CN112688412A - Power supply system applied to container data center and container data center - Google Patents

Abstract

The invention relates to a power supply system applied to a container data center and the container data center, comprising: the emergency power generation module is used for generating power; the uninterrupted power supply is connected with a load of the container data center; and the first electrical connection end of the first selection switch module is used for being connected with a mains supply, the second electrical connection end of the first selection switch module is connected with the emergency power generation module, the third electrical connection end of the first selection switch module is connected with the uninterruptible power supply, the first selection switch module is used for selecting the mains supply to be connected with the uninterruptible power supply to supply power for a load when the mains supply is normally supplied with power, and selecting the emergency power generation module to be connected with the uninterruptible power supply to supply power for the load and to disconnect the mains supply from the uninterruptible power supply when the mains supply is abnormal. Even if the commercial power is abnormal, the emergency power generation module still provides stable electric energy for a long time, so that the stable operation of each load of the container data center and the safety of data are ensured.

Description

Power supply system applied to container data center and container data center

Technical Field

The invention relates to the technical field of data centers, in particular to a power supply system applied to a container data center and the container data center.

Background

In the conventional technology, the load of the container data center is supplied with Power by mains Supply, and although an Uninterruptible Power Supply (UPS) is arranged in a Power Supply system, when the mains Supply is abnormal for a long time and cannot Supply Power, the electric energy stored in the Uninterruptible Power Supply still cannot Supply the composition of the load of the container data center, so that the stable operation and the data safety of each load in the container data are difficult to guarantee.

Disclosure of Invention

In view of the above, it is necessary to provide a power supply system applied to a container data center and a container data center.

A power supply system for a container data center, comprising:

the emergency power generation module is used for generating power;

the uninterrupted power supply is connected with a load of the container data center; and

first selection switch module, first selection switch module's first electricity connection end is used for being connected with the commercial power, first selection switch module's second electricity connection end with emergency power generation module connects, first selection switch module's third electricity connection end with uninterrupted power source connects, first selection switch module is used for during the commercial power normal power supply, the selection the commercial power with uninterrupted power source connects for the load power supply, and when the commercial power is unusual, the selection emergency power generation module with uninterrupted power source connects for the load power supply just the commercial power with break off between the uninterrupted power source.

According to the power supply system, after the commercial power is abnormal, the emergency power generation module is used as a standby power supply to supply power to the load of the container data center through the uninterruptible power supply through switching of the first selection switch module, so that the emergency power generation module still provides stable electric energy for a long time even if the commercial power is abnormal and cannot supply power, and the stable operation of each load of the container data center and the safety of data are guaranteed.

In one embodiment, the uninterruptible power supply further comprises a control switch, wherein a first electric connection end of the control switch is connected with a third electric connection end of the first selection switch module, and a second connection end of the control switch is connected with the uninterruptible power supply; the third electric connection end of the first selection switch module is also connected with the load;

when the uninterruptible power supply works normally, the control switch is in a closed state, and when the uninterruptible power supply is abnormal, the control switch is in an open state.

In one embodiment, the system further comprises a second selection switch module; the quantity of the uninterruptible power supply, the first selection switch module and the second selection switch module is at least two and equal;

each second selection switch module is connected with at least two paths of mains supply and correspondingly connected with a first electric connection end of one first selection switch module; the second electric connection end of each first selection switch module is connected with the emergency power generation module, the third electric connection end of each first selection switch module is correspondingly connected with one uninterruptible power supply, each uninterruptible power supply is connected with part of loads of the container data center, and the loads connected with the uninterruptible power supplies are different.

In one embodiment, each of the first selection switch modules is further connected to at least one other of the first selection switch modules.

In one embodiment, the second selection switch module comprises an automatic transfer switch.

In one embodiment, the number of the commercial power is two, and the number of the first selection switch module, the number of the second selection switch module and the number of the uninterruptible power supplies are two;

a first electric connection end and a second electric connection end of each second selective switch module are respectively connected with one path of commercial power, and a third electric connection end of each second selective switch module is connected with a first electric connection end of the corresponding first selective switch module;

when the two mains supplies normally supply power, each second selection switch module selects one of the mains supplies to be connected with the corresponding uninterruptible power supply, and the mains supplies connected with the two uninterruptible power supplies are not the same one of the mains supplies;

when one of the mains supplies is in fault, each second selection switch module selects the other mains supply to be connected with the corresponding uninterruptible power supply;

when the two mains supplies are in failure, the two first selection switch modules select the emergency power generation module to be connected with the uninterruptible power supply, and the two mains supplies are disconnected with the uninterruptible power supplies.

In one embodiment, the first selection switch module comprises a dual-power manual transfer switch.

In one embodiment, the system further comprises a photovoltaic power generation module, which is used for connecting with a part load of the container data center to supply power for the load connected with the container data center.

In one embodiment, the load of the container data center comprises an air conditioning module, a lighting module, a cabinet module, a monitoring module, an access control module and a fire control module, the commercial power or the emergency power generation module supplies power to the air conditioning module, the cabinet module, the monitoring module and the fire control module, and the photovoltaic power generation module supplies power to the lighting module.

A container data centre comprising a plurality of loads and a power supply system as claimed in any one of the preceding claims applied to a container data centre.

According to the container data center, after the commercial power is abnormal, the emergency power generation module is used as a standby power supply to supply power to the load of the container data center through the uninterrupted power supply through switching of the first selection switch module, so that the emergency power generation module still provides stable electric energy for a long time even if the commercial power is abnormal and cannot supply power, and the stable operation of each load of the container data center and the safety of data are guaranteed.

Drawings

FIG. 1 is a block diagram of a power supply system for a container data center according to an embodiment;

fig. 2 is a circuit diagram of a power supply system applied to a container data center in an embodiment.

Description of reference numerals: 20. commercial power; 30. a load; 31. an air conditioning module; 32. a lighting module; 33. a cabinet module; 34. a monitoring module; 35. an access control module; 36. a fire fighting module; 371. an emergency lighting lamp; 372. an emergency lighting switch; 11. an emergency power generation module; 12. an uninterruptible power supply; 13. a first selection switch module; 14. a second selection switch module; 15. and controlling the switch.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Fig. 1 is a block diagram of a power supply system (hereinafter, referred to as a power supply system) applied to a container data center in an embodiment. As shown in fig. 1, the power supply system includes an emergency power generation module 11, an uninterruptible power supply 12, and a first selection switch module 13. The emergency power generation module 11 is used for generating power. The ups 12 is connected to a load 30 of the container data center. The first electrical connection end of the first selection switch module 13 is used for being connected with the commercial power 20, the second electrical connection end of the first selection switch module 13 is connected with the emergency power generation module 11, the third electrical connection end of the first selection switch module 13 is connected with the uninterruptible power supply 12, the first selection switch module 13 is used for selecting the commercial power 20 to be connected with the uninterruptible power supply 12 to supply power to the load 30 when the commercial power 20 normally supplies power, and when the commercial power 20 is abnormal, the emergency power generation module 11 is selected to be connected with the uninterruptible power supply 12 to supply power to the load 30 and the commercial power 20 is disconnected from the uninterruptible power supply 12.

For example, the emergency power generation module 11 may include an emergency power generation car, for example, the emergency power generation car is a diesel generator equipped, and the container data center may be provided with an emergency power generation car interface through which the diesel generator is connected to the container data center as a backup power source. The first selection switch module 13 includes a first electrical connection end, a second electrical connection end and a third electrical connection end, and the first selection switch module 13 may include an automatic control switch or a dual-power manual transfer switch.

When first selection switch module 13 includes the manual change over switch of dual supply, when commercial power 20 is normal, operating personnel switches on between first electricity connection end and the third electricity connection end of first selection switch module 13 manually and breaks off between second electricity connection end and the third electricity connection end, thereby make to switch on between commercial power 20 and uninterrupted power source 12 and break off between emergency power generation module 11 and the uninterrupted power source 12, commercial power 20 is the power supply of uninterrupted power source 12, uninterrupted power source 12 provides stable power supply for the load 30 of the container data center rather than being connected then. When the commercial power 20 is abnormal, an operator manually switches the first electrical connection end and the third electrical connection end of the first selection switch module 13 to be disconnected and the second electrical connection end and the third electrical connection end to be connected, so that the commercial power 20 and the uninterruptible power supply 12 are disconnected and the emergency power generation module 11 and the uninterruptible power supply 12 are connected, the emergency power generation module 11 generates power and supplies power to the uninterruptible power supply 12, and then the uninterruptible power supply 12 provides a stable power supply for a load 30 of a container data center connected with the uninterruptible power supply.

When the first selection switch module 13 includes an automatic control switch, the power supply system may further include a control module (not shown in the figure), the control module is connected to the first selection switch module 13, when the utility power 20 is normal, the control module controls the first electrical connection end and the third electrical connection end of the first selection switch module 13 to be connected and the second electrical connection end and the third electrical connection end to be disconnected, so that the utility power 20 and the uninterruptible power supply 12 are connected and the emergency power generation module 11 and the uninterruptible power supply 12 are disconnected, the utility power 20 supplies power to the uninterruptible power supply 12, and then the uninterruptible power supply 12 provides a stable power supply for the load 30 of the container data center connected thereto. When the commercial power 20 is abnormal, the control module controls the first electrical connection end and the third electrical connection end of the first selection switch module 13 to be disconnected and the second electrical connection end and the third electrical connection end to be connected, so that the commercial power 20 and the uninterruptible power supply 12 are disconnected and the emergency power generation module 11 and the uninterruptible power supply 12 are connected, the emergency power generation module 11 generates power and supplies power to the uninterruptible power supply 12, and then the uninterruptible power supply 12 provides a stable power supply for a load 30 of a container data center connected with the uninterruptible power supply.

Of course, in the above embodiment, when the abnormal maintenance of the commercial power 20 is completed and the commercial power is recovered to normal, the first selection switch module 13 may also be switched to the state where the first electrical connection end and the third electrical connection end are connected and the second electrical connection end and the third electrical connection end are disconnected again, so that the commercial power 20 supplies power to the load 30 of the container data center again through the uninterruptible power supply 12.

According to the power supply system, after the commercial power 20 is abnormal, the emergency power generation module 11 is used as a standby power supply to supply power to the load 30 of the container data center through the uninterruptible power supply 12 through switching of the first selection switch module 13, so that the emergency power generation module 11 still provides stable electric energy even if the commercial power 20 is abnormal and cannot supply power for a long time, and stable operation of each load 30 of the container data center and data safety are guaranteed.

In an embodiment, as shown in fig. 2, the power supply system further includes a control switch 15, the control switch 15 includes a first electrical connection end and a second electrical connection end, the first electrical connection end of the control switch 15 is connected to a third electrical connection end of the first selection switch module 13, the second electrical connection end of the control switch 15 is connected to the uninterruptible power supply 12, and the third electrical connection end of the first selection switch module 13 is further connected to the load 30.

In this embodiment, the control switch 15 may include an automatic control switch, and may also include a manual control switch, so that the control module or an operator manually controls the first electrical connection end and the second electrical connection end of the control switch 15 to be closed or opened. Specifically, when the uninterruptible power supply 12 works normally, the control switch 15 is in a closed state, so that the first electrical connection end and the second electrical connection end of the control switch are conducted, and thus the load 30 of the container data center, the uninterruptible power supply 12 and the third electrical connection end of the first selection switch module 13 are connected together, and therefore when the uninterruptible power supply 12 works normally, the commercial power 20 or the emergency power generation module 11 supplies power to the load 30 of the container data center through the uninterruptible power supply 12; when the ups 12 is abnormal, the control switch 15 is in an off state, that is, the first electrical connection end and the second electrical connection end are disconnected, so that the load 30 of the container data center is connected to the third electrical connection end of the first selection switch module 13, but not connected to the ups 12, when the ups 12 is abnormal, the utility power 20 or the emergency power generation module 11 directly supplies power to the load 30 of the container data center without passing through the ups 12, thereby avoiding the influence on the operation of each load 30 due to the abnormality of the ups 12.

In an embodiment, the power supply system further comprises a second selection switch module 14. The quantities of the uninterruptible power supply 12, the first selection switch module 13 and the second selection switch module 14 are all at least two and equal. Each second selection switch module 14 is connected to at least two mains supplies 20, and is correspondingly connected to a first electrical connection terminal of one first selection switch module 13. The second electrical connection end of each first selection switch module 13 is connected with the emergency power generation module 11, the third electrical connection end of each first selection switch module 13 is correspondingly connected with one uninterruptible power supply 12, each uninterruptible power supply 12 is connected with a part of loads 30 of the container data center, and the loads 30 connected with the uninterruptible power supplies 12 are different. The difference in the loads 30 connected to each ups 12 in this embodiment does not mean that each ups 12 is not capable of connecting different types of loads 30, but rather that the same load 30 is connected to two or more upss 12 at the same time.

Specifically, the second selection switch modules 14 may include automatic transfer switches, and each second selection switch module 14 can automatically select one of the paths of the mains power 20 connected thereto to be connected to the first electrical connection end of the corresponding first selection switch module 13, that is, select one of the paths of the mains power 20 to supply power to the uninterruptible power supply 12. It should be noted that the commercial power 20 selected by the second selection switch module 14 is one path of commercial power 20 that is normally supplied with power, each second selection switch module 14 may select different paths of commercial power 20 to be supplied with power, or may select the same path of commercial power 20 to be supplied with power, but optionally, when each path of commercial power 20 is normally supplied with power, each second selection switch module 14 selects different paths of commercial power 20 to supply power, so that the load of each path of commercial power 20 is relatively balanced, and excessive load of a certain path of commercial power 20 is avoided, and the number of paths of commercial power 20 is greater than or equal to the number of second selection switch modules 14 at this time.

In one embodiment, each first selection switch module 13 is further connected to at least one other first selection switch module 13. For example, when the number of the first selection switch modules 13 is two, the second electrical connection terminals of the two first selection switches and the emergency power generation module 11 are connected together. In this embodiment, when one of the uninterruptible power supplies 12 is abnormal, the state of the first selection switch module 13 corresponding to the uninterruptible power supply 12 may also be controlled to be that the second electrical connection end is connected to the third electrical connection end, so that the other line of utility power 20 or the emergency power generation module 11 supplies power to the load 30 corresponding to the abnormal uninterruptible power supply 12 through the other uninterruptible power supply 12, thereby providing a more stable power supply for each load 30.

In one embodiment, the number of the utility power 20 is two, and the number of the first selection switch module 13, the number of the second selection switch module 14, and the number of the ups 12 are two. The second selection switch module 14 includes a first electrical connection end, a second electrical connection end, and a third electrical connection end, the first electrical connection end and the second electrical connection end of each second selection switch module 14 are respectively connected to one of the mains supplies 20, and the third electrical connection end of each second selection switch module 14 is connected to the first electrical connection end of the corresponding first selection switch module 13.

When the two commercial power sources 20 are normally powered, each second selection switch module 14 selects one of the commercial power sources 20 to be connected with the corresponding uninterruptible power supply 12, and the commercial power 20 connected with the two uninterruptible power supplies 12 is not the same commercial power 20, that is, the two commercial power sources 20 respectively supply power to the partial load 30 of the container data center through the corresponding uninterruptible power supply 12, the two loops in which the two uninterruptible power supplies 12 are located are two independent loops, respectively supply power to the partial load 30, and do not interfere with each other, at this time, the two first selection switch modules 13 are both connected with the first electrical connection end and the third connection end, and the second electrical connection end is disconnected with the third electrical connection end.

When one of the two paths of the commercial power 20 fails, each of the second selection switch modules 14 selects the other path of the commercial power 20 to connect with the corresponding uninterruptible power supply 12. Namely, the commercial power 20 which is normally supplied with power supplies respectively supplies power to the partial loads 30 of the container data center through the two uninterruptible power supplies 12, and at this time, the two first selection switch modules 13 are both connected by the first electrical connection end and the third connection end, and the second electrical connection end and the third electrical connection end are disconnected.

When the two commercial power lines 20 are failed, the two first selection switch modules 13 select the emergency power generation module 11 to be connected with the uninterruptible power supply 12, and the two commercial power lines 20 are disconnected with the uninterruptible power supply 12, at this time, the two first selection switch modules 13 are connected with the second electric connection end and the third electric connection end, and the first electric connection end and the third electric connection end are disconnected.

In an embodiment, the power supply system further comprises a photovoltaic power generation module. The photovoltaic power generation module is used for being connected with a part of load of the container data center to supply power to the load connected with the photovoltaic power generation module. In this embodiment, the photovoltaic power generation module is the green energy, introduces the green energy into the concept of how green environmental protection of container data center.

Specifically, the photovoltaic power generation module can include a solar photovoltaic power generation panel and a grid-connected inverter, the photovoltaic power generation module can be arranged at the top of the container data center to absorb solar energy and convert the solar energy into electric energy, space resources of the container data center can be effectively utilized, one end of the grid-connected inverter is connected with the solar photovoltaic power generation panel, and the other end of the grid-connected inverter is connected with a part of the load 30 of the container data center so as to supply power for the grid-connected inverter.

In one embodiment, the load 30 of the container data center includes an air conditioning module 31, a lighting module 32, a cabinet module 33, a monitoring module 34, an entrance guard module 35 and a fire fighting module 36, the commercial power 20 or the emergency power module 11 supplies power to the air conditioning module 31, the cabinet module 33, the monitoring module 34 and the fire fighting module 36, and the photovoltaic power module supplies power to the lighting module 32. For example, the air conditioning module 31 may include a first precision air conditioner, a second precision air conditioner, a base station air conditioner, and a blower, the cabinet module 33 may include a first cabinet, a second cabinet, a third cabinet, and a fourth cabinet, the fire protection module 36 may include a smoke exhauster, and the monitoring module 34 may include a door guard. In this embodiment, since the requirement of the lighting module 32 for power supply is low, the problem of unstable solar power generation can be avoided by using the solar power generation module to supply power to the lighting module 32.

In an embodiment, the load 30 connected to the ups 12 further includes an emergency lighting lamp 371, and the emergency lighting lamp 371 is connected to the loop of the ups 12 through the emergency lighting switch 371, and when the cabinet fails, the emergency lighting switch 371 can be turned on, so as to connect the emergency lighting lamp 372 to the loop and turn on the emergency lighting lamp 372.

In an embodiment, a control switch 15 may also be provided between the utility power 20 and the second selection switch 14, and between the first selection switch 13 and each load 30, so as to facilitate maintenance.

In one embodiment, the total power of the loads 30 connected to each ups 12 may be equal or approximately equal, so that the load on each leg is more balanced and one leg is less likely to be overloaded.

The present application further provides a container data center, which includes a plurality of loads 30 and the power supply system applied to the container data center in any of the above embodiments.

In the container data center, after the commercial power 20 is abnormal, the emergency power generation module 11 is used as a standby power supply to supply power to the load 30 of the container data center through the uninterruptible power supply 12 by switching the first selection switch module 13, so that the emergency power generation module 11 still provides stable electric energy even if the commercial power 20 is abnormal and cannot supply power for a long time, and the stable operation of each load 30 of the container data center and the safety of data are ensured.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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

Claims (10)

1. A power supply system applied to a container data center is characterized by comprising:

the emergency power generation module is used for generating power;

the uninterrupted power supply is connected with a load of the container data center; and

first selection switch module, first selection switch module's first electricity connection end is used for being connected with the commercial power, first selection switch module's second electricity connection end with emergency power generation module connects, first selection switch module's third electricity connection end with uninterrupted power source connects, first selection switch module is used for during the commercial power normal power supply, the selection the commercial power with uninterrupted power source connects for the load power supply, and when the commercial power is unusual, the selection emergency power generation module with uninterrupted power source connects for the load power supply just the commercial power with break off between the uninterrupted power source.

2. The power supply system applied to the container data center according to claim 1, further comprising a control switch, wherein a first electrical connection end of the control switch is connected with a third electrical connection end of the first selection switch module, and a second connection end of the control switch is connected with the uninterruptible power supply; the third electric connection end of the first selection switch module is also connected with the load;

when the uninterruptible power supply works normally, the control switch is in a closed state, and when the uninterruptible power supply is abnormal, the control switch is in an open state.

3. The power supply system applied to the container data center according to claim 1, further comprising a second selection switch module; the quantity of the uninterruptible power supply, the first selection switch module and the second selection switch module is at least two and equal;

each second selection switch module is connected with at least two paths of mains supply and correspondingly connected with a first electric connection end of one first selection switch module; the second electric connection end of each first selection switch module is connected with the emergency power generation module, the third electric connection end of each first selection switch module is correspondingly connected with one uninterruptible power supply, each uninterruptible power supply is connected with part of loads of the container data center, and the loads connected with the uninterruptible power supplies are different.

4. The power supply system applied to the container data center according to claim 3, wherein each of the first selection switch modules is further connected to at least one other of the first selection switch modules.

5. The power supply system applied to the container data center according to claim 3, wherein the second selection switch module comprises an automatic transfer switch.

6. The power supply system applied to the container data center according to claim 3, wherein the number of the commercial power is two, and the number of the first selection switch module, the number of the second selection switch module and the number of the uninterruptible power supplies are two;

a first electric connection end and a second electric connection end of each second selective switch module are respectively connected with one path of commercial power, and a third electric connection end of each second selective switch module is connected with a first electric connection end of the corresponding first selective switch module;

when the two mains supplies normally supply power, each second selection switch module selects one of the mains supplies to be connected with the corresponding uninterruptible power supply, and the mains supplies connected with the two uninterruptible power supplies are not the same one of the mains supplies;

when one of the mains supplies is in fault, each second selection switch module selects the other mains supply to be connected with the corresponding uninterruptible power supply;

when the two mains supplies are in failure, the two first selection switch modules select the emergency power generation module to be connected with the uninterruptible power supply, and the two mains supplies are disconnected with the uninterruptible power supplies.

7. The power supply system applied to the container data center according to claim 1, wherein the first selection switch module comprises a dual power manual transfer switch.

8. The power supply system applied to the container data center according to claim 1, further comprising a photovoltaic power generation module for connecting with a partial load of the container data center to supply power to the load connected therewith.

9. The power supply system applied to the container data center according to claim 8, wherein the load of the container data center comprises an air conditioning module, a lighting module, a cabinet module, a monitoring module, an entrance guard module and a fire fighting module, the commercial power or the emergency power generation module supplies power to the air conditioning module, the cabinet module, the monitoring module and the fire fighting module, and the photovoltaic power generation module supplies power to the lighting module.

10. A container data center comprising a plurality of loads and a power supply system according to any one of claims 1 to 9 applied to the container data center.

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