CN218850422U - Charging stand - Google Patents

Abstract

The utility model discloses a charging seat, include: the supporting seat is arranged on the shell; the heat dissipation assembly is arranged in the shell; the charging assembly is arranged in the shell, one end of the charging assembly is used for being connected with a power supply, and the other end of the charging assembly is used for being connected with electronic equipment; the control assembly is arranged in the shell, the control assembly is electrically connected with the heat dissipation assembly and the charging assembly, and the control assembly is used for adjusting the heat dissipation power of the heat dissipation assembly and/or adjusting the charging power of the charging assembly according to the state information of the electronic equipment. Therefore, the control assembly adjusts the output power of the heat dissipation assembly and/or the charging assembly in real time, and the electronic equipment achieves a better heat dissipation effect.

Description

Charging stand

Technical Field

The utility model belongs to the technical field of the battery charging outfit technique and specifically relates to a charging seat is related to.

Background

Along with the diversification of the functions of the electronic equipment, the use frequency of the electronic equipment is higher and higher, and the power consumption is faster and faster. The high power consumption of electronic devices has led to the frequent need for power replenishment by users of electronic devices. At present, charging devices in various forms exist, and in the process of charging electronic devices, the charging devices can cause the electronic devices to generate heat, so that the electronic devices need to be cooled. However, the current charging device only uses a mode of accelerating the air flow of the heating area to dissipate heat and cool the electronic device or the charging seat, and the heat dissipation effect is poor.

In the related art, most seat chargers do not have self-temperature regulation, the heat productivity of the wireless seat charger can mostly have a heat dissipation device, some are forced heat dissipation, and some are intelligent dynamic heat dissipation. Moreover, the wireless base charger with the self-adaptive heat dissipation device dissipates heat for the base charger, and does not dissipate heat intelligently for the terminal in charging, so that the mobile terminal generates heat seriously when the charging speed is high, the current of the mobile terminal in charging is reduced, the charging power is reduced, and the heating value is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a charging seat includes charging assembly, control assembly and radiator unit, and control assembly can adjust radiator unit's radiating power or adjust charging assembly's charging power according to electronic equipment's state information to reduce electronic equipment temperature.

According to the utility model discloses charging seat, include: the supporting device comprises a shell, a supporting seat and a supporting frame, wherein the shell is provided with the supporting seat; the heat dissipation assembly is arranged in the shell; the charging assembly is arranged in the shell, one end of the charging assembly is used for being connected with a power supply, and the other end of the charging assembly is used for being connected with electronic equipment; the control assembly is arranged in the shell, the control assembly is electrically connected with the heat dissipation assembly and the charging assembly, and the control assembly is used for adjusting the heat dissipation power of the heat dissipation assembly and/or adjusting the charging power of the charging assembly according to the state information of the electronic equipment.

According to the utility model discloses charging seat, through control assembly and radiator unit, the subassembly electricity that charges is connected, after the charging seat established communication through the connection of charging assembly and electronic equipment, control assembly can real-time supervision electronic equipment's state information to adjust in real time radiator unit's radiating power and/or the charging power of charging assembly, can make electronic equipment reach the radiating effect of preferred, guarantee simultaneously that electronic equipment can furthest improve the charging rate, improve charge efficiency, shorten charge time.

According to the utility model discloses a some embodiments, electronic equipment's state information includes temperature information, control assembly is configured to be obtaining temperature information improves when temperature information is greater than the upper limit value of predetermineeing the temperature range radiating component's heat dissipation power, and temperature information is less than reduce when predetermineeing the lower limit value of temperature range radiating component's heat dissipation power.

According to the utility model discloses a some embodiments, electronic equipment's state information includes electric quantity information, control assembly is configured to obtain electric quantity information is in the electric quantity information is closed when full electricity radiating component with the subassembly that charges, and when electric quantity information is in not full electricity and be in temperature information is greater than the upper limit value of predetermineeing the temperature range or is less than and adjusts when predetermineeing the lower limit value of temperature range radiating component's radiating power.

According to some embodiments of the present invention, the control component is configured to obtain the temperature information and reduce the charging power of the charging component when the heat dissipation power of the heat dissipation component reaches a maximum value, and improve the charging power of the charging component when the heat dissipation power of the heat dissipation component falls to a minimum value.

According to some embodiments of the utility model, be provided with on the casing at least three charge button and with the subassembly that charges is connected, at least three charge button includes: a fast charge button, a slow charge button and a normal charge button; and/or, be provided with a plurality of interfaces that charge on the casing, it is a plurality of the interface that charges with the subassembly that charges with the control assembly electricity is connected.

According to some embodiments of the invention, the housing comprises: the charging device comprises a first shell and a second shell, wherein the first shell is fixedly connected with the second shell, the first shell is provided with a supporting seat and an air outlet, the second shell is provided with a containing cavity, and the heat dissipation assembly, the charging assembly and the control assembly are arranged in the containing cavity and towards the air outlet.

According to some embodiments of the present invention, one side of the first housing is provided with a mounting plate, on which a perforation is provided.

According to some embodiments of the present invention, the heat dissipation assembly is one of a heat dissipation fan, a semiconductor heat dissipation device and a water-cooling heat dissipation device.

According to some embodiments of the utility model, the charging seat still includes: the communication assembly is arranged in the shell and electrically connected with the control assembly so as to be used for communicating with the electronic equipment.

According to some embodiments of the utility model, the communication subassembly is wireless communicator, wireless communicator with the control assembly electricity be connected and with electronic equipment carries out wireless connection.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a charging stand according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a charging seat and a mobile terminal according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of a charging seat according to an embodiment of the present invention.

Reference numerals are as follows:

100. a charging seat;

10. a housing; 11. a supporting seat; 12. a charge button; 13. a charging interface; 14. mounting a plate; 15. perforating; 16. an accommodating chamber;

20. a heat dissipating component; 30. a charging assembly; 40. a communication component; 50. a control component;

200. an electronic device; 300. and (4) a power supply.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

The charging stand 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 3.

As shown in fig. 1 and 2, the cradle 100 includes: the shell 10, the heat dissipation assembly 20 and the charging assembly 30 control assembly 50.

Wherein, the housing 10 is provided with a supporting seat 11, and the heat dissipating assembly 20 is disposed in the housing 10. So set up, when electronic equipment 200 need charge, place electronic equipment 200 on supporting seat 11 to open radiating component 20, can make radiating component 20 dispel the heat and cool down electronic equipment 200. And, the supporting seat 11 can be heat conduction material to with the heat conduction of electronic equipment 200 self to the supporting seat 11, because the surface area of supporting seat 11 is greater than the area of contact between electronic equipment 200 and the supporting seat 11, not only can make the supporting seat 11 surface realize quick heat dissipation in the air current like this, can also make supporting seat 11 and electronic equipment 200 effectively cool down under the effect of radiator unit 20, thereby cool down electronic equipment 200 better.

And a charging assembly 30 is disposed in the housing 10, one end of the charging assembly 30 is used for connecting the power supply 300, and the other end is used for connecting the electronic device 200. So set up, the one end of the subassembly 30 that charges is connected in power supply 300, can make power supply 300 charge to the subassembly 30 that charges, makes charging seat 100 store sufficient power, then can make charging seat 100 charge to electronic equipment 200, and convenience of customers removes charging seat 100 and electronic equipment 200 in a flexible way. Alternatively, the charging unit 30 may charge the electronic device 200 while the power supply 300 charges the charging unit 30, and the purpose of charging the electronic device 200 may be similarly achieved. In addition, a charging terminal is provided on the housing 10, so that the charging terminal is connected to the charging assembly 30 in the housing 10, and thus, it can be connected between the power supply 300 and the charging terminal through a charging wire, thereby enabling the power supply 300 to charge the charging stand 100. Alternatively, the charging terminal may be a plug, and the power supply 300 is provided with a socket, and the plug is plugged into the socket, so that the power supply 300 charges the charging stand 100.

In addition, the control component 50 is disposed in the housing 10, the control component 50 is electrically connected to the heat dissipation component 20 and the charging component 30, and the control component 50 is configured to adjust the heat dissipation power of the heat dissipation component 20 and/or adjust the charging power of the charging component 30 according to the status information of the electronic device 200. With this arrangement, after the charging component 30 is connected to the electronic device 200, the charging dock 100 and the electronic device 200 can establish communication, so that the control component 50 can acquire the status information of the electronic device 200, and then the control component 50 can adjust the heat dissipation power of the heat dissipation component 20 according to the status information of the electronic device 200, so that the heat dissipation component 20 can increase or decrease the heat dissipation power of the electronic device 200 appropriately. And, the control component 50 can also adjust the charging power of the charging component 30, so that the charging component 30 can increase or decrease the charging power to the electronic device 200 appropriately, and thus the output power of the heat dissipation component 20 and/or the output power of the charging component 30 can be matched with the state of the electronic device 200, and a better heat dissipation effect and charging state can be achieved.

Note that the cradle 100 is used to charge a battery in the electronic device 200. The electronic device 200 may refer to a mobile terminal including, but not limited to, a smartphone, a computer, a personal digital assistant, a wearable device, a bluetooth headset, a gaming device, a camera device, etc. The charging device may be an adapter, a portable power source (charger), or an in-vehicle charger, which has a function of charging the terminal.

Therefore, through the electrical connection between the control component 50 and the heat dissipation component 20 and the charging component 30, after the connection between the charging component 30 and the electronic device 200 is established, the control component 50 can monitor the status information of the electronic device 200 in real time, so as to adjust the heat dissipation power of the heat dissipation component 20 and/or the charging power of the charging component 30 in real time, so that the electronic device 200 can achieve a better heat dissipation effect, and meanwhile, the electronic device 200 can be ensured to be capable of improving the charging efficiency to the maximum extent and shortening the charging time.

Further, the status information of the electronic device 200 includes temperature information, and the control component 50 is configured to increase the heat dissipation power of the heat dissipation component 20 when the temperature information is greater than the upper limit value of the preset temperature range, and decrease the heat dissipation power of the heat dissipation component 20 when the temperature information is less than the lower limit value of the preset temperature range. It can be understood that the upper limit of the preset temperature range may refer to a maximum temperature value corresponding to the preset temperature range, and the lower limit of the preset temperature range may refer to a maximum temperature value corresponding to the preset temperature range.

That is, after the cradle 100 establishes communication with the electronic device 200, the control component 50 acquires the temperature information of the electronic device 200 and compares the temperature information with the current temperature value of the electronic device 200 according to the preset temperature range. If the temperature information of the electronic device 200 is greater than the upper limit of the preset temperature range, which indicates that the electronic device 200 needs to be cooled, the control component 50 adjusts the heat dissipation power of the heat dissipation component 20, and increases the heat dissipation power to a certain value, thereby increasing the heat dissipation rate of the electronic device 200; if the temperature information of the electronic device 200 is less than the lower limit of the preset temperature range, it indicates that the electronic device 200 does not need to dissipate heat excessively, and the heat dissipation efficiency of the heat dissipation assembly 20 can be reduced appropriately, so that the electronic device 200 can be ensured to be cooled continuously, the temperature of the electronic device 200 is prevented from being too high, and the heat dissipation efficiency of the heat dissipation assembly 20 can be optimized. The temperature information may be temperature information of a battery in the electronic device 200.

The utility model discloses an in the embodiment, it is different according to radiator unit 20's radiating power, can design radiator unit 20 into at least three gear, include: the first gear, the second gear and the third gear respectively correspond to three temperature ranges, namely, the temperature of the electronic device 200 is smaller than the lower limit value of the preset temperature range, the temperature of the electronic device 200 is in the preset temperature range, and the temperature of the electronic device 200 is larger than the upper limit value of the preset temperature range, so that when the temperature of the electronic device 200 is reduced from the preset temperature range to the lower limit value of the preset temperature range, the control component 50 adjusts the heat dissipation power of the heat dissipation component 20 to enable the heat dissipation power to be reduced from the second gear to the first gear, otherwise, when the temperature of the electronic device 200 is increased from the preset temperature range to the upper limit value of the preset temperature range, the control component 50 adjusts the heat dissipation power of the heat dissipation component to enable the heat dissipation power to be increased from the second gear to the third gear, and therefore the heat dissipation power of the heat dissipation component 20 can be adjusted and controlled in real time according to the temperature of the electronic device 200, which not only ensures the heat dissipation effect on the electronic device 200, but also can effectively reduce power loss.

Therefore, the control component 50 can increase or decrease the heat dissipation power of the heat dissipation component 20 according to the acquired temperature information of the electronic device 200 and the preset temperature range, thereby ensuring that the temperature of the electronic device 200 is always maintained within the preset temperature range, effectively improving the heat dissipation effect on the electronic device 200, and reducing power loss.

Further, the status information of the electronic device 200 includes power information, and the control component 50 is configured to obtain the power information and turn off the heat dissipation component 20 and the charging component 30 when the power information is full, and adjust the heat dissipation power of the heat dissipation component 20 when the power information is not full and when the temperature information is greater than an upper limit value of a preset temperature range or less than a lower limit value of the preset temperature range. With such a configuration, when the electric quantity information of the electronic device 200 acquired by the control component 50 is full, the electronic device 200 does not need to be charged, and at this time, the control component 50 turns off the heat dissipation component 20 and the charging component 30; when the electric quantity is in a non-full-charge state, the electronic device 200 needs to be charged, and the control component 50 increases or decreases the heat dissipation power of the heat dissipation component 20 according to the acquired temperature information of the electronic device 200, so as to achieve a better heat dissipation effect.

Further, the control component 50 is configured to decrease the charging power of the charging component 30 when the temperature information is obtained and the heat dissipation power of the heat dissipation component 20 reaches the maximum value, and increase the charging power of the charging component 30 when the heat dissipation power of the heat dissipation component 20 falls to the minimum value. That is, after the control component 50 adjusts the heat dissipation efficiency of the heat dissipation component 20 to the maximum value and operates for a certain period of time, the temperature of the electronic device 200 still cannot be reduced to the preset temperature range, and at this time, the control component 50 is required to adjust the charging power of the charging component 30 and appropriately reduce the charging power, so that the rate of generating heat by the electronic device 200 can be reduced, and the temperature of the electronic device 200 is prevented from being too high. Moreover, after the control component 50 adjusts the heat dissipation efficiency of the heat dissipation component 20 to the minimum value and operates for a certain period of time, the temperature of the electronic device 200 can be effectively reduced to be lower than the lower limit value of the preset temperature, and at this time, the control component 50 can adjust the charging power of the charging component 30, so that the charging power is appropriately increased, thereby increasing the charging rate of the electronic device 200 and shortening the charging time. The charging power may include a charging current and/or a charging voltage, among others. Therefore, through the cooperation of the heat dissipation assembly 20 and the charging assembly 30, the electronic device 200 can achieve a better heat dissipation effect, and the electronic device 200 can improve the charging efficiency to the maximum extent and shorten the charging time.

In addition, the control component 50 is provided with a time relay, the time relay is used for monitoring the heat dissipation time of the heat dissipation component 20, when the heat dissipation power of the heat dissipation component 20 reaches the maximum value and the heat dissipation time is greater than the preset time, the control component 50 reduces the charging power of the charging component 30, so that the rate of heat generation of the electronic device 200 can be reduced, and the electronic device 200 is cooled.

As shown in fig. 1, at least three charging buttons 12 are disposed on the housing 10 and connected to the charging assembly 30, and the at least three charging buttons 12 include: a fast charge button, a slow charge button and a normal charge button; and/or, a plurality of charging interfaces 13 are arranged on the shell 10, and the plurality of charging interfaces 13 are electrically connected with the charging assembly 30 and the control assembly 50.

That is to say, the user can select the charging mode by himself according to the electric quantity information of the electronic device 200, and different charging modes correspond to different charging powers, so that different charging requirements of the user can be met. And, a plurality of charging interfaces 13, for example, micro, type C, lightning, are provided on the case 10. The plurality of charging interfaces 13 can be matched with any kind of electronic device 200, so that the charging dock 100 establishes a connection with the electronic device 200, which enables the control component 50 to directly acquire the status information of the electronic device 200, and the charging component 30 charges the electronic device 200.

Wherein, the housing 10 includes: the charging device comprises a first shell and a second shell, wherein the first shell and the second shell are fixedly connected, a supporting seat 11 and an air outlet (not shown in the drawing) are arranged on the first shell, a containing cavity 16 is arranged on the second shell, a heat dissipation assembly 20, a charging assembly 30 and a control assembly 50 are arranged in the containing cavity 16, and the heat dissipation assembly 20 faces the air outlet. So set up, be provided with radiator unit 20, charging assembly 30 and control assembly 50 in the second casing, be provided with supporting seat 11 and air outlet on first casing, be favorable to the preparation like this and install, conveniently tear open simultaneously and repair. Wherein, radiator unit 20 is towards the air outlet, when electronic equipment 200 charges, places electronic equipment 200 on supporting seat 11 to open radiator unit 20, radiator unit 20 can blow out the air current through the air outlet, thereby can accelerate electronic equipment 200 generate heat regional surrounding air flow, and simultaneously, the produced temperature can be effectively cooled down through the air flow of air outlet department in holding chamber 16. In addition, the supporting base 11 is provided with an opening corresponding to the air outlet, so that the heat dissipation assembly 20 can blow toward the electronic device 200 through the air outlet and the opening.

An attachment plate 14 is provided on one side of the first housing, and a through hole 15 is provided in the attachment plate 14. So set up, after electronic equipment 200 placed on supporting seat 11, the charging wire can pass behind the perforation 15 and be connected with electronic equipment 200, can avoid like this that the part that charging wire and electronic equipment 200 are connected to appear buckling even cracked problem. Of course, the housing 10 includes, but is not limited to, the housing 10 structure described above.

The heat sink 20 is one of a heat sink fan, a semiconductor heat sink, and a water-cooled heat sink. That is, the heat dissipation assembly 20 has a cooling function, and can dissipate heat from the electronic device 200 by any one of a cooling method such as a cooling fan, a water-cooled heat sink, and a semiconductor cooling method, or can dissipate heat from the electronic device 200 by a combination of a plurality of cooling methods such as a cooling fan, a water-cooled heat sink, and a semiconductor cooling method. In addition, the heat dissipation assembly 20 may also be a liquid nitrogen refrigeration assembly, a compressor refrigeration assembly, or the like.

Further, the cradle 100 further includes: a communication component 40, wherein the communication component 40 is disposed in the housing 10 and electrically connected with the control component 50 for communicating with the electronic device 200. With such a configuration, the charging dock 100 establishes communication with the electronic device 200 through the communication component 40, and can acquire the status information of the electronic device 200, and certainly, the electronic device 200 can also acquire the status information of the charging dock 100. The communication module 40 and the electronic device 200 may communicate with each other wirelessly or by wire. The control assembly 50 and the communication assembly 40 can be of an integrated structure, so that the function use is guaranteed, and the installation is convenient.

Specifically, the communication component 40 is a wireless communicator, which is electrically connected to the control component 50 and wirelessly connected to the electronic device 200. So set up, communication subassembly 40 carries out wireless communication with electronic equipment 200, for example, utilizes the bluetooth to connect, can realize the high-speed communication to acquire electronic equipment 200's state information, and needn't design the connecting wire and charge interface 13 structure, make charging seat 100 whole succinct, convenient to use. In addition, the communication mode between the communication module 40 and the electronic device 200 is not limited to the bluetooth protocol, and may also be a WIFI protocol, a ZigBee protocol, or the like.

And, the cradle 100 further comprises: and a charging line having one end for connecting with the electronic device 200 and the other end for connecting with the charging stand 100. In this way, the electronic device 200 can be further connected to the charging cradle 100 through a charging wire, and can transmit the status information of the electronic device 200 to the control component 50, so that the control component 50 adjusts the heat dissipation power of the heat dissipation component 20 and/or the charging power of the charging component 30, and thus the electronic device 200 can achieve the optimal heat dissipation effect and the fastest charging process.

As shown in fig. 3, when the electronic device 200 uses the charging dock 100, it is first determined whether the electronic device 200 supports wireless communication, if so, the electronic device 200 is wirelessly connected to the charging dock 100, and if not, the electronic device 200 is connected to the charging dock 100 by wire; secondly, when the electronic device 200 is connected to the charging dock 100 and then does not establish communication, then the charging dock 100 does not start the heat dissipation mode for the electronic device 200, but only starts the heat dissipation mode for the charging dock 100 itself, when establishing communication between the electronic device 200 and the charging dock 100, so that the charging dock 100 acquires the status information of the electronic device 200, including: electric quantity information, temperature information, and the like; next, whether the electric quantity of the electronic device 200 is in a full-charge state is determined, if the electric quantity is in the full-charge state, the output of the charging dock 100 is turned off, the charging dock 100 is in a standby state, if the electric quantity is in a non-charge state, the charging dock 100 starts to charge, the gear corresponding to the heat dissipation assembly 20 is adjusted according to the temperature interval of the electronic device 200, then the temperature information of the electronic device 200 is continuously monitored or intermittently monitored, the gear of the heat dissipation assembly 20 can be adjusted in real time along with the temperature change of the electronic device 200, so as to improve the heat dissipation power of the heat dissipation assembly 20, and meanwhile, the charging efficiency of the electronic device 200 can be improved. When the temperature of the electronic device 200 is greater than the upper limit value of the preset temperature range, the gear of the heat dissipation assembly 20 is shifted to the third gear, and if the temperature of the electronic device 200 is continuously monitored or monitored at intervals, the charging power of the charging assembly 30 needs to be adjusted by the control assembly 50 to be reduced, even reduced to the minimum power, so that the rate of heat generation of the electronic device 200 can be reduced, and the electronic device 200 is in the optimal charging state.

Therefore, through the electrical connection between the control component 50 and the heat dissipation component 20, the charging component 30 and the communication component 40, after the communication between the communication component 40 and the electronic device 200 is established, the control component 50 can monitor the status information of the electronic device 200 in real time to adjust the heat dissipation power of the heat dissipation component 20 and/or the charging power of the charging component 30 in real time, so that the electronic device 200 can achieve a better heat dissipation effect, and meanwhile, the electronic device 200 can be ensured to improve the charging efficiency to the maximum extent, the charging time is shortened, and the electronic device 200 is always in the best state in the charging process.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A charging stand, comprising:

the device comprises a shell (10), wherein a supporting seat (11) is arranged on the shell (10);

a heat sink assembly (20), the heat sink assembly (20) disposed within the housing (10);

the charging assembly (30), the charging assembly (30) is arranged in the shell (10), one end of the charging assembly (30) is used for connecting a power supply (300) and the other end of the charging assembly is used for connecting an electronic device (200);

the control assembly (50) is arranged in the shell (10), the control assembly (50) is electrically connected with the heat dissipation assembly (20) and the charging assembly (30), and the control assembly (50) is used for adjusting the heat dissipation power of the heat dissipation assembly (20) and/or adjusting the charging power of the charging assembly (30) according to the state information of the electronic equipment (200).

2. The charging dock of claim 1, wherein the status information of the electronic device (200) includes temperature information, and the control component (50) is configured to increase the heat dissipation power of the heat dissipation component (20) when the temperature information is obtained and is greater than an upper limit of a preset temperature range, and to decrease the heat dissipation power of the heat dissipation component (20) when the temperature information is less than a lower limit of the preset temperature range.

3. The charging cradle according to claim 2, wherein the status information of the electronic device (200) comprises power information, the control component (50) is configured to turn off the heat dissipation component (20) and the charging component (30) when the power information is full, and adjust the heat dissipation power of the heat dissipation component (20) when the power information is not full and when the temperature information is greater than an upper limit value of a preset temperature range or less than a lower limit value of the preset temperature range.

4. The charging cradle according to claim 2, wherein the control component (50) is configured to reduce the charging power of the charging component (30) when the temperature information is obtained and when the heat dissipation power of the heat dissipation component (20) reaches a maximum value, and to increase the charging power of the charging component (30) when the heat dissipation power of the heat dissipation component (20) falls to a minimum value.

5. The charging cradle according to claim 1, wherein at least three charging buttons (12) are provided on the casing (10) and connected to the charging assembly (30), the at least three charging buttons (12) comprising: a fast charge button, a slow charge button and a normal charge button; and/or the presence of a gas in the gas,

the shell (10) is provided with a plurality of charging interfaces (13), and the charging interfaces (13) are electrically connected with the charging assembly (30) and the control assembly (50).

6. Charging stand according to claim 1, characterized in that the casing (10) comprises: the air-conditioning charging device comprises a first shell and a second shell, wherein the first shell is fixedly connected with the second shell, the first shell is provided with a supporting seat (11) and an air outlet, the second shell is provided with a containing cavity (16), a heat dissipation assembly (20), a charging assembly (30) and a control assembly (50) are arranged in the containing cavity (16) and the heat dissipation assembly (20) faces the air outlet.

7. Charging stand according to claim 6, characterized in that a mounting plate (14) is arranged on one side of the first housing, and that the mounting plate (14) is provided with perforations (15).

8. The charging dock of claim 1, wherein the heat dissipation assembly (20) is one of a heat dissipation fan, a semiconductor heat dissipation device, and a water-cooled heat dissipation device.

9. The charging dock of claim 1, further comprising: a communication component (40), wherein the communication component (40) is arranged in the shell (10) and electrically connected with the control component (50) for communicating with the electronic device (200).

10. The charging dock of claim 9, wherein the communication component (40) is a wireless communicator, the wireless communicator being electrically connected to the control component (50) and wirelessly connected to the electronic device (200).

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