CN115360799B - Wireless charging power consumption automatic adjustment method and device and intelligent bedside cabinet - Google Patents

Abstract

The application provides a wireless charging power consumption automatic adjustment method and device and an intelligent bedside cabinet, the electric quantity information of access equipment is judged according to temperature information, whether a power consumption automatic adjustment circuit needs to be started or not is judged according to the electric quantity information, if the power consumption automatic adjustment circuit needs to be started, working state parameters are reconfigured, and the wireless charging circuit is operated according to the working state information corresponding to the reconfigured working state parameters. The method and the device have the advantages that the charging electric quantity condition of the current access equipment is presumed by utilizing the temperature information, the demand degree of the charging efficiency can be distinguished, the automatic power consumption adjusting thread is started adaptively according to the charging electric quantity condition, and the automatic power consumption adjustment is completed according to the actual charging demand degree; the power consumption automatic regulating circuit converts the working state information into working state parameters which are convenient for data configuration, and finally achieves the purpose of regulating the working power and the energy consumption of the wireless charging equipment by reconfiguring the working state parameters and operating according to the corresponding working state information.

Description

Wireless charging power consumption automatic adjusting method and device and intelligent bedside cabinet

Technical Field

The application belongs to the technical field of intelligent Internet of things, and particularly relates to a wireless charging power consumption automatic adjusting method and device and an intelligent bedside table.

Background

The wireless charging technology is derived from a wireless power transmission technology and can be divided into a low-power wireless charging mode and a high-power wireless charging mode. Generally, an electromagnetic induction type low-power wireless charging mode is adopted for wireless charging of daily electric appliances such as mobile phones. Along with the increasing maturity of wireless charging technology, wireless charging device application provides convenient service for the user in various intelligent household equipment, for example intelligent bedside cupboard for the user need not the wiring, only need put the cell-phone in the wireless charging region of intelligent household equipment, can accomplish the operation of charging. However, when the user uses the wireless charging device, the charging of the mobile phone may be completed, and the user does not take the mobile phone away in time, so that the mobile phone is still in a charging state, and unnecessary power consumption waste is generated in the power supply.

Disclosure of Invention

In view of this, the application provides a wireless charging power consumption automatic adjustment method, a wireless charging power consumption automatic adjustment device and an intelligent bedside table, which can automatically adjust power according to a charging working state, and effectively reduce the power consumption of a wireless charging power supply.

The specific technical scheme of the application is as follows:

the first aspect of the present application provides a wireless charging power consumption automatic adjustment method, including the following steps:

acquiring temperature information of wireless charging equipment, judging electric quantity information of access equipment according to the temperature information, and judging whether a power consumption automatic regulating circuit needs to be started or not according to the electric quantity information;

if the power consumption automatic adjusting circuit needs to be started, acquiring the current working state information of the wireless charging equipment, carrying out standardization processing to generate working state parameters, reconfiguring the working state parameters, and operating the wireless charging circuit according to the working state information corresponding to the reconfigured working state parameters;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

Further, the step of judging the electric quantity information of the access device according to the temperature information specifically comprises:

acquiring first temperature information of the wireless charging equipment when an induction signal of the access equipment is received;

the second temperature information of the wireless charging equipment is obtained regularly according to a preset time period, and a plurality of second temperature information with the latest time are intercepted;

and calculating a temperature increase rate according to the first temperature information and the plurality of intercepted second temperature information, and judging the electric quantity information of the access equipment according to the temperature increase rate.

Further, judging whether to start the power consumption automatic regulating circuit according to the electric quantity information specifically comprises:

and when the electric quantity information is lower than or higher than a preset electric quantity range, starting the automatic power consumption adjusting circuit, otherwise, keeping the closing state of the automatic power consumption adjusting circuit.

Further, the method also comprises the following steps:

judging whether a power enhancement circuit needs to be started or not according to the electric quantity information;

if the power enhancement circuit needs to be started, acquiring the current power information of the wireless charging equipment, configuring a power weight coefficient according to the stage number of the power information, and introducing the power weight coefficient into the power information to generate enhanced power information;

and operating the wireless charging circuit according to the enhanced power information.

Further, the working state information includes infrared emission frequency, interface transmission data volume, illumination intensity and electric wave propagation frequency, and the working state parameters include user distance parameters, interface transmission parameters, light intensity parameters and electric wave wavelength parameters.

Further, obtaining the current working state information of the wireless charging device and performing standardization processing to generate working state parameters specifically includes:

assigning value to the current working state information of the wireless charging equipment according to a preset threshold value;

and matching and marking power consumption information according to assignments corresponding to the working state information, wherein the working state parameters are a set of the assignments and the marking power consumption information.

Further, reconfiguring the operating state parameter specifically includes:

summing the marking power consumption information in each working state parameter to generate total power consumption information, and configuring a power consumption weight coefficient according to the level of the total power consumption information;

introducing the power consumption weight coefficient into the marking power consumption information in each working state parameter to generate the marking power consumption information after the down regulation, and matching new assignment according to the marking power consumption information after the down regulation;

the reconfigured working state parameters comprise new assignment and adjusted target power consumption information.

Further, the method also comprises the following steps:

judging whether a concentration charging circuit in the power consumption automatic adjusting circuit needs to be started or not according to the electric quantity information;

if the concentration charging circuit needs to be started, the working state parameters are reconfigured as follows:

introducing a power consumption weight coefficient to the marking power consumption information in other working state parameters which do not contain the wave length parameter to generate the marking power consumption information after the down regulation, matching new assignment according to the marking power consumption information after the down regulation, wherein the working state parameters after the reconfiguration comprise the new assignment and the marking power consumption information after the down regulation.

This application second aspect provides a wireless power consumption automatic regulating apparatus that charges, wireless power consumption automatic regulating apparatus that charges includes:

the circuit judgment module is used for acquiring temperature information of the wireless charging equipment, judging electric quantity information of the access equipment according to the temperature information, and judging whether the power consumption automatic regulation circuit needs to be started or not according to the electric quantity information;

the power consumption management module is used for acquiring the current working state information of the wireless charging equipment and carrying out standardization processing to generate working state parameters if the power consumption automatic adjusting circuit needs to be started, reconfiguring the working state parameters and operating the wireless charging circuit according to the working state information corresponding to the reconfigured working state parameters;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

The third aspect of the present application provides an intelligent bedside table, where the intelligent bedside table applies the wireless charging power consumption automatic adjustment method, or includes the wireless charging power consumption automatic adjustment device.

In summary, the present application provides a wireless charging power consumption automatic adjustment method, a wireless charging power consumption automatic adjustment device, and an intelligent bedside table, which determine power information of an access device according to temperature information, determine whether to start an automatic power consumption adjustment circuit according to the power information, and if the automatic power consumption adjustment circuit needs to be started, reconfigure working state parameters and operate a wireless charging circuit according to the working state information corresponding to the reconfigured working state parameters. The method and the device have the advantages that the charging electric quantity condition of the current access equipment is presumed by utilizing the temperature information, the demand degree of the charging efficiency can be distinguished, the automatic power consumption adjusting thread is started adaptively according to the charging electric quantity condition, and the automatic power consumption adjustment is completed according to the actual charging demand degree; the power consumption automatic adjusting circuit firstly converts the acquired working state information into working state parameters which are convenient for data configuration, and then the aim of adjusting the working power and the energy consumption of the wireless charging equipment is finally achieved by reconfiguring the working state parameters and operating according to the corresponding working state information.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a flowchart of an automatic adjustment method for wireless charging power consumption in an embodiment of the present application;

fig. 2 is a block diagram of an automatic wireless charging power consumption adjustment device in an embodiment of the present application.

Detailed Description

In order to make the objects, features and advantages of the present application more obvious and understandable, the technical solutions in the embodiments of the present application are clearly and completely described, and it is obvious that the embodiments described below are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Referring to fig. 1, fig. 1 is a flowchart illustrating a method for automatically adjusting wireless charging power consumption according to an embodiment of the present disclosure.

A first aspect of an embodiment of the present application provides a method for automatically adjusting wireless charging power consumption, including the following steps:

s1: acquiring temperature information of wireless charging equipment, judging electric quantity information of access equipment according to the temperature information, and judging whether a power consumption automatic regulating circuit needs to be started or not according to the electric quantity information;

s2: if the power consumption automatic adjusting circuit needs to be started, acquiring the current working state information of the wireless charging equipment, carrying out standardization processing to generate working state parameters, reconfiguring the working state parameters, and operating the wireless charging circuit according to the working state information corresponding to the reconfigured working state parameters;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

The temperature information refers to a temperature condition of a core operating component of the wireless charging device in an operating state, and can be directly measured by using a temperature sensor. The charging electric quantity condition of the current access equipment is presumed by utilizing the temperature information, the demand degree of the charging efficiency can be distinguished, an automatic power consumption adjusting thread is started according to the charging electric quantity condition, and automatic power consumption adjustment is completed according to the actual charging demand degree. The power consumption automatic adjusting circuit firstly converts the acquired working state information into working state parameters which are convenient for data configuration, and then the aim of adjusting the working power and the energy consumption of the wireless charging equipment is finally achieved by reconfiguring the working state parameters and operating according to the corresponding working state information. The working state information refers to the operating data of each working component in the working state, and the working state parameters refer to the environmental data, the power consumption data and the like generated after the operating parameters are analyzed.

According to the embodiment of the application, the step of judging the electric quantity information of the access device according to the temperature information specifically comprises the following steps:

acquiring first temperature information of the wireless charging equipment when an induction signal of the access equipment is received;

the second temperature information of the wireless charging equipment is obtained at regular time according to a preset time period, and a plurality of second temperature information with the latest time are intercepted;

and calculating a temperature increase rate according to the first temperature information and the plurality of intercepted second temperature information, and judging the electric quantity information of the access equipment according to the temperature increase rate.

It should be noted that the temperature increase rate may be obtained by uniformly subtracting the background interference of the first temperature information from the second temperature information, and then calculating an average increase rate of several second temperature information with the latest time, and the preset time period may be set to 1min. For example, when the charging of the access device is detected, and the temperature sensor is read, if the temperature increase rate is greater than zero or the second temperature information reaches a high peak value, it is determined that the access device is in the low-battery charging mode, i.e., the battery value is less than 80%. And if the temperature increase rate is less than zero and greater than-1 ℃/min, judging that the charging mode is in a low-electricity charging mode, namely the electric quantity value is greater than 80%. And if the temperature increase rate is less than zero and less than-1 ℃/min or the second temperature information reaches the first temperature information, judging that the full charge mode is adopted, namely the electric quantity value is 100%.

According to the embodiment of the application, judging whether the power consumption automatic regulating circuit needs to be started or not according to the electric quantity information specifically comprises the following steps:

and when the electric quantity information is lower than or higher than a preset electric quantity range, starting the automatic power consumption adjusting circuit, otherwise, keeping the closing state of the automatic power consumption adjusting circuit.

The preset electric quantity range can be set to 80 to 99%. And if the power supply is judged to be in the high-power mode, namely the power information is in the preset power range, the low-power-consumption working thread of the modulation power supply is not started. And if the power supply is judged to be in the low power mode or the full charge mode, namely the power information is lower than or higher than the preset power range, starting the low-power-consumption working thread of the modulation power supply.

According to the embodiment of the application, the method further comprises the following steps:

judging whether a power enhancement circuit needs to be started or not according to the electric quantity information;

if the power enhancement circuit needs to be started, acquiring the power information of the current wireless charging equipment, configuring a power weight coefficient according to the stage number of the power information, and introducing the power weight coefficient into the power information to generate enhanced power information;

and operating the wireless charging circuit according to the enhanced power information.

It should be noted that the basic principle of the power boost circuit is to activate a power amplifier to boost the power of the wireless transmitting coil, so as to enlarge the wireless induction range or the wireless charging rate by boosting the power. The power information refers to the power of a wireless transmitting coil, and the enhancement amplitude is controlled through the level of the current power information, so that the power increase is smoother and conforms to the actual use condition. For example, the power information indicates 10 to 15w, the power weighting factor is 1.3, and the power information indicates 5 to 10w, the power weighting factor is 1.1.

According to the embodiment of the application, the working state information comprises infrared emission frequency, interface transmission data volume, illumination intensity and electric wave propagation frequency, and the working state parameters comprise a user distance parameter, an interface transmission parameter, a light intensity parameter and an electric wave wavelength parameter.

It should be noted that the infrared emission frequency, the interface transmission data amount, the illumination intensity, and the radio wave propagation frequency respectively represent corresponding operating parameters of the wireless charging device in the operating state, that is, external output parameters, such as external infrared emission frequency detected by an infrared sensor, data transmission data amount detected by a bluetooth interface, external illumination intensity detected by a light sensor, and radio wave propagation frequency detected by a radio wave detector. Because the working state information of the working assembly is interfered by environmental factors in the wireless charging process, namely the environmental factors are used as independent variables, and the working state information is used as dependent variables, the working assembly is driven to change power and occupy part of working energy consumption. The corresponding environmental factors, i.e. the working state parameters, are the user distance parameter, the interface transmission parameter, the light intensity parameter and the electric wave wavelength parameter, wherein the electric wave wavelength parameter is caused by the common influence of the environmental factors and the radio wave emission (main factors), and the rest parameters are caused by the environment directly. For example, if there is data transmission in the wireless charging process, the access device may affect the data transmission efficiency required by the wireless charging device to operate, and further change the operating power of the corresponding operating component. As another example, radio waves are electromagnetic waves in the radio frequency band that propagate in free space (including air and vacuum). The shorter the wavelength and the higher the frequency of the radio wave, the more information is transmitted in the same time and the corresponding power is larger.

According to the embodiment of the application, obtaining the current working state information of the wireless charging device and performing standardization processing to generate the working state parameters specifically comprises the following steps:

assigning value to the current working state information of the wireless charging equipment according to a preset threshold value;

and matching and marking power consumption information according to assignments corresponding to the working state information, wherein the working state parameters are a set of the assignments and the marking power consumption information.

It should be noted that, for example, if the infrared emission frequency exceeds a preset threshold, the working state information is assigned, for example, it is determined that a user is assigned with 1 in a room, and the matching preset target power consumption information is 1, and on the contrary, it is determined that no user is assigned with 0 in the room, and the matching preset target power consumption information is 0.5; if the interface transmission data volume exceeds a preset threshold value, judging that the data transmission assignment is 1, matching preset target power consumption information is 1, and otherwise, judging that no data transmission assignment is 0, and matching preset target power consumption information is 0.5; if the illumination intensity exceeds the preset threshold value, judging that the illumination assignment is 1, and matching the preset target power consumption information is 1, otherwise, judging that the illumination assignment is 0, and matching the preset target power consumption information is 0.5.

As for the wave wavelength parameter, a formula λ = 1/fx √ μ ∈ is obtained by a formula λ = V/f and a formula V =1/√ μ ∈, where λ is a wave wavelength, V is a propagation velocity, f is a frequency, μ is a permeability coefficient of air, and ∈ is a dielectric constant. Assume in short wavelength mode: μ is 1, ε is 1, f is 120kHz, calculated as λ = 1/fx × √ μ ε =1/√ 120; assume in medium wavelength mode: μ is 1, ε is 1, f is 6766kHz, calculated as λ = 1/fx √ μ ε =1/√ 6766; assume in long wavelength mode: μ is 1, ε is 1, f is 13556kHz, λ = 1/fx × √ μ ε =1/√ 13556 is calculated. The use frequency of the mobile and portable wireless charging equipment is 100 to 148.5kHz, 6765 to 6795kHz, and 13553 to 13567kHz. Therefore, if the radio wave propagation frequency is greater than or equal to 100 and less than or equal to 148.5 (unit: kHz), the current short-wavelength mode is judged to be assigned as 1, and the preset mark power consumption information is matched as 1; if the radio wave propagation frequency is greater than or equal to 6765 and less than or equal to 6795 (unit: kHz), judging that the current medium wavelength mode is assigned to be 2, and matching preset target power consumption information to be 0.8; if the radio wave propagation frequency is not less than 13553 and not more than 13567 (unit: kHz), it is determined that the current long wavelength mode is assigned as 3, and the matching preset default power consumption information is 0.5.

According to the embodiment of the application, the reconfiguring the working state parameters specifically comprises:

summing the marking power consumption information in each working state parameter to generate total power consumption information, and configuring a power consumption weight coefficient according to the level of the total power consumption information;

introducing the power consumption weight coefficient into the marking power consumption information in each working state parameter to generate marking power consumption information after down regulation, and matching new assignment according to the marking power consumption information after down regulation;

the reconfigured working state parameters comprise new assignment and adjusted target power consumption information.

It should be noted that, the current total power consumption information is calculated by marking the power consumption information, the current power consumption level is analyzed according to the total power consumption information, and the power consumption weight coefficient is configured to uniformly reduce the working power of each working component, so that the reduction range can be increased under the condition of higher power consumption, and the reduction range can be alleviated under the condition of lower power consumption, thereby achieving the dynamic regulation effect. For example, if the current value of each operating state parameter is (1, 1) and the power consumption information is 1+1=4, it is determined that the operating mode is in the high power operating mode, the configured power consumption weight is 0.8, and the target power consumption information generated and adjusted by introducing the power consumption weight coefficient is 0.8+0.8=3.2. At the moment, the nearest assignment is matched by adopting each piece of down-regulated marking power consumption information, and the new assignment is matched to be (1, 2), namely, the radio wave propagation frequency in the working state information is adjusted to be greater than or equal to 6765 and less than or equal to 6795 (unit: kHz) so as to meet the new assignment in the working state parameters.

According to the embodiment of the application, the method further comprises the following steps:

judging whether a concentration charging circuit in the power consumption automatic adjusting circuit needs to be started or not according to the electric quantity information;

if the concentration charging circuit needs to be started, the working state parameters are reconfigured as follows:

introducing a power consumption weight coefficient to the marking power consumption information in other working state parameters which do not contain the wave length parameter to generate the marking power consumption information after the down regulation, matching new assignment according to the marking power consumption information after the down regulation, wherein the working state parameters after the reconfiguration comprise the new assignment and the marking power consumption information after the down regulation.

It should be noted that the dedicated charging circuit is used to reduce unnecessary power consumption while ensuring charging efficiency in the case where the power of the access device is lower, and for example, the dedicated charging circuit is activated when the power information is lower than 30%. Since only the wave wavelength parameter among the operating state parameters is an independent variable parameter, the output of the independent variable parameter directly acts on the wireless charging. After the total power consumption information is calculated in the charging circuit, a power consumption weight coefficient is introduced only for the marking power consumption information of the working state parameters except for the wavelength parameter of the electric wave, for example, the marking power consumption information is respectively 1+0.5=3.5, the configured power consumption weight is 0.5, the power consumption weight coefficient is introduced to generate the down-regulated nominal power consumption information of 0.5+0.5=2, and the new assignment is matched to be (0, 2), namely, the operating parameters such as the infrared emission frequency, the interface transmission data volume, the illumination intensity and the like in the working state information are adjusted.

Referring to fig. 2, fig. 2 is a block diagram of an automatic adjusting device for wireless charging power consumption according to an embodiment of the present disclosure.

A second aspect of the embodiments of the present application provides a wireless charging power consumption automatic regulating apparatus, including:

the circuit judging module 1 is used for acquiring temperature information of the wireless charging equipment, judging electric quantity information of the access equipment according to the temperature information, and judging whether a power consumption automatic regulating circuit needs to be started or not according to the electric quantity information;

the power consumption management module 2 is configured to, if the power consumption automatic adjustment circuit needs to be started, obtain current working state information of the wireless charging device, perform standardization processing to generate working state parameters, reconfigure the working state parameters, and operate the wireless charging circuit according to the working state information corresponding to the reconfigured working state parameters;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

According to an embodiment of the present application, the circuit determination module is specifically configured to:

acquiring first temperature information of the wireless charging equipment when an induction signal of the access equipment is received;

the second temperature information of the wireless charging equipment is obtained at regular time according to a preset time period, and a plurality of second temperature information with the latest time are intercepted;

and calculating a temperature increase rate according to the first temperature information and the plurality of intercepted second temperature information, and judging the electric quantity information of the access equipment according to the temperature increase rate.

According to an embodiment of the present application, the circuit determination module is specifically configured to:

and when the electric quantity information is lower than or higher than a preset electric quantity range, starting the automatic power consumption adjusting circuit, otherwise, keeping the power consumption adjusting circuit in a closed state.

According to an embodiment of the present application, the circuit determination module is further configured to:

judging whether a power enhancement circuit needs to be started or not according to the electric quantity information;

the power consumption management module is further configured to:

if the power enhancement circuit needs to be started, acquiring the power information of the current wireless charging equipment, configuring a power weight coefficient according to the stage number of the power information, and introducing the power weight coefficient into the power information to generate enhanced power information;

and operating the wireless charging circuit according to the enhanced power information.

According to the embodiment of the application, the working state information comprises infrared emission frequency, interface transmission data volume, illumination intensity and electric wave propagation frequency, and the working state parameters comprise user distance parameters, interface transmission parameters, light intensity parameters and electric wave wavelength parameters.

According to an embodiment of the present application, the power consumption management module is specifically configured to:

assigning the current working state information of the wireless charging equipment according to a preset threshold value;

and matching the marking power consumption information according to the assignment corresponding to each piece of working state information, wherein the working state parameters are a set of the assignment and the marking power consumption information.

According to an embodiment of the present application, the power consumption management module is specifically configured to:

summing the marking power consumption information in each working state parameter to generate total power consumption information, and configuring a power consumption weight coefficient according to the level of the total power consumption information;

introducing the power consumption weight coefficient into the marking power consumption information in each working state parameter to generate marking power consumption information after down regulation, and matching new assignment according to the marking power consumption information after down regulation;

the reconfigured working state parameters comprise new assignment and adjusted target power consumption information.

According to an embodiment of the present application, the circuit determination module is further configured to:

judging whether a concentration charging circuit in the power consumption automatic adjusting circuit needs to be started or not according to the electric quantity information;

the power consumption management module is further configured to:

if the concentration charging circuit needs to be started, the working state parameters are reconfigured as follows:

introducing a power consumption weight coefficient to the marking power consumption information in other working state parameters which do not contain the wave length parameter to generate the marking power consumption information after the down regulation, matching new assignment according to the marking power consumption information after the down regulation, wherein the working state parameters after the reconfiguration comprise the new assignment and the marking power consumption information after the down regulation.

A third aspect of the embodiments of the present application provides an intelligent bedside table, where the intelligent bedside table applies the wireless charging power consumption automatic adjustment method, or includes the wireless charging power consumption automatic adjustment device.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present application.

Claims (7)

1. A wireless charging power consumption automatic adjustment method is characterized by comprising the following steps:

acquiring temperature information of wireless charging equipment, judging electric quantity information of access equipment according to the temperature information, and judging whether a power consumption automatic regulating circuit needs to be started or not according to the electric quantity information;

if the power consumption automatic adjusting circuit needs to be started, acquiring current working state information of the wireless charging equipment, performing standardization processing to generate working state parameters, wherein the working state information comprises infrared emission frequency, interface transmission data volume, illumination intensity and radio wave propagation frequency, the working state parameters comprise user distance parameters, interface transmission parameters, light intensity parameters and radio wave wavelength parameters, the working state parameters are reconfigured, and the wireless charging circuit is operated according to the working state information corresponding to the reconfigured working state parameters, and the method specifically comprises the following steps:

assigning values to the current working state information of the wireless charging equipment according to a preset threshold value, matching and marking power consumption information according to the assignment corresponding to each working state information, wherein the working state parameters are a set of the assignment and the marking power consumption information;

summing the marking power consumption information in each working state parameter to generate total power consumption information, configuring a power consumption weight coefficient according to the grade of the total power consumption information, introducing the power consumption weight coefficient into the marking power consumption information in each working state parameter to generate down-regulated marking power consumption information, matching new assignment according to the down-regulated marking power consumption information, and configuring the new working state parameters to comprise the new assignment and the down-regulated marking power consumption information;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

2. The method according to claim 1, wherein the step of determining the power information of the access device according to the temperature information specifically comprises:

acquiring first temperature information of the wireless charging equipment when an induction signal of the access equipment is received;

the second temperature information of the wireless charging equipment is obtained at regular time according to a preset time period, and a plurality of second temperature information with the latest time are intercepted;

and calculating a temperature increase rate according to the first temperature information and the plurality of intercepted second temperature information, and judging the electric quantity information of the access equipment according to the temperature increase rate.

3. The method according to claim 1, wherein the step of determining whether the power consumption automatic adjustment circuit needs to be started according to the power information specifically comprises:

and when the electric quantity information is lower than or higher than a preset electric quantity range, starting the automatic power consumption adjusting circuit, otherwise, keeping the closing state of the automatic power consumption adjusting circuit.

4. The method for automatically adjusting wireless charging power consumption according to claim 1, further comprising:

judging whether a power enhancement circuit needs to be started or not according to the electric quantity information;

if the power enhancement circuit needs to be started, acquiring the current power information of the wireless charging equipment, configuring a power weight coefficient according to the stage number of the power information, and introducing the power weight coefficient into the power information to generate enhanced power information;

and operating the wireless charging circuit according to the enhanced power information.

5. The method for automatically adjusting wireless charging power consumption according to claim 1, further comprising:

judging whether a concentration charging circuit in the power consumption automatic adjusting circuit needs to be started or not according to the electric quantity information;

if the concentration charging circuit needs to be started, the working state parameters are reconfigured as follows:

and introducing a power consumption weight coefficient into the marking power consumption information in other working state parameters which do not contain the wave length parameter to generate the marking power consumption information after the down-regulation, matching new assignment according to the marking power consumption information after the down-regulation, wherein the working state parameters after the reconfiguration comprise the new assignment and the marking power consumption information after the down-regulation.

6. The utility model provides a wireless power consumption automatic regulating apparatus that charges which characterized in that, wireless power consumption automatic regulating apparatus that charges includes:

the circuit judgment module is used for acquiring temperature information of the wireless charging equipment, judging electric quantity information of the access equipment according to the temperature information, and judging whether the power consumption automatic regulation circuit needs to be started or not according to the electric quantity information;

the power consumption management module is configured to, if the power consumption automatic adjustment circuit needs to be started, acquire current working state information of the wireless charging device and perform standardization processing to generate working state parameters, where the working state information includes infrared emission frequency, interface transmission data volume, illumination intensity and radio wave propagation frequency, the working state parameters include a user distance parameter, an interface transmission parameter, a light intensity parameter and a radio wave wavelength parameter, and the working state parameters are reconfigured and the wireless charging circuit is operated according to the working state information corresponding to the reconfigured working state parameters, specifically:

assigning values to the current working state information of the wireless charging equipment according to a preset threshold value, matching and marking power consumption information according to the assignment corresponding to each working state information, wherein the working state parameters are a set of the assignment and the marking power consumption information;

summing the mark power consumption information in each working state parameter to generate total power consumption information, configuring a power consumption weight coefficient according to the grade of the total power consumption information, introducing the power consumption weight coefficient into the mark power consumption information in each working state parameter to generate adjusted mark power consumption information, matching new assignment according to the adjusted mark power consumption information, and enabling the reconfigured working state parameter to comprise new assignment and adjusted mark power consumption information;

and if the power consumption automatic adjusting circuit does not need to be started, operating the wireless charging circuit according to the current working state information of the wireless charging equipment.

7. An intelligent bedside table, characterized in that the intelligent bedside table applies the wireless charging power consumption automatic adjusting method according to any one of claims 1 to 5, or comprises the wireless charging power consumption automatic adjusting device according to claim 6.

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