CN113543590A

CN113543590A - Data terminal processing equipment based on cloud computing

Info

Publication number: CN113543590A
Application number: CN202110731964.3A
Authority: CN
Inventors: 吴斌; 余力; 王玮楠
Original assignee: Fujian Strait Cornerstone Technology Group Co ltd
Current assignee: Fujian Strait Cornerstone Technology Group Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-10-22

Abstract

The invention provides data terminal processing equipment based on cloud computing, which comprises a cabinet body, wherein a layer frame is fixed in the cabinet body, and is characterized in that air ducts are arranged at two sides of the cabinet body, the layer frame is fixed on the air ducts at two sides, the layer frame comprises a heat dissipation plate movably connected between a slide rail and the slide rail, the heat dissipation plate is communicated with a heat exchanger arranged between the air ducts for liquid cooling and heat dissipation, the air ducts of the invention are directly connected with an indoor fresh air system, dust in air flow can be filtered in one step, the temperature and the humidity of the air flow are controlled, the damage of humidity to internal elements of a server and a power supply is reduced, the layer frame in the cabinet body is provided with an independent heat dissipation plate and a liquid loop, a heating source and a liquid path in the cabinet body are divided, the generation of a heat island effect is avoided, only when the server or the power supply is arranged on the layer frame, the liquid path of the heat dissipation plate is communicated with the heat exchanger, so that cooling liquid at an idle position does not participate in circulation, the circulation efficiency and the heat dissipation efficiency of the cooling liquid are improved, and the development prospect is good.

Description

Data terminal processing equipment based on cloud computing

Technical Field

The invention relates to the technical field of communication, in particular to data terminal processing equipment based on cloud computing.

Background

The cloud computer adopts a distributed system architecture completely different from a personal computer and a supercomputer, the running of programs and the calculation of data are processed by means of cloud equipment and then are sent to user equipment, and the centralized processing of the cloud equipment is utilized, so that the calculation efficiency and the calculation power distribution are greatly improved, and the requirement of the user equipment on hardware is also reduced.

Because the equipment of cloud calculation adopts the mode of concentrating the arrangement usually, the server operates for a long time, can produce a large amount of heats, including the arrangement that the server piles up, the interval is little between the server, can't the radiating mode of fan that adopts usually of the traditional equipment of effluvium, because the interval is little, the air current circulation is limited, including the last a large amount of cables of connecting of server, especially can hinder the circulation of air current, lead to the reduction of radiating efficiency, long-time high temperature can lead to the burnout of server inner member, influence the stability of high in the clouds equipment.

If a large-scale rack for modularized cloud data center with application number CN202011311036.3 is entered, it drives the fan blades to rotate through the motor, so as to blow air to the inside of the rack body, accelerate the flow rate of the air inside the rack body, blow out heat from the inner top wall and the heat dissipation holes of the rack body, after the server is installed, the airflow channel in the rack is blocked by the server and the cable, the heat dissipation efficiency is reduced, the service life of the element is reduced, and the stability of the device is affected.

Disclosure of Invention

The invention aims to provide cloud computing-based data terminal processing equipment with stable heat dissipation.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a data terminal treatment facility based on cloud calculates, includes the cabinet body, and the internal shelf that is fixed with of cabinet, its characterized in that, the both sides of the cabinet body are provided with the guide duct, and the shelf is fixed on the guide duct of both sides, and the shelf includes swing joint's heating panel between slide rail and the slide rail, and the liquid cooling heat dissipation is carried out in the heat exchanger intercommunication that sets up between heating panel and the guide duct.

As a further scheme of the invention: the air vent has been seted up at the top of guide duct, and the air vent extends to the top of the cabinet body and runs through the cabinet body, with indoor new trend system lug connection, air outlet on one side of the air duct of both sides air inlet, and the heat exchanger intercommunication that the air duct of both sides was connected through the air duct middle section carries out the air current exchange.

As a further scheme of the invention: the heat dissipation plates are hollow metal plates, cooling liquid is filled in the heat dissipation plates, two sides of each heat dissipation plate are communicated with the heat exchanger through independent flexible guide pipes to form a loop for circulation of the cooling liquid, a stop valve is arranged on each group of guide pipes to control the connection and disconnection of a liquid path in each guide pipe, and the guide pipes and the stop valves are fixed on the outer walls of the air guide cylinders on two sides.

As a further scheme of the invention: the stop valve is connected with the first shifting piece hinged to the corresponding side wall of the sliding rail in a transmission mode, and the stop valve is opened when the first shifting piece is pressed down and communicated with a liquid path between the corresponding heat dissipation plate and the heat exchanger.

As a further scheme of the invention: the heating panel passes through connecting piece swing joint with the slide rail, and the activity of direction about the heating panel can carry out, and when the heating panel was in the extreme low position, the surface was less than both sides slide rail surface 5mm, and when the heating panel was in the highest position, the surface was higher than both sides slide rail surface 1 mm.

As a further scheme of the invention: the connecting piece includes tension spring, and tension spring and sliding rail connection are passed through to the front end of heating panel, and tension spring's both ends weld respectively on the upper surface of heating panel and the lower surface of slide rail, and tension spring's inner circle position has the connecting rod to fix the surface at the heating panel, and the top of connecting rod passes from the through-hole that corresponds on the slide rail, and the top is stretched out to on the slide rail.

As a further scheme of the invention: the connecting piece further comprises a lever, the middle section of the lever is hinged to the bottom of the tail end of the sliding rail, the front end of the lever is hinged to the tail end of the heat dissipation plate, and the tail end of the lever is abutted to a second poking piece arranged at the tail end of the sliding rail.

As a further scheme of the invention: the first shifting piece and the second shifting piece are hinged with the sliding rail, a torsional spring is arranged at the hinged position, and the torsional spring drives the first shifting piece and the second shifting piece to tilt to protrude out of the surface of the sliding rail when the first shifting piece and the second shifting piece are not subjected to external force.

Advantageous effects

1. The novel air flow device is directly connected with an indoor fresh air system, air is supplied through the fresh air system, dust in air flow can be filtered firstly, the dust is prevented from flowing into an air duct of equipment and being accumulated, the temperature and humidity of the air flow are controlled through the fresh air system, the temperature cooling efficiency in the novel air flow device is controlled through the temperature of the air flow, the possibility of corrosion and aging of relevant original parts is reduced through the control of the humidity of the air flow, the service life is prolonged, the novel air flow device exchanges heat with the fresh air flow through the closed air guide cylinder and the heat exchanger, the air flow does not flow into other spaces in the equipment, the air flow at other positions in a cabinet body is not driven to generate air flow, the possibility that the external dust is brought by the air flow is avoided, and poor heat dissipation caused by the accumulation of the dust is avoided.

2. The corresponding heat dissipation plates and the independent liquid loops are arranged on the shelves in the cabinet body, the heat dissipation plates corresponding to the shelves can divide the space in the cabinet body, the heat island effect caused by the accumulation of heat sources in the cabinet body is prevented, heat cannot be effectively discharged, the stop valves are arranged on the liquid loops, and the stop valves can be communicated with the liquid paths between the heat dissipation plates and the heat exchangers only when the servers are arranged on the corresponding shelves, so that cooling liquid at idle positions in the cabinet body does not participate in circulation, the dynamic control of the circulating cooling liquid is realized, the circulation efficiency of the cooling liquid is improved, and the circulation power consumption is reduced.

3. The heat dissipation plate and the sliding rail are movably connected through the connecting piece, high-low position switching can be carried out according to the installation state of the server on the shelf, in the installation process of the server, the heat dissipation plate is in a low position state under the action of self gravity, the heat dissipation plate is prevented from being in contact with the bottom surface of the server in the installation process of the server, the contact failure caused by the abrasion of the contact surface is avoided, after the server is completely clamped, the weight of the server acts on the heat dissipation plate through the moving piece to drive the heat dissipation plate to move to the high position state, the heat dissipation plate is tightly attached to the bottom surface of the server, the heat conduction efficiency is improved, and the heat transfer is accelerated.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a coolant flow diagram of the present invention.

Fig. 3 is a flow diagram of the present invention.

Fig. 4 is a schematic view of the shelf structure of the present invention.

Fig. 5 is a schematic view of the heat dissipation plate structure of the present invention.

Fig. 6 is a schematic view illustrating the connection between the heat dissipation plate and the front end of the slide rail according to the present invention.

Fig. 7 is a schematic view illustrating the connection between the heat dissipation plate and the rear end of the slide rail according to the present invention.

In FIGS. 1-7: 1-cabinet body, 2-air duct, 3-air vent, 4-heat exchanger, 5-shelf, 6-slide rail, 601-first plectrum, 602-second plectrum, 7-heat dissipation plate, 8-conduit, 9-stop valve, 10-connecting piece, 1001-connecting rod, 1002-tension spring, 1003-lever.

Detailed Description

The following will clearly and completely describe the specific technical scheme of the invention with reference to fig. 1-7 in the attached drawings of the specification of the invention;

referring to fig. 1 to 7, fig. 1 is a schematic overall structure diagram of an embodiment of the present invention, fig. 2 is a cooling liquid flow diagram of the present invention, fig. 3 is an airflow flow diagram of the present invention, fig. 4 is a schematic layer frame structure diagram of the present invention, fig. 5 is a schematic heat dissipation plate structure diagram of the present invention, fig. 6 is a schematic connection diagram of a heat dissipation plate of the present invention and a front end of a slide rail, and fig. 7 is a schematic connection diagram of a heat dissipation plate of the present invention and a rear end of a slide rail.

As shown in fig. 1, the data terminal processing device based on cloud computing provided in this embodiment includes a cabinet 1, and a shelf 5 is fixed in the cabinet 1, and is characterized in that air ducts 2 are provided at two sides of the cabinet 1, the shelf 5 is fixed on the air ducts 2 at two sides, the shelf 5 includes a heat dissipation plate 7 movably connected between a slide rail 6 and the slide rail 6, and a heat exchanger 4 provided between the heat dissipation plate 7 and the air ducts 2 is communicated to perform liquid cooling heat dissipation;

when the equipment runs, the heat generated by the servers installed on the cooling medium absorption layer racks 5 in the cooling plate 7 of each layer rack 5 is concentrated and circulated to the heat exchanger 4 through the liquid loop, the heat is exchanged with the air flow passing through the heat exchanger 4, the cooling medium after the temperature is reduced is subjected to secondary circulation, and the heat is taken away by the air flow to realize the temperature control.

Furthermore, the top of the air duct 2 is provided with an air vent 3, the air vent 3 extends to the top of the cabinet body 1 and penetrates through the cabinet body 1, and is directly connected with an indoor fresh air system, one side of the air duct 2 at two sides is used for air inlet and one side is used for air outlet, and the air ducts 2 at two sides are communicated through a heat exchanger 4 connected with the middle section of the air duct 2 for air flow exchange;

equipment directly links through with indoor new trend system, through the new trend system air feed, dust in the filtration air current can go earlier, it piles up to prevent that the dust from flowing into the equipment wind channel, also realize the control to the air current humiture through the new trend system, realized the control to temperature cooling efficiency in the device by the control to the air current temperature, then reduce the ageing possible life-span of relevant original paper corrosion to the control of air current humidity, and the device is through confined guide duct 2, heat exchanger 4 carries out the heat exchange with the new trend air current, the air current does not flow in other spaces in the equipment, can not drive other positions in the cabinet body and produce the air current and flow, the possibility of bringing the external dust into has been avoided the air current to flow, the heat dissipation that has been avoided the dust to pile up and has been brought is bad.

Further, as shown in fig. 4 and 5, the heat dissipation plates 7 are hollow metal plates, cooling liquid is filled in the heat dissipation plates, two sides of each heat dissipation plate 7 are communicated with the heat exchanger 4 through independent flexible conduits 8 to form a loop for circulation of the cooling liquid, each group of conduits 8 is provided with a stop valve 9 for controlling the on-off of a liquid path in each conduit 8, and the conduits 8 and the stop valves 9 are fixed on the outer walls of the air guide cylinders 2 on two sides;

through the liquid cooling heating panel 7 that corresponds with layer frame 5, realize cutting apart alone the source that generates heat in the 1 space of cabinet body, prevent that the high density of the source that generates heat from piling up and producing heat island effect and influence heat and discharge, improve thermal discharge efficiency through cutting apart to the space.

The stop valve 9 is in transmission connection with a first shifting piece 601 hinged to the side wall of the corresponding slide rail 6, and when the first shifting piece 601 is pressed down, the stop valve 9 is opened to communicate a liquid path between the corresponding heat dissipation plate 7 and the heat exchanger 4;

through the setting of first plectrum 601, only when corresponding the shelf 5 on install the server, the liquid path of heating panel 7 just can be put through with heat exchanger 4 for the coolant liquid in idle position heating panel 7 does not participate in the circulation, reduces the load in liquid cooling return circuit, improves the circulation efficiency and the radiating efficiency of coolant liquid.

Further, the heat dissipation plate 7 is movably connected with the slide rails 6 through the connecting pieces 10, the heat dissipation plate 7 can move up and down, when the heat dissipation plate 7 is at the lowest position, the surface of the heat dissipation plate is 5mm lower than the surfaces of the slide rails 6 at the two sides, and when the heat dissipation plate 7 is at the highest position, the surface of the heat dissipation plate is 1mm higher than the surfaces of the slide rails 6 at the two sides;

the activity of heating panel 7 sets up, make at server or power card in-process with the complete card go into the back, heating panel 7 can be in low level and high-order two kinds of states respectively, be in the low level state at the card in-process and can avoid the bottom surface contact of heating panel 7 and server or power to take place wearing and tearing, guarantee the surface roughness of binding face, the heat conduction efficiency between heating panel 7 and server or power has been improved, heating panel 7 is in the high-order state after the card is gone into, the laminating degree between heating panel 7 and server or power is improved, the heat conduction efficiency is improved.

The connecting piece 10 includes a tension spring 1002, as shown in fig. 6, the front end of the heat dissipation plate 7 is connected to the slide rail 6 through the tension spring 1002, two ends of the tension spring 1002 are respectively welded to the upper surface of the heat dissipation plate 7 and the lower surface of the slide rail 6, a connecting rod 1001 is fixed on the surface of the heat dissipation plate 7 at the inner ring position of the tension spring 1002, the top end of the connecting rod 1001 passes through a corresponding through hole on the slide rail 6, and the top end of the connecting rod extends out to the upper side of the slide rail 6;

through tension spring 1002 and connecting rod 1001's setting, when the installation server on layer frame 5, connecting rod 1001 receives server gravity to influence to be pushed down, drives heating panel 7 front end and sinks, only after the server blocks into completely, connecting rod 1001 loses restraint and drives heating panel 7 front end and reset, the laminating server, outstanding connecting rod 1001 also can play limiting displacement to the server front end simultaneously, the server drops when preventing the cabinet body of transport 1 or other special cases.

As shown in fig. 7, the connecting member 10 further includes a lever 1003, a middle section of the lever 1003 is hinged to the bottom of the tail end of the sliding rail 6, a front end of the lever 1003 is hinged to the tail end of the heat dissipation plate 7, and a tail end of the lever 1003 abuts against a second shifting piece 602 arranged at the tail end of the sliding rail 6;

the tail end of heating panel 7 passes through lever 1003 swing joint, when no server or power installation on shelf 5, heating panel 7 sinks under self action of gravity and is in the low level state, be less than slide rail 6 surface, when the server card, can not produce the friction with the server, go into the back until the server blocks completely, second plectrum 602 is pushed down under server action of gravity, drive the perk of heating panel 7 tail end through lever 1003, the heating panel moves to the high level state, laminating server or power equipment's bottom surface, heat conduction efficiency is improved, heat dissipation accelerates.

Specifically, the first shifting piece 601 and the second shifting piece 602 are hinged to the slide rail 6, and a torsion spring is arranged at the hinged position and drives the first shifting piece 601 and the second shifting piece 602 to tilt and protrude out of the surface of the slide rail 6 when the first shifting piece 601 and the second shifting piece 602 are not subjected to external force;

the first shifting piece 601 and the second shifting piece 602 are reset through the torsion spring, and when no server or power supply is installed on the shelf 5, the corresponding liquid cooling passage is in a disconnected state and a low-position state of the heat dissipation plate 7.

Claims

1. The utility model provides a data terminal treatment facility based on cloud calculates, including the cabinet body (1), cabinet body (1) internal fixation has layer frame (5), its characterized in that, the both sides of the cabinet body (1) are provided with guide duct (2), layer frame (5) are fixed on guide duct (2) of both sides, layer frame (5) include swing joint's between slide rail (6) and slide rail (6) heating panel (7), heat exchanger (4) intercommunication that sets up between heating panel (7) and guide duct (2) carry out the liquid cooling heat dissipation.

2. The cloud computing-based data terminal processing device of claim 1, wherein: the top of the air duct (2) is provided with an air vent (3) extending to the top of the cabinet body (1), the air vent (3) is directly connected with an indoor fresh air system, one side of the air duct is supplied with air, and the air ducts (2) on the two sides are communicated through a heat exchanger (4).

3. The cloud computing-based data terminal processing device of claim 1, wherein: the heat dissipation plates (7) are of hollow structures, cooling liquid is filled in the heat dissipation plates, each heat dissipation plate (7) is communicated with the heat exchanger (4) through an independent guide pipe (8) to circulate the cooling liquid, and a stop valve (9) is arranged on each guide pipe (8) to control the connection and disconnection of a liquid path in each guide pipe (8).

4. The cloud-computing-based data terminal processing device of claim 3, wherein: stop valve (9) are connected with the transmission of first plectrum (601) that sets up on corresponding slide rail (6), and stop valve (9) intercommunication when first plectrum (601) push down.

5. The cloud computing-based data terminal processing device of claim 1, wherein: heating panel (7) pass through connecting piece (10) swing joint with slide rail (6), and the activity of direction about heating panel (7) can carry out, and when heating panel (7) were in the lowest position, the surface was less than both sides slide rail (6) surface 5mm, and when heating panel (7) were in the highest position, the surface was higher than both sides slide rail (6) surface 1 mm.

6. The cloud computing-based data terminal processing device of claim 5, wherein: the connecting piece (10) comprises a tension spring (1002), the front end of the heat dissipation plate (7) is connected with the sliding rail (6) through the tension spring (1002), and the front end of the heat dissipation plate (7) is provided with a connecting rod (1001) which penetrates through the sliding rail (6) to extend out.

7. The cloud computing-based data terminal processing device of claim 5, wherein: the connecting piece (10) comprises a lever (1003), the lever (1003) is hinged to the lower side of the tail end of the sliding rail (6), the front end of the lever (1003) is in transmission connection with the tail end of the heat dissipation plate (7), and the tail end of the lever (1003) is in transmission connection with a second poking piece (602) arranged at the tail end of the sliding rail (6).

8. The cloud-computing-based data terminal processing device according to claim 4 or 7, wherein: the first shifting piece (601) and the second shifting piece (602) are connected with the sliding rail (6) through torsion springs and protrude out of the surface of the sliding rail (6) when external force is not applied.