CN112688631A - Low-power consumption power management device for 5G base station equipment - Google Patents

Abstract

The invention discloses a low-power-consumption power supply management device for 5G base station equipment, which comprises a power supply management device protective shell, wherein a variable-voltage power storage mechanism is connected in the power supply management device protective shell, the variable-voltage power storage mechanism comprises a power supply management device body, an output power storage device is connected to the power supply management device body, one side of the output power storage device is connected with a transformer, a light angle sensor is connected to the power supply management device protective shell, and one side, far away from the power supply management device protective shell, of the light angle sensor is connected with a wind direction sensor. According to the invention, through the arrangement of the corresponding mechanism on the power management device, the power management device adopts multiple power supply modes, so that the reliability of power supply to the power management device is greatly improved, and when the emergency power supply cannot meet the requirement of power supply of all equipment, standard power failure can be performed on each equipment in the base station, thus avoiding damage to the base station equipment and greatly prolonging the service life of the base station equipment.

Description

Low-power consumption power management device for 5G base station equipment

Technical Field

The invention belongs to the technical field of power supply management devices, and particularly relates to a low-power-consumption power supply management device for 5G base station equipment.

Background

Power management means how to effectively distribute power to different components of a system, power management is crucial to mobile equipment depending on a battery power, and by reducing energy consumption when the components are idle, an excellent power management system can prolong the service life of the battery by two times or three times, and a power management technology is also called as a power control technology, belongs to the field of power electronic technology, is an edge crossing technology integrating multiple subjects such as power conversion, modern electronics, network construction, automatic control and the like, and is widely applied to the fields of industry, energy, traffic, information, aviation, national defense, education, culture and the like.

The 5G base station is a core device of the 5G network, provides wireless coverage, and realizes wireless signal transmission between the wired communication network and the wireless terminal, the architecture and the form of the base station directly influence how the 5G network is deployed, in the technical standard, the frequency band of the 5G is far higher than that of the 2G, 3G and 4G networks, the 5G network mainly works in the frequency band of 3000-plus 5000MHz at the present stage, and the higher the frequency is, the greater the attenuation in the signal propagation process is, so the base station density of the 5G network is higher.

At present, in daily use of 5G base station equipment, normal operation of a power management device is very needed, the power management device generally shares a power supply with the 5G base station equipment at present, but the power consumption of the power management device is higher, single power supply is adopted, the power supply reliability is not high, under the condition that the power of the shared power supply is cut off, an emergency power supply cannot meet the power supply of all equipment, the condition that the power-off sequence of each equipment of the 5G base station is not in accordance with the standard may occur, damage to the 5G base station equipment is easily caused, and the service life of the 5G base station equipment is greatly reduced.

Therefore, in order to solve the above technical problems, it is necessary to provide a low power consumption power management device for a 5G base station device.

Disclosure of Invention

The invention aims to provide a low-power-consumption power management device for 5G base station equipment, which aims to solve the problem that the power management device adopts single power supply and is low in power supply reliability.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides a low-power consumption power management device that 5G basic station equipment used, includes power management device protective housing, power management device protective housing in-connection has vary voltage accumulate mechanism, vary voltage accumulate mechanism includes the power management device body, be connected with output electrical storage apparatus on the power management device body, one side of output electrical storage apparatus is connected with the transformer, be connected with light angle inductor on the power management device protective housing, one side that power management device protective housing was kept away from to light angle inductor is connected with the wind direction inductor, be connected with a plurality of evenly distributed's wind power generation mechanism on the power management device protective housing, be connected with a plurality of pairs of evenly distributed's angle modulation formula light energy power generation mechanism on the power management device protective housing.

Furthermore, the wind power generation mechanism comprises a wind power base, the wind power base is arranged to provide a position for installing a wind power supporting rod, and meanwhile, the probability of inclination of the wind power supporting rod is greatly reduced, so that the active rotating shaft fan is more conveniently contacted with wind, the rotation of the active rotating shaft fan is smoother, and the probability of the wind power supporting rod being blown down by the wind is reduced, the wind power base is connected with a power management device protective shell, the connection of the wind power base and the power management device protective shell further helps the wind power base to stabilize the wind power supporting rod, the possibility of shaking of the wind power supporting rod is reduced, the stability of the wind power base and the stability of the wind power supporting rod are greatly improved, the distance between the active rotating shaft fan and the power management device protective shell is greatly improved due to the arrangement of the wind power supporting rod, and the influence of the power management device protective shell on the, the rotation of the driving rotating shaft fan is smoother, the control type steering gear is connected outside the wind power supporting rod, the setting of the control type steering gear can be controlled by the power management control box, the wind power supporting rod can be rotated through the control of the power management control box, the driving rotating shaft fan always faces to the wind direction, the wind can drive the driving rotating shaft fan to rotate more efficiently, the conversion of wind energy and electric energy is more efficient, the loss of wind energy is greatly reduced, one end of the wind power supporting rod, which is far away from the wind power base, is connected with the rotating shaft supporting box, the position of the rotating shaft supporting box is provided for the installation of an internal mechanism of the rotating shaft supporting box, the probability of dust entering the rotating shaft supporting box is reduced, the damage of the driving gear and the driven gear, the damage of the dust to the driving gear and the driven gear is reduced, and the accuracy between the driving gear and the driven gear is greatly improved, the conversion rate of wind energy and electric energy is greatly improved.

Furthermore, one side of the rotating shaft supporting box is connected with an active rotating shaft fan, the active rotating shaft fan can be rotated by wind, when the wind blows towards the direction of the active rotating shaft fan, the active rotating shaft fan can rotate according to self characteristics and drive the diversion roof and the driving shaft to rotate, so that the wind energy can be converted into mechanical energy, and clean energy can be utilized, one end of the active rotating shaft fan, which is far away from the rotating shaft supporting box, is connected with the diversion roof, the diversion roof can conduct diversion on the wind, so that the wind can blow towards the direction of the active rotating shaft fan, the wind energy can be utilized to a greater extent, the utilization rate of clean energy is greatly improved, one end of the active rotating shaft fan, which is far away from the diversion roof, is connected with the driving shaft, the driving shaft can be driven by the active rotating shaft fan to rotate, and the driving shaft can rotate through the rotation of the active rotating shaft fan, make mechanical energy can be transmitted by the driving shaft, be connected with the initiative axle bed between driving shaft and the pivot support box, the degree of stability of initiative pivot fan has been promoted by a wide margin in the setting of initiative axle bed, the probability that the initiative pivot fan breaks away from pivot support box has been reduced, the possibility that the initiative pivot fan rocked when rotating has been reduced by a wide margin, the utilization ratio of wind energy has been strengthened, the driving shaft bed is through the restriction to the driving shaft simultaneously, make the gliding possibility of driving shaft reduce by a wide margin, the possibility that the precision between driving gear and the driven gear descends has been avoided appears, make the driving gear drive driven gear that can be better.

Furthermore, one end of the driving shaft, which is far away from the driving rotating shaft fan, is connected with a driving gear, the driving gear drives a driven gear, so that the rotation of the driven gear can be matched with the rotation of the driving gear, the transmission of mechanical energy is realized, the rotation of the driven gear can be driven, the loss in the transmission of mechanical energy is greatly reduced, and wind energy can be converted into electric energy to a greater extent, one end of the rotating shaft supporting box, which is far away from the driving rotating shaft fan, is connected with a generator, the arrangement of the generator can realize the conversion between the mechanical energy and the electric energy, the mechanical energy converted by the driving rotating shaft fan can realize the conversion of the electric energy, meanwhile, the generator can output for a transformer, the transformer is output to an output accumulator through the voltage conversion, the generator is connected with a driven shaft, the driven shaft can be driven by the driven gear, and is driven, mechanical energy is specially transmitted into a generator, a driven shaft seat is connected between a driven shaft and a rotating shaft supporting box, the probability of generator disengagement is greatly reduced due to the arrangement of the driven shaft seat, the stability of the generator is greatly improved, the possibility of generator disengagement is greatly reduced, the possibility that a wind power generation mechanism cannot convert electric energy due to the fact that the generator falls off is avoided, the reliability of the wind power generation mechanism is greatly improved, the power supply reliability of an output accumulator is greatly improved, meanwhile, the abrasion of the driven shaft is greatly reduced due to the arrangement of the driven shaft seat, the damage of the driven shaft due to abrasion is greatly reduced, the service life of the driven shaft is greatly prolonged, the use cost of the wind power generation mechanism is reduced, a driven gear meshed with a driving gear is connected to one end of the driven shaft, which is far away from the generator, and can rotate through the meshing with the driving, the driving gear drives the driven shaft to rotate.

Furthermore, the angle-adjusting type light energy power generation mechanism comprises an electric telescopic rod, the electric telescopic rod can be extended and retracted under the control of a power management control box, great help is provided for the inclination of the solar panel support, the length of the extension and retraction can be adjusted through the control of the power management control box, the inclination angle of the solar panel support can be adjusted, the irradiation intensity of sunlight on the solar panel is greatly improved, the conversion of the solar panel on the sunlight is more convenient, the efficiency of converting light energy into electric energy is greatly improved, the degree of light energy loss is greatly reduced, the electric telescopic rod is connected with a power management device protective shell, the stability degree of the electric telescopic rod is greatly improved through the connection of the electric telescopic rod and the power management device protective shell, and the probability that the electric telescopic rod is separated from the power management device protective shell is greatly reduced, the connection of the electric telescopic rod and the power management device protective shell enables the electric telescopic rod to more conveniently master the inclination angle of the solar panel support, the strength of the solar panel irradiated by sunlight is greatly improved, the electric telescopic rod is connected with the solar panel support, the electric telescopic rod is rotationally connected with the solar panel support, the damage of the solar panel support to the electric telescopic rod is avoided, the rotation of the solar panel support is more convenient, meanwhile, the electric telescopic rod can provide support for the solar panel support, the possibility that the solar panel support is separated from the power management device protective shell is greatly reduced, the possibility that the solar panel support falls is avoided, one end of the solar panel support, which is close to the power management device protective shell, is connected with a driven rotating rod, the support for the solar panel support is greatly improved through the matching with the support, the probability of dropping the solar panel support is greatly reduced, the situation that the solar panel is separated from the protective shell of the power management device is avoided, the driven rotating rod is connected with the supporting rotating rod through rotation, the convenience of rotation of the solar panel support is greatly reduced, the rotation of the solar panel support is more convenient, the use of the electric telescopic rod is more convenient, one end of the driven rotating rod, which is far away from the solar panel support, is connected with the supporting rotating rod, the supporting rotating rod is connected with the protective shell of the power management device, the stability of the solar panel support is greatly improved through the connection of the driven rotating rod and the supporting rotating rod, the probability of separation of the solar panel support is greatly reduced, the supporting rotating rod is connected with the protective shell of the power management device, the probability of separation of the supporting rotating rod from the protective shell of the, make power management device protective housing can support the solar panel support through supporting the rotor bar, greatly reduced the probability that the solar panel support dropped, be connected with a plurality of evenly distributed's solar panel on the solar panel support keeps away from the one side of power management device protective housing, solar panel's setting can realize the conversion between light energy and the electric energy, makes the electric energy can transmit to supplying power for the power management device body in the output accumulator, setting up through angle modulation formula light energy power generation mechanism has greatly reduced the utilization ratio of light energy, makes the electric energy that is converted can be utilized, makes the output accumulator can accept multiple energy, makes the output accumulator can obtain more energy, makes the power supply reliability of output accumulator promote by a wide margin.

Furthermore, the power management control box is connected on the power management device protective shell, the light angle sensor, the wind direction sensor, the power management device body, the output accumulator, the transformer, the control type steering gear, the generator, the electric telescopic rod and the solar panel are all electrically connected with the power management control box, the power management control box can control the opening and closing of the light angle sensor, the wind direction sensor, the power management device body, the output accumulator, the transformer, the control type steering gear, the generator, the electric telescopic rod and the solar panel, the setting of the light angle sensor can sense the direction of sunlight through self characteristics, signals are transmitted into the power management control box, then the angle-adjusting type light energy generating mechanism is controlled through the power management control box, the solar panel always faces the sunlight, and the utilization rate of the sunlight is greatly improved, the setting of wind direction inductor can respond to the wind direction, and the wind direction inductor makes control formula steering gear turn to wind-force branch in with signal transmission to power management control box through power management control box's control, makes the initiative pivot fan setting of facing to the wind all the time, makes the utilization ratio of wind energy promote by a wide margin.

Furthermore, a dynamic voltage frequency adjusting system is arranged in the power management control box, the dynamic voltage frequency adjusting system comprises a power consumption monitoring system, an automatic control system, a setting system and a self-protection module, the power consumption monitoring system is used for monitoring the power consumption of a plurality of lines in the power management device body and the value of each item of data, the automatic control system is convenient to control, the power consumption monitoring system can monitor the power consumption of the plurality of lines in the power management device body and the value of each item of data, the power consumption and the frequency of the plurality of lines in the power management device body are monitored in real time, the possibility of error of a certain line in the power management device body is greatly reduced, the possibility of power supply problem of a certain device managed by the power management device body is avoided, and the power management device body can perform deeper optimization on each managed device, the performance and the service life of equipment managed by the power management device body are greatly improved, the condition that the equipment is damaged due to power supply is avoided, the automatic control system is used for controlling the voltage and the frequency of the power management device body according to the power consumption monitored by the power consumption monitoring system, the arrangement of the automatic control system greatly improves the accurate control of the power management device body on each line, the performance of the power management device body is greatly improved, the power supply of an output accumulator to the power management device body is optimized, the performance of the power management device body is greatly improved, the condition that the power management device body is damaged is greatly reduced, the power supply reliability of the power management device body and the output accumulator is greatly improved, the possibility that the equipment is damaged by power supply is greatly reduced, and the setting system is used for a user to adjust each data in the dynamic voltage adjusting system, the setting system greatly improves the autonomy of a user on the dynamic voltage regulating system, the user can set various numerical values through the setting system, the self-protection module is used for judging through data monitored by the power consumption monitoring system, when the parameters tend to dangerous values, the power of each line in the power management device body is automatically cut off, the protection of each device controlled by the power management device body is greatly improved by the arrangement of the self-protection module, the damage of each device controlled by the power management device body in the aspect of power supply is avoided, the service life of the device controlled by the power management device body is greatly prolonged, meanwhile, the use safety of the base station equipment is improved, the possibility that dangers such as short circuit and disconnection cause injury to a user is greatly reduced, the dangers such as short circuit and disconnection can be sensed as soon as possible, the power is cut off quickly, and the dangers are avoided.

Furthermore, the power consumption monitoring system comprises a power consumption real-time monitoring module, a power consumption value processing module, a normal value storage module, a power consumption comparison module and a power consumption output module, wherein the power consumption real-time monitoring module is used for monitoring the power consumption of a plurality of lines in the power management device body and the value of each item of data, the power consumption monitoring system can monitor each line in the power management device body more quickly due to the arrangement of the power consumption real-time monitoring module, each line in the power management device body can be found out more quickly when a dangerous value appears in each line, meanwhile, the automatic control system can react more quickly according to the monitored value due to the arrangement of the power consumption real-time monitoring module, the power supply reliability of the power management device body is greatly improved, and the service performance of each device in the base station is improved simultaneously, the possibility that each device of the base station is damaged due to power supply is greatly reduced, the power consumption value processing module is used for processing the value monitored by the power consumption real-time monitoring module, the power consumption value processing module can simply process the data monitored by the power consumption real-time monitoring module, so that the data monitored by the power consumption real-time monitoring module can be fed back to the automatic control system at a higher speed, the reaction speed of the dynamic voltage frequency adjusting system is greatly increased, the reaction speed of the dynamic voltage frequency adjusting system is increased, the performance of the base station device is improved, the power consumption of the base station device is reduced, the normal value storage module is used for storing normal values of each line running in the power supply management device body, the retrieval time of the dynamic voltage frequency adjusting system is greatly reduced by the normal value storage module, and the normal value storage module is directly extracted from the zheng memory module, monitored data are directly compared, a dangerous value can be found at the highest speed, the value monitored in the power consumption real-time monitoring module is compared with a value stored in a normal value storage module through a power consumption comparison module, the value monitored in the power consumption real-time monitoring module is compared with a value stored in the normal value storage module through the power consumption comparison module, the setting of the power consumption comparison module can compare the value monitored in the power consumption real-time monitoring module with the value stored in the normal value storage module, the reaction time of a self-protection module is greatly reduced, the possibility that base station equipment is damaged is greatly reduced, the base station equipment with the dangerous value can be directly powered off, the dangerous condition of a user is avoided, the power consumption output module is used for outputting the monitored value to an automatic control system, and the power consumption output module can transmit the data to the automatic control system, the data transmission speed is greatly improved, the reaction speed of the self-protection module is greatly reduced, or the value which tends to be dangerous is directly output to the self-protection module.

Furthermore, the automatic control system comprises a data receiving module, a data processing module and a voltage control module, the data receiving module is used for receiving the data transmitted by the power consumption monitoring system, the data receiving speed of the automatic control system is greatly improved by the arrangement of the data receiving module, the reaction time of the automatic control system is greatly shortened, the data processing module is used for processing the data transmitted by the power consumption monitoring system, the data processing module can process the received data, the reaction of the automatic control system is facilitated, the reaction time of the automatic control system is accelerated, the control of the voltage control module is facilitated, the voltage control module is used for controlling each line of the power management device body according to the data processed by the data processing module, the voltage control module can control the voltage of each line of the power management device body, the base station equipment is output by the most suitable voltage, so that the performance of the base station equipment is greatly improved, and the possibility of power supply damage to the base station equipment is greatly reduced.

Further, the setting system comprises a normal value input module, a dangerous value setting module, a deviation range module and a time setting module, wherein the normal value input module is used for inputting and recording power consumption normal values of all lines of the power management device body, the normal value input module is arranged to enable a user to edit the normal values, the autonomy of the user to the dynamic voltage frequency adjustment system is increased, the dangerous value setting module is used for setting and recording the power consumption values of all lines of the power management device body, the safety of the base station equipment is greatly improved due to the arrangement of the dangerous value setting module, the power supply safety of the base station equipment is greatly improved, the deviation range module is used for setting an acceptable error value of the normal values, the time setting module is used for recording and setting the maximum and minimum power consumption time of all lines of the power management device body, facilitating the subsequent maintenance of the user.

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

according to the invention, through the arrangement of the corresponding mechanism on the power management device, the power management device adopts multiple power supply modes, so that the reliability of power supply to the power management device is greatly improved, and when the emergency power supply cannot meet the requirement of power supply of all equipment, standard power failure can be performed on each equipment in the base station, thus avoiding damage to the base station equipment and greatly prolonging the service life of the base station equipment.

Drawings

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

Fig. 1 is a perspective view of a low power consumption power management device for a 5G base station apparatus according to an embodiment of the invention;

fig. 2 is another perspective view of a low power consumption power management apparatus for a 5G base station device according to an embodiment of the invention;

fig. 3 is a front view of a low power consumption power management apparatus for a 5G base station device according to an embodiment of the invention;

FIG. 4 is a schematic diagram of the structure at A in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a rear view of a low power consumption power management apparatus for a 5G base station device according to an embodiment of the present invention;

FIG. 6 is a top sectional view of a low power consumption power management apparatus for a 5G base station device according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of the structure shown at B in FIG. 6 according to an embodiment of the present invention;

fig. 8 is a front sectional view of a low power consumption power management apparatus for a 5G base station device according to an embodiment of the invention;

FIG. 9 is a schematic diagram illustrating a structure at C in FIG. 8 according to an embodiment of the present invention;

FIG. 10 is a functional diagram of a dynamic power frequency adjustment system according to an embodiment of the invention.

In the figure: 1. a power management device protective shell, 101, a light angle sensor, 102, a wind direction sensor, 103, a power management control box, 2, a transformation electricity storage mechanism, 201, a power management device body, 202, an output electricity storage device, 203, a transformer, 3, a wind power generation mechanism, 301, a wind power base, 302, a wind power support rod, 303, a control type steering gear, 304, a rotating shaft support box, 305, an active rotating shaft fan, 306, a flow guide top, 307, an active shaft, 308, an active shaft seat, 309. the solar photovoltaic power generation system comprises a driving gear, 310. a generator, 311. a driven shaft, 312. a driven shaft seat, 313. a driven gear, 4. an angle-adjusting type photovoltaic power generation mechanism, 401. an electric telescopic rod, 402. a solar panel support, 403. a driven rotating rod, 404. a supporting rotating rod, 405. a solar panel, 5. a water-cooling type heat dissipation mechanism, 501. a water cooling tank, 502. cooling water, 503. a heat dissipation plate, 504. a sealing element.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses a low-power consumption power supply management device for 5G base station equipment, which comprises a power supply management device protective shell 1, wherein a variable voltage power storage mechanism 2 is connected in the power supply management device protective shell 1, the variable voltage power storage mechanism 2 comprises a power supply management device body 201, an output power storage device 202 is connected on the power supply management device body 201, the output power storage device 202 can supply power to the power supply management device body 201, one side of the output power storage device 202 is connected with a transformer 203, electric energy converted by a wind power generation mechanism 3 and an angle-adjusting type light energy power generation mechanism 4 enters the transformer 203, the electric energy is converted into voltage which is suitable for being received by the output power storage device 202 through the transformation of the transformer 203 and then is transmitted to the output power storage device 202 for storage, a light angle sensor 101 is connected on the power supply management device protective shell 1, the light angle sensor 101 can sense the irradiation angle of sunlight, the angle adjustment of convenient angle modulation formula light energy power generation mechanism 4, one side that light angle inductor 101 kept away from power management device protective housing 1 is connected with wind direction inductor 102, the setting of wind direction inductor 102 can respond to the wind direction, make power management control box 103 control formula steering gear 303 turn to wind-force branch 302, make initiative pivot fan 305 face the wind direction setting all the time, be connected with a plurality of evenly distributed's wind power generation mechanism 3 on the power management device protective housing 1, be connected with a plurality of angle modulation formula light energy power generation mechanism 4 to evenly distributed on the power management device protective housing 1.

Wherein, the power management device body 201 is connected with a water-cooled heat dissipation mechanism 5, the water-cooled heat dissipation mechanism 5 comprises a water-cooled tank 501, the water-cooled tank 501 is arranged to conduct heat generated by the operation of the power management device body 201 through direct contact with the power management device body 201, so that the operation temperature of the power management device body 201 is reduced, and the damage caused by the overheat operation of the power management device body 201 is avoided, the water-cooled tank 501 is arranged through the power management device protective shell 1, the water-cooled tank 501 is internally provided with cooling water 502, the heat in the power management device body 201 can be better transferred through the arrangement of the cooling water 502 and transferred into a heat dissipation plate 503 through the cooling water 502, the water-cooled tank 501 is internally provided with a plurality of uniformly distributed heat dissipation plates 503, the heat dissipation plate 503 dissipates heat through direct contact with air, cools the cooling water 502, and the heat dissipation plate 503 is arranged through the, a sealing piece 504 is connected between the water cooling tank 501 and the heat dissipation plate 503, the sealing degree of the water cooling tank 501 is greatly improved due to the arrangement of the sealing piece 504, and the possibility of leakage of the cooling water 502 is avoided.

Referring to fig. 8-9, the wind power generation mechanism 3 includes a wind base 301, the wind base 301 is configured to provide a position for installing a wind pole 302, and at the same time, the probability of the wind pole 302 inclining is greatly reduced, so that the active rotating shaft fan 305 contacts with the wind more conveniently, the rotation of the active rotating shaft fan 305 is smoother, and the probability of the wind pole 302 being blown down by the wind is reduced, the wind base 301 is connected with the power management device protection shell 1, the connection between the wind base 301 and the power management device protection shell 1 further helps the wind base 301 to stabilize the wind pole 302, the possibility of the wind pole 302 shaking is reduced, so that the stability of the wind base 301 and the wind pole 302 is greatly improved, the wind pole 302 is connected to the wind base 301, the distance between the active rotating shaft fan 305 and the power management device protection shell 1 is greatly improved due to the arrangement of the wind pole 302, the influence of the protective shell 1 of the power management device on the rotation of the active rotating shaft fan 305 is greatly reduced, the rotation of the active rotating shaft fan 305 is smoother, the control type steering gear 303 is connected outside the wind power supporting rod 302, the arrangement of the control type steering gear 303 can be controlled by the power management control box 103, the wind power supporting rod 302 can be rotated through the control of the power management control box 103, the active rotating shaft fan 305 always faces the wind direction, the wind can more efficiently drive the active rotating shaft fan 305 to rotate, the conversion between the wind energy and the electric energy is more efficient, the loss of the wind energy is greatly reduced, one end of the wind power supporting rod 302, which is far away from the wind power base 301, is connected with a rotating shaft supporting box 304, the arrangement of the rotating shaft supporting box 304 provides a position for the installation of internal mechanisms of the rotating shaft supporting box 304, the probability of dust entering the rotating shaft supporting box 304 is reduced, and the damage caused by the mutual driving of, the damage of dust to the driving gear 309 and the driven gear 313 is reduced, the accuracy between the driving gear 309 and the driven gear 313 is greatly improved, and the conversion rate of wind energy and electric energy is greatly improved.

Referring to fig. 8-9, one side of the rotation shaft supporting box 304 is connected with an active rotation shaft fan 305, the active rotation shaft fan 305 can be rotated by wind, when the wind blows towards the active rotation shaft fan 305, the active rotation shaft fan 305 can rotate according to its own characteristics and drive the diversion roof 306 and the driving shaft 307 to rotate, so that the wind energy can be converted into mechanical energy, so that clean energy can be utilized, one end of the active rotation shaft fan 305 away from the rotation shaft supporting box 304 is connected with the diversion roof 306, the diversion roof 306 can divert the wind, so that the wind can blow towards the active rotation shaft fan 305, so that the wind energy can be utilized to a greater extent, so as to greatly improve the utilization rate of the clean energy, one end of the active rotation shaft fan 305 away from the diversion roof 306 is connected with the driving shaft 307, the driving shaft 307 can be driven by the active rotation shaft fan 305 to rotate, the driving shaft 307 is rotated by the rotation of the driving rotating shaft fan 305, so that mechanical energy can be transferred by the driving shaft 307, a driving shaft seat 308 is connected between the driving shaft 307 and the rotating shaft supporting box 304, the stability of the driving rotating shaft fan 305 is greatly improved by the arrangement of the driving shaft seat 308, the probability that the driving rotating shaft fan 305 is separated from the rotating shaft supporting box 304 is reduced, the possibility that the driving rotating shaft fan 305 shakes during rotation is greatly reduced, the utilization rate of wind energy is enhanced, meanwhile, the driving shaft seat 308 greatly reduces the possibility that the driving shaft 307 slides by limiting the driving shaft 307, the possibility that the precision between the driving gear 309 and the driven gear 313 is reduced is avoided, and the driving gear 309 can better drive the driven gear 313.

Referring to fig. 1 to 9, one end of the driving shaft 307, which is far away from the driving shaft fan 305, is connected to a driving gear 309, the driving gear 309 is arranged to drive a driven gear 313, so that rotation of the driven gear 313 can be matched with rotation of the driving gear 309, transmission of mechanical energy is realized, rotation of the driven gear 313 can be driven, loss during transmission of mechanical energy is greatly reduced, wind energy can be converted into electric energy to a greater extent, one end of the shaft supporting box 304, which is far away from the driving shaft fan 305, is connected to a generator 310, the arrangement of the generator 310 can realize conversion between mechanical energy and electric energy, conversion of mechanical energy converted by the driving shaft fan 305 into electric energy is realized, meanwhile, the generator 310 can output for the transformer 203, so that the transformer 203 is output to the output accumulator 202 through voltage conversion, and the generator 310 is connected to a driven shaft 311, the driven shaft 311 can be driven by a driven gear 313, and is driven by the driven gear 313 to rotate, so that mechanical energy is transferred to the generator 310, the driven shaft seat 312 is connected between the driven shaft 311 and the rotating shaft supporting box 304, the probability that the generator 310 is separated from the rotating shaft supporting box 304 is greatly reduced by the arrangement of the driven shaft seat 312, the stability of the generator 310 is greatly improved, the probability that the generator 310 is separated is greatly reduced, the probability that the wind power generation mechanism 3 cannot convert electric energy due to the falling of the generator 310 is avoided, the reliability of the wind power generation mechanism 3 is greatly improved, the power supply reliability of the output power accumulator 202 is greatly improved, meanwhile, the abrasion of the driven shaft 311 is greatly reduced by the arrangement of the driven shaft seat 312, the damage of the driven shaft 311 due to the abrasion is greatly reduced, the service life of the driven shaft 311 is greatly prolonged, and the use cost of the wind power generation mechanism 3 is, one end of the driven shaft 311, which is far away from the generator 310, is connected with a driven gear 313 engaged with the driving gear 309, and the driven gear 313 can rotate by being engaged with the driving gear 309, rotate by being driven by the driving gear 309, and simultaneously drive the driven shaft 311 to rotate.

Referring to fig. 1-4, the angle-adjustable photovoltaic power generation mechanism 4 includes an electric telescopic rod 401, the electric telescopic rod 401 is configured to be extendable and retractable under the control of the power management control box 103, so as to provide a great help for the inclination of the solar panel support 402, the extendable and retractable length can be adjusted by controlling the electric telescopic rod 401 through the power management control box 103, so as to adjust the inclination angle of the solar panel support 402, thereby greatly improving the intensity of sunlight irradiating the solar panel 405, enabling the solar panel 405 to convert sunlight more conveniently, greatly improving the efficiency of converting light energy into electric energy, greatly reducing the degree of light energy loss, the electric telescopic rod 401 is connected with the power management device protection case 1, the connection between the electric telescopic rod 401 and the power management device protection case 1 greatly improves the stability of the electric telescopic rod 401, and greatly reduces the probability that the electric telescopic rod 401 is separated from the power management device protection case 1, the connection between the electric telescopic rod 401 and the power management device protective shell 1 enables the electric telescopic rod 401 to more conveniently master the inclination angle of the solar panel support 402, the strength of the solar panel 405 irradiated by sunlight is greatly improved, the solar panel support 402 is connected to the electric telescopic rod 401, the rotary connection between the electric telescopic rod 401 and the solar panel support 402 avoids the damage of the solar panel support 402 to the electric telescopic rod 401, the solar panel support 402 can rotate more conveniently, meanwhile, the electric telescopic rod 401 can provide support for the solar panel support 402, the possibility that the solar panel support 402 is separated from the power management device protective shell 1 is greatly reduced, the possibility that the solar panel support 402 falls is avoided, one end of the solar panel support 402 close to the power management device protective shell 1 is connected with a driven rotary rod 403, the arrangement of the driven rotary rod greatly improves the support 403 for the solar panel support 402 through the matching with the, probability greatly reduced that makes solar panel support 402 drop, the condition of having avoided solar panel 405 to break away from power management device protective housing 1 appears, driven dwang 403 is connected through the rotation with support dwang 404, greatly reduced solar panel support 402 pivoted convenience, make solar panel support 402's rotation more convenient, make electric telescopic handle 401's use more convenient, the one end that solar panel support 402 was kept away from to driven dwang 403 is connected with support dwang 404, power management device protective housing 1 and driven dwang 403 have been connected in the setting of support dwang 404, the stability of solar panel support 402 has been promoted greatly through being connected of driven dwang 403 with support dwang 404, greatly reduced the probability that solar panel support 402 breaks away from, support dwang 404 is connected with power management device protective housing 1, support dwang 404 has been connected with power management device protective housing 1 greatly reduced with being connected of power management device protective housing 1 and has been supported dwang 1, make power management device protective housing 1 can support solar panel support 402 through supporting dwang 404, greatly reduced the probability that solar panel support 402 dropped, solar panel support 402 is kept away from being connected with a plurality of evenly distributed's solar panel 405 on the one side of power management device protective housing 1, solar panel 405's setting can realize the conversion between light energy and the electric energy, make the electric energy can transmit and supply power for power management device body 201 in exporting electrical storage 202, setting up through angle modulation formula light energy power generation mechanism 4 has greatly reduced the utilization ratio of light energy, make the electric energy that is converted can be utilized, make export electrical storage 202 can accept multiple energy, make export electrical storage 202 can obtain more energy, make the power supply reliability of exporting electrical storage 202 promote by a wide margin.

Referring to fig. 1 to 9, a power management control box 103 is connected to a power management device protective case 1, a light angle sensor 101, a wind direction sensor 102, a power management device body 201, an output accumulator 202, a transformer 203, a controlled steering gear 303, a generator 310, an electric telescopic rod 401 and a solar panel 405 are all electrically connected to the power management control box 103, the power management control box 103 can control the on and off of the light angle sensor 101, the wind direction sensor 102, the power management device body 201, the output accumulator 202, the transformer 203, the controlled steering gear 303, the generator 310, the electric telescopic rod 401 and the solar panel 405, the light angle sensor 101 can sense the direction of sunlight through its own characteristics, signals are transmitted to the power management control box 103, and then the angle-adjustable light energy power generation mechanism 4 is controlled by the power management control box 103, the solar panel 405 always faces the sunlight, the utilization rate of the sunlight is greatly improved, the wind direction can be sensed by the arrangement of the wind direction sensor 102, the wind direction sensor 102 transmits signals to the power management control box 103, the control type steering gear 303 steers the wind power supporting rod 302 through the control of the power management control box 103, the active rotating shaft fan 305 is always arranged facing the wind, the utilization rate of wind energy is greatly improved, a control unit is arranged in the power management control box 103, a user can program corresponding logic languages into the control unit, and the user can control the operation of the light angle sensor 101, the wind direction sensor 102, the power management device body 201, the output electricity storage device 202, the transformer 203, the control type steering gear 303, the generator 310, the electric telescopic rod 401 and the solar panel 405, the operation of the light angle sensor 101, the wind direction sensor 102, the power management device body 201, the wind direction sensor 102, the power management device, The output accumulator 202, the transformer 203, the control type steering gear 303, the generator 310, the electric telescopic rod 401 and the solar panel 405 can be opened and closed under the control of the power management control box 103.

Referring to fig. 1 to 9, a dynamic voltage frequency adjusting system is disposed in the power management control box 103, and includes a power consumption monitoring system, an automatic control system, a setting system, and a self-protection module, where the power consumption monitoring system is configured to monitor power consumption and values of various data of a plurality of lines in the power management device body 201, so as to facilitate control of the automatic control system, and the power consumption monitoring system is configured to monitor power consumption and values of various data of the plurality of lines in the power management device body 201, so that power consumption and frequency of the plurality of lines in the power management device body 201 are monitored in real time, thereby greatly reducing the possibility of an error occurring in a certain line in the power management device body 201, avoiding the possibility of a power supply problem occurring in a certain device managed by the power management device body 201, and enabling the power management device body 201 to perform more deep optimization on each managed device, the performance and the service life of the equipment managed by the power management device body 201 are greatly improved, the condition that the equipment is damaged due to power supply is avoided, the automatic control system is used for controlling the voltage and the frequency of the power management device body 201 according to the power consumption monitored by the power consumption monitoring system, the setting of the automatic control system greatly improves the accurate control of the power management device body 201 on each line, the performance of the power management device body 201 is greatly improved, the power supply of the output accumulator 202 to the power management device body 201 is optimized, the performance of the power management device body 201 is greatly improved, the occurrence of damage to the power management device body 201 is greatly reduced, the reliability of the power supply of the power management device body 201 and the output accumulator 202 is greatly improved, the possibility that the equipment is damaged by power supply is greatly reduced, and the setting system is used for a user to adjust each item of data in the dynamic voltage adjusting system, the setting system greatly improves the autonomy of a user on the dynamic voltage regulating system, the user can set various values through the setting system, the self-protection module is used for judging data monitored by the power consumption monitoring system, when the parameters tend to dangerous values, the power is automatically cut off for each line in the power management device body 201, the self-protection module greatly improves the protection of each device controlled by the power management device body 201, avoids the damage of each device controlled by the power management device body 201 in the aspect of power supply, greatly prolongs the service life of the device controlled by the power management device body 201, improves the use safety of base station equipment, greatly reduces the possibility of user injury caused by dangers such as short circuit and disconnection, and leads the dangers such as short circuit and disconnection to be sensed as soon as possible and cut off rapidly, avoiding the occurrence of these risks.

Referring to fig. 1 to 9, the power consumption monitoring system includes a power consumption real-time monitoring module, a power consumption value processing module, a normal value storage module, a power consumption comparison module and a power consumption output module, the power consumption real-time monitoring module is used for monitoring the power consumption of a plurality of lines in the power management device body 201 and the values of various data, the setting of the power consumption real-time monitoring module enables the power consumption monitoring system to monitor the lines in the power management device body 201 more quickly, so that dangerous values of the lines in the power management device body 201 can be found more quickly, meanwhile, the automatic control system can react more quickly, the setting of the power consumption real-time monitoring module enables the automatic control system to react quickly according to the monitored values, the power supply reliability of the power management device body 201 is greatly improved, and the service performance of each device in the base station is improved at the same time, the possibility that each device of the base station is damaged due to power supply is greatly reduced, the power consumption value processing module is used for processing the value monitored by the power consumption real-time monitoring module, the power consumption value processing module can simply process the data monitored by the power consumption real-time monitoring module, so that the data monitored by the power consumption real-time monitoring module can be fed back to the automatic control system at a higher speed, the reaction speed of the dynamic voltage frequency regulation system is greatly increased, the reaction speed of the dynamic voltage frequency regulation system is increased, the performance of the base station device is improved, the power consumption of the base station device is reduced, the normal value storage module is used for storing normal values of each line running in the power management device body 201, the retrieval time of the dynamic voltage frequency regulation system is greatly reduced by the normal value storage module, and the normal value storage module is directly extracted from the normal value storage module, monitored data are directly compared, a dangerous value can be found at the highest speed, the value monitored in the power consumption real-time monitoring module is compared with a value monitored in the power consumption real-time monitoring module through the power consumption comparison module, the power consumption comparison module is used for comparing the value monitored in the power consumption real-time monitoring module with a value stored in a normal value storage module, the setting of the power consumption comparison module can compare the value monitored in the power consumption real-time monitoring module with the value stored in the normal value storage module, the reaction time of the self-protection module is greatly reduced, the possibility that base station equipment is damaged is greatly reduced, the base station equipment with the dangerous value can be directly powered off, the dangerous condition of a user is avoided, the power consumption output module is used for outputting the monitored value to an automatic control system, the power consumption output module can transmit the data to the automatic control system, and the data transmission speed is greatly improved, the reaction speed of the self-protection module is greatly reduced, or the value which tends to be dangerous is directly output to the self-protection module.

Referring to fig. 1 to 9, the automatic control system includes a data receiving module, a data processing module and a voltage control module, the data receiving module is configured to receive data transmitted by the power consumption monitoring system, the setting of the data receiving module greatly increases the data receiving speed of the automatic control system, and greatly reduces the response time of the automatic control system, the data processing module is configured to process data transmitted by the power consumption monitoring system, the setting of the data processing module can process the received data, and facilitates the response of the automatic control system, so that the response time of the automatic control system is increased, and the control of the voltage control module is facilitated, the voltage control module is configured to control each line of the power management device body 201 according to the data processed by the data processing module, and the setting of the voltage control module can control the voltage of each line of the power management device body 201, the setting system comprises a normal value input module, a dangerous value setting module, a deviation range module and a time setting module, wherein the normal value input module is used for inputting and recording the power consumption normal value of each line of the power management device body 201, the setting of the normal value input module enables a user to edit the normal value, the autonomy of the user to the dynamic voltage frequency adjusting system is increased, the dangerous value setting module is used for setting and recording the power consumption value of each line of the power management device body 201, the setting of the dangerous value setting module greatly improves the safety of the base station device, the power supply safety of the base station device is greatly improved, and the deviation range module is used for setting the acceptable error value of the normal value, the time setting module is used for recording and setting the maximum and minimum power consumption time of each line of the power management device body 201, so as to facilitate subsequent maintenance of a user.

When the wind power generation device is used specifically, the wind power generation mechanism 3 can convert wind energy into electric energy, the angle modulation type light energy generation mechanism 4 can convert light energy into electric energy, the electric energy converted by the wind power generation mechanism 3 and the angle modulation type light energy generation mechanism 4 is transmitted into the transformer 203, the electric energy is transmitted into the output accumulator 202 through the transformer 203, the output accumulator 202 supplies power to the power management device body 201 through a dynamic voltage frequency regulation system arranged in the power management control box 103, meanwhile, the auxiliary power management device body 201 controls the base station equipment, the service life of the base station equipment is greatly prolonged, the water-cooling type heat dissipation mechanism 5 can dissipate heat for the power management device body 201, the possibility that the power management device body 201 is damaged due to overheating is avoided, and the service life of the power management device body 201 is greatly prolonged.

According to the technical scheme, the invention has the following beneficial effects:

according to the invention, through the arrangement of the corresponding mechanism on the power management device, the power management device adopts multiple power supply modes, so that the reliability of power supply to the power management device is greatly improved, and when the emergency power supply cannot meet the requirement of power supply of all equipment, standard power failure can be performed on each equipment in the base station, thus avoiding damage to the base station equipment and greatly prolonging the service life of the base station equipment.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A low-power consumption power supply management device for 5G base station equipment comprises a power supply management device protective shell (1), it is characterized in that a voltage transformation and electricity storage mechanism (2) is connected in the protective shell (1) of the power supply management device, the transformation electricity storage mechanism (2) comprises a power management device body (201), an output electricity storage device (202) is connected to the power management device body (201), one side of the output accumulator (202) is connected with a transformer (203), the power management device protective shell (1) is connected with a light angle sensor (101), one side of the light angle sensor (101) far away from the power management device protective shell (1) is connected with a wind direction sensor (102), the power management device protective shell (1) is connected with a plurality of wind power generation mechanisms (3) which are uniformly distributed, the power management device protection shell (1) is connected with a plurality of pairs of angle modulation type light energy power generation mechanisms (4) which are uniformly distributed.

2. The low-power-consumption power management device for the 5G base station equipment is characterized in that the wind power generation mechanism (3) comprises a wind power base (301), the wind power base (301) is connected with a power management device protection shell (1), a wind power strut (302) is connected to the wind power base (301), a control type steering gear (303) is connected to the outside of the wind power strut (302), and a rotating shaft supporting box (304) is connected to one end, away from the wind power base (301), of the wind power strut (302).

3. The power management device with low power consumption for 5G base station equipment according to claim 2, wherein one side of the rotating shaft support box (304) is connected with an active rotating shaft fan (305), one end of the active rotating shaft fan (305) far away from the rotating shaft support box (304) is connected with a flow guide top (306), one end of the active rotating shaft fan (305) far away from the flow guide top (306) is connected with a driving shaft (307), and a driving shaft seat (308) is connected between the driving shaft (307) and the rotating shaft support box (304).

4. The power management device with low power consumption for 5G base station equipment according to claim 3, wherein one end of the driving shaft (307) far away from the driving rotating shaft fan (305) is connected with a driving gear (309), one end of the rotating shaft supporting box (304) far away from the driving rotating shaft fan (305) is connected with a generator (310), the generator (310) is connected with a driven shaft (311), a driven shaft seat (312) is connected between the driven shaft (311) and the rotating shaft supporting box (304), and one end of the driven shaft (311) far away from the generator (310) is connected with a driven gear (313) meshed with the driving gear (309).

5. The low power consumption power management device of claim 1, it is characterized in that the angle-adjusting type light energy power generation mechanism (4) comprises an electric telescopic rod (401), the electric telescopic rod (401) is connected with the power management device protective shell (1), the electric telescopic rod (401) is connected with a solar panel support (402), one end of the solar panel support (402) close to the power management device protection shell (1) is connected with a driven rotating rod (403), one end of the driven rotating rod (403) far away from the solar panel support (402) is connected with a supporting rotating rod (404), the supporting rotating rod (404) is connected with the power management device protective shell (1), the solar panel support (402) is connected with a plurality of uniformly distributed solar panels (405) on the surface far away from the power management device protection shell (1).

6. The low-power-consumption power management device for the 5G base station equipment is characterized in that a power management control box (103) is connected to the power management device protective shell (1), and the light angle sensor (101), the wind direction sensor (102), the power management device body (201), the output accumulator (202), the transformer (203), the control type steering gear (303), the generator (310), the electric telescopic rod (401) and the solar panel (405) are all electrically connected with the power management control box (103).

7. The low power consumption power management device of claim 1, wherein the power management control box (103) is provided with a dynamic voltage and frequency adjusting system, the dynamic voltage and frequency adjusting system comprises a power consumption monitoring system, an automatic control system, a setting system and a self-protection module, the power consumption monitoring system is used for monitoring the power consumption of a plurality of lines in the power management device body (201) and the value of each data, the automatic control system is convenient to control, the automatic control system is used for controlling the voltage and the frequency of the power management device body (201) according to the power consumption monitored by the power consumption monitoring system, the setting system is used for a user to adjust each data in the dynamic voltage adjusting system, the self-protection module is used for judging the data monitored by the power consumption monitoring system, when the parameters tend to dangerous values, the power supply management device body (201) is automatically powered off for each line.

8. The low power consumption power management device of claim 7, wherein the power consumption monitoring system comprises a real-time power consumption monitoring module for monitoring power consumption of a plurality of lines in the power management device body (201) and values of various data, a power consumption value processing module for processing the values monitored by the real-time power consumption monitoring module, a normal value storage module for storing normal values of operation of the lines in the power management device body (201), a power consumption comparison module for comparing the values monitored by the real-time power consumption monitoring module with the values stored in the normal value storage module, and a power consumption output module for comparing the values monitored by the real-time power consumption monitoring module with the values stored in the normal value storage module, the power consumption output module is used for outputting the monitored value to an automatic control system or directly outputting a value tending to danger to the self-protection module.

9. The low-power-consumption power management device of claim 7, wherein the automatic control system comprises a data receiving module, a data processing module and a voltage control module, the data receiving module is configured to receive data transmitted by the power consumption monitoring system, the data processing module is configured to process data transmitted by the power consumption monitoring system, so as to facilitate control of the voltage control module, and the voltage control module is configured to control each line of the power management device body (201) according to data processed by the data processing module.

10. The low-power-consumption power management device of claim 7, wherein the setting system comprises a normal value input module, a dangerous value setting module, a deviation range module and a time setting module, the normal value input module is configured to input and record the power consumption normal value of each line of the power management device body (201), the dangerous value setting module is configured to set and record the power consumption value of each line of the power management device body (201), the deviation range module is configured to set an acceptable error value of the normal value, and the time setting module is configured to record and set the maximum and minimum power consumption time of each line of the power management device body (201), so as to facilitate subsequent maintenance of a user.

Images