CN216428540U - Energy-saving building structure - Google Patents

Abstract

The utility model discloses an energy-conserving building structure, include: the heated board, it is installed main body frame bottom, just the equidistance is provided with heat conduction pipeline in the heated board, main frame glass board, and it is installed main body frame openly department, and the main body frame side is connected with side frame glass board, the pipe-way, and its equidistance is seted up in the secondary frame, and the symmetry installs vice solar panel on the secondary frame. This energy-conserving building structure, can be convenient for quick assembly at the building top, and can stabilize holding device's stable life through the steel construction, and can gather light and absorb the heat through large tracts of land glass light transmission area, and utilize solar panel of multidirectional multi-angle to retrieve the collection to solar energy resource on a large scale, thereby the time building structure can high-efficiently acquire the energy, and reduce the required resource consumption of heat supply heat preservation, can increase building structure's aesthetic property and practicality simultaneously, it is better to make the building structure body carry out the function that the energy was collected.

Description

Energy-saving building structure

Technical Field

The utility model relates to a building structure technical field specifically is an energy-conserving building structure.

Background

The building structure is a bearing system consisting of roof trusses, beams, plates, columns and other members in a house building, so that the house is supported to have the functions of load, earthquake resistance and temperature change prevention.

Current building structure function singleness, need adopt thickening wall and extra pipeline heating's mode to heat when building inside heat preservation, and then increased the waste of construction cost and heat supply resource, and current building structure occupation space is great, consequently it is not reasonable enough to the space utilization, erect through single solar panel, the solar energy of collecting is limited, be unfavorable for utilizing building structure to carry out simple and easy efficient energy collection, it is not high to lead to the energy-conserving function that building structure possesses, to the above-mentioned problem, the urgent need is carried out the innovative design on original building structure's basis.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving building structure to propose the building structure who uses at present in solving above-mentioned background art, occupation space is great, and daylighting heat preservation ability is limited, simultaneously to the relatively poor problem of collection efficiency of solar energy resource.

In order to achieve the above object, the utility model provides a following technical scheme: an energy efficient building structure comprising:

the heat insulation plates are arranged at the bottom of the main body frame, and heat conduction pipelines are arranged in the heat insulation plates at equal intervals;

a main frame glass plate which is installed at the front of the main frame, and the side of the main frame is connected with a side frame glass plate;

the pipeline groove is arranged in the auxiliary square frame at equal intervals, and the auxiliary square frame is symmetrically provided with the auxiliary solar panel.

The device can be convenient for the inside solar heat source of absorbing fast of building structure to the setting up of above-mentioned structure to can high-efficient storage convert solar heat source and heat the inside hot water of heat conduction pipeline, thereby form long-term stable heating function, and building structure's the low cost that erects, can be convenient for the building and use.

Preferably, the main frame glass board constitutes integrated configuration with main body frame, and main body frame is the cuboid structure to main body frame passes through heat conduction pipeline and constitutes the connectivity structure with the assistant square frame, and main body frame constitutes integrated configuration with side frame glass board simultaneously, and the setting up of above-mentioned structure makes building structure more steady firm, and can effectively increase building structure's daylighting area, and can carry out energy conversion to the solar heat source of building structure storage, thereby practices thrift the heat supply energy to the energy.

Preferably, side frame glass board top is the fixed side solar panel that is provided with still, and side solar panel is the isosceles triangle structure to side frame glass board rear side still laminates and is provided with side frame solar panel, and the level still is provided with the main beam between the side frame glass board simultaneously, and the setting up of above-mentioned structure makes building structure's daylighting area bigger, and can effectively keep the firm of building, effectively promotes the security of building structure in top building department, and promotes building structure's life.

Preferably, main beam top bilateral symmetry is provided with top side alloy frame, and the inside gomphosis of top side alloy frame is provided with top solar panel to top solar panel top is still equidistance to distribute and is provided with green rack of planting, and green rack of planting is horizontal angle parallel placement simultaneously, and the setting up of above-mentioned structure makes building structure's function more steady abundanter, and can be convenient for make full use of solar energy carries out green planting and plant, thereby promotes building structure's practicality and pleasing to the eye degree.

Preferably, the pipeline groove is in the same position with heat conduction pipeline erection position in the secondary frame, and the secondary frame and the secondary solar panel constitute the integral structure to the secondary solar panel is the inclination angle structure, and the setting up of above-mentioned structure makes the absorbable solar energy resource space of device bigger, has promoted the energy recovery efficiency of device.

Preferably, the both sides below the auxiliary solar panel are symmetrically provided with auxiliary frame solar panels, an auxiliary glass frame is arranged behind the auxiliary frame solar panels and is made of alloy steel fixed by welding, the upper side of the auxiliary glass frame is of an inclined structure, the structure enables the building structure to use the glass frame to keep the internal environment of the building warm, the alloy steel frame can be used for keeping the building light and stable, and the light receiving area and the energy absorption efficiency of the building are effectively increased while the building is convenient to erect.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the energy-saving building structure is provided with a main body frame, a main frame glass plate, a side solar panel and a side frame solar panel, wherein the main frame glass plate and the side frame glass plate are coated on the surface of the main body frame to form a large-area light-transmitting space, and the principle that the side solar panel and the side frame solar panel are used for storing and collecting large-area solar energy resources is achieved, so that the purposes that a building body can conveniently and efficiently collect solar energy and the energy conservation and environmental protection of the building structure are improved are achieved;

2. this energy-conserving building structure, be provided with top solar panel, green rack of planting, vice solar panel and vice glass frame's structure, solar energy resource at the building structure top is saved to the illumination through top solar panel, and can evenly set up green planting and promote building structure's pleasing to the eye degree, and utilize vice solar panel, the large tracts of land inclination angle structure that vice frame solar panel and vice glass frame constitute and increase the energy and collect the area, thereby promote the principle of the efficiency that building structure collected the required energy of consumption, the practicality that the realization device can effectively hoisting device, and can collect solar energy resource and carry out the function of retrieving on a large scale.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the main frame of the present invention;

FIG. 3 is a schematic perspective view of a top alloy frame according to the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the green plant placing rack of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the auxiliary square frame of the present invention.

In the figure: 1. a main body frame; 2. a thermal insulation board; 3. a heat conducting pipe; 4. a main frame glass plate; 5. a side frame glass plate; 6. a side solar panel; 7. a side frame solar panel; 8. a main cross beam; 9. a topside alloy frame; 10. a top solar panel; 11. placing the green plants in a rack; 12. a secondary square frame; 13. a pipe chase; 14. a secondary solar panel; 15. a sub-frame solar panel; 16. a sub-glass frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy efficient building structure comprising: the heat insulation plate 2 is installed at the bottom of the main body frame 1, heat conduction pipelines 3 are arranged in the heat insulation plate 2 at equal intervals, the main frame glass plate 4 is installed on the front face of the main body frame 1, the side face of the main body frame 1 is connected with the side frame glass plate 5, pipeline grooves 13 are formed in the auxiliary square frame 12 at equal intervals, and auxiliary solar panels 14 are symmetrically installed on the auxiliary square frame 12;

when the device is used, firstly, the main body frame 1 is erected at the top of a building, the heat conduction pipelines 3 are embedded in the heat insulation plate 2 and laid, then the main frame glass plate 4 and the side frame glass plates 5 which are connected to the front face and the side faces of the main body frame 1 can avoid blocking absorption of solar energy resources, the heat conduction pipelines 3 are laid in the auxiliary square frame 12 simultaneously by using the pipeline grooves 13, energy absorption is simultaneously carried out by using the auxiliary solar panels 14, so that the solar energy resource absorption efficiency is enhanced, hot water in the heat conduction pipelines 3 can be heated by energy, and supply is carried out in a building inner circulation mode.

When the building structure is assembled and erected, specifically, as shown in fig. 2 and fig. 3, the main frame glass plate 4 and the main frame 1 form an integrated structure, and the main frame 1 is in a rectangular structure, and the main frame 1 and the secondary frame 12 form a communication structure through the heat conduction pipeline 3, and the main frame 1 and the side frame glass plate 5 form an integrated structure, at this time, the main frame glass plate 4 bears a main bearing function, and the main frame glass plate 4 covers the surface of the main frame 1 in a large area, and the heat conduction pipeline 3 is uniformly distributed in the main frame 1 and the secondary frame 12 to fully convert solar energy collected in the building structure, thereby achieving the energy-saving and environment-friendly functions of the building structure, when the building structure is used in fine weather, the side solar panels 6 are further fixedly arranged above the side frame glass plates 5, and the side solar panels 6 are in an isosceles triangle structure, the rear sides of the side frame glass plates 5 are also provided with side frame solar panels 7 in a fitting manner, and meanwhile, main beams 8 are horizontally arranged between the side frame glass plates 5, the isosceles triangle structures of the side solar panels 6 can be used for stable support, efficient energy collection can be carried out by utilizing the side solar panels 6 and the side frame solar panels 7 in different directions, and meanwhile, the main beams 8 stably support the building structure to be stable;

when light irradiates the top of the building structure in noon, specifically, as shown in fig. 4 and 5, top side alloy frames 9 are symmetrically arranged on two sides above a main beam 8, a top solar panel 10 is embedded inside the top side alloy frames 9, green plant placing frames 11 are also equidistantly distributed above the top solar panel 10, meanwhile, the green plant placing frames 11 are horizontally arranged in parallel, the light and firm structure of the top side alloy frames 9 can effectively bear rainwater or sunlight erosion, a large-area top solar panel 10 can be adopted to fully collect sunlight, the stepped structure of the green plant placing frames 11 is utilized to fully contact with the light, green plant growth is facilitated, the arranging position of a pipeline groove 13 in an auxiliary square frame 12 is consistent with the arranging position of a heat conducting pipeline 3, the auxiliary square frame 12 and an auxiliary solar panel 14 form an integrated structure, and the auxiliary solar panel 14 is in an inclined angle structure, when solar ray removes building structure side, can utilize vice solar panel 14's inclination more fully to receive solar energy resource, and high-efficient heat transfer is carried out to heat conduction pipeline 3 in the pipeline groove 13, when sunshine is fine, vice solar panel 14 below both sides still symmetry are provided with subframe solar panel 15, and subframe solar panel 15 rear still is provided with vice glass frame 16, and vice glass frame 16 is welded fastening's alloy steel material, 16 upsides of vice glass frame are the slope structure simultaneously, large tracts of land structure through vice solar panel 14 and subframe solar panel 15 and reinforcing building structure's energy collection efficiency, and then promote building structure to building body's heat transfer and supply efficiency.

The working principle is as follows: when the device is used, as shown in figures 1-5, a main body frame 1 and an auxiliary square frame 12 are firstly spliced and welded together, a heat conduction pipeline 3 is uniformly laid in the main body frame 1 and the auxiliary square frame 12 through a heat insulation plate 2 and a pipeline groove 13, when the building structure is in the sunshine, the sunshine can penetrate into the building through a main frame glass plate 4 and a side frame glass plate 5, the side solar panel 6 and the side frame solar panel 7 are utilized to absorb solar energy resources, the inside of the building is insulated, and solar energy at different sunlight irradiation angles is efficiently collected by a top solar panel 10, an auxiliary solar panel 14 and an auxiliary frame solar panel 15, so that the energy collection efficiency of the building structure is enhanced, the energy consumption required by heating is reduced, and the working principle of the energy-saving building structure is realized.

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 (6)

1. An energy-saving building structure mainly comprises a main body frame and an auxiliary square frame, wherein the main body frame and the auxiliary square frame are arranged on the top floor of a building, the auxiliary square frame is symmetrically arranged on the left side and the right side of the main body frame, and the main body frame and the auxiliary square frame are of alloy steel structures together;

it is characterized by comprising:

the heat insulation plates are arranged at the bottom of the main body frame, and heat conduction pipelines are arranged in the heat insulation plates at equal intervals;

a main frame glass plate which is installed at the front of the main frame, and the side of the main frame is connected with a side frame glass plate;

the pipeline groove is arranged in the auxiliary square frame at equal intervals, and the auxiliary square frame is symmetrically provided with the auxiliary solar panel.

2. An energy saving building structure according to claim 1, characterized in that: the main frame glass plate and the main body frame form an integrated structure, the main body frame is of a cuboid structure, the main body frame and the secondary square frame form a communicated structure through a heat conduction pipeline, and meanwhile, the main body frame and the side frame glass plate form an integrated structure.

3. An energy saving building structure according to claim 1, characterized in that: side frame glass board top is still fixed and is provided with side solar panel, and side solar panel is the isosceles triangle structure to side frame glass board rear side still laminates and is provided with side frame solar panel, and it is provided with the main beam still to level between the side frame glass board simultaneously.

4. An energy saving building structure according to claim 3, characterized in that: main crossbeam top bilateral symmetry is provided with top side alloy frame, and the inside gomphosis of top side alloy frame is provided with top solar panel to top solar panel top is still equidistance to distribute and is provided with green rack of planting, and green rack of planting is horizontal angle parallel placement simultaneously.

5. An energy saving building structure according to claim 1, characterized in that: the pipeline groove is arranged at the same position as the heat conduction pipeline erection position in the auxiliary square frame, the auxiliary square frame and the auxiliary solar panel form an integrated structure, and the auxiliary solar panel is of an inclined angle structure.

6. An energy saving building structure according to claim 1, characterized in that: the solar panel comprises a solar panel body, a solar panel frame, a glass frame, a welding and alloy steel materials, and the solar panel frame is of an inclined structure.

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