting carrier plate (101);

the positioning slot (105), the positioning slot (105) is arranged on one side of the mounting carrier plate (101).

3. The passive low-energy-consumption building exterior wall insulation structure according to claim 1, wherein the assembly carrier plate (106) comprises:

the locking opening hole (1061), the locking opening hole (1061) runs through and is arranged on one side of the assembly carrier plate (106);

a locking screw (1062), the locking screw (1062) being disposed inside the locking opening (1061);

and the positioning convex block (1063), the positioning convex block (1063) is integrally arranged at the other side of the assembling carrier plate (106).

4. The passive low-energy-consumption building exterior wall insulation structure according to claim 1, wherein the assembly receiving structure comprises:

the bearing top projection (107), the bearing top projection (107) is integrally arranged at one end of the assembly loading frame (1), and the section of the main body of the bearing top projection (107) is of a W-shaped structure;

a bearing groove (1071), wherein the bearing groove (1071) is arranged on the inner side of the bearing top projection (107);

the mounting bottom projection (1072), the mounting bottom projection (1072) is integrally arranged at the other end of the mounting frame (1);

spacing draw-in groove (1073), spacing draw-in groove (1073) are seted up and are installed end protruding (1072) inboard, and spacing draw-in groove (1073) main part cross sectional shape is "V" shape structure.

5. A passive, low energy consumption, exterior wall insulation for buildings according to claim 1 wherein the locking assembly further comprises:

a locking carrier groove (1081), the locking carrier groove (1081) being open inside the assembly slot (108);

a locking screw hole (1082), the locking screw hole (1082) being opened inside the locking groove (1081);

the locking loading protrusions (1084) are integrally arranged at the four inner sides of the loading groove (1083).

6. The passive low-energy-consumption building exterior wall insulation structure according to claim 1, wherein the heat-conductive joint plate (2) comprises:

the heat conduction connecting protrusion (201), the heat conduction connecting protrusion (201) is integrally arranged on the vertical surface of one side of the heat conduction connecting plate (2), and the shape of the section of the main body of the heat conduction connecting protrusion (201) is a triangular structure;

the limiting load groove (202), the limiting load groove (202) is arranged on the vertical surface of the other side of the heat conducting connecting plate (2);

the preset opening (203) penetrates through the limit carrier groove (202) and is arranged on the inner side of the limit carrier groove (202).

7. A passive low energy consumption building exterior wall insulation structure as defined in claim 1, wherein said limit locking structure comprises:

the limiting locking plate (204) is arranged on the inner side of the limiting carrier groove (202);

the locking loading hole (2041) penetrates through the locking loading hole (2041) and is arranged on one side of the limiting locking plate (204);

the assembly locking piece (2042), assembly locking piece (2042) set up in locking the inboard of carrying hole (2041).

8. A passive low energy consumption building exterior wall insulation structure according to claim 1, wherein said heat absorbing panel (3) comprises:

the fixed carrying grooves (301), the fixed carrying grooves (301) are arranged at four corners of one side of the heat absorbing shield plate (3);

the assembling screw hole (302), the assembling screw hole (302) runs through and is arranged on one side of the fixed carrying groove (301);

the mounting locking piece (303), the mounting locking piece (303) is arranged on the inner side of the assembling screw hole (302);

the heat-conducting clamping protrusions (304) are integrally arranged on the vertical surface of one side of the heat-absorbing shielding plate (3), and the cross section of the main body of each heat-conducting clamping protrusion (304) is of a triangular structure.

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