CN212519849U - Equipment water-cooling system based on Internet of things - Google Patents

Abstract

The utility model discloses an equipment water-cooling system based on thing networking belongs to equipment control technical field, including terminal, high in the clouds, equipment module, water-cooling control module and water-cooling tank, outlet conduit and return water pipe are installed respectively to water-cooling tank both ends, equipment module mainly comprises a plurality of power equipment of calculating, each power equipment both ends are calculated and are passed through the hose and communicate with outlet conduit, return water pipe respectively, the operation of terminal management power equipment of calculating, the water-cooling that flows in the power equipment of water-cooling control module control calculation, the high in the clouds respectively with terminal, equipment module, water-cooling control module communication connection. The utility model discloses a running state of terminal control computing power equipment to and water-cooling control module control second solenoid valve flows into the water-cooling to computing power equipment, need not the staff and goes the field operation, both reduce expending of time, manpower, the operation of efficient management and control computing power equipment when arriving again, the ability of reinforcing enterprise operation management and control improves the competitive advantage of enterprise.

Description

Equipment water-cooling system based on Internet of things

Technical Field

The utility model belongs to the technical field of equipment control, especially, relate to an equipment water-cooling system based on thing networking.

Background

The internet of things is an important component of a new generation of information technology and an important development stage of the information era, and is the internet with connected objects.

Nowadays, the enterprise adopts the cooling by water cooling's mode to cool down the heat that computing power equipment produced, has such phenomenon: if a plurality of force calculation devices have faults, a worker needs to find the force calculation device with the faults, pull out the plug, manually close the water-cooling switch, and finally check and maintain the force calculation device. For enterprises with dozens or hundreds of computing power equipment, finding out the position of the fault computing power equipment and closing the water-cooling switch are easy to achieve.

However, for an enterprise that manages thousands or even tens of thousands of computing power devices at the same time, the positions of multiple fault computing power devices need to be determined in time, the power is turned off, the water cooling switch is turned off manually, and the computing power devices that cannot turn off the water cooling switch in time can continue to use water cooling, so that time and labor are consumed, certain load influence is caused on water coolers for supplying water cooling, the operation efficiency of the enterprise is greatly influenced, and the competitive advantage of the enterprise in related industries is not enhanced.

SUMMERY OF THE UTILITY MODEL

The utility model provides an equipment water cold flow system based on thing networking aims at solving the problem in the background art.

For realizing above-mentioned purpose, the utility model provides an equipment water cold flow system based on thing networking, including terminal, high in the clouds, equipment module, water-cooling control module, water cooling case, outlet conduit, return water pipe and hose, outlet conduit and return water pipe are installed respectively to water cooling case both ends, equipment module mainly comprises a plurality of power of calculating equipment of arranging according to the preface, each power of calculating equipment both ends pass through the hose respectively with outlet conduit, return water pipe intercommunication, with right power of calculating equipment circulation water supply heat dissipation, the terminal management and control power of calculating equipment's operation, water-cooling control module control the water-cooling of inflow in the power of calculating equipment, the high in the clouds respectively with terminal, equipment module, water-cooling control module communication connection.

Preferably, the water cooling control module includes:

a first electromagnetic valve arranged on the water outlet pipeline,

a second electromagnetic valve is arranged on the hose which is positioned on the water outlet pipeline and connected with each force calculating device,

a water pump arranged on the water return pipeline,

the machine case, the machine case install in the water-cooling tank outside, the water-cooling control panel is installed to the machine incasement, water-cooling control panel one side is equipped with the power, be equipped with network interface on the water-cooling control panel, the water-cooling control panel with power, network interface, first solenoid valve, second solenoid valve and water pump electricity are connected.

Preferably, a water level sensor is arranged in the water cooling tank, a third electromagnetic valve for supplementing water cooling is arranged at the top of the water cooling tank, the water cooling control panel is in communication connection with the water level sensor, and the water cooling control panel is electrically connected with the third electromagnetic valve.

Preferably, the force calculation equipment comprises a force calculation plate, a water cooling plate and force calculation chips, wherein the force calculation chips are embedded on the force calculation plate, and the water cooling plate is arranged on the back of the force calculation plate.

Preferably, one side of the water cooling plate is provided with a water inlet joint and a water outlet joint, the water inlet joint is communicated with the water outlet pipeline through the hose, and the water outlet joint is communicated with the water return pipeline through the hose.

Preferably, the terminal includes a PC terminal and a mobile terminal.

Preferably, the system further comprises a main power supply and an auxiliary power supply, the main power supply is electrically connected with the equipment module, and the auxiliary power supply is electrically connected with the terminal, the cloud end and the water cooling control module.

The utility model discloses for prior art's beneficial effect:

(1) the second electromagnetic valve corresponding to the force calculation equipment is controlled through the water cooling control module, and the water cooling switch corresponding to the fault force calculation equipment is closed in time, so that the labor is reduced;

(2) the power-on disconnection of the power calculation equipment with faults is controlled through the terminal, so that the time for searching the position of the power calculation equipment is greatly reduced;

(3) the water cooling control module is used for controlling the third electromagnetic valve to supplement water to the water cooling tank, so that normal water cooling supply is ensured;

(4) and the terminal controls the operation of the computing power equipment through the cloud, so that intelligent management and control are realized, and the competitive advantage of enterprises is enhanced.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is an assembly connection schematic diagram of the equipment water-cooling system based on the internet of things;

fig. 2 is a general assembly schematic diagram of the equipment water-cooling system based on the internet of things;

fig. 3 is a schematic diagram of force calculating equipment in the equipment water-cooling system based on the internet of things;

fig. 4 is a schematic diagram of a water-cooling plate structure in the equipment water-cooling system based on the internet of things;

description of the drawings: 1. a terminal; 101. a PC terminal; 102. a mobile terminal; 2. a cloud end; 3. an equipment module; 4. a water cooling control module; 401. a first solenoid valve; 402. a second solenoid valve; 403. a water pump; 404. a chassis; 405. a water-cooling control plate; 406. a power source; 407. a network interface; 408. a water level sensor; 409. a third electromagnetic valve; 5. a water cooling tank; 6. a water outlet pipeline; 7. a water return pipe; 8. a hose; 9. a force calculation device; 901. calculating the strength board; 902. a water-cooling plate; 903. a force calculating chip; 904. a water inlet joint; 905. a water outlet joint; 10. a main power supply; 11. and (5) auxiliary power supply.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In one embodiment, an enterprise has 20000 computing power devices, with the support specifications: length, width, height, 3, 0.45, 1.6 (unit m), 5 layers per rack and 8 racks per layer, 40 racks per rack, occupying an area of 3 square meters (including the working channel), 500 racks, and an area of about 1500 square meters. The problem that the failed computing equipment cannot be processed by means of memory of workers in management and operation is solved, time and material resources are wasted, the problem that the failed computing equipment cannot be processed efficiently is solved, relaxation of enterprise management and operation and cost increase are caused easily, and the advantages of enterprises in the industry are not reflected easily.

Therefore, the embodiment of the utility model provides an equipment water-cooling system based on the internet of things, referring to fig. 1, which comprises a terminal 1, a cloud end 2, an equipment module 3, a water-cooling control module 4, a water-cooling tank 5, a water outlet pipe 6, a water return pipe 7 and a hose 8, the two ends of the water cooling tank 5 are respectively provided with a water outlet pipeline 6 and a water return pipeline 7, the equipment module 3 mainly comprises a plurality of force calculating equipment 9 which are arranged in sequence, the two ends of each force calculating equipment 9 are respectively communicated with the water outlet pipeline 6 and the water return pipeline 7 through a hose 8, so as to circularly supply water to the computing power equipment 9 for heat dissipation, the terminal 1 controls the operation of the computing power equipment 9, the water cooling control module 4 controls water cooling flowing into the computing power equipment 9, and the cloud end 2 is in communication connection with the terminal 1, the equipment module 3 and the water cooling control module 4 respectively.

In this embodiment, water-cooling tank 5 passes through outlet conduit 6 and to equipment module 3 input water-cooling, and the water-cooling dredges in equipment module 3 and takes away the heat and cool down, exports water-cooling to water-cooling tank 5 in through return water pipe 7, forms water-cooled cyclic utilization, using water wisely. On the basis, the equipment module 3 is scaled, namely n (n is a positive integer) force calculation equipment 9 are arranged on the support in sequence, and based on an internet mode of object connection, the terminal 1 (for example, a computer) is in network connection with each force calculation equipment 9 through the cloud 2 (for example, a server) to control the state that each force calculation equipment 9 is started to operate or stopped to be closed; the terminal 1 (e.g., a computer) is further connected with the water cooling control module 4 through the cloud 2 (e.g., a server) in a network manner, and is used for being in communication connection with the water cooling control module 4 to control the water cooling flow state of the water cooling control module 4 in the water outlet pipeline 6 and the water return pipeline 7 and the storage capacity of the water cooling in the water conservancy tank, so that the computing equipment 9 correspondingly flows into the water cooling as required. On one hand, the flow-in of water cooling at the corresponding position can be remotely controlled by the power calculating equipment 9 with a fault, and a worker does not need to manually close a water cooling switch before going to the power calculating equipment 9 with the fault, so that a large amount of time is saved, and the pressure of water storage of the water cooling tank 5 is also reduced; on the other hand, the terminal 1 remotely controls the power calculation equipment 9 with the fault to stop running, so that electricity is saved, management and control are timely and efficient, and the enterprise operation cost is reduced.

Further, the terminal 1 includes a PC terminal 101 and a mobile terminal 102.

For example, in one embodiment, the computing power equipment 9 installed in an enterprise is usually operated by 24 hours of power supply, and during normal work, a manager in an office can directly operate the PC terminal 101 (e.g., a computer) to timely manage and control the operation state of the relevant computing power equipment 9; of course, the manager can control the operation state of the computing power device 9 through the mobile terminal 102 (e.g., a smart phone), and when the manager has a long distance to the PC terminal 101, the manager can also control the computing power device 9 through the mobile terminal 102 in time, so as to improve the efficiency of enterprise operation control.

Further, the water-cooling control module 4 includes a case 404, a water-cooling control board 405, a power source 406, a network interface 407, a first solenoid valve 401, a second solenoid valve 402, a water pump 403, a water level sensor 408 and a third solenoid valve 409, the water outlet pipe 6 is provided with the first solenoid valve 401, and is located the water outlet pipe 6 and each are provided with the second solenoid valve 402 on the hose 8 connected to the computing power equipment 9, and are arranged on the water pump 403 on the water return pipe 7 and the case 404, the case 404 is installed on the outside of the water-cooling tank 5, the water-cooling control board 405 is installed in the case 404, the power source 406 is arranged on one side of the water-cooling control board 405, the network interface 407 is arranged on the water-cooling control board 405, and the water-cooling control board 405 is electrically connected with the power source 406, the network interface 407, the.

In one embodiment, the enterprise-installed computing power equipment 9 operates normally, when one or more computing power equipment 9 fails, only the second electromagnetic valve 402 corresponding to the failed computing power equipment 9 is controlled to be powered off to cut off the inflow of water cooling, and the terminal 1 is controlled to be powered off and stop operating the failed computing power equipment 9, so that the working state of other normally-operated computing power equipment 9 is not affected, and the normal operation of the enterprise is ensured.

Further, a water level sensor 408 is arranged in the water cooling tank 5, a third electromagnetic valve 409 for supplementing water cooling is arranged at the top of the water cooling tank 5, the water cooling control plate 405 is in communication connection with the water level sensor 408, and the water cooling control plate 405 is electrically connected with the third electromagnetic valve 409.

In an alternative embodiment, since the amount of water cooling in the water cooling tank 5 is gradually reduced during the flowing and heat dissipation processes, when the water cooling in the water cooling tank 5 drops to the alarm state of the water level sensor 408, the water cooling control board 405 controls the third electromagnetic valve 409 to open to supplement the water cooling in the water cooling tank 5, so as to ensure that the water cooling in the water cooling tank 5 is kept on the safety line.

Further, referring to fig. 2, the system further includes a main power supply 10 and an auxiliary power supply 11, the main power supply 10 is electrically connected to the device module 3, and the auxiliary power supply 11 is electrically connected to the terminal 1, the cloud end 2, and the water-cooling control module 4.

In this embodiment, for better protection calculation power equipment 9 life and reduce calculation power equipment 9 and damage, the power supply mode of this system falls into main power supply 10 and supplementary power supply 11, main power supply 10 is connected with equipment module 3 electricity, the stability of the 3 power supplies of guarantee equipment module, and supplementary power supply 11 is connected with terminal 1, high in the clouds 2, water-cooling control module 4 electricity, supplementary power supply 11 still includes other powers of supply enterprise, for example light, printer and supervisory equipment etc..

In the above embodiment, referring to fig. 3, the force calculation device 9 includes a force calculation plate 901, a water cooling plate 902, and force calculation chips 903, wherein the force calculation chips 903 are embedded on the force calculation plate 901, the water cooling plate 902 is disposed on the back of the force calculation plate 901,

further, referring to fig. 4, a water inlet connector 904 and a water outlet connector 905 are arranged on one side of the water cooling plate 902, the water inlet connector 904 is communicated with the water outlet pipe 6 through the hose 8, and the water outlet connector 905 is communicated with the water return pipe 7 through the hose 8.

The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongings the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. Those skilled in the art will appreciate that other embodiments of the invention can be devised which do not require inventive effort and which fall within the scope of the present invention.

Claims (7)

1. The utility model provides an equipment water cold flow system based on thing networking, its characterized in that, includes terminal, high in the clouds, equipment module, water-cooling control module, water-cooling case, outlet conduit, return water pipeline and hose, outlet conduit and return water pipeline are installed respectively to water-cooling case both ends, equipment module mainly comprises a plurality of power equipment of calculating of arranging according to the preface, each power equipment both ends of calculating pass through the hose respectively with outlet conduit, return water pipeline intercommunication, with right power equipment circulation water supply heat dissipation of calculating, the terminal management and control the operation of power equipment, water-cooling control module control the water-cooling that flows in the power equipment of calculating, the high in the clouds respectively with terminal, equipment module, water-cooling control module communication connection.

2. The Internet of things-based equipment water cooling system as claimed in claim 1, wherein the water cooling control module comprises:

a first electromagnetic valve arranged on the water outlet pipeline,

a second electromagnetic valve is arranged on the hose which is positioned on the water outlet pipeline and connected with each force calculating device,

a water pump arranged on the water return pipeline,

the machine case, the machine case install in the water-cooling tank outside, the water-cooling control panel is installed to the machine incasement, water-cooling control panel one side is equipped with the power, be equipped with network interface on the water-cooling control panel, the water-cooling control panel with power, network interface, first solenoid valve, second solenoid valve and water pump electricity are connected.

3. The Internet of things-based equipment water-cooling system as claimed in claim 2, wherein a water level sensor is arranged in the water-cooling tank, a third electromagnetic valve for supplementing water cooling is arranged at the top of the water-cooling tank, the water-cooling control board is in communication connection with the water level sensor, and the water-cooling control board is electrically connected with the third electromagnetic valve.

4. The Internet of things-based equipment water-cooling system as claimed in claim 1, wherein the force calculation equipment comprises a force calculation board, a water-cooling board and force calculation chips, wherein a plurality of force calculation chips are embedded on the force calculation board, and a water-cooling board is arranged on the back of the force calculation board.

5. The Internet of things-based equipment water-cooling system as claimed in claim 4, wherein a water inlet joint and a water outlet joint are arranged on one side of the water-cooling plate, the water inlet joint is communicated with the water outlet pipeline through the hose, and the water outlet joint is communicated with the water return pipeline through the hose.

6. The Internet of things-based equipment water-cooling system as claimed in claim 1, wherein the terminal comprises a PC terminal and a mobile terminal.

7. The Internet of things-based equipment cold water production system is characterized by further comprising a main power supply and an auxiliary power supply, wherein the main power supply is electrically connected with the equipment module, and the auxiliary power supply is electrically connected with the terminal, the cloud end and the water cooling control module.

Images