CN112714600A - Edge server and control cabinet - Google Patents

Abstract

The invention provides an edge server and a control cabinet, wherein the edge server comprises: a housing; the heat dissipation piece comprises a heat dissipation piece upper cover and a plurality of fins, and a heat dissipation channel is formed between every two adjacent fins; the rotating assembly is used for rotatably connecting the upper cover of the radiator to the shell so as to enable the radiating channel to face the air supply direction. According to the edge server provided by the invention, the heat can be dissipated for the shell through the arrangement of the upper cover of the radiator and the plurality of fins, so that the temperature in the shell is reduced, the working performance of the edge server is improved, and the service life of the edge server is prolonged; according to the edge server provided by the invention, the upper cover of the radiator is rotatably arranged on the shell, the orientation of the plurality of fins can be adjusted, so that the radiating channels among the plurality of fins can face the air supply outlet or the fan on the control case, the radiating efficiency of the upper cover of the radiator and the plurality of fins can be improved, the working performance of the edge server is further improved, and the service life of the edge server is prolonged.

Description

Edge server and control cabinet

Technical Field

The invention relates to the technical field of servers, in particular to an edge server and a control cabinet.

Background

The edge server is an open platform integrating network, computing, storage and application core capabilities at one side close to an object or a data source, and provides nearest-end service nearby. The edge server can not only ensure the timeliness of data processing, but also feed correspondingly processed data back to the control system in real time or transmit the processed data to the cloud in time. Meanwhile, the edge server can also avoid sensitive data from being uploaded to the cloud, and the risk of data leakage is reduced. The edge server can greatly reduce the consumption of the cloud server and the consumption of bandwidth flow, and the cost of enterprises is reduced.

However, most of the currently used edge servers are placed in an outdoor control cabinet, and are limited by an installation space in the control cabinet, so that the heat dissipation effect of the edge servers is poor, and the working performance and the service life of the edge servers are affected.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the invention provides an edge server.

A second aspect of the invention provides a control cabinet.

In view of the above, an edge server according to an aspect of the present invention includes: a housing; the heat dissipation part comprises a heat dissipation device upper cover and a plurality of fins, the fins are arranged on the heat dissipation device upper cover at intervals, and heat dissipation channels are formed between adjacent fins; the rotating assembly is used for rotatably connecting the upper cover of the radiator to the shell so as to enable the radiating channel to face the air supply direction.

In addition, the edge server in the above technical solution provided by the present invention may further have the following additional technical features:

in the above technical solution, further, the edge server further includes: and the graphite temperature equalizing sheet is arranged between the shell and the upper cover of the radiator.

In any of the above technical solutions, further, the rotating assembly includes: the first turntable bearing is arranged on the shell; and the second turntable bearing is connected to the first turntable bearing and arranged on the upper cover of the radiator.

In any of the above technical solutions, further, the cross section along the height direction of the housing is square; the section along the height direction of the radiator upper cover is square.

In any of the above technical solutions, further, the edge server further includes: a connecting column formed in the housing; and the fixing bolt is used for penetrating through the upper cover of the radiator and connecting the radiator and the connecting column under the condition that the radiating channel faces the air supply direction.

In any of the above technical solutions, further, the edge server further includes: a circuit board disposed within the housing; and the antennas are arranged on two sides of the shell and connected to the circuit board.

In any of the above technical solutions, further, the housing is made of aluminum; and/or the upper cover of the radiator is made of aluminum; and/or the fins are made of aluminum; and/or the fins and the upper cover of the radiator are in an integrated structure.

According to a second aspect of the present invention, there is provided a control cabinet comprising: a box body; in the edge server according to any of the above technical solutions, the edge server is disposed in the box.

In addition, the edge server in the above technical solution provided by the present invention may further have the following additional technical features:

in the above technical solution, further, the edge server further includes: and the air supply outlet is formed in the box body, and the air supply direction of the air supply outlet faces to the heat dissipation channel formed among the plurality of fins.

In any of the above technical solutions, further, the edge server further includes: the fan is arranged in the box body, and the air supply direction of the fan faces to the heat dissipation channel formed among the fins.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1) according to the edge server provided by the invention, the heat can be dissipated for the shell through the arrangement of the upper cover of the radiator and the plurality of fins, so that the temperature in the shell is reduced, the working performance of the edge server is improved, and the service life of the edge server is prolonged;

2) according to the edge server provided by the invention, the upper cover of the radiator is rotatably arranged on the shell, the orientation of the plurality of fins can be adjusted, so that the radiating channels among the plurality of fins can face the air supply outlet or the fan on the control case, the radiating efficiency of the upper cover of the radiator and the plurality of fins can be improved, the working performance of the edge server is further improved, and the service life of the edge server is prolonged.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic diagram of an edge server according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an edge server according to another embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 and fig. 2 is:

the radiator comprises a shell 1, a radiator upper cover 2, fins 3, graphite temperature equalizing sheets 4, a first turntable bearing 5, a second turntable bearing 6, a connecting column 7, fixing bolts 8 and an antenna 9.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be described in further detail below with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Edge servers and control cabinets according to some embodiments of the invention are described below with reference to fig. 1 and 2.

As shown in fig. 1 and 2, an embodiment of the present invention provides an edge server, including: a housing 1, a heat sink and a rotation assembly.

The heat dissipation part comprises a heat radiator upper cover 2 and a plurality of fins 3, the fins 3 are arranged on the heat radiator upper cover 2 at intervals, and heat dissipation channels are formed between adjacent fins 3; the radiator upper cover 2 is rotatably connected to the housing 1 by a rotating assembly so that the heat radiation passage faces the air blowing direction.

According to the edge server provided by the invention, the heat can be radiated for the shell 1 through the arrangement of the radiator upper cover 2 and the plurality of fins 3, so that the temperature in the shell 1 is reduced, the working performance of the edge server is improved, and the service life of the edge server is prolonged.

Further, the inventor finds that different air supply directions can cause different heat dissipation effects of the upper cover 2 and the plurality of fins 3, specifically, the heat dissipation effect is the worst when the air supply direction is perpendicular to the layout direction of the fins 3, the heat dissipation effect is the best when the air supply direction faces the heat dissipation channel between two adjacent fins 3, and the heat dissipation effect is general when the air supply direction is staggered with the layout direction of the fins 3. According to the edge server provided by the invention, the upper radiator cover 2 is rotatably arranged on the shell 1, so that the edge server can be suitable for different installation spaces and can be adapted to different air supply angles, the orientation of the plurality of fins 3 can be adjusted by rotating the upper radiator cover 2, a heat dissipation channel among the plurality of fins 3 can be oriented to an air supply outlet or a fan on the control case, the heat dissipation efficiency of the upper radiator cover 2 and the plurality of fins 3 can be improved, the working performance of the edge server is further improved, and the service life of the edge server is prolonged.

In the above embodiment, further, the method further includes: and the graphite temperature equalizing sheet 4 is arranged between the shell 1 and the radiator upper cover 2.

In this embodiment, further included graphite samming piece 4, graphite samming piece 4 sets up at casing 1 and radiator upper cover 2, and graphite samming piece 4 can be with the even transport of the heat that produces in the casing 1 on radiator upper cover 2, and then can further improve the radiating efficiency of edge server, the working property of improvement edge server that can be further again, the life of extension edge server.

In the above embodiment, further, the rotating assembly includes: a first turntable bearing 5 provided on the housing 1; and the second turntable bearing 6 is connected to the first turntable bearing 5 and arranged on the upper cover 2 of the radiator.

In this embodiment, a first turntable bearing 5 and a second turntable bearing 6 are further included, and the connection through the first turntable bearing 5 and the second turntable bearing 6 may be such that the heat sink upper cover 2 can rotate relative to the housing 1, while facilitating the mounting and dismounting of the heat sink upper cover 2.

It will be appreciated that in the case where the edge server includes a graphite soaking sheet 4, at least one of the first and second turntable bearings 5 and 6 passes through the graphite soaking sheet 4, the graphite soaking sheet 4 being interposed between the housing 1 and the heat sink upper cover 2.

In the above embodiment, further, the cross section in the height direction of the housing 1 is square; the cross section along the height direction of the radiator upper cover 2 is square.

In this solution, specific shapes of the housing 1 and the heat sink upper cover 2 are further provided. The cross sections of the shell 1 and the radiator upper cover 2 are both square, so that on one hand, the production and the processing of the shell 1 and the radiator upper cover 2 are facilitated, the processing and the forming of the shell 1 and the radiator upper cover 2 are facilitated, and the production cost can be reduced; on the other hand, the edge server is convenient to install in the control cabinet and is adaptive to the shape of the box body; on the other hand, through the selection of the square, the radiator upper cover 2 can rotate relative to the shell 1, so that the radiator upper cover 2 has two operation angles, can be suitable for different installation states of the edge server, and is convenient for enabling the gap between the two fins 3 to face the air supply direction.

In particular, it is understood that the cross section in the direction of the height of the casing 1 may also be circular; the cross section in the height direction of the radiator upper cover 2 may also be circular. The radiator upper cover 2 has more working angles through the selection of the circle, and the application range of the edge server can be further improved.

Still further, the cross section along the height direction of the casing 1 is the same as the cross section along the height direction of the radiator upper cover 2, so that the casing 1 can be conveniently cooled and cooled along the radiator upper cover 2.

In the above embodiment, further, the method further includes: a connecting column 7 formed in the housing 1; and the fixing bolt 8 is used for penetrating the upper cover 2 of the radiator and connecting the upper cover to the connecting column 7 under the condition that the radiating channel faces the air supply direction.

In this embodiment, further included spliced pole 7 and fixing bolt 8, rotating through radiator upper cover 2 for behind the heat dissipation channel orientation air supply direction between two fins 3, can cross the spliced pole 7 that radiator upper cover 2 is connected to in the casing 1 and then can play the fixed action to radiator upper cover 2 with fixing bolt, prevent that radiator upper cover 2 is not hard up, further ensure the radiating effect.

In the above embodiment, further, the method further includes: a circuit board disposed within the housing 1; and the antennas 9 are arranged on two sides of the shell 1 and connected to the circuit board.

In this embodiment, the device further comprises a circuit board and an antenna 9, the antenna 9 is used for receiving and transmitting signals, and the circuit board is used for processing and calculating data. It is understood that the circuit board may be any type of circuit board in the prior art, and the specific structure of the circuit board is not described herein.

In the above embodiment, further, the case 1 is made of an aluminum material; and/or the radiator upper cover 2 is made of aluminum; and/or the fins 3 are made of aluminum; and/or the fins 3 and the upper cover 2 of the radiator are of an integral structure.

In this embodiment, the housing 1 made of aluminum material can make the housing 1 lighter in weight, and the housing 1 has good heat transfer capability, which is beneficial to heat dissipation and cooling of the housing 1.

In this embodiment, the radiator upper cover 2 is made of an aluminum material, and the heat radiation efficiency of the radiator upper cover 2 can be further improved.

In this embodiment, the fins 3 are made of an aluminum material, and the heat dissipation efficiency of the fins 3 can be further improved.

In this embodiment, the fins 3 and the heat sink upper cover 2 are of an integrated structure, which can improve the mechanical strength of the fins 3 and the heat sink, and can facilitate the heat of the heat sink upper cover 2 to be transferred to the fins 3, thereby further improving the heat dissipation effect.

One embodiment of the present invention provides a control cabinet, including: a box body; in the edge server of any of the above embodiments, the edge server is disposed in the box.

The control cabinet provided by the invention comprises the edge server of any embodiment, so that the control cabinet has all the beneficial effects of the edge server of any embodiment of the invention, and the description is omitted.

In this embodiment, further, the method further includes: and the air supply outlet is formed in the box body, and the air supply direction of the air supply outlet faces to the heat dissipation channel formed among the plurality of fins 3.

In this embodiment, the supply-air outlet has further been seted up on the box, through the setting of supply-air outlet, is convenient for to the marginal server air supply, through rotating radiator upper cover 2, can make the radiating passage between two fins 3 towards the air supply direction, can improve marginal server's radiating effect, and then can be for the operation temperature that can reduce the switch board.

In any of the above technical solutions, further, the method further includes: and the fan is arranged in the box body, and the air supply direction of the fan faces to the heat dissipation channel formed among the fins 3.

In this embodiment, the fan has further been seted up on the box, through the setting of fan, is convenient for supply air to the edge server, through rotating radiator upper cover 2, can make the radiating passage between two fins 3 towards the air supply direction, can improve the radiating effect of edge server, and then can be for the operation temperature that can reduce the control.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

As illustrated in fig. 1 and 2, an embodiment of the present invention provides an edge server, including: the radiator comprises a shell 1, a radiator upper cover 2, a plurality of fins 3 and graphite temperature equalizing sheets 4;

wherein, a plurality of fins 3 parallel arrangement are on radiator upper cover 2, and radiator upper cover 2 rotationally sets up on casing 1 to make the heat dissipation channel between the adjacent fin 3 towards the air supply direction, and graphite samming piece 4 sets up between casing 1 and radiator upper cover 2.

The inventor finds that the upper cover 2 of the radiator has different heat dissipation because the placing direction is different from the air convection direction. When the fins 3 on the upper cover 2 of the radiator are parallel to the air convection, the radiating effect is better, and when the upper cover 2 of the plate type radiator is vertical to the air convection, the radiating effect is poor.

Based on this, the inventor has conducted a simulation analysis temperature experiment, and when the radiator upper cover 2 is designed in the same way and the direction of air convection is parallel to the radiator upper cover 2, the central temperature reaches 79.1 ℃. When the upper cover 2 of the radiator is vertical to the air convection direction, the central temperature reaches 81.3 ℃, the heat dispersion performance is obviously affected badly due to the placing mode, and the temperature is obviously improved.

In the invention, the circuit board is arranged in the aluminum shell 1, the heating of the electronic component is conducted uniformly through the graphite temperature equalizing sheet 4 through the aluminum shell 1, and the graphite temperature equalizing sheet 4 can conduct heat to the aluminum radiator upper cover 2 uniformly and rapidly. The graphite temperature equalizing sheet 4 has the functions of abrasion resistance and rapid heat conduction, and is used as a heat dissipation medium between the aluminum upper cover 2 of the heat sink and the aluminum shell 1, so that the heat dissipation efficiency can be improved.

Furthermore, the upper cover 2 of the aluminum radiator is a movable part, the first turntable bearing 5 is embedded in the upper cover 2 of the aluminum radiator and is in butt joint with the second turntable bearing 6 on the aluminum shell 1 to form a rotatable component, and then the rotatable component is locked and fixed through the fixing bolt 8, the position of the through hole in the upper cover 2 of the aluminum radiator is opposite to the position of the connecting column 7 in the aluminum shell 1, the upper cover 2 of the aluminum radiator can be limited through the connecting column 7 and the fixing bolt 8, the upper cover 2 of the aluminum radiator cannot be moved transversely and is not easy to position and lock, and the convenience of assembly is improved.

As shown in fig. 2, the aluminum radiator top cover 2 is properly turned in the horizontal direction according to the use scene of the edge box, so that the aluminum radiator top cover 2 can be installed in the optimal heat radiation state at any time.

By the edge server provided by the embodiment, the heat radiation performance of the edge server can be improved by arranging the rotatable radiator upper cover 2. Further, a design method for improving heat dissipation performance is provided by arranging the graphite temperature equalizing sheet 4 between the radiator upper cover 2 and the shell 1 by utilizing a natural convection basic principle, the rotatable radiator upper cover 2 and the graphite temperature equalizing sheet 4 have the characteristics of quick heat conduction and wear resistance and reusability, and good contact and heat conduction performance can be maintained when the aluminum radiator upper cover 2 is adjusted.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An edge server, comprising:

a housing;

the heat dissipation piece comprises a heat dissipation device upper cover and a plurality of fins, the fins are arranged on the heat dissipation device upper cover at intervals, and heat dissipation channels are formed between the adjacent fins;

and the radiator upper cover is rotatably connected to the shell through the rotating assembly so as to enable the adjacent radiating channels to face the air supply direction.

2. The edge server of claim 1, further comprising:

and the graphite temperature equalizing sheet is arranged between the shell and the upper cover of the radiator.

3. The edge server of claim 1, wherein the rotation assembly comprises:

a first turntable bearing disposed on the housing;

and the second turntable bearing is connected to the first turntable bearing and arranged on the upper cover of the radiator.

4. The edge server of any of claims 1 to 3,

the section along the height direction of the shell is square;

the section along the height direction of the radiator upper cover is square.

5. The edge server of any of claims 1-3, further comprising:

a connection post formed within the housing;

and the fixing bolt is used for penetrating through the upper cover of the radiator and connecting the upper cover of the radiator with the connecting column under the condition that the heat dissipation channel faces the air supply direction.

6. The edge server of any of claims 1-3, further comprising:

a circuit board disposed within the housing;

and the antennas are arranged on two sides of the shell and connected to the circuit board.

7. The edge server of any of claims 1 to 3,

the shell is made of aluminum; and/or

The upper cover of the radiator is made of aluminum; and/or

The fins are made of aluminum; and/or

The fins and the radiator upper cover are of an integrated structure.

8. A control cabinet, comprising:

a box body;

the edge server of any of claims 1-7 disposed within the enclosure.

9. The control cabinet of claim 8, further comprising:

and the air supply opening is formed in the box body, and the air supply direction of the air supply opening faces to the heat dissipation channels formed among the fins.

10. The control cabinet of claim 8, further comprising:

the fan is arranged in the box body, and the air supply direction of the fan faces to the plurality of heat dissipation channels formed among the fins.

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