CN113179618A

CN113179618A - From high-efficient radiating server rack of open-type

Info

Publication number: CN113179618A
Application number: CN202110492326.0A
Authority: CN
Inventors: 熊怀双
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-06
Filing date: 2021-05-06
Publication date: 2021-07-27

Abstract

The invention discloses a self-opening high-efficiency heat dissipation server cabinet, belonging to the field of servers, wherein a recessive heat dissipation cavity is arranged, when the server generates a large amount of heat during operation, high heat-conducting gas in an air supporting cavity is heated and expands, on one hand, an epitaxial ejector rod is effectively pushed to move outwards, so that a heat-conducting cover plate is pushed out of the recessive heat dissipation cavity, the recessive heat dissipation cavity is opened, the inside and outside of the server are communicated to be in an open state, the outward dissipation area of hot air in the server is effectively increased, the heat dissipation efficiency is obviously improved compared with the heat dissipation of only heat dissipation holes in the prior art, on the other hand, an outer push bag is expanded as well, the epitaxial ejector rod is effectively assisted to push the heat-conducting cover plate outwards, the recessive heat dissipation cavity is further effectively ensured to be opened in time, and the condition that the operation speed of the server is not easy to slow due to untimely heat dissipation is avoided, effectively ensuring the normal operation of the device.

Description

From high-efficient radiating server rack of open-type

Technical Field

The invention relates to the field of servers, in particular to a self-opening type server cabinet capable of efficiently dissipating heat.

Background

A server is one of computers that runs faster, is more heavily loaded, and is more expensive than a regular computer. The server provides calculation or application services for other clients (such as terminals like PC, smart phone, ATM and the like and even large equipment like train systems and the like) in the network. The server has high-speed CPU computing capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility. Generally, a server has the capability of responding to a service request, supporting a service, and guaranteeing the service according to the service provided by the server. The server is used as an electronic device, and the internal structure of the server is very complex, but the difference with the internal structure of a common computer is not great, such as: cpu, hard disk, memory, system bus, etc.

The server can produce a large amount of heats when the operation, because the heat production is more, the heat gathering that its inside hot-air is difficult to in time give off leads to the electric elements life in the rack to reduce in the rack, simultaneously because high thermal environment causes the whole functioning speed of server to reduce, and to the heat dissipation of server rack among the prior art, generally only outwards derive the hot-air through the louvre, and the heat dissipation is slower, is difficult to satisfy the heat dissipation demand of server rack.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a self-opening type high-efficiency heat dissipation server cabinet, through the arrangement of a hidden heat dissipation cavity, when the server generates a large amount of heat during operation, the high heat-conducting gas in the gas supporting cavity expands when heated, on one hand, the extension ejector rod is effectively pushed to move outwards, thereby pushing the heat-conducting cover plate out of the recessive heat dissipation cavity, the recessive heat dissipation cavity is opened, the inside and the outside of the server are communicated to present an open state, the area of the heat air in the server which is dissipated outwards is effectively increased, compared with the heat dissipation of only heat dissipation holes in the prior art, the heat dissipation efficiency is obviously improved, on the other hand, the outward pushing bag is expanded as well, the outward pushing rod is effectively assisted to push the heat-conducting cover plate outwards, and then effectively guarantee that the recessive heat dissipation chamber can in time be opened, make this server be difficult for because of the heat dissipation untimely condition emergence that leads to the functioning speed to slow down, effectively guarantee its normal operating.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A self-opening type server cabinet with high-efficiency heat dissipation comprises a cabinet body, wherein heat dissipation holes are formed in the outer end of the cabinet body, a hidden heat dissipation cavity is formed in the outer end of the cabinet body, a heat conduction cover plate is arranged in the hidden heat dissipation cavity, a plurality of limiting plates with through holes are fixedly connected to the inner wall of the hidden heat dissipation cavity, the heat conduction cover plate is located on the outer side of the limiting plates, one ends, close to the cabinet body, of the limiting plates are fixedly connected with heat-conducting columns, air supporting cavities are formed in the heat-conducting columns in a chiseled mode, epitaxial push rods are fixedly connected into the air supporting cavities and are in contact with the heat conduction cover plate, outer supporting bags are fixedly connected to the cavity openings of the air supporting cavities, high-heat-conductivity gas is filled in the air supporting cavities and the outer supporting bags, the outer supporting bags are fixedly connected with the heat conduction cover plate, the epitaxial push rods are located on the inner sides of the outer supporting bags and penetrate through the through holes in the limiting plates, through the setting in recessive heat dissipation chamber, when this server operation produced a large amount of heats, the high heat conduction gas of gas strut intracavity is heated the inflation, effectively promote epitaxial ejector pin and outwards remove on the one hand, thereby release the recessive heat dissipation chamber with the heat conduction apron, the recessive heat dissipation chamber is opened, it presents open state to link up inside and outside the messenger server, the area that the hot air outwards gived off in the effective increase server, compare in the heat dissipation of only louvre among the prior art, show and improve the radiating efficiency, on the other hand, it expands equally to extrapolate the bag, effectively assist epitaxial ejector pin outwards to promote the heat conduction apron, and then effectively guarantee that the recessive heat dissipation chamber can in time be opened, make this server be difficult for because of the untimely condition that leads to the functioning speed to slow takes place of heat dissipation, effectively guarantee its normal operating.

Further, the tip that the heat conduction apron is located recessive heat dissipation intracavity carries out the corner cut and handles, and the contained angle between corner cut and the water flat line is not more than 45, makes the heat conduction apron be close to the one end in recessive heat dissipation chamber less, makes the heat conduction apron pushed out recessive heat dissipation intracavity back at this server work heat production, after this server stop work temperature reduces, is convenient for the heat conduction apron to get back to recessive heat dissipation intracavity.

Furthermore, the heat-conducting column is made of a high-heat-conductivity metal material, so that heat is effectively collected, high-heat-conductivity gas in the air supporting cavity is rapidly heated and expanded, the heat-conducting cover plate is pushed away, the hidden heat-radiating cavity is opened, the server is communicated from inside to outside, and compared with the heat radiation of only heat-radiating holes in the prior art, the heat-radiating efficiency is remarkably improved, the filling degree of the high-heat-conductivity gas is not lower than 80%, the filling amount is too small, the integral expansion amount of the server is limited, the distance for pushing away the heat-conducting cover plate is influenced, and the heat radiation is influenced.

Furthermore, the air supporting cavity comprises a special-shaped end and a flat end which are chiseled in the middle of the heat-conducting column, the special-shaped end is communicated with the flat end, and the outer supporting bag is connected to the opening of the flat end.

Further, the dysmorphism end diminishes along the one side internal diameter that is close to straight end gradually, makes the special-shaped end in can save relatively more high heat-conducting gas, makes the expanded high heat-conducting gas better to the pushing action of extension ejector pin, effectively guarantees that recessive heat dissipation chamber can be opened when this server produces a large amount of heats, straight end internal diameter keeps unanimous with special-shaped port portion internal diameter, effectively restricts the outward orbit of removal of extension ejector pin, makes its difficult skew that takes place the position, and then effectively improves the promotion effect to the heat conduction apron.

Furthermore, the outer supporting bag comprises an inner fixed end fixedly connected with the straight port portion and an outer pushing end fixedly connected with the outer end of the inner fixed end, and one end, far away from the limiting plate, of the outer pushing end is fixedly connected with the heat-conducting cover plate.

Furthermore, the inner fixed end is made of hard shaping materials, the outer pushing end is made of elastic sealing materials, and the inner fixed end is located in the through hole, so that when the server generates heat during operation, deformation of the outer supporting bag is concentrated at the outer pushing end, deformation of the outer pushing end is large, and the effect of pushing the heat conduction cover plate outwards by the auxiliary extension ejector rod is good.

Furthermore, the extension ejector rod comprises an air pushing variable end fixedly connected with the inner wall of the special-shaped end, an extension rod end fixedly connected with the air pushing variable end close to one end of the straight end and a ball pushing end fixedly connected with the end part of the extension rod end, and the end part of the ball pushing end is in contact with the heat conducting cover plate.

Furthermore, the gas pushes away and becomes the end and make for elastic material, make the gas after being heated push away and become the end and can expand, and then effectively promote epitaxial rod end and push away the ball end, make the heat conduction apron receive outside power, and the gas pushes away and becomes the left side that the junction point department of end and dysmorphism end lies in the horizontal central line of dysmorphism end, make the horizontal span that the gas pushed away becomes the end great relatively, make it great relatively at horizontal inflation volume, and then show the promotion effect that improves the heat conduction apron, make the radiating efficiency higher, and then effectively guarantee the normal operating of this server, make it difficult for leading to the condition that the functioning speed slows down because of the heat dissipation untimely emergence.

Furthermore, the end of the extension rod and the end of the push ball are both made of hard materials, and the diameter of the end of the extension rod is smaller than the inner diameter of the straight end, so that when the air pushing variable end expands to push the end of the extension rod, the end of the extension rod can move freely in the straight end relatively, and resistance is not easy to generate.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through the setting in recessive heat dissipation chamber, when this server operation produces a large amount of heats, the high heat-conducting gas of gas strut intracavity is heated and is expanded, effectively promote epitaxial ejector pin and outwards remove on the one hand, thereby release the recessive heat dissipation chamber with the heat conduction apron, the recessive heat dissipation chamber is opened, it presents open state to link up inside and outside the messenger server, the area that the hot air outwards gived off in the effective increase server, compare in the heat dissipation of only louvre among the prior art, show and improve the radiating efficiency, on the other hand, it is equally expanded to extrapolate the bag, effectively assist epitaxial ejector pin outwards to promote the heat conduction apron, and then effectively guarantee that the recessive heat dissipation chamber can in time be opened, make this server be difficult for because of the untimely condition that leads to the functioning speed to slow takes place of dispelling the heat, effectively guarantee its normal operating.

(2) The tip that the heat conduction apron is located recessive heat dissipation intracavity carries out the corner cut and handles, and the contained angle between corner cut and the water flat line is not more than 45, and the one end that makes the heat conduction apron be close to recessive heat dissipation chamber is less, makes the heat conduction apron pushed out recessive heat dissipation intracavity back at this server work heat production, after this server stop work temperature reduces, is convenient for the heat conduction apron to get back to recessive heat dissipation intracavity.

(3) The heat-conducting column is made of a high-heat-conducting metal material, heat is effectively collected, high-heat-conducting gas in the air supporting cavity is rapidly heated and expanded, so that the heat-conducting cover plate is pushed away, the hidden heat-radiating cavity is opened, the inside and the outside of the server are communicated, compared with the heat radiation of only heat-radiating holes in the prior art, the heat-radiating efficiency is remarkably improved, the filling degree of the high-heat-conducting gas is not lower than 80%, the filling amount is too small, the integral expansion amount is limited, the distance that the heat-conducting cover plate is pushed away is influenced, and the heat radiation is influenced.

(4) The air supporting cavity comprises a special-shaped end and a flat end which are chiseled in the middle of the heat-inducing column, the special-shaped end is communicated with the flat end, and the outer supporting bag is connected with the opening of the flat end.

(5) The dysmorphism end diminishes along the one side internal diameter that is close to straight end gradually, make the dysmorphism serve and can save relatively more high heat-conducting gas, make the expanded high heat-conducting gas better to the pushing action of extension ejector pin, effectively guarantee that recessive heat dissipation chamber can be opened when this server produces a large amount of heats, straight end internal diameter keeps unanimous with special-shaped port portion internal diameter, effectively restrict the outward movement's of extension ejector pin orbit, make its difficult skew that takes place the position, and then effectively improve the promotion effect to the heat conduction apron.

(6) The outer supporting bag comprises an inner fixed end fixedly connected with the straight port part and an outer pushing end fixedly connected with the outer end of the inner fixed end, and one end, far away from the limiting plate, of the outer pushing end is fixedly connected with the heat-conducting cover plate.

(7) The hard shaping material of the inner fixed end is made, the outer deformation end is made of elastic sealing material, and the inner fixed end is positioned in the through hole, so that when the server operates to generate heat, deformation of the outer supporting bag is concentrated at the outer deformation end, the deformation amount at the outer deformation end is larger, and the effect of the server on the auxiliary extension ejector rod to push the heat-conducting cover plate outwards is better.

(8) The extension ejector rod comprises an air pushing variable end fixedly connected with the inner wall of the special-shaped end, an extension rod end fixedly connected with the air pushing variable end close to one end of the straight end and a ball pushing end fixedly connected with the end part of the extension rod end, and the end part of the ball pushing end is contacted with the heat conducting cover plate.

(9) The gas pushes away and becomes the end and make for elastic material, make the back gas that is heated push away and become the end and can expand, and then effectively promote epitaxial rod end and push away the ball end, make the heat conduction apron receive outside power, and the gas pushes away and becomes the left side that the junction point department of end and dysmorphism end lies in the horizontal central line of dysmorphism end, make the horizontal span that the gas pushed away becomes the end great relatively, it is great relatively at horizontal inflation volume to make it, and then show the promotion effect that improves the heat conduction apron, make the radiating efficiency higher, and then effectively guarantee the normal operating of this server, make its difficult condition emergence that leads to the functioning speed to slow down when untimely because of the heat dissipation.

(10) The end of the extension rod and the end of the push ball are made of hard materials, and the diameter of the end of the extension rod is smaller than the inner diameter of the straight end, so that when the end of the extension rod is pushed by expanding the air pushing variable end, the end of the extension rod can move in the straight end relatively freely, and resistance is not easy to generate.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural diagram of a hidden heat dissipation chamber portion of the present invention;

FIG. 3 is a schematic structural view of the inflatable chambers and the outer inflatable bag portion of the present invention;

FIG. 4 is a schematic structural view of the heat-conducting cover plate being pushed open and viewed from above when the heat-conducting cover plate is operated to generate heat according to the present invention;

fig. 5 is a schematic structural diagram of a portion of the heat-conducting cover plate pushed away according to the present invention.

The reference numbers in the figures illustrate:

the heat dissipation cabinet comprises a cabinet body 1, heat dissipation holes 2, a heat conduction cover plate 3, a limiting plate 4, a heat conduction column 5, a special-shaped end 61, a straight end 62, an air pushing end 71, an outer extension rod end 72, a ball pushing end 73, an inner fixed end 81 and an outer pushing end 82.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of 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. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1, a self-opening efficient heat dissipation server cabinet comprises a cabinet body 1, heat dissipation holes 2 are formed in the outer end of the cabinet body 1, a hidden heat dissipation cavity is formed in the outer end of the cabinet body 1 and located above the heat dissipation holes 2, and a heat conduction cover plate 3 is arranged in the hidden heat dissipation cavity.

Please refer to fig. 2, a in the figure shows a hidden heat dissipation cavity, a plurality of limiting plates 4 with through holes are fixedly connected to the inner wall of the hidden heat dissipation cavity, a heat conduction cover plate 3 is located outside the limiting plates 4, a plurality of limiting plates 4 are close to the heat conduction column 5 fixedly connected to one end of the cabinet body 1, the heat conduction column 5 is made of a high heat conduction metal material, and heat is effectively collected, so that the high heat conduction gas in the gas supporting cavity is rapidly heated and expanded, thereby the heat conduction cover plate 3 is pushed away, the hidden heat dissipation cavity is opened, so that the inside and the outside of the server are communicated, compared with the heat dissipation through holes in the prior art, the heat dissipation efficiency is remarkably improved, the filling degree of the high heat conduction gas is not lower than 80%, the filling amount is too small, the whole expansion amount is limited, the distance for pushing away the heat conduction cover plate 3 is influenced, and the heat dissipation is influenced.

Please refer to fig. 3, the air supporting cavity is chiseled in the heat conducting column 5, the epitaxial ejector rod of fixedly connected with in the air supporting cavity, the epitaxial ejector rod contacts with the heat conducting cover plate 3 each other, the end of the heat conducting cover plate 3 in the recessive heat dissipation cavity is chamfered, and the included angle between the chamfer and the horizontal line is not more than 45, the one end of the heat conducting cover plate 3 close to the recessive heat dissipation cavity is smaller, the heat conducting cover plate 3 is pushed out of the recessive heat dissipation cavity after the server works to generate heat, when the server stops working temperature to reduce, the heat conducting cover plate 3 is convenient to return to the recessive heat dissipation cavity, the fixed connected with external supporting bag at the cavity opening of the air supporting cavity, the air supporting cavity and the external supporting bag are filled with high heat conducting gas, the external supporting bag is fixedly connected with the heat conducting cover plate 3, the epitaxial ejector rod is located the inner side of the external supporting bag, and the two both penetrate through holes on the limiting plate 4.

The gas props the chamber and holds 61 and straight end 62 including digging at the dysmorphism end of leading hot post 5 middle part, dysmorphism end 61 and straight end 62 communicate with each other, and prop the oral area that the bag is connected at straight end 62 outward, dysmorphism end 61 diminishes along being close to one side internal diameter of straight end 62 gradually, make and to store more relatively high heat-conducting gas in the dysmorphism end 61, make the expanded high heat-conducting gas better to the pushing action of extension ejector pin, effectively guarantee that recessive heat dissipation chamber can be opened when this server produces a large amount of heats, straight end 62 internal diameter keeps unanimous with special-shaped end 61 oral area internal diameter, effectively restrict the outward movement's of extension ejector pin orbit, make its difficult skew that takes place the position, and then effectively improve the promotion effect to heat conduction apron 3.

The outer supporting bag comprises an inner fixed end 81 fixedly connected with the opening part of the straight end 62 and an outer pushing end 82 fixedly connected with the outer end of the inner fixed end 81, one end, far away from the limiting plate 4, of the outer pushing end 82 is fixedly connected with the heat-conducting cover plate 3, the inner fixed end 81 is made of hard shaping materials, the outer pushing end 82 is made of elastic sealing materials, and the inner fixed end 81 is located in a through hole, so that when the server generates heat during operation, deformation of the outer supporting bag is concentrated at the outer pushing end 82, deformation of the outer pushing end 82 is large, and the effect that the auxiliary extension ejector rod pushes the heat-conducting cover plate 3 outwards is better.

The extension ejector rod comprises an air pushing end 71 fixedly connected with the inner wall of the special-shaped end 61, an extension rod end 72 fixedly connected with the air pushing end 71 and close to one end of the flat end 62, and a push ball end 73 fixedly connected with the end part of the extension rod end 72, wherein the end part of the push ball end 73 is in contact with the heat-conducting cover plate 3, the air pushing end 71 is made of elastic materials, so that the air pushing end 71 can expand after being heated, the extension rod end 72 and the push ball end 73 are further effectively pushed, the heat-conducting cover plate 3 is forced outwards, and the connecting point of the air pushing end 71 and the special-shaped end 61 is positioned on the left side of the transverse midline of the special-shaped end 61, so that the transverse span of the air pushing end 71 is relatively large, the transverse expansion amount of the air pushing end is relatively large, the pushing effect on the heat-conducting cover plate 3 is further remarkably improved, the heat dissipation efficiency is higher, the normal operation of the server is further effectively ensured, and the situation that the operation speed is not easy to slow due to insufficient heat dissipation is generated, the extension rod end 72 and the push ball end 73 are made of hard materials, and the diameter of the extension rod end 72 is smaller than the inner diameter of the straight end 62, so that when the air pushing end 71 expands to push the extension rod end 72, the extension rod end 72 can freely move in the straight end 62 relatively, and resistance is not easy to generate.

With reference to fig. 4-5, the arrows in the drawings indicate the moving direction of hot air in the server cabinet, when the server generates a large amount of heat, the high heat-conducting gas in the gas supporting cavity expands when heated, on one hand, the extension ejector rod is effectively pushed to move outwards, thereby pushing the heat-conducting cover plate 3 out of the recessive heat dissipation cavity, the recessive heat dissipation cavity is opened, the inside and outside of the server are communicated to present an open state, the area of the heat air in the server is effectively increased, compared with the heat dissipation of only heat dissipation holes in the prior art, the heat dissipation efficiency is obviously improved, on the other hand, the outward push capsule is expanded as well, the extension push rod is effectively assisted to push the heat-conducting cover plate 3 outwards, and then effectively guarantee that the recessive heat dissipation chamber can in time be opened, make this server be difficult for because of the heat dissipation untimely condition emergence that leads to the functioning speed to slow down, effectively guarantee its normal operating.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides a from radiating server rack of open-type high efficiency, includes the cabinet body (1), cabinet body (1) outer end is provided with louvre (2), its characterized in that: a hidden heat dissipation cavity is arranged at the outer end of the cabinet body (1), a heat conduction cover plate (3) is arranged in the hidden heat dissipation cavity, the inner wall of the recessive heat dissipation cavity is fixedly connected with a plurality of limiting plates (4) with through holes, the heat-conducting cover plate (3) is positioned at the outer side of the limit plates (4), one end of each limit plate (4) close to the cabinet body (1) is fixedly connected with a heat-conducting column (5), an air supporting cavity is chiseled in the heat-leading column (5), an extension ejector rod is fixedly connected in the air supporting cavity, the extension ejector rod is contacted with the heat-conducting cover plate (3), an outer support bag is fixedly connected at the cavity opening of the air support cavity, the air supporting cavity and the outer supporting bag are both filled with high heat-conducting gas, the outer supporting bag is fixedly connected with a heat-conducting cover plate (3), the extension ejector rod is positioned on the inner side of the outer support bag, and the extension ejector rod both penetrate through holes in the limiting plate (4).

2. The self-opening, efficient heat dissipation server rack of claim 1, wherein: the end part of the heat-conducting cover plate (3) in the hidden heat-radiating cavity is subjected to corner cutting, and the included angle between the corner cutting and the horizontal line is not more than 45 degrees.

3. The self-opening, efficient heat dissipation server rack of claim 1, wherein: the heat-conducting column (5) is made of a high-heat-conductivity metal material, and the filling degree of the high-heat-conductivity gas is not lower than 80%.

4. The self-opening, efficient heat dissipation server rack of claim 1, wherein: the air supporting cavity comprises a special-shaped end (61) and a flat end (62) which are cut in the middle of the heat conducting column (5), the special-shaped end (61) is communicated with the flat end (62), and the outer supporting bag is connected to the opening of the flat end (62).

5. The self-opening, efficient heat dissipation server cabinet of claim 4, wherein: the inner diameter of the special-shaped end (61) is gradually reduced along one side close to the flat end (62), and the inner diameter of the flat end (62) is consistent with the inner diameter of the mouth of the special-shaped end (61).

6. The self-opening, efficient heat dissipation server cabinet of claim 4, wherein: the outer supporting bag comprises an inner fixed end (81) fixedly connected with the opening part of the straight end (62) and an outer pushing end (82) fixedly connected with the outer end of the inner fixed end (81), and one end, far away from the limiting plate (4), of the outer pushing end (82) is fixedly connected with the heat-conducting cover plate (3).

7. The self-opening, efficient heat dissipation server rack of claim 6, wherein: the inner fixed end (81) is made of hard shaping materials, the outer push-out end (82) is made of elastic sealing materials, and the inner fixed end (81) is positioned in the through hole.

8. The self-opening, efficient heat dissipation server cabinet of claim 4, wherein: the extension ejector rod comprises an air pushing variable end (71) fixedly connected with the inner wall of the special-shaped end (61), an extension rod end (72) fixedly connected with the air pushing variable end (71) and close to one end of the straight end (62), and a push ball end (73) fixedly connected with the end of the extension rod end (72), wherein the end of the push ball end (73) is in contact with the heat-conducting cover plate (3).

9. The self-opening, efficient heat dissipation server rack of claim 8, wherein: the air-pushing variable end (71) is made of elastic materials, and the connecting point of the air-pushing variable end (71) and the special-shaped end (61) is positioned on the left side of the transverse midline of the special-shaped end (61).

10. The self-opening, efficient heat dissipation server rack of claim 9, wherein: the extension rod end (72) and the ball pushing end (73) are both made of hard materials, and the diameter of the extension rod end (72) is smaller than the inner diameter of the straight end (62).