CN211007166U - Solar energy integration energy-saving wall body - Google Patents

Abstract

The utility model discloses a solar energy integrated energy-saving wall body, which comprises a concrete wall, wherein a controller and an indoor temperature sensor are arranged on the indoor surface of the concrete wall, and a heating plate is embedded in the concrete wall close to the indoor interior; the concrete wall is characterized in that a heat dissipation cavity is arranged in the middle of the concrete wall, a heat insulation plate is connected to the inner wall, close to the heating plate, of the heat dissipation cavity, an outdoor temperature sensor is mounted on the surface of the heat insulation plate, an air inlet cavity is formed in the bottom of the heat dissipation cavity, an air outlet cavity is formed in the upper portion of the heat dissipation cavity, and a heat dissipation fan is mounted in the air outlet cavity; the concrete wall is close to outdoor surface embedding has solar cell panel, the solar cell panel dorsal part is connected with the heating panel, the heating panel stretches into inside the heat dissipation chamber. Has the advantages that: the solar energy can be utilized to carry out heat preservation on the wall body and the indoor space, the heat preservation effect is good, and the energy-saving concept of green buildings is met.

Description

Solar energy integration energy-saving wall body

Technical Field

The utility model relates to a building wall technical field, concretely relates to energy-conserving wall body of solar energy integration.

Background

Along with social development, the concept of green buildings is gradually emphasized, the indoor layout of the green buildings is very reasonable, the use of synthetic materials is reduced as much as possible, sunlight is fully utilized, energy is saved, and a feeling close to nature is created for residents. The wall body is an important part of a building, and the heat insulation performance of the wall body directly influences the indoor comfort level of the building. However, the existing building wall is not ideal in heat preservation effect, and electrical appliances such as an air conditioner and the like need to be used in winter, so that the energy-saving concept of green buildings cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving wall body of solar energy integration just lies in providing in order to solve above-mentioned problem to solve among the prior art present building wall body heat preservation effect unsatisfactory, need use electrical apparatus such as air conditioner during winter, can't satisfy technical problem such as the energy-conserving theory of green building. The utility model provides an among a great deal of technical scheme preferred technical scheme can utilize solar energy to carry out wall body and indoor heat preservation, and it is effectual to keep warm, accords with technical effect such as the energy-conserving theory of green building, sees the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a solar energy integration energy-saving wall body, including the concrete wall, the surface that the concrete wall is located indoor is installed controller and indoor temperature sensor, indoor temperature sensor with the controller electricity is connected, the concrete wall is close to indoor inside embedding and is had the hot plate, the hot plate with the controller electricity is connected;

the concrete wall is characterized in that a heat dissipation cavity is arranged in the middle of the concrete wall, a heat insulation plate is connected to the inner wall, close to the heating plate, of the heat dissipation cavity, an outdoor temperature sensor is mounted on the surface of the heat insulation plate, the outdoor temperature sensor is electrically connected with the controller, an air inlet cavity communicated with the outside is formed in the bottom of the heat dissipation cavity, an air outlet cavity communicated with the outside is formed in the upper portion of the heat dissipation cavity, a heat dissipation fan is mounted in the air outlet cavity, and the heat dissipation fan is electrically connected with; the concrete wall is close to outdoor surface embedding has solar cell panel, solar cell panel with the controller electricity is connected, the solar cell panel dorsal part is connected with the heating panel, the heating panel stretches into heat dissipation intracavity portion.

When the solar integrated energy-saving wall is used, solar energy is utilized to generate and store electricity through the solar cell panel, the indoor temperature is detected through the indoor temperature sensor, a user controls the power of the heating plate through the controller to realize indoor temperature regulation, heat insulation is carried out through the heat insulation plate to prevent indoor heat from being dissipated, and the constancy of the indoor temperature is guaranteed; the heat dissipation plate is used for absorbing heat dissipated by the solar cell panel and dissipating heat through the heat dissipation cavity, the temperature inside the heat dissipation cavity is detected through the outdoor temperature sensor, the detection result is transmitted to the controller, and when the detected temperature reaches a preset value, the controller controls the heat dissipation fan to work, so that outside air enters the heat dissipation cavity through the air inlet cavity and is discharged from the air outlet cavity, ventilation and heat dissipation are achieved, the solar cell panel can be prevented from being overhigh in temperature, and the normal operation of the solar cell panel is favorably ensured; the device can utilize solar energy to carry out wall body and indoor heat preservation, and it is effectual to keep warm, accords with the energy-conserving theory of green building.

Preferably, the surface of the heat dissipation plate located inside the heat dissipation cavity is integrally formed with heat dissipation fins.

Preferably, the heat dissipation fins are uniformly distributed on the surface of the heat dissipation plate and extend from the air inlet cavity to the air outlet cavity.

Preferably, an air inlet sealing plate is arranged on the bottom surface of the air inlet cavity, an air inlet sealing blade is rotatably arranged on the top surface in the air inlet cavity, the air inlet sealing blade is located on one side, close to the heat dissipation cavity, of the air inlet sealing plate and used for self-weight rotation fit of the air inlet sealing blade, the air inlet cavity is sealed by the air inlet sealing plate, an air outlet sealing plate is arranged on the bottom surface of the air outlet cavity, an air outlet sealing blade is rotatably arranged on the top surface in the air outlet cavity, the air outlet sealing blade is located on one side, close to the heat dissipation cavity, of the air outlet sealing plate and used for self-weight rotation fit of the air outlet sealing.

Preferably, the air inlet sealing plate and the air outlet sealing plate are both made of rubber.

Preferably, the air inlet cavity and the communicating part of the air outlet cavity and the heat dissipation cavity are provided with filter cotton.

Has the advantages that: the solar energy can be utilized to carry out heat preservation on the wall body and the indoor space, the heat preservation effect is good, and the energy-saving concept of green buildings is met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic cross-sectional view of the present invention;

fig. 2 is a plan view of the heat dissipating plate of the present invention;

FIG. 3 is an enlarged schematic view of portion A of FIG. 1;

FIG. 4 is an enlarged schematic view of portion B of FIG. 1;

fig. 5 is a control schematic diagram of the present invention.

The reference numerals are explained below:

1. a concrete wall; 101. a heat dissipation cavity; 102. an air inlet cavity; 103. an air outlet cavity; 2. heating plates; 3. a controller; 4. a heat insulation plate; 5. a solar panel; 6. a heat dissipation plate; 7. a heat dissipating fin; 8. an outdoor temperature sensor; 9. a heat dissipation fan; 10. an indoor temperature sensor; 11. an air outlet sealing blade; 12. an air outlet sealing plate; 13. an air inlet sealing blade; 14. and an air inlet sealing plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides a solar energy integrated energy-saving wall, which comprises a concrete wall 1, wherein a controller 3 and an indoor temperature sensor 10 are installed on the indoor surface of the concrete wall 1, the indoor temperature sensor 10 is electrically connected with the controller 3, a heating plate 2 is embedded in the concrete wall 1 near the indoor, and the heating plate 2 is electrically connected with the controller 3;

the middle part of the concrete wall 1 is provided with a heat dissipation cavity 101, the inner wall of the heat dissipation cavity 101 close to the heating plate 2 is connected with a heat insulation plate 4, the surface of the heat insulation plate 4 is provided with an outdoor temperature sensor 8, the outdoor temperature sensor 8 is electrically connected with a controller 3, the bottom of the heat dissipation cavity 101 is provided with an air inlet cavity 102 communicated with the outside, the upper part of the heat dissipation cavity 101 is provided with an air outlet cavity 103 communicated with the outside, a heat dissipation fan 9 is arranged in the air outlet cavity 103, and the heat dissipation fan 9 is electrically; the concrete wall 1 is close to outdoor surface embedding has solar cell panel 5, and solar cell panel 5 is connected with 3 electricity of controller, and the dorsal part of solar cell panel 5 is connected with heating panel 6, and heating panel 6 stretches into inside heat dissipation chamber 101.

As an alternative embodiment, the surface of the heat dissipation plate 6 inside the heat dissipation chamber 101 is integrally formed with heat dissipation fins 7, so that the heat dissipation effect of the heat dissipation plate 6 can be improved by the heat dissipation fins 7.

Radiating fins 7 are uniformly distributed on the surface of the radiating plate 6 and extend from the air inlet cavity 102 to the air outlet cavity 103, so that the air flow generated by the working of the radiating fan 9 can flow through the space between two adjacent radiating fins 7, the air can take away the heat absorbed by the radiating fins 7, and the ventilation and heat dissipation effects are ensured.

An air inlet sealing plate 14 is arranged at the bottom surface of an air inlet cavity 102, an air inlet sealing blade 13 is rotatably arranged at the top surface in the air inlet cavity 102, the air inlet sealing blade 13 is positioned at one side of the air inlet sealing plate 14 close to a heat dissipation cavity 101, the air inlet sealing plate 14 is rotatably matched with the air inlet for the self-weight of the air inlet sealing blade 13 to seal the air inlet cavity 102, an air outlet sealing plate 12 is arranged at the bottom surface of the air outlet cavity 103, an air outlet sealing blade 11 is rotatably arranged at the top surface in the air outlet cavity 103, the air outlet sealing blade 11 is positioned at one side of the air outlet sealing plate 12 close to the heat dissipation cavity 101, the air outlet sealing plate 12 is rotatably matched with the self-weight of the air outlet sealing blade 11 to seal the air outlet cavity 103, when the heat dissipation fan 9 does not work, the air inlet sealing blade 13 rotates under the self-weight and, the heat dissipation cavity 101 is sealed and isolated from the outside, dust is prevented from being attached to the surfaces of the heat dissipation plate 6 and the heat dissipation fins 7 from the heat dissipation cavity 101, and the heat dissipation effect of the heat dissipation plate 6 and the heat dissipation fins 7 is guaranteed; when the heat dissipation fan 9 works, negative pressure is formed inside the heat dissipation cavity 101, the negative pressure overcomes the gravity of the air inlet sealing blade 13, the air inlet sealing blade 13 rotates to be far away from the air inlet sealing plate 14, the opening of the air inlet cavity 102 is achieved, external air enters the heat dissipation cavity 101 through the air inlet cavity 102, meanwhile, the gravity of the air outlet sealing blade 11 is overcome through airflow, the air outlet sealing blade 11 rotates to be far away from the air outlet sealing plate 12, the opening of the air outlet cavity 103 is achieved, and therefore ventilation and heat dissipation are achieved.

The air inlet sealing plate 14 and the air outlet sealing plate 12 are made of rubber, and are arranged in such a way that the air inlet sealing plate 14 can be in close contact with the air inlet sealing blades 13, the sealing effect on the air inlet cavity 102 is guaranteed, the air outlet sealing plate 12 is in close contact with the air outlet sealing blades 11, and the sealing effect on the air outlet cavity 103 is guaranteed.

The filter pulp is installed with the intercommunication department in heat dissipation chamber 101 in air inlet chamber 102 and air-out chamber 103, sets up like this, can filter the air through the filter pulp, prevents heat dissipation fan 9 during operation, and the dust is inside along with the air current entering heat dissipation chamber 101 and attached to heating panel 6 and radiating fin 7, helps guaranteeing the radiating effect of heating panel 6 and radiating fin 7.

By adopting the structure, when the solar energy heat-insulation heating plate is used, solar energy is utilized to generate and store electricity through the solar cell panel 5, the indoor temperature is detected through the indoor temperature sensor 10, a user controls the power of the heating plate 2 through the controller 3 to realize indoor temperature adjustment, heat insulation is carried out through the heat insulation plate 4 to prevent indoor heat from being dissipated, and the constancy of the indoor temperature is guaranteed; the heat dissipation plate 6 is used for absorbing heat dissipated by the solar cell panel 5 and dissipating heat through the heat dissipation cavity 101, the temperature inside the heat dissipation cavity 101 is detected through the outdoor temperature sensor 8, the detection result is transmitted to the controller 3, when the detected temperature reaches a preset value, the controller 3 controls the heat dissipation fan 9 to work, so that outside air enters the heat dissipation cavity 101 through the air inlet cavity 102 and is discharged from the air outlet cavity 103, ventilation and heat dissipation are realized, the solar cell panel 5 can be prevented from being overhigh in temperature, and the normal operation of the solar cell panel 5 can be guaranteed; the device can utilize solar energy to carry out wall body and indoor heat preservation, and it is effectual to keep warm, accords with the energy-conserving theory of green building.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a solar energy integration energy-conserving wall body which characterized in that: the concrete wall comprises a concrete wall (1), wherein a controller (3) and an indoor temperature sensor (10) are installed on the indoor surface of the concrete wall (1), the indoor temperature sensor (10) is electrically connected with the controller (3), a heating plate (2) is embedded in the concrete wall (1) close to the indoor, and the heating plate (2) is electrically connected with the controller (3);

the concrete wall is characterized in that a heat dissipation cavity (101) is arranged in the middle of the concrete wall (1), the inner wall, close to the heating plate (2), of the heat dissipation cavity (101) is connected with a heat insulation plate (4), an outdoor temperature sensor (8) is mounted on the surface of the heat insulation plate (4), the outdoor temperature sensor (8) is electrically connected with the controller (3), an air inlet cavity (102) communicated with the outside is arranged at the bottom of the heat dissipation cavity (101), an air outlet cavity (103) communicated with the outside is arranged at the upper part of the heat dissipation cavity (101), a heat dissipation fan (9) is mounted inside the air outlet cavity (103), and the heat dissipation fan (9) is electrically connected with the controller (3); concrete wall (1) is close to outdoor surface embedding has solar cell panel (5), solar cell panel (5) with controller (3) electricity is connected, solar cell panel (5) dorsal part is connected with heating panel (6), heating panel (6) stretch into inside heat dissipation chamber (101).

2. The solar integrated energy-saving wall body as claimed in claim 1, wherein: the surface of the heat dissipation plate (6) in the heat dissipation cavity (101) is integrally formed with heat dissipation fins (7).

3. The solar energy integrated energy-saving wall body as claimed in claim 2, wherein: the radiating fins (7) are uniformly distributed on the surface of the radiating plate (6) and extend from the air inlet cavity (102) to the air outlet cavity (103).

4. The solar energy integrated energy-saving wall body as claimed in claim 3, wherein: an air inlet sealing plate (14) is arranged on the bottom surface of the air inlet cavity (102), an air inlet sealing blade (13) is rotatably arranged on the inner top surface of the air inlet cavity (102), the air inlet sealing blade (13) is positioned on one side of the air inlet sealing plate (14) close to the heat dissipation cavity (101), the self-weight of the air inlet sealing blade (13) is matched with the air inlet sealing plate (14) to seal the air inlet cavity (102), an air outlet sealing plate (12) is arranged on the bottom surface of the air outlet cavity (103), an air outlet sealing blade (11) is rotatably arranged on the inner top surface of the air outlet cavity (103), the air outlet sealing blade (11) is positioned on one side of the air outlet sealing plate (12) close to the heat dissipation cavity (101), the self-weight of the air outlet sealing blade (11) is matched with the air outlet sealing plate (12) in a rotating mode to seal the air outlet cavity (103).

5. The solar energy integrated energy-saving wall body as claimed in claim 4, wherein: the air inlet sealing plate (14) and the air outlet sealing plate (12) are both made of rubber.

6. The solar energy integrated energy-saving wall body as claimed in claim 4, wherein: the air inlet cavity (102) and the air outlet cavity (103) are communicated with the heat dissipation cavity (101) and are provided with filter cotton.

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