CN112918937A - Low-energy-consumption fresh-keeping warehouse utilizing solar energy to generate electricity - Google Patents

Abstract

A low-energy-consumption fresh-keeping storehouse utilizing solar energy to generate electricity. The refrigerator is arranged at one end of the fresh-keeping warehouse and is respectively movably connected with an external power source and a power source above the inverter, the air cooler is arranged at the other end of the fresh-keeping warehouse and is respectively movably connected with the external power source and the power source above the inverter, the cold air pipes above the refrigerator and the air cooler respectively extend into the hollow space of the fresh-keeping warehouse, the plurality of solar power generation panels are arranged at the top end of the fresh-keeping warehouse and are sequentially connected with the controller, the storage battery and the inverter, and the inverter is respectively movably connected with the refrigerator and the air cooler. The wall of the fresh-keeping storehouse is formed by pouring anti-crack mortar A, waterproof cloth, polyurethane, a steel skeleton and anti-crack mortar B in sequence, and the foundation is formed by tightly combining concrete and graphite benzene plates.

Description

Low-energy-consumption fresh-keeping warehouse utilizing solar energy to generate electricity

The technical field is as follows:

the invention relates to a low-energy-consumption fresh-keeping storehouse utilizing solar energy to generate electricity, which utilizes the electricity generated by the solar energy to supply the electricity for self use and can also convey surplus electricity to other places for electricity utilization.

Background art:

at present, with the increase of agricultural and sideline products in China, a fruit and vegetable fresh-keeping warehouse is everywhere, but the structures of the traditional fresh-keeping warehouse have many defects, and the energy consumption of the fruit and vegetable fresh-keeping warehouse is very high, so that the cost of fresh-keeping fruits and vegetables is increased, the burden is increased for consumers, and the sale is difficult. The novel fresh-keeping storehouse is changed from the wall structure, and more importantly, the solar power generation panel is installed, so that the fresh-keeping storehouse can be used for self power consumption, the energy consumption is really reduced, the cost of fresh-keeping fruits and vegetables is also reduced, and the fresh-keeping storehouse is popular with consumers, scientific and feasible.

The invention content is as follows:

in order to overcome the defects of the traditional preservation warehouse, the invention provides the low-energy-consumption preservation warehouse utilizing solar power generation, and the preservation warehouse utilizes a solar power generation plate to generate power, so that not only can the power be used by the preservation warehouse, but also surplus power can be transmitted out to be used by other places.

The technical scheme adopted by the invention for solving the technical problems is as follows: the refrigerator is arranged at one end of the fresh-keeping warehouse and is respectively movably connected with an external power supply and a power supply on the inverter, a cold air pipe on the refrigerator is directly led into the fresh-keeping warehouse, an air cooler is arranged at the other end of the fresh-keeping warehouse and is respectively movably connected with the external power supply and the power supply on the inverter, and the cold air pipe on the air cooler is directly led into the empty stomach of the fresh-keeping warehouse. The top end of the fresh-keeping storehouse is provided with a plurality of solar power generation panels which are sequentially connected with a controller and a storage battery, and the storage battery is movably connected with the power supplies of the refrigerating machine and the air cooler through an inverter respectively. The wall of the fresh-keeping storehouse is formed by pouring anti-crack mortar A, waterproof cloth, polyurethane, a steel skeleton and anti-crack mortar B in sequence, and the foundation of the fresh-keeping storehouse is formed by tightly combining concrete and graphite plates.

After the preservation warehouse is built, the solar power generation panel positioned on the preservation warehouse starts to generate power, and the generated power enters the storage battery through the controller and is then conveyed to the refrigerator on one side of the preservation warehouse through the storage battery and the inverter. The refrigerator is also connected with an external alternating current power supply, when the power generated by the solar power generation panel cannot be supplied, the refrigerator automatically uses the external power supply for supplying power, and a cold air pipe on the refrigerator directly conveys cold air into the fresh-keeping warehouse, so that the temperature in the fresh-keeping warehouse reaches a value, and the fruits and vegetables can be kept fresh. In winter, the refrigerator is not used in the fresh-keeping warehouse, electricity generated by the solar power generation panel enters the storage battery through the controller, the electricity of the storage battery is connected with the air cooler arranged on the other side of the fresh-keeping warehouse through the inverter, the air cooler is also connected with an external power supply, and when the electricity generated by the solar power generation panel is not supplied at times, the electricity is automatically converted to work by using alternating current. The cold air pipe of air-cooler directly lets in the freshness preservation storehouse, directly blows in the fresh-keeping storehouse to the outside cold air and just can play the fresh-keeping effect (the temperature control in its freshness preservation storehouse is at a value, can not hang down excessively), and the electricity that solar panel sent in winter removes the confession air-cooler power consumption, still can carry away other departments power consumption to surplus electricity through the dc-to-ac converter, has just so played the low energy consumption power consumption.

The wall of the fresh-keeping storehouse changes the traditional structure, and the anti-crack mortar A, the waterproof cloth, the polyurethane, the steel skeleton and the anti-crack mortar B are poured together in sequence and are tightly poured together with the concrete and the graphite polystyrene board on the foundation, so that the anti-crack mortar A, the waterproof cloth, the polyurethane, the steel skeleton and the anti-crack mortar B are tightly combined and are in seamless butt joint. Really playing a role in keeping fresh.

The invention has the advantages that the solar power generation board is arranged by fully utilizing the space at the top end of the fresh-keeping storehouse, the solar power generation board not only can be used for self power consumption, but also can be used for transmitting redundant power to other power consumption places, the structure of the wall body of the fresh-keeping storehouse also changes the traditional structure, and the fresh-keeping storehouse is simple in structure, economical and practical.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a circuit schematic of the present invention.

Fig. 2 is a front configuration view of the first embodiment of the present invention.

Fig. 3 is a longitudinal sectional view of the wall of the fresh food storage of fig. 2.

In the figure, 1, a refrigerator, 2, a fresh-keeping warehouse, 3, a solar power generation panel, 4, a controller, 5, a storage battery, 6, an inverter, 7, an air cooler, 8, anti-crack mortar A, 9, waterproof cloth, 10, polyurethane, 11, a steel skeleton, 12, anti-crack mortar B, 13, concrete and 14, a graphite benzene board are arranged.

Detailed Description

In fig. 1, a solar panel (3) is connected to a controller (4) and a battery (5) in this order, the battery (5) is connected to an inverter (6), and the inverter (6) is connected to a refrigerator (1) and an air cooler (7), respectively.

In the embodiment shown in fig. 2, a refrigerator (1) is arranged at one end of the fresh keeping warehouse (2), the refrigerator (1) is movably connected with an external power supply and a power supply of an inverter (6) respectively, a cold air pipe above the refrigerator (1) directly extends into the fresh keeping warehouse (2), an air cooler (7) is arranged at the other end of the fresh keeping warehouse (2), the air cooler (7) is movably connected with the external power supply and the power supply of the inverter (6) respectively, the cold air pipe above the air cooler (7) directly leads into the hollow space of the fresh keeping warehouse (2), a plurality of solar panels (3) are arranged at the top end of the fresh keeping warehouse (2), the solar panels (3) are sequentially connected with a controller (4) and a storage battery (5), and the storage battery (5) is movably connected with the refrigerator (1) and the cold air cooler (7) respectively through the inverter (6).

The electricity generated by the solar power generation panel (3) on the fresh-keeping warehouse (2) enters the storage battery (5) through the controller (4), and then is respectively transmitted to the refrigerator (1) and the air cooler (7) through the storage battery (5) through the inverter (6), the refrigerator (1) and the air cooler (7) are respectively and movably connected with an external power supply, and when the electricity generated by the solar power generation panel (3) cannot be used by the external power supply, the external electricity is automatically used for working. The refrigerator (1) produces cold air, and the cold air is directly conveyed to the fresh-keeping warehouse (2) through the cold air pipe arranged on the refrigerator, and the fresh-keeping warehouse (2) automatically stops working when the air temperature reaches a fresh-keeping value. But the solar power generation panel (3) still generates electricity which is generated by the solar power generation panel and can be used for other places. The refrigerator (1) is not used for refrigerating in the fresh-keeping warehouse (2) in winter, electricity generated by the solar power generation panel (3) enters the storage battery (5) through the controller (4), the electricity of the storage battery (5) is conveyed to the air cooler (7) through the inverter (6), the air cooler (7) conveys cold air to the fresh-keeping warehouse (2) through the air cooling pipe arranged above, when the air temperature in the fresh-keeping warehouse (2) reaches a fresh-keeping value, the cold air is automatically stopped to be blown into the fresh-keeping warehouse (2), but at the moment, the solar power generation panel (3) still generates electricity, and the electricity generated at the moment can be conveyed to other places for electricity utilization.

In another embodiment shown in fig. 3, the wall of the fresh-keeping warehouse (2) is poured by anti-crack mortar A (8), waterproof cloth (9), polyurethane (10), a steel skeleton (11) and anti-crack mortar B (12), the foundation of the fresh-keeping warehouse (2) is formed by combining concrete (13) and a graphite benzene board (14), in the construction, the ground is firstly leveled, then the graphite benzene board (14) is paved on the ground, the thickness of the two materials of the concrete (13) is paved on the graphite benzene board (14) to reach a value, after the concrete (13) is solidified, an integral supporting frame of the fresh-keeping warehouse (2) is made on the ground, the anti-crack mortar B (12) is poured on the supporting frame to a certain thickness, the steel skeleton (11) is firmly fixed on the steel skeleton, then the polyurethane (10) is poured on the steel skeleton (11), then the waterproof cloth (9) is paved on the polyurethane (10), and a layer of anti-crack mortar A (8) is poured on the waterproof cloth (9). After the whole wall is dried to a certain degree and solidified, the support frame in the fresh-keeping storehouse (2) is removed.

Claims (2)

1. A low-energy-consumption fresh-keeping storehouse utilizing solar energy for power generation is characterized in that: the fresh-keeping device is characterized in that a refrigerator is arranged at one end of the fresh-keeping warehouse, the refrigerator is respectively movably connected with an external power source and a power source above an inverter, a cold air pipe above the refrigerator is directly led into the fresh-keeping warehouse, an air cooler is arranged at the other end of the fresh-keeping warehouse, the air cooler is respectively movably connected with the external power source and the power source above the inverter, the cold air pipe above the air cooler is directly led into the hollow space of the fresh-keeping warehouse, a plurality of solar power generation panels are arranged at the top end of the fresh-keeping warehouse, the solar power generation panels are sequentially connected with a controller and a.

2. The low-energy-consumption fresh-keeping warehouse for generating electricity by using solar energy as claimed in claim 1, which is characterized in that: the wall of the fresh-keeping storehouse is formed by pouring anti-crack mortar A, waterproof cloth, polyurethane, a steel skeleton and anti-crack mortar B in sequence, and the foundation of the fresh-keeping storehouse is formed by tightly combining concrete and graphite plates.

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