CN218264432U - Assembled energy-conserving wall structure - Google Patents

Abstract

The utility model provides an assembled energy-saving wall structure, which relates to the technical field of building walls and new energy, and comprises a self-heat-preservation outer wall, a non-dismantling heat-preservation template, a bearing wall and a photovoltaic outer wall panel; the two first connecting structures are correspondingly connected with the two non-dismantling heat-insulating templates one by one, and a preset space is formed between the two non-dismantling heat-insulating templates; the bearing wall body is arranged in the preset space and is connected with the first connecting surface; the two opposite sides of the self-insulation outer wall in the thickness direction are provided with second connecting surfaces, the second connecting surfaces are provided with second connecting structures, and the second connecting structures are connected with the photovoltaic outer wall panel; the photovoltaic external wall panel is connected with the electric equipment. The utility model discloses improved traditional building bearing wall and the relation of laying of outer wall, solved current building wall structure and had the energy extravagant, the loaded down with trivial details and the relatively poor scheduling problem of quality of construction.

Description

Assembled energy-conserving wall structure

Technical Field

The utility model relates to a building wall and new forms of energy technical field particularly, relate to an energy-conserving wall structure of assembled.

Background

The existing building wall structure is generally characterized in that a non-bearing outer wall is built by building blocks on the outer side of a bearing wall, and the outer side of the building blocks is decorated by adopting paint or stone. The decorative material has higher heat conductivity coefficient, so that the external wall heat-insulating material is used more; in summer, the wall surface is easy to absorb heat to cause the indoor temperature to rise, and a large amount of electric energy needs to be consumed indoors to reduce the temperature; in addition, the traditional non-bearing wall building blocks need to be used for building the whole outer wall one by one, the construction process is complicated, labor and time are wasted, and the wall is prone to cracking and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving wall structure of assembled to there is the energy waste, the loaded down with trivial details and the relatively poor scheduling problem of quality in solving current building wall structure.

In order to solve the above problem, the utility model provides an energy-conserving wall structure of assembled at first, include: the self-insulation building block comprises a self-insulation outer wall, a disassembly-free insulation template, a bearing wall body and a photovoltaic outer wall panel; the two first connecting structures are correspondingly connected with the two non-dismantling heat-insulating templates one by one, and a preset space is formed between the two non-dismantling heat-insulating templates; the bearing wall body is arranged in the preset space and is connected with the first connecting surface; the two opposite sides of the self-insulation outer wall in the thickness direction are provided with second connecting surfaces, the second connecting surfaces are provided with second connecting structures, and the second connecting structures are connected with the photovoltaic outer wall panel; the photovoltaic external wall panel is connected with the electric equipment.

According to the arrangement, the bearing wall body and the self-insulation outer wall are arranged adjacently, so that the inner and outer relations between the traditional building bearing wall and the outer wall are changed, the self-insulation outer wall is connected with the non-dismantling insulation formwork, the bearing wall body is cast and molded in a preset space formed by the two non-dismantling insulation formworks, the self-insulation outer wall and the non-dismantling insulation formwork can be prefabricated and produced in a factory, the installation and construction processes of the wall body on a construction site are simple, the construction time is greatly shortened, and the construction efficiency is improved; the self-insulation outer wall is a tightly connected whole wall body after being prefabricated and molded, and is more firmly connected compared with the outer wall built by the existing building blocks, the wall body is not easy to crack, and the quality is better; the photovoltaic outer wall panel is connected with the outer side of the self-insulation outer wall, can absorb solar energy to reduce heat conduction inwards, can reduce energy consumption caused by indoor cooling, and can convert the solar energy into electric energy for electric equipment to use to enhance energy utilization.

Further, first connection structure includes installation frame and first connecting piece, fixes on the installation frame on first connection face, and first mounting hole has been seted up to the installation frame, has seted up first mating holes on the heat preservation template of exempting from to tear open, and first connecting piece passes first mounting hole and first mating holes.

So set up, be connected the installation frame with exempting from to tear open the heat preservation template through first connecting piece, can accomplish the installation with first connecting piece through first mounting hole and first mating holes, easy operation, the installation effectiveness is higher.

Further, the mounting frame comprises a first connecting plate, a second connecting plate and two side plates; one plate surface of the first connecting plate is attached to the first connecting surface; one end of the second connecting plate is vertically arranged at the upper end of the other plate surface of the first connecting plate and is attached to the top surface of the non-dismantling heat-insulating template; two curb plates parallel interval sets up, and each curb plate is connected with first connecting plate and second connecting plate are perpendicular respectively, and first mounting hole is located the curb plate, and the corner of exempting from to tear open insulation formwork is located between two curb plates.

So set up, be connected with the self preservation temperature outer wall through first connecting plate, the second connecting plate is connected with the top surface of exempting from to tear open insulation formwork, and the corner of exempting from to tear open insulation formwork is located between the curb plate of both sides, sets up first mounting hole on the curb plate, and further is connected curb plate and exempting from to tear open insulation formwork through first connecting piece, has strengthened the installation frame and has exempted from to tear open insulation formwork's stability of being connected.

Furthermore, the connecting device also comprises a second connecting piece, a second mounting hole is formed in the first connecting plate, a second matching hole is formed in the first connecting surface, and the second connecting piece penetrates through the second mounting hole and the second matching hole.

So set up, be connected through the second connecting piece between first connecting plate and the first connection face, strengthened being connected between installation frame and the self preservation temperature outer wall, and the installation simple of second connecting piece, the installation effectiveness is higher.

Furthermore, two opposite side surfaces of the non-dismantling heat-insulating template are respectively provided with a first installation notch, the first installation notches are matched with the side plates in shape and size, and the two side plates are correspondingly installed in the two first installation notches one by one respectively; and/or a second mounting notch is formed in the top surface of the disassembly-free heat-insulation template, the second mounting notch is matched with the shape and size of a second connecting plate, and the second connecting plate is mounted in the second mounting notch.

So set up, set up first installation breach and second installation breach on exempting from to tear open heat preservation template, correspond the position and the shape and size of curb plate and second connecting plate respectively for the curb plate can the gomphosis in first installation breach, and the second connecting plate can the gomphosis in second installation breach, improves the installation frame and exempts from to tear open the stability of being connected between the heat preservation template, and strengthens the planarization of exempting from to tear open the heat preservation template.

Further, the photovoltaic outer wall panel comprises a third connecting piece, a third mounting hole is formed in the second connecting structure, a third matching hole is formed in the photovoltaic outer wall panel, and the third connecting piece penetrates through the third mounting hole and the third matching hole.

So set up, it has the third mounting hole to reserve on second connection structure, connects the photovoltaic side fascia outside self preservation temperature outer wall through the third connecting piece, alright set up the third mounting hole when prefabricated self preservation temperature outer wall, need not the work progress and punch, and can dismantle the connection through the third connecting piece, the photovoltaic side fascia's of being convenient for installation and dismantlement.

Furthermore, a fourth mounting hole is formed in the self-insulation outer wall along the thickness direction, a mounting piece is arranged on the photovoltaic outer wall panel, and the mounting piece is inserted into the fourth mounting hole.

So set up, with the installed part cartridge in the fourth mounting hole of seting up along self preservation temperature outer wall thickness direction, can strengthen being connected between photovoltaic side fascia and the self preservation temperature outer wall to restriction photovoltaic side fascia motion or skew on the self preservation temperature outer wall, the installation operation of the photovoltaic side fascia of being convenient for.

Furthermore, a third connecting structure is arranged on the disassembly-free heat-insulating template close to one side of the photovoltaic external wall panel, one part of the third connecting structure is positioned in the preset space and is connected with the bearing wall body, and the other part of the third connecting structure is connected with the photovoltaic external wall panel.

So set up, will exempt from to tear open the heat preservation template and be connected with the photovoltaic side fascia through third connection structure, strengthened the fastness of photovoltaic side fascia installation, reduce the risk that drops.

Furthermore, the self-insulation external wall further comprises an embedded part, a connecting hole is formed in the width direction of the self-insulation external wall, part of the embedded part is inserted into the connecting hole, and the other part of the embedded part is located in the preset space and connected with the bearing wall.

According to the arrangement, one part of the embedded part is inserted into the connecting hole, the other part of the embedded part is located in the preset space, the bearing wall is poured in the preset space and is stably connected with the embedded part after being formed, and the inserted embedded part is used for enhancing the connection stability between the self-insulation outer wall and the bearing wall and the stability of the whole wall structure of the building.

Furthermore, the self-insulation outer wall and the non-dismantling heat-insulation template are provided with line grooves for the wires of the photovoltaic outer wall panel to pass through.

So set up, set up the line groove on self preservation temperature outer wall and exempt from to tear open the heat preservation template, the electric wire of the photovoltaic side fascia of being convenient for is laid, and plays the protection electric wire and with outside isolated effect, has strengthened the security of photovoltaic side fascia.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an assembled energy-saving wall structure provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a self-insulation outer wall provided in an embodiment of the present invention;

fig. 3 is a schematic structural view of the disassembly-free heat-preservation template provided by the embodiment of the utility model;

fig. 4 is a schematic structural diagram of a mounting frame provided in an embodiment of the present invention.

Description of reference numerals:

100-self-insulation outer wall; 110-a first connection face; 120-a first connecting structure; 121-a mounting frame; 1211 — a first mounting hole; 1212-first connecting plate; 1213-second connecting plate; 1214-side panels; 1215-a second mounting hole; 122 — a first connector; 123-a second mating hole; 130-a second connection face; 140-a second connecting structure; 141-a third connection; 142-a third mounting hole; 150-a fourth mounting hole; 160-embedded parts; 170-connecting hole; 180-wire slots;

200-detaching-free heat preservation template; 210-a first mating hole; 220-a first mounting notch; 230-a second mounting notch; 240-a third connection structure;

300-a load-bearing wall body;

400-photovoltaic external wall panel.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to solve the energy waste, the loaded down with trivial details and the relatively poor scheduling problem of quality of construction wall structure existence now, this embodiment provides an energy-conserving wall structure of assembled earlier, as shown in fig. 1, include: the self-insulation building comprises a self-insulation outer wall 100, a non-dismantling heat insulation template 200, a bearing wall 300 and a photovoltaic outer wall panel 400, wherein the self-insulation outer wall 100 is arranged adjacent to the bearing wall 300, and the photovoltaic outer wall panel 400 is positioned on the outermost side of a building wall; specifically, as shown in fig. 2, first connection surfaces 110 are respectively disposed on two opposite sides of the self-insulation outer wall 100 in the width direction, two first connection structures 120 are respectively disposed on each first connection surface 110, the two first connection structures 120 are connected with two non-dismantling insulation formworks 200 in a one-to-one correspondence manner, and a preset space is formed between the two non-dismantling insulation formworks 200; the bearing wall 300 is located in the predetermined space and connected to the first connection surface 110; the two opposite sides of the self-insulation outer wall 100 in the thickness direction are both provided with second connecting surfaces 130, the second connecting surfaces 130 are provided with second connecting structures 140, and the second connecting structures 140 are connected with the photovoltaic outer wall panel 400; the photovoltaic external wall panel 400 is connected with electric equipment.

In addition, it should be noted that the non-dismantling heat preservation formwork 200 mentioned in this embodiment may be replaced with other types of formworks according to actual situations in the construction process, such as existing wood formworks and steel formworks, and is mainly used for casting the load-bearing wall 300.

In the embodiment, the internal and external relations between a traditional building bearing wall and an external wall are changed, the bearing wall 300 and the self-insulation external wall 100 are arranged adjacently, the self-insulation external wall 100 is connected with the non-dismantling heat-insulation templates 200, the bearing wall 300 is cast and molded in the preset space formed by the two non-dismantling heat-insulation templates 200, the self-insulation external wall 100 and the non-dismantling heat-insulation templates 200 can be prefabricated and produced in a factory, the installation and construction process of the wall on a construction site is simple, the construction time is greatly shortened, and the construction efficiency is improved; the prefabricated self-insulation outer wall 100 is a tightly connected integral wall, and is more firmly connected compared with an outer wall built by the existing building blocks, the wall is not easy to crack, and the quality is better; in addition, the photovoltaic external wall panel 400 is connected to the outer side of the self-heat-insulation external wall 100, the photovoltaic external wall panel 400 can absorb solar energy to reduce heat conduction inwards, energy consumption caused by indoor cooling can be reduced, meanwhile, the photovoltaic external wall panel 400 can convert the solar energy into electric energy for electric equipment, and utilization of renewable energy is enhanced.

As shown in fig. 1-3, the first connecting structure 120 includes a mounting frame 121 and a first connecting member 122, the mounting frame 121 is fixed on the first connecting surface 110, the mounting frame 121 has a first mounting hole 1211, the non-removable heat preservation formwork 200 has a first fitting hole 210, the first connecting member 122 passes through the first mounting hole 1211 and the first fitting hole 210, and the first connecting member 122 is a bolt.

The mounting frame 121 is connected with the non-detachable heat preservation template 200 through the first connecting piece 122, and the first connecting piece 122 passes through the first mounting hole 1211 and the first matching hole 210, so that the mounting can be completed, the operation is simple, and the mounting efficiency is high.

Specifically, as shown in fig. 3 and 4, the mounting frame 121 includes a first connecting plate 1212, a second connecting plate 1213, and two side plates 1214; one plate surface of the first connecting plate 1212 is attached to the first connecting surface 110; one end of the second connecting plate 1213 is vertically mounted on the upper end of the other plate surface of the first connecting plate 1212, and is attached to the top surface of the non-dismantling heat-insulating template 200; the two side plates 1214 are arranged in parallel at intervals, each side plate 1214 is respectively and vertically connected with the first connecting plate 1212 and the second connecting plate 1213, the first mounting hole 1211 is located on the side plates 1214, and the corner of the non-detachable heat preservation template 200 is located between the two side plates 1214.

Be connected with self preservation temperature outer wall 100 through first connecting plate 1212, second connecting plate 1213 is connected with the top surface of exempting from to tear open insulation formwork 200, and the corner of exempting from to tear open insulation formwork 200 is located between the curb plate 1214 of both sides, sets up first mounting hole 1211 on curb plate 1214, and further is connected curb plate 1214 with exempting from to tear open insulation formwork 200 through first connecting piece 122, has strengthened installation frame 121 and has exempted from to tear open insulation formwork 200's stability of being connected.

Optionally, as shown in fig. 3, a second mounting hole 1215 is formed on the first connecting plate 1212, a second mating hole 123 is formed on the first connecting surface 110, and a second connecting member, which is a bolt and is not shown in the figure, passes through the second mounting hole 1215 and the second mating hole 123 to fix the first connecting plate 1212 to the first connecting surface 110.

The first connecting plate 1212 is connected to the first connecting surface 110 through a second connecting member, so that the connection between the mounting frame 121 and the self-insulation external wall 100 is enhanced, the mounting process of the second connecting member is simple, and the mounting efficiency is high.

In consideration of the flatness of the connection between the mounting frame 121 and the non-dismantling heat-insulating template 200, as shown in fig. 3, two opposite side surfaces of the non-dismantling heat-insulating template 200 are both provided with first mounting notches 220, the first mounting notches 220 are matched with the side plates 1214 in shape and size, and the two side plates 1214 are respectively and correspondingly mounted in the two first mounting notches 220 one by one; the top surface of the non-dismantling heat preservation template 200 is provided with a second installation notch 230, the second installation notch 230 is matched with the shape and size of a second connecting plate 1213, and the second connecting plate 1213 is installed in the second installation notch 230.

Set up first installation breach 220 and second installation breach 230 on exempting from to tear open heat preservation template 200, correspond the position and the shape and size of curb plate 1214 and second connecting plate 1213 respectively for curb plate 1214 can the gomphosis in first installation breach 220, second connecting plate 1213 can the gomphosis in second installation breach 230, play limiting displacement to installation frame 121, improve the installation frame 121 and exempt from to tear open the stability of being connected between the heat preservation template 200, and strengthen exempting from to tear open the planarization of heat preservation template 200.

Considering the convenience of assembling and disassembling the photovoltaic external wall panel 400, as shown in fig. 2, the second connecting structure 140 has a third mounting hole 142, the photovoltaic external wall panel 400 has a third mating hole, the third mating hole is not shown in the figure, the third connecting member 141 passes through the third mounting hole 142 and the third mating hole to fix the photovoltaic external wall panel 400 on the self-insulation external wall 100, and the third connecting member 141 is a bolt.

The third mounting holes 142 are reserved in the second connecting structures 140, the photovoltaic external wall panels 400 are connected to the outer side of the self-insulation external wall 100 through the third connecting pieces 141, the third mounting holes 142 can be formed when the self-insulation external wall 100 is prefabricated, the holes are formed without the construction process, and the third connecting pieces 141 are detachably connected, so that the photovoltaic external wall panels 400 can be conveniently mounted and dismounted, and subsequent checking and maintaining work is facilitated.

Optionally, as shown in fig. 2, a fourth mounting hole 150 is formed in the self-insulation outer wall 100 along the thickness direction, and a mounting element is arranged on the photovoltaic outer wall panel 400, the mounting element is not shown in the figure, and the mounting element is inserted into the fourth mounting hole 150.

The mounting part is inserted into the fourth mounting hole 150 formed in the thickness direction of the self-insulation outer wall 100, so that the connection between the photovoltaic outer wall panel 400 and the self-insulation outer wall 100 can be enhanced, the photovoltaic outer wall panel 400 is limited, the movement or the deviation of the photovoltaic outer wall panel 400 on the self-insulation outer wall 100 is avoided, and the photovoltaic outer wall panel 400 is convenient to mount and operate.

Further, as shown in fig. 3, a third connecting structure 240 is disposed on the non-dismantling heat insulation formwork 200 near one side of the photovoltaic external wall panel 400, a part of the third connecting structure is located in the preset space and connected to the load-bearing wall 300, and another part of the third connecting structure 240 is connected to the photovoltaic external wall panel 400. The disassembly-free heat preservation template 200 is connected with the photovoltaic external wall panel 400 through the third connecting structure 240, so that the installation firmness of the photovoltaic external wall panel 400 is enhanced, and the falling risk is reduced.

Optionally, as shown in fig. 2, an embedded part 160 is further provided, a connection hole 170 is formed in the width direction of the self-insulation external wall 100, a part of the embedded part 160 is inserted into the connection hole 170, and another part is located in the preset space and connected to the load-bearing wall 300.

The embedded part 160 is partially inserted into the connecting hole 170, the other part is located in a preset space, the bearing wall 300 is poured in the preset space, and is stably connected with the embedded part 160 after being formed, and the embedded part 160 is inserted to enhance the connection stability between the self-insulation outer wall 100 and the bearing wall 300 and the stability of the whole wall structure of the building.

In order to enhance the protection effect on the lines, as shown in fig. 2 and 3, the self-insulation exterior wall 100 and the non-dismantling insulation formwork 200 are provided with line grooves 180 for allowing the electric wires of the photovoltaic exterior wall panel 400 to pass through. The circuit groove 180 is formed, so that the electric wires of the photovoltaic external wall panel 400 can be conveniently arranged and the circuit can be conveniently overhauled, the electric wires can be protected and the external insulation effect can be realized, and the safety of the photovoltaic external wall panel 400 is enhanced.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An assembled energy-conserving wall structure, characterized by, includes: the self-insulation building block comprises a self-insulation outer wall (100), a disassembly-free heat-insulation template (200), a bearing wall body (300) and a photovoltaic outer wallboard (400);

the self-insulation outer wall (100) is provided with first connecting surfaces (110) on two opposite sides in the width direction, two first connecting structures (120) are arranged on each first connecting surface (110), the two first connecting structures (120) are correspondingly connected with the two non-dismantling heat-insulation templates (200) one by one, and a preset space is formed between the two non-dismantling heat-insulation templates (200);

the bearing wall body (300) is arranged in the preset space and is connected with the first connecting surface (110);

two opposite sides of the self-insulation outer wall (100) in the thickness direction are respectively provided with a second connecting surface (130), the second connecting surfaces (130) are provided with second connecting structures (140), and the second connecting structures (140) are connected with the photovoltaic outer wall panel (400);

the photovoltaic external wall panel (400) is connected with electric equipment.

2. The assembled energy-saving wall structure according to claim 1, wherein the first connecting structure (120) comprises a mounting frame (121) and a first connecting member (122), the mounting frame (121) is fixed on the first connecting surface (110), the mounting frame (121) is provided with a first mounting hole (1211), the non-dismantling heat-insulating formwork (200) is provided with a first fitting hole (210), and the first connecting member (122) passes through the first mounting hole (1211) and the first fitting hole (210).

3. The fabricated energy-saving wall structure according to claim 2, wherein the mounting frame (121) comprises a first connecting plate (1212), a second connecting plate (1213) and two side plates (1214); one plate surface of the first connecting plate (1212) is attached to the first connecting surface (110); one end of the second connecting plate (1213) is vertically arranged at the upper end of the other plate surface of the first connecting plate (1212), and is attached to the top surface of the non-dismantling heat-insulating template (200); the two side plates (1214) are arranged in parallel at intervals, each side plate (1214) is respectively and vertically connected with the first connecting plate (1212) and the second connecting plate (1213), the first mounting hole (1211) is located on the side plates (1214), and the corner of the non-dismantling heat preservation formwork (200) is located between the two side plates (1214).

4. The assembly type energy-saving wall structure according to claim 3, further comprising a second connecting member, wherein the first connecting plate (1212) is provided with a second mounting hole (1215), the first connecting surface (110) is provided with a second matching hole (123), and the second connecting member passes through the second mounting hole (1215) and the second matching hole (123).

5. The assembled energy-saving wall structure according to claim 3, wherein two opposite side surfaces of the non-dismantling heat-insulating formwork (200) are respectively provided with a first installation notch (220), the first installation notches (220) are matched with the shape and size of the side plates (1214), and the two side plates (1214) are respectively installed in the two first installation notches (220) in a one-to-one correspondence manner;

and/or a second installation notch (230) is formed in the top surface of the non-dismantling heat-insulating template (200), the second installation notch (230) is matched with the shape and the size of the second connecting plate (1213), and the second connecting plate (1213) is installed in the second installation notch (230).

6. The assembled energy-saving wall structure according to claim 1, further comprising a third connecting member (141), wherein the second connecting structure (140) is provided with a third mounting hole (142), the photovoltaic external wall panel (400) is provided with a third matching hole, and the third connecting member (141) passes through the third mounting hole (142) and the third matching hole.

7. The assembled energy-saving wall structure according to claim 6, wherein a fourth mounting hole (150) is formed in the self-insulation outer wall (100) along the thickness direction, and a mounting member is arranged on the photovoltaic outer wall panel (400) and inserted into the fourth mounting hole (150).

8. The assembled energy-saving wall structure according to claim 1, wherein a third connecting structure (240) is arranged on the non-dismantling heat preservation formwork (200) close to one side of the photovoltaic external wall panel (400), a part of the third connecting structure is positioned in the preset space and connected with the load-bearing wall body (300), and another part of the third connecting structure (240) is connected with the photovoltaic external wall panel (400).

9. The assembled energy-saving wall structure according to any one of claims 1 to 8, further comprising an embedded part (160), wherein a connecting hole (170) is formed in the width direction of the self-insulation outer wall (100), a part of the embedded part (160) is inserted into the connecting hole (170), and the other part of the embedded part is located in the preset space and connected with the bearing wall (300).

10. The assembled energy-saving wall structure according to any one of claims 1 to 8, wherein the self-insulation outer wall (100) and the non-dismantling heat-insulation formwork (200) are provided with wire grooves (180) for electric wires of the photovoltaic outer wall panel (400) to pass through.

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