CN211451288U - Deicing device and air conditioner - Google Patents

Abstract

The utility model discloses an ice melting device and air conditioner relates to air conditioner technical field. The deicing device comprises a wind power generation mechanism, a storage battery, a controller and an electric heating piece. The wind power generation mechanism is connected with the storage battery, the wind power generation mechanism is used for converting wind energy blown out by the air conditioner external unit into electric energy and storing the electric energy in the storage battery, the controller is connected with the storage battery, the storage battery is connected with the electric heating piece, the electric heating piece is used for being installed in the air conditioner external unit, and the controller can control the storage battery to supply power to the electric heating piece so that the electric heating piece heats and warms up, and ice of the air conditioner external unit is melted. Compared with the prior art, the utility model provides an ice melting device is owing to adopted the battery of being connected with wind power generation mechanism and the electric heat piece of being connected with the battery, so can descend the low energy consumption on the prerequisite of guaranteeing the ice-melt effect to make the outer machine of air conditioner can normal operating, and can not cause the wasting of resources, energy-concerving and environment-protective, the practicality is strong.

Description

Deicing device and air conditioner

Technical Field

The utility model relates to an air conditioning technology field, in particular to deicing device and air conditioner.

Background

In winter, the outside temperature is low, and the outdoor unit of the air conditioner is easy to accumulate water and freeze, so that the air conditioner cannot normally operate. In order to solve this problem, a heating device is usually connected to the outdoor unit, and the temperature of the heating device is increased after the heating device is powered on, so as to melt ice on the outdoor unit. However, this requires separate wiring, which results in high power consumption and resource waste.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how to descend the low energy consumption at the prerequisite of guaranteeing the ice-melt effect to make the air conditioner can normal operating, and can not cause the wasting of resources, energy-concerving and environment-protective, the practicality is strong.

In order to solve the above problem, the technical scheme of the utility model is realized like this:

first aspect, the utility model provides an ice melting device, including wind power generation mechanism, battery, controller and electric heat spare, wind power generation mechanism is connected with the battery, and wind power generation mechanism is used for turning into the electric energy with the wind energy that the outer machine of air conditioner blew off to store in the battery, the controller is connected with the battery, and the battery is connected with the electric heat spare, and the electric heat spare is used for installing in the outer machine of air conditioner, and the controller can control the battery and supply power to the electric heat spare, so that the electric heat spare heats up, thereby melts the ice of the outer machine of air conditioner. Compared with the prior art, the utility model provides an ice melting device is owing to adopted the battery of being connected with wind power generation mechanism and the electric heat piece of being connected with the battery, so can descend the low energy consumption on the prerequisite of guaranteeing the ice-melt effect to make the outer machine of air conditioner can normal operating, and can not cause the wasting of resources, energy-concerving and environment-protective, the practicality is strong.

Further, wind power generation mechanism includes mounting bracket, wind wheel and generator, and the wind wheel is installed in the mounting bracket, and can rotate for the mounting bracket, and the wind wheel is connected with the generator, and the generator is connected with the battery, and the wind wheel can be in the outer machine of air conditioner play the effect of air current and take place to rotate down to make the generator electricity generation. The wind wheel rotates relative to the mounting rack under the action of airflow to convert wind energy into mechanical energy, and the wind wheel drives the generator to rotate to convert the mechanical energy into electric energy, so that the power generation function is realized.

Further, the mounting bracket includes first deep bead, second deep bead and mounting panel, and first deep bead passes through mounting panel and second deep bead fixed connection, and the installing port has been seted up to the mounting panel, and the wind wheel is installed in the installing port. The mounting panel is used for setting up with the parallel interval of the outer machine of air conditioner to make the outer machine of air conditioner blow out the air current can directly blow on the mounting panel, the loss of minimize wind energy, first deep bead and second deep bead all are used for dismantling with the outer machine of air conditioner and are connected, so that installation and maintenance.

Further, first deep bead is the arc, and is sunken towards the direction that is close to the second deep bead, and the second deep bead is the arc, and is sunken towards the direction that is close to first deep bead. The utilization rate of the air quantity discharged by the air conditioner external unit is improved, and due to the coanda effect, the flow speed of the air flow passing through the arc-shaped parts of the first wind shield and the second wind shield is increased, so that the rotating speed of the wind wheel is increased, and the power generation efficiency is improved.

Further, the generator is fixedly installed in the installation frame and provided with a rotating shaft, and the rotating shaft is coaxially arranged with the wind wheel and fixedly connected with the wind wheel. The wind wheel rotates to drive the rotating shaft to rotate, so that the power generation operation of the generator is carried out.

Further, the deicing device further comprises a sensor, the sensor is connected with the controller, the sensor is used for being installed in the air conditioner external unit, and the sensor can send a first control signal to the controller when sensing that the air conditioner external unit freezes, so that the controller controls the storage battery to supply power to the electric heating element. Therefore, the electric heating piece does work to generate heat, and the temperature is increased to melt ice on the air conditioner external unit.

Further, the electric heating element is connected with an external power supply, and the external power supply can directly supply power to the electric heating element. So as to carry out the ice melting operation in an emergency under the condition of insufficient electric quantity of the storage battery.

A second aspect, the utility model provides an air conditioner, including the outer machine of air conditioner and foretell device of melting ice, this device of melting ice includes wind power generation mechanism, the battery, controller and electric heat spare, the outer machine of air conditioner is including the panel of seting up the air outlet, the position of air outlet is corresponding with wind power generation mechanism's position, wind power generation mechanism is connected with the battery, wind power generation mechanism is used for turning into the electric energy with the wind energy that the outer machine of air conditioner blew out, and store in the battery, the controller is connected with the battery, the battery is connected with the electric heat spare, the electric heat spare is used for installing in the outer machine of air conditioner, the controller can control the battery and supply power to the electric heat spare, so that the electric heat spare heats. The ice melting device in the air conditioner can reduce low energy consumption on the premise of ensuring ice melting effect, so that an air conditioner outdoor unit can normally operate, resource waste can not be caused, energy is saved, environment is protected, and the practicability is high.

Furthermore, the wind power generation mechanism covers the panel, one end of the wind power generation mechanism is clamped with one end of the panel, and the other end of the wind power generation mechanism is clamped with the other end of the panel. The mounting frame is detachably connected with the panel, and the mounting frame is convenient to detach and mount.

Furthermore, the air conditioner external unit also comprises a base plate, the base plate is fixedly connected with the panel, and the electric heating element is fixedly arranged on the base plate. The electric heating piece can heat the chassis to melt ice on the chassis, so that the normal operation of the air conditioner external unit can be guaranteed.

Drawings

Fig. 1 is a schematic structural view of a visual angle at which an ice melting apparatus according to a first embodiment of the present invention is connected to an air conditioner external unit;

fig. 2 is a schematic structural view of another view angle of the ice melting apparatus according to the first embodiment of the present invention connected to an air conditioner external unit;

fig. 3 is a block diagram illustrating the structure of an ice melting apparatus according to a first embodiment of the present invention;

fig. 4 is a schematic structural view of a wind power generation mechanism in an ice melting apparatus according to a first embodiment of the present invention;

FIG. 5 is a schematic view of the generator of FIG. 4 coupled to a wind wheel;

fig. 6 is a schematic view of an air conditioner according to a second embodiment of the present invention;

fig. 7 is a schematic structural view of another perspective of an air conditioner according to a second embodiment of the present invention;

fig. 8 is a schematic structural view of an air conditioner outdoor unit according to a second embodiment of the present invention.

Description of reference numerals:

10-an air conditioner; 100-an ice melting device; 110-a wind power generation mechanism; 111-a mounting frame; 1111-a first wind deflector; 1112-a second wind deflector; 1113-mounting plate; 1114-a fixed support; 1115-air guide cavity; 1116-a first buckle; 1117-second fastener; 1118-an installation port; 112-a wind wheel; 113-a generator; 1131-a rotating shaft; 120-a storage battery; 130-a controller; 140-electric heating elements; 150-a sensor; 200-an air conditioner outdoor unit; 210-a housing; 211-an air outlet; 212-a panel; 213-a chassis; 214-first card hole; 215-second card hole; 220-a fan; 300-external power source.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

Referring to fig. 1, an embodiment of the present invention provides an ice melting apparatus 100 for melting ice condensed on an air conditioner outdoor unit 200. The energy-saving ice melting device can reduce low energy consumption on the premise of ensuring ice melting effect so as to enable the air conditioner to normally operate, and can not cause resource waste, is energy-saving and environment-friendly, and has strong practicability.

It should be noted that, the ice melting device 100 is applied to the air conditioner external unit 200, the air conditioner external unit 200 is prone to accumulating water and freezing in winter, and the ice melting device 100 can heat and raise the temperature to melt ice on the air conditioner external unit 200, so as to ensure that the air conditioner external unit 200 can normally operate.

Referring to fig. 2 and 3, the ice melting apparatus 100 includes a wind power generation mechanism 110, a storage battery 120, a controller 130, an electric heating element 140, and a sensor 150. The wind power generation mechanism 110 is installed outside the air conditioner external unit 200, the position of the wind power generation mechanism 110 corresponds to the position of the air conditioner external unit 200, the air conditioner external unit 200 blows an air flow outwards when in operation, and the wind power generation mechanism 110 can receive the air flow and generate wind power by using wind energy of the air flow. The wind power generation mechanism 110 is connected to the battery 120, and the wind power generation mechanism 110 is configured to convert wind energy blown out by the air conditioner external unit 200 into electric energy and store the electric energy in the battery 120, that is, charge the battery 120. The storage battery 120 is connected with the electric heating member 140, the electric heating member 140 is used for being installed in the air conditioner external unit 200, and the storage battery 120 can supply power to the electric heating member 140, so that the electric heating member 140 does work to generate heat, the temperature is increased, and ice on the air conditioner external unit 200 is melted.

The controller 130 is connected with the storage battery 120, and the controller 130 can control the storage battery 120 to supply power to the electric heating element 140, so that the electric heating element 140 heats and warms up, and ice of the air conditioner external unit 200 is melted; the controller 130 can also control the storage battery 120 to be disconnected from the electric heating element 140 after the ice melting is finished, and at the moment, the storage battery 120 does not supply power to the electric heating element 140 any more, so that the energy is saved. The sensor 150 is connected with the controller 130, the sensor 150 is used for being installed in the air conditioner external unit 200, and the sensor 150 can send a first control signal to the controller 130 when sensing that the air conditioner external unit 200 is frozen, so that the controller 130 controls the storage battery 120 to supply power to the electric heating element 140, and ice on the air conditioner external unit 200 is melted; the sensor 150 can also send a second control signal to the controller 130 after sensing that the ice of the outdoor unit 200 of the air conditioner melts, so that the controller 130 controls the storage battery 120 to be disconnected from the electric heating element 140, and the electric heating element 140 does not work any more and generates heat.

It should be noted that the controller 130 is configured to be connected to the external air conditioner 200, and when the sensor 150 sends the first control signal to the controller 130, it indicates that ice exists on the external air conditioner 200 and the external air conditioner 200 cannot normally operate, and at this time, the controller 130 controls the external air conditioner 200 to stop operating; when the sensor 150 sends a control second control signal to the controller 130, it indicates that the air-conditioning outdoor unit 200 is not frozen, and the air-conditioning outdoor unit 200 can normally operate, and at this time, the controller 130 controls the air-conditioning outdoor unit 200 to normally operate.

When the air conditioner is started, if the sensor 150 senses that the air conditioner external unit 200 has ice, a first control signal is sent to the controller 130, at this time, the controller 130 controls the air conditioner external unit 200 to temporarily stop running, the controller 130 controls the storage battery 120 to supply power to the electric heating element 140, and the electric heating element 140 does work to heat so as to melt the ice on the air conditioner external unit 200; if the sensor 150 senses that the air conditioner external unit 200 is not frozen when the air conditioner is started or the sensor 150 senses that ice is melted by the electric heating element 140, the sensor 150 sends a second control signal to the controller 130, at this time, the controller 130 controls the air conditioner external unit 200 to normally operate, the air conditioner external unit 200 blows airflow outwards, so that the wind power generation mechanism 110 performs wind power generation, the obtained electric energy is stored in the storage battery 120 and waits for next use, in the process, the controller 130 controls the storage battery 120 to be disconnected from the electric heating element 140, and the electric heating element 140 does not do work. Therefore, the storage battery 120 can be charged by the operation of the air conditioner external unit 200 every time, so that the storage battery 120 can have enough electric quantity, ice on the air conditioner external unit 200 can be melted by the electric heating element 140 when the air conditioner external unit 200 operates next time, and the energy conservation and the environmental protection are realized.

It should be noted that, the electric heating element 140 is connected to the external power supply 300, and when the ice melting device 100 is not used for a long time and the electric quantity in the storage battery 120 is insufficient, the controller 130 controls the external power supply 300 to directly supply power to the electric heating element 140, so that the electric heating element 140 melts the ice on the air conditioner external unit 200, and the air conditioner external unit 200 can normally operate, and then the wind power generation mechanism 110 charges the storage battery 120, so that the storage battery 120 supplies power to the electric heating element 140 next time. Specifically, the external power source 300 may be an external power source, or may be a power source of the air conditioner outdoor unit 200.

In this embodiment, the electric heating element 140 is a resistance wire, and the electric heating element 140 is spirally arranged in the air conditioner outdoor unit 200 to uniformly heat the air conditioner outdoor unit 200, so that the ice melting efficiency is high, and the ice melting effect is good. However, the present invention is not limited thereto, and in other embodiments, the electric heating element 140 may have a rod shape or a pie shape, and the shape of the electric heating element 140 is not particularly limited.

Referring to fig. 4 and 5, the wind power generation mechanism 110 includes a mounting frame 111, a rotor 112, and a generator 113. The wind wheel 112 is mounted in the mounting bracket 111 and can rotate relative to the mounting bracket 111, the position of the wind wheel 112 corresponds to the position of the air conditioner outdoor unit 200, and when the air conditioner outdoor unit 200 blows an air flow outwards, the wind wheel 112 rotates relative to the mounting bracket 111 under the action of the air flow so as to convert wind energy into mechanical energy. The wind wheel 112 is connected with the generator 113, and the wind wheel 112 can rotate under the action of airflow blown out by the air conditioner external unit 200 to drive the generator 113 to rotate, so that mechanical energy is converted into electric energy, and a power generation function is realized. The generator 113 is connected to the battery 120, and the generator 113 can store the generated electric energy in the battery 120, that is, charge the battery 120.

Mounting bracket 111 includes a first wind deflector 1111, a second wind deflector 1112, and a mounting plate 1113. First deep bead 1111 passes through mounting panel 1113 and second deep bead 1112 fixed connection, and in this embodiment, first deep bead 1111, mounting panel 1113 and second deep bead 1112 integrated into one piece to improve joint strength. The mounting plate 1113 is provided with a mounting opening 1118, the wind wheel 112 is mounted in the mounting opening 1118, and the wind wheel 112 can rotate in the mounting opening 1118 to perform power generation operation. The mounting plate 1113 is used for being arranged in parallel with the air conditioner external unit 200 at intervals, namely, the airflow blown out by the air conditioner external unit 200 can be directly blown onto the mounting plate 1113, so that the loss of wind energy is reduced as much as possible, the sufficient air volume blown to the wind wheel 112 is ensured, and the power generation efficiency is improved. First wind deflector 1111 and second wind deflector 1112 are both adapted to be detachably connected to the outdoor unit 200 for easy installation and maintenance.

Specifically, an air guide cavity 1115 is formed between the first air baffle 1111 and the second air baffle 1112, the air guide cavity 1115 is communicated with the mounting opening 1118, the first air baffle 1111 and the second air baffle 1112 are used for guiding air flow, and the air flow blown out by the air conditioner outdoor unit 200 enters the mounting opening 1118 through the air guide cavity 1115 to drive the wind wheel 112 in the mounting opening 1118 to rotate, so that a power generation function is realized.

It should be noted that first wind deflector 1111 is arc-shaped, and is sunken towards the direction that is close to second wind deflector 1112, and second wind deflector 1112 is arc-shaped, and is sunken towards the direction that is close to first wind deflector 1111 to improve the utilization ratio of the outer machine 200 exhaust amount of air conditioner, and because of the coanda effect, the arc department velocity of flow that the air current passes through first wind deflector 1111 and second wind deflector 1112 increases, has accelerated the slew velocity of wind wheel 112, thereby has improved the generating efficiency.

In this embodiment, the generator 113 is fixedly installed in the installation frame 111, the generator 113 is provided with a rotating shaft 1131, the rotating shaft 1131 and the wind wheel 112 are coaxially arranged, and are fixedly connected, the wind wheel 112 rotates to drive the rotating shaft 1131 to rotate, so that the power generation operation of the generator 113 is performed.

Specifically, the mounting bracket 111 further comprises a fixing bracket 1114, one end of the fixing bracket 1114 is fixedly connected with the mounting plate 1113, the other end of the fixing bracket 1114 is fixedly connected with the generator 113, the generator 113 is fixedly connected with the wind wheel 112 through a rotating shaft 1131, so as to fix the relative position of the generator 113 and the mounting plate 1113, and therefore the relative position of the wind wheel 112 and the mounting plate 1113 is fixed, the wind wheel 112 is prevented from shifting in the rotating process, and the occurrence of interference between the wind wheel 112 and the mounting plate 1113 is avoided.

The embodiment of the utility model provides an ice melting device 100, wind power generation mechanism 110 is connected with battery 120, wind power generation mechanism 110 is used for turning into the electric energy with the wind energy that the outer machine 200 of air conditioner blew off, and store in battery 120, controller 130 is connected with battery 120, battery 120 is connected with electric heat piece 140, electric heat piece 140 is used for installing in the outer machine 200 of air conditioner, controller 130 can control battery 120 and supply power to electric heat piece 140, so that electric heat piece 140 generates heat and heaies up, thereby melt the ice of the outer machine 200 of air conditioner. Compared with the prior art, the utility model provides an ice melting device 100 is owing to adopted the battery 120 of being connected with wind power generation mechanism 110 and the electric heat piece 140 of being connected with battery 120, so can descend the low energy consumption on the prerequisite of guaranteeing the ice-melt effect to make outer machine 200 of air conditioner can normal operating, and can not cause the wasting of resources, energy-concerving and environment-protective, the practicality is strong.

Second embodiment

Referring to fig. 6, 7 and 8, the present invention provides an air conditioner 10 for regulating indoor air temperature. The air conditioner 10 includes an outdoor unit 200 and an ice melting apparatus 100. The basic structure and principle of the ice melting device 100 and the technical effects thereof are the same as those of the first embodiment, and for the sake of brief description, the corresponding contents of the first embodiment can be referred to for the parts of this embodiment that are not mentioned.

The outdoor unit 200 includes a casing 210 and a fan 220. The housing 210 is provided with an air outlet 211, the fan 220 is installed in the housing 210, the position of the fan 220 corresponds to the position of the air outlet 211, the fan 220 can blow air flow outwards through the air outlet 211, and the position of the air outlet 211 corresponds to the position of the wind power generation mechanism 110, so that the air flow blown out of the air outlet 211 drives the wind power generation mechanism 110 to generate power. Specifically, first wind deflector 1111 and second wind deflector 1112 are removably coupled to housing 210 to facilitate removal of mounting bracket 111 from housing 210 when ice melting apparatus 100 is not in use. The mounting plate 1113 is disposed in parallel with the housing 210 at a distance from each other so that the airflow blown out from the outlet 211 can be blown straight to the mounting plate 1113.

In this embodiment, the housing 210 includes a panel 212 and a chassis 213. The chassis 213 is fixedly connected to the panel 212, the chassis 213 is disposed at the bottom of the panel 212, the air outlet 211 is disposed on the panel 212, and the fan 220 is disposed above the chassis 213. Outside the panel 212 was located to mounting bracket 111 cover of wind power generation mechanism 110, the one end of mounting bracket 111 and the one end joint of panel 212, the other end of mounting bracket 111 and the other end joint of panel 212, first deep bead 1111 and the one end joint of panel 212 promptly, second deep bead 1112 and the other end joint of panel 212 to realize being connected dismantled of mounting bracket 111 and panel 212.

Specifically, first deep bead 1111 is provided with first buckle 1116, and second deep bead 1112 is provided with second buckle 1117, and the both ends of panel 212 are provided with first card hole 214 and second card hole 215 relatively, and first buckle 1116 joint is in first card hole 214, and second buckle 1117 joint is in second card hole 215 to realize the joint of mounting bracket 111 and panel 212. In this embodiment, the number of the first buckles 1116, the second buckles 1117, the first clamping holes 214 and the second clamping holes 215 is three, three first buckles 1116 are arranged on the first wind shield 1111 at intervals, each first buckle 1116 is clamped with one first clamping hole 214, three second buckles 1117 are arranged on the second wind shield 1112 at intervals, and each second buckle 1117 is clamped with one second clamping hole 215, so as to improve the clamping stability.

In this embodiment, the first wind deflector 1111 and the second wind deflector 1112 are symmetrically arranged, the shape of the first wind deflector 1111 is the same as that of the second wind deflector 1112, the mounting opening 1118 is arranged in the middle of the mounting plate 1113, and the wind wheel 112 is mounted in the mounting opening 1118 to improve the strength of the whole mounting frame 111; the air outlet 211 is disposed on a side of the panel 212 close to the first wind deflector 1111, and the fan 220 is installed in the air outlet 211, that is, the air outlet 211 and the installation opening 1118 are disposed in a staggered manner, and the wind wheel 112 and the fan 220 are disposed in a staggered manner. Specifically, the height of the axis of the wind wheel 112 is equal to the height of the axis of the fan 220, that is, the axis of the wind wheel 112 and the axis of the fan 220 are on the same horizontal plane, so as to reduce the air volume loss transmitted from the fan 220 to the wind wheel 112 as much as possible, improve the rotation efficiency of the wind wheel 112, and thus improve the power generation efficiency. However, the present invention is not limited to this, and in other embodiments, the shape of the first wind deflector 1111 may be different from the shape of the second wind deflector 1112, so that the wind wheel 112 and the fan 220 are coaxially disposed, thereby further reducing the loss of the wind volume and improving the rotation efficiency of the wind wheel 112.

It should be noted that since the bottom plate 213 is located at the lowest position, water is easily accumulated on the bottom plate 213, and in cold weather in winter, if the accumulated water is not discharged in time, the accumulated water may be condensed into ice, thereby affecting the normal operation of the air-conditioning outdoor unit 200. Therefore, in the present embodiment, the electric heating member 140 is fixedly installed on the base plate 213 to heat the base plate 213, so as to melt ice on the base plate 213 and ensure that the air conditioner outdoor unit 200 can operate normally. Specifically, the electric heating element 140 is spirally arranged on the chassis 213, a plurality of wire fixing hooks (not shown) are welded on the chassis 213, and the plurality of wire fixing hooks cooperate to clamp the electric heating element 140 on the chassis 213 so as to fix the relative positions of the electric heating element 140 and the chassis 213, thereby ensuring that the electric heating element 140 can stably and uniformly heat and melt the chassis 213.

In this embodiment, a water channel (not shown) and a water discharge hole (not shown) are formed in the base plate 213, the water channel is communicated with the water discharge hole, the electric heating element 140 can melt ice on the base plate 213 into water to ensure that the air conditioner outdoor unit 200 can operate normally, and the water channel is used for discharging the water after the ice is melted to the outside through the water discharge hole.

The embodiment of the present invention provides the same beneficial effects as the first embodiment, which are not repeated herein.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. The deicing device is characterized by comprising a wind power generation mechanism (110), a storage battery (120), a controller (130) and an electric heating element (140), wherein the wind power generation mechanism (110) is connected with the storage battery (120), the wind power generation mechanism (110) is used for converting wind energy blown out by an air conditioner external unit (200) into electric energy and storing the electric energy in the storage battery (120), the controller (130) is connected with the storage battery (120), the storage battery (120) is connected with the electric heating element (140), the electric heating element (140) is used for being installed in the air conditioner external unit (200), and the controller (130) can control the storage battery (120) to supply power to the electric heating element (140) so that the electric heating element (140) heats and warms up and melts ice of the air conditioner external unit (200).

2. The deicing device according to claim 1, wherein the wind power generation mechanism (110) comprises a mounting frame (111), a wind wheel (112) and a generator (113), the wind wheel (112) is mounted in the mounting frame (111) and can rotate relative to the mounting frame (111), the wind wheel (112) is connected with the generator (113), the generator (113) is connected with the storage battery (120), and the wind wheel (112) can rotate under the action of airflow blown by the air conditioner outdoor unit (200) to enable the generator (113) to generate power.

3. The deicing device according to claim 2, wherein the mounting bracket (111) comprises a first wind deflector (1111), a second wind deflector (1112) and a mounting plate (1113), the first wind deflector (1111) is fixedly connected with the second wind deflector (1112) through the mounting plate (1113), the mounting plate (1113) is provided with a mounting opening (1118), and the wind wheel (112) is mounted in the mounting opening (1118).

4. The deicing device according to claim 3, characterized in that the first wind deflector (1111) is curved and concave in a direction toward the second wind deflector (1112), and the second wind deflector (1112) is curved and concave in a direction toward the first wind deflector (1111).

5. The deicing device according to claim 2, characterized in that the generator (113) is fixedly mounted in the mounting frame (111), the generator (113) is provided with a rotating shaft (1131), and the rotating shaft (1131) is coaxially arranged with the wind wheel (112) and fixedly connected therewith.

6. The deicing device according to claim 1, further comprising a sensor (150), wherein the sensor (150) is connected to the controller (130), the sensor (150) is configured to be installed in the outdoor unit (200) of an air conditioner, and the sensor (150) is capable of sending a first control signal to the controller (130) when the outdoor unit (200) of the air conditioner is sensed to be iced, so that the controller (130) controls the storage battery (120) to supply power to the electric heating element (140).

7. The ice melting apparatus as claimed in claim 1, wherein the electric heating member (140) is connected to an external power source (300), and the external power source (300) can directly supply power to the electric heating member (140).

8. An air conditioner, characterized by comprising an air conditioner outdoor unit (200) and the deicing device as set forth in any one of claims 1 to 7, wherein the air conditioner outdoor unit (200) comprises a panel (212) provided with an air outlet (211), and the position of the air outlet (211) corresponds to the position of the wind power generation mechanism (110).

9. The air conditioner according to claim 8, wherein the wind power generation mechanism (110) is covered outside the panel (212), one end of the wind power generation mechanism (110) is clamped with one end of the panel (212), and the other end of the wind power generation mechanism (110) is clamped with the other end of the panel (212).

10. The air conditioner as claimed in claim 8, wherein the outdoor unit (200) further comprises a bottom chassis (213), the bottom chassis (213) is fixedly connected with the panel (212), and the electric heating element (140) is fixedly mounted on the bottom chassis (213).

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