CN221961745U - Energy storage device for low-carbon building - Google Patents

Abstract

The utility model discloses an energy storage device for low-carbon buildings, comprising a main structure and a conversion structure, wherein the conversion structure is movably arranged in the main structure, wherein the main structure (1) comprises a main frame (11), a first cover plate (12), a first bolt (13), a switching plug (14), a second cover plate (15), a motor (16) and a pair of energy storage units (17); the conversion structure (2) comprises a conversion frame (21), a solar panel group (22) and a pair of wind power generation units (23). The utility model has the advantages of (1) diversified energy utilization and (2) reduced carbon emissions. The use of these two energy sources for energy storage can effectively reduce the carbon emissions of buildings and reduce the load on the environment, which is also in line with the requirements of low-carbon development and sustainable development.

Description

An energy storage device for low-carbon buildings

Technical Field

The utility model relates to the technical field of low-carbon buildings, in particular to an energy storage device for low-carbon buildings.

Background Art

At present, low-carbon building energy storage devices mainly include solar panels and battery energy storage systems; solar panels are devices that convert solar energy into electrical energy; they are composed of multiple photovoltaic cells, and when sunlight shines on the battery, the light energy is converted into electrical energy; this electrical energy can be directly supplied to the building power system for lighting, air conditioning, electrical appliances and other equipment, and can also be stored in the battery energy storage system for emergency use;

However, today's low-carbon buildings reduce the use of fossil energy, improve energy efficiency, and reduce carbon dioxide emissions during the entire life cycle of building materials and equipment manufacturing, construction and building use. Most of their walls are prefabricated or use curtain walls, glass, etc., which not only improves the lighting effect but also plays a certain decorative role; but the buildings are relatively high, especially some shopping malls and office buildings, and the use of only a single solar energy is too single and is not conducive to use in some rainy areas. Therefore, a storage device for low-carbon buildings is designed.

Utility Model Content

The purpose of the utility model is to provide an energy storage device for low-carbon buildings, so as to solve the problem of switching modes according to different environments and improving the utilization of renewable energy.

To achieve the above objectives, the utility model provides the following technical solutions: an energy storage device for low-carbon buildings, comprising a main structure and a conversion structure, wherein the conversion structure is movably arranged in the main structure.

Preferably, the main structure includes a main frame, a first cover plate, a first bolt, a switching plug, a second cover plate, a motor and a pair of energy storage units;

The main frame is a rectangular structure, and a flip groove is provided near the rear side wall of the left end, and a flip opening connected to the flip groove is provided in the middle of the front side wall of the left end of the main frame. The main frame has a cavity structure, and a fitting cavity connected to the rear side wall is provided in the middle of the right side wall, and the same accommodating cavity is provided on both sides of the upper and lower sides of the fitting cavity. The rear side wall of the main frame is provided with an installation opening in the middle of the top of the flip opening, and the first cover plate is detachably arranged on the right side wall of the main frame by the first bolt, and the adapter plug is detachably arranged in the fitting cavity in the middle of the right side wall of the main frame, and the side wall of the adapter plug is matched and corresponding to the fitting cavity of the rear side wall of the main frame, and the second cover plate is detachably buckled at the installation opening, and the motor is fixedly arranged on the upper wall of the installation opening, and a pair of the energy storage units are detachably inserted in the accommodating cavity, and a control module is provided in one of the energy storage units, and the control module is fixedly arranged in the top of the energy storage frame.

Preferably, the energy storage unit comprises an energy storage frame, a partition, a pair of energy storage adapters, a pair of energy release adapters, a converter group, a battery and a pull rod;

The energy storage frame is a rectangular box body without a front side wall, and a heat dissipation port is provided near the middle of the rear side wall at the bottom end. The two ends of the partition are respectively fixedly provided on the left and right side walls inside the energy storage frame, a pair of the energy storage adapters are respectively fixedly provided on the lower wall of the partition, and a pair of the energy release adapters are respectively fixedly provided on the top of the energy storage frame. The converter group is fixedly provided on the upper wall of the partition and is located on the right side. The converter group is connected to the energy storage adapter. The upper wall of the battery is provided with positive and negative electrode connectors corresponding to the energy storage adapter. The battery is detachably embedded in the bottom end of the energy storage frame, and the positive and negative electrode connectors of the battery are respectively in contact with the energy storage adapter. The battery is connected to the energy release adapter through a wire. The copper drum pin at one end of the pull rod is movably embedded in the middle of the right side wall of the energy storage frame, and the other end of the pull rod can be flipped.

Preferably, the conversion structure includes a conversion frame, a solar panel group and a pair of wind power generation units;

The conversion frame is a concave structure, and a rotating shaft is provided in the middle of the upper and lower side walls. The conversion frame is movably embedded in the flip opening of the main frame through the rotating shaft, and the rotating shaft of the upper wall is connected to the motor drive end. The solar panel group is fixedly arranged in the middle of the rear side wall of the conversion frame, and the solar panel group is connected to one of the energy storage units. A pair of wind power generation units are movably arranged in the front side wall of the conversion frame, and are symmetrically located at the left and right ends, and a pair of wind power generation units are respectively connected to another energy storage unit.

Preferably, the wind power generation unit comprises a wind frame, a plurality of generators, a plurality of fan blades, a pair of electric push rods and a pair of support rods;

The wind frame is a rectangular structure, and a pair of force-applying grooves are provided on the rear wall at the right end, and the force-applying grooves are respectively located corresponding to the upper and lower sides of the center line. The upper and lower side walls at the left end of the wind frame are respectively embedded in the left end of the conversion frame through pin shafts. A number of mounting grooves are equidistantly arranged in the middle of the front wall of the wind frame, and a number of ventilation holes are equidistantly arranged in the mounting grooves. A number of generators are respectively fixedly arranged in the middle of the mounting grooves and are respectively connected to the converter group. A number of fan blades are respectively fixedly arranged on the driving end of the generator. A pair of electric push rods are respectively fixedly arranged in the left end of the force-applying groove and are respectively connected to the control panel group and the battery. A pair of support rods are both L-shaped structures. One end of a pair of support rods is respectively movably arranged on the telescopic end of the electric push rod through pin shafts and nuts and is located above the electric push rod. The other ends of a pair of support rods are respectively tilted and movably arranged in the right end of the force-applying groove through pin shafts and are located in the other end of the wind frame.

Preferably, the converter groups in the energy storage unit are respectively a wind power generation converter group and a solar power generation converter group.

Compared with the prior art, the beneficial effects of the utility model are as follows: the energy storage device for low-carbon buildings has (1) diversified energy utilization: light energy and wind energy are important sources of renewable energy, and the use of these two energy sources for energy storage can achieve diversified utilization of building energy; in this way, the building no longer relies on a single energy source, and can flexibly switch energy utilization methods under different weather conditions, thereby improving energy sustainability and stability; (2) reducing carbon emissions: the use of light energy and wind energy for energy storage is a low-carbon energy option; the use of these two energy sources for energy storage can effectively reduce the carbon emissions of buildings and reduce the load on the environment, which is also in line with the requirements of low-carbon development and sustainable development.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of a first main view assembly structure of the utility model;

FIG2 is a schematic diagram of a second main view assembly structure of the present invention;

FIG3 is a schematic diagram of the rear view assembly structure of the utility model;

FIG4 is a schematic diagram of the main structure assembly structure of the utility model;

FIG5 is a schematic diagram of the main structure of the utility model;

FIG6 is a schematic diagram of the rear view structure of the conversion structure of the present invention;

FIG7 is a schematic diagram of the main view split structure of the conversion structure of the utility model;

FIG8 is a schematic diagram of a partially enlarged structure of location A of the present invention;

FIG9 is a schematic diagram of a partially enlarged structure of position B of the present invention;

FIG10 is a schematic diagram of a partially enlarged structure of position C of the present invention;

FIG11 is a schematic diagram of a partially enlarged structure of a D portion of the present invention;

Figure 12 is a schematic diagram of a partially enlarged structure of E of the utility model.

In the figure: 1. main structure, 11. main frame, 12. first cover plate, 13. first bolt, 14. adapter plug, 15. second cover plate, 16. motor, 17. energy storage unit, 171. energy storage frame, 172. partition, 173. energy storage adapter, 174. energy release adapter, 175. converter group, 176. battery, 177. pull rod, 2. conversion structure, 21. conversion frame, 22. solar panel group, 23. wind power generation unit, 231. wind frame, 232. generator, 233. fan blade, 234. electric push rod, 235. support rod, 3. flip mouth, 4. fitting cavity, 5. accommodating cavity, 6. rotating shaft, 7. mounting groove, 8. ventilation hole.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the utility model to clearly and completely describe the technical solutions in the embodiments of the utility model. Obviously, the described embodiments are only part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments in the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Please refer to Figures 1-12. The utility model provides a technical solution: an energy storage device for low-carbon buildings, including a main structure 1 and a conversion structure 2, wherein the conversion structure 2 is movably arranged in the main structure 1.

The following are the models and functions of the electrical components in this case:

Solar panel group: It is a prior art, and any solar panel group applicable to this solution can be used.

Generator: It is a prior art and any wind turbine generator applicable to this solution can be used.

As a preferred solution, further, the main structure 1 includes a main frame 11, a first cover plate 12, a first bolt 13, a switching plug 14, a second cover plate 15, a motor 16 and a pair of energy storage units 17;

The main frame 11 is a rectangular structure, and a flip groove is opened near the left rear side wall. A flip opening 3 connected to the flip groove is opened in the middle of the left front side wall of the main frame 11. The main frame 11 is a cavity structure, and a fitting cavity 4 connected to the rear side wall is set in the middle of the right side wall. The fitting cavity 4 is provided with the same accommodating cavity 5 on both sides. The rear side wall of the main frame 11 is located in the middle of the top of the flip opening 3. The first cover plate 12 is detachably mounted on the main frame 1 through the first bolt 13. 1 on the right side wall, the adapter plug 14 can be detachably placed in the fitting cavity 4 in the middle of the right side wall of the main frame 11, and the side wall of the adapter plug 14 is matched with the fitting cavity 4 of the rear side wall of the main frame 11, the second cover plate 15 can be detachably buckled at the installation opening, the motor 16 is fixedly arranged on the upper wall of the installation opening, and a pair of energy storage units 17 can be detachably inserted into the accommodating cavity 5, one of the energy storage units 17 is provided with a control module, and the control module is fixedly arranged in the top of the energy storage frame 171.

As a preferred solution, further, the energy storage unit 17 includes an energy storage frame 171, a partition 172, a pair of energy storage adapters 173, a pair of energy release adapters 174, a converter group 175, a battery 176 and a pull rod 177;

The energy storage frame 171 is a rectangular box body without a front side wall, and a heat dissipation port is provided near the middle of the rear side wall at the bottom. The two ends of the partition 172 are respectively fixedly provided on the left and right side walls inside the energy storage frame 171. A pair of energy storage adapters 173 are respectively fixedly provided on the lower wall of the partition 172. A pair of energy release adapters 174 are respectively fixedly provided on the top of the energy storage frame 171. The converter group 175 is fixedly provided on the upper wall of the partition 172 and is located on the right side. The converter group 175 and the energy storage adapter are respectively fixedly provided on the upper wall of the partition 172 and are located on the right side. The battery 176 is connected to the head 173, and the upper wall of the battery 176 is provided with positive and negative connectors corresponding to the energy storage adapter 173. The battery 176 can be detachably embedded in the bottom end of the energy storage frame 171, and the positive and negative connectors of the battery 176 are respectively in contact with the energy storage adapter 173. The battery 176 is connected to the energy release adapter 174 through a wire, and the copper drum pin at one end of the pull rod 177 is movably embedded in the middle of the right side wall of the energy storage frame 171, and the other end of the pull rod 177 can be flipped.

As a preferred solution, further, the conversion structure 2 includes a conversion frame 21, a solar panel group 22 and a pair of wind power generation units 23;

The conversion frame 21 is a concave structure, and a rotating shaft 6 is provided in the middle of the upper and lower side walls. The conversion frame 21 is movably embedded in the flip opening 3 of the main frame 11 through the rotating shaft 6, and the rotating shaft 6 on the upper wall is connected to the driving end of the motor 16. The solar panel group 22 is fixedly arranged in the middle of the rear side wall of the conversion frame 21, and the solar panel group is connected to one of the energy storage units 17. A pair of wind power generation units 23 are respectively movably arranged in the front side wall of the conversion frame 21, and are respectively located symmetrically at the left and right ends. A pair of wind power generation units 23 are respectively connected to another energy storage unit 17.

As a preferred solution, further, the wind power generation unit 23 includes a wind frame 231, a plurality of generators 23216, a plurality of fan blades 233, a pair of electric push rods 234 and a pair of support rods 235;

The wind frame 231 is a rectangular structure, and a pair of force application grooves are opened on the rear side wall of the right end, and the force application grooves are respectively located on the upper and lower sides of the center line corresponding to each other. The upper and lower side walls of the left end of the wind frame 231 are respectively embedded in the left end of the conversion frame 21 through a pin shaft. A plurality of mounting grooves 7 are equidistantly arranged in the middle of the front side wall of the wind frame 231, and a plurality of ventilation holes 8 are equidistantly arranged in the mounting groove 7. A plurality of generators 23216 are respectively fixedly arranged in the middle of the mounting groove 7 and are respectively connected to the converter group 175. A plurality of fan blades 233 are respectively It is fixedly arranged on the driving end of the generator 23216, a pair of electric push rods 234 are respectively fixedly arranged in the left end of the force-applying groove, and are respectively connected to the control panel group and the battery 176, a pair of support rods 235 are both L-shaped structures, one end of a pair of support rods 235 are respectively movably arranged on the telescopic end of the electric push rod 234 through a pin shaft and a nut, and are located above the electric push rod 234, and the other ends of a pair of support rods 235 are respectively tilted and movably arranged in the right end of the force-applying groove through a pin shaft, and are located in the other end of the wind frame 231.

As a preferred solution, further, the converter groups 175 in the energy storage unit 17 are respectively a wind power converter group 175 and a solar power converter group 175 .

The detailed connection means are well-known in the art. The following mainly introduces the working principle and process. The specific work is as follows.

Embodiment: It can be seen from the accompanying drawings 1-12 of the specification that

First, the main structure 1 can be fixed on the surface of the outer wall; then, in a state of sufficient sunlight, the motor 16 placed in the main frame 11 and shielded by the second cover plate 15 can be driven to drive the conversion frame 21 in the conversion structure 2 to rotate 180 degrees through the rotating shaft 6, so that the solar panel group 22 faces outward to receive sunlight and absorb light energy to generate electricity, and after converting the electrical energy with the help of the converter group 175 on the partition 172, the electrical energy is stored in the corresponding storage battery 176 with the help of the contact of the energy storage adapter 173;

When it is rainy or windy outside, but the sunlight is weak, the motor 16 can be controlled to drive the conversion frame 21 to rotate, so that the wind power generation unit 23 faces outward; and the electric push rod 234 is driven to extend, and the support rods 235 movably arranged at both ends are stressed, so that the conversion frame 21 is flipped open under the force of the support rods 235, and the support rods 235 are supported by a certain angle from the original horizontal state with the electric push rods 234;

Furthermore, whether the external wind blows from the front of the wall or from the left and right sides, the wind can force the fan blades 233 to rotate when passing through the ventilation holes 8, driving the generator 23216 located in the installation slot 7 to rotate and generate electrical energy, and then convert the mechanical energy into electrical energy and store it in the battery 176;

The stored electrical energy can be used to connect other devices to the energy-discharging adapter 174 or the adapter plug 14 located in the matching cavity 4 through wires or conductors for power supply and use;

During long-term use, if the battery 176 fails, especially if the energy storage time is reduced due to long-term use, the first bolt 13 can be removed to open the first cover 12, and then the pull rod 177 can be flipped to apply force to pull the energy storage frame 171 in the energy storage unit 17 out of the accommodating cavity 5 to replace the battery 176, which is also used during the installation process.

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

Claims (4)

1. An energy storage device for a low-carbon building, characterized by comprising a main body structure (1) and a conversion structure (2), wherein the conversion structure (2) is movably arranged in the main body structure (1);

The main body structure (1) comprises a main body frame (11), a first cover plate (12), a first bolt (13), a patch plug (14), a second cover plate (15), a motor (16) and a pair of energy storage units (17);

The main body frame (11) is of a rectangular structure, a turnover groove is formed in the middle of the rear side wall close to the left end, a turnover opening (3) communicated with the turnover groove is formed in the middle of the front side wall close to the left end of the main body frame (11), a cavity structure is formed in the main body frame (11), a fit cavity (4) communicated with the rear side wall is formed in the middle of the right side wall, the same accommodating cavities (5) are formed in the upper side and the lower side of the fit cavity (4), the rear side wall of the main body frame (11) is located at the middle of the top end of the turnover opening (3), a mounting opening is formed in the middle of the top end of the main body frame (11), a first cover plate (12) is detachably arranged on the right side wall of the main body frame (11) through a first bolt (13), a transfer plug (14) is detachably arranged in the fit cavity (4) in the middle of the right side wall of the main body frame (11), the side wall of the transfer plug (14) corresponds to the fit cavity (4) in a fit mode, a second cover plate (15) is detachably arranged at the mounting opening, a motor (16) is fixedly arranged at the mounting opening, and a control module (17) is fixedly arranged in the mounting opening and is fixedly arranged in the energy storage module (17) and is fixedly arranged in the control module (17);

The conversion structure (2) comprises a conversion frame (21), a solar panel group (22) and a pair of wind power generation units (23);

The conversion frame (21) is of a concave structure, rotating shafts (6) are arranged in the middle of the upper side wall and the lower side wall respectively, the conversion frame (21) is movably embedded in a turnover opening (3) of the main body frame (11) through the rotating shafts (6), the rotating shafts (6) of the upper wall are connected with the driving end of the motor (16), the solar panel group (22) is fixedly arranged in the middle of the rear side wall of the conversion frame (21) and connected with one of the energy storage units (17), the pair of wind power generation units (23) are movably arranged in the front side wall of the conversion frame (21) respectively and are symmetrically arranged at the left end and the right end of the conversion frame, and the pair of wind power generation units (23) are connected with the other energy storage unit (17) respectively.

2. An energy storage device for low carbon construction according to claim 1, wherein: the energy storage unit (17) comprises an energy storage frame (171), a partition plate (172), a pair of energy storage adapter (173), a pair of energy discharging adapter (174), a converter group (175), a storage battery (176) and a pull rod (177);

The energy storage frame (171) is rectangular and has no front side wall box body, and is close to the bottom back side wall middle part and is provided with the thermovent, baffle (172) both ends are fixed respectively and are set up on the left and right sides wall in energy storage frame (171), a pair of energy storage adapter (173) are fixed respectively and are set up in baffle (172) lower wall, a pair of energy release adapter (174) are fixed respectively and are set up in energy storage frame (171) interior top, converter group (175) are fixed to be set up in baffle (172) upper wall and are located the right side, converter group (175) link to each other with energy storage adapter (173), battery (176) upper wall is provided with the positive and negative pole joint corresponding with energy storage adapter (173), battery (176) are dismantled and are inlayed in energy storage frame (171) bottom, and positive and negative pole joint of battery (176) are contacted in energy storage adapter (173) respectively, battery (176) link to each other with energy release adapter (174) through the wire, tie rod (177) one end activity copper drum inlays in energy storage frame (171) right side wall middle part, and can overturn.

3. An energy storage device for low carbon construction according to claim 2, wherein: the wind power generation unit (23) comprises a wind frame (231), a plurality of generators (232) (16), a plurality of fan blades (233), a pair of electric push rods (234) and a pair of support rods (235);

The wind frame (231) is rectangular in structure, a pair of force application grooves are formed in the rear side wall of the right end, the force application grooves are respectively located on the upper side and the lower side of the center line and correspond to each other, the upper side wall and the lower side wall of the left end of the wind frame (231) are respectively movably embedded in the left end of the conversion frame (21) through pin shafts, a plurality of mounting grooves (7) are formed in the middle of the front side wall of the wind frame (231) at equal intervals, a plurality of ventilation holes (8) are formed in the mounting grooves (7) at equal intervals, a plurality of generators (232) (16) are respectively fixedly arranged in the middle of the mounting grooves (7) and are respectively connected with the driving end of the converter group (175), a plurality of fan blades (233) are respectively fixedly arranged on the driving ends of the generators (232) (16), a pair of electric push rods (234) are respectively fixedly arranged in the left end of the force application grooves and are respectively connected with the control panel group and the storage battery (176), one pair of support rods (235) are of L-shaped structures, one ends of the support rods (235) are respectively movably arranged on the ends of the electric push rods (234) through pin shafts and nuts, and the other ends of the support rods are respectively arranged on the telescopic ends, and are respectively arranged on the upper sides of the electric push rods (234) and are respectively, and the other ends of the electric push rods are respectively arranged in the movable ends and are obliquely arranged in the right sides of the wind frame (231.

4. An energy storage device for low carbon construction according to claim 3, wherein: the converter groups (175) in the energy storage unit (17) are respectively wind power generation converter groups (175) and solar power generation converter groups (175).