CN110221670B - Big data server power supply unit - Google Patents

Abstract

The invention discloses a large data server power supply device which comprises a power supply box, wherein a water storage cavity with an upward opening is arranged in the power supply box, a rainwater collection device is arranged in the water storage cavity, when the rainwater collection device is unfolded, solar energy can be absorbed, at the moment, the rainwater collection device can not completely seal the water storage cavity, and when the rainwater collection device is stored, the water storage cavity can collect rainwater.

Description

Big data server power supply unit

Technical Field

The invention relates to the field of energy conservation and environmental protection, in particular to a power supply device of a big data server.

Background

The internet industry is developing faster and faster, the requirements for processing and storing electronic data are higher and higher, the requirements on large data servers are higher and higher, the servers are always in a working state, a power supply device supplying power to the servers is easy to generate heat, the operation of the servers is influenced when the temperature of the power supply is higher, the large servers are generally arranged at the bottom of a lake or a river at present, the power supply is cooled through heat exchange with water, but a large amount of heat is discharged to the lake bottom or the river bottom, which is easy to cause harm to the environment and influence the water ecological balance, the invention provides a large data server power supply device which can solve the problems, the invention is arranged outdoors, carry out cooling to the power through solar energy and wind energy, it is more energy-concerving and environment-protective, can also convert solar energy and wind energy into the electric energy and store, can be used to emergency power supply, can also collect the rainwater and carry out water-cooling to the power.

Disclosure of Invention

The technical problem is as follows:

the water ecological balance is affected by installing a large server at the bottom of a lake or river to cool the power supply.

In order to solve the problems, the embodiment designs a large data server power supply device, which comprises a power supply box, wherein a water storage cavity with an upward opening is arranged in the power supply box, a rainwater collection device is arranged in the water storage cavity, when the rainwater collection device is unfolded, solar energy can be absorbed, at the moment, the rainwater collection device can not completely seal the water storage cavity, when the rainwater collection device is stored, the water storage cavity can collect rainwater, through holes are symmetrically arranged in the inner wall of the lower side of the water storage cavity in a bilateral mode and are communicated with each other, a slide guide cavity is communicated between the inner walls of the lower sides of the through holes, a ventilation cavity is communicated in the inner wall of the lower side of the slide guide cavity, a heat conduction device is arranged in the ventilation cavity, a power supply of a server can be arranged in the heat conduction device, and the rainwater collection device can guide rainwater into the heat conduction device and carry out water cooling on the power supply, be equipped with wind energy absorbing device in the ventilation chamber left and right sides inner wall, wind energy absorbing device can absorb wind energy and be used for right heat conduction device's cooling, be equipped with electric energy conversion device in the ventilation chamber downside inner wall, electric energy conversion device with the meshing is connected between the wind energy absorbing device, electric energy conversion device can with the solar energy that rainwater collection system absorbed and the wind energy that wind energy absorbing device absorbed converts the electric energy into and stores, can be used to emergency power supply. Beneficially, heat conduction device includes slidable locates the heat conduction piece of ventilation intracavity, be equipped with the installation cavity in the heat conduction piece, power fixed mounting in the installation cavity, be equipped with two ascending rivers passageways of opening in the global inner wall of installation cavity, the spiral winding of rivers passageway in the global inner wall of installation cavity, the heat conduction piece upper end links firmly two joints, link up about being equipped with water conservancy diversion hole in the joint, both sides the water conservancy diversion hole is just to both sides respectively the rivers passageway, the joint just to the through-hole, the joint can slide in the through-hole and keep apart the retaining cavity with the ventilation chamber, rainwater accessible in the retaining cavity this moment the water conservancy diversion hole gets into in the rivers passageway, carries out the water-cooling to the power this moment.

Preferably, a vertical threaded hole with a downward opening is formed in the heat conducting block, a vertical screw rod is connected to the vertical threaded hole in an internal thread mode, a motor is fixedly arranged in the inner wall of the lower side of the ventilation cavity, the lower end of the vertical screw rod is connected to the motor in a power mode, the motor is started, and then the vertical screw rod is driven to drive the heat conducting block to ascend.

Beneficially, rainwater collection system includes the symmetrical just chamber of accomodating that is linked together of locating in the inner wall around the retaining chamber, it is upwards to accomodate the chamber opening, the symmetry just slidable is equipped with solar panel around the retaining intracavity, solar panel can absorb solar energy and give big solar energy the electric energy conversion equipment, solar panel can slide in accomodate the intracavity and open the retaining chamber, at this moment the retaining chamber can collect the rainwater.

Preferably, a transverse threaded hole with an opening deviating from the symmetry center is formed in the solar panel, a transverse screw is connected with a transverse screw in the transverse threaded hole, a transmission cavity is formed in the inner wall of the storage cavity on one side far away from the symmetry center, one end of the transverse screw, far away from the symmetry center, extends into the transmission cavity and is fixedly connected with a small belt wheel, a large belt wheel is rotatably arranged on the lower side of the small belt wheel, a belt is connected between the small belt wheel and the large belt wheel, a connecting shaft is fixedly connected into the large belt wheel, a gear cavity is formed in the inner wall of the transmission cavity on one side close to the symmetry center, the inner wall of the gear cavity on one side close to the symmetry center is communicated with the ventilation cavity, one end of the connecting shaft, close to the symmetry center, extends into the gear cavity, the right side of the driving gear is rotatably provided with a connecting gear fixedly connected with the fixed shaft, racks are fixedly arranged in the front end face and the rear end face of the heat conducting block, the racks on the two sides are respectively meshed with the connecting gears on the two sides, and the rainwater collecting device can be driven by the upward sliding of the heat conducting block.

Beneficially, wind energy absorbing device includes bilateral symmetry's locating connect the chamber in the chamber left and right sides inner wall of ventilating, connect the rotatable gear wheel that is equipped with of intracavity, the gear wheel is internal to link firmly slow axle, the slow axle is kept away from symmetry center one end and is extended to the power supply box is outer and has been linked firmly outer fan, the gear wheel lower extreme meshes mutually is equipped with the pinion, link firmly the fast axle in the pinion, the fast axle is close to symmetry center one end and extends to the ventilation intracavity just has linked firmly inner fan, and wind can blow outer fan, and then pass through the gear wheel with the transmission with higher speed between the pinion drives inner fan rotates with higher speed, and then it is right the heat conduction piece cools down.

Preferably, the lower end of the pinion gear is engaged with the electric energy conversion device, and the outer fan is rotated in different directions due to different wind directions, and the pinion gear is rotated in different directions.

Advantageously, the electric energy conversion device comprises external gears which are meshed and arranged at the lower end of the pinion, a reverse meshing cavity with an opening deviating from the symmetry center is arranged in each external gear, a reverse ratchet wheel is connected in each reverse meshing cavity in a meshed mode, the reverse ratchet wheel can be driven to rotate when the external gears rotate reversely, a forward meshing cavity with an opening facing the symmetry center is communicated in the inner wall of the reverse meshing cavity close to one side of the symmetry center, a driven wheel is rotatably arranged in each forward meshing cavity, a forward ratchet wheel is meshed at the upper end of the driven wheel, the upper end of the forward ratchet wheel can be meshed with the external gears, the forward ratchet wheel can be driven to rotate when the external gears rotate forwardly, a long shaft is fixedly connected in each reverse ratchet wheel, a short shaft is fixedly connected at one end, close to the symmetry center, of the driven wheel, and a power generation cavity, the electricity generation intracavity bilateral symmetry and rotatable conducting block that is equipped with, both sides the major axis with the minor axis is close to symmetric center one end and links firmly respectively in both sides the conducting block, the coil has been linked firmly on the conducting block global, the electricity generation chamber about both sides inner wall internal symmetry just linked firmly the electrode, both sides distribute the magnetism and feel the line between the electrode, the conducting block rotates and can drive the coil cutting magnetism feels the line and produces electric current.

Preferably, a storage battery is fixedly arranged in the inner wall of the lower side of the power generation cavity, the conductive block is connected with the storage battery through a wire, and the storage battery is electrically connected with the solar panel.

The invention has the beneficial effects that: the solar cooling device is arranged outdoors, cools and cools the power supply through solar energy and wind energy, is more energy-saving and environment-friendly, can convert the solar energy and the wind energy into electric energy for storage, can be used for emergency power supply, and can collect rainwater to cool the power supply through water cooling.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of an overall structure of a big data server power supply apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of "A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is an enlarged schematic view of "D" of FIG. 3;

FIG. 6 is an enlarged schematic view of "E" of FIG. 3;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a power supply device of a big data server, which is mainly applied to cooling of a large power supply, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a big data server power supply device, which comprises a power supply box 11, wherein a water storage cavity 17 with an upward opening is arranged in the power supply box 11, a rainwater collection device 102 is arranged in the water storage cavity 17, when the rainwater collection device 102 is unfolded, solar energy can be absorbed, at the moment, the rainwater collection device 102 can not completely seal the water storage cavity 17, when the rainwater collection device 102 is stored, the water storage cavity 17 can collect rainwater, through holes 20 are symmetrically arranged in the inner wall of the lower side of the water storage cavity 17 in a left-right mode and are communicated with each other, a slide guide cavity 21 is communicated between the inner walls of the lower sides of the through holes 20, a ventilation cavity 24 is communicated in the inner wall of the lower side of the slide guide cavity 21, a heat conduction device 100 is arranged in the ventilation cavity 24, a power supply of a server can be installed in the heat conduction device 100, and the rainwater collection device 102 can guide the rainwater into the heat conduction device, be equipped with wind energy absorbing device 103 in the 24 left and right sides inner walls in ventilation chamber, wind energy absorbing device 103 can absorb wind energy and be used for right heat conduction device 100's cooling, be equipped with electric energy conversion device 101 in the 24 downside inner walls in ventilation chamber, electric energy conversion device 101 with the meshing is connected between the wind energy absorbing device 103, electric energy conversion device 101 can with the solar energy that rainwater collection system 102 absorbed and the wind energy that wind energy absorbing device 103 absorbed converts the electric energy into and stores, can be used to emergency power supply.

According to the embodiment, the heat conduction device 100 will be described in detail below, the heat conduction device 100 includes a heat conduction block 23 slidably disposed in the ventilation cavity 24, an installation cavity 45 is disposed in the heat conduction block 23, a power supply is fixedly installed in the installation cavity 45, two water flow channels 22 with upward openings are disposed in the inner wall of the peripheral surface of the installation cavity 45, the water flow channels 22 spirally wind the inner wall of the peripheral surface of the installation cavity 45, the upper end of the heat conduction block 23 is fixedly connected with two connectors 15, the connectors 15 are provided with guide holes 16 vertically penetrating through the connectors 15, the guide holes 16 at two sides are respectively opposite to the water flow channels 22 at two sides, the connectors 15 are opposite to the through holes 20, the connectors 15 can slide into the through holes 20 and isolate the water storage cavity 17 from the ventilation cavity 24, at this time, rainwater in the water storage cavity 17 can enter the water flow channels 22 through the guide holes 16, and at the moment, the power supply is cooled by water.

Beneficially, a vertical threaded hole 32 with a downward opening is formed in the heat conduction block 23, a vertical screw 31 is connected to the vertical threaded hole 32 through an internal thread, a motor 30 is fixedly arranged in the inner wall of the lower side of the ventilation cavity 24, the lower end of the vertical screw 31 is connected to the motor 30 through power, the motor 30 is started, and then the heat conduction block 23 is driven to ascend by driving the vertical screw 31.

According to an embodiment, the rainwater collection device 102 is described in detail below, the rainwater collection device 102 includes a front and a back symmetrical storage cavities 56 that are communicated with each other and are disposed in front and back inner walls of the water storage cavity 17, the storage cavities 56 are opened upwards, solar panels 19 are symmetrically and slidably disposed in the water storage cavity 17, the solar panels 19 can absorb solar energy and transmit the large solar energy to the electric energy conversion device 101, the solar panels 19 can slide into the storage cavities 56 and open the water storage cavity 17, and at this time, the water storage cavity 17 can collect rainwater.

Beneficially, the solar panel 19 is provided with a transverse threaded hole 18 with an opening deviating from the symmetry center, the transverse threaded hole 18 is internally threaded with a transverse screw 57, the accommodating cavity 56 is provided with a transmission cavity 48 in the inner wall on one side of the symmetry center, the transverse screw 57 is far away from the symmetry center and extends to the transmission cavity 48 and is fixedly connected with a small belt wheel 55, the lower side of the small belt wheel 55 is rotatably provided with a large belt wheel 46, a belt 49 is connected between the small belt wheel 55 and the large belt wheel 46, the large belt wheel 46 is fixedly connected with a connecting shaft 47, the transmission cavity 48 is provided with a gear cavity 51 in the inner wall on one side close to the symmetry center, the gear cavity 51 is communicated with the ventilation cavity 24 near to one side of the symmetry center, the connecting shaft 47 extends to the gear cavity 51 near to one end of the symmetry center and is fixedly connected with a driven gear 50, the driving gear 58 is fixedly connected with a fixed shaft 53, the right side of the driving gear 58 is rotatably provided with a connecting gear 52 fixedly connected with the fixed shaft 53, racks 54 are fixedly arranged in the front end face and the rear end face of the heat conducting block 23, the racks 54 on the two sides are respectively meshed with the connecting gears 52 on the two sides, and the rainwater collecting device 102 can be driven by the heat conducting block 23 to slide upwards.

According to an embodiment, the wind energy absorption device 103 is described in detail below, the wind energy absorption device 103 includes a connection cavity 34 which is arranged in the inner walls of the ventilation cavity 24 at the left and right sides in a left-right symmetrical manner, a big gear 14 is rotatably arranged in the connecting cavity 34, a slow shaft 13 is fixedly connected in the big gear 14, one end of the slow shaft 13 far away from the symmetry center extends out of the power box 11 and is fixedly connected with an external fan 12, a small gear 36 is meshed with the lower end of the big gear 14, a fast shaft 35 is fixedly connected in the small gear 36, one end of the fast shaft 35, which is close to the symmetry center, extends into the ventilation chamber 24 and is fixedly connected with the inner fan 33, and wind can blow the outer fan 12, and then the inner fan 33 is driven to rotate in an accelerated manner through the accelerated transmission between the large gear 14 and the small gear 36, so as to cool the heat conducting block 23.

Advantageously, the lower end of the pinion gear 36 is engaged with the power conversion device 101, and the rotation direction of the outer fan 12 and the rotation direction of the pinion gear 36 are different due to the difference of wind directions.

According to an embodiment, the electric energy conversion device 101 is described in detail below, the electric energy conversion device 101 includes an external gear 42 engaged with the external gear 42 disposed at the lower end of the pinion 36, a reverse engagement cavity 40 having an opening facing away from the center of symmetry is disposed in the external gear 42, a reverse ratchet wheel 39 is connected in the reverse engagement cavity 40 in a manner of being engageable with the external gear 42, the reverse ratchet wheel 39 is driven to rotate when the external gear 42 rotates in a reverse direction, a forward engagement cavity 41 having an opening facing the center of symmetry is connected in the reverse engagement cavity 40 and disposed in an inner wall of a side close to the center of symmetry in a communicating manner, a driven wheel 38 is rotatably disposed in the forward engagement cavity 41, a forward ratchet wheel 37 is engaged with the driven wheel 38 at the upper end, the forward ratchet wheel 37 is engageable with the external gear 42 at the upper end, the forward ratchet wheel 37 is driven to rotate when the external gear, driven wheel 38 is close to symmetric center one end and has linked firmly minor axis 43, both sides connect the chamber 34 to be close to and be equipped with the electricity generation chamber 27 in the inner wall of symmetric center one side, bilateral symmetry and rotatable conducting block 28 that is equipped with in electricity generation chamber 27, both sides major axis 44 with minor axis 43 is close to symmetric center one end and links firmly respectively in both sides conducting block 28, conducting block 28 has linked firmly coil 29 on global, the interior symmetry of both sides inner wall about electricity generation chamber 27 just has linked firmly electrode 26, both sides distribute the magnetism line of feeling between the electrode 26, conducting block 28 rotates and can drive coil 29 cuts the magnetism line of feeling and produces electric current.

Beneficially, a storage battery 25 is fixedly arranged in the inner wall of the lower side of the power generation cavity 27, the conductive block 28 is connected with the storage battery 25 through a wire, and the storage battery 25 is electrically connected with the solar panel 19.

The following describes in detail the usage steps of a big data server power supply device in this document with reference to fig. 1 to 7:

in the initial state, the solar panel 19 is located in the reservoir chamber 17 with the joint 15 in the slide guide chamber 21 and the heat conducting block 23 in the lower limit position.

The power supply is arranged in the mounting cavity 45, the power supply can conduct heat through the heat conducting block 23, wind blows to the outer fan 12, the large gear 14 is driven to rotate through the slow shaft 13, the small gear 36 is driven to rotate rapidly, the inner fan 33 is driven to rotate rapidly through the fast shaft 35, the heat conducting block 23 is cooled, the power supply can be indirectly cooled, the small gear 36 can drive the outer gear 42 to rotate, when the outer fan 12 rotates forwards, the small gear 36 rotates backwards, the outer gear 42 can be driven to rotate forwards, the outer gear 42 cannot drive the reverse ratchet wheel 39 to rotate, the outer gear 42 can drive the forward ratchet wheel 37 to rotate forwards, the driven wheel 38 is driven to rotate backwards, the conductive block 28 is driven to rotate backwards through the short shaft 43, the coil 29 can be driven to rotate and cut the magnetic induction lines, the coil 29 generates current and charges the storage battery 25 through the conductive block 28, and the reverse rotation of the conductive block 28 is driven to rotate backwards, at the moment, the external gear 42 is in forward rotation, the reverse ratchet wheel 39 is not meshed with the external gear 42, when the external fan 12 rotates reversely, the external gear 42 rotates forward, the external gear 42 drives the reverse ratchet wheel 39 to rotate reversely, the conductive block 28 is driven to rotate reversely through the long shaft 44 and charge the storage battery 25, meanwhile, the conductive block 28 drives the driven wheel 38 to rotate reversely through the short shaft 43 and further drives the forward ratchet wheel 37 to rotate forward, at the moment, the external gear 42 rotates reversely, the external gear 42 is not meshed with the forward ratchet wheel 37, the conductive block 28 can only charge the storage battery 25 in reverse rotation, and the battery 25 can be.

When the device is positioned in the sunshine, the solar panel 19 absorbs solar energy and converts the solar energy into electric energy to be stored in the storage battery 25, when the device is positioned in the rainy day, the motor 30 is started, the heat conducting block 23 is driven to rise through the vertical screw 31, the joint 15 is driven to rise and extend into the through hole 20, the water storage cavity 17 and the ventilation cavity 24 are separated at the moment, rainwater in the water storage cavity 17 is prevented from entering the ventilation cavity 24, after the joint 15 extends into the through hole 20, the rack 54 is meshed with the connecting gear 52, the rack 54 rises and drives the connecting gear 52 to rotate, the driving gear 58 is driven to rotate through the fixed shaft 53, the driven gear 50 is driven to rotate, the large belt wheel 46 is driven to rotate through the connecting shaft 47, the small belt wheel 55 is driven to rotate through the belt 49, the solar panel 19 is driven to slide into the accommodating cavity 56 to be accommodated through the transverse screw, rainwater enters the water flow channel 22 through the flow guide holes 16, power supply heat is conducted to the rainwater through the heat conducting block 23, and the power supply is cooled through evaporation of the rainwater.

The invention has the beneficial effects that: the solar cooling device is arranged outdoors, cools and cools the power supply through solar energy and wind energy, is more energy-saving and environment-friendly, can convert the solar energy and the wind energy into electric energy for storage, can be used for emergency power supply, and can collect rainwater to cool the power supply through water cooling.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (2)

1. A big data server power supply device comprises a power supply box; a water storage cavity with an upward opening is formed in the power box, a rainwater collecting device is arranged in the water storage cavity, when the rainwater collecting device is unfolded, solar energy can be absorbed, at the moment, the rainwater collecting device cannot completely seal the water storage cavity, and when the rainwater collecting device is stored, rainwater can be collected by the water storage cavity; the rainwater collecting device can guide rainwater into the heat conduction device and cool the power supply by water; wind energy absorption devices are arranged in the inner walls of the left side and the right side of the ventilation cavity, and can absorb wind energy and be used for cooling the heat conduction device; an electric energy conversion device is arranged in the inner wall of the lower side of the ventilation cavity, the electric energy conversion device is meshed with the wind energy absorption device, the electric energy conversion device can convert the solar energy absorbed by the rainwater collection device and the wind energy absorbed by the wind energy absorption device into electric energy and store the electric energy, and the electric energy conversion device can be used for emergency power supply;

the heat conduction device comprises a heat conduction block which is arranged in the ventilation cavity in a sliding manner, an installation cavity is arranged in the heat conduction block, and a power supply is fixedly arranged in the installation cavity; two water flow channels with upward openings are arranged in the inner wall of the peripheral surface of the mounting cavity, the water flow channels spirally wind the inner wall of the peripheral surface of the mounting cavity, the upper end of the heat conducting block is fixedly connected with two joints, the joints are internally provided with flow guide holes which are vertically communicated, the flow guide holes at two sides are respectively opposite to the water flow channels at two sides, and the joints are opposite to the through holes;

a vertical threaded hole with a downward opening is formed in the heat conduction block, a vertical screw rod is connected to the vertical threaded hole in an internal thread mode, a motor is fixedly arranged in the inner wall of the lower side of the ventilation cavity, and the lower end of the vertical screw rod is connected to the motor in a power mode;

the rainwater collection device comprises storage cavities which are symmetrical in the front and back and communicated with each other and are arranged in the front and back inner walls of the water storage cavity, the storage cavities are opened upwards, and solar panels are arranged in the water storage cavity in the front and back symmetrical and slidable mode;

a transverse threaded hole with an opening deviating from the symmetrical center is arranged in the solar panel, a transverse screw rod is connected with the inner thread of the transverse threaded hole, a transmission cavity is arranged in the inner wall of one side of the containing cavity far away from the symmetry center, one end of the transverse screw rod far away from the symmetry center extends into the transmission cavity and is fixedly connected with a small belt wheel, a large belt wheel is rotatably arranged at the lower side of the small belt wheel, a belt is connected between the small belt wheel and the large belt wheel, the big belt wheel is fixedly connected with a connecting shaft, a gear cavity is arranged in the inner wall of one side of the transmission cavity close to the symmetrical center, the inner wall of one side of the gear cavity close to the symmetry center is communicated with the ventilation cavity, one end of the connecting shaft close to the symmetry center extends into the gear cavity and is fixedly connected with a driven gear, the right end of the driven gear is meshed with a driving gear, a fixed shaft is fixedly connected in the driving gear, and a connecting gear fixedly connected to the fixed shaft is rotatably arranged on the right side of the driving gear; racks are fixedly arranged in the front end face and the rear end face of the heat conducting block, the racks on the two sides are respectively meshed with the connecting gears on the two sides, and the rainwater collecting device can be driven by the upward sliding of the heat conducting block;

the wind energy absorption device comprises connecting cavities which are arranged in the inner walls of the left side and the right side of the ventilation cavity in a bilateral symmetry mode, a large gear is rotatably arranged in each connecting cavity, a slow shaft is fixedly connected in each large gear, one end, far away from the symmetry center, of each slow shaft extends out of the power box and is fixedly connected with an outer fan, the lower ends of the large gears are meshed with a small gear, a fast shaft is fixedly connected in each small gear, one end, close to the symmetry center, of each fast shaft extends into the ventilation cavity and is fixedly connected with an inner fan;

the lower end of the pinion is meshed and connected with the electric energy conversion device;

the electric energy conversion device comprises an external gear which is arranged at the lower end of the pinion in a meshed mode, a reverse meshing cavity with an opening deviating from a symmetry center is arranged in the external gear, a reverse ratchet wheel is connected in the reverse meshing cavity in a meshed mode, a forward meshing cavity with an opening facing the symmetry center is arranged in the inner wall of the reverse meshing cavity close to one side of the symmetry center and communicated with the inner wall of the reverse meshing cavity, a driven wheel is rotatably arranged in the forward meshing cavity, a forward ratchet wheel is arranged at the upper end of the driven wheel in a meshed mode, the upper end of the forward ratchet wheel can be meshed with the external gear, a long shaft is fixedly connected in the reverse ratchet wheel; the both sides the connection chamber is close to and is equipped with the electricity generation chamber in the inner wall of symmetry center one side, electricity generation intracavity bilateral symmetry and rotatable conducting block that is equipped with, both sides the major axis with the minor axis is close to symmetry center one end and links firmly respectively in both sides the conducting block, the conducting block has linked firmly the coil on global, the electricity generation chamber about the both sides inner wall internal symmetry just has linked firmly the electrode.

2. The big data server power supply apparatus of claim 1, wherein: the storage battery is fixedly arranged in the inner wall of the lower side of the power generation cavity, the conductive blocks are connected with the storage battery through wires, and the storage battery is electrically connected with the solar panel.

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