CN112531840A - Charging call response control method and device - Google Patents

Abstract

The application provides a charging call response control method and device. The charging call response control method comprises the steps of obtaining a charging call signal of equipment to be charged; acquiring a charging priority value according to the charging calling signal; performing charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; and adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity so that the power supply mobile equipment moves the corresponding equipment to be charged and performs charging operation. The charging priority level of the equipment to be charged is obtained through analysis of the charging calling signal, the charging priority level is sorted, the charging sorting feedback quantity of the equipment to be charged is obtained, the moving track of the power supply mobile equipment for providing power for the equipment to be charged is convenient to adjust according to the size of the charging sorting feedback quantity, therefore, the equipment to be charged with higher priority level is convenient to charge, normal operation of the equipment to be charged is ensured, and the use efficiency of the equipment to be charged is improved.

Description

Charging call response control method and device

Technical Field

The present invention relates to the field of charging call technologies, and in particular, to a charging call response control method and apparatus.

Background

With the development of rechargeable devices, more and more users are moving a plurality of electronic devices around, and the electronic devices are gradually separated from the constraint of the wire plug by means of long-time electric energy provided by the charging device in the device, so that each electronic device can move along with the movement of the user without being limited by the length of the wire or the position of the socket, and the rechargeable device is convenient to use in different places.

When the electronic device needs to be charged, the mobile power supply device needs to search for the corresponding charging device to be charged, and the mobile power supply device is born by virtue of a movable control mode, namely, after the device needing to be charged presses a charging request, the mobile power supply device moves from an initial position to the device to be charged.

However, when a plurality of charging devices need to be charged, the mobile power supply device can only be charged mechanically and sequentially, that is, the charging is performed sequentially according to the received charging request time, which results in that some critical electronic devices cannot be used normally, and thus other more devices cannot operate normally, and the use efficiency of the devices is seriously affected.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a charging call response control method and a charging call response control device for improving the service efficiency of charging equipment.

The purpose of the invention is realized by the following technical scheme:

a charging call response control method, comprising: acquiring a charging call signal of a device to be charged; acquiring a charging priority value according to the charging call signal; performing charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; and adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity so that the power supply mobile equipment moves the corresponding equipment to be charged and performs charging operation.

In one embodiment, the obtaining a charging priority value according to the charging call signal includes: performing charging parameter classification operation on the charging call signal to obtain a charging priority parameter; and acquiring the charging priority value according to the charging priority parameter.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out one-class charging classification operation on the charging call signal to obtain the importance level of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out secondary charging classification operation on the charging calling signal to obtain the calling frequency of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out three types of charging classification operations on the charging calling signal to obtain the power consumption value of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and performing four types of charging classification operations on the charging calling signal to obtain the residual electric quantity of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out five types of charging classification operations on the charging calling signal to obtain the movement track distance of the equipment to be charged.

In one embodiment, the performing a charging sorting operation on the charging priority value to obtain a charging sorting feedback quantity includes: and comparing the charging priority value with a preset priority value to obtain the charging sequencing feedback quantity.

In one embodiment, the adjusting the charging movement trajectory of the power supply mobile device according to the charging sequencing feedback quantity includes: and when the charging sequencing feedback quantity is greater than the preset feedback quantity, a charging moving track is newly formulated.

A charging call response control device, comprising: the mobile vehicle comprises a signal receiver, a control mainboard, a charger and a mobile carrier, wherein the signal receiver, the control mainboard and the charger are all arranged on the mobile carrier, and the signal receiver and the charger are all connected with the control mainboard; the signal receiver is used for receiving a charging call signal of the equipment to be charged; the control mainboard is used for acquiring a charging priority value according to the charging calling signal; the control mainboard is also used for carrying out charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; the control main board is further used for adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity; the charger is used for providing electric energy for the equipment to be charged; the mobile carrier is used for moving on a charging moving track.

Compared with the prior art, the invention has at least the following advantages:

the charging priority level of the equipment to be charged is obtained through analysis of the charging calling signal, the charging priority level is sorted, the charging sorting feedback quantity of the equipment to be charged is obtained, the moving track of the power supply mobile equipment for providing power for the equipment to be charged is convenient to adjust according to the size of the charging sorting feedback quantity, therefore, the equipment to be charged with higher priority level is convenient to charge, normal operation of the equipment to be charged is ensured, and the use efficiency of the equipment to be charged is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart illustrating a charging call response control method according to an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a charging call response control method. In one embodiment, the charging call response control method includes: acquiring a charging call signal of a device to be charged; acquiring a charging priority value according to the charging call signal; performing charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; and adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity so that the power supply mobile equipment moves the corresponding equipment to be charged and performs charging operation. The charging priority level of the equipment to be charged is obtained through analysis of the charging calling signal, the charging priority level is sorted, the charging sorting feedback quantity of the equipment to be charged is obtained, the moving track of the power supply mobile equipment for providing power for the equipment to be charged is convenient to adjust according to the size of the charging sorting feedback quantity, therefore, the equipment to be charged with higher priority level is convenient to charge, normal operation of the equipment to be charged is ensured, and the use efficiency of the equipment to be charged is improved.

Please refer to fig. 1, which is a flowchart illustrating a charging call response control method according to an embodiment of the present invention. The charging call response control method includes a part or all of the following steps.

S100: and acquiring a charging call signal of the equipment to be charged.

In this embodiment, the charging call signal is a charging call instruction sent by each device to be charged, for example, a call instruction sent by the device to be charged to a power supply mobile device through the internet, where the charging call instruction includes, in addition to an instruction to be charged, other signal instructions of the device to be charged. Like this, receiving after the calling signal that charges that equipment of waiting to charge sent out, be convenient for know the current demand of charging of equipment of waiting to charge to be convenient for follow-up according to the calling instruction that charges is right equipment of waiting to charge charges fast and in time. In other embodiments, the charging call signal may be sent through control software, for example, an APP application program in the mobile phone terminal. The charging call signal may also be triggered by pressing a charging button on the device to be charged.

S200: and acquiring a charging priority value according to the charging call signal.

In this embodiment, the charging call signal includes various charging priority parameters of the device to be charged, and the charging priority value is converted correspondingly by calculating the charging priority parameter in the charging call signal, that is, at least one charging priority parameter is used as a basis for obtaining the charging priority value. In this way, the charging priority values are correspondingly obtained through conversion of the charging priority parameters, so that the charging priority values serve as the priorities of the devices to be charged, the charging priority levels of the devices to be charged are conveniently sequenced subsequently, the devices to be charged with higher priorities are conveniently charged subsequently in time, the use efficiency of the devices to be charged is improved, and the normal operation of the devices to be charged is ensured.

S300: and carrying out charging sorting operation on the charging priority value to obtain charging sorting feedback quantity.

In this embodiment, the charging sorting operation is to sort the priority of each of the devices to be charged, so that the charging sequence of each of the devices to be charged is accurate. The charging sequencing feedback quantity is a difference value of the charging priority weights, for example, the charging sequencing feedback quantity is a difference value of the charging priority weights of any two devices to be charged, and for example, the charging sequencing feedback quantity is a difference value of the charging priority weight of the device to be charged and a standard charging priority weight. Therefore, after the charging sorting operation of the charging priority value, the priority level of the equipment to be charged is convenient to determine, and the subsequent adjustment of the power supply mobile equipment for moving through the rail is convenient.

S400: and adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity so that the power supply mobile equipment moves the corresponding equipment to be charged and performs charging operation.

In this embodiment, the charging sequencing feedback quantity is a priority level weight of a charging priority weight of the device to be charged, and according to the value of the charging sequencing feedback quantity, it is convenient to determine whether the device to be charged is a device to be charged at a higher level currently, that is, determine whether the device to be charged is a device that needs to be charged more. Therefore, according to the numerical value of the charging sequencing feedback quantity, the adjustment of the charging moving track of the power supply mobile equipment is determined, namely, the charging moving track of the power supply mobile equipment is correspondingly changed under the condition that the charging level of the equipment to be charged is higher, the equipment with the higher charging level is convenient to charge, the normal operation of the equipment to be charged with the higher charging level is ensured, and the use efficiency of the equipment to be charged is further improved.

In one embodiment, the obtaining a charging priority value according to the charging call signal includes: performing charging parameter classification operation on the charging call signal to obtain a charging priority parameter; and acquiring the charging priority value according to the charging priority parameter. In this embodiment, the charging call signal includes a plurality of charging parameters, each charging parameter is responsive to the current charging condition of the device to be charged, and the current charging condition corresponding to each charging parameter is different, that is, by setting the weight or percentage of each charging parameter, at least one of the charging parameters is conveniently used as a basic parameter for obtaining the charging priority. The charging calling signal is subjected to charging parameter classification operation, so that the same charging parameters are classified into the same class, the charging parameters with the same attribute are classified conveniently, and the charging parameter type of the equipment to be charged is determined conveniently. In this way, the priority values are obtained according to the weight values of the charging priority parameters, so that the charging priority values are obtained by acquiring a plurality of charging priority parameters, the charging priority values are convenient to distinguish, the distinguishing degree of the charging priority values is improved, and the high-level weight values of the charging priority values are convenient to screen.

Further, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out one-class charging classification operation on the charging call signal to obtain the importance level of the equipment to be charged. In this embodiment, the first type of charging classification operation is a classification operation on the first type of the charging call signal, that is, a type of charging parameter in the charging call signal is classified, so that the first type of charging parameter in the charging call signal is classified into the same type, and thus the same comparison is performed on the first type of charging parameter in the charging call signal, and the same difference-calculating operation is performed on the first type of charging parameter in the charging call signal, so that the size of the first type of charging parameter in the charging call signal is conveniently distinguished. The class charging classification operation is to classify and compare the equipment importance levels of the equipment to be charged, namely to classify and compare the importance levels of the equipment to be charged. And the importance level is the use importance level of each device to be charged and is used for representing the importance level of each device to be charged in the use process, when the device to be charged is front-end device, the importance level is greater than that of rear-end device, for example, the switching value collector is used as the front-end device of the single chip microcomputer, the use of the single chip microcomputer can be ensured only when the switching value collector is normally used, and if the normal operation of the single chip microcomputer is ensured only but the operation of the switching value collector is not ensured, the acquisition of the signal acquisition amount by the single chip microcomputer is obstructed, that is, the single chip microcomputer cannot normally acquire and operate the signal.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out secondary charging classification operation on the charging calling signal to obtain the calling frequency of the equipment to be charged. In this embodiment, the second-class charging classification operation is a classification operation on the second class of the charging call signal, that is, classifying the second-class charging parameters in the charging call signal, so that the second-class charging parameters in the charging call signal are classified into the same class, thereby making the same comparison on the second-class charging parameters in the charging call signal, facilitating the same difference-finding operation on the second-class charging parameters in the charging call signal, and facilitating the distinction of the sizes of the second-class charging parameters in the charging call signal. The second-class charging classification operation is to classify and compare the device calling frequency of each device to be charged, that is, to classify and compare the calling frequency levels of the devices to be charged. And the calling frequency is the calling and charging speed of each device to be charged, and is used for showing the charging calling emergency degree of each device to be charged in the using process. Therefore, when the charging calling frequency of the equipment to be charged is higher, the charging calling frequency indicates that the equipment to be charged is more required to be charged, and the charging is convenient to timely charge according to the charging calling frequency of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out three types of charging classification operations on the charging calling signal to obtain the power consumption value of the equipment to be charged. In this embodiment, the three types of charging classification operations are classification operations on the third type of the charging call signal, that is, classifying the three types of charging parameters in the charging call signal, so that the three types of charging parameters in the charging call signal are classified into the same type, thereby making the three types of charging parameters in the charging call signal perform the same comparison, facilitating the same difference-finding operation on the three types of charging parameters in the charging call signal, and facilitating the distinction of the three types of charging parameters in the charging call signal. The three types of charging classification operations are to classify and compare power consumption values of the devices to be charged, namely to classify and compare power consumption levels of the devices to be charged. And the power consumption value is the power consumption of each device to be charged and is used for showing the speed of the power consumption of each device to be charged in the using process. Therefore, when the power consumption value of the equipment to be charged is larger, the higher the power consumption of the equipment to be charged is, the more the equipment to be charged needs to be charged in time, and the equipment to be charged can be charged in time according to the power consumption degree of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and performing four types of charging classification operations on the charging calling signal to obtain the residual electric quantity of the equipment to be charged. In this embodiment, the four types of charging classification operations are classification operations of a fourth type of the charging call signal, that is, four types of charging parameters in the charging call signal are classified, so that the four types of charging parameters in the charging call signal are classified into the same type, and therefore the four types of charging parameters in the charging call signal are compared in the same manner, and the four types of charging parameters in the charging call signal are subjected to the same difference-finding operation, so that the four types of charging parameters in the charging call signal are distinguished. The four types of charging classification operations are classified and compared of the residual electric quantity of each device to be charged, namely classified and compared of the operable time of the devices to be charged. And the residual electric quantity is the residual operable electric quantity of each device to be charged and is used for showing the length of the residual operable time of each device to be charged in the using process. Therefore, when the residual electric quantity of the equipment to be charged is smaller, the shorter the operation time of the equipment to be charged is, the more the equipment to be charged needs to be charged in time, and the equipment to be charged can be charged in time according to the residual electric quantity of the equipment to be charged.

In one embodiment, the classifying the charging parameters of the charging call signal to obtain charging priority parameters includes: and carrying out five types of charging classification operations on the charging calling signal to obtain the movement track distance of the equipment to be charged. In this embodiment, the five types of charging classification operations are classification operations on a fifth type of the charging call signal, that is, five types of charging parameters in the charging call signal are classified, so that the five types of charging parameters in the charging call signal are classified into the same type, thereby making the five types of charging parameters in the charging call signal perform the same comparison, facilitating the same difference-finding operation on the five types of charging parameters in the charging call signal, and facilitating the distinction of the magnitudes of the five types of charging parameters in the charging call signal. The five types of charging classification operations are classified and compared according to the movement track distance of the power supply mobile equipment moving to each device to be charged, namely the movement length of the power supply mobile equipment moving to the device to be charged. And the movement track distance is a distance which is required to be moved when the power supply mobile device moves to each device to be charged, and is used for reflecting the distance of the power supply mobile device moving to the corresponding device to be charged. Therefore, when the distance of the moving track of the power supply mobile equipment to the equipment to be charged is smaller, the shorter the distance of the moving track between the equipment to be charged and the power supply mobile equipment is, the convenience is brought to timely charging according to the distance of the moving track of the equipment to be charged, the convenience is brought to charging of the closer equipment to be charged, the number of times of coming and going of the power supply mobile equipment is reduced, and the charging efficiency is improved.

In each of the above examples, the first-class charging classification operation to the fifth-class charging classification operation are adopted to perform classification operations, that is, the charging priority parameters include an important class, a call frequency, a power consumption value, a remaining power amount, and a movement trajectory distance, and weight distribution is performed according to percentages of the charging priority parameters, so that different charging priority parameters have different degrees of influence on the charging priority values, that is, the more important charging priority parameters occupy larger percentages, and the charging priority parameters corresponding to the first-class charging classification operation to the fifth-class charging classification operation can be subjected to level differentiation according to actual conditions, so as to adjust weights of the charging priority parameters of each class.

In one embodiment, the performing a charging sorting operation on the charging priority value to obtain a charging sorting feedback quantity includes: and comparing the charging priority value with a preset priority value to obtain the charging sequencing feedback quantity. In this embodiment, the preset priority value is used as a reference value for determining the magnitude of the charging priority value, that is, the preset priority value is a standard priority value, and the charging priority value is compared with the preset priority value, so as to determine whether the charging priority value is higher or lower than the preset priority value, thereby determining whether there is a difference between the charging priority value and the preset priority value, and further facilitating distinguishing whether the charging priority level of the device to be charged reaches a specified level. Moreover, through the comparison between the charging priority value and the preset priority value, for example, a difference value between the charging priority value and the preset priority value, that is, the charging sequencing feedback quantity is obtained, and the current charging priority level of the device to be charged is conveniently known through determining the charging sequencing feedback quantity, so as to ensure that the device to be charged with the higher charging priority level is charged in time, and thus, the device to be charged with the higher charging priority level is ensured to operate normally.

Further, the adjusting the charging moving track of the power supply mobile device according to the charging sequencing feedback quantity includes: and when the charging sequencing feedback quantity is greater than the preset feedback quantity, a charging moving track is newly formulated. In this embodiment, the charging sequencing feedback quantity is a difference between the charging priority value and the preset priority value, and the preset feedback quantity is obtained by determining the magnitude of the difference, that is, determining the charging priority level of the device to be charged. The charging sequencing feedback quantity is greater than a preset feedback quantity, which indicates that the charging priority level of the device to be charged exceeds the charging level corresponding to the preset feedback quantity, i.e. indicates that the charging priority level of the device to be charged is higher, i.e. indicates that the charging priority level of the current device to be charged is higher than the charging priority levels of other devices to be charged. Therefore, the current equipment to be charged needs to be charged most, and in order to ensure normal operation of the equipment to be charged, the power supply mobile equipment is enabled to charge the current equipment to be charged quickly and timely by reformulating the charging moving track.

It can be understood that, in the actual charging process, the power supply mobile device charges each device to be charged respectively, when the power supply mobile device moves to a device to be charged, which is ready to be charged, for example, when the power supply socket of the power supply mobile device is connected with the charging interface of the device to be charged, if the power supply mobile device receives other charging call signals and the charging priority value corresponding to the charging call signal is larger than the charging priority value of the current device to be charged, the power supply mobile device is easy to remove the charging with the current device to be charged and move to the device to be charged with higher charging priority, which is easy to cause frequent plugging operation of the charging interface of the device to be charged, therefore, the damage probability of the charging interface of the equipment to be charged is increased, and the probability that the equipment to be charged cannot be normally charged is increased.

In order to reduce the damage probability of the device to be charged, the method for adjusting the charging moving track of the power supply mobile device according to the charging sequencing feedback quantity comprises the following steps:

acquiring the discharge interval duration of the power supply mobile equipment;

detecting whether the discharge interval duration is greater than a preset interval duration;

when the discharge interval duration is greater than the preset interval duration, step S400 is performed.

In this embodiment, it does to predetermine the interval duration power supply mobile device treats the charging time interval of battery charging outfit, it does to predetermine the interval duration power supply mobile device normally supplies power to be the power supply time interval, promptly predetermine the interval duration power supply mobile device only carries out the discharge interval duration when electric energy output, and works as when the power supply mobile device removes, the electric energy output port of power supply mobile device will be in the off-state, makes the discharge interval duration of the electric energy output port of power supply mobile device increases, thereby makes the electric energy output port of power supply mobile device is in not discharge state for a long time. This is different from the discharge interval duration of the power output port when the power supply mobile device supplies power to the device to be charged, that is, the discharge interval duration of the power output port of the power supply mobile device when moving is longer than the discharge interval duration of the power output port of the power supply mobile device when other devices are stationary and supplying power to the device to be charged. Therefore, whether the power supply mobile equipment is in a state of supplying power for the equipment to be charged is convenient to determine by comparing the discharge interval duration with the preset interval duration, and when the discharge interval duration is greater than the preset interval duration, the power supply mobile equipment is in a moving state, namely, the power supply mobile equipment is moving to the next equipment to be charged, namely, the power supply mobile equipment is not in a power supply state of the equipment to be charged, at the moment, the charging moving track of the power supply mobile equipment is adjusted only according to the charging sequencing feedback quantity, and the response to the charging calling signal just received is convenient to adjust the moving track corresponding to the charging calling signal with the higher charging priority. In another embodiment, when the discharge interval duration is less than or equal to the preset interval duration, the device to be charged continues to be charged. At this time, the power supply mobile device is already connected with the device to be charged, that is, the power supply socket of the power supply mobile device is already connected with the charging interface of the device to be charged, that is, the power supply mobile device is already charging the device to be charged, so that the power supply mobile device starts or is continuously supplying power to the device to be charged. If the charging priority level corresponding to the received charging call signal sent by the other device to be charged is higher than the charging priority level corresponding to the current device to be charged, the power supply socket of the power supply mobile device is detached from the charging interface of the device to be charged, so that the power supply interface of the power supply mobile device is frequently detached for a long time, and the power supply mobile device is easily damaged. The charging of the current equipment to be charged is completed, and then the other equipment to be charged with high charging priority is charged.

Further, when the charging priority level corresponding to the received charging call signal is far higher than the charging priority level corresponding to the current device to be charged, for example, when the power supply mobile device charges the current device to be charged, the charging priority value corresponding to the received charging call signal is larger. At this time, the urgency of the device to be charged which has sent the charge call signal is much greater than the urgency of the device to be charged which is currently receiving charging. In order to ensure that such devices to be charged operate normally, that is, to ensure that the charging priority value is much larger than the charging priority value corresponding to the current device to be charged, for example, when the power supply mobile device supplies power, the charging sequencing feedback quantity corresponding to the received new charging call signal is larger than the charging sequencing feedback quantity corresponding to the device to be charged currently receiving charging, the charging movement trajectory is adjusted by obtaining the charging quantity of the current device to be charged, specifically including the following steps:

when the discharge interval duration is less than or equal to the preset interval duration, acquiring the energy storage capacity of the current equipment to be charged;

detecting whether the energy storage electric quantity is larger than a preset capacity;

and when the energy storage capacity is larger than the preset capacity, executing the step S400.

In this embodiment, the discharge interval duration is less than or equal to the preset interval duration, which indicates that the power supply mobile device is performing a charging operation, that is, that the power supply mobile device is being connected to the current device to be charged for charging, and the received charging call signal with the higher charging priority needs to be adjusted according to the charging electric quantity of the current device to be charged, so as to ensure that the current device to be charged can normally operate for a sufficient time before the power supply mobile device moves, that is, the charging call signal with the higher charging priority continues to be charged after the charging of the device to be charged is completed. The preset capacity is 60% -80% of the nominal capacity of the current device to be charged, and whether the stored energy capacity is larger than the preset capacity is detected, that is, whether the electric energy stored in the current device to be charged reaches 60% -80% of the nominal capacity is detected, that is, whether the electric energy stored in the current device to be charged can maintain a sufficiently long running time is detected. When the stored energy electric quantity is greater than the preset capacity, the stored electric energy of the current equipment to be charged after charging reaches the preset capacity, and the stored electric energy can be maintained to the completion of charging the power supply mobile equipment for other equipment to be charged with higher charging priority, so that the charging of the current equipment to be charged is continued after the charging of other equipment to be charged with higher charging priority is completed, and therefore the equipment to be charged with higher charging priority can be timely charged to run normally, and the use efficiency of the equipment to be charged is improved.

In the above embodiments, the transmission and reception of each signal is performed by wireless transmission, for example, by using an infrared sensing signal.

The present application further provides a charging call response control device, which is implemented by using the charging call response control method described in any of the above embodiments. In one embodiment, the charging call response control device has a functional module corresponding to each step for implementing the charging call response control method. The charging call response control device comprises a signal receiver, a control mainboard, a charger and a mobile carrier, wherein the signal receiver, the control mainboard and the charger are all arranged on the mobile carrier, and the signal receiver and the charger are all connected with the control mainboard; the signal receiver is used for receiving a charging call signal of the equipment to be charged; the control mainboard is used for acquiring a charging priority value according to the charging calling signal; the control mainboard is also used for carrying out charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; the control main board is further used for adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity; the charger is used for providing electric energy for the equipment to be charged; the mobile carrier is used for moving on a charging moving track. The charging priority level of the equipment to be charged is obtained through analysis of the charging calling signal, the charging priority level is sorted, the charging sorting feedback quantity of the equipment to be charged is obtained, the moving track of the power supply mobile equipment for providing power for the equipment to be charged is convenient to adjust according to the size of the charging sorting feedback quantity, therefore, the equipment to be charged with higher priority level is convenient to charge, normal operation of the equipment to be charged is ensured, and the use efficiency of the equipment to be charged is improved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A charging call response control method, comprising:

acquiring a charging call signal of a device to be charged;

acquiring a charging priority value according to the charging call signal;

performing charging sorting operation on the charging priority value to obtain charging sorting feedback quantity;

and adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity so that the power supply mobile equipment moves the corresponding equipment to be charged and performs charging operation.

2. The charging call response control method according to claim 1, wherein the obtaining a charging priority value according to the charging call signal comprises:

performing charging parameter classification operation on the charging call signal to obtain a charging priority parameter;

and acquiring the charging priority value according to the charging priority parameter.

3. The charging call response control method of claim 2, wherein the classifying the charging parameters of the charging call signal to obtain charging priority parameters comprises:

and carrying out one-class charging classification operation on the charging call signal to obtain the importance level of the equipment to be charged.

4. The charging call response control method of claim 2, wherein the classifying the charging parameters of the charging call signal to obtain charging priority parameters comprises:

and carrying out secondary charging classification operation on the charging calling signal to obtain the calling frequency of the equipment to be charged.

5. The charging call response control method of claim 2, wherein the classifying the charging parameters of the charging call signal to obtain charging priority parameters comprises:

and carrying out three types of charging classification operations on the charging calling signal to obtain the power consumption value of the equipment to be charged.

6. The charging call response control method of claim 2, wherein the classifying the charging parameters of the charging call signal to obtain charging priority parameters comprises:

and performing four types of charging classification operations on the charging calling signal to obtain the residual electric quantity of the equipment to be charged.

7. The charging call response control method of claim 2, wherein the classifying the charging parameters of the charging call signal to obtain charging priority parameters comprises:

and carrying out five types of charging classification operations on the charging calling signal to obtain the movement track distance of the equipment to be charged.

8. The charging call response control method according to claim 1, wherein the performing the charging sort operation on the charging priority value to obtain a charging sort feedback quantity comprises:

and comparing the charging priority value with a preset priority value to obtain the charging sequencing feedback quantity.

9. The charging call response control method of claim 8, wherein the adjusting the charging movement trajectory of the powered mobile device according to the charging sequencing feedback amount comprises:

and when the charging sequencing feedback quantity is greater than the preset feedback quantity, a charging moving track is newly formulated.

10. A charging call response control apparatus, comprising: the mobile vehicle comprises a signal receiver, a control mainboard, a charger and a mobile carrier, wherein the signal receiver, the control mainboard and the charger are all arranged on the mobile carrier, and the signal receiver and the charger are all connected with the control mainboard; the signal receiver is used for receiving a charging call signal of the equipment to be charged; the control mainboard is used for acquiring a charging priority value according to the charging calling signal; the control mainboard is also used for carrying out charging sorting operation on the charging priority value to obtain charging sorting feedback quantity; the control main board is further used for adjusting the charging moving track of the power supply mobile equipment according to the charging sequencing feedback quantity; the charger is used for providing electric energy for the equipment to be charged; the mobile carrier is used for moving on a charging moving track.

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