CN106452289A - Night clothes dryer with integrated utilization of solar energy and wind energy - Google Patents

Abstract

The invention discloses a night clothes dryer which comprehensively utilizes solar energy and wind energy, comprising a wind power generation module, a solar power generation module, an intelligent charging energy storage module, an inverter output The power generation module is respectively connected to the input terminal circuit of the intelligent charging energy storage module, and is used to charge the intelligent charging energy storage module; the inverter output module is connected between the clothes dryer module and the output terminal of the intelligent charging energy storage module through a circuit The time is used to convert the power transmission of the smart charging energy storage module for the normal operation of the clothes dryer. The present invention comprehensively utilizes solar energy, wind energy, and storage battery to store energy and provide it to the clothes dryer, which overcomes the influence of environmental factors, has high efficiency and low cost, and can meet the needs of quick-drying clothes in rainy weather, especially at night, and is suitable for household applications. Clothes dryers are the foothold, focusing on the rational use of new energy, and have significant advantages in energy conservation, environmental protection and economy.

Description

A night-use clothes dryer that comprehensively utilizes solar energy and wind energy

technical field

The invention relates to a clothes dryer, which belongs to new energy application equipment, in particular to a clothes dryer device utilizing solar energy and wind energy.

Background technique

With the development of society, people's various living needs are also increasing. Restricted by the nine-to-five working hours, most wage earners can only wash and dry clothes at night. However, under the condition of lack of light and heat at night, and in rainy and humid weather, the clothes are not only difficult to dry, but also easy to breed bacteria. If there is a social gathering or banquet in the evening, people can only be forced to change into other clothes, and even in the morning they cannot put on the clothes washed the night before.

After careful research on domestic and foreign electric clothes dryers on the market, and understanding their main categories and corresponding working principles, we can find that there are three main types: hot air drying, drum exhaust type and drum condensing type. But the three are not optimistic in terms of cost, use cost and energy consumption, and even cause certain environmental pollution, so they have not been well promoted in China.

In terms of solar energy utilization of clothes dryer equipment, there are also many types and mature technologies, which are mainly divided into collector type, greenhouse type and collector-greenhouse type. However, simply using solar energy, on the one hand, it is difficult to maintain a stable long-term current supply due to various factors such as the environment, and on the other hand, the low conversion efficiency cannot really completely get rid of the dependence on mains power. Certain designs are for daytime or immediate use, a type that clearly ignores practical applications. If you have time to process the washed clothes during the day and have sufficient light and heat conditions, it is actually more energy-saving and environmentally friendly to use the traditional method to dry directly, and there is no need to use equipment.

In addition, domestic related products have poor air supply uniformity and low drying efficiency in the design of dryer components. This problem directly affects the cost of use and the quality of clothes dried.

Contents of the invention

In order to overcome the shortcomings of the prior art and technology, the present invention provides a night clothes dryer that comprehensively utilizes solar energy and wind energy. This equipment not only effectively solves various practical problems of existing products on the market, but also avoids high use costs, and truly realizes energy saving and environmental protection.

The present invention adopts following technical scheme to realize:

A night-use clothes dryer that comprehensively utilizes solar energy and wind energy, including a wind power generation module, a solar power generation module, an intelligent charging energy storage module, an inverter output module, and a clothes dryer module. The wind power generation module and the solar power generation module are respectively It is connected with the input end circuit of the intelligent charging energy storage module, and is used to charge the intelligent charging energy storage module; the inverter output module is connected between the clothes dryer module and the output end of the intelligent charging energy storage module through a circuit, It is used to convert the power transmission of the intelligent charging energy storage module for the normal operation of the clothes dryer.

Further, the wind power generation module includes a wind power generator, and the wind power generator adopts a three-bladed wind power generator for auxiliary energy supply of the whole equipment.

Further, the clothes dryer module includes a clothes dryer, and the air inlet of the clothes dryer is provided with an air equalizing plate to improve the uniformity of the air volume in the clothes dryer.

Further, the solar power generation module includes a solar cell assembly installed on the roof exposed to sunlight, effectively utilizes solar energy to store electricity, is energy-saving and environmentally friendly, and is widely applicable.

Further, the solar cell module adopts monocrystalline silicon solar cells, and the photoelectric conversion efficiency of monocrystalline silicon solar cells is high.

Further, the intelligent charging energy storage module includes an energy storage battery pack, an intelligent charging controller, and a controller, and the intelligent charging controller is connected between the input terminal of the energy storage battery pack and the solar power generation module through a circuit, so The above-mentioned controller is connected between the input end of the energy storage battery pack and the wind power generation module through a circuit, and the energy-charging controller and the controller are used for stabilizing voltage and unifying electric parameters.

Further, the energy storage battery pack uses silicon energy batteries for power storage, and the silicon energy batteries are ideal in terms of specific energy characteristics, discharge characteristics, service life and environmental protection, ensuring the power supply and normal operation of the entire device, which can be completely Get rid of the dependence on mains power and have outstanding advantages such as energy saving, environmental protection, and low cost of use.

Further, the inverter output module includes an inverter, and the inverter converts the power transmitted by the intelligent charging and energy storage module into a power supply of a predetermined voltage for normal operation of the clothes dryer.

Further, the power supply of the predetermined voltage includes a 220V power supply, which can meet the power requirements of most clothes dryers in the market.

Compared with the prior art, the present invention comprehensively utilizes solar energy, wind energy, and storage battery to store energy and provide it to the clothes dryer, which overcomes the influence of environmental factors, has high conversion efficiency and low cost, and can meet the speed of clothing in rainy weather, especially at night. Drying needs, with household clothes dryers as the foothold, focusing on the rational use of new energy, has significant advantages in terms of energy saving, environmental protection and economy.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of a solar wind energy clothes dryer according to an embodiment of the present invention.

Fig. 2 is a schematic frame diagram of the coordinated work of various components of the solar wind energy clothes dryer according to the embodiment of the present invention.

Fig. 3 is a structural diagram of the air equalizing plate arranged at the inlet of the solar wind energy clothes dryer according to the embodiment of the present invention.

Figure 4 is a nephogram of the indoor wind speed when the solar wind energy clothes dryer is not installed with an air equalizing plate.

Fig. 5 is a nephogram of indoor wind speed when the solar wind energy clothes dryer according to the embodiment of the present invention is installed with an air equalizing plate.

The picture shows: 1-intelligent charging controller, 2-clothes dryer, 3-inverter, 4-energy storage battery pack, 5-controller, 6-wind generator, 7-solar battery module.

detailed description

The purpose of the present invention will be further described in detail through specific examples below, and the examples cannot be repeated here one by one, but the implementation of the present invention is not therefore limited to the following examples.

As shown in Figure 1 and Figure 2, a night clothes dryer that comprehensively utilizes solar energy and wind energy includes a wind power generation module, a solar power generation module, an intelligent charging energy storage module, an inverter output module, and a clothes dryer module. The wind power generation module and the solar power generation module are respectively connected to the input circuit of the intelligent charging energy storage module for charging the intelligent charging energy storage module; the inverter output module is connected to the clothes dryer module and the intelligent charging module through a circuit Between the output terminals of the energy storage module, it is used to convert the power transmission of the intelligent charging energy storage module for the normal operation of the clothes dryer.

Wherein, the wind power generation module includes a wind power generator 6, and the wind power generator 6 adopts a three-bladed wind power generator for auxiliary energy supply of the whole equipment.

As shown in FIG. 3 , the clothes dryer module includes a clothes dryer 2 , and the air inlet of the clothes dryer 2 is provided with an air equalizing plate to improve the uniformity of the air volume in the clothes dryer.

The solar power generation module includes a solar cell assembly 7 arranged on the roof exposed to sunlight. Said solar cell module 7 adopts monocrystalline silicon solar cells.

The intelligent charging energy storage module includes an energy storage battery pack 4, an intelligent charging controller 1, and a controller 5, and the intelligent charging controller 1 is connected between the input end of the energy storage battery pack 4 and the solar power generation module through a circuit , the controller 5 is connected between the input end of the energy storage battery pack 4 and the wind power generation module through a circuit, and the energy charging controller 1 and the controller 5 are used for voltage stabilization and unification of electrical parameters. The energy storage battery pack 4 uses silicon energy batteries for power storage.

The inverter output module includes an inverter 3, which is connected to the energy storage battery pack 4 and the clothes dryer 2 respectively, and the inverter 3 converts the power transmission of the energy storage battery pack 4 into a 220V power supply for drying clothes The machine operates normally.

During the working process, the solar battery module 7 charges the energy storage battery pack 4 through the intelligent charging controller 1, and the wind power generator 6 assists in charging the energy storage battery pack 4 through the supporting controller 5 (the power supply parameters match the solar controller ). That is, the energy storage battery pack 4 can be charged simultaneously by the solar cell module 7 and the wind generator 6 during the sunny and windy day, can be charged by the wind generator 6 when it is cloudy and windy, and can also be charged by the wind generator 6 at night when there is wind. It can be charged by the wind generator 6, and when used at night, the inverter 3 converts the power transmission of the energy storage battery pack 4 into a 220V power supply for the normal operation of the clothes dryer 2.

Among them, the clothes dryer 2 adopts the design of the air equalizing plate. It can be seen from Fig. 4 and Fig. 5 that the air volume uniformity in the drying room is effectively improved by arranging the air equalizing plate at the entrance of the drying room, and the drying efficiency of the dryer is improved. clothing efficiency.

As described above, the present invention can be better implemented.

The implementation of the present invention is not limited by the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not deviate from the spirit and principles of the present invention should be equivalent replacement methods, and are all included in within the protection scope of the present invention.

Claims (9)

1. A night clothes dryer that comprehensively utilizes solar energy and wind energy, characterized in that it includes a wind power generation module, a solar power generation module, an intelligent charging energy storage module, an inverter output module, and a clothes dryer module. The module and the solar power generation module are respectively connected to the input circuit of the intelligent charging energy storage module for charging the intelligent charging energy storage module; the inverter output module is connected to the clothes dryer module and the intelligent charging energy storage module through a circuit Between the output terminals of the smart charging and energy storage module, it is used to convert the power transmission of the intelligent charging energy storage module for the normal operation of the clothes dryer. 2. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 1, characterized in that: the wind power generation module includes a wind power generator (6), and the wind power generator (6) adopts The three-blade wind generator is used for auxiliary energy supply of the whole equipment. 3. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 1, characterized in that: the clothes dryer module includes a clothes dryer (2), and the clothes dryer (2 ) The air inlet of the drying room is equipped with an air equalizing plate to improve the uniformity of the air volume in the drying room. 4. A night-use clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 1, characterized in that: said solar power generation module includes a solar cell assembly (7) arranged on a roof exposed to sunlight. 5. A night-use clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 4, characterized in that: the solar cell module (7) is a monocrystalline silicon solar cell. 6. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 1, characterized in that: the intelligent charging and energy storage module includes an energy storage battery pack (4), an intelligent charging controller (1) , a controller (5), the intelligent charging controller (1) is connected between the input end of the energy storage battery pack (4) and the solar power generation module through a circuit, and the described controller (5) is connected through a circuit to Between the input end of the energy storage battery pack (4) and the wind power generation module, the energy charging controller (1) and the controller (5) are used to stabilize voltage and unify electrical parameters. 7. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 6, characterized in that: said energy storage battery pack (4) uses silicon energy batteries for power storage. 8. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 1, characterized in that: the inverter output module includes an inverter (3), and the inverter (3 ) Transform the power transmission of the intelligent charging energy storage module into a power supply of a predetermined voltage for the normal operation of the clothes dryer. 9. A night clothes dryer that comprehensively utilizes solar energy and wind energy according to claim 8, characterized in that: said predetermined voltage power supply includes a 220V power supply.