CN215106562U - Energy-saving wall structure of mobile building - Google Patents

Abstract

The utility model provides an energy-saving wall structure of a mobile building, which has the replaceability of exterior materials and can change the radiation quantity of received sunlight according to needs, thereby achieving the energy-saving effect, and particularly comprises an inner wall plate and an outer wall plate, wherein the inner wall plate and the outer wall plate are both in a rectangular structure, the upper end position and the lower end position of the outer side part of the inner wall plate are respectively provided with a clamping edge strip I and a clamping edge strip II, the outer wall plate can be flexibly arranged between the clamping edge strip I and the clamping edge strip II, thereby being arranged at the outer side surface part of the outer wall plate, the outer side surface of the inner wall plate adopts black coating treatment, the outer side surface of the outer wall plate adopts white coating treatment, the black surface has a large capacity of absorbing light compared with white, the outer wall plate is not arranged in winter, the building can absorb the heat of sunlight, the outer wall plate can be arranged in summer, thereby reducing the absorption of the heat, the energy-saving effect is achieved.

Description

Energy-saving wall structure of mobile building

Technical Field

The utility model relates to a building wall structure technical field especially relates to an energy-saving wall structure of mobile building.

Background

The movable building is usually used temporarily, such as a temporary living dormitory and a temporary office area which are built in the engineering construction process, the main requirements of the buildings are that the assembly is convenient, the disassembly is simple, and the construction has better flexibility, so the movable building is generally built by adopting a structure with a metal wrapping surface, such as a color steel plate and the like, the exterior of the movable building is a stainless steel plate, the interior of the movable building is filled with a foam plate, and the movable building has the advantages of light weight, firm structure, good heat preservation effect and the like, but the movable building has the defects that internal ventilation facilities are limited, a plurality of construction areas can be located in remote areas, water and electricity are in short supply, so the movable building often has the phenomenon of hot summer and cold winter, and in order to improve the phenomenon, the energy-saving effect of the building per se, especially the wall part of the building, is required to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve provides an energy-saving wall structure of mobile building, and it possesses the outer material convertibility, changes the radiant quantity of accepting sunshine as required to play energy-conserving effect.

The utility model particularly comprises an inner wall plate and an outer wall plate, wherein the inner wall plate and the outer wall plate are both rectangular structures, a first clamping strip and a second clamping strip are respectively arranged at the upper end and the lower end of the outer side part of the inner wall plate, the first clamping strip and the second clamping strip are both metal strip-shaped structures, the first clamping strip is bent to form a first fixing strip and a first outer strip, the upper side of the first outer strip is connected and fixed at the outer side of the first fixing strip, the first outer strip and the first fixing strip are in vertical relation, the cross section of the first clamping strip is L-shaped structure, the inner side of the first fixing strip is connected and fixed at the upper end of the outer side part of the inner wall plate, the first fixing strip and the outer side surface of the inner wall plate are in vertical relation, the first outer strip and the outer side surface of the inner wall plate are in parallel relation, the second clamping strip is bent to form a second fixing strip and a second outer side, the lower side of the second outer side is connected and fixed at the outer side of the second fixing strip, and the second outer edge strip and the second fixing strip are in a vertical relation, the section of the second clamping edge strip is of an L-shaped structure, the lower end of the outer side part of the inner wallboard is fixedly connected with the inner side edge of the second fixing strip, the second fixing strip and the outer side surface of the inner wallboard are in a vertical relation, the second outer edge strip and the outer side surface of the inner wallboard are in a parallel relation, in addition, the upper and lower heights of the first outer edge strip are larger than those of the second outer edge strip, the distance between the first outer edge strip and the outer side surface of the inner wallboard is equal to that between the second outer edge strip and the outer side surface of the inner wallboard, the thickness of the outer wall plate is smaller than that between the first outer edge strip or the second outer edge strip and the outer side surface of the inner wallboard, in addition, the upper and lower heights of the outer wall plate are larger than those between the first lower edge strip and the upper side edge of the second outer edge strip, but the upper and lower heights of the outer wall plate are smaller than those between the upper side edge of the inner wallboard and the upper side edge of the second outer side edge.

Through the setting, the lateral surface position of installing the side fascia that the side fascia can be nimble, the installation flow is, insert between the top of outside strip one and interior wallboard and the top leans on the top earlier with the upside of side fascia, the downside of side fascia can paste smoothly like this and lean on interior wallboard, later the side fascia of lapse makes its downside insert between the bottom of outside strip two and interior wallboard, simultaneously because the upper and lower height that highly is greater than outside strip two of outer strip one, then the upper end of side fascia does not break away from card strake position this moment, thereby the side fascia obtains fixed mounting, the operation process is very convenient simple.

In addition, the lateral surface of interior wallboard adopts black application to handle, and the lateral surface of side fascia adopts white application to handle, and the black surface is compared white surface and is absorbed light's ability a lot more, then absorbs heat more, also season winter, does not install the side fascia for the building absorbs more solar light's heat, and season summer, can install the side fascia, thereby reduces the absorption to the heat, then adopts the utility model relates to a movable building that the wall body was built and is formed can reduce the use to power consumption facilities such as air conditioner, reaches energy-conserving effect.

Specifically, the surface of side fascia is the aluminium foil layer, possesses reflection of light effect, improves separation solar radiation's effect, further reduces the heat and absorbs.

Further, the left side limit portion position of side fascia is provided with protruding strip one, and the thickness of protruding strip one equals half of side fascia thickness, and the lateral surface parallel and level of protruding strip one and side fascia, the right side limit portion position of side fascia is provided with protruding strip two, and the thickness of protruding strip two equals half of side fascia thickness, and the medial surface parallel and level of protruding strip two and side fascia, then arrange the installation back in proper order at the side fascia, and the protruding strip one and the protruding strip two of its adjacent position can imbed each other to avoid producing the gap at concatenation position.

Further, arrange on the protruding strip one and be provided with multichannel screw one, arrange on the protruding strip two and be provided with multichannel screw two, and screw two corresponds with the range position of screw one, then the side fascia is arranged the installation back, can be fixed with adjacent side fascia connection to screw one and screw two interior anchor bolts, increase the connection steadiness of side fascia.

Furthermore, also arrange from top to bottom at the corresponding position on the interior wallboard and be provided with multichannel screw three, the range position of screw three corresponds with the range position of screw one and screw two, then the side fascia is arranged the installation back, and screw one corresponds with screw two and screw three, and the bolt is gone into to the inside anchor can be connected adjacent side fascia and be fixed to interior wallboard on, further increases the connection steadiness of side fascia.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a sectional side view of the installation process of the present invention.

Fig. 3 is a sectional side view of the installation state of the present invention.

Fig. 4 is a schematic top cross-sectional view of the outer wall panel of the present invention.

Fig. 5 is a top sectional view of the present invention in an installed state.

Detailed Description

The following detailed description of embodiments of the present invention will be made with reference to the accompanying drawings.

An energy-saving wall structure of a mobile building is shown in figure 1 and comprises an inner wall plate 1 and an outer wall plate 2, wherein the inner wall plate 1 and the outer wall plate 2 are rectangular structures, a first clamping edge strip 3 and a second clamping edge strip 4 are respectively arranged at the upper end and the lower end of the outer side part of the inner wall plate 1, the first clamping edge strip 3 and the second clamping edge strip 4 are metal strip-shaped structures, the first clamping edge strip 3 is bent to form a first fixing strip 31 and a first outer edge strip 32, as shown in a cross-sectional view of figure 2, the upper side edge of the first outer edge strip 32 is connected and fixed to the outer side edge of the first fixing strip 31, the first outer edge strip 32 and the first fixing strip 31 are in a vertical relation, the cross section of the first clamping edge strip 3 is an L-shaped structure, the inner side edge of the first fixing strip 31 is connected and fixed at the upper end of the outer side part of the inner wall plate 1, the first fixing strip 31 and the outer side surface of the inner wall plate 1 are in a vertical relation, and the first outer side edge strip 32 and the outer side surface of the inner wall plate 1 are in a parallel relation, the second edge clamping strip 4 is bent to form a second fixing strip 41 and a second outer strip 42, the lower side edge of the second outer strip 42 is connected and fixed to the outer side edge of the second fixing strip 41, the second outer strip 42 and the second fixing strip 41 are in a vertical relation, the section of the second edge clamping strip 4 is of an L-shaped structure, the inner side edge of the second fixing strip 41 is connected and fixed to the lower end of the outer side part of the inner wallboard 1, the second fixing strip 41 and the outer side surface of the inner wallboard 1 are in a vertical relation, the second outer strip 42 and the outer side surface of the inner wallboard 1 are in a parallel relation, in addition, the upper height and the lower height of the first outer strip 32 are larger than the upper height and the lower height of the second outer strip 42, the distance between the first outer strip 32 and the outer side surface of the inner wallboard 1 is equal to the distance between the second outer strip 42 and the outer side surface of the inner wallboard 1, and the thickness of the outer wallboard 2 is smaller than the distance between the first outer strip 32 or between the second outer strip 42 and the outer side surface of the inner wallboard 1, in addition, the upper and lower height of the external wall panel 2 is greater than the distance between the lower side of the first outer edge strip 32 and the upper side of the second outer edge strip 42, but the upper and lower height of the external wall panel 2 is less than the distance between the upper side of the inner wall panel 1 and the upper side of the second outer edge strip 42.

Through the setting, the installation of side fascia 2 can be nimble lateral surface position to side fascia 1, the installation flow is, insert earlier side fascia 2's upside between the top of outer strake 32 and interior wallboard 1 and the top leans on the top, the downside of side fascia 2 can paste interior wallboard 1 smoothly like this, as shown in fig. 2 sectional view, later downwardly moving side fascia 2 makes its downside insert between the bottom of outer strake two 42 and interior wallboard 1, as shown in fig. 3 sectional view, simultaneously because the upper and lower height of outer strake 32 is greater than the upper and lower height of outer strake two 42, then the upper end of side fascia 2 at this moment does not break away from card strake 3 positions, thereby side fascia 2 obtains fixed mounting, the operation process is very convenient simple.

In addition, interior wallboard 1's lateral surface adopts black application to handle, and the lateral surface of side fascia 2 adopts white application to handle, and the black surface is compared white surface and is absorbed light's ability a lot more, then absorbs heat more, also in winter, does not install side fascia 2 for the building absorbs solar illumination's heat, and summer season, can install side fascia 2, thereby reduces the absorption to the heat, then adopts the utility model relates to a movable building that the wall body was built and is formed can reduce the use to power consumption facilities such as air conditioner, reaches energy-conserving effect.

Specifically, the surface of side fascia 2 is the aluminium foil layer, possesses reflection of light effect, improves separation solar radiation's effect, further reduces the heat and absorbs.

Further, the left side limit portion position of side fascia 2 is provided with protruding strip one 21, overlook the cross-sectional view as shown in fig. 4, and the thickness of protruding strip one 21 equals half of side fascia 2 thickness, and the lateral surface parallel and level of protruding strip one 21 and side fascia 2, the right side limit portion position of side fascia 2 is provided with protruding strip two 22, and the thickness of protruding strip two 22 equals half of side fascia 2 thickness, and the medial surface parallel and level of protruding strip two 22 and side fascia 2, then arranges the installation back in proper order at side fascia 2, and the protruding strip one 21 and the protruding strip two 22 at its adjacent position can imbed each other to avoid producing the gap at concatenation position.

Further, as shown in a top sectional view of fig. 4, a plurality of first screw holes 51 are arranged on the first protruding strips 21, a plurality of second screw holes 52 are arranged on the second protruding strips 22, and the second screw holes 52 correspond to the first screw holes 51 in arrangement positions, so that after the external wall panels 2 are arranged and installed, bolts can be anchored into the first screw holes 51 and the second screw holes 52 to connect and fix the adjacent external wall panels 2, and the connection stability of the external wall panels 2 is improved.

Furthermore, a plurality of screw holes three 53 are also vertically arranged at corresponding positions on the inner wall panel 1, as shown in the top cross-sectional view of fig. 1 and 5, the arrangement positions of the screw holes three 53 correspond to the arrangement positions of the screw holes one 51 and the screw holes two 52, after the outer wall panels 2 are arranged and installed, the screw holes one 51 correspond to the screw holes two 52 and the screw holes three 53, and bolts are inwardly anchored to connect and fix the adjacent outer wall panels 2 to the inner wall panel 1, so that the connection stability of the outer wall panels 2 is further improved.

The principle and the implementation mode are explained by applying specific examples in the specification, and the description of the above embodiments is only used for helping understanding the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (5)

1. The utility model provides an energy-saving wall structure of mobile building which characterized in that: the interior wallboard (1) and the exterior wallboard (2) are rectangular structures, a first clamping edge strip (3) and a second clamping edge strip (4) are respectively arranged at the upper end and the lower end of the outer side part of the interior wallboard (1), the first clamping edge strip (3) and the second clamping edge strip (4) are metal strip-shaped structures, the first clamping edge strip (3) forms a first fixing strip (31) and a first outer edge strip (32) through bending, the upper side edge of the first outer edge strip (32) is connected and fixed at the outer side edge of the first fixing strip (31), the first outer edge strip (32) and the first fixing strip (31) are in a vertical relation, the inner side edge of the first fixing strip (31) is connected and fixed at the upper end of the outer side part of the interior wallboard (1), the first fixing strip (31) and the outer side surface of the interior wallboard (1) are in a vertical relation, and the first outer side edge strip (32) and the outer side surface of the interior wallboard (1) are in a parallel relation, the second clamping edge strip (4) is bent to form a second fixing strip (41) and a second outer edge strip (42), the lower side edge of the second outer edge strip (42) is connected and fixed to the outer side edge of the second fixing strip (41), the second outer edge strip (42) and the second fixing strip (41) are in a vertical relation, the inner side edge of the second fixing strip (41) is connected and fixed to the lower end of the outer side part of the inner wallboard (1), the second fixing strip (41) and the outer side surface of the inner wallboard (1) are in a vertical relation, the second outer edge strip (42) and the outer side surface of the inner wallboard (1) are in a parallel relation, in addition, the upper height and the lower height of the first outer edge strip (32) are larger than the upper height and the lower height of the second outer edge strip (42), the distance between the first outer edge strip (32) and the outer side surface of the inner wallboard (1) is equal to the distance between the second outer edge strip (42) and the outer side surface of the inner wallboard (1), and the thickness of the outer wallboard (2) is smaller than the distance between the first outer edge strip (32) or between the second outer edge strip (42) and the outer side surface of the inner wallboard (1), in addition, the upper and lower highly be greater than outer strake one (32) lower side apart from the interval of outer strake two (42) upper side edge of side wall (2), but the upper and lower highly be less than interior wallboard (1) upper side apart from the interval of outer strake two (42) upper side edge of side wall (2), the lateral surface of interior wallboard (1) adopts black application to handle, the lateral surface of side wall (2) adopts white application to handle.

2. An energy-saving wall structure of a movable building according to claim 1, characterized in that: the outer surface of the external wall panel (2) is an aluminum foil layer and has a light reflecting effect.

3. An energy-saving wall structure of a movable building according to claim 1 or 2, characterized in that: the left side limit portion position of side fascia (2) is provided with protruding strip one (21), and the thickness of protruding strip one (21) equals half of side fascia (2) thickness, and the lateral surface parallel and level of the lateral surface of protruding strip one (21) and side fascia (2), the right side limit portion position of side fascia (2) is provided with protruding strip two (22), and the thickness of protruding strip two (22) equals half of side fascia (2) thickness, and the medial surface parallel and level of the medial surface of protruding strip two (22) and side fascia (2), arranges the installation back in proper order in side fascia (2), and the protruding strip one (21) and protruding strip two (22) of its adjacent position can imbed each other.

4. An energy-saving wall structure of a movable building according to claim 3, wherein: the improved structure is characterized in that a plurality of first screw holes (51) are arranged on the first protruding strips (21), a plurality of second screw holes (52) are arranged on the second protruding strips (22), and the arrangement positions of the second screw holes (52) correspond to the arrangement positions of the first screw holes (51).

5. An energy-saving wall structure of a movable building according to claim 4, wherein: and a plurality of screw holes III (53) are also vertically arranged at corresponding positions on the inner wall plate (1), and the arrangement positions of the screw holes III (53) correspond to the arrangement positions of the screw holes I (51) and the screw holes II (52).

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