Powering apparatus, method and system for a wireless network device

Abstract

The application discloses a power supply device, method and system of a wireless network device, comprising a control device, a power supply device and at least one load power supply device; any load power supply device comprises a first controlled module and a load module connected with the first controlled module; the power supply device is connected with the control device and the first controlled module respectively; the control device is configured to acquire power supply parameters of the power supply device; wherein the power supply parameters at least comprise a power supply type and a power supply power range of the power supply device; at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database according to the power supply parameters, so as to take the load module corresponding to the at least one first controlled module as a power supply object of the power supply device. The embodiment of the application can meet different requirements of different wireless network devices on a power supply end, thereby solving the problem of insufficient power supply and improving the power supply energy-saving effect.

Description

Technical Field

[0001] This invention relates to the field of power supply technology, and in particular to a power supply device, method and system for wireless network equipment. Background Technology

[0002] With the rapid development of network technology and the increasing demand for networks, wireless network devices are becoming more and more functional and consume more and more power, which in turn increases the demand for power supply. However, due to the insufficient performance of the power supply, it is unable to meet the different power supply requirements of different wireless network devices. Summary of the Invention

[0003] The purpose of this invention is to provide a power supply device, method, and system for wireless network devices, which can meet the different requirements of different wireless network devices for the power supply end, thereby solving the problem of insufficient power supply and improving the energy-saving effect of power supply.

[0004] To achieve the above objectives, embodiments of the present invention provide a power supply device for a wireless network device, comprising:

[0005] Control device, power supply device, and at least one load power supply device;

[0006] Any of the aforementioned load power supply devices includes a first controlled module and a load module connected to the first controlled module;

[0007] The power supply device is connected to the control device and the first controlled module respectively;

[0008] The control device is configured as follows:

[0009] Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device;

[0010] Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so that the load module corresponding to the at least one first controlled module corresponding to the power supply parameters is used as the power supply object of the power supply device.

[0011] As an improvement to the above solution, the control device is also connected to the load module.

[0012] As an improvement to the above solution, the control device is further configured as follows:

[0013] Obtain the load operating status of the load module;

[0014] Based on the load operating state and the power supply parameters, at least one first controlled module corresponding to the load operating state and the power supply parameters is obtained from a preset second matching database, so that the load module corresponding to the at least one first controlled module corresponding to the load operating state and the power supply parameters is used as the power supply object of the power supply device.

[0015] As an improvement to the above solution, any of the load power supply devices further includes at least one second controlled module;

[0016] The load module includes at least one functional unit, and the functional unit is connected to the second controlled module in a one-to-one correspondence.

[0017] The control device is also connected to the load module and the second controlled module, respectively.

[0018] As an improvement to the above solution, the control device is further configured as follows:

[0019] Obtain the functional operating status of the functional unit;

[0020] Based on the functional operating state and the power supply parameters, at least one second controlled module corresponding to the functional operating state and the power supply parameters is obtained from a preset third matching database, so as to use the functional unit corresponding to the at least one second controlled module corresponding to the functional operating state and the power supply parameters as the power supply object of the power supply device.

[0021] As an improvement to the above solution, the control device is further configured as follows:

[0022] Obtain the load operating status of the load module;

[0023] Based on the load operating state, the power supply type matching the load operating state is obtained from a preset fourth matching database, so as to control the power supply device to supply power according to the power supply type.

[0024] As an improvement to the above solution, the control device is further configured as follows:

[0025] Obtain first load information of the load module and first client information of the clients connected to the load module; wherein, the first load information includes the SSID value of the load module, and the first client information includes the total number of clients;

[0026] When the first load information and the first client information meet the preset first migration conditions, the client is migrated to the preset first load module, and the state of the first controlled module is set so that the first load module is used as the power supply object of the power device.

[0027] As an improvement to the above solution, the control device is further configured as follows:

[0028] Obtain the second load information of the load module and the second client information of the clients connected to the load module; wherein, the second load information includes the SSID value of the load module, and the second client information includes the total number of clients;

[0029] When the second load information and the second client information meet the preset second migration conditions, the client is migrated to the preset second load module, and the state of the second controlled module is set so as to retain only the wake-up function units of other load modules.

[0030] As an improvement to the above solution, the control device is further configured as follows:

[0031] Obtain first user configuration information; wherein, the first user configuration information includes at least a preset first time and a preset third load module;

[0032] The third load module queries a preset fifth matching database to obtain at least one first controlled module corresponding to the third load module, so as to use the third load module as the power supply object of the power device within the first time period.

[0033] As an improvement to the above solution, the control device is further configured as follows:

[0034] Obtain second user configuration information; wherein the second user configuration information includes at least a preset second time and a preset fourth load module;

[0035] According to the fourth load module, at least one second controlled module corresponding to the fourth load module is obtained from the preset sixth matching database, so that the fourth load module is used as the power supply object of the power supply device during the second time period.

[0036] To achieve the above objectives, embodiments of the present invention also provide a power supply method for a wireless network device, applied to the power supply apparatus for the aforementioned wireless network device, the power supply method for the wireless network device comprising:

[0037] Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device;

[0038] Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so that the load module corresponding to the at least one first controlled module corresponding to the power supply parameters is used as the power supply object of the power supply device.

[0039] To achieve the above objectives, embodiments of the present invention also provide a power supply system for a wireless network device, including the power supply device for the wireless network device as described above.

[0040] Compared with existing technologies, the power supply device, method, and system for wireless network devices provided in this invention, by setting up a control device, a power supply device, a first controlled module, and a load module, allows the power supply device to obtain power supply parameters when the power supply device supplies power to the load module through the first controlled module. Based on these parameters, the corresponding first controlled module is then selected, and the load module corresponding to that first controlled module is used as the power supply target of the power supply device. This satisfies the different power supply requirements of various wireless network devices. Furthermore, this invention configures the power supply target of the power supply device according to the load's operating state and functional operating state, ensuring that the load is not restricted in its use. Therefore, this invention can solve the problem of insufficient power supply, improve energy-saving performance, and achieve bidirectional management of the power supply and load ends. Attached Figure Description

[0041] Figure 1 This is a structural block diagram of a preferred embodiment of a power supply device for a wireless network device provided by the present invention;

[0042] Figure 2 This is a structural block diagram of a preferred embodiment of a power supply device for a wireless network device provided by the present invention;

[0043] Figure 3 This is a flowchart of a preferred embodiment of a power supply method for a wireless network device provided by the present invention. Detailed Implementation

[0044] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0045] It is understood that in the description of this invention, the numbers containing the character "#", such as "1#", "2#", "11#", and "12#", are only used to distinguish the described objects and do not have any sequential or technical meaning. They should not be construed as specifying or implying the importance of the described objects.

[0046] See Figure 1 , Figure 1 This is a structural block diagram of a preferred embodiment of a power supply device for a wireless network device provided by the present invention. The power supply device for the wireless network device includes:

[0047] 2. Control device; 1. Power supply device; 3. At least one load power supply device.

[0048] Any of the load power supply devices 3 includes a first controlled module 31 and a load module 32 connected to the first controlled module;

[0049] The power supply device 1 is connected to the control device 2 and the first controlled module 31 respectively;

[0050] The control device 2 is configured as follows:

[0051] Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device;

[0052] Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so that the load module corresponding to the at least one first controlled module corresponding to the power supply parameters is used as the power supply object of the power supply device.

[0053] Optionally, the power supply device includes at least one of the following: a DC power supply module, a PoE power supply module, a USB power supply module, and an AC power supply module. It is understood that the power supply range is equivalent to the power supply level.

[0054] Optionally, the first controlled module includes at least one of the following: a voltage converter and a controlled switch; it is understood that, in the embodiments of the present invention, the connection and disconnection between the power supply device and the load module are controlled by controlling the enabled state of the voltage converter or the open / closed state of the controlled switch, so as to use the corresponding load module as the power supply object of the power supply device.

[0055] It is understandable that the first matching database is the correspondence between power supply parameters and the first controlled module.

[0056] For example, a power supply device for a wireless network device includes a DC power supply module, a PoE power supply module, a control module, a first controlled module 1# and a load module 1# connected thereto, a first controlled module 2# and a load module 2# connected thereto, a first controlled module 3# and a load module 3# connected thereto, and the DC power supply module provides 12V 1A DC 12W power supply, and the PoE power supply module can provide 802.3af PoE 12.95W power supply, 802.3at PoE 25.5W power supply and 802.3bt PoE 51W power supply;

[0057] When the obtained power supply parameters of the power supply device are 12V 1A DC 12W or 802.3af POE 12.95W, the first controlled module 1# corresponding to the power supply parameters of 12V 1A DC 12W or 802.3af POE 12.95W is retrieved from the preset first matching database, so that the load module 1# corresponding to the first controlled module 1# is used as the power supply object of the power supply device; at this time, the first controlled module 1# is controlled to be in the enabled state / closed state, and the first controlled module 2# and the first controlled module 3# are in the disabled state / open state.

[0058] When the power supply parameters of the power supply device are obtained as 802.3at POE 25.5W, the first controlled module 1# and the first controlled module 2# corresponding to the power supply parameters of 802.3at POE 25.5W are retrieved from the preset first matching database. The load module 1# corresponding to the first controlled module 1# and the load module 2# corresponding to the first controlled module 2# are used as the power supply objects of the power supply device. At this time, the first controlled module 1# and the first controlled module 2# are controlled to be in an enabled state / closed state, and the first controlled module 3# is in an disabled state / open state.

[0059] When the power supply parameters of the power supply device are obtained as 802.3bt POE 51W, the first controlled module 1#, the first controlled module 2#, and the first controlled module 3# corresponding to the power supply parameters of 802.3bt POE 51W are retrieved from the preset first matching database. The load module 1# corresponding to the first controlled module 1#, the load module 2# corresponding to the first controlled module 2#, and the load module 3# corresponding to the first controlled module 3# are used as the power supply objects of the power supply device. At this time, the first controlled module 1#, the first controlled module 2#, and the first controlled module 3# are controlled to be in an enabled state / closed state.

[0060] Therefore, the embodiments of the present invention control the state of the first controlled module according to the power supply parameters of the power supply device, so that the power supply device supplies power to the corresponding load module, realizing the management from the power supply end to the load end, and solving the problem that the network device cannot start or restart due to insufficient power supply or excessive load.

[0061] In another preferred embodiment, the control device 2 is also connected to the load module 32.

[0062] Specifically, the control device 2 is further configured as follows:

[0063] Obtain the load operating status of the load module;

[0064] Based on the load operating state and the power supply parameters, at least one first controlled module corresponding to the load operating state and the power supply parameters is obtained from a preset second matching database, so that the load module corresponding to the at least one first controlled module corresponding to the load operating state and the power supply parameters is used as the power supply object of the power supply device.

[0065] It is understandable that the second matching database contains the correspondence between the load operating status, power supply parameters and the first controlled module.

[0066] For example, when the obtained load operating state is that only load module 1# is in the operating state and the power supply parameter of the power supply device is 802.3bt POE 51W, the first controlled module 1# corresponding to the load operating state of only load module 1# being in the operating state and the power supply parameter of 802.3bt POE 51W being supplied is retrieved from the preset second matching database, so that the load module 1# corresponding to the first controlled module 1# is used as the power supply object of the power supply device; at this time, the first controlled module 1# is controlled to be in the enabled state / closed state, and the first controlled module 2# and the first controlled module 3# are controlled to be in the disabled state / disconnected state, so as to meet the needs of load module 1# and achieve the purpose of power saving.

[0067] Therefore, the embodiments of the present invention, based on the power supply parameters of the power supply device and the load working state (i.e., usage) of the load module, control the state of the first controlled module to enable the load module corresponding to the power supply device to supply power, thereby realizing the management from the load end to the power supply end, and achieving the purpose of power saving while meeting the load demand.

[0068] like Figure 2 As shown, in another preferred embodiment, any of the load power supply devices further includes at least one second controlled module 4;

[0069] The load module includes at least one functional unit 321, and the functional unit 321 is connected to the second controlled module 4 in a one-to-one correspondence.

[0070] The control device 2 is also connected to the load module 32 and the second controlled module 4, respectively.

[0071] Optionally, the control device 2 is further configured to:

[0072] Obtain the functional operating status of the functional unit;

[0073] Based on the functional operating state and the power supply parameters, at least one second controlled module corresponding to the functional operating state and the power supply parameters is obtained from a preset third matching database, so as to use the functional unit corresponding to the at least one second controlled module corresponding to the functional operating state and the power supply parameters as the power supply object of the power supply device.

[0074] It is understood that the third matching database is the correspondence between functional operating status, power supply parameters and the second controlled module.

[0075] It is understood that in the embodiments of the present invention, the first controlled module is in an enabled state / closed state.

[0076] For example, in a power supply device for a wireless network device, load module 1# includes functional units 11#, 12# and 13#, load module 2# includes functional units 21#, 22# and 23#, load module 3# includes functional units 31#, 32# and 33#, and second controlled modules 11#, 12#, 13#, 21#, 22#, 23#, 31#, 32# and 33# corresponding to each functional unit;

[0077] When the obtained functional operating status is that only the functional unit 31# of the load module 3# is in the working state and the power supply parameter of the power supply device is 802.3bt POE 51W, the second controlled module 31# corresponding to the functional unit 31# of the load module 3# being in the working state and the power supply parameter of 802.3bt POE 51W is retrieved from the preset third matching database, so that the functional unit 31# corresponding to the second controlled module 31# is used as the power supply object of the power supply device; at this time, the second controlled module 31# is controlled to be in the enabled / closed state, and the second controlled modules 32#, 33# and other second controlled modules are in the disabled / disconnected state, so as to meet the needs of the load module 3# and achieve the purpose of power supply energy saving.

[0078] Therefore, the embodiments of the present invention control the state of the second controlled module according to the power supply parameters of the power supply device and the functional working state of the functional unit, i.e. the load function usage, so that the power supply device supplies power to the corresponding functional unit, realizing the management from the load end to the power supply end, and achieving the purpose of power saving while meeting the load function requirements.

[0079] In yet another preferred embodiment, the control device 2 is further configured as follows:

[0080] Obtain the load operating status of the load module;

[0081] Based on the load operating state, the power supply type matching the load operating state is obtained from a preset fourth matching database, so as to control the power supply device to supply power according to the power supply type.

[0082] It is understood that the fourth matching database is the correspondence between load operating status and power supply type;

[0083] For example, when 12V 1A DC 12W power supply and 802.3af PoE 12.95W power supply can be supplied simultaneously, when the obtained load working status is that only load module 1# is in the working state, the power supply type matched for the load working status of only load module 1# being in the working state is obtained from the preset fourth matching database and is DC power supply, so as to control the DC power supply module to supply power to the load module; at this time, DC power supply is turned on and PoE power supply is turned off to reduce the static energy consumption of PoE power supply;

[0084] When the obtained load operating status is that load module 1# and load module 2# are both in the operating state, the preset fourth matching database is consulted to find that the power supply type matched for the load operating status of load module 1# and load module 2# being in the operating state at the same time is a combination of POE and DC power supply, so as to control the DC power supply module and the POE power supply module to supply power to the load module at the same time; at this time, DC power supply and POE power supply are turned on to form a combination of DC and POE power supply to meet the needs of the load module.

[0085] Therefore, the embodiments of the present invention select different power supply modules or combinations of power supply modules according to the load working state of the load module, thereby realizing diversified management of the power supply end and achieving the purpose of energy saving while meeting the load demand.

[0086] In yet another preferred embodiment, the control device 2 is further configured as follows:

[0087] Obtain first load information of the load module and first client information of the clients connected to the load module; wherein, the first load information includes the SSID value of the load module, and the first client information includes the total number of clients;

[0088] When the first load information and the first client information meet the preset first migration conditions, the client is migrated to the preset first load module, and the state of the first controlled module is set so that the first load module is used as the power supply object of the power device.

[0089] Optionally, the control device 2 is further configured to:

[0090] Obtain the second load information of the load module and the second client information of the clients connected to the load module; wherein, the second load information includes the SSID value of the load module, and the second client information includes the total number of clients;

[0091] When the second load information and the second client information meet the preset second migration conditions, the client is migrated to the preset second load module, and the state of the second controlled module is set so as to retain only the wake-up function units of other load modules.

[0092] Preferably, the first migration condition is that the SSID values ​​of the load modules are the same, and the total number of clients connected to each load module is at least 1. The second migration condition is that the SSID values ​​of the load modules are the same, and the total number of clients connected to each load module is at least 1.

[0093] It is understandable that when the SSID values ​​of the load balancer modules are the same, that is, when the load balancer modules share the same SSID, the load balancer modules support roaming migration.

[0094] It is understandable that the other load modules are load modules other than the second load module.

[0095] For example, when load module 1#, load module 2#, and load module 3# are 2G WIFI, 6G WIFI, and 5G WIFI respectively, then:

[0096] The first controlled module connected to 2G WIFI is the first controlled module 1#, the first controlled module connected to 6G WIFI is the first controlled module 2#, and the first controlled module connected to 5G WIFI is the first controlled module 3#.

[0097] The functional units corresponding to 2G WIFI include wake-up function unit 11#, traffic function unit 12#, and control function unit 13#; the functional units corresponding to 6G WIFI include wake-up function unit 21#, traffic function unit 22#, and control function unit 23#; and the functional units corresponding to 5G WIFI include wake-up function unit 31#, traffic function unit 32#, and control function unit 33#. It can be understood that the wake-up function unit implements the wake-up function of the load module, the traffic function unit implements the traffic function of the load module, and the control function unit implements the control function of the load module.

[0098] The second controlled module connected to the wake-up function unit 11# is the second controlled module 11#; the second controlled module connected to the flow function unit 12# is the second controlled module 12#; the second controlled module connected to the control function unit 13# is the second controlled module 13#; the second controlled module connected to the wake-up function unit 21# is the second controlled module 21#; the second controlled module connected to the flow function unit 22# is the second controlled module 22#; the second controlled module connected to the control function unit 23# is the second controlled module 23#; the second controlled module connected to the wake-up function unit 31# is the second controlled module 31#; the second controlled module connected to the flow function unit 32# is the second controlled module 32#; and the second controlled module connected to the control function unit 33# is the second controlled module 33#.

[0099] The control device is configured to:

[0100] Get the SSID values ​​of 2G WIFI, 6G WIFI, and 5G WIFI, as well as the clients connected to 2G WIFI, 6G WIFI, and 5G WIFI.

[0101] When the SSID values ​​of the 2G WIFI, 6G WIFI, and 5G WIFI are the same, and there is one client connected to the 6G WIFI (total quantity is 1), one client connected to the 5G WIFI (total quantity is 1), and one client connected to the 2G WIFI (total quantity is 1), the clients connected to the 6G WIFI and 2G WIFI can be migrated to the preset first load module, i.e., the 5G WIFI, and the state of the first controlled module is set so that the 5G WIFI is used as the power supply object of the power device. At this time, the first controlled module 2# is controlled to be in a disabled / disconnected state to disconnect the 6G WIFI, or the second controlled module 21# is controlled to be in a normal working state, and the second controlled modules 22# and 23# are controlled to be in an abnormal working state, so as to retain only the wake-up function of the 6G WIFI. Simultaneously, control the first controlled module 1# to be in an disabled / disconnected state to disconnect 2G WIFI, or control the second controlled module 11# to be in a normal working state and the second controlled module 12# and the second controlled module 13# to be in an abnormal working state, so as to retain only the wake-up function of 2G WIFI.

[0102] As can be seen, the embodiments of the present invention control the state of the first controlled module through load information and client information, so that the power supply device supplies power to the preset first load module, or controls the state of the second controlled module so that only the wake-up function unit of the other load modules is retained, thereby realizing automatic management of the power supply end and the load end, and achieving the purpose of power saving while meeting the load demand.

[0103] In yet another preferred embodiment, the control device is further configured to:

[0104] Obtain first user configuration information; wherein, the first user configuration information includes at least a preset first time and a preset third load module;

[0105] The third load module queries a preset fifth matching database to obtain at least one first controlled module corresponding to the third load module, so as to use the third load module as the power supply object of the power device within the first time period.

[0106] Optionally, the control device is further configured to:

[0107] Obtain second user configuration information; wherein the second user configuration information includes at least a preset second time and a preset fourth load module;

[0108] According to the fourth load module, at least one second controlled module corresponding to the fourth load module is obtained from the preset sixth matching database, so that the fourth load module is used as the power supply object of the power supply device during the second time period.

[0109] For example, the control device is configured to:

[0110] The obtained user configuration information specifically includes: preset time: 8:00~21:00; load modules: 2G WIFI, 6G WIFI and 5G WIFI;

[0111] The first controlled module 1# corresponding to 2G WIFI, the first controlled module 2# corresponding to 6G WIFI, and the first controlled module 3# corresponding to 5G WIFI are retrieved from the fifth matching database. During the period from 8:00 to 21:00, 2G WIFI, 6G WIFI, and 5G WIFI are used as the power supply targets of the power device. At this time, all the above first controlled modules are controlled to be in an enabled / closed state from 8:00 to 21:00, and all the above first controlled modules are in an disabled / disconnected state from 21:00 to 8:00; or,

[0112] The second controlled module 11# of the wake-up function unit 11#, the second controlled module 12# of the traffic function unit 12#, and the second controlled module 13# of the control function unit 13# corresponding to 2G WIFI are retrieved from the fifth matching database; the second controlled module 21# of the wake-up function unit 21#, the second controlled module 22# of the traffic function unit 22#, and the second controlled module 23# of the control function unit 23# corresponding to 6G WIFI; and the second controlled module 31# of the wake-up function unit 31#, the second controlled module 32# of the traffic function unit 32#, and the second controlled module 33# of the control function unit 33# corresponding to 5G WIFI, are retrieved to enable 2G WIFI, 6G WIFI, and 5G WIFI to operate within the specified time period from 8:00 to 21:00. WIFI serves as the power supply object of the power device; at this time, all the above-mentioned second controlled modules are controlled to be in the enabled / closed state from 8:00 to 21:00, and the second controlled modules corresponding to all the above-mentioned wake-up function units, namely the second controlled module 11#, the second controlled module 21# and the second controlled module 31#, are in the normal working state from 21:00 to 8:00, while other second controlled modules are in the abnormal working state, so as to retain only the wake-up function of the load module, thereby realizing the automatic management of the power supply end and the load end in the user-defined scenario;

[0113] Therefore, the embodiments of the present invention, through user configuration information, use preset load modules as the power supply objects of the power supply device within a preset time period, thereby realizing automatic management of the power supply end and the load end, and achieving the purpose of power saving while meeting load requirements.

[0114] This invention provides a power supply device for a wireless network device. By configuring a control device, a power supply device, a first controlled module, and a load module, when the power supply device supplies power to the load module through the first controlled module, the power supply parameters of the power supply device are obtained. Based on these parameters, the corresponding first controlled module is selected, and the load module corresponding to that first controlled module is used as the power supply target of the power supply device. This satisfies the different power supply requirements of various wireless network devices. Furthermore, this invention configures the power supply target of the power supply device according to the load's operating state and functional operating state, ensuring that the load is not restricted in its use. Therefore, this invention can solve the problem of insufficient power supply, improve energy-saving performance, and achieve bidirectional management of the power supply and load ends.

[0115] See Figure 3 , Figure 3 This is a flowchart of a preferred embodiment of a power supply method for a wireless network device provided by the present invention, the power supply method for the wireless network device comprising:

[0116] S1. Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device;

[0117] S2. Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so as to use the load module corresponding to the at least one first controlled module corresponding to the power supply parameters as the power supply object of the power supply device.

[0118] Optionally, the power supply method for the wireless network device further includes:

[0119] Obtain the load operating status of the load module;

[0120] Based on the load operating state and the power supply parameters, at least one first controlled module corresponding to the load operating state and the power supply parameters is obtained from a preset second matching database, so that the load module corresponding to the at least one first controlled module corresponding to the load operating state and the power supply parameters is used as the power supply object of the power supply device.

[0121] Optionally, the power supply method for the wireless network device further includes:

[0122] Obtain the functional operating status of the functional unit;

[0123] Based on the functional operating state and the power supply parameters, at least one second controlled module corresponding to the functional operating state and the power supply parameters is obtained from a preset third matching database, so as to use the functional unit of the at least one second controlled module corresponding to the functional operating state and the power supply parameters as the power supply object of the power supply device.

[0124] Optionally, the power supply method for the wireless network device further includes:

[0125] Obtain the load operating status of the load module;

[0126] Based on the load operating state, the power supply type corresponding to the load operating state is obtained from a preset fourth matching database, so as to control the power supply device to supply power according to the power supply type.

[0127] Optionally, the power supply method for the wireless network device further includes:

[0128] Obtain first load information of the load module and first client information of the clients connected to the load module; wherein, the first load information includes the SSID value of the load module, and the first client information includes the total number of clients;

[0129] When the first load information and the first client information meet the preset first migration conditions, the client is migrated to the preset first load module, and the state of the first controlled module is set so that the first load module is used as the power supply object of the power device.

[0130] Optionally, the power supply method for the wireless network device further includes:

[0131] Obtain the second load information of the load module and the second client information of the clients connected to the load module; wherein, the second load information includes the SSID value of the load module, and the second client information includes the total number of clients;

[0132] When the second load information and the second client information meet the preset second migration conditions, the client is migrated to the preset second load module, and the state of the second controlled module is set so as to retain only the wake-up function units of other load modules.

[0133] Optionally, the power supply method for the wireless network device further includes:

[0134] Obtain first user configuration information; wherein, the first user configuration information includes at least a preset first time and a preset third load module;

[0135] The third load module queries a preset fifth matching database to obtain at least one first controlled module corresponding to the third load module, so as to use the third load module as the power supply object of the power device within the first time period.

[0136] Optionally, the power supply method for the wireless network device further includes:

[0137] Obtain second user configuration information; wherein the second user configuration information includes at least a preset second time and a preset fourth load module;

[0138] According to the fourth load module, at least one second controlled module corresponding to the fourth load module is obtained from the preset sixth matching database, so that the fourth load module is used as the power supply object of the power supply device during the second time period.

[0139] It is worth noting that the working process of the power supply method for the wireless network device described in the embodiments of the present invention can refer to the working process of the power supply device for the wireless network device described in the above embodiments, and will not be repeated here.

[0140] The power supply method for wireless network devices provided in this invention includes a control device, a power supply device, a first controlled module, and a load module. When the power supply device supplies power to the load module through the first controlled module, the power supply parameters of the power supply device are obtained, and the corresponding first controlled module is selected based on the power supply parameters. The load module corresponding to the first controlled module is then used as the power supply target of the power supply device, which can meet the different power supply requirements of different wireless network devices. Furthermore, this invention configures the power supply target of the power supply device according to the load's operating state and functional operating state, ensuring that the load is not restricted in its use. Therefore, this invention can solve the problem of insufficient power supply, improve energy-saving performance, and achieve bidirectional management of the power supply and load ends.

[0141] This invention provides a power supply system for a wireless network device, including a power supply device for a wireless network device as described in any of the above embodiments.

[0142] The specific working process of the power supply device for the wireless network device can be referred to the working process of the power supply device for the wireless network device described in the above embodiments, and will not be repeated here.

[0143] The power supply system for wireless network devices provided in this embodiment of the invention, by setting up a control device, a power supply device, a first controlled module, and a load module, allows the power supply device to obtain power supply parameters when the power supply device supplies power to the load module through the first controlled module. Based on these parameters, the corresponding first controlled module is then selected, and the load module corresponding to that first controlled module is used as the power supply target of the power supply device. This satisfies the different power supply requirements of various wireless network devices. Furthermore, this embodiment configures the power supply target of the power supply device according to the load's operating state and functional operating state, ensuring that the load is not restricted in its use. Therefore, this embodiment of the invention can solve the problem of insufficient power supply, improve energy-saving performance, and achieve bidirectional management of the power supply and load ends.

[0144] The above description represents the preferred embodiments of the present invention. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of the present invention, and these improvements and modifications are also considered to be within the scope of protection of the present invention.

Claims

1. A power supply device for a wireless network equipment, characterized in that, include: Control device, power supply device, and at least one load power supply device; Any of the aforementioned load power supply devices includes a first controlled module and a load module connected to the first controlled module; wherein the load module includes at least one of the following: 2G WIFI, 6G WIFI, and 5G WIFI; The power supply device is connected to the control device and the first controlled module respectively; The control device is configured as follows: Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device; Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so as to use the load module corresponding to the at least one first controlled module corresponding to the power supply parameters as the power supply object of the power supply device; wherein, the first matching database is the correspondence between power supply parameters and first controlled modules; The control device is further configured to: Obtain first load information of the load module and first client information of the clients connected to the load module; wherein, the first load information includes the SSID value of the load module, and the first client information includes the total number of clients; When the first load information and the first client information meet the preset first migration conditions, the client is migrated to the preset first load module, and the state of the first controlled module is set so that the first load module is used as the power supply object of the power device.

2. The power supply device for the wireless network equipment as described in claim 1, characterized in that, The control device is also connected to the load module.

3. The power supply device for the wireless network equipment as described in claim 2, characterized in that, The control device is further configured to: Obtain the load operating status of the load module; Based on the load operating state and the power supply parameters, at least one first controlled module corresponding to the load operating state and the power supply parameters is obtained from a preset second matching database, so that the load module corresponding to the at least one first controlled module corresponding to the load operating state and the power supply parameters is used as the power supply object of the power supply device.

4. The power supply device for the wireless network equipment as described in claim 1, characterized in that, Each of the aforementioned load power supply devices further includes at least one second controlled module; The load module includes at least one functional unit, and the functional unit is connected to the second controlled module in a one-to-one correspondence. The control device is also connected to the load module and the second controlled module, respectively.

5. The power supply device for the wireless network equipment as described in claim 4, characterized in that, The control device is further configured to: Obtain the functional operating status of the functional unit; Based on the functional operating state and the power supply parameters, at least one second controlled module corresponding to the functional operating state and the power supply parameters is obtained from a preset third matching database, so as to use the functional unit of the at least one second controlled module corresponding to the functional operating state and the power supply parameters as the power supply object of the power supply device.

6. The power supply device for the wireless network equipment as described in claim 2, characterized in that, The control device is further configured to: Obtain the load operating status of the load module; Based on the load operating state, the power supply type matching the load operating state is obtained from a preset fourth matching database, so as to control the power supply device to supply power according to the power supply type.

7. The power supply device for the wireless network equipment as described in claim 4, characterized in that, The control device is further configured to: Obtain the second load information of the load module and the second client information of the clients connected to the load module; wherein, the second load information includes the SSID value of the load module, and the second client information includes the total number of clients; When the second load information and the second client information meet the preset second migration conditions, the client is migrated to the preset second load module, and the state of the second controlled module is set so as to retain only the wake-up function units of other load modules.

8. The power supply device for the wireless network equipment as described in claim 2, characterized in that, The control device is further configured to: Obtain first user configuration information; wherein, the first user configuration information includes at least a preset first time and a preset third load module; The third load module queries a preset fifth matching database to obtain at least one first controlled module corresponding to the third load module, so as to use the third load module as the power supply object of the power device within the first time period.

9. The power supply device for the wireless network equipment as described in claim 4, characterized in that, The control device is further configured to: Obtain second user configuration information; wherein the second user configuration information includes at least a preset second time and a preset fourth load module; According to the fourth load module, at least one second controlled module corresponding to the fourth load module is obtained from the preset sixth matching database, so that the fourth load module is used as the power supply object of the power supply device during the second time period.

10. A power supply method for a wireless network device, characterized in that, The power supply device applied to the wireless network device as described in claim 1, wherein the power supply method for the wireless network device includes: Obtain the power supply parameters of the power supply device; wherein, the power supply parameters include at least the power supply type and power supply range of the power supply device; Based on the power supply parameters, at least one first controlled module corresponding to the power supply parameters is obtained from a preset first matching database, so as to use the load module corresponding to the at least one first controlled module corresponding to the power supply parameters as the power supply object of the power supply device; wherein, the first matching database is the correspondence between power supply parameters and first controlled modules; The power supply method for the wireless network device also includes, Obtain first load information of the load module and first client information of the clients connected to the load module; wherein, the first load information includes the SSID value of the load module, and the first client information includes the total number of clients; When the first load information and the first client information meet the preset first migration conditions, the client is migrated to the preset first load module, and the state of the first controlled module is set so that the first load module is used as the power supply object of the power device.

11. A power supply system for a wireless network device, characterized in that, The power supply device includes the wireless network device as described in any one of claims 1-9 above.

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