CN115059208A - Building wall with external solar heating structure - Google Patents

Abstract

The invention discloses a building wall with an external solar heating structure, belonging to the technical field of building construction, comprising a building wall, wherein a controller is arranged on the inner wall surface of the building wall, and an adjustable support frame is arranged on the outer wall surface of the building wall; the adjustable support frame comprises a rotating connection assembly and a movable pushing assembly, the rotating connection assembly and the movable pushing assembly are both connected with the outer wall surface of the building wall body, the movable pushing assembly is connected with the rotating connection assembly, and the movable pushing assembly pushes the rotating connection assembly to rotate, so that the included angle between the rotating connection assembly and the building wall body is adjusted; the rotating connecting component of the adjustable supporting frame is connected with a solar heating structure; a hot water outlet of the solar heating structure is connected with a rotary hot water outlet assembly; through the mode, the adjustable support frame rotates the irradiation receiving angle of the solar heating structure to the optimal angle, so that the sunlight can be fully irradiated, and the solar conversion rate is improved.

Description

A building wall with external solar heating structure

technical field

The invention relates to the technical field of house construction, in particular to a building wall with an external solar heating structure.

Background technique

In order to improve the effective utilization of solar energy at the wall, a solar heating structure will be installed on the outer wall of the wall.

For example, Chinese Patent Bulletin No.: CN212566341U provides a "Solar Wall for Indoor Heating", the angle of receiving sunlight of the solar wall is fixed, which is not conducive to full sunlight, and the solar energy conversion rate is low; The wall can only be heated and cannot be used in summer, and solar energy cannot be collected and applied in summer.

Based on this, the present invention designs a building wall with an external solar heating structure to solve the above problems.

SUMMARY OF THE INVENTION

In view of the above-mentioned shortcomings of the prior art, the present invention provides a building wall with an external solar heating structure.

To achieve the above purpose, the present invention is achieved through the following technical solutions:

A building wall with an external solar heating structure, comprising a building wall, a controller is installed on the inner wall of the building wall, and an adjustable support frame is arranged on the outer wall of the building wall;

The adjustable support frame includes a rotating connection assembly and a movable pushing assembly, both of which are connected with the outer wall of the building wall, the movable pushing assembly is connected with the rotating connecting assembly, and the movable pushing assembly is connected with the rotating connecting assembly. The component pushes the rotating connecting component to rotate to realize the angle adjustment between the rotating connecting component and the building wall;

The rotating connection component of the adjustable support frame is connected with a solar heating structure;

The hot water outlet of the solar heating structure is connected with a rotary hot water outlet assembly;

The cold water inlet of the solar heating structure is connected with a movable cold water inlet component;

The water outlet end of the rotating hot water outlet assembly is connected with a synchronous direction regulating valve, and the lower end of the synchronous direction regulating valve is fixedly connected with the water outlet end of the movable cold water inlet assembly;

The upper end of the synchronous direction regulating valve is respectively fixedly connected with a water storage tank hot water inlet connection pipe and a floor heating hot water inlet connection pipe, and the lower end of the synchronous direction regulating valve is respectively fixedly connected with a floor heating cold water outlet connection pipe and a water storage tank cold water outlet connection. Tube.

Further, the rotating connection assembly includes a lower connecting ring, a support frame, an upper connecting ring, a first fixed seat, a second rotating seat and a horizontal shaft, and the first fixed seat is installed on the upper end of the outer wall of the building wall. The inner wall of the front end of the first fixed seat is fixedly connected with a horizontal shaft, the horizontal shaft is rotatably connected with a second rotating seat at equal intervals, the front end of the second rotating seat is fixedly connected with a support frame, and the upper end of the support frame is fixed at equal intervals An upper connecting ring is connected, and a lower connecting ring is fixedly connected with the lower end of the support frame at equal intervals.

Further, the movable push assembly includes a first connection seat, a first rotation seat, a second fixed seat and a linear drive assembly, the second fixed seat is installed on the outer wall of the building wall, the second The fixed seat is rotatably connected with a linear drive assembly, the driving end of the linear drive assembly is fixedly connected with a first connection seat, the first connection seat is rotatably connected with a first rotation seat, and the first rotation seat is installed on the support frame close to the building side wall of the wall.

Further, the solar heating structure includes a heat collection pipe, a hot water transverse pipe and a cold water transverse pipe, the hot water transverse pipe is fixedly connected to the upper end of the heat collection pipe through installation holes opened at equal intervals, and the cold water transverse pipe is equidistantly spaced. The opened installation hole is fixedly connected with the lower end of the heat collecting pipe.

Further, the cold water transverse pipe is installed in the lower connecting ring, and the hot water transverse pipe is installed in the upper connecting ring.

Further, the rotary hot water outlet assembly includes an L-shaped connecting pipe and a sealing bearing, the sealing bearing is fixedly connected with the hot water transverse pipe, the sealing bearing is fixedly connected with the L-shaped connecting pipe, and the L-shaped connecting pipe is fixedly connected. It is installed in the installation hole opened in the building wall.

Further, the movable cold water inlet assembly includes a horizontal pipe, a soft gooseneck, a counterweight ring, a support ring and a straight pipe, and a horizontal pipe is fixedly connected to the water inlet of the cold water horizontal pipe, and the outer end of the horizontal pipe is fixed. A soft gooseneck is fixedly connected, a counterweight ring is sleeved on the outer side of the soft gooseneck, the counterweight ring penetrates the support ring and is arranged below the support ring, and a straight pipe is fixedly connected to the proximal end of the soft gooseneck.

Further, the support ring is installed on the outer wall of the building wall, and the straight pipe is installed in the installation hole opened in the building wall.

beneficial effect

Adopting the technical scheme provided by the present invention, compared with the known public technology, has the following beneficial effects:

1. The linear drive assembly of the movable push assembly of the adjustable support frame of the present invention pushes the first connecting seat to move, the first connecting seat pushes the first rotating seat to move, and the first rotating seat pushes the support frame of the rotating connecting assembly to move, and the support frame is in Under the action of the second rotating seat, it rotates along the horizontal axis, the support frame drives the lower connecting ring and the upper connecting ring to rotate, and the lower connecting ring and the support frame cooperate with the solar heating structure to rotate along the horizontal axis to rotate the irradiation acceptance angle of the solar heating structure to The optimal angle is conducive to full sunlight and improves the solar energy conversion rate; at the same time, the linear drive component of the movable push component pushes the first connecting seat to move, the first connecting seat pushes the first rotating seat to move, and the first rotating seat pushes the rotation The supporting frame of the connecting assembly moves, the supporting frame rotates along the horizontal axis under the action of the second rotating seat, the supporting frame drives the lower connecting ring and the upper connecting ring to rotate, and the lower connecting ring and the supporting frame cooperate with the solar heating structure to rotate along the horizontal axis to At the building wall, the adjustable support frame and the solar heating structure are attached to the wall for protection, so as to avoid blowing damage and avoid falling objects.

2. The sealing bearing of the rotating hot water outlet assembly of the present invention rotates with the hot water horizontal pipe, which ensures that the hot water from the hot water horizontal pipe can be stably delivered to the L-shaped connecting pipe, and the horizontal pipe of the movable cold water inlet assembly is based on the cold water horizontal pipe. Moving, the cold water horizontal pipe drives the soft gooseneck to move, and the soft gooseneck is in a straight state, which ensures the stable transmission of the movable cold water inlet component. The ring drives the soft gooseneck to move under the support ring, and the soft gooseneck pulls down for collection and processing.

3. The drive motor of the synchronous directional control valve of the present invention monitors the temperature. When the temperature monitored by the drive motor is lower than the heating temperature, the temperature sensor drives the upper adjustment rotating plate to rotate toward the hot water inlet connection pipe of the water storage tank. The inlet connecting pipe is discharged into the floor heating. At the same time, the upper adjusting rotating plate drives the connecting straight rod to rotate, and the connecting straight rod drives the lower adjusting rotating plate to rotate toward the cold water outlet connecting pipe of the water storage tank. The cold water from the floor heating enters the lower adjusting pipe through the floor heating cold water outlet connecting pipe. In the hood, the solar heating structure is heated again to realize floor heating; when the temperature monitored by the drive motor is higher than the heating temperature, the temperature sensor drives the upper adjustment rotating plate to rotate toward the floor heating hot water inlet connection pipe, and the hot water is heated from the water storage tank. The inlet connecting pipe is discharged into the water storage tank. At the same time, the upper adjusting rotating plate drives the connecting straight rod to rotate, and the connecting straight rod drives the lower adjusting rotating plate to rotate toward the floor heating cold water outlet connecting pipe. The cold water in the water storage tank is connected through the cold water outlet of the water storage tank. The pipe enters the lower regulating cover, and the solar heating structure is heated again to realize the storage tank of hot water. The building wall with external solar heating structure has heating or storage tank to store hot water, which has complete functions and is more flexible, especially It can be used normally in summer, which is conducive to the collection and application of solar energy in summer.

Description of drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the following briefly introduces the accompanying drawings that are required in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only some embodiments of the present invention, and for those of ordinary skill in the art, other drawings can also be obtained from these drawings without creative effort.

1 is a perspective view 1 of a main structure of a building wall body with an external solar heating structure according to the present invention;

2 is a front view of a building wall structure with an external solar heating structure according to the present invention;

Fig. 3 is the right side view of the structure of the present invention;

Fig. 4 is the structural perspective view two of the present invention;

5 is a three-dimensional structural view of the present invention;

Fig. 6 is the structural perspective view four of the present invention;

Fig. 7 is a sectional view along the A-A direction of Fig. 2;

FIG. 8 is a cross-sectional view taken along the B-B direction of FIG. 2 .

The symbols in the figure represent:

1. Building walls;

2. Solar heating structure; 21. Heat collector pipe; 22. Hot water horizontal pipe; 23. Cold water horizontal pipe;

3. Adjustable support frame; 31, lower connecting ring; 32, support frame; 33, upper connecting ring; 34, first connecting seat; 35, first rotating seat; 36, first fixing seat; 37, second rotating seat; 38, horizontal axis; 39, second fixed seat; 310, linear drive assembly;

4. Rotary hot water outlet assembly; 41. L-shaped connecting pipe; 42. Sealed bearing;

5. Movable cold water inlet assembly; 51, horizontal pipe; 52, soft gooseneck; 53, counterweight ring; 54, support ring; 55, straight pipe;

6. Controller;

7. Synchronous directional control valve; 71. Temperature sensor; 72. Drive motor; 73. Upper adjustment cover; 74. Connecting straight rod; 75. Lower adjustment cover; 76. Upper adjustment rotating plate; 77. Lower adjustment rotating plate;

8. Hot water inlet connection pipe of water storage tank;

9. Floor heating and hot water inlet connection pipe;

10. Floor heating cold water outlet connecting pipe;

11. The cold water outlet connecting pipe of the water storage tank.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The present invention will be further described below in conjunction with the examples.

Example 1

As shown in Figures 1, 2, 3, 4, 5 and 6, a building wall with an external solar heating structure includes a building wall 1, a controller 6 is installed on the inner wall of the building wall 1, and the building wall is The outer wall of the body 1 is provided with an adjustable support frame 3;

The adjustable support frame 3 includes a rotating connecting component and a movable pushing component. Both the rotating connecting component and the movable pushing component are connected with the outer wall of the building wall 1, and the movable pushing component is connected with the rotating connecting component, and the movable pushing component pushes the rotating connecting component to rotate. , to realize the angle adjustment between the rotating connection component and the building wall 1;

The rotating connecting assembly includes a lower connecting ring 31 , a support frame 32 , an upper connecting ring 33 , a first fixed seat 36 , a second rotating seat 37 and a horizontal shaft 38 , and the first fixed seat 36 is installed on the upper end of the outer wall surface of the building wall 1 . The inner wall of the front end of the first fixed seat 36 is fixedly connected with a horizontal shaft 38, the horizontal shaft 38 is rotatably connected with a second rotating seat 37 at equal intervals, the front end of the second rotating seat 37 is fixedly connected with a support frame 32, and the upper end of the support frame 32 is fixedly connected at equal intervals There is an upper connecting ring 33, and the lower end of the support frame 32 is fixedly connected with a lower connecting ring 31 at equal intervals;

The movable push assembly includes a first connection seat 34, a first rotating seat 35, a second fixed seat 39 and a linear drive assembly 310. The second fixed seat 39 is installed on the outer wall of the building wall 1, and the second fixed seat 39 rotates The linear drive assembly 310 is connected, the driving end of the linear drive assembly 310 is fixedly connected with a first connecting seat 34, the first connecting seat 34 is rotatably connected with a first rotating seat 35, and the first rotating seat 35 is installed on the support frame 32 close to the building wall 1 side wall;

The rotating connection component of the adjustable support frame 3 is connected with the solar heating structure 2;

The solar heating structure 2 includes a heat collection pipe 21, a hot water transverse pipe 22 and a cold water transverse pipe 23. The hot water transverse pipe 22 is fixedly connected to the upper end of the heat collection pipe 21 through installation holes opened at equal intervals, and the cold water transverse pipe 23 is installed at equal intervals. The hole is fixedly connected with the lower end of the heat collecting pipe 21;

The cold water transverse pipe 23 is installed in the lower connecting ring 31, and the hot water transverse pipe 22 is installed in the upper connecting ring 33;

The linear drive assembly 310 of the movable push assembly of the adjustable support frame 3 pushes the first connecting base 34 to move, the first connecting base 34 pushes the first rotating base 35 to move, and the first rotating base 35 pushes the support frame 32 of the rotating connecting assembly to move, The supporting frame 32 rotates along the horizontal axis 38 under the action of the second rotating seat 37, the supporting frame 32 drives the lower connecting ring 31 and the upper connecting ring 33 to rotate, and the lower connecting ring 31 and the supporting frame 32 cooperate with the solar heating structure 2 along the horizontal axis. 38 is rotated, and the irradiation acceptance angle of the solar heating structure 2 is rotated to the optimum angle, which is conducive to sufficient sunlight irradiation and improves the solar energy conversion rate; at the same time, the linear drive assembly 310 of the movable push assembly pushes the first connecting seat 34 to move during strong winds, and the second connecting seat 34 is moved. A connecting base 34 pushes the first rotating base 35 to move, the first rotating base 35 pushes the supporting frame 32 of the rotating connecting assembly to move, the supporting frame 32 rotates along the horizontal axis 38 under the action of the second rotating base 37 , and the supporting frame 32 drives the The connecting ring 31 and the upper connecting ring 33 rotate, and the lower connecting ring 31 and the support frame 32 cooperate with the solar heating structure 2 to rotate along the horizontal axis 38 to the building wall 1 to attach the adjustable support frame 3 and the solar heating structure 2 to the wall. Protect it from blowing damage and avoid falling objects.

The hot water outlet of the solar heating structure 2 is connected with a rotary hot water outlet assembly 4;

The rotary hot water outlet assembly 4 includes an L-shaped connecting pipe 41 and a sealing bearing 42. The sealing bearing 42 is fixedly connected with the hot water transverse pipe 22, the sealing bearing 42 is fixedly connected with the L-shaped connecting pipe 41, and the L-shaped connecting pipe 41 is installed in the In the installation hole opened by the building wall 1;

The sealed bearing 42 of the rotary hot water outlet assembly 4 rotates with the hot water transverse pipe 22 , which ensures that the hot water from the hot water transverse pipe 22 can be stably delivered to the L-shaped connecting pipe 41 .

The cold water inlet of the solar heating structure 2 is connected with a movable cold water inlet assembly 5;

A synchronous direction regulating valve 7 is connected to the water outlet end of the rotary hot water outlet assembly 4 , and the lower end of the synchronous direction regulating valve 7 is fixedly connected to the water outlet end of the movable cold water inlet assembly 5 .

Example 2

Embodiment 2 is a further improvement of Embodiment 1.

As shown in Figures 1, 2, 3, 4 and 5, the movable cold water inlet assembly 5 includes a transverse pipe 51, a soft gooseneck pipe 52, a weight ring 53, a support ring 54 and a straight pipe 55, and the cold water transverse pipe 23 The water inlet is fixedly connected with a horizontal pipe 51, the outer end of the horizontal pipe 51 is fixedly connected with a soft gooseneck pipe 52, the outer side of the soft gooseneck pipe 52 is sleeved with a counterweight ring 53, and the counterweight ring 53 penetrates the support ring 54 and is arranged on the support ring 54 Below, the support ring 54 is installed on the outer wall of the building wall 1 , the proximal end of the soft gooseneck 52 is fixedly connected with a straight pipe 55 , and the straight pipe 55 is installed in the installation hole opened in the building wall 1 .

The horizontal tube 51 of the movable cold water inlet assembly 5 moves according to the cold water horizontal tube 23, and the cold water horizontal tube 23 drives the soft gooseneck 52 to move, and the soft gooseneck 52 is in a straight state, which ensures that the movable cold water inlet assembly 5 is in a stable state. The transmission is stable. When the solar heating structure 2 and the adjustable support frame 3 are folded against the wall for protection, the counterweight ring 53 drives the soft gooseneck 52 to move under the support ring 54, and the soft gooseneck 52 is pulled down for collection processing.

Example 3

Example 3 is a further improvement to Example 2.

As shown in Figures 3, 4, 6, 7 and 8, the synchronous direction regulating valve 7 includes a temperature sensor 71, a driving motor 72, an upper regulating cover 73, a connecting straight rod 74, a lower regulating cover 75, an upper regulating rotating plate 76 and a lower regulating To adjust the rotating plate 77, the upper adjustment cover 73 is installed on the water outlet end of the L-shaped connecting pipe 41, the top of the upper adjustment cover 73 is fixedly connected with a temperature sensor 71 and a drive motor 72, and the output end of the temperature sensor 71 penetrates the upper adjustment cover 73 and is fixedly connected There is an upper adjustment rotating plate 76, the upper and lower end surfaces of the upper adjustment rotating plate 76 are in contact with the inner bottom surface and the inner top surface of the upper adjustment cover 73, and the upper adjustment rotating plate 76 is close to the end of the L-shaped connecting pipe 41 and the upper adjustment cover 73. The inner wall or there is a sliding connection with the inner wall, the lower adjusting cover 75 is installed on the water outlet end of the straight pipe 55, and the top of the lower adjusting cover 75 is connected with a connecting straight rod 74 in a limited rotation, and the top of the connecting straight rod 74 penetrates the upper adjusting cover 73 and is connected with the upper adjusting cover 73. The rotating plate 76 is fixedly connected, and the bottom of the connecting straight rod 74 penetrates through the lower adjusting cover 75 and is fixedly connected to the lower adjusting rotating plate 77. The end of the adjusting rotating plate 77 close to the L-shaped connecting pipe 41 is in a sliding connection with the left inner wall of the lower adjusting cover 75 or an inner wall;

The left and right ends of the upper regulating cover 73 of the synchronous direction regulating valve 7 are respectively fixedly connected with the water storage tank hot water inlet connection pipe 8 and the floor heating hot water inlet connection pipe 9, and the left and right ends of the lower regulating cover 75 of the synchronous direction regulating valve 7 are respectively fixed The floor heating cold water outlet connecting pipe 10 and the cold water outlet connecting pipe 11 of the water storage tank are connected;

The floor heating hot water inlet connection pipe 9 and the floor heating cold water outlet connection pipe 10 are respectively connected to the hot water inlet and the cold water outlet of the floor heating;

The hot water inlet connection pipe 8 of the water storage tank and the cold water outlet connection pipe 11 of the water storage tank are respectively connected with the hot water inlet and the cold water outlet of the water storage tank

The driving motor 72 , the upper adjusting cover 73 and the electric control input end of the linear drive assembly 310 are electrically connected with the electric control output end of the controller 6 .

The drive motor 72 of the synchronous steering valve 7 monitors the temperature. When the temperature monitored by the drive motor 72 is lower than the heating temperature, the temperature sensor 71 drives the upper adjustment rotating plate 76 to rotate toward the hot water inlet connection pipe 8 of the water storage tank. The hot water inlet connecting pipe 9 is discharged into the floor heating, and at the same time, the upper adjusting rotating plate 76 drives the connecting straight rod 74 to rotate, and the connecting straight rod 74 drives the lower adjusting rotating plate 77 to rotate toward the cold water outlet connecting pipe 11 of the water storage tank, and the cold water of the floor heating passes through. The floor heating cold water outlet connecting pipe 10 enters the lower adjusting cover 75, and the solar heating structure 2 is heated again to realize floor heating; when the temperature monitored by the driving motor 72 is higher than the heating temperature, the temperature sensor 71 drives the upper regulating rotating plate 76 to the floor heating. The water inlet connection pipe 9 is rotated, and the hot water is discharged from the hot water inlet connection pipe 8 of the water storage tank into the water storage tank. At the same time, the upper adjusting rotating plate 76 drives the connecting straight rod 74 to rotate, and the connecting straight rod 74 drives the lower adjusting rotating plate 77 Rotate to the floor heating cold water outlet connecting pipe 10, the cold water of the water storage tank enters the lower adjusting cover 75 through the cold water outlet connecting pipe 11 of the water storage tank, and the solar heating structure 2 is heated again, so that the water storage tank can store hot water and has external solar energy. The building wall of the heating structure has heating or water storage tanks to store hot water, which is fully functional and more flexible, especially in summer, it can be used normally, which is conducive to the collection and application of solar energy in summer.

When in use, the linear drive assembly 310 of the movable push assembly of the adjustable support frame 3 pushes the first connecting seat 34 to move, the first connecting seat 34 pushes the first rotating seat 35 to move, and the first rotating seat 35 pushes the supporting frame of the rotating connecting assembly 32 moves, the supporting frame 32 rotates along the horizontal axis 38 under the action of the second rotating seat 37, the supporting frame 32 drives the lower connecting ring 31 and the upper connecting ring 33 to rotate, and the lower connecting ring 31 and the supporting frame 32 cooperate with the solar heating structure 2 along the Rotating with the horizontal shaft 38, the irradiation acceptance angle of the solar heating structure 2 is rotated to the optimum angle, which is beneficial to the full illumination of sunlight and improves the solar energy conversion rate. , to ensure that the hot water from the horizontal hot water pipe 22 can be stably delivered to the L-shaped connecting pipe 41, the horizontal pipe 51 of the movable cold water inlet assembly 5 moves according to the horizontal cold water pipe 23, and the horizontal cold water pipe 23 drives the soft gooseneck 52 to move. , the soft gooseneck 52 is in a stretched state, which ensures the stable transmission of the movable cold water inlet assembly 5. The collector tube 21 of the solar heating structure 2 receives the heat of the sun to heat the water in the collector tube 21, and the hot water enters the The heat collecting pipe 21 enters the upper regulating cover 73 through the L-shaped connecting pipe 41, and the cold water in the lower regulating cover 75 enters the cold water transverse pipe 23 through the straight pipe 55, the soft gooseneck pipe 52 and the transverse pipe 51, and then enters the cold water transverse pipe 23. Heating in the heat collecting tube 21, the driving motor 72 of the synchronously adjusting valve 7 performs temperature monitoring, the heating temperature is 10°C, and the temperature monitored by the driving motor 72 is lower than the heating temperature. The hot water inlet connection pipe 8 of the tank rotates, and the hot water in the upper adjusting cover 73 is discharged from the floor heating hot water inlet connection pipe 9 to the floor heating. At the same time, the upper adjusting rotating plate 76 drives the connecting straight rod 74 to rotate, and the connecting straight rod 74 drives the lower adjusting rod The rotating plate 77 rotates toward the cold water outlet connection pipe 11 of the water storage tank, and the cold water of the floor heating enters the lower adjusting cover 75 through the floor heating cold water outlet connection pipe 10, and the solar heating structure 2 is heated again to realize the floor heating heating; the temperature monitored by the driving motor 72 When the temperature is higher than the heating temperature, the temperature sensor 71 drives the upper adjustment rotating plate 76 to rotate toward the floor heating hot water inlet connection pipe 9, and the hot water in the upper adjustment cover 73 is discharged from the water storage tank hot water inlet connection pipe 8 to the water storage tank. The upper adjusting rotating plate 76 drives the connecting straight rod 74 to rotate, and the connecting straight rod 74 drives the lower adjusting rotating plate 77 to rotate toward the floor heating cold water outlet connecting pipe 10, and the cold water of the water storage tank enters the lower adjusting cover through the cold water outlet connecting pipe 11 of the water storage tank In 75, the solar heating structure 2 is heated again to store hot water in the water storage tank. The building wall with external solar heating structure has heating or water storage tank to store hot water, which is fully functional and more flexible, especially in summer. Normal use is conducive to the collection and application of solar energy in summer.

When the wind is strong, the linear drive assembly 310 of the movable push assembly pushes the first connecting seat 34 to move, the first connecting seat 34 pushes the first rotating seat 35 to move, the first rotating seat 35 pushes the supporting frame 32 of the rotating connecting assembly to move, and the supporting frame 32 is in the The second rotating seat 37 rotates along the horizontal axis 38, the supporting frame 32 drives the lower connecting ring 31 and the upper connecting ring 33 to rotate, and the lower connecting ring 31 and the supporting frame 32 cooperate with the solar heating structure 2 to rotate along the horizontal axis 38 to the building At the wall body 1, the adjustable support frame 3 and the solar heating structure 2 are attached to the wall for protection, so as to avoid blowing damage and objects falling from high altitudes.

When the solar heating structure 2 and the adjustable support frame 3 are folded against the wall for protection, the counterweight ring 53 drives the soft gooseneck 52 to move below the support ring 54, and the soft gooseneck 52 is pulled downward for collection processing.

The above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: The recorded technical solutions are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. A building wall with an external solar heating structure, comprising a building wall (1), characterized in that: a controller (6) is installed on the inner wall of the building wall (1), and a controller (6) is installed on the inner wall of the building wall (1). The outer wall of the body (1) is provided with an adjustable support frame (3); The adjustable support frame (3) includes a rotary connection assembly and a movable push assembly, both of which are connected to the outer wall surface of the building wall (1), and the movable push assembly is connected to the rotary connection assembly connection, the movable push component pushes the rotation connection component to rotate, and realizes the angle adjustment between the rotation connection component and the building wall (1); A solar heating structure (2) is connected to the rotary connection component of the adjustable support frame (3); The hot water outlet of the solar heating structure (2) is connected with a rotary hot water outlet assembly (4); The cold water inlet of the solar heating structure (2) is connected with a movable cold water inlet assembly (5); The water outlet end of the rotary hot water outlet assembly (4) is connected with a synchronous direction regulating valve (7), and the lower end of the synchronous direction regulating valve (7) is fixedly connected with the water outlet end of the movable cold water inlet assembly (5); The upper end of the synchronous direction regulating valve (7) is respectively fixedly connected with a water storage tank hot water inlet connecting pipe (8) and a floor heating hot water inlet connecting pipe (9), and the lower end of the synchronous direction regulating valve (7) is respectively fixedly connected with a The floor heating cold water outlet connecting pipe (10) and the cold water outlet connecting pipe (11) of the water storage tank. 2. A building wall with an external solar heating structure according to claim 1, characterized in that, the rotating connection assembly comprises a lower connection ring (31), a support frame (32), an upper connection ring (33) ), a first fixed seat (36), a second rotating seat (37) and a horizontal shaft (38), the first fixed seat (36) is installed on the upper end of the outer wall of the building wall (1), the first fixed seat (36) A horizontal shaft (38) is fixedly connected to the inner wall of the front end of a fixed seat (36). A support frame (32), the upper end of the support frame (32) is fixedly connected with upper connection rings (33) at equal intervals, and the lower end of the support frame (32) is fixedly connected with lower connection rings (31) at equal intervals. 3. A building wall with an external solar heating structure according to claim 2, wherein the movable push assembly comprises a first connecting seat (34), a first rotating seat (35), a second A fixed base (39) and a linear drive assembly (310), the second fixed base (39) is mounted on the outer wall of the building wall (1), and the second fixed base (39) is rotatably connected with a linear drive An assembly (310), the driving end of the linear drive assembly (310) is fixedly connected with a first connecting seat (34), and the first connecting seat (34) is rotatably connected with a first rotating seat (35), the first connecting seat (35) The rotating seat (35) is installed on the side wall of the support frame (32) close to the building wall (1). 4. A building wall with an external solar heating structure according to claim 3, wherein the solar heating structure (2) comprises a heat collector pipe (21), a hot water transverse pipe (22) and a cold water The horizontal pipe (23), the hot water horizontal pipe (22) is fixedly connected to the upper end of the heat collector pipe (21) through the installation holes opened at equal intervals, and the cold water horizontal pipe (23) is connected to the heat collector pipe through the installation holes opened at equal intervals. (21) The lower end is fixedly connected. 5. A building wall with an external solar heating structure according to claim 4, wherein the cold water transverse pipe (23) is installed in the lower connecting ring (31), and the hot water transverse pipe (22) is installed in the upper connecting ring (33). 6. A building wall with an external solar heating structure according to claim 5, wherein the rotary hot water outlet assembly (4) comprises an L-shaped connecting pipe (41) and a sealed bearing (42) ), the sealing bearing (42) is fixedly connected with the hot water transverse pipe (22), the sealing bearing (42) is fixedly connected with the L-shaped connecting pipe (41), and the L-shaped connecting pipe (41) is installed on the building wall inside the mounting hole opened in the body (1). 7. A building wall with an external solar heating structure according to claim 6, wherein the movable cold water inlet assembly (5) comprises a transverse pipe (51), a soft gooseneck (52) ), a counterweight ring (53), a support ring (54) and a straight pipe (55), the water inlet of the cold water transverse pipe (23) is fixedly connected with a transverse pipe (51), and the outer end of the transverse pipe (51) is fixed A soft gooseneck (52) is connected, the outer side of the soft gooseneck (52) is sleeved with a counterweight ring (53), the counterweight ring (53) penetrates the support ring (54) and is arranged on the support ring (54) ), a straight pipe (55) is fixedly connected to the proximal end of the soft gooseneck (52). 8. A building wall with an external solar heating structure according to claim 7, wherein the support ring (54) is installed on the outer wall of the building wall (1), and the straight The pipe (55) is installed in the installation hole opened in the building wall (1).

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