CN112350263B - Power transmission cable storage structure, power supply system, data processing system and power supply method - Google Patents

Abstract

The application discloses structure and power supply system, data processing system and power supply method are accomodate to transmission cable, and wherein, the structure is accomodate to transmission cable includes: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body; the body moves through the movable mechanism to supply power to the designated electronic equipment. This application drives the body through movable mechanism and removes for the body can remove to the appointed electronic equipment position of being listed as, for the electronic equipment power supply of this row, thereby under the condition of the construction volume that reduces the power allotment, has realized the power allotment to arbitrary rack in the data center, has improved the efficiency of power allotment.

Description

Power transmission cable storage structure, power supply system, data processing system and power supply method

Technical Field

The application relates to the technical field of power transmission and distribution, in particular to a power transmission cable storage structure, a power supply system, a data processing system and a method for supplying power to electronic equipment.

Background

A data center is a facility for hosting computer systems (or server hosts) and associated components. Among them, the conventional data center has a long service life and needs a long time to be used once the delivery is completed. The power of the server host is rapidly increased, and the server host is updated and iterated every few years, so that the power consumption of the server is rapidly increased, and further the power of the traditional cabinet is increased. In this regard, it is desirable to utilize the electrical power from one row of cabinets to another row of cabinets, and sometimes even to apply high power to any cabinet.

The existing scheme of laying cables is mainly adopted for supplying power to the data center, however, after one-time wiring construction of the laid cables is finished, the power of a single cabinet is fixed, the power cannot be flexibly distributed among the cabinets, if the power of the cabinets is adjusted, the cables need to be laid again, the construction amount of the laid cables is large, and the power distribution cost of the cabinets is increased.

Therefore, how to flexibly and efficiently implement power allocation of any cabinet of the data center under the condition of small construction amount becomes an urgent problem to be solved by the technical personnel in the field.

Disclosure of Invention

The application provides a structure is accomodate to transmission cable, includes: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body;

the body moves through the movable mechanism to supply power to the appointed electronic equipment.

Optionally, the movable mechanism is disposed at a bottom outside the body.

Optionally, the movable mechanism is a pulley mechanism, and the pulley mechanism includes at least two pulleys arranged at intervals along the length direction of the body.

Optionally, the body is driven to move along a direction perpendicular to the length direction of the body by sliding of the pulley; or the body is driven to move along the length direction of the body.

Optionally, the pulley mechanism further comprises a pulley connecting structure for connecting the body and the pulley.

Optionally, the pulley connection structure is a directional pulley connection structure, and the directional pulley connection structure is used for enabling the pulley to slide according to a set direction; or the pulley connecting structure is a diverting pulley connecting structure, and the diverting pulley connecting structure is used for enabling the pulleys to slide in any direction.

Optionally, the method further comprises: the plug box is arranged on the body and used for being connected with appointed electronic equipment to supply power to the appointed electronic equipment.

The present application further provides a power supply system, including: the power transmission cable accommodating structure is used for supplying power to electronic equipment, and the movable supporting mechanism is used for supporting the power transmission cable accommodating structure to move;

the power transmission cable accommodating structure moves through the support of the movable support mechanism to supply power to the specified electronic equipment.

Optionally, the movable supporting mechanism includes a plurality of supporting rods arranged at intervals along the length direction of the power transmission cable accommodating structure, a movable rail is arranged on one side of the supporting rods facing the power transmission cable accommodating structure, and the extending direction of the movable rail and the length direction of the power transmission cable accommodating structure are arranged at an angle.

Optionally, the plurality of support rods arranged at intervals are arranged in a line along the length direction of the power transmission cable accommodating structure.

Optionally, the movable supporting mechanism at least comprises a first supporting mechanism and a second supporting mechanism which are arranged in parallel perpendicular to the horizontal plane, the first supporting mechanism is located below the second supporting mechanism, and a space is formed between the first supporting mechanism and the second supporting mechanism.

Optionally, the power transmission cable housing structure comprises at least a first power transmission cable housing structure and a second power transmission cable housing structure, wherein,

the first power transmission cable accommodating structure is positioned above the first supporting mechanism and moves along the moving track of the first supporting mechanism;

the second power transmission cable storage structure is located above the second support mechanism and moves along a movement track of the second support mechanism.

Optionally, the power transmission cable housing structure comprises: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body; the body moves on the moving support mechanism through the movable mechanism to supply power to the specified electronic equipment.

Optionally, the movable mechanism is disposed at a bottom outside the body.

Optionally, the movable mechanism is a pulley mechanism, and the pulley mechanism includes at least two pulleys arranged at intervals along the length direction of the body.

The present application also provides a data processing system, comprising: at least two electronic devices for data processing and the power supply system.

Optionally, the power supply system is disposed above the at least two electronic devices.

Optionally, the at least two electronic devices are arranged in parallel.

Optionally, the power supply system includes a power transmission cable housing structure for supplying power to the electronic device and a movement support mechanism for supporting the power transmission cable housing structure to move; wherein,

the moving track of the moving support mechanism is vertical to the electronic equipment arranged in the column direction;

the length direction of the power transmission cable accommodating structure is parallel to the column direction of the electronic equipment; the power transmission cable storage structure moves to the position above the appointed electronic equipment through the moving track of the moving support mechanism and supplies power to the appointed electronic equipment.

Optionally, the at least two electronic devices comprise at least two cabinets provided with servers.

The present application further provides a wireless power supply apparatus, including: the wireless power supply device comprises a body for wirelessly supplying power to the electronic equipment and a movable mechanism arranged on the body;

the body moves through the movable mechanism to wirelessly supply power to the appointed electronic equipment.

The present application further provides a power supply system, including: the wireless power supply device can wirelessly supply power to the electronic device, and the mobile support mechanism supports the mobile wireless power supply device;

the wireless power supply equipment moves through the support of the movable support mechanism and supplies power wirelessly for the appointed electronic equipment.

The present application also provides a charging apparatus, including: the vehicle charging device comprises a charging device body for charging vehicles and a movable mechanism arranged on the charging device body;

the charging equipment body moves through the movable mechanism to charge the appointed vehicle.

The present application further provides a power supply system, including: the vehicle charging device comprises a charging device capable of charging a vehicle and a moving support mechanism for supporting the charging device to move;

the charging equipment moves through the support of the movable support mechanism to charge the appointed vehicles.

The present application further provides a method for supplying power to an electronic device, comprising:

obtaining demand information that power supply needs to be increased for the first electronic device;

driving a power transmission cable accommodating structure for supplying power to second electronic equipment to move to a specified position according to the requirement information;

and supplying power to the first electronic equipment by using the power transmission cable storage structure reaching the designated position.

Compared with the prior art, the method has the following advantages: the application provides a structure is accomodate to transmission cable, includes: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body; the body moves through the movable mechanism to supply power to the designated electronic equipment. This application drives the body through movable mechanism and removes for the body can remove to the appointed electronic equipment position of being listed as, for the electronic equipment power supply of this row, thereby under the condition of the construction volume that reduces the power allotment, has realized the power allotment to arbitrary rack in the data center, has improved the efficiency of power allotment.

Drawings

FIG. 1 is a schematic diagram of a bus duct power supply structure in the prior art;

fig. 2 is a schematic structural view of a power transmission cable storage structure according to a first embodiment of the present application;

fig. 3 is a schematic structural diagram of a power supply system according to a second embodiment of the present application;

FIG. 4 is a front view of a power supply system provided in a second embodiment of the present application;

FIG. 5 is a side view of a power supply system provided in a second embodiment of the present application;

FIG. 6 is a block diagram of a data processing system according to a third embodiment of the present application;

fig. 7 is a schematic structural diagram of a wireless power supply apparatus according to a fourth embodiment of the present application;

fig. 8 is a schematic structural diagram of a power supply system according to a fifth embodiment of the present application;

fig. 9 is a schematic structural diagram of a charging device according to a sixth embodiment of the present application;

fig. 10 is a schematic structural diagram of a power supply system according to a seventh embodiment of the present application;

fig. 11 is a flowchart illustrating a method for supplying power to an electronic device according to an eighth embodiment of the present application.

The power cable storage structure 100, the body 1, the first power cable storage structure 11, the second power cable storage structure 12, the movable mechanism 2, the pulley mechanism 20, the pulley 21, the pulley connecting structure 22, the jack box 3, the electronic device 4, the power supply system 200, the movable supporting mechanism 5, the supporting rod 51, the first supporting mechanism 52, the second supporting mechanism 53, and the data processing system 300.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of implementation in many different ways than those herein set forth and of similar import by those skilled in the art without departing from the spirit of this application and is therefore not limited to the specific implementations disclosed below.

A first embodiment of the present application provides a power transmission cable storage structure 100 for allocating power for cabinets of a data center. As shown in fig. 1, fig. 1 is a schematic structural diagram of a bus duct power supply provided in the prior art. The cabinets (electronic devices 4) of the data center are arranged in rows, and fig. 1 only shows one row of cabinets, but in an actual data center, the cabinets may be arranged in multiple rows; the bus duct 10 is correspondingly arranged above the row of cabinets, and the electric energy is transmitted to the row of cabinets through the jack boxes 3 on the bus duct 10. However, the bus duct 10 is fixedly arranged, and only the power of the row of cabinets can be allocated by replacing the jack box 3 on the bus duct 10, and the redundant electric energy of the row of cabinets cannot be supplied to another row of cabinets, so that the power capacity of the row is solidified, and the power allocation of the cross-row bus duct 10 cannot be realized. The power transmission cable housing structure 100 of the present application can implement cross-column power supply allocation.

As shown in fig. 1 and 2, fig. 2 does not show the electronic device 4, but it is the same as the electronic device 4 in fig. 1, and thus can be combined with the electronic device shown in fig. 1. The first embodiment of the present application provides a power transmission cable housing structure 100, including: a body 1 for supplying power to the electronic device 4, and a movable mechanism 2 provided on the body 1; the body 1 is moved by the movable mechanism 2, and when moved to a specified position, supplies power to a specified electronic device 4. In this embodiment, the power transmission cable accommodating structure 100 may be a bus duct, and the power transmission cable is accommodated through a groove structure. Of course, other configurations are possible, and the present embodiment is intended to be within the scope as long as the power transmission cable can be stored. In this embodiment, the electronic device 4 is a cabinet.

Specifically, as shown in fig. 2, the movable mechanism 2 is provided at the bottom outside the body 1; in the present embodiment, the movable mechanism 2 is a pulley mechanism 20, and the pulley mechanism 20 includes at least two pulleys 21 arranged at intervals along the length direction of the body 1; the number of the pulleys 21 is set to be at least two, the pulleys can support and drive the body 1 to slide, the number of the pulleys 21 can be reduced, and the manufacturing cost is reduced. Of course, the number of the pulleys 21 may be multiple, and the setting of the multiple pulleys 21 may disperse the pressure of the bearing body 1 on the pulleys 21, and may also make the sliding of the body 1 more stable. In the embodiment, the sliding of the pulley 21 drives the body 1 to move along the direction perpendicular to the length direction of the body 1; or, the body 1 is driven to move along the length direction of the body 1. Of course, the sliding of the pulley 21 can move the body 1 in any direction.

Further, in the present embodiment, the pulley mechanism 20 further includes a pulley connecting structure 22 for connecting the body 1 and the pulley 21. The pulley connecting structure 22 is a directional pulley connecting structure (not shown), the directional pulley connecting structure is fixedly arranged at the bottom of the outer side of the body 1, and the pulley 21 is mounted on the directional pulley connecting structure, so that the sliding direction of the pulley 21 is unique, that is, the directional pulley connecting structure is used for enabling the pulley 21 to slide according to a set direction. Alternatively, the pulley connection 22 is a diverting pulley connection (not shown) movably arranged at the bottom outside the body 1, on which the pulley 21 is mounted, so that the sliding direction of the pulley 21 is not unique, i.e. the diverting pulley connection is used to make the pulley 21 slide in any direction.

That is, whether the pulley 21 rotates by itself or the pulley connecting structure 22 drives the pulley 21 to rotate, it is within the scope of the present embodiment as long as the pulley mechanism 20 can drive the main body 1 to slide in different directions. Of course, in other examples, the movable mechanism 2 may also be of other structures, such as a roller structure, or a pulley structure, as long as the movable mechanism 2 can drive the main body 1 to move, which is within the scope of the present embodiment.

In the present embodiment, in order to realize the connection between the main body 1 and the electronic device 4, a jack box 3 is further provided, and the jack box 3 is provided on the main body 1, and is used for connecting with a specified electronic device 4 and realizing power supply for the specified electronic device 4. Since the jack box 3 is a relatively sophisticated device, it will not be described again here.

The first embodiment of the present application provides a power transmission cable housing structure 100, including: a body 1 for supplying power to the electronic device 4, and a movable mechanism 2 provided on the body 1; the body 1 slides by the movable mechanism 2 to supply power to the specified electronic device 4. This application drives body 1 through movable mechanism 2 and slides for body 1 can slide to the 4 positions of an appointed electronic equipment, for the 4 power supplies of electronic equipment of this row, thereby under the condition of the construction volume that reduces the power allotment, has realized the power allotment to arbitrary rack in the data center, has improved the efficiency of power allotment.

In the second embodiment of the present application, since the power feeding system 200 employs the power transmission cable housing structure 100 according to the first embodiment, reference is made to the components of the power feeding system 200 according to the second embodiment.

As shown in fig. 3, the power supply system 200 of the present embodiment includes: a power transmission cable housing structure 100 that supplies power to the electronic apparatus 4, and a movement support mechanism 5 that supports movement of the power transmission cable housing structure 100; the power transmission cable housing structure 100 moves while being supported by the movement support mechanism 5, and supplies power to the specified electronic device 4.

In the present embodiment, as shown in fig. 2 and 3, the power transmission cable housing structure 100 includes: a body 1 for supplying power to the electronic device 4, and a movable mechanism 2 provided on the body 1; the body 1 is moved by the movable mechanism 2, and when moved to a specified position, supplies power to a specified electronic device 4. In this embodiment, the power transmission cable storage structure 100 may be a bus duct, and the power transmission cable is stored through a groove structure. Of course, other configurations are possible, and the present embodiment is intended to be within the scope as long as the power transmission cable can be stored. In this embodiment, the electronic device 4 is a cabinet.

Specifically, referring to fig. 2, the pulley mechanism 20 is disposed at the bottom of the outer side of the body 1, in this embodiment, the movable mechanism 2 is the pulley mechanism 20, and the pulley mechanism 20 includes at least two pulleys 21 disposed at intervals along the length direction of the body 1. The number of the pulleys 21 is set to be at least two, the pulleys can support and drive the body 1 to slide, the number of the pulleys 21 can be reduced, and the manufacturing cost is reduced. Of course, the number of the pulleys 21 may also be multiple, that is, multiple pulleys 21 are correspondingly installed on the moving tracks of the multiple support rods 51 of the moving support mechanism 5; the arrangement of the plurality of pulleys 21 can disperse the pressure of the bearing body 1 on the pulleys 21 and can ensure that the body 1 slides more smoothly. In the embodiment, the sliding of the pulley 21 drives the body 1 to move along the direction perpendicular to the length direction of the body 1; or, the body 1 is driven to move along the length direction of the body 1. Of course, the sliding of the pulley 21 causes the body 1 to move in any direction.

Further, in the present embodiment, the pulley mechanism 20 further includes a pulley connecting structure 22 for connecting the body 1 and the pulley 21. The pulley connecting structure 22 is a directional pulley connecting structure (not shown), the directional pulley connecting structure is fixedly arranged at the bottom of the outer side of the body 1, and the pulley 21 is mounted on the directional pulley connecting structure, so that the sliding direction of the pulley 21 is unique, namely the directional pulley connecting structure is used for enabling the pulley to slide according to a set direction. Alternatively, the pulley connection 22 is a diverting pulley connection (not shown) movably arranged at the bottom outside the body 1, on which the pulley 21 is mounted, so that the sliding direction of the pulley 21 is not unique, i.e. the diverting pulley connection is used for sliding the pulley in any direction. That is, whether the pulley 21 rotates by itself or the pulley is rotated by the pulley connection structure 22, it is within the scope of the present embodiment as long as the pulley mechanism 20 can drive the body 1 to slide in different directions. Of course, in other examples, the movable mechanism 2 may also be of other structures, such as a roller structure, or a pulley structure, as long as the movable mechanism 2 can drive the main body 1 to move, which is within the scope of the present embodiment.

In the present embodiment, in order to connect the body 1 and the electronic device 4, a jack box 3 is further provided, and the jack box 3 is disposed on the body 1 and is used for connecting with a specified electronic device 4 to supply power to the specified electronic device 4. Since the jack box 3 is a relatively sophisticated device, it will not be described again here.

Further, in the present embodiment, based on the number of rows of the electronic devices 4 being many, in order to meet the power allocation requirement for the electronic devices 4, the power transmission cable housing structure 100 at least includes a first power transmission cable housing structure 11 and a second power transmission cable housing structure 12; here, the first power transmission cable housing structure 11 and the second power transmission cable housing structure 12 are merely expressions in terms of numbers, and both structures are the same as those of the aforementioned power transmission cable housing structure 100. In order to facilitate the movement of the first power cable housing structure 11 and the second power cable housing structure 12, in this embodiment, as shown in fig. 3 and 4, the moving support mechanism 5 at least includes a first support mechanism 52 and a second support mechanism 53 that are arranged in parallel along a vertical horizontal plane, the first support mechanism 52 is located below the second support mechanism 53, and a distance is provided between the first support mechanism 52 and the second support mechanism 53; the power transmission cable housing structure 100 is installed between the pitches, specifically, the first power transmission cable housing structure 11 is located above the first support mechanism 52, that is, the first power transmission cable housing structure 11 is located between the pitches; the second power cable housing structure 12 is located above the second support mechanism 53.

In the present embodiment, the movable support mechanism 5 includes a plurality of support rods 51 arranged at intervals along the length direction of the power transmission cable housing structure 100, and the plurality of support rods 51 arranged at intervals are arranged in a line along the length direction of the power transmission cable housing structure 100; of course, in other embodiments, the plurality of support rods 51 arranged at intervals are arranged in a wave shape along the length direction of the power cable housing structure 100. There are many ways in which the plurality of support rods 51 arranged at intervals are arranged along the longitudinal direction of the power transmission cable housing structure 100, and the scope of the present embodiment is intended as long as the movement of the power transmission cable housing structure 100 can be supported.

A moving rail (not shown) is provided on a side of the support rod 51 toward the power transmission cable housing structure 100, and the plurality of pulleys 21 of the first power transmission cable housing structure 11 can move along the moving rail of the support rod 51 of the first support mechanism 52; the plurality of pulleys 21 of the second power cable housing structure 12 are movable along the movement track of the support rod 51 of the second support mechanism 53. The extending direction of the moving track is disposed at an angle to the length direction of the power transmission cable housing structure 100, and in this embodiment, the extending direction of the moving track is perpendicular to the length direction of the power transmission cable housing structure 100.

It should be noted that, as shown in fig. 5, the number of the first power transmission cable housing structures 11 mounted on the first support mechanism 52 may be plural, and the number of the second power transmission cable housing structures 12 mounted on the second support mechanism 53 may be plural, so that not only the power requirements of the electronic devices 4 in plural rows can be satisfied, but also the power distribution to the cabinets in the data center in the rows can be realized.

The second embodiment of the present application provides a power supply system 200, including: a power transmission cable housing structure 100 that supplies power to the electronic apparatus 4, and a movement support mechanism 5 that supports movement of the power transmission cable housing structure 100; the power transmission cable housing structure 100 moves while being supported by the movement support mechanism 5, and supplies power to a predetermined electronic device 4. According to the power distribution cable storage structure, the movable mechanism 2 of the power distribution cable storage structure 100 drives the power distribution cable storage structure 100 to move on the corresponding movable supporting mechanism 5, so that the power distribution cable storage structure 100 can slide to the position of a specified row of electronic equipment 4 to supply power to the row of electronic equipment 4, power distribution of a row of cabinets in a data center is achieved under the condition that the construction amount of power distribution is reduced, and distribution efficiency is improved.

The third embodiment of the present application provides a data processing system 300, and the power supply system 200 of the second embodiment is used in the data processing system 300, so the parts of the data processing system 300 of the third embodiment can refer to the labels of the parts of the second embodiment.

Referring to fig. 5 and fig. 6, a data processing system 300 of the present embodiment includes: at least two electronic devices 4 for data processing and the power supply system 200 set forth above. Wherein, at least two electronic equipment 4 set up side by side, and at least two electronic equipment 4 include at least two rack that are provided with the server. The power supply system 200 is disposed above the two rows of electronic devices 4, and the power supply system 200 includes a power transmission cable housing structure 100 that supplies power to the electronic devices 4 and a movement support mechanism 5 that supports movement of the power transmission cable housing structure 100; wherein, the moving track of the moving support mechanism 5 is perpendicular to the electronic equipment 4 arranged in the column direction; the longitudinal direction of the power transmission cable housing structure 100 is parallel to the column direction of the electronic device 4; the power transmission cable housing structure 100 moves above the specified electronic apparatus 4 through the movement track of the movement support mechanism 5, and supplies power to the specified electronic apparatus 4.

Specifically, as shown in fig. 3 to 6, in the present embodiment, the electronic devices 4 are arranged in 4 columns, that is, in fig. 6, the column a of the electronic devices 4, the column B of the electronic devices 4, the column C of the electronic devices 4, and the column D of the electronic devices 4, and a plurality of server cabinets a01, a02 … … a07, and the like are provided in the column a of the electronic devices 4. The movable support mechanism 5 includes a plurality of support rods 51 arranged at intervals along the length direction of the power transmission cable housing structure 100, the movable support mechanism 5 includes at least a first support mechanism 52 and a second support mechanism 53 arranged in parallel vertical to the horizontal plane, the first support mechanism 52 is located below the second support mechanism 53, and a space is formed between the first support mechanism 52 and the second support mechanism 53; a moving track is provided on one side of the support rod 51 facing the power transmission cable housing structure 100, the power transmission cable housing structure 100 includes a first power transmission cable housing structure 11 and a second power transmission cable housing structure 12, and the plurality of pulleys 21 of the first power transmission cable housing structure 11 are movable along the moving track of the support rod 51 of the first support mechanism 52; the plurality of pulleys 21 of the second power cable housing structure 12 are movable along the movement track of the support rod 51 of the second support mechanism 53. The number of the first power transmission cable housing structures 11 mounted on the first support mechanism 52 may be plural, and the number of the second power transmission cable housing structures 12 mounted on the second support mechanism 53 may be plural, that is, one first power transmission cable housing structure 11 or one second power transmission cable housing structure 12 is correspondingly connected to each row of the electronic devices 4. When the power of the electronic device 4 in column a needs to be increased and the electronic device 4 in column B is idle, the first power cable housing structure 11 correspondingly connected to the electronic device 4 in column B can be slid to the upper side of the electronic device 4 in column a, so as to complete the power allocation to the electronic device 4 in column a. Of course, if the row a electronic devices 4 need to increase the power and the row B electronic devices 4 are not idle, the second power cable housing structure 12 connected to the row B electronic devices 4 may be slid over the row a electronic devices 4, thereby completing the power allocation to the row a electronic devices 4.

The third embodiment of the present application provides a data processing system 300, including: at least two electronic devices 4 for data processing and the power supply system 200 set forth above. The power supply system 200 of the application is arranged above the electronic equipment 4, the movable mechanism 2 of the power transmission cable containing structure 100 drives the power transmission cable containing structure 100 to move on the corresponding movable supporting mechanism 5, so that the power transmission cable containing structure 100 can slide to a specified row of electronic equipment 4 positions to supply power to the row of electronic equipment 4, and therefore under the condition that the construction amount of power distribution is reduced, power distribution of a cross-row cabinet in a data center is achieved, and the efficiency of power distribution is improved.

A fourth embodiment of the present application provides a wireless power supply apparatus 400, and as shown in fig. 7, the wireless power supply apparatus 400 provided in this embodiment includes: the wireless power supply device comprises a body 1 for supplying power to the electronic equipment wirelessly, and a movable mechanism 2 arranged on the body 1; the body 1 is moved by the movable mechanism 2, and when moved to a specified position, wirelessly supplies power to a specified electronic device. In this embodiment, coils (not shown) are disposed in the main body 1 and the designated electronic device, that is, a power supply coil is disposed in the main body 1, and a power receiving coil is disposed in the electronic device, when the two are close to each other, the power supply coil generates a certain current in the power receiving coil of the electronic device through electromagnetic induction based on an alternating current with a certain frequency (which may be a super capacitor disposed on the main body 1 as a power supply), so as to transfer electric energy from the main body 1 to the electronic device, thereby wirelessly supplying power to the electronic device.

The wireless power supply apparatus 400 according to the present embodiment has the same structure as that of the first embodiment described above, i.e., the movable mechanism 2; the specific implementation structure of the movable mechanism 2 in this embodiment can refer to the corresponding content in the first embodiment, and is not described herein again.

The fifth embodiment of the present application provides a power supply system 500, and the above-mentioned wireless power supply device 400 of the fourth embodiment is adopted in the power supply system 500, so the parts of the power supply system 500 of the fifth embodiment can refer to the labels of the parts of the fourth embodiment; for a specific implementation structure of the wireless power supply apparatus 400, reference may be made to the corresponding contents in the fourth embodiment, and details are not described here.

As shown in fig. 8, the power supply system 500 of the present embodiment includes: a wireless power supply apparatus 400 that wirelessly supplies power to the electronic apparatus 4, and a movement support mechanism 5 that supports movement of the wireless power supply apparatus 400; the wireless power supply apparatus 400 moves by being supported by the movement support mechanism 5, and supplies power to the specified electronic apparatus 4.

The power supply system 500 according to the present embodiment has the same structure as the second embodiment described above, i.e., the movement support mechanism 5; the specific implementation structure of the moving support mechanism 5 in this embodiment can refer to the corresponding content in the second embodiment, and is not described herein again.

A sixth embodiment of the present application provides a charging apparatus 600, as shown in fig. 9, the charging apparatus 600 provided in this embodiment includes: a charging device body 1 that charges a vehicle, and a movable mechanism 2 provided on the charging device body 1; the charging device body 1 is moved by the movable mechanism 2, and when moved to a specified position, wirelessly supplies power to a specified vehicle. Wherein, the vehicle can be an electric automobile, an electric bicycle, etc.

The charging apparatus 600 according to the present embodiment has the same structure as that of the first embodiment described above, i.e., the movable mechanism 2; the specific implementation structure of the movable mechanism 2 in this embodiment can refer to the corresponding content in the first embodiment, and is not described herein again.

The seventh embodiment of the present application provides a power supply system 700, and the charging device 600 of the above sixth embodiment is adopted in the power supply system 700, so the parts in the power supply system 700 of the seventh embodiment can refer to the labels of the parts of the sixth embodiment; for a specific implementation structure of the charging device 600, reference may be made to corresponding contents in the above sixth embodiment, which is not described herein again.

As shown in fig. 10, the power supply system 700 of the present embodiment includes: a charging device 600 that charges the vehicle 4, and a movement support mechanism 5 that supports movement of the charging device 600; the charging device 600 moves by being supported by the moving support mechanism 5 to supply power to the specified vehicle 4.

The power supply system 700 according to the present embodiment has the same structure as that of the above-described second embodiment, i.e., the movement support mechanism 5; the specific implementation structure of the moving support mechanism 5 of this embodiment can refer to the corresponding content in the second embodiment, and is not described herein again.

An eighth embodiment of the present application provides a method for supplying power to an electronic device, which is applied to the data processing system 300 of the third embodiment, as shown in fig. 11, fig. 11 is a flowchart illustrating a method for supplying power to an electronic device according to the fourth embodiment of the present application.

In this embodiment, the method includes: step S701, obtaining demand information that requires increasing power supply for the first electronic device.

The first electronic equipment is a cabinet provided with servers in any column; obtaining demand information that requires an increase in power supply to the first electronic device includes setting a power threshold in the first electronic device, the power threshold being an electrical power demand value that can satisfy a current first electronic device; when the power demand of the current first electronic device (the number of racks of the server increases), the corresponding power threshold value becomes large, so that the demand information for increasing the power supply for the first electronic device can be obtained.

Step S702 is to drive the power transmission cable housing structure for supplying power to the second electronic device to move to a specified position with respect to the demand information.

In this step, the second electronic device is a cabinet different from the first electronic device and provided with a server in any column, and the second electronic device is in an idle state at this time, and does not need a power transmission cable storage structure to provide electric energy for the second electronic device. When demand information that power supply needs to be increased for the first electronic device is obtained, the power transmission cable accommodating structure for supplying power to the second electronic device is driven to move to a specified position. Of course, in this step, the power cable housing structure may be selected as any idle power cable housing structure, that is, the power cable housing structure does not supply power to any column of electronic devices at this time, so that it is not necessary to consider whether the electronic devices are in an idle state; as long as the information of the demand for increasing the power supply to the first electronic device is received, the idle power transmission cable housing structure may be moved to a specified position.

In step S703, the first electronic device is supplied with power by using the power transmission cable storage structure that reaches the specified position.

In order to clearly illustrate the working principle of the method for supplying power to an electronic device provided by the embodiment, the following description is made with reference to a specific application scenario.

The method for supplying power to the electronic device of the embodiment is applied to the data processing system 300, and specifically, the electronic devices are arranged in 4 rows, that is, the first electronic device, the second electronic device, the third electronic device, and the fourth electronic device. The power supply system 200 is arranged above the four rows of electronic devices 4, and the power supply system 200 includes a power transmission cable housing structure 100 for supplying power to the electronic devices and a movable support mechanism 5 for supporting the power transmission cable housing structure 100 to move; the movable supporting mechanism 5 at least comprises a first supporting mechanism 52 and a second supporting mechanism 53 which are arranged in parallel vertical to the horizontal plane, and the first supporting mechanism 52 is positioned below the second supporting mechanism 53; the power transmission cable housing structure 100 includes a first power transmission cable housing structure 11 and a second power transmission cable housing structure 12, and the plurality of pulleys 21 of the first power transmission cable housing structure 11 are movable along the movement track on the support rod 51 of the first support mechanism 52; the plurality of pulleys 21 of the second power cable housing structure 12 are movable along a movement rail on the support rod 51 of the second support mechanism 53. The number of the first power transmission cable accommodating structures 11 mounted on the first supporting mechanism 52 may be multiple, and the number of the second power transmission cable accommodating structures 12 mounted on the second supporting mechanism 53 may be multiple, that is, one first power transmission cable accommodating structure 11 or one second power transmission cable accommodating structure 12 is correspondingly connected to each column of electronic devices.

When the first electronic device needs to increase power and the second electronic device is idle, the demand information and the second electronic device state information which need to increase power supply for the first electronic device are obtained, and the first power transmission cable accommodating structure 11 correspondingly connected with the second electronic device is driven to slide above the first electronic device according to the demand information and the state information, so that power allocation of the first electronic device is completed. Of course, if the first electronic device needs to increase power and the second electronic device is not idle, the second power cable accommodating structure 12 correspondingly connected to the second electronic device may be slid to the upper side of the first electronic device, so as to complete power allocation to the first electronic device.

An eighth embodiment of the present application provides a method for supplying power to an electronic device, including: obtaining demand information that electric energy supply needs to be increased for the first electronic equipment; triggering a power transmission cable accommodating structure for supplying power to second electronic equipment to move to a specified position according to the demand information; and supplying power to the first electronic equipment by using the power transmission cable storage structure reaching the appointed position. The power distribution cable storage structure moves on the corresponding movable supporting mechanism, so that the power distribution cable storage structure can slide to a designated row of electronic equipment positions to supply power to the row of electronic equipment, power distribution of the cross-row cabinets in the data center is achieved under the condition that the construction amount of power distribution is reduced, and the efficiency of power distribution is improved.

Although the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present application, therefore, the scope of the present application should be determined by the appended claims.

Claims (21)

1. The utility model provides a structure is accomodate to transmission of electricity cable, its characterized in that, the structure is accomodate to transmission of electricity cable for the bus duct, accomodates the transmission of electricity cable through the groove body structure, include: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body;

the body moves through the movable mechanism to supply power to the appointed electronic equipment and realize the power supply allocation of the cross-row.

2. The power transmission cable housing structure according to claim 1, wherein the movable mechanism is provided at a bottom portion outside the body.

3. The power transmission cable housing structure according to claim 1, wherein the movable mechanism is a pulley mechanism including at least two pulleys provided at intervals in a length direction of the body.

4. The power transmission cable housing structure according to claim 3, wherein the body is moved in a direction perpendicular to a longitudinal direction of the body by sliding of the pulley; or the body is driven to move along the length direction of the body.

5. The power transmission cable housing structure according to claim 3, wherein the pulley mechanism further includes a pulley connecting structure for connecting the body and the pulley.

6. The power transmission cable housing structure according to claim 5, wherein the pulley connection structure is a directional pulley connection structure for sliding the pulley in a set direction; or the pulley connecting structure is a diverting pulley connecting structure, and the diverting pulley connecting structure is used for enabling the pulleys to slide in any direction.

7. The electric power cable housing structure according to any one of claims 1 to 6, further comprising: the plug box is arranged on the body and used for being connected with appointed electronic equipment to supply power to the appointed electronic equipment.

8. A power supply system, comprising: the power transmission cable storage structure supplies power to the electronic equipment, and the moving support mechanism supports the power transmission cable storage structure to move;

the structure is accomodate to the transmission of electricity cable is the bus duct, the structure is accomodate to the transmission of electricity cable through the cell body structure, includes: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body;

the power transmission cable accommodating structure moves through the support of the movable support mechanism, supplies power for specified electronic equipment, and realizes cross-column power supply allocation.

9. The power supply system according to claim 8, wherein the movement support mechanism includes a plurality of support rods arranged at intervals in a longitudinal direction of the power transmission cable housing structure, a movement rail is provided on one side of the support rods facing the power transmission cable housing structure, and an extending direction of the movement rail is arranged at an angle to the longitudinal direction of the power transmission cable housing structure.

10. The power supply system of claim 9, wherein the plurality of spaced support rods are arranged in a line along a length of the power cable receiving structure.

11. The power supply system of claim 9, wherein the moving support mechanism comprises at least a first support mechanism and a second support mechanism juxtaposed in a vertical horizontal plane, the first support mechanism is located below the second support mechanism, and a space is provided between the first support mechanism and the second support mechanism.

12. The power supply system of claim 11, wherein the power cable receiving structure comprises at least a first power cable receiving structure and a second power cable receiving structure, wherein,

the first power transmission cable accommodating structure is positioned above the first supporting mechanism and moves along the moving track of the first supporting mechanism;

the second power transmission cable storage structure is located above the second support mechanism and moves along a movement track of the second support mechanism.

13. The power supply system according to claim 8, wherein the body is moved on the movement support mechanism by the movable mechanism to supply power to the specified electronic device.

14. The power supply system of claim 8, wherein the movable mechanism is disposed at a bottom outside the body.

15. The power supply system of claim 8, wherein the movable mechanism is a pulley mechanism comprising at least two pulleys spaced along a length of the body.

16. A data processing system, comprising: at least two electronic devices for data processing and a power supply system according to any of claims 8-15.

17. The data processing system of claim 16, wherein the power supply system is disposed above the at least two electronic devices.

18. The data processing system of claim 17, wherein the at least two electronic devices are collocated.

19. The data processing system of claim 18, wherein the power supply system includes a power cable storage structure to supply power to the electronic device and a movement support mechanism to support movement of the power cable storage structure; wherein,

the moving track of the moving support mechanism is vertical to the electronic equipment arranged in the column direction;

the length direction of the power transmission cable accommodating structure is parallel to the column direction of the electronic equipment; the power transmission cable storage structure moves to the upper part of the appointed electronic equipment through the moving track of the moving support mechanism and supplies power to the appointed electronic equipment.

20. The data processing system of claim 16, wherein the at least two electronic devices comprise at least two racks provided with servers.

21. A method of powering an electronic device, comprising:

obtaining demand information that electric energy supply needs to be increased for the first electronic equipment;

driving a power transmission cable accommodating structure for supplying power to second electronic equipment to move to a specified position according to the demand information; the structure is accomodate to the transmission of electricity cable is the bus duct, the structure is accomodate to the transmission of electricity cable through the cell body structure, includes: the electronic equipment comprises a body for supplying power to the electronic equipment and a movable mechanism arranged on the body;

and supplying power to the first electronic equipment by using the power transmission cable storage structure reaching the specified position, and realizing cross-column power supply allocation.

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