CN115370472B - Full-load peak regulation and dynamic redundancy control system of generator set for large data center - Google Patents

Abstract

The application provides a full-load peak shaving and dynamic redundancy control system of a generator set for a large data center, which comprises the following components: the power generation unit, one side of power generation unit is connected with main control unit, and the control cabinet is connected in one side of main control unit, and one side of control cabinet is connected with standby controller, and the inside of control cabinet is provided with control module, alarm module and urgent module respectively, and standby motor group is connected in one side of standby controller. According to the full-load peak regulation and dynamic redundancy control system for the generator set for the large data center, provided by the application, the main controller is arranged on one side of the generator set to control the generator set, the monitoring cabinet is arranged on one side of the main controller to monitor the main controller and the standby controller, and the storage unit, the switching unit and the selection unit are respectively arranged in the monitoring cabinet to backup data and select and switch the generator set and the standby motor set under emergency conditions.

Description

Full-load peak regulation and dynamic redundancy control system of generator set for large data center

Technical Field

The application relates to the field of generator sets, in particular to a full-load peak shaving and dynamic redundancy control system of a generator set for a large data center.

Background

The volume of the generator set of the diesel engine is reduced, the temperature is rapidly increased, the ignition point of diesel oil is reached, the diesel oil is ignited, the mixed gas is severely combusted, the volume is rapidly expanded, and the piston is pushed to descend.

The existing generator set is wide in application range, the generator set used in the large data center can be integrally controlled by the control center during operation, but the existing control center is easy to cause the situation that the integral generator set cannot work under the condition of power failure or short circuit, and recorded data of the generator set cannot be stored.

Therefore, it is necessary to provide a full load peak shaving and dynamic redundancy control system for a generator set for a large data center to solve the above-mentioned technical problems.

Disclosure of Invention

The application provides a full-load peak regulation and dynamic redundancy control system of a generator set for a large data center, which solves the problems that the existing generator set is easy to damage and lose data due to the condition of disconnection or short circuit when the existing generator set is used.

In order to solve the technical problems, the full-load peak shaving and dynamic redundancy control system of the generator set for the large-scale data center provided by the application comprises the following components:

the power generation system comprises a power generation unit, wherein one side of the power generation unit is connected with a main controller;

the monitoring cabinet is connected to one side of the main controller, one side of the monitoring cabinet is connected with the standby controller, a control module, an alarm module and an emergency module are respectively arranged in the monitoring cabinet, and the emergency module comprises a storage unit, a switching unit and a selection unit;

and the standby motor unit is connected to one side of the standby controller.

Preferably, the control module, the alarm module and the emergency module are connected through connecting wires.

Preferably, the inside of monitor cabinet has set gradually a plurality of slip subassembly from top to bottom, slip subassembly includes two spouts, two be provided with the sliding seat between the spout.

Preferably, one side of sliding seat is connected with places the subassembly, place the subassembly and including placing the seat, a plurality of through-holes have been seted up to the inside of placing the seat, the surface of placing the seat has connected gradually a plurality of triangle fixed blocks from a left side to a right side.

Preferably, both sides of the placement seat are connected with fixing pieces.

Preferably, the bottom of placing the seat is provided with the radiator module, the radiator module includes the radiator, the surface of radiator is provided with a plurality of fixed knot, one side of radiator is connected with the connecting pipe, the inner wall of monitor cabinet seted up with the circular hole of connecting pipe looks adaptation.

Preferably, one end of the connecting pipe is provided with a conveying device, the conveying device comprises a pump body, and an input end and an output end of the pump body are respectively connected with an air inlet pipe and a conveying piece.

Preferably, a movable assembly is arranged on one side of the monitoring cabinet, the movable assembly comprises two movable grooves, movable pieces are arranged in the two movable grooves, and a movable plate is connected between the two movable pieces.

Preferably, a plurality of rotating assemblies are sequentially arranged on one side of the movable plate from top to bottom, each rotating assembly comprises a rotating piece, a rotating rod is connected to one side of each rotating piece, and a rotating handle is connected to one side of each rotating piece.

Preferably, the surface of dwang is provided with the rolling subassembly, the rolling subassembly includes the hose, the both ends of hose all are connected with the connecting piece, one side of connecting piece is connected with the joint spare, the surface of hose is provided with fixed knot.

Compared with the related art, the full-load peak shaving and dynamic redundancy control system of the generator set for the large data center has the following beneficial effects:

the application provides a full-load peak regulation and dynamic redundancy control system of a generator set for a large data center, wherein a main controller is arranged on one side of the generator set to control the generator set, a monitoring cabinet is arranged on one side of the main controller to monitor the operation of the main controller and a standby controller, the standby controller and the standby motor set can be used for supplying power under the condition of power failure, the generator set is prevented from being influenced when the generator set cannot work, and a storage unit, a switching unit and a selection unit are respectively arranged in the monitoring cabinet to backup data and select and switch the generator set and the standby motor set under the emergency condition.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of a full load peak shaving and dynamic redundancy control system for a large data center generator set according to the present application;

FIG. 2 is a schematic view of the interior of the monitor cabinet shown in FIG. 1;

FIG. 3 is a schematic view of the internal structure of the emergency module shown in FIG. 1;

FIG. 4 is a schematic diagram of a second embodiment of a full load peak shaving and dynamic redundancy control system for a large data center generator set according to the present application;

FIG. 5 is a schematic isometric view of the entire device of FIG. 4;

FIG. 6 is an enlarged schematic view of portion A shown in FIG. 5;

FIG. 7 is a schematic perspective view of the entire device shown in FIG. 5;

FIG. 8 is a schematic view of the overall interior of the device shown in FIG. 4;

FIG. 9 is an enlarged schematic view of portion B shown in FIG. 8;

fig. 10 is an enlarged schematic view of the portion C shown in fig. 8.

Reference numerals in the drawings: 1. the system comprises a generator set, 2, a main controller, 3, a standby controller, 4, a monitoring cabinet, 5, a standby motor set, 6, a control module, 7, an alarm module, 8, an emergency module, 9, a storage unit, 10, a switching unit, 11 and a selection unit,

12. a sliding component, 121, a sliding groove, 122 and a sliding seat,

13. a placement component 131, a placement seat 132, a through hole 133, a triangular fixing block,

14. a heat radiation component 141, a heat radiation piece 142, a fixing buckle 143 and a connecting pipe,

15. a fixing piece, 16, a circular hole,

17. a conveying device 171, a pump body 172, an air inlet pipe 173, a conveying member,

18. a movable groove 181, a movable groove 182, a movable piece 183 and a movable plate,

19. a rotating assembly 191, rotating members 192, rotating rods 193, rotating handles,

20. winding component 201, hose, 202, connecting piece, 203, joint piece, 204, fixed knot.

Detailed Description

The application will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, and fig. 3 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a full-load peak shaving and dynamic redundancy control system of a generator set for a large-scale data center according to the present application; FIG. 2 is a schematic view of the interior of the monitor cabinet shown in FIG. 1; fig. 3 is a schematic view of the internal structure of the emergency module shown in fig. 1. The full-load peak shaving and dynamic redundancy control system of the generator set for the large-scale data center comprises:

the power generation system comprises a power generation unit 1, wherein one side of the power generation unit 1 is connected with a main controller 2;

the monitoring cabinet 4, the monitoring cabinet 4 is connected to one side of the main controller 2, one side of the monitoring cabinet 4 is connected with the standby controller 3, a control module 6, an alarm module 7 and an emergency module 8 are respectively arranged in the monitoring cabinet 4, and the emergency module 8 comprises a storage unit 9, a switching unit 10 and a selection unit 11;

the standby controller 3 and the standby motor group 5 can be used in an emergency, and the data can be rapidly stored in time by the storage unit 9, the switching unit 10 and the selection unit 11.

A standby motor group 5, the standby motor group 5 being connected to one side of the standby controller 3.

The control module 6, the alarm module 7 and the emergency module 8 are connected through connecting wires.

The application provides a full-load peak shaving and dynamic redundancy control system of a generator set for a large data center, which has the following working principle:

when the emergency power generation system is used, the power generation unit 1 is used for starting operation through the main controller 2 and the monitoring cabinet 4, when a short circuit condition occurs, data are stored through the storage unit 9, the switching unit 10 and the selection unit 11 inside the emergency module 8, and then the standby controller 3 is started to perform power supply operation on the standby motor unit 5.

Compared with the related art, the full-load peak shaving and dynamic redundancy control system of the generator set for the large data center has the following beneficial effects:

the application provides a full-load peak regulation and dynamic redundancy control system of a generator set for a large data center, wherein a main controller 2 is arranged on one side of the generator set 1 to control the generator set 1, a monitoring cabinet 4 is arranged on one side of the main controller 2 to monitor the operation of the main controller 2 and a standby controller 3, the standby controller 3 and the standby motor set 5 can be used for supplying power under the condition of power failure, the generator set 1 is prevented from being influenced when not working, and a storage unit 9, a switching unit 10 and a selection unit 11 are respectively arranged in the monitoring cabinet 4 to backup data and select and switch the generator set 1 and the standby motor set 5 under the emergency.

Second embodiment

Referring to fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10 in combination, according to a first embodiment of the present application, a full-load peak shaving and dynamic redundancy control system for a large-scale data center generator set is provided. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the full-load peak shaving and dynamic redundancy control system of the generator set for a large data center provided in the second embodiment of the present application is different in that the full-load peak shaving and dynamic redundancy control system of the generator set for a large data center is provided, a plurality of sliding assemblies 12 are sequentially arranged in the monitoring cabinet 4 from top to bottom, the sliding assemblies 12 include two sliding grooves 121, and a sliding seat 122 is arranged between the two sliding grooves 121.

The sliding groove 121 is formed on two sides of the inner wall of the monitoring cabinet 4, the sliding seat 122 comprises sliding blocks, a connecting plate is fixedly connected between the two sliding blocks, and one side of the placing seat 131 is fixedly connected with one side of the connecting plate.

One side of the sliding seat 122 is connected with a placement component 13, the placement component 13 comprises a placement seat 131, a plurality of through holes 132 are formed in the placement seat 131, and a plurality of triangular fixing blocks 133 are sequentially connected to the surface of the placement seat 131 from left to right.

The surface of the placing seat 131 is provided with the through holes 132, so that heat can be conveniently dissipated, the use of the triangular fixing blocks 133 can play a supporting role on equipment, and the placing seat 131 and the equipment can be separated by a distance.

Both sides of the placement base 131 are connected with fixing pieces 15.

The bottom of placing the seat 131 is provided with the radiating component 14, the radiating component 14 includes the radiating member 141, the surface of radiating member 141 is provided with a plurality of fixed knot 142, one side of radiating member 141 is connected with connecting pipe 143, the inner wall of monitor cabinet 4 seted up with connecting pipe 143 looks adaptation's circular hole 16.

The heat sink 141 is an S-shaped water pipe, the plurality of fixing buttons 142 are fixedly connected with the bottom of the placement base 131, and the connection portions of the circular holes 16 and the connection pipes 143 are connected by using sealing gaskets.

One end of the connecting pipe 143 is provided with a conveying device 17, the conveying device 17 comprises a pump body 171, and an input end and an output end of the pump body 171 are respectively connected with an air inlet pipe 172 and a conveying member 173.

The pump body 171 is screwed to the surface of the monitoring cabinet 4 by bolts, and the conveying member 173 is connected to the connection pipe 143.

One side of the monitoring cabinet 4 is provided with a movable assembly 18, the movable assembly 18 comprises two movable grooves 181, movable pieces 182 are arranged in the two movable grooves 181, and a movable plate 183 is connected between the two movable pieces 182.

The movable groove 181 is formed in the monitoring cabinet 4, the movable piece 182 comprises a sliding plate, a limiting block is connected to one side of the sliding plate, a limiting groove matched with the limiting block is formed in the bottom of the inner wall of the movable groove 181, and a bolt is arranged on one side, opposite to the movable groove 181, of the surface of the monitoring cabinet 4.

A plurality of rotating assemblies 19 are sequentially arranged on one side of the movable plate 183 from top to bottom, each rotating assembly 19 comprises a rotating member 191, a rotating rod 192 is connected to one side of the rotating member 191, and a rotating handle 193 is connected to one side of the rotating member 191.

The surface of dwang 192 is provided with rolling subassembly 20, rolling subassembly 20 includes hose 201, the both ends of hose 201 all are connected with connecting piece 202, one side of connecting piece 202 is connected with joint piece 203, the surface of hose 201 is provided with fixed knot 204.

The fixing buckle 204 is fixed at one end of the rotating member 191 and one end of the rotating rod 192, and the clamping member 202 is composed of a threaded sleeve and a threaded communicating pipe.

The application provides a full-load peak shaving and dynamic redundancy control system of a generator set for a large data center, which has the following working principle:

when in use, when the equipment in the monitoring cabinet 4 is installed, an operator firstly pulls the placing seat 131 outwards through pulling, drives the sliding seat 122 on one side to move between the two sliding grooves 121 when the placing seat 131 pulls outwards, places the equipment on a plurality of triangular fixing blocks 133 on the surface of the placing seat 131 to contact after the placing seat 131 moves to the outer side, fixes the equipment after the equipment is placed through the fixing piece 15 on one side of the placing seat 131, and pushes the placing seat 131 to the inside of the monitoring cabinet 4 after the equipment is fixed.

When the heat inside the monitoring cabinet 4 needs to be cooled, the pump body 171 is started to convey the external gas to the inside of the connecting pipe 143 through the gas inlet pipe 172 and the conveying member 173, after the gas is conveyed to the inside of the connecting pipe 143, the internal gas of the connecting pipe 143 is conveyed to the inside of the gas through the heat radiating member 141 and the through hole 132 on the surface of the placing seat 131 by the pressure of the pump body 171, and when the gas is conveyed to the surface of the equipment through the through hole 132 for heat radiation, the internal gas can be cooled.

When connecting pipe 143 is connected with connecting piece 202 of hose 201 one end, at first through pulling fly leaf 183 to the outside of monitor cabinet 4, drive the fly leaf 182 of one side and remove in the inside of activity groove 181 when fly leaf 183 outwards pulling, after fly leaf 183 and monitor cabinet 4, be connected with connecting piece 202 of hose 201 one end with connecting pipe 143 one end again, after connecting pipe 143 is connected with connecting piece 202 and connecting pipe 143, can promote fly leaf 183 to contact fixedly with monitor cabinet 4 and use.

Compared with the related art, the full-load peak shaving and dynamic redundancy control system of the generator set for the large data center has the following beneficial effects:

the application provides a full-load peak regulation and dynamic redundancy control system of a generator set for a large-scale data center, which is characterized in that a sliding component 12 is arranged in a monitoring cabinet 4 and matched with a placement component 13 to be used for installing and detaching equipment in the monitoring cabinet 4, a heat dissipation component 14 is arranged at the bottom of a placement seat 131 and matched with a conveying device 17 to be used for facilitating the long-time use of the equipment in the monitoring cabinet 4 to play a role in heat dissipation, and a movable component 18 is arranged at one side of the monitoring cabinet 4 to be used for installing a rotating component 19 with a winding component 20, so that the winding component 20 can be matched with the placement component 13 to be independently operated.

The foregoing description is only illustrative of the present application and is not intended to limit the scope of the application, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present application.

Claims (6)

1. The full-load peak regulation and dynamic redundancy control system of the generator set for the large data center is characterized by comprising the following components:

the power generation system comprises a power generation unit, wherein one side of the power generation unit is connected with a main controller;

the monitoring cabinet is connected to one side of the main controller, one side of the monitoring cabinet is connected with the standby controller, a control module, an alarm module and an emergency module are respectively arranged in the monitoring cabinet, and the emergency module comprises a storage unit, a switching unit and a selection unit;

a standby motor group connected to one side of the standby controller;

the inside of the monitoring cabinet is sequentially provided with a plurality of sliding assemblies from top to bottom, each sliding assembly comprises two sliding grooves, and a sliding seat is arranged between the two sliding grooves;

one side of the sliding seat is connected with a placement component, the placement component comprises a placement seat, a plurality of through holes are formed in the placement seat, and a plurality of triangular fixing blocks are sequentially connected with the surface of the placement seat from left to right;

both sides of the placement seat are connected with fixing pieces;

the bottom of placing the seat is provided with radiating component, radiating component includes the radiating piece, the surface of radiating piece is provided with a plurality of fixed knot, one side of radiating piece is connected with the connecting pipe, the inner wall of monitor cabinet seted up with the circular hole of connecting pipe looks adaptation.

2. The full-load peak shaving and dynamic redundancy control system of a generator set for a large data center according to claim 1, wherein the control module, the alarm module and the emergency module are connected by connecting wires.

3. The full-load peak shaving and dynamic redundancy control system of the generator set for the large data center according to claim 1, wherein one end of the connecting pipe is provided with a conveying device, the conveying device comprises a pump body, and an input end and an output end of the pump body are respectively connected with an air inlet pipe and a conveying piece.

4. The full-load peak shaving and dynamic redundancy control system of the generator set for the large data center according to claim 1, wherein a movable assembly is arranged on one side of the monitoring cabinet, the movable assembly comprises two movable grooves, movable pieces are arranged in the two movable grooves, and a movable plate is connected between the two movable pieces.

5. The full-load peak shaving and dynamic redundancy control system of the generator set for the large-scale data center according to claim 4, wherein a plurality of rotating assemblies are sequentially arranged on one side of the movable plate from top to bottom, each rotating assembly comprises a rotating member, a rotating rod is connected to one side of the rotating member, and a rotating handle is connected to one side of the rotating member.

6. The full-load peak shaving and dynamic redundancy control system of the generator set for the large data center according to claim 5, wherein a winding component is arranged on the surface of the rotating rod and comprises a hose, connecting pieces are connected to two ends of the hose, a clamping piece is connected to one side of the connecting piece, and a fixing buckle is arranged on the surface of the hose.