CN114658135A

CN114658135A - Energy-saving assembly type building wall

Info

Publication number: CN114658135A
Application number: CN202210408750.7A
Authority: CN
Inventors: 齐卫忠; 王日成; 靳光旭; 张辉; 魏佳鑫; 孟鑫帝
Original assignee: Beijing Shougang Construction Group Co Ltd
Current assignee: Beijing Shougang Construction Group Co Ltd
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-06-24
Anticipated expiration: 2042-04-19
Also published as: CN114658135B

Abstract

The application relates to an energy-saving assembly type building wall, which comprises at least two wall sub-modules which are spliced and fixed up and down, wherein each wall sub-module comprises an outer wall plate, an inner wall plate and a connecting assembly for connecting the outer wall plate and the inner wall plate; the up end of side fascia still is provided with first joint structure, and the lower terminal surface of side fascia still is provided with second joint structure, and first joint structure can cooperate with the second joint structure joint of the side fascia on upper strata. The utility model provides an energy-saving assembly type building wall is when assembling adjacent wall body submodule piece from top to bottom, links together side fascia and interior wallboard through coupling assembling, and the first joint structure of side fascia with the below cooperates with the second joint structure joint of the side fascia of top, can improve the stability of connecting when assembling the wall body submodule piece on lower floor, prevents the phenomenon that collapses, improves the security of construction.

Description

Energy-saving assembled building wall

Technical Field

The application relates to the field of constructional engineering, in particular to an energy-saving assembly type building wall.

Background

With the development of modern industrial technology, the assembly type building is gradually and widely popularized. The assembly type building refers to a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall slabs, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and the accessories on the site in a reliable connection mode. The fabricated building has the advantages of short construction period, low energy consumption, environmental protection and the like. The assembly type building wall body is required to be used in the construction process of the assembly type building, the assembly type building wall body in the prior art generally comprises wall body sub-modules, the wall body sub-modules are prefabricated in a factory, and during construction, the wall body sub-modules are directly conveyed to a construction site from the factory to be assembled to form a complete wall body. When the wall body sub-modules are assembled, the wall body sub-modules on the bottom layer are fixedly installed, concrete is smeared on the tops of the wall body sub-modules on the bottom layer, and then the wall body sub-modules on the upper layer are stacked on the tops of the wall body sub-modules on the bottom layer, so that the wall body sub-modules are assembled.

The problems in the prior art are as follows: when assembling the wall body submodule piece on upper and lower layers, the wall body submodule piece on upper layer is connected with the wall body submodule piece on lower layer and is stable inadequately, and the phenomenon of collapsing appears easily, influences the security of construction.

Disclosure of Invention

In order to improve the wall body submodule piece on upper strata that exists among the above-mentioned prior art and the wall body submodule piece on lower floor and be connected stably inadequately, the phenomenon that collapses appears easily influences the technical problem of construction security, this application provides an energy-saving assembly type structure wall body.

The application provides an energy-saving assembled building wall adopts following technical scheme:

an energy-saving assembly type building wall comprises at least two wall sub-modules which are vertically spliced and fixed, wherein each wall sub-module comprises an outer wall plate, an inner wall plate and a connecting assembly for connecting the outer wall plate and the inner wall plate; the up end of side fascia still is provided with first joint structure, and the lower terminal surface of side fascia still is provided with second joint structure, and first joint structure can cooperate with the second joint structure joint of the side fascia on upper strata.

Through adopting above-mentioned technical scheme, the energy-saving assembly type building wall of this application links together side fascia and interior wallboard when assembling adjacent wall body submodule about, with the cooperation of the second joint structure joint of the first joint structure of the side fascia of below and the side fascia of top, can improve the stability of connecting when assembling the wall body submodule on upper and lower layer, prevents the phenomenon that collapses, improves the security of construction.

Optionally, the locking assembly is used for fixedly connecting the upper wall submodule and the lower wall submodule in a locking manner, the locking assembly comprises a first locking fixing piece and a second locking fixing piece, the first locking fixing piece is fixedly arranged at the upper edge position of the inner side wall of the external wall panel, the second locking fixing piece is fixedly arranged at the lower edge position of the inner side wall of the external wall panel, and the first locking fixing piece can be fixedly matched with the second locking fixing piece of the external wall panel on the upper layer in a locking manner.

By adopting the technical scheme, when the wall body sub-modules which are adjacent up and down are assembled, the two wall body sub-modules which are adjacent up and down are locked and fixed through the locking assemblies, so that the connection stability when the wall body sub-modules on the upper layer and the lower layer are assembled is further improved, and the construction safety is improved.

Optionally, the first locking and fixing member includes a first fixing block and a first locking bolt, the first fixing block is fixedly mounted at an edge position of an inner side wall of the external wall panel, the first fixing block is provided with a first threaded hole for screwing and mounting the first locking bolt, the first threaded hole is horizontally arranged, the first fixing block is further provided with a first inserting hole, the first inserting hole penetrates through the first fixing block in the vertical direction, and the first inserting hole is intersected with the first threaded hole; the second locking fixing piece comprises a second fixing block and a second locking bolt, the second fixing block is fixedly arranged at the lower edge position of the inner side wall of the external wall panel, a second threaded hole for mounting the second locking bolt in a screwing mode is formed in the second fixing block, the second threaded hole is horizontally arranged, a second inserting hole is further formed in the second fixing block, the second inserting hole penetrates through the second fixing block along the vertical direction, the second inserting hole is intersected with the second threaded hole, the second inserting hole is the same as the first inserting hole in aperture, and the axis of the second inserting hole is coincident with the axis of the first inserting hole; the locking assembly further comprises an insertion rod, the insertion rod is inserted into the first insertion hole and the second insertion hole in a matched mode, and a first through hole for the screw portion of the first locking bolt to penetrate through and a second through hole for the screw portion of the second locking bolt to penetrate through are formed in the insertion rod.

Through adopting above-mentioned technical scheme, locking Assembly simple structure, easy and simple to handle during locking, and can be firm with two adjacent wall body submodule locking fixings from top to bottom.

Optionally, coupling assembling includes first connecting piece and second connecting piece, and first connecting piece is fixed to be set up at the inside wall top edge position of outer wallboard, and first connecting piece is L shape couple structure, and the second connecting piece is fixed to be set up including on the inside wall of wallboard, the second connecting piece corresponds the setting with first connecting piece, has seted up on the second connecting piece and has articulated the complex hole that articulates with first connecting piece.

Through adopting above-mentioned technical scheme, when being connected the side fascia with interior wallboard, can articulate first connecting piece and second connecting piece, easy and simple to handle and can be effectively connected the side fascia with interior wallboard, improve the stability of connecting, improve the security of construction.

Optionally, the first clamping structure is a T-shaped groove formed in the upper end face of the outer wallboard, and the second clamping structure is a T-shaped sliding block fixedly arranged on the lower end face of the outer wallboard and matched with the T-shaped groove.

Through adopting above-mentioned technical scheme, first joint structure and second joint structure simple structure, and the joint assembling process is simple and convenient.

Optionally, the wall body submodule still includes the temperature regulation subassembly, the temperature regulation subassembly includes outer heat transfer spare and interior heat transfer spare, outer heat transfer spare fixed mounting is on the side fascia, and the outer end of outer heat transfer spare exposes in the external world, the inner of outer heat transfer spare is located the clearance between side fascia and interior wallboard, interior heat transfer spare direction removes and installs on interior wallboard, the outer end of interior heat transfer spare is located the clearance between side fascia and interior wallboard, the inner of interior heat transfer spare exposes in indoorly, interior heat transfer spare can remove the contact or the separation that realize with outer heat transfer spare.

By adopting the technical scheme, when the inner heat transfer element is contacted with the outer heat transfer element, the indoor and outdoor environments can realize heat exchange through the outer heat transfer element and the inner heat transfer element, so that the indoor temperature is adjusted; when the inner heat transfer element is separated from the outer heat transfer element, the indoor and outdoor environments no longer achieve heat exchange through the outer and inner heat transfer elements.

Optionally, the inner end of the outer heat transfer member is fixedly provided with a first heat conduction portion, the first heat conduction portion includes a plurality of first heat conduction fins arranged in parallel at intervals, the outer end of the inner heat transfer member is fixedly provided with a second heat conduction portion, the second heat conduction portion includes a plurality of second heat conduction fins arranged in parallel at intervals, and the second heat conduction fins can be adapted to be inserted into gaps formed by the first heat conduction fins in a one-to-one correspondence manner.

Through adopting above-mentioned technical scheme, each second conducting strip cartridge is in each clearance that each first conducting strip formed for the area of contact of outer heat transfer spare and interior heat transfer spare is enough big, and the heat conduction is effectual.

Optionally, the first heat conducting fins are parallel to the inner side wall of the external wall panel, and each first heat conducting fin is arranged in parallel at intervals along a direction perpendicular to the first heat conducting fins.

Through adopting above-mentioned technical scheme, when each second conducting strip cartridge was in each clearance that each first conducting strip formed, the second conducting strip not only can play heat-conducting effect with first conducting strip, can also play the effect of connecting, improves the joint strength of side fascia and interior wallboard, and then improves the security of construction.

Drawings

FIG. 1 is a perspective view of an energy-saving fabricated building wall according to an embodiment of the present disclosure;

FIG. 2 is a schematic perspective view of another perspective view of an energy-saving fabricated building wall according to an embodiment of the present application;

FIG. 3 is a schematic view showing the construction of an exterior wall panel;

FIG. 4 is a schematic view showing the construction of an interior wall panel;

FIG. 5 is a front view of an energy saving fabricated building wall according to an embodiment of the present application;

FIG. 6 is a sectional view taken along line A-A of FIG. 5;

fig. 7 is an enlarged view of the structure at B in fig. 6.

Description of reference numerals: 1. a wall submodule; 11. an external wall panel; 12. an inner wall panel; 121. an inner mounting hole; 13. a connecting assembly; 131. a first connecting member; 132. a second connecting member; 133. hanging holes; 14. a T-shaped slider; 15. a temperature regulating component; 151. an outer heat transfer member; 152. an internal heat transfer element; 153. a first thermally conductive sheet; 154. a second thermally conductive sheet; 155. a third thermally conductive sheet; 2. a locking assembly; 21. a first locking fixture; 211. a first fixed block; 212. a first locking bolt; 22. a second locking fixture; 221. a second fixed block; 222. a second lock bolt; 23. a plug rod; 3. an electric push rod.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1 and 2, the embodiment of the application discloses an energy-saving assembly type building wall, which comprises two wall sub-modules 1 spliced up and down and a locking assembly 2 used for locking and fixedly connecting the two wall sub-modules 1 adjacent up and down. Referring again to fig. 3 and 4, the wall sub-module 1 includes exterior wall panels 11, interior wall panels 12, and connecting members 13 for connecting the exterior wall panels 11 and the interior wall panels 12. In this embodiment, the exterior wall panels 11 and the interior wall panels 12 are made of stone. The side fascia 11 is the rectangle platelike structure, and interior wallboard 12 is U-shaped plate-like structure, and interior wallboard 12 detains on side fascia 11, forms the wall body inner space between side fascia 11 and interior wallboard 12. Coupling assembling 13 includes first connecting piece 131 and second connecting piece 132, and first connecting piece 131 is fixed to be set up at the inside wall upper edge position of outer wallboard 11, and first connecting piece 131 is L shape couple structure, and second connecting piece 132 is fixed to be set up on the inside wall of inner wallboard 12, and second connecting piece 132 corresponds the setting with first connecting piece 131, and second connecting piece 132 is plate structure, has seted up on the second connecting piece 132 and has articulated complex hole 133 of hanging with first connecting piece 131.

With continued reference to fig. 3 and 4, the locking assembly 2 includes a first locking fixture 21, a second locking fixture 22, and an insertion rod 23. First locking mounting 21 is fixed to be set up in the inside wall upper edge position of side fascia 11, and second locking mounting 22 is fixed to be set up in the inside wall lower edge position of side fascia 11, and first locking mounting 21 can with the fixed cooperation of locking of the second locking mounting 22 of the side fascia 11 on upper strata. In this embodiment, the first locking fixing member 21 includes a first fixing block 211 and a first locking bolt 212, the first fixing block 211 is fixedly installed at an edge position on an inner side wall of the external wall panel 11, a first threaded hole for screwing the first locking bolt 212 is formed in the first fixing block 211, the first threaded hole is horizontally disposed, a first inserting hole is further formed in the first fixing block 211, the first inserting hole penetrates through the first fixing block 211 along a vertical direction, and the first inserting hole is intersected with the first threaded hole. The second locking fixing member 22 includes a second fixing block 221 and a second locking bolt 222, the second fixing block 221 is fixedly mounted at the lower edge position of the inner side wall of the external wall panel 11, a second threaded hole for screwing the second locking bolt 222 is formed in the second fixing block 221, the second threaded hole is horizontally arranged, a second inserting hole is further formed in the second fixing block 221, the second inserting hole penetrates through the second fixing block 221 along the vertical direction, the second inserting hole is intersected with the second threaded hole, and the second inserting hole is identical to the aperture of the first inserting hole and coincides with the axis. The insertion rod 23 is inserted into the first insertion hole and the second insertion hole, and a first through hole for the screw portion of the first locking bolt 212 to pass through and a second through hole for the screw portion of the second locking bolt 222 to pass through are formed in the insertion rod 23.

Referring to fig. 5 and 6, the upper end surface of the external wall panel 11 is further provided with a first clamping structure, the lower end surface of the external wall panel 11 is further provided with a second clamping structure, and the first clamping structure can be clamped and matched with the second clamping structure of the external wall panel 11 on the upper layer. Referring to fig. 7 again, in this embodiment, the first clamping structure is a T-shaped groove formed on the upper end surface of the external wall panel 11, and the second clamping structure is a T-shaped sliding block 14 fixed on the lower end surface of the external wall panel 11 and adapted to the T-shaped groove.

With continued reference to fig. 3 and 4, the wall sub-module 1 further comprises a temperature conditioning assembly 15, the temperature conditioning assembly 15 comprising an outer heat transfer element 151 and an inner heat transfer element 152. Outer heat transfer 151 parallel interval about is provided with two, offers the outer mounting hole that is used for installing outer heat transfer 151 on the side fascia 11, and outer heat transfer 151 fixed mounting is in mounting hole department, and the outer end of outer heat transfer 151 exposes in the external world, and the inner of outer heat transfer 151 is located the clearance between side fascia 11 and interior wallboard 12. The inner end of each outer heat transfer member 151 is fixedly provided with a first heat conduction portion, and the first heat conduction portion includes a plurality of first heat conduction fins 153 arranged in parallel at intervals. The first heat-conducting fins 153 are parallel to the inner side wall of the external wall panel 11, and each first heat-conducting fin 153 is arranged in parallel and at intervals along a direction perpendicular to the first heat-conducting fins 153. An inner mounting hole 121 is formed in the inner wall plate 12, and two inner mounting holes 121 are formed in the inner wall plate at intervals. The internal heat transfer elements 152 are movably guided and mounted on the inner wall panel 12, the internal heat transfer elements 152 are rectangular tubular structures, the upper ends of the internal heat transfer elements 152 are located in the internal mounting holes 121 on the upper side, the lower ends of the internal heat transfer elements 152 are located in the internal mounting holes 121 on the lower side, and the internal heat transfer elements 152 can vertically move in the internal mounting holes 121 in a guiding manner. The outer end of the inner heat transfer member 152 is located in the gap between the outer wall panel 11 and the inner wall panel 12, and the inner end of the inner heat transfer member 152 is exposed to the indoor. Referring to fig. 7 again, the outer end of the inner heat transfer member 152 is fixedly provided with a second heat conduction portion corresponding to the first heat conduction portion, the second heat conduction portion includes a plurality of second heat conduction fins 154 arranged in parallel at intervals, and the second heat conduction fins 154 can be inserted into gaps formed by the first heat conduction fins 153 in a one-to-one corresponding manner. A third heat conduction portion is further fixedly disposed at a position corresponding to the second heat conduction portion at the inner end of the internal heat transfer member 152, and the third heat conduction portion includes a plurality of third heat conduction fins 155 disposed in parallel at intervals. Still fixed mounting has electric putter 3 on the inside wall of interior wallboard 12, and electric putter 3 is located the below of interior heat transfer member 152, and electric putter 3's telescopic link and the bottom fixed connection of interior heat transfer member 152, electric putter 3 is used for driving interior heat transfer member 152 including along vertical direction in mounting hole 121 and reciprocate. When the electric push rod 3 drives the inner heat transfer element 152 to move upwards, the second heat conduction sheet 154 is gradually separated from the first heat conduction sheet 153 until the second heat conduction sheet is no longer in contact with the first heat conduction sheet 153; when the electric push rod 3 drives the inner heat transfer member 152 to move downward, the second heat conduction sheet 154 gradually contacts with the first heat conduction sheet 153 until the second heat conduction sheet is completely attached. In this embodiment, the outer heat transfer member 151, the inner heat transfer member 152, the first heat transfer portion, and the second heat transfer portion are made of stainless steel, which has good heat transfer performance and strength as a metal material.

The implementation principle of the embodiment of the application is as follows: the utility model provides an energy-saving assembly type building wall is when using, earlier realize the pre-connection through first joint structure and the cooperation of second joint structure joint with the side fascia 11 of top with the side fascia 11 of below, then it is fixed with the first locking mounting 21 of below side fascia 11 and the second locking mounting 22 locking of top side fascia 11, realize the stable connection of below side fascia 11 and top side fascia 11, then articulate wallboard 12 in the below on the first connecting piece 131 of below side fascia 11 through second connecting piece 132, then articulate wallboard 12 in the top on top side fascia 11. When the indoor temperature needs to be adjusted, the electric push rod 3 drives the inner heat transfer element 152 to move downwards, so that the second heat conduction sheet 154 and the first heat conduction sheet 153 are inserted and completely attached, and the indoor environment and the outdoor environment can realize heat exchange through the outer heat transfer element 151 and the inner heat transfer element 152; moreover, the second heat-conducting fin 154 and the first heat-conducting fin 153 can not only perform the function of heat conduction, but also perform the function of connection, thereby improving the connection strength between the external wall panel 11 and the internal wall panel 12 and further improving the safety of construction.

The utility model provides an energy-saving assembly type structure wall body is when assembling upper and lower adjacent wall body submodule piece 1, link together side fascia 11 and interior wallboard 12 through coupling assembling 13, the cooperation of the first joint structure of side fascia 11 with the second joint structure joint of the side fascia 11 of top of below, through locking Assembly 2 with side fascia 11 and the 11 locking connection of top side fascia, can improve the stability of connecting when assembling the wall body submodule piece 1 on upper and lower layer, prevent the phenomenon that collapses, the security of construction is improved.

In other embodiments, the materials of the outer wall panel 11 and the inner wall panel 12 can be selected according to the needs.

In other embodiments, the first clamping structure may be configured as a T-shaped sliding block 14 fixedly disposed on the upper end surface of the external wall panel 11, and the second clamping structure is configured as a T-shaped slot opened on the lower end surface of the external wall panel 11 and adapted to the T-shaped sliding block 14.

In other embodiments, the outer heat transfer member 151, the inner heat transfer member 152, the first heat conduction portion and the second heat conduction portion may also be made of other commonly used heat conduction materials, such as aluminum alloy.

The embodiments of the present disclosure are all preferred embodiments of the present disclosure, and the protection scope of the present disclosure is not limited thereby, wherein like parts are designated by like reference numerals. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An energy-saving assembly type building wall comprises at least two wall sub-modules (1) which are spliced and fixed up and down, and is characterized in that each wall sub-module (1) comprises an external wall panel (11), an internal wall panel (12) and a connecting assembly (13) for connecting the external wall panel (11) and the internal wall panel (12); the upper end face of the external wall panel (11) is also provided with a first clamping structure, the lower end face of the external wall panel (11) is also provided with a second clamping structure, and the first clamping structure can be clamped and matched with the second clamping structure of the external wall panel (11) on the upper layer.

2. The energy-saving assembled building wall body as claimed in claim 1, further comprising a locking assembly (2) for fixedly locking and connecting the two wall sub-modules (1) adjacent to each other, wherein the locking assembly (2) comprises a first locking fixing member (21) and a second locking fixing member (22), the first locking fixing member (21) is fixedly arranged at an upper edge position of the inner side wall of the external wall panel (11), the second locking fixing member (22) is fixedly arranged at a lower edge position of the inner side wall of the external wall panel (11), and the first locking fixing member (21) can be fixedly locked and matched with the second locking fixing member (22) of the external wall panel (11) on the upper layer.

3. The energy-saving assembly type building wall body according to claim 2, wherein the first locking fixing piece (21) comprises a first fixing block (211) and a first locking bolt (212), the first fixing block (211) is fixedly installed at the edge position of the inner side wall of the outer wall panel (11), a first threaded hole for screwing and installing the first locking bolt (212) is formed in the first fixing block (211), the first threaded hole is horizontally arranged, a first inserting hole is further formed in the first fixing block (211), the first inserting hole penetrates through the first fixing block (211) in the vertical direction, and the first inserting hole is intersected with the first threaded hole; the second locking fixing piece (22) comprises a second fixing block (221) and a second locking bolt (222), the second fixing block (221) is fixedly installed at the lower edge position of the inner side wall of the external wall panel (11), a second threaded hole used for screwing and installing the second locking bolt (222) is formed in the second fixing block (221), the second threaded hole is horizontally arranged, a second inserting hole is further formed in the second fixing block (221), the second inserting hole penetrates through the second fixing block (221) along the vertical direction, the second inserting hole is intersected with the second threaded hole, the second inserting hole is the same as the first inserting hole in aperture, and the axis of the second inserting hole coincides with the first inserting hole; the locking assembly (2) further comprises an insertion rod (23), the insertion rod (23) is inserted into the first insertion hole and the second insertion hole in a matched mode, and a first through hole for the screw portion of the first locking bolt (212) to penetrate through and a second through hole for the screw portion of the second locking bolt (222) to penetrate through are formed in the insertion rod (23).

4. The energy-saving assembled building wall according to any one of claims 1 to 3, wherein the connecting assembly (13) comprises a first connecting member (131) and a second connecting member (132), the first connecting member (131) is fixedly arranged at an edge position on an inner side wall of the outer wall panel (11), the first connecting member (131) is of an L-shaped hook structure, the second connecting member (132) is fixedly arranged on an inner side wall of the inner wall panel (12), the second connecting member (132) is arranged corresponding to the first connecting member (131), and the second connecting member (132) is provided with a hanging hole (133) which is matched with the first connecting member (131) in a hanging manner.

5. The energy-saving assembled building wall body as claimed in any one of claims 1 to 3, wherein the first clamping structure is a T-shaped groove formed on the upper end surface of the external wall panel (11), and the second clamping structure is a T-shaped sliding block (14) fixedly arranged on the lower end surface of the external wall panel (11) and matched with the T-shaped groove.

6. The energy-saving assembled building wall according to claim 1, wherein the wall sub-module (1) further comprises a temperature adjusting assembly (15), the temperature adjusting assembly (15) comprises an outer heat transfer member (151) and an inner heat transfer member (152), the outer heat transfer member (151) is fixedly installed on the outer wall panel (11), the outer end of the outer heat transfer member (151) is exposed to the outside, the inner end of the outer heat transfer member (151) is located in the gap between the outer wall panel (11) and the inner wall panel (12), the inner heat transfer member (152) is movably installed on the inner wall panel (12) in a guiding manner, the outer end of the inner heat transfer member (152) is located in the gap between the outer wall panel (11) and the inner wall panel (12), the inner end of the inner heat transfer member (152) is exposed to the indoor, and the inner heat transfer member (152) can be moved to achieve contact with or separation from the outer heat transfer member (151).

7. The energy-saving fabricated building wall according to claim 6, wherein a first heat conduction portion is fixedly arranged at an inner end of the outer heat transfer member (151), the first heat conduction portion comprises a plurality of first heat conduction fins (153) arranged in parallel at intervals, a second heat conduction portion is fixedly arranged at an outer end of the inner heat transfer member (152), the second heat conduction portion comprises a plurality of second heat conduction fins (154) arranged in parallel at intervals, and the second heat conduction fins (154) can be inserted into gaps formed by the first heat conduction fins (153) in a one-to-one corresponding manner.

8. The energy-saving fabricated building wall according to claim 7, wherein the first heat-conducting fins (153) are parallel to the inner side walls of the external wall panels (11), and the first heat-conducting fins (153) are arranged in parallel and at intervals in a direction perpendicular to the first heat-conducting fins (153).