CN102518563A - Power generating set - Google Patents

Abstract

The invention discloses a power generating device installed in an air conditioner radiator, which comprises a wind power receiving mechanism, a transmission mechanism and a power generating mechanism; one end of the transmission mechanism is connected to the wind power receiving mechanism, and the other end is connected to the power generating mechanism. The airflow generated by the rotation of the cooling fan of the air conditioner drives the fan of the wind power receiving mechanism to rotate, and converts the wind energy into kinetic energy. The kinetic energy is transferred through the transmission belt and the transmission parts to drive the motor shaft of the small generator to move together, so that the generator generates electricity and converts the kinetic energy into electrical energy. And stored by the battery. The present invention can utilize a part of the kinetic energy wasted by the rotation of the radiator fan without affecting the normal heat dissipation of the air conditioner, and convert it into usable electric energy for charging small household appliances and mobile phones in daily life or as a storage battery for battery cars , to achieve the purpose of environmental protection and energy saving.

Description

a power generating device

technical field

The invention relates to a power generating device, in particular to a power generating device installed in an air conditioner radiator.

Background technique

At present, air conditioners have become one of the necessary household appliances for every household. However, while providing convenience for people and improving the indoor environment, their higher power consumption has attracted people's attention. Most of the air conditioner radiators are installed on the outdoor wall to discharge the heat generated when the air conditioner is in circulation and to dissipate heat from the compressor. The radiator of the air conditioner adopts the method of air cooling and heat dissipation, and the heat is taken away by the rotation of the fan blade of the radiator. The blade will dissipate kinetic energy during work, resulting in energy waste. Nowadays, almost every household is equipped with an air conditioner, and the air conditioner dissipates heat The sum of the energy dissipated by the rotating blades of the device is huge, so it is necessary to recycle this part of energy.

Contents of the invention

The technical problem to be solved by the invention is to utilize the kinetic energy dissipated by the radiator fan of the air conditioner when it is working, convert the kinetic energy dissipated by the radiator fan of the air conditioner into usable electric energy, and store it in the storage battery.

In order to solve the problems of the technologies described above, the technical solution adopted in the present invention is:

A power generating device installed in an air conditioner radiator, comprising a wind power receiving mechanism, a transmission mechanism and a power generating mechanism; one end of the transmission mechanism is connected to the wind power receiving mechanism, and the other end is connected to the power generating mechanism, wherein the wind power receiving mechanism is used to receive wind energy and transfer wind energy Converted into kinetic energy, the transmission mechanism is used to transmit kinetic energy, and the power generation mechanism is used to convert kinetic energy into electric energy and store electric energy; the wind power receiving mechanism includes a connecting shaft, a power generation fan and bearings, and the power generation fan includes a power generation fan impeller and a power generation fan blade , one end of the connection shaft is connected to the air conditioner radiator fan, and the other end is connected to the impeller of the power generation fan, and the bearing is installed on the impeller of the power generation fan between the connection shaft and the power generation fan.

Preferably, the impeller of the power generation fan is provided with protrusions along the axial direction, and the outer surface of the protrusions is provided with impeller grooves along the radial direction.

Preferably, the transmission mechanism is a rope-belt transmission structure, including a transmission belt and a transmission part; the transmission part is a columnar structure, and the outer surface is provided with a groove for the transmission part along the radial direction, and one end of the transmission belt is connected to the power generation fan of the power generation mechanism. The other end of the groove of the impeller is connected to the groove of the transmission part, and is tensioned between the groove of the impeller and the groove of the transmission part.

Preferably, the power generating mechanism includes a generator, a storage battery and a voltage stabilizer, the generator is used to convert kinetic energy into electrical energy, the storage battery is connected to the generator for storing electrical energy, and the voltage stabilizer is connected to the storage battery for voltage stabilization; The transmission member is connected with the motor shaft of the generator.

Preferably, the connection part between the impeller of the power generation fan and the blade of the power generation fan is hollow.

Preferably, the size of the power generation fan is slightly smaller than that of the radiator fan of the air conditioner.

Beneficial effects of the present invention: without affecting the normal heat dissipation of the air conditioner, a part of the kinetic energy wasted due to the rotation of the radiator fan of the air conditioner is utilized, converted into usable electric energy, and stored in the battery, which can be used as a daily It can be used for charging small household appliances, mobile phones, etc. in daily life or as a storage battery for battery cars, so as to achieve the purpose of environmental protection and energy saving.

Description of drawings

Fig. 1 is the installation schematic diagram of the embodiment of power generation device of the present invention;

Fig. 2 is a schematic structural view of an embodiment of the power generating device of the present invention;

Fig. 3 is a schematic side view of the wind receiving mechanism in the embodiment of the power generating device of the present invention;

In the figure: 1-air conditioner radiator; 11-air conditioner radiator fan; 21-generator fan; 22-connecting shaft; 23-bearing; 24-generator fan impeller; 25-generator fan blade; 31-generator; 32-battery ; 33-voltage stabilizer; 34-motor shaft; 41-transmission belt; 42-transmission parts.

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:

The installation schematic diagram of this embodiment is shown in Figure 1. The power generation device is installed in the air conditioner radiator 1, and the side of the air conditioner radiator shell is provided with vents so that the internal air flow can flow smoothly. The structural diagram of this embodiment is shown in Figure 2, including a wind power receiving mechanism, a transmission mechanism and a power generating mechanism.

The side view of the wind receiving mechanism is shown in FIG. 3 , which includes a power generation fan 21 , a connecting shaft 22 and a bearing 23 . The power generation fan 21 includes a power generation fan impeller 24 and a power generation fan blade 25 . One end of the connecting shaft is connected to the radiator fan of the air conditioner, and the other end is connected to the power generation fan to support the power generation fan. The bearing is installed on the impeller of the power generation fan between the connecting shaft and the power generation fan, which can be a ball bearing, and is used to ensure that the power generation fan and the air conditioner radiator fan work independently without affecting each other. The size of the power generation fan 21 is slightly smaller than the size of the air conditioner radiator fan 11. When the air conditioner radiator fan rotates, the airflow can flow out from around the power generation fan 21, which is conducive to air flow. The rigid connection part between the power generation fan impeller and the power generation fan blade is hollow, and when the power generation fan rotates, the airflow can flow through the middle of the power generation fan impeller, which is beneficial to the air flow. The impeller of the power generation fan is provided with protrusions along the axial direction, and the outer surface of the protrusions is provided with impeller grooves along the radial direction for installing the transmission belt 41. The transmission belt is connected with the power generation fan through the grooves and is tensioned. The rotation of the power generation fan drives the transmission belt to move and transmit kinetic energy.

The transmission mechanism is a rope transmission structure, including a transmission belt 41 and a transmission member 42 . The transmission part 42 is a columnar structure, and the outer surface is provided with transmission part grooves along the radial direction. One end of the transmission belt is connected to the impeller groove on the power generation fan of the power generation mechanism, and the other end is connected to the transmission part groove, and is tensioned between the two grooves. .

The power generating mechanism includes a generator 31 , a storage battery 32 and a voltage stabilizer 33 . The storage battery 32 is connected to the generator 31, and the voltage stabilizer 33 is connected to the storage battery 32 to stabilize the voltage of the storage battery 32; the motor shaft 34 of the generator is connected to the transmission part 42, which can be a rigid connection, and the rotation of the power generation fan drives the power generation fan impeller Rotation, the rotation of the impeller of the generator fan drives the movement of the transmission belt, the movement of the transmission belt drives the movement of the transmission part, the movement of the transmission part drives the rotation of the motor shaft, the rotation of the motor shaft makes the generator work, and converts kinetic energy into electrical energy. And store the electric energy through the battery.

The working process of the present invention is: when the air conditioner is working, the radiator fan of the air conditioner rotates to generate air flow, the wind power receiving mechanism receives the wind force, and converts the wind energy into kinetic energy, which is transmitted through the transmission mechanism, and the transmission mechanism transmits the kinetic energy to the power generation mechanism, so that the power generation mechanism Generating electricity, converting kinetic energy into electrical energy.

The specific working process of an embodiment of the present invention is as follows: when the air conditioner is working, the radiator fan of the air conditioner radiator rotates to generate airflow, and the airflow makes the power generation fan in the wind power receiving mechanism rotate to generate kinetic energy. The impeller of the power generation fan is connected to the transmission belt in the transmission mechanism through a rope drive. When the power generation fan rotates, the transmission belt is driven to move. The transmission belt is connected to the transmission part in the transmission mechanism. The transmission part is connected to the motor shaft of the generator of the power generation mechanism. Drive the motor shaft of the generator to move, so that the generator generates electricity, thereby converting kinetic energy into electrical energy. The generator is connected with the battery, and the converted electric energy is stored in the battery, and the battery is connected with a voltage stabilizer to stabilize its voltage.

The above is only a preferred embodiment of the present invention, it should be pointed out that, for those of ordinary skill in the art, without departing from the principle of the present invention, some improvements and modifications can also be made, and these improvements and modifications can also be made. It should be regarded as the protection scope of the present invention.

Claims (6)

1. an electricity generating device that is installed in the air conditioner heat radiator is characterized in that: comprise wind-force receiving mechanism, driving mechanism and power facility; Said driving mechanism one end connects the wind-force receiving mechanism; The other end connects power facility; Wherein the wind-force receiving mechanism is used to receive wind energy and is kinetic energy with wind energy transformation, and driving mechanism is used to transmit kinetic energy, and power facility is used for kinetic energy is converted into electric energy and store electrical energy; Said wind-force receiving mechanism comprises coupling shaft, generating fan and bearing; Said generating fan comprises generating blast fan and generating fan blade; Said coupling shaft one end connects the air conditioner heat radiator fan; The other end connects the generating blast fan, and said Bearing Installation is on the generating blast fan between coupling shaft and the generating fan.

2. electricity generating device according to claim 1 is characterized in that: said generating blast fan is provided with convexity vertically, and this convex outer surface radially is provided with the impeller groove.

3. electricity generating device according to claim 2 is characterized in that: said driving mechanism is the rope band drive mechanism, comprises driving belt and driving component; Said driving component is a column structure, and outer surface radially is provided with the driving component groove, and said driving belt one end connects the impeller groove of the generating fan of power facility, and the other end connects driving component groove, tensioning between impeller groove and driving component groove.

4. electricity generating device according to claim 3 is characterized in that: said power facility comprises generator, storage battery and voltage stabilizer, and generator is used for kinetic energy is converted into electric energy; Storage battery connects generator; Be used for store electrical energy, voltage stabilizer connects storage battery, is used for voltage stabilizing; Said driving component is connected with the motor shaft of generator.

5. according to each described electricity generating device of claim 1-4, it is characterized in that: said generating blast fan is hollow shape with generating fan blade attachment portion.

6. according to each described electricity generating device of claim 1-4, it is characterized in that: said generating fan dimension is slightly less than the air conditioner heat radiator fan dimension.

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