CN113818591A - Reduce building energy consumption's integrated building structure - Google Patents

Abstract

The invention discloses an integrated building structure for reducing building energy consumption, which comprises: the left end and the right end of the front side surface of the building wallboard are symmetrically provided with bosses, and the front side surface of the building wallboard is provided with a slot; the adjusting rod is arranged in the groove, and the inner surface and the outer surface of the adjusting rod are respectively fixed with a light storage plate and a reflecting plate; the two ends of the circulating pump are respectively connected with the heat exchange system and the communicating pipe; the system comprises a heat exchange system and an underground energy storage system, wherein the heat exchange system and the underground energy storage system are both arranged underground of a building; the rotating rod is arranged in the vertical groove and is connected with the connecting rod through a limiting ring; and the communicating pipe is embedded in the boss. This reduce building energy consumption's integrated building structure utilizes the dwang to drive the spacing ring motion to promote the regulation pole and revolute the rotation of axes, make the regulation pole fully contact sunshine, realize the heating effect to rivers in the pole, make things convenient for the staff to maintain the maintenance to the regulation pole simultaneously.

Description

Reduce building energy consumption's integrated building structure

Technical Field

The invention relates to the technical field related to building energy conservation, in particular to an integrated building structure for reducing building energy consumption.

Background

The building industry is one of the industries consuming large amount of resources at the present stage, sustainable ecological buildings are developed along with the aggravation of the energy shortage trend, the reduction of the building energy consumption is not slow, the building energy-saving design is an effective measure for reducing the building energy consumption and is also an effective method for saving economy, the integrated building structure is a wall building structure formed by integrally processing concrete, a large amount of the integrated building structure is used in various wall buildings and is a common structure in the building, and along with the continuous improvement of the building requirements, the construction and use requirements of the concrete integrated building structure are also improved.

The existing integrated building structure for reducing building energy consumption usually adopts a pipeline embedded in a wall heat-insulating layer, and utilizes solar radiation heat to heat water in the pipeline, so that the energy-saving effect is realized, but the wall body has a certain heat-insulating effect, so that part of solar radiation heat can be blocked, the heating degree of the water in the pipeline is limited, the energy-saving effect is poor, the internal pipeline is difficult to overhaul and maintain, once the pipeline is damaged and seeps water, the wall body can be damaged from inside to outside, and the safety performance cannot be guaranteed.

Disclosure of Invention

The invention provides an integrated building structure for reducing building energy consumption in order to make up for market vacancy.

The invention aims to provide an integrated building structure for reducing building energy consumption, and aims to solve the problems that the wall body in the background technology has a certain heat preservation and heat insulation effect, can block a part of solar radiation heat, causes limited water heating degree in a pipeline, has poor energy-saving effect, is difficult to overhaul and maintain an internal pipeline, can damage the wall body from inside to outside once the pipeline is damaged and seeps water, and cannot guarantee safety performance.

In order to achieve the purpose, the invention provides the following technical scheme: an integrated building structure for reducing building energy consumption, comprising:

the left end and the right end of the front side surface of the building wallboard are symmetrically provided with bosses, and the front side surface of the building wallboard is provided with a slot;

the adjusting rod is arranged in the groove, a light storage plate and a reflecting plate are respectively fixed on the inner surface and the outer surface of the adjusting rod, and a first cavity is arranged in the adjusting rod;

the two ends of the circulating pump are respectively connected with the heat exchange system and the communicating pipe;

the system comprises a heat exchange system and an underground energy storage system, wherein the heat exchange system and the underground energy storage system are both arranged underground of a building, and the heat exchange system is connected with the underground energy storage system;

the rotating rod is arranged in the vertical groove and is connected with the connecting rod through a limiting ring;

the communicating pipe is embedded in the boss, and a turntable is rotatably mounted on the side face of the communicating pipe.

Furthermore, the overlooking cross section of the building wallboard is of a U-shaped structure, the building wallboard comprises an inner layer, a heat insulation layer, a waterproof layer, a concrete layer and a decorative layer, and the inner layer and the decorative layer are respectively positioned on the innermost side and the outermost side of the building wallboard.

Furthermore, the inner layer is provided with uniformly distributed light transmission grooves, the concrete layer is provided with vertical grooves and transverse grooves, the decorative layer is provided with open grooves, the opposite surface of the boss is provided with annular grooves, and the transverse grooves, the open grooves and the annular grooves are mutually and correspondingly positioned at the same height.

Furthermore, the front side of the waterproof layer is provided with bulges at equal intervals, the front ends of the bulges penetrate through the concrete layer to enter the transverse grooves, and the waterproof layer is made of a light-transmitting material.

Furthermore, the side view cross-section of adjusting the pole is V-arrangement structure, the pointed end of adjusting the pole is provided with the chamfer, the chamfer department at both ends is fixed with the pivot about adjusting the pole, the other end of pivot inserts in the building wallboard.

Furthermore, the first cavity is close to the arc-shaped surface of the adjusting rod, the adjusting rod is made of a high-transparency material, the reflecting plate is of a double-sided reflecting structure, and the light storage plate contains a nanometer rare earth luminescent material.

Furthermore, one surface of the light storage plate, which is far away from the adjusting rod, is connected with the connecting rod, a spherical joint is arranged at the junction of the light storage plate and the connecting rod, and the other end of the connecting rod is hinged with the limiting ring.

Further, communicating pipe is square tubulose, communicating pipe with pass through between communicating pipe the regulation pole links to each other, the second cavity of communicating pipe with first cavity is linked together, and the left side the bottom of communicating pipe is connected heat exchange system, the right side the top of communicating pipe is connected the circulating pump.

Further, the carousel is discoid, the through-hole has been seted up on the carousel, just the through-hole with first cavity is linked together, the dish limit of carousel inserts in the communicating pipe, the carousel with the juncture of communicating pipe is provided with the sealing washer.

Furthermore, erect the groove symmetric distribution and be in the left and right sides of building wallboard, erect the groove with the groove depth of cross slot all is less than concrete layer's thickness, erect the groove with the cross slot forms the grid structure.

Compared with the prior art, the invention has the beneficial effects that: this reduce building energy consumption's integrated building structure, the structure sets up rationally, utilize the dwang to drive the spacing ring motion, thereby promote the regulation pole to revolute the rotation of axes, make the regulation pole fully contact sunshine, realize utilizing sunshine to heat rivers in the pole, guarantee the heating, make things convenient for the staff to maintain the regulation pole simultaneously, utilize reflecting plate reflection sunlight, not only strengthen sunshine to shine of regulation pole, still make light shine on the board that holds, it continuously gives out light to hold the board and receive illumination night on daytime, cooperation non-light tight waterproof layer, realize the illumination function, the utilization ratio to solar energy has been improved, help reducing building energy consumption.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic three-dimensional cross-sectional view of a structural building panel of the present invention;

FIG. 3 is a three-dimensional schematic view of a building panel of the present invention in a certain angle of construction;

FIG. 4 is a schematic side sectional view of a structural building panel of the present invention;

FIG. 5 is a schematic elevation view of a structural concrete layer of the present invention;

FIG. 6 is an enlarged view at A of FIG. 4 of the structure of the present invention;

FIG. 7 is a schematic top cross-sectional view of a structural building panel of the present invention;

fig. 8 is a schematic view of a turntable according to the present invention.

In the figure: 1. building wall panels; 2. adjusting a rod; 3. a circulation pump; 4. a heat exchange system; 5. an underground energy storage system; 6. rotating the rod; 7. a communicating pipe; 11. an inner layer; 12. a heat-insulating layer; 13. a waterproof layer; 14. a concrete layer; 15. a decorative layer; 16. a boss; 111. a light-transmitting groove; 131. a protrusion; 141. a vertical slot; 142. a transverse groove; 151. grooving; 161. an annular groove; 21. a reflective plate; 22. a first cavity; 23. a light storage plate; 24. a rotating shaft; 25. a connecting rod; 61. a limiting ring; 71. a second cavity; 72. a turntable; 721. a through hole; 722. coiling; 723. and (5) sealing rings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows: referring to fig. 1-8, the present invention provides a technical solution: an integrated building structure for reducing building energy consumption, comprising:

the building wallboard comprises a building wallboard 1, wherein bosses 16 are symmetrically arranged at the left end and the right end of the front side surface of the building wallboard 1, and a slot 151 is formed in the front side surface of the building wallboard 1;

the adjusting rod 2 is arranged in the open slot 151, a light storage plate 23 and a reflecting plate 21 are respectively fixed on the inner surface and the outer surface of the adjusting rod 2, and a first cavity 22 is arranged in the adjusting rod 2;

the two ends of the circulating pump 3 are respectively connected with the heat exchange system 4 and the communicating pipe 7;

the heat exchange system 4 and the underground energy storage system 5 are arranged underground of the building, and the heat exchange system 4 is connected with the underground energy storage system 5;

the rotating rod 6 is arranged in the vertical groove 141, and the rotating rod 6 is connected with the connecting rod 25 through the limiting ring 61;

the communication pipe 7 is fitted in the boss 16, and a turn plate 72 is rotatably attached to a side surface of the communication pipe 7.

When the integrated building structure for reducing building energy consumption is used, the rotating rod 6 rotates to enable the limiting ring 61 to move linearly and slidably, when the limiting ring 61 moves upwards, the limiting ring 61 drives the connecting rod 25 to push the light storage plate 23 outwards, the adjusting rod 2 rotates around the rotating shaft 24 under stress, the upper end of the adjusting rod 2 extends out of the slot 151, two ends of the adjusting rod 2 drive the rotating discs 72 to rotate, at the moment, the through holes 721 on the rotating discs 72 are aligned with the annular grooves 161, sunlight irradiates the upper end of the adjusting rod 2, so that water in the first cavity 22 is heated, part of light enters the adjusting rod 2 and irradiates the reflecting plate 21, the reflecting plate 21 changes the light irradiation angle, the light irradiates the light storage plate 23 through reflection, the light storage plate 23 absorbs the light for light storage, the light storage is stored for twenty minutes, twelve-hour continuous light emission can be realized, electricity is not needed, energy is saved, the water heated in the first cavity 22 flows into the second cavity 71, the water in the second cavity 71 and the water in the underground energy storage system 5 carry out the heat exchange through the heat exchange system 4, the water after the heat exchange gets into the second cavity 71 of opposite side under the effect of circulating pump 3, thereby get back to first cavity 22, realize the circulation heating function, it jets out from light-transmitting groove 111 to hold the luminous process waterproof layer 13 of light board 23, thereby realize throwing light on the building inboard, when spacing ring 61 moves down, spacing ring 61 drives connecting rod 25 and inwards stimulates light-storing board 23, make and adjust pole 2 and resume the normal position.

The second embodiment is as follows: this embodiment is the further restriction of embodiment one, as shown in fig. 2, fig. 3 and fig. 7, building wallboard 1 overlooks the cross-section and is the U-shaped structure, and building wallboard 1 includes inlayer 11, heat preservation 12, waterproof layer 13, concrete layer 14 and decorative layer 15, and inlayer 11 and decorative layer 15 are located the innermost side and the outside of building wallboard 1 respectively, and building wallboard 1 adopts multilayer structure, connects the precision between the layer, has heat preservation water-proof effects, promotes the indoor comfort level of building to reduce the building energy consumption.

The third concrete implementation mode: this embodiment is a further limitation of the second embodiment, as shown in fig. 2 and fig. 3, the inner layer 11 is provided with the light transmission grooves 111 which are uniformly distributed, the concrete layer 14 is provided with the vertical grooves 141 and the horizontal grooves 142, the decorative layer 15 is provided with the open grooves 151, the opposite surfaces of the bosses 16 are provided with the annular grooves 161, and the horizontal grooves 142, the open grooves 151 and the annular grooves 161 are located at the same height corresponding to each other, the light is emitted from the light transmission grooves 111, the lighting function is realized, the color light transmission baffle is installed in the light transmission grooves 111, the illumination color can be changed, thereby the color lamp decoration effect is achieved, the horizontal grooves 142 and the open grooves 151 provide accommodating space for the adjusting rods 2, and the installation is convenient.

The fourth concrete implementation mode: this embodiment is the further injecing of embodiment two, equidistant arch 131 that is provided with on the leading flank of waterproof layer 13, the front end of arch 131 passes in concrete layer 14 enters into cross slot 142, waterproof layer 13 adopts the printing opacity material to make, waterproof layer 13 has printing opacity waterproof performance, protruding 131's arcwall face orientation light emitting component, realize the spotlight function, when adjusting pole 2 and communicating pipe 7 infiltration in the waterproof layer 13 outside, waterproof layer 13 blocks water and gets into the building indoor, protection heat preservation 12 structures, the life of extension building wallboard 1.

The fifth concrete implementation mode: this embodiment is the further injecing of embodiment one, as shown in fig. 2, fig. 4 and fig. 6, adjust the side view cross-section of pole 2 and be the V-arrangement structure, the pointed end of adjusting pole 2 is provided with the chamfer, the chamfer department at both ends is fixed with pivot 24 about adjusting pole 2, the other end of pivot 24 inserts in building wallboard 1, it rotates to adjust pole 2 around pivot 24, the turned angle scope is positive and negative V-arrangement's contained angle number of degrees, turned angle through adjusting pole 2, make shine and increase adjusting the sunshine of pole 2, improve the utilization ratio to solar energy, further realize reducing the building energy consumption, be favorable to energy-concerving and environment-protective, adjust pole 2 and rotate to the outside, conveniently maintain the change, thereby the life of extension building.

The sixth specific implementation mode: this embodiment is a specific implementation mode one further limited, first cavity 22 is close to the arcwall face of adjusting pole 2, adjust pole 2 and adopt high transparent material, reflecting plate 21 is two-sided reflection of light structure, contain nanometer tombarthite luminescent material in the light storage plate 23, under the initial condition, adjust pole 2 and be located building wallboard 1, the lateral surface at reflecting plate 21 is shone to sunshine this moment, reflecting plate 21 reflects sunshine, reduce the solar radiation heat to building wall, reach thermal-insulated heat preservation effect, adjust the pole 2 and rotate the back, sunshine shines the medial surface at reflecting plate 21 through adjusting pole 2, sunshine after the reflection shines on light storage plate 23, make things convenient for light storage plate 23 to absorb light.

The seventh embodiment: the sixth embodiment is further limited by the sixth embodiment, one surface of the light storage plate 23, which is far away from the adjusting rod 2, is connected with the connecting rod 25, a spherical joint is arranged at the junction of the light storage plate 23 and the connecting rod 25, the other end of the connecting rod 25 is hinged with the limiting ring 61, the light storage plate 23 is made of inorganic materials, the service life is long, light storage and light emission do not need electric power, and the light storage plate is non-toxic and harmless, stable in light emission, environment-friendly and energy-saving, and realizes the illumination function.

The specific implementation mode is eight: the present embodiment is further limited by the first embodiment, as shown in fig. 3 and 7, the communication pipe 7 is in a square tube shape, the communication pipe 7 is connected to the communication pipe 7 through the adjusting rod 2, the second cavity 71 of the communication pipe 7 is communicated with the first cavity 22, the bottom end of the left communication pipe 7 is connected to the heat exchanging system 4, the top end of the right communication pipe 7 is connected to the circulating pump 3, a side surface of the communication pipe 7 close to the adjusting rod 2 is provided with a turntable 72, the communication pipe 7 is connected to the adjusting rod 2 through the turntable 72, water in the adjusting rod 2 flows into the communication pipe 7 from right to left, water in the communication pipe 7 flows downwards into the heat exchanging system 4 to exchange heat with the underground energy storage system 5, so as to store heat in the underground energy storage system 5 in hot weather, obtain heat from the underground energy storage system 5 in cold weather, thereby reduce building energy consumption, improve two energy utilization rates, the circulating pump 3 pumps the water after heat exchange into the communication pipe 7 again, realize the circulation water use, reduce the wasting of resources.

The specific implementation method nine: as shown in fig. 8, the turntable 72 is disc-shaped, a through hole 721 is formed in the turntable 72, the through hole 721 is communicated with the first cavity 22, a disc edge 722 of the turntable 72 is inserted into the communicating pipe 7, a sealing ring 723 is arranged at a boundary between the turntable 722 and the communicating pipe 7, the turntable 72 rotates along with the adjusting rod 2, and the disc edge 72 is always embedded into a side plate of the communicating pipe 7 during the rotation process, and is matched with the sealing ring 723 to prevent water seepage and protect the building wallboard 1.

The detailed implementation mode is ten: this embodiment is the further restriction of embodiment three, and perpendicular groove 141 symmetric distribution is in the left and right sides of building wallboard 1, and the groove depth of perpendicular groove 141 and horizontal groove 142 all is less than concrete layer 14's thickness, and perpendicular groove 141 and horizontal groove 142 form the grid structure, and pivot 24 runs through perpendicular groove 141 and connects synchronous slewing mechanism, and not drawn in the picture, set up the recess that distributes vertically and horizontally, and easy to fix a position the installation improves work efficiency.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An integrated building structure for reducing building energy consumption, comprising:

the building wall plate comprises a building wall plate (1), wherein bosses (16) are symmetrically arranged at the left end and the right end of the front side surface of the building wall plate (1), and a slot (151) is formed in the front side surface of the building wall plate (1);

the adjusting rod (2) is arranged in the groove (151), a light storage plate (23) and a reflecting plate (21) are respectively fixed on the inner surface and the outer surface of the adjusting rod (2), and a first cavity (22) is arranged in the adjusting rod (2);

the two ends of the circulating pump (3) are respectively connected with the heat exchange system (4) and the communicating pipe (7);

the heat exchange system (4) and the underground energy storage system (5) are arranged underground of a building, and the heat exchange system (4) is connected with the underground energy storage system (5);

the rotating rod (6) is arranged in the vertical groove (141), and the rotating rod (6) is connected with the connecting rod (25) through a limiting ring (61);

the communicating pipe (7) is embedded in the boss (16), and a turntable (72) is rotatably mounted on the side face of the communicating pipe (7).

2. The integrated building structure for reducing building energy consumption according to claim 1, wherein: the overlooking cross-section of the building wallboard (1) is of a U-shaped structure, the building wallboard (1) comprises an inner layer (11), a heat insulation layer (12), a waterproof layer (13), a concrete layer (14) and a decoration layer (15), and the inner layer (11) and the decoration layer (15) are respectively located on the innermost side and the outermost side of the building wallboard (1).

3. The integrated building structure for reducing building energy consumption according to claim 2, wherein: the decorative layer is characterized in that light transmission grooves (111) which are uniformly distributed are formed in the inner layer (11), vertical grooves (141) and transverse grooves (142) are formed in the concrete layer (14), open grooves (151) are formed in the decorative layer (15), annular grooves (161) are formed in opposite surfaces of the bosses (16), and the transverse grooves (142), the open grooves (151) and the annular grooves (161) are correspondingly located at the same height.

4. The integrated building structure for reducing building energy consumption according to claim 2, wherein: the front side of the waterproof layer (13) is provided with protrusions (131) at equal intervals, the front ends of the protrusions (131) penetrate through the concrete layer (14) to enter the transverse grooves (142), and the waterproof layer (13) is made of a light-transmitting material.

5. The integrated building structure for reducing building energy consumption according to claim 1, wherein: adjust the side view cross-section of pole (2) and be the V-arrangement structure, the pointed end of adjusting pole (2) is provided with the chamfer, the chamfer department at both ends is fixed with pivot (24) about adjusting pole (2), the other end of pivot (24) inserts in building wallboard (1).

6. The integrated building structure for reducing building energy consumption according to claim 1, wherein: the first cavity (22) is close to the arc-shaped surface of the adjusting rod (2), the adjusting rod (2) is made of a high-transparency material, the reflecting plate (21) is of a double-sided reflecting structure, and the light storage plate (23) contains a nanometer rare earth luminescent material.

7. The integrated building structure for reducing building energy consumption according to claim 6, wherein: one surface of the light storage plate (23) far away from the adjusting rod (2) is connected with the connecting rod (25), a spherical joint is arranged at the junction of the light storage plate (23) and the connecting rod (25), and the other end of the connecting rod (25) is hinged with the limiting ring (61).

8. The integrated building structure for reducing building energy consumption according to claim 1, wherein: communicating pipe (7) are square tubulose, communicating pipe (7) with pass through between communicating pipe (7) adjust pole (2) and link to each other, the second cavity (71) of communicating pipe (7) with first cavity (22) are linked together, and the left side the bottom of communicating pipe (7) is connected heat exchange system (4), right side the top of communicating pipe (7) is connected circulating pump (3).

9. The integrated building structure for reducing building energy consumption according to claim 1, wherein: the rotary disc (72) is disc-shaped, a through hole (721) is formed in the rotary disc (72), the through hole (721) is communicated with the first cavity (22), a disc edge (722) of the rotary disc (72) is inserted into the communicating pipe (7), and a sealing ring (723) is arranged at the junction of the rotary disc (72) and the communicating pipe (7).

10. The integrated building structure for reducing building energy consumption according to claim 3, wherein: the vertical grooves (141) are symmetrically distributed on the left side and the right side of the building wallboard (1), the groove depths of the vertical grooves (141) and the transverse grooves (142) are smaller than the thickness of the concrete layer (14), and the vertical grooves (141) and the transverse grooves (142) form a grid structure.

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