CN213509053U - Heat preservation structure wall in assembly type structure - Google Patents

Abstract

The utility model relates to an insulation construction wall body in assembled building belongs to insulation wall technical field, utilizes the frame space clearance between assembled wall veneer and the structural wall body to promote the heat preservation effect. The utility model discloses an outer wall, the heat preservation puigging, C type fossil fragments and interior trim, C type fossil fragments are located between outer wall and the interior trim, it is makedly between C type fossil fragments and the outer wall, the heat preservation puigging is located between outer wall and the interior trim, the heat preservation puigging includes first heat preservation filling block and second heat preservation filling block, first heat preservation filling block is established in the space between C type fossil fragments and outer wall, first heat preservation filling block is perpendicular with C type fossil fragments, and the crisscross laying of direction along C type fossil fragments, second heat preservation filling block is established in the interval of adjacent C type fossil fragments, and with the crisscross space shutoff of laying the formation of first heat preservation filling block, the outer wall, adjacent first heat preservation filling block and second heat preservation filling block form the air seal space. The utility model discloses increased the interior trim layer of wall body and hung the ability of heavy object, improved the heat preservation effect of wall body.

Description

Heat preservation structure wall in assembly type structure

Technical Field

The utility model relates to a thermal insulation wall technical field especially relates to an insulation construction wall in assembly type structure.

Background

The energy efficiency level of the existing building with the heat-insulating layer can be improved by at least more than 30%, and meanwhile, the heat transfer coefficient of the building can be reduced, the indoor heat loss can be reduced, and the requirements of residents on heating, refrigeration and sound insulation can be reduced.

However, although the problems of pipeline separation, dry leveling and integrated facing are solved by the construction mode of the existing assembly type interior wall hanging plate, other functions such as heat preservation, heat insulation, sound absorption and the like are not achieved by utilizing a pipeline cavity layer, and meanwhile, the problems that the assembly type wall body has knocking hollow sense and is not suitable for hanging heavy objects are also solved.

SUMMERY OF THE UTILITY MODEL

In view of the above analysis, the embodiment of the utility model provides an aim at providing an insulation construction wall in prefabricated building utilizes the frame space gap between assembled wall veneer and the structural wall to promote the heat preservation effect.

The purpose of the utility model is mainly realized through the following technical scheme:

the utility model provides an insulation construction wall in assembly type structure, which comprises an outer wall, the heat preservation puigging, C type fossil fragments and interior trim, C type fossil fragments are located between outer wall and the interior trim, and it is built on stilts between C type fossil fragments and the outer wall, the heat preservation puigging is located between outer wall and the interior trim, the heat preservation puigging includes first heat preservation filling block and second heat preservation filling block, first heat preservation filling block is established in the space between C type fossil fragments and outer wall, first heat preservation filling block is perpendicular with C type fossil fragments, and crisscross the laying of direction along C type fossil fragments, second heat preservation filling block is established in the interval of adjacent C type fossil fragments, and with the crisscross space shutoff of laying formation of first heat preservation filling block, the outer wall, adjacent first heat preservation filling block and second heat preservation filling block form air seal space.

Further, the thickness of the first heat-preservation filling block is larger than the distance from the inner side surface of the outer wall to the end surface of the opening side of the C-shaped keel; the length of the first heat-preservation filling blocks is larger than the distance between the adjacent C-shaped keels.

Further, the distance between the adjacent first heat-preservation filling blocks in the direction perpendicular to the C-shaped keel is smaller than the length of the first heat-preservation filling blocks, and the distance between the adjacent first heat-preservation filling blocks in the direction parallel to the C-shaped keel is equal to the width of the first heat-preservation filling blocks.

Further, the width of the first heat preservation filling block is equal to the distance between the C-shaped keel and the fixing point of the outer wall.

Further, the thickness of the second heat-preservation filling block is larger than the distance from the end face of the opening side of the C-shaped keel to the outer side face of the interior trim layer; the length of the second heat-preservation filling blocks is equal to the distance between the adjacent C-shaped keels.

Further, the first heat-preservation filling block is not fully paved on the outer wall.

Further, the first heat-preservation filling block and the second heat-preservation filling block are rock wool bags or polystyrene boards.

Furthermore, the outer wall is provided with a pipeline and a water pipe which are longitudinally arranged, the first heat-preservation filling block is provided with a groove matched with the pipeline or the water pipe, and the second heat-preservation filling block blocks the groove.

Compared with the prior art, the utility model discloses can realize one of following beneficial effect at least:

(1) first heat preservation filling block and second heat preservation filling block are filled in the heat preservation and sound insulation layer of the heat preservation structure wall body in the fabricated building, and due to the fact that fillers (heat preservation filling blocks) are arranged between the outer wall and the interior decoration layer, knocking cavity feeling is avoided, and the capacity of hanging heavy objects on the interior decoration layer of the wall body is improved.

(2) First heat preservation filling block is established in the space between C type fossil fragments and outer wall, first heat preservation filling block is perpendicular with C type fossil fragments, and crisscross the laying of direction along C type fossil fragments, second heat preservation filling block is established in the interval of adjacent C type fossil fragments, and with the crisscross space shutoff of laying formation of first heat preservation filling block, and the outer wall, adjacent first heat preservation filling block and second heat preservation filling block form the air-tight space, make first heat preservation filling block and air-tight space form the one deck and keep warm, second heat preservation filling block forms the one deck and keeps warm, the heat preservation effect of insulation construction wall body in the assembled has been improved.

The utility model discloses in, can also make up each other between the above-mentioned each technical scheme to realize more preferred combination scheme. Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, wherein like reference numerals are used to designate like parts throughout the drawings.

FIG. 1 is a structural diagram of the wall body of the heat insulation structure in the fabricated building of the utility model;

FIG. 2 is a structural diagram of the wall body of the heat-insulating structure in the fabricated building without the second heat-insulating filling blocks of the present invention;

FIG. 3 is a partial view I of the wall body of the heat insulation structure in the fabricated building of the utility model;

FIG. 4 is a partial view II of the wall body of the heat insulation structure in the fabricated building of the utility model;

FIG. 5 is a partial view III of the wall body of the heat insulation structure in the fabricated building of the utility model;

fig. 6 is a partial view of the wall body with the heat-insulating structure in the assembly type building of the present invention.

Reference numerals:

1-an outer wall; 2-heat preservation and sound insulation layer; 21-a first insulating filling block; 22-a second insulation filling block; 3-C type keel.

Detailed Description

The following detailed description of the preferred embodiments of the invention, which is to be read in connection with the accompanying drawings, forms a part of the invention, and together with the embodiments of the invention, serve to explain the principles of the invention and not to limit the scope of the invention.

In the description of the embodiments of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the term "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The terms "top," "bottom," "above … …," "below," and "on … …" as used throughout the description are relative positions with respect to components of the device, such as the relative positions of the top and bottom substrates inside the device. It will be appreciated that the devices are multifunctional, regardless of their orientation in space.

The utility model discloses a concrete embodiment, as shown in fig. 1-6, an insulation construction wall in assembly type structure is disclosed, including outer wall 1, heat preservation puigging 2 and C type fossil fragments 3 and interior trim (not shown in the figure), C type fossil fragments 3 are located between outer wall 1 and the interior trim, and it is overhead between C type fossil fragments 3 and the outer wall 1, heat preservation puigging 2 is located between outer wall 1 and the interior trim, heat preservation puigging 2 includes first heat preservation filling block and 21 second heat preservation filling block 22, first heat preservation filling block 21 is established in the space between C type fossil fragments 3 and outer wall 1, first heat preservation filling block 21 is perpendicular with C type fossil fragments 3, and crisscross laying along C type fossil fragments 3's direction, outer wall 1, adjacent first heat preservation filling block 21 and second heat preservation filling block 22 form the air-tight space.

Compared with the prior art, the wall body with the heat-insulating structure in the fabricated building provided by the embodiment has the advantages that the heat-insulating and sound-insulating layer is filled with the first heat-insulating filling block and the second heat-insulating filling block, the first heat-insulating filling block is arranged in the gap between the C-shaped keel and the outer wall, the first heat-insulating filling block is vertical to the C-shaped keel, and are arranged along the direction of the C-shaped keel in a staggered way, the second heat-insulating filling blocks are arranged in the interval between the adjacent C-shaped keels, gaps formed by the first heat-preservation filling blocks in a staggered arrangement are plugged, the outer wall, the adjacent first heat-preservation filling blocks and the second heat-preservation filling blocks form an air sealing space, the first heat-preservation filling blocks and the air sealing space form a layer of heat preservation, the second heat-preservation filling blocks form a layer of heat preservation, the heat preservation effect of the wall body of the assembled inner heat preservation structure is improved, the knocking hole feeling is avoided, meanwhile, as the filler (the heat-insulating filling hollow block) is arranged between the outer wall and the inner decorative layer, the capability of the inner decorative layer of the wall body for hanging heavy objects is improved.

First heat preservation filling block 21 is not paved outer wall 1 fully, account for about 60% of outer wall 1, form the interval between the first heat preservation filling block 21 of crisscross setting, can enough save material, can form the air heat preservation region again, the region that first heat preservation filling block 21 formed can be covered towards the projection of outer wall 1 in the region that second heat preservation filling block 22 formed, make the heat preservation puigging 2 that all second heat preservation filling blocks 22 constitute can with outer wall 1 together with the air seal to the air seal space in, the thermal insulation performance of heat preservation puigging 2 has further been improved.

The inside and outside in the present embodiment are based on the structure of the house, and the inside is toward the inside and the outside is toward the outside.

Be equipped with a plurality of C type fossil fragments 3 between outer wall 1 and the interior trim layer, the even interval of C type fossil fragments 3 transversely sets up to it is fixed with the inboard of outer wall 1 through the bolt, interior trim layer and 3 fixed connection of C type fossil fragments, C type fossil fragments 3 and interior trim layer contact, and have the interval with the inboard of outer wall 1, this interval is first heat preservation filling block 21 filling area, and second heat preservation filling block 22 is established between adjacent C type fossil fragments 3.

The first heat-preservation filling block 21 and the second heat-preservation filling block 22 are both rectangular structures.

The first heat-preservation filling block 21 and the second heat-preservation filling block 22 are made of soft materials, the thickness of the first heat-preservation filling block 21 is larger than the distance from the inner side surface of the outer wall 1 to the end surface of the opening side of the C-shaped keel 3, the thickness of the second heat-preservation filling block 22 is larger than the distance from the end surface of the opening side of the C-shaped keel 3 to the outer side surface of the interior decoration layer, the length of the second heat-preservation filling block 22 is equal to the distance between the adjacent C-shaped keels 3, the heat-preservation sound-insulation layer 2 is filled through the compressibility of the first heat-preservation filling block 21 and the second heat-preservation filling block 22, the sealing performance of the heat-preservation sound-insulation layer 2 is improved, and.

Further, the length of first heat preservation filling block 21 is greater than the interval of adjacent C type fossil fragments 3, the interval of adjacent first heat preservation filling block 21 is less than the length of first heat preservation filling block 21 in the 3 orientation of perpendicular to C type fossil fragments, the interval of adjacent first heat preservation filling block 21 equals the width of first heat preservation filling block 21 in the 3 orientation of being on a parallel with C type fossil fragments, the width of first heat preservation filling block 21 equals the interval of the adjacent fixed position of C type fossil fragments 3, make first heat preservation filling block 21 and second heat preservation filling block 22, form the air seal space between the outer wall 1, and the air seal space is located between the adjacent C type fossil fragments 3, avoid appearing the air seal space under C type fossil fragments 3 and then lead to the leakproofness of the heat preservation puigging that first heat preservation filling block 21 formed to reduce.

In this embodiment, the C-shaped keel 3 is transversely arranged, the distance between the longitudinally adjacent first heat-insulating filling blocks 21 is smaller than the length of the first heat-insulating filling blocks 21, and the distance between the transversely adjacent first heat-insulating filling blocks 21 is equal to the width of the first heat-insulating filling blocks 21.

It is worth noting that the pipeline and the water pipe are arranged on the outer wall 1, when the first heat preservation filling block 21 is arranged on the pipeline or the water pipe, a groove matched with the pipeline or the water pipe needs to be formed in the first heat preservation filling block 21, and the groove formed in the first heat preservation filling block 21 is sealed by the second heat preservation filling block 22.

In this embodiment, the first heat-insulating filling block 21 and the second heat-insulating filling block 22 are rock wool bags or polystyrene boards, and the inner decoration layer is an integrated veneer. Specifically, when the building has the fire protection requirement, first heat preservation filling block 21 and second heat preservation filling block 22 are rock wool package, and when the building does not have the fire protection requirement, first heat preservation filling block 21 and second heat preservation filling block 22 are the polyphenyl board.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims (8)

1. An assembly type building inner heat insulation structure wall is characterized by comprising an outer wall (1), a heat insulation and sound insulation layer (2), a C-shaped keel (3) and an inner decoration layer, wherein the C-shaped keel (3) is positioned between the outer wall (1) and the inner decoration layer, the C-shaped keel (3) and the outer wall (1) are overhead, the heat insulation and sound insulation layer (2) is positioned between the outer wall (1) and the inner decoration layer, the heat insulation and sound insulation layer (2) comprises first heat insulation filling blocks (21) and second heat insulation filling blocks (22), the first heat insulation filling blocks (21) are arranged in a gap between the C-shaped keel (3) and the outer wall (1), the first heat insulation filling blocks (21) are perpendicular to the C-shaped keel (3) and are arranged in a staggered mode along the direction of the C-shaped keel (3), the second heat insulation filling blocks (22) are arranged in a gap between adjacent C-shaped keels, and the first heat insulation filling blocks (21) are arranged in a staggered mode to form gap plugging, the outer wall (1), the adjacent first heat-preservation filling block (21) and the second heat-preservation filling block (22) form an air-tight space.

2. The fabricated building internal insulation structure wall body according to claim 1, wherein the thickness of the first insulation filling block (21) is larger than the distance from the inner side surface of the outer wall (1) to the opening side end surface of the C-shaped keel (3); the length of the first heat-preservation filling block (21) is larger than the distance between the adjacent C-shaped keels (3).

3. The assembly type thermal insulation structure wall in the building as claimed in claim 1, wherein the distance between the adjacent first thermal insulation filling blocks (21) in the direction perpendicular to the C-shaped keel (3) is less than the length of the first thermal insulation filling blocks (21), and the distance between the adjacent first thermal insulation filling blocks (21) in the direction parallel to the C-shaped keel (3) is equal to the width of the first thermal insulation filling blocks (21).

4. The assembly type building internal thermal insulation structure wall body according to claim 1, wherein the width of the first thermal insulation filling block (21) is equal to the distance between the C-shaped keel (3) and the fixing point of the outer wall (1).

5. The fabricated building internal insulation structure wall body according to claim 1, wherein the thickness of the second insulation filling block (22) is larger than the distance from the opening side end face of the C-shaped keel (3) to the outer side face of the interior decoration layer; the length of the second heat-insulating filling blocks (22) is equal to the distance between the adjacent C-shaped keels (3).

6. The assembly type building internal insulation structure wall body according to claim 1, characterized in that the first insulation filling block (21) is not paved on the outer wall (1) fully.

7. The assembly type building internal thermal insulation structure wall body according to claim 1, wherein the first thermal insulation filling block (21) and the second thermal insulation filling block (22) are rock wool bags or polystyrene boards.

8. The assembly type building internal thermal insulation structure wall body according to any one of claims 1 to 7, wherein pipelines and water pipes are arranged on the outer wall (1) in a longitudinal direction, the first thermal insulation filling block (21) is provided with a groove matched with the pipelines or the water pipes, and the second thermal insulation filling block (22) blocks the groove.

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