CN109496114B - Photoelectric switching network server with intelligent heat dissipation protection structure - Google Patents

Abstract

The invention discloses a photoelectric switching network server with an intelligent heat dissipation protection structure, and relates to the technical field of network servers. This photoelectric switching network server with intelligence heat dissipation protection architecture is constantly injecting the in-process of comdenstion water into toward the condenser pipe, can cool down the heat that the inside electronic component work of network server shell produced, utilizes water-cooled mode, reduces the inside temperature of network server shell to do benefit to the service life who prolongs this network server.

Description

Photoelectric switching network server with intelligent heat dissipation protection structure

Technical Field

The invention relates to the technical field of network server correlation, in particular to a photoelectric switching network server with an intelligent heat dissipation protection structure.

Background

The server is a special computer which can provide centralized computation, information publishing, data management and other services for network users in a network environment, and is divided into a working group level server, a department level server and an enterprise level server according to different computing capacities, wherein the server operating system is an operating system which runs on server hardware, and the server operating system needs to manage and fully utilize the computing capacity of the server hardware and provides software on the server hardware for use.

The existing servers mostly adopt a component redundancy technology, an RAID technology, a memory error correction technology and management software, high-end servers adopt a multiprocessor and a symmetric processor structure supporting more than double cpus, when server hardware is selected, besides the consideration of grade and specific function positioning, the main parameters and characteristics of the servers, including processor architecture, expandability, server structure, I/0 capability, fault recovery capability and the like, need to be known in a focused manner, and the server types can be divided according to various standards.

In the computer network server disclosed in chinese utility patent application publication CN207264269U, although the connection between the network server connector lug and the network server is stable and reliable, the loosening phenomenon does not occur, and the reliable operation of the network server is ensured; meanwhile, the wiring is orderly arranged, the phenomenon of cross knotting is avoided, and the maintenance of the network server is convenient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a photoelectric switching network server with an intelligent heat dissipation protection structure, which solves the problems that the prior network server proposed in the background art has poor heat dissipation performance, is easy to damage internal electric elements due to overlong time in the working process of the network server, and has poor service life of the network server.

In order to achieve the purpose, the invention is realized by the following technical scheme: a photoelectric switching network server with an intelligent heat dissipation protection structure comprises a heat dissipation substrate, a water tank and a first rotating shaft, wherein the inner wall of the heat dissipation substrate is tightly attached to a network server shell, the left side and the right side of the inside of the network server shell are fixedly welded with mounting plates, the mounting plates are fixedly welded with supporting bars facing to the inner wall of the network server shell, the inner walls of the supporting bars are fixedly bonded with condenser pipes, the top ends of the condenser pipes are connected with a water pipe in an injection mode, the water tank is mounted at the outer end of the heat dissipation substrate, a water pump is mounted inside the water tank, two first rotating shafts are respectively mounted at the top ends of the heat dissipation substrate, and protection side plates are respectively mounted at the top ends of the first rotating shafts, second rotating shafts are respectively mounted at the top ends of the protection side plates, first cover plates and second cover plates are respectively mounted at the top, and the inner wall of first apron and second apron all is fixed to bond has protection mechanism, between first pivot and the protection curb plate, between second pivot and the first apron, all constitute revolution mechanic between second pivot and the second apron, and the length of protection curb plate is greater than the height of network server shell to the length sum of first apron and second apron is greater than the length of network server shell, the mounting groove has been seted up to the middle part below in surface of network server shell, and the equal fixed welding in inside left and right sides of mounting groove has thermal-insulated zinc sheet, the inner wall middle part fixed welding of mounting groove has the installation piece, and the inner wall draw-in groove of installation piece is connected with temperature sensor to the setting of "concave" style of calligraphy structure of installation piece for the symmetry, third pivot is installed to the inner wall of thermal-insulated zinc sheet, and fixture is installed to the inner wall of third pivot.

Optionally, the condenser pipe has two sets of about the center pin symmetrical arrangement of heat dissipation base plate, and the condenser pipe is "S" type structure setting to the end of condenser pipe is moulded plastics and is connected with the outlet pipe, and the end of outlet pipe runs through seamless connection and has the liquid collecting tank simultaneously.

Optionally, the output end flange of the water pump is connected with a water pipe, the clamping groove between the water pipe and the water pipe is connected with a connecting frame, the tail end of the water pipe and the top outer ring of the water pipe are tightly attached with a fastening ring, and meanwhile, the inner wall of the fastening ring is connected with a threaded rod in a penetrating threaded mode.

Optionally, the end of the water pipe is connected with the drainage plate by injection molding, the drainage plate is arranged in a tilted symmetrical mode, the end of the drainage plate is lower than the top end of the water pipe, and the distance between the ends of the 2 drainage plates is smaller than the diameter of the water pipe.

Optionally, the first cover plate and the second cover plate are identical in shape and size, the first cover plate and the second cover plate are connected in a meshed mode, clamping strips are fixedly bonded to the tail end of the first cover plate and the tail end of the second cover plate, and the clamping strips are distributed in a zigzag mode.

Optionally, the protection mechanism includes a protection sleeve, a telescopic spring and a protection rod, the telescopic spring is installed at the inner end of the protection sleeve, the top end of the telescopic spring is in close contact with the protection rod, and meanwhile the top end of the protection rod is closely attached to the top end of the network server shell.

Optionally, the clamping mechanism comprises a clamping ring, a friction sponge and clamping rods, the friction sponge is fixedly bonded on the inner wall of the clamping ring, the clamping rods are fixedly welded on the left side wall and the right side wall of the clamping ring, the friction sponge and the clamping rods are symmetrically arranged, and the clamping ring is of a semicircular structure.

The invention provides a photoelectric switching network server with an intelligent heat dissipation protection structure, which has the following beneficial effects:

1. this photoelectric switching network server with intelligence heat dissipation protection architecture, through the support bar, the condenser pipe, the setting of outlet pipe and collection liquid case, constantly toward the in-process of condenser pipe injection comdenstion water, can cool down the heat that the inside electronic component work of network server shell produced, utilize water-cooled mode, reduce the inside temperature of network server shell, do benefit to and carry out radiating effect to the heat that network server shell during operation produced, make this network server all be in homothermal state at the in-process of work, in order to do benefit to the service life who prolongs this network server, and the collection liquid case has the function of collection to the comdenstion water of output, so that the user is to the subsequent processing of this comdenstion water.

2. This photoelectric switching network server with intelligence heat dissipation protection architecture, through the water pipe, the setting of connection frame and drainage plate, be connected with the connection frame because of the draw-in groove between water pipe and the raceway, convenient to use person passes through firm in connection between connection frame with water pipe and the raceway, and carry the water in the water tank to the condenser pipe under the effect of water pump work in, make the heat dissipation of this network server possess mechanical automation function, in order to do benefit to the intellectuality that realizes this network server heat dissipation cooling, can avoid causing the influence to the folding of apron, and the drainage plate can be with the water in the water pipe drainage to the raceway smoothly, avoid the condition that the seepage appears in the inside of connection frame in water.

3. This photoelectric switching network server with intelligence heat dissipation protection architecture, through first pivot, the protection curb plate, the second pivot, first apron, the setting of second apron and card strip, have certain rotation function because of pivot self, accessible pivot will protect curb plate and first apron rotation folding to suitable position respectively, lateral wall and the top to the network server shell all have the effect of anticollision protection, in order to do benefit to the safety and stability performance of guarantee network server at the during operation, and connect for the meshing between first apron and the first apron, convenient to use person will fold back first apron and first apron firm in connection, avoid this protection shield to receive external factor's influence and take place to remove or the condition of skew.

4. This photoelectric switching network server with intelligence heat dissipation protection architecture, through protective sleeve, the setting of expanding spring and guard bar, have certain elasticity performance because of expanding spring, when the apron receives external force striking, protective sleeve can the downstream, and then the guard bar transmits this effort to expanding spring under the effect of power that receives, expanding spring is in the state of shrink this moment, consequently, the setting of protection mechanism has the efficiency of buffering to external impact, avoid external force directly to contact with network server, in order to do benefit to the protection to this network server.

5. This photoelectric switching network server with intelligence heat dissipation protection architecture, through the installation piece, temperature sensor, third pivot and fixture's setting, the installation piece sets up for "concave" style of calligraphy structure of symmetry, the person of facilitating the use is to the dismouting between installation piece and the temperature sensor, so that the person of facilitating the use is to timely maintenance and change of temperature sensor, and temperature sensor monitors the temperature of the inside electronic component work of network server shell constantly, and because of the rotatory efficiency of third pivot self certain angle, the outer wall of the rotatory to temperature sensor of grip ring of accessible third pivot, the temperature sensor after having the centre gripping, in order to do benefit to the stable output performance who guarantees temperature sensor working formula.

Drawings

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

FIG. 2 is a schematic view of a partial structure of the connection between the water pipe and the water tube according to the present invention;

FIG. 3 is a schematic view of the internal structure of the mounting groove of the present invention;

FIG. 4 is a schematic view of a clamping mechanism according to the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the connection structure between the cover plates according to the present invention;

fig. 7 is a schematic view of the working process of the water pump of the present invention.

In the figure: 1. a heat-dissipating substrate; 2. a network server housing; 3. mounting a plate; 4. a supporting strip; 5. a condenser tube; 6. a water outlet pipe; 7. a liquid collection tank; 8. a water delivery pipe; 9. a water tank; 10. a water pump; 11. a water pipe; 12. a connecting frame; 13. a drainage plate; 14. a fastening ring; 15. a threaded rod; 16. a first rotating shaft; 17. protecting the side plate; 18. a second rotating shaft; 19. a first cover plate; 20. a second cover plate; 21. clamping the strip; 22. a protection mechanism; 2201. a protective sleeve; 2202. a tension spring; 2203. a guard bar; 23. mounting grooves; 24. a heat insulating zinc sheet; 25. mounting blocks; 26. a temperature sensor; 27. a third rotating shaft; 28. a clamping mechanism; 2801. a clamp ring; 2802. rubbing the sponge; 2803. and a clamping rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 7, the present invention provides a technical solution: a photoelectric switching network server with an intelligent heat dissipation protection structure comprises a heat dissipation substrate 1, a network server shell 2, a mounting plate 3, support bars 4, a condenser pipe 5, a water outlet pipe 6, a liquid collection tank 7, a water delivery pipe 8, a water tank 9, a water pump 10, a water pipe 11, a connecting frame 12, a drainage plate 13, a fastening ring 14, a threaded rod 15, a first rotating shaft 16, a protection side plate 17, a second rotating shaft 18, a first cover plate 19, a second cover plate 20, clamping bars 21, a protection mechanism 22, a mounting groove 23, a heat insulation zinc plate 24, a mounting block 25, a temperature sensor 26, a third rotating shaft 27 and a clamping mechanism 28, wherein the inner wall of the heat dissipation substrate 1 is tightly attached to the network server shell 2, the mounting plate 3 is fixedly welded on the left side and the right side inside the network server shell 2, the support bars 4 are fixedly welded on the inner wall of the mounting plate 3 facing the network server shell 2, and the, two groups of the condensation pipes 5 are symmetrically arranged around the central axis of the heat dissipation substrate 1, and the condensation pipes 5 are arranged in an S-shaped structure, the tail end of the condensation pipe 5 is connected with a water outlet pipe 6 in an injection molding way, the tail end of the water outlet pipe 6 is connected with a liquid collecting tank 7 in a seamless way, in the process of continuously injecting the condensed water into the condensing pipe 5, the heat generated by the electronic elements in the network server shell 2 can be cooled, the temperature in the network server shell 2 is reduced by using a water cooling mode, so as to be beneficial to achieving the function of radiating the heat generated when the shell 2 of the network server works, and ensuring that the network server is in a constant temperature state in the working process, thereby being beneficial to prolonging the service life of the network server, the liquid collecting tank 7 has a function of collecting the output condensed water, so that a user can conveniently perform subsequent treatment on the condensed water;

the top end of the condensation pipe 5 is connected with a water pipe 8 in an injection molding manner, the water tank 9 is installed at the outer end of the heat dissipation substrate 1, a water pump 10 is installed inside the water tank 9, the output end of the water pump 10 is connected with a water pipe 11 in a flange manner, a clamping groove between the water pipe 11 and the water pipe 8 is connected with a connecting frame 12, the tail end of the water pipe 11 and the top outer ring of the water pipe 8 are tightly attached with a fastening ring 14, meanwhile, the inner wall of the fastening ring 14 is connected with a threaded rod 15 in a penetrating manner through threads, a user can conveniently and firmly connect the water pipe 11 and the water pipe 8 through the connecting frame 12, water in the water tank 9 is conveyed into the condensation pipe 5 under the action of the work of the water pump 10, so that the heat dissipation of the network server has a mechanical automation function, the intellectualization of the heat dissipation and cooling of the network server can be realized, the tail ends of the drainage plates 13 are lower than the top end of the water delivery pipe 8, meanwhile, the distance between the tail ends of the 2 drainage plates 13 is smaller than the diameter of the water delivery pipe 8, the drainage plates 13 can smoothly drain water in the water pipe 11 into the water delivery pipe 8, and the situation that the water leaks inside the connecting frame 12 is avoided;

the two first rotating shafts 16 are respectively installed at the top end of the heat dissipation base plate 1, the top ends of the first rotating shafts 16 are respectively provided with a protection side plate 17, the top ends of the protection side plates 17 are respectively provided with a second rotating shaft 18, the top ends of the second rotating shafts 18 are respectively provided with a first cover plate 19 and a second cover plate 20, the first cover plate 19 and the second cover plate 20 are identical in shape and size, the first cover plate 19 and the second cover plate 20 are connected in a meshed mode, clamping strips 21 are fixedly bonded at the tail ends of the first cover plate 19 and the second cover plate 20, and the clamping strips 21 are distributed in a zigzag mode, so that a user can firmly connect the folded first cover plate 19 and the folded second cover plate 20, and the situation that the protection plate is moved or shifted due to the influence of external factors is avoided;

a second cover plate 20 is installed at the right end of the first cover plate 19, a protection mechanism 22 is fixedly bonded on the inner walls of the first cover plate 19 and the second cover plate 20, a space between the first rotating shaft 16 and the protection side plate 17, a space between the second rotating shaft 18 and the first cover plate 19, a rotating structure is formed between the second rotating shaft 18 and the second cover plate 20, the length of the protection side plate 17 is larger than the height of the network server shell 2, and the sum of the lengths of the first cover plate 19 and the second cover plate 20 is larger than the length of the network server shell 2. As the rotating shafts have certain rotating functions, the protection side plate 17, the first cover plate 19 and the second cover plate 20 can be respectively rotated and folded to proper positions through the rotating shafts, the side wall and the top end of the network server shell 2 are protected against collision, so as to ensure the safety and stability of the network server during operation, the protection mechanism 22 comprises a protection sleeve 220, The protection mechanism comprises a telescopic spring 2202 and a protection rod 2203, wherein the telescopic spring 2202 is installed at the tail end inside the protection sleeve 2201, the top end of the telescopic spring 2202 is in close contact with the protection rod 2203, meanwhile, the top end of the protection rod 2203 is tightly attached to the top end of the network server shell 2, and as the telescopic spring 2202 has certain elastic performance, when the cover plate is impacted by external force, the protection sleeve 2201 moves downwards, the protection rod 2203 transmits the acting force to the telescopic spring 2202 under the action of the acting force, and the telescopic spring 2202 is in a contracted state, the protection mechanism 22 has the effect of buffering the external impact force, so that the external force is prevented from being directly contacted with a network server, and the network server is protected;

the middle lower part of the surface of the network server shell 2 is provided with a mounting groove 23, the left side and the right side of the inside of the mounting groove 23 are fixedly welded with heat insulation zinc plates 24, the middle part of the inner wall of the mounting groove 23 is fixedly welded with a mounting block 25, a clamping groove of the inner wall of the mounting block 25 is connected with a temperature sensor 26, the mounting block 25 is arranged in a symmetrical concave-shaped structure, a user can conveniently disassemble and assemble the mounting block 25 and the temperature sensor 26, so that the user can conveniently maintain and replace the temperature sensor 26 in time, the working temperature of electronic elements inside the network server shell 2 can be monitored at any time, the inner wall of the heat insulation zinc plate 24 is provided with a third rotating shaft 27, the inner wall of the third rotating shaft 27 is provided with a clamping mechanism 28, the clamping mechanism 28 comprises a clamping ring 2801, a friction sponge 2802 and a clamping rod 2803, and the inner wall of the, and the clamping ring 2801 all fixed welding has clamping rod 2803 about the lateral wall, and clamping ring 2801, friction sponge 2802 and clamping rod 2803 all are the symmetrical arrangement simultaneously, and clamping ring 2801 is semi-circular structure setting, and because of the rotatory efficiency of certain angle of third pivot 27 self, accessible third pivot 27 is rotatory clamping ring 2801 to temperature sensor 26's outer wall, has the effect of centre gripping to the temperature sensor 26 after the installation to do benefit to the stable output performance who guarantees temperature sensor 26 working formula.

To sum up, when the photoelectric switching network server with the intelligent heat dissipation protection structure is used, the network server shell 2 is firstly placed on the inner wall of the heat dissipation base plate 1, at the moment, the inner wall of the heat dissipation base plate 1 is tightly attached to the outer wall of the network server shell 2, the protection side plate 17 is folded and rotated to be positioned at the same plane with the heat dissipation base plate 1 through the first rotating shaft 16, the first cover plate 19 and the second cover plate 20 are respectively rotated to be positioned at the position vertical to the protection side plate 17 through the second rotating shaft 18, at the moment, the first cover plate 19 and the second cover plate 20 are firmly connected under the zigzag mutual clamping action of the clamping strips 21, meanwhile, the water pipe 8 at the upper end of the protection side plate 17 respectively passes through the holes formed in the surfaces of the first cover plate 19 and the second cover plate 20, then the tail end of the connecting frame 12 is sleeved on the outer wall at the top end of the water pipe 8, and then the top end, at the moment, the drainage plate 13 connected with the tail end of the water pipe 11 in an injection molding mode is embedded into the inner wall of the top end of the water pipe 8, the threaded rod 15 is embedded into threaded holes formed in the surfaces of the fastening ring 14 on the outer walls of the water pipe 8 and the water pipe 11, the water pipe 8 and the water pipe 11 are firmly connected under the action of mutual matching of threads, then the door on the front side of the installation groove 23 is opened through the handle, the first end and the last end of the temperature sensor 26 are respectively embedded into the installation blocks 25 at the first end and the last end in the middle of the inside of the installation groove 23, the clamping ring 2801 is freely rotated to the position where the friction sponge 2802 on the inner wall of the clamping ring 2801 is tightly attached to the outer wall of the temperature sensor 26, because the clamping rings 2801 are symmetrically arranged, the installation holes formed in the surfaces of the clamping rods 2803 on the outer walls of the clamping rings 2801 at two ends are in an overlapped state, then the clamping, the installed temperature sensor 26 is stably clamped, the cover plate is covered to the original position of the installation groove 23 according to the method, finally, the water pump 10 and the temperature sensor 26 are both communicated with an external power supply, the model of the water pump 10 is RGB15-15, the model of the temperature sensor 26 is WZP-230, when the temperature sensor 26 senses that the internal temperature of the network server shell 2 is larger than a set value, the temperature information sensed by the temperature sensor 26 is transmitted to the central processing module under the action of the power module information identification module, the central processing module controls the water pump 10 to work, the water pump 10 starts to work, the water pipe 11 transmits the water in the water tank 9 to the water pipe 8 under the action of the water pump 10, the water pipe 8 is injected into the condensation pipe 5, the condensed water rolls in the condensation pipe 5 to the water outlet pipe 6 and is transmitted to the water collecting tank 7 through the water outlet pipe 6, the internal temperature of the network server shell 2 is reduced by using a water cooling mode, when the temperature sensor 26 detects that the internal temperature of the network server shell 2 is lower than a limit value, the water pump 10 stops working under the action of the central processing module, and thus the using process of the whole photoelectric switching network server with the intelligent heat dissipation protection structure is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. The utility model provides a photoelectric switching network server with intelligence heat dissipation protection architecture, includes heat dissipation base plate (1), water tank (9) and first pivot (16), its characterized in that: the inner wall of heat dissipation base plate (1) closely laminates network server shell (2), and the equal fixed welding in the inside left and right sides of network server shell (2) has mounting panel (3), mounting panel (3) have support bar (4) towards the inner wall fixed welding of network server shell (2), and the inner wall of support bar (4) is fixed to bond and has condenser pipe (5), the top of condenser pipe (5) is moulded plastics and is connected with raceway (8), water tank (9) are installed in the outer end of heat dissipation base plate (1), and the internally mounted of water tank (9) has water pump (10), two first pivot (16) are installed respectively on the top of heat dissipation base plate (1), and protection curb plate (17) is all installed on the top of first pivot (16), second pivot (18) are all installed on the top of protection curb plate (17), and first apron (19) and second apron (20) are installed respectively on the top of second pivot (18), a second cover plate (20) is installed at the right end of the first cover plate (19), a protection mechanism (22) is fixedly bonded on the inner walls of the first cover plate (19) and the second cover plate (20), a rotating structure is formed between the first rotating shaft (16) and the protection side plate (17) and between the second rotating shaft (18) and the first cover plate (19) and between the second rotating shaft (18) and the second cover plate (20), the length of the protection side plate (17) is larger than the height of the network server shell (2), the sum of the lengths of the first cover plate (19) and the second cover plate (20) is larger than the length of the network server shell (2), a mounting groove (23) is formed in the middle of the surface of the network server shell (2), heat-insulating zinc plates (24) are fixedly welded on the left side and the right side of the inside of the mounting groove (23), a mounting block (25) is fixedly welded in the middle of the inner wall of the mounting groove (23), and the inner wall draw-in groove of installation piece (25) is connected with temperature sensor (26) to installation piece (25) are the setting of "concave" style of calligraphy structure of symmetry, third pivot (27) are installed to the inner wall of thermal-insulated zinc sheet (24), and fixture (28) are installed to the inner wall of third pivot (27).

2. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 1, wherein: condenser pipe (5) have two sets ofly about the center pin symmetrical arrangement of heat dissipation base plate (1), and condenser pipe (5) are "S" type structure setting to the end of condenser pipe (5) is moulded plastics and is connected with outlet pipe (6), and the end of outlet pipe (6) runs through seamless connection and has header tank (7) simultaneously.

3. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 1, wherein: the water pump is characterized in that an output end flange of the water pump (10) is connected with a water pipe (11), a clamping groove is connected between the water pipe (11) and the water pipe (8) to form a connecting frame (12), the tail end of the water pipe (11) and the top outer ring of the water pipe (8) are tightly attached to a fastening ring (14), and meanwhile the inner wall of the fastening ring (14) is connected with a threaded rod (15) in a penetrating mode through threads.

4. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 3, wherein: the end of the water pipe (11) is connected with a drainage plate (13) in an injection molding mode, the drainage plate (13) is arranged in a tilting symmetrical mode, the end of the drainage plate (13) is lower than the top end of the water pipe (8), and meanwhile the distance between the tail ends of the 2 drainage plates (13) is smaller than the diameter of the water pipe (8).

5. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 1, wherein: the shape and size of the first cover plate (19) and the second cover plate (20) are the same, the first cover plate (19) and the second cover plate (20) are connected in a meshed mode, clamping strips (21) are fixedly bonded to the tail ends of the first cover plate (19) and the tail ends of the second cover plate (20), and meanwhile the clamping strips (21) are distributed in a sawtooth shape.

6. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 1, wherein: protection mechanism (22) include protective sleeve (2201), expanding spring (2202) and protection pole (2203), and protective sleeve (2201) inside end-mounting has expanding spring (2202), and expanding spring (2202) top in close contact with has protection pole (2203), and the top of protection pole (2203) is closely laminated with the top of network server shell (2) simultaneously.

7. The optoelectronic switching network server with intelligent heat dissipation protection architecture as recited in claim 1, wherein: the clamping mechanism (28) comprises a clamping ring (2801), friction sponges (2802) and clamping rods (2803), the friction sponges (2802) are fixedly bonded to the inner wall of the clamping ring (2801), the clamping rods (2803) are fixedly welded to the left side wall and the right side wall of the clamping ring (2801), the friction sponges (2802) and the clamping rods (2803) are symmetrically arranged, and the clamping ring (2801) is of a semicircular structure.

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