CN215300661U - Communication system information intelligent switch based on big data - Google Patents

Abstract

The utility model discloses a communication system information intelligent switch based on big data, concretely relates to network switch technical field, including the switch, be equipped with the metal casing that is used for laying switch electrical components in the inside of switch, the outside parcel at metal casing has the heat conduction spare that is used for the inside electric components heat of work of conduction metal casing, installs the water-cooling radiating part in metal casing one side, the water-cooling radiating part is located the inside of switch, is connected with heat conduction spare for give off the heat of heat conduction spare conduction, install supplementary heat dissipation channel in the bottom of switch. The utility model discloses a set up independent heat dissipation area, utilize the mode that water-cooling and semiconductor refrigeration piece combined, conduct and dispel the heat the inside heat of switch, the radiating effect is good, and the radiating efficiency is high, and the security is reliable to promote the stability and the reliability of switch body inner structure work.

Description

Communication system information intelligent switch based on big data

Technical Field

The utility model relates to a network switch technical field, more specifically say, the utility model relates to a communication system information intelligence switch based on big data.

Background

A network switch is a network hardware that receives and forwards data to a target device through message switching. The network expansion device is a network expansion device, can provide more connection ports for a sub-network so as to connect more computers, and has the characteristics of high cost performance, high flexibility, relative simplicity, easy implementation and the like.

With the advent of the cloud era, Big data (Big data) has attracted more and more attention. Large data requires special techniques to efficiently process large amounts of data that are tolerant of elapsed time. Under the premise, the method needs to be applied to a network switch with higher performance and more intellectualization for data receiving and forwarding. The ports of the high-performance and intelligent switch are increased, so that the corresponding heat dissipation structure is needed to be beneficial to dissipation of internal heat, but the common switch has certain defects in the design of the heat dissipation structure, and the working stability and reliability of the internal structure cannot be effectively guaranteed.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model provides a communication system information intelligence switch based on big data, including the switch, be equipped with the metal casing that is used for laying switch electrical components in the inside of switch, outside parcel at metal casing has the heat conduction spare that is used for the inside electric components work heat of conduction metal casing, install the water-cooling heat-dissipating piece in metal casing one side, the water-cooling heat-dissipating piece is located the inside of switch, be connected with heat conduction spare, a heat for give off heat conduction of heat conduction spare conduction, install supplementary radiating channel in the bottom of switch, a cooling is assisted to the water-cooling heat-dissipating piece, supplementary radiating channel is located the water-cooling heat-dissipating piece under.

In a preferred embodiment, the heat conducting element comprises a heat conducting copper plate attached to the top and the bottom of the metal shell, the top and the bottom of the exchanger are both attached to the heat conducting copper plate and provided with a plurality of heat dissipation holes, a U-shaped hollow aluminum pipe is inserted into the heat conducting copper plate, the hollow aluminum pipe is sleeved outside the metal shell, and two ends of the hollow aluminum pipe are connected with the water-cooling heat dissipation element.

In a preferred embodiment, the water-cooled heat sink comprises a water-cooled tank installed inside the exchanger and a circulating pump installed inside the water-cooled tank, two ends of the hollow aluminum pipe are communicated with the inside of the water-cooled tank, and the inside of the water-cooled tank is filled with water-cooled liquid and circularly flows inside the water-cooled tank and the inside of the hollow aluminum pipe through the circulating pump.

In a preferred embodiment, a plurality of semiconductor refrigeration sheets penetrate through the water cooling tank, the cold ends of the semiconductor refrigeration sheets are located inside the water cooling tank, and the hot ends of the semiconductor refrigeration sheets penetrate through the water cooling tank and the exchanger and extend to the bottom of the exchanger.

In a preferred embodiment, the auxiliary heat dissipation channel comprises a hollow slot tube installed at the bottom of the exchanger, the hot end of the semiconductor refrigeration sheet is inserted into the hollow slot tube, and heat dissipation fans are installed at two ports of the hollow slot tube.

In a preferred embodiment, a stirring motor is further installed on the outer wall of the water cooling tank, an output shaft of the stirring motor extends to the inside of the water cooling tank, and stirring blades are installed at the end part of the output shaft and used for stirring the water cooling liquid inside the water cooling tank.

In a preferred embodiment, the outer wall of the water cooling tank is further connected with a circulating water pipe, the end part of the circulating water pipe is connected with a suction pump, and the suction pump is connected with the outside of the exchanger through a pipeline and used for replacing the water cooling liquid in the water cooling tank.

The utility model discloses a technological effect and advantage:

this practicality utilizes the mode that water-cooling and semiconductor refrigeration piece combine, conducts and dispels the heat to the inside heat of switch through setting up independent heat dissipation area, and the radiating effect is good, and the radiating efficiency is high, and the security is reliable to promote the stability and the reliability of switch body inner structure work.

Drawings

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

fig. 2 is a schematic diagram of the internal structure of the present invention.

Description of reference numerals: the device comprises a switch 1, a metal shell 2, a heat conducting piece 3, a water cooling radiating piece 4, an auxiliary radiating channel 5, a heat conducting copper plate 6, radiating holes 7, a hollow aluminum pipe 8, a water cooling box 9, a circulating pump 10, a semiconductor refrigerating piece 11, a hollow grooved pipe 12, a radiating fan 13, a stirring motor 14, stirring fan blades 15, a circulating water pipe 16 and a suction pump 17.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

As shown in fig. 1-2, the intelligent communication system information switch based on big data comprises a switch 1, a metal casing 2 for placing electrical components of the switch 1 is arranged inside the switch 1, a heat conduction element 3 for conducting working heat of the electrical components inside the metal casing 2 is wrapped outside the metal casing 2, a water-cooling heat dissipation element 4 is installed on one side of the metal casing 2, the water-cooling heat dissipation element 4 is located inside the switch 1 and connected with the heat conduction element 3 for dissipating heat conducted by the heat conduction element 3, an auxiliary heat dissipation channel 5 is installed at the bottom of the switch 1 for auxiliary cooling of the water-cooling heat dissipation element 4, and the auxiliary heat dissipation channel 5 is located right below the water-cooling heat dissipation element 4;

further, a plurality of connection ports are further formed on the front side wall of the switch 1 for network connection.

In the course of the work, the heat that is located the inside electrical components of metal casing 2 and produces at the during operation conducts to the heat dissipation part 4 department of water-cooling through outside heat conduction piece 3, utilizes water-cooling heat dissipation part 4 to give off the heat, and supplementary heat dissipation channel 5 assists the heat dissipation to this process, further promotes the radiating efficiency, conducts through setting up the region alone to the heat of switch 1 inside and gives off to promote the stability and the reliability of switch 1 body inner structure work.

Heat conduction spare 3 is including the laminating at the heat conduction copper 6 of 2 tops of metal casing and bottom, the top and the bottom of switch 1 all laminate with heat conduction copper 6 and have seted up a plurality of louvres 7, peg graft in the inside of heat conduction copper 6 and have the cavity aluminum pipe 8 of U type, and the outside of metal casing 2 is located to cavity aluminum pipe 8 cover, and two tip and the water-cooling heat dissipation piece 4 of cavity aluminum pipe 8 are connected.

In the working process, the heat conducting copper plate 6 is attached to the metal shell 2, heat generated by an electrical component inside the metal shell 2 is absorbed and conducted through the heat conducting copper plate 6 and then conducted to the water-cooling heat dissipation part 4 through the hollow aluminum tube 8, and the contact area between the hollow aluminum tube 8 and the metal shell 2 is increased in a phase-changing manner by utilizing the heat conducting copper plate 6 and then utilizing the hollow aluminum tube 8, so that heat conduction is facilitated.

The water-cooling heat dissipation part 4 comprises a water-cooling tank 9 arranged inside the exchanger 1 and a circulating pump 10 arranged inside the water-cooling tank 9, two end parts of the hollow aluminum pipe 8 are communicated with the inside of the water-cooling tank 9, and water-cooling liquid is filled inside the water-cooling tank 9 and circularly flows inside the water-cooling tank 9 and the hollow aluminum pipe 8 through the circulating pump 10;

furthermore, the water cooling liquid continuously conducts heat to the inside of the water cooling tank 9 in the circulating process, so that the heat of one side of the metal shell 2 and the heat of the metal shell 2 are reduced, and the working stability of the electrical elements of the switch 1 is ensured.

On the basis, cavity aluminum pipe 8 holds the effect as the water-cooling pipe, it is whole state, two tip are located metal casing 2 one side and are connected on water-cooling tank 9, keep apart with the inside electrical components of metal casing 2, the phenomenon of cavity aluminum pipe 8 difficult appearance water-cooling liquid seepage in the course of the work promptly, even the seepage also can only produce the influence to water-cooling tank 9 one side, can not influence the inside electrical components of metal casing 2 one side and metal casing 2, the security has under the prerequisite of having guaranteed the radiating efficiency.

Run through on the water-cooling tank 9 and have a plurality of semiconductor refrigeration pieces 11, the cold junction of semiconductor refrigeration piece 11 is located the inside of water-cooling tank 9 and the bottom that the hot junction runs through water-cooling tank 9 and switch 1 and extends to switch 1, when heat conduction is inside to water-cooling tank 9, in order to avoid the inside water-cooling liquid temperature of water-cooling tank 9 to rise and lead to the heat dissipation variation, the cold junction that utilizes semiconductor refrigeration piece 11 cools down the water-cooling liquid, make the inside water-cooling liquid of water-cooling tank 9 remain throughout in lower temperature range, it is effectual to metal casing 2's heat conduction.

Supplementary radiating passage 5 is including installing the cavity tube 12 in switch 1 bottom, the hot junction of semiconductor refrigeration piece 11 is pegged graft to the inside of cavity tube 12, radiator fan 13 is installed to two port departments of cavity tube 12, carries out the in-process of refrigeration cooling at the cold junction of semiconductor refrigeration piece 11, and its hot junction is located cavity tube 12 inside, and control radiator fan 13 work is cooled down the hot junction to guarantee that semiconductor refrigeration piece 11 can normally work.

Still install agitator motor 14 on the outer wall of water-cooling tank 9, agitator motor 14's output shaft extends to the inside of water-cooling tank 9 and output shaft tip and installs stirring fan blade 15 for stir the inside water-cooling liquid of water-cooling tank 9, avoid appearing the inhomogeneous phenomenon of water-cooling liquid temperature distribution in the water-cooling tank 9, promote the cooling effect.

Still be connected with circulating pipe 16 on the 9 outer walls of water-cooling tank, the bad water pipe end connection that circulates has suction pump 17, suction pump 17 passes through pipeline and 1 external connection of switch for change the inside water-cooling liquid of water-cooling tank 9, when muddy and impurity is more in the time of long-time working process water-cooling liquid appears, accessible circulating pipe 16 and suction pump 17 change the inside water-cooling liquid of water-cooling tank 9, make water-cooling heat sink 4 can keep good user state all the time.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art and related fields without creative efforts shall fall within the protection scope of the present disclosure. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (7)

1. The utility model provides a communication system information intelligence switch based on big data which characterized in that: including the switch, be equipped with the metal casing that is used for laying switch electrical components in the inside of switch, outside parcel at the metal casing has the heat conduction piece that is used for conducting the inside electric components heat of operation of metal casing, install water-cooling radiating part in metal casing one side, water-cooling radiating part is located the inside of switch, be connected with heat conduction piece, a heat for giving off heat conduction piece conduction's heat, install supplementary radiating passage in the bottom of switch, a supplementary cooling is carried out to water-cooling radiating part, supplementary radiating passage is located water-cooling radiating part under.

2. The big data based communication system information intelligent switch according to claim 1, wherein: the heat conduction spare is including the heat conduction copper of laminating in metal casing top and bottom, the top and the bottom of switch all laminate with the heat conduction copper and have seted up a plurality of louvres, and it has the cavity aluminum pipe of U type to peg graft in the inside of heat conduction copper, and metal casing's outside is located to cavity aluminum pipe box, and two tip and the water-cooling heat dissipation piece of cavity aluminum pipe are connected.

3. The big data based communication system information intelligent switch according to claim 2, wherein: the water-cooling radiating piece is including installing at the inside water-cooling tank of switch and installing the circulating pump in water-cooling tank inside, two tip and the inside intercommunication of water-cooling tank of cavity aluminum pipe, water-cooling tank inside packing has water-cooling liquid and flows at water-cooling tank inside and the inside circulation of cavity aluminum pipe through the circulating pump.

4. The big data based communication system information intelligent switch according to claim 3, wherein: the water-cooling tank is provided with a plurality of semiconductor refrigerating pieces in a penetrating mode, the cold ends of the semiconductor refrigerating pieces are located inside the water-cooling tank, and the hot ends of the semiconductor refrigerating pieces penetrate through the water-cooling tank and the bottom of the exchanger and extend to the bottom of the exchanger.

5. The big data based communication system information intelligent switch according to claim 4, wherein: the auxiliary heat dissipation channel comprises a hollow groove pipe arranged at the bottom of the exchanger, the hot end of the semiconductor refrigeration piece is inserted into the hollow groove pipe, and heat dissipation fans are arranged at two port positions of the hollow groove pipe.

6. The big data based communication system information intelligent switch according to claim 3, wherein: still install agitator motor on the outer wall of water-cooling tank, agitator motor's output shaft extends to the inside of water-cooling tank and output shaft tip and installs stirring fan blade for stir the inside water-cooling liquid of water-cooling tank.

7. The big data based communication system information intelligent switch according to claim 3, wherein: still be connected with circulating pipe on the water-cooling tank outer wall, circulating pipe tip is connected with the suction pump, the suction pump passes through pipeline and switch external connection for change the inside water-cooling liquid of water-cooling tank.

Images