CN114924625A

CN114924625A - Server device for data transmission of contact center

Info

Publication number: CN114924625A
Application number: CN202210572353.3A
Authority: CN
Inventors: 钟南星; 王庆礼
Original assignee: Shenzhen Wanqiao Technology Co ltd
Current assignee: Shenzhen Wanqiao Technology Co ltd
Priority date: 2022-05-25
Filing date: 2022-05-25
Publication date: 2022-08-19
Anticipated expiration: 2042-05-25
Also published as: CN114924625B

Abstract

The invention relates to the technical field of server devices, in particular to a server device for data transmission of a contact center, which comprises a server device shell, a device mainboard, a central processing unit, an air inlet and an air outlet notch, wherein the device mainboard is fixedly arranged at the position close to the surface of the lower part in the server device shell; when the server is in a low load state, the server can enter a silent state autonomously, the sealing plug column blocks the sealing hoop sleeve, the normally closed shielding plate blocks the air outlet notch, the shell of the server device is in a sealing state, and the heat conduction plate is used for carrying out passive heat dissipation, so that the contact between the server and the outside dust air can be reduced in a dust machine room, and the array blower fan can stop running at the moment, so that the service life of the array blower fan is prolonged.

Description

Server device for data transmission of contact center

Technical Field

The invention relates to the technical field of server devices, in particular to a server device for data transmission of a contact center.

Background

Server that contact center data transmission used, because contact between for company and the customer provides service, consequently, have obvious peak and low peak period characteristics, for example when night, the server is in extremely low load state basically, and be used for contact center data transmission's server, the scale is less usually, for reduce cost, the enterprise can not set up dustless computer lab alone usually, the server is for keeping the radiating effect, the heat dissipation advances the exhaust vent usually directly to be seted up, in dusty computer lab, the dust accumulation in the server can be accelerated to the louvre that normally opens, influence server long-term service life, and dispel the heat through array blower fan long-term operation, can make array blower fan ageing accelerate, the life-span shortens, traditional server can't be according to load state, automatic change the radiating mode, so that array blower fan can stop.

Disclosure of Invention

The present invention is directed to a server device for data transmission in a contact center, which solves the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a server device for data transmission of a contact center comprises a server device shell, a device mainboard, a central processing unit, an air inlet and an air outlet notch, wherein the device mainboard is fixedly arranged in the server device shell and close to the surface position of the lower part, the central processing unit is fixedly arranged on the surface position above the device mainboard, the upper part of the central processing unit is fixedly provided with a heat dissipation seat structure, the heat dissipation seat structure has a driving function and a lubricating function, the inside of the server device shell is movably provided with a heat conduction plate, the heat dissipation seat structure can drive the heat conduction plate to move, the air inlet is arranged on one side surface of the server device shell, the heat conduction plate penetrates through the air inlet, a cleaning structure is coaxially arranged on one side surface of the server device shell and the air inlet, the air outlet notch is arranged on the other side surface of the server device shell, and a normally closed plugging plate structure is arranged in the air outlet notch.

The heat dissipation seat structure comprises a heat conduction fixing plate, a heat conduction seat, a gas storage cavity, an extension channel, a heat conduction fixing sleeve, a telescopic heat conduction column, a lubricating liquid guide groove, a communicated lubricating pipe, a grease storage box, a filling port, a sealing cap, an air pressure communicating pipe, backflow blocking cotton and heat dissipation fins.

The heat conduction fixing plate is fixedly installed on the upper surface of the central processing unit, the heat conduction seat is fixedly installed on the upper surface of the heat conduction fixing plate, the air storage cavity and the extending channel are all arranged inside the heat conduction seat and are communicated with the extending channel, the heat conduction fixing sleeve is fixedly installed on the outer surface of the heat conduction seat and is in a cylindrical tubular shape, the inner cavity of the heat conduction fixing sleeve is communicated with the extending channel in a coaxial mode, a telescopic heat conduction column is arranged in the heat conduction fixing sleeve in an interpenetration mode, and the outer surface of the telescopic heat conduction column is in airtight contact with the inner wall surface of the heat conduction fixing sleeve.

The lubricating liquid guide groove is formed in the surface of the inner wall of the heat conducting fixed sleeve, the lubricating liquid guide groove is in a circular ring shape, the telescopic heat conducting column penetrates through the lubricating liquid guide groove, a communicating lubricating pipe is fixedly installed right above the outer surface of the heat conducting fixed sleeve, the communicating lubricating pipe is communicated with the lubricating liquid guide groove, a grease storage box is fixedly communicated with the upper end surface of the communicating lubricating pipe, lubricating grease is filled in the grease storage box, a filling port is fixedly communicated with the upper surface of the grease storage box, a sealing cap is arranged on the outer sealing cover of the filling port, an air pressure communicating pipe is fixedly communicated with the upper surface of the grease storage box, the other end of the air pressure communicating pipe is communicated with the gas storage cavity, and backflow blocking cotton is fixedly arranged in one end, close to the position of the grease storage box, of the air pressure communicating pipe, and the upper surface of the heat conducting seat is fixedly provided with a heat radiating fin.

The heat conduction plate comprises a transverse pushing connecting plate, a linkage heat conduction plate, a positioning chute, a chute positioning sheet, a heat conduction seat plate, a sealing plug column, a central shaft rod and a radiation fin.

Violently push away link fixed mounting and equalling divide the tip surface position of flexible heat conduction post at the both ends surface position of violently pushing away the link and do not fixed mounting have a linkage heat-conducting plate, the lateral wall surface of linkage heat-conducting plate runs through and has seted up the location spout, the location spout is rectangular form, and with linkage heat-conducting plate parallel arrangement, the inner wall surface fixed position of server device casing has the spout spacer, the spout spacer alternates to set up the inside at the location spout.

The heat conduction plate is characterized in that a heat conduction seat plate is fixedly installed on the surface of the end portion of the linkage heat conduction plate, sealing plug columns are fixedly installed on the surface of the heat conduction seat plate, the positions and the number of the sealing plug columns correspond to the air inlet holes in a one-to-one mode, a central shaft rod is fixedly installed at the center of the surface of one side of each sealing plug column, radiation fins are fixedly installed on the outer surface of the central shaft rod, the radiation fins are rectangular sheets, the length direction of the radiation fins is parallel to the axis of the central shaft rod, the radiation fins are radially and uniformly distributed on the outer surface of the central shaft rod, and the radiation fins penetrate through the inner portion of the air inlet holes.

The utility model discloses a server device casing, including server device casing, sealed hoop cover, sealed stopper post, supporting column ring, scraper ring, clearance doctor-bar, clearance fin, scraper ring, radiation fin, the clearance cross-sectional shape of radiation fin is corresponding, the fixed surface position that is close to supporting column place one side of clearance doctor-bar is provided with direction triangle bead, sealed stopper post can insert into the inside of sealed hoop cover, and sealed cooperation therewith, clean structure includes supporting column, scraper ring, clearance doctor-bar and direction triangle bead, supporting column fixed mounting is in the outer wall surface position of server device casing, scraper ring fixed mounting is in the tip surface position of supporting column, scraper ring with the coaxial setting of inlet port, the inboard surface position of scraper ring is fixed and is installed gapped doctor-bar, the clearance doctor-bar with the clearance cross-sectional shape between two liang of radiation fin is corresponding, the fixed surface position that the supporting column place one side is close to the clearance doctor-bar is provided with direction triangle bead.

Normally closed closure plate structure includes that pivot jack, normally closed shielding plate, swing pivot, holding cross channel chamber and magnetic force inhale the strip, the inside both sides surface that does not set up at the notch of giving vent to anger is equallyd divide to the pivot jack and is close to the top position, the swing of normally closed shielding plate sets up in the inside of the notch of giving vent to anger, the swing pivot is equallyd divide the both sides surface of other fixed mounting at the normally closed shielding plate and is close to the top position, the swing pivot is rotated and is set up the inside at the pivot jack, the inside of normally closed shielding plate is close to the below position and has transversely seted up the holding cross channel chamber, the inside interlude in holding cross channel chamber is provided with magnetic force and inhales the strip.

The server device comprises a server device shell, an array blowing fan and a socket module, wherein the server device shell is fixedly provided with a server cover plate on the upper cover, the array blowing fan is fixedly arranged in the server device shell, and the socket module is fixedly embedded in the other side surface of the server device shell.

Compared with the prior art, the invention has the beneficial effects that:

when the server is in low load, the server can automatically enter a silent state, the sealing plug column blocks the sealing hoop sleeve, the normally closed shielding plate blocks the air outlet notch, the shell of the server device is in a sealing state, and the heat conduction plate is used for carrying out passive heat dissipation, so that the contact between the server and the outside dust air can be reduced in a dust-containing machine room, and the array blowing fan can stop running at the moment to prolong the service life of the array blowing fan;

when the server is in high load, the heat dissipation seat structure can push the heat conduction plate to move, so that the sealing plug column is moved out of the sealing hoop sleeve, at the moment, the heat dissipation performance of the server can be accelerated by controlling the rotation of the array blowing fan, the heat conduction plate can be used as an extended heat dissipation conductor at the moment and is firstly contacted with low-temperature air through the radiation fins, so that the heat dissipation effect aiming at the processor is improved, the normally-closed shielding plate can be automatically turned over and opened under the support of airflow, and gas is discharged through the air outlet notch;

in the moving process of the heat conduction plate, the surface of one end, close to the outside, of the radiation fin can be cleaned through the arranged cleaning structure, dust is easy to accumulate due to the fact that the surface of one end, close to the outside, of the radiation fin is in more contact with air, the passive heat dissipation performance of the radiation fin can be kept through the cleaning structure, the guide triangular convex edge arranged at the back of the gap scraping blade in the cleaning structure can provide a guide effect when the radiation fin moves towards the outside, deviation of alignment between the radiation fin and the gap scraping blade is avoided, the gap scraping blade can be bent when the radiation fin moves towards the outside by means of the triangular convex edge structure of the guide triangular convex edge, and when the radiation fin moves towards the inside, the guide triangular convex edge can provide a supporting force for the gap scraping blade to avoid bending deformation of the gap scraping blade so as to keep dust to be scraped at one side, close to the outside, of the gap scraping blade, thereby preventing dust from being scraped and accumulated on the surfaces of the radiation fins;

through the arranged grease storage box and the lubricating liquid guide groove, a layer of grease can be coated and moistened between the outer surface of the telescopic heat conduction column and the inner wall surface of the heat conduction fixing sleeve, thereby improving the airtight effect between the outer surface of the telescopic heat-conducting column and the inner wall surface of the heat-conducting fixed sleeve, meanwhile, the abrasion caused by the relative movement between the oil storage box and the telescopic heat-conducting column can be avoided, the oil storage box is communicated with the air storage cavity through the air pressure communicating pipe, when the telescopic heat-conducting column is pressed to extend out, the air pressure in the air storage cavity is utilized to push the grease in the grease storage box to be extruded downwards, so that the surface of the telescopic heat conduction column is coated uniformly, when the telescopic heat-conducting column retracts under negative pressure, the negative pressure in the air storage cavity is utilized to generate negative pressure suction in the grease storage box, in the retracting process of the telescopic heat conduction column, redundant grease is sucked back into the grease storage box, and grease overflow loss is avoided.

Drawings

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

FIG. 2 is a schematic view of the server cover opening of the present invention;

FIG. 3 is an enlarged view of area A in FIG. 2;

FIG. 4 is a schematic view of a server lid opening axis of the present invention;

FIG. 5 is an enlarged view of the area B in FIG. 4;

FIG. 6 is a bottom view of the present invention;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 6;

FIG. 8 is an enlarged view of area C of FIG. 7;

FIG. 9 is a schematic view of a heat conductive plate;

FIG. 10 is a schematic view of a cleaning structure;

fig. 11 is another perspective view of the cleaning structure.

In the figure: 1. a server device housing; 2. a device main board; 3. a central processing unit; 4. an air inlet; 5. an air outlet notch; 301. a heat-conducting fixing plate; 302. a heat conducting seat; 303. a gas storage cavity; 304. an extension channel; 305. heat conducting fixing sleeve; 306. a telescopic heat-conducting column; 307. a lubricating liquid guide groove; 308. the lubricating pipe is communicated; 309. a grease storage box; 310. a filling port; 311. a sealing cap; 312. an air pressure communicating pipe; 313. blocking cotton in a backflow way; 314. heat dissipation fins; 315. horizontally pushing the connecting plate; 316. the heat conducting plate is linked; 317. positioning the chute; 318. a chute positioning sheet; 319. a heat conducting base plate; 320. sealing the plug; 321. a central shaft; 322. radiating fins; 401. sealing the hoop sleeve; 402. a support stub; 403. a blade ring; 404. a gap scraper; 405. a guiding triangular rib; 501. a rotating shaft jack; 502. a normally closed shutter; 503. swinging the rotating shaft; 504. a transverse channel cavity is accommodated; 505. magnetic force suction strips; 101. a server cover plate; 102. an array blower fan; 103. socket module.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: a server device for data transmission of a contact center comprises a server device shell 1, a device mainboard 2, a central processing unit 3, an air inlet 4 and an air outlet notch 5, wherein the device mainboard 2 is fixedly arranged in the server device shell 1 and is close to the surface position of the lower part, the central processing unit 3 is fixedly arranged at the surface position above the device mainboard 2, the upper part of the central processing unit 3 is fixedly provided with a heat dissipation seat structure which has a driving function and a lubricating function, the inside of the server device shell 1 is movably provided with a heat conduction plate, the heat dissipation seat structure can drive the heat conduction plate to move, the air inlet 4 is arranged at the surface position of one side of the server device shell 1, the heat conduction plate penetrates through the air inlet 4, a cleaning structure is coaxially arranged at the surface position of one side of the server device shell 1 and is provided with the air inlet 4, the air outlet notch 5 is arranged at the surface position of the other side of the server device shell 1, the inside of the air outlet notch 5 is provided with a normally closed closure plate structure.

The heat radiation seat structure comprises a heat conduction fixing plate 301, a heat conduction seat 302, a gas storage cavity 303, an extension channel 304, a heat conduction fixing sleeve pipe 305, a telescopic heat conduction column 306, a lubricating liquid guide groove 307, a communicating lubricating pipe 308, a grease storage box 309, a filling port 310, a sealing cap 311, an air pressure communicating pipe 312, backflow blocking cotton 313 and heat radiation fins 314; the heat-conducting fixed plate 301 is fixedly installed on the surface position above the central processing unit 3, the heat-conducting base 302 is fixedly installed on the upper surface of the heat-conducting fixed plate 301, the gas storage cavity 303 and the extension channel 304 are both arranged inside the heat-conducting base 302 and are communicated with each other, the heat-conducting fixed sleeve 305 is fixedly installed on the outer surface position of the heat-conducting base 302, the heat-conducting fixed sleeve 305 is cylindrical and tubular, the inner cavity of the heat-conducting fixed sleeve 305 is coaxially communicated with the extension channel 304, the telescopic heat-conducting columns 306 are movably and alternately arranged inside the heat-conducting fixed sleeve 305, and the outer surfaces of the telescopic heat-conducting columns 306 are in airtight contact with the inner wall surface of the heat-conducting fixed sleeve 305; the inner wall surface of the heat conducting fixed sleeve 305 is provided with a lubricating liquid guide groove 307, the lubricating liquid guide groove 307 is annular, the telescopic heat conducting column 306 penetrates through the lubricating liquid guide groove 307, a communicating lubricating pipe 308 is fixedly arranged right above the outer surface of the heat conducting fixed sleeve 305, the communicating lubricating pipe 308 is communicated with the lubricating liquid guide groove 307, the upper end surface of the communicating lubricating pipe 308 is fixedly communicated with a grease storage box 309, the grease storage box 309 is filled with lubricating grease which can be any lubricating liquid in the prior art and can not corrode the telescopic heat conducting column 306 and the heat conducting fixed sleeve 305, the upper surface of the grease storage box 309 is fixedly communicated with a filling port 310, a sealing cap 311 is arranged on the outer sealing cover of the filling port 310, an air pressure communicating pipe 312 is fixedly communicated with the upper surface of the grease storage box 309, and the other end of the air pressure communicating pipe 312 is communicated with the air storage cavity 303, the backflow blocking cotton 313 is fixedly arranged inside one end, close to the position of the grease storage box 309, of the air pressure communicating pipe 312, when the server is inclined, grease in the grease storage box 309 enters the air pressure communicating pipe 312 without influencing gas passing, and the heat conducting seat 302 is fixedly provided with the heat radiating fins 314 at the upper surface position.

The heat conducting plate comprises a transverse pushing connecting plate 315, a linkage heat conducting plate 316, a positioning chute 317, a chute positioning sheet 318, a heat conducting base plate 319, a sealing plug column 320, a central shaft rod 321 and radiating fins 322, and is made of good heat conducting materials in an integrated forming mode; the transverse pushing connecting plate 315 is fixedly installed at the surface position of the end part of the telescopic heat conducting column 306, the surface positions of the two ends of the transverse pushing connecting plate 315 are respectively and fixedly installed with a linkage heat conducting plate 316, the surface of the side wall of the linkage heat conducting plate 316 is provided with a positioning sliding chute 317 in a penetrating way, the positioning sliding chute 317 is in a strip shape and is arranged in parallel with the linkage heat conducting plate 316, the surface position of the inner wall of the server device shell 1 is fixedly installed with a sliding chute positioning sheet 318, and the sliding chute positioning sheet 318 is arranged in the positioning sliding chute 317 in a penetrating way; the heat conduction seat plate 319 is fixedly installed on the surface of the end portion of the linkage heat conduction plate 316, the sealing plug columns 320 are fixedly installed on the surface of the heat conduction seat plate 319, the positions and the number of the sealing plug columns 320 correspond to those of the air inlet holes 4 one by one, the central shaft rod 321 is fixedly installed at the central position of the surface of one side of the sealing plug columns 320, the radiation fins 322 are fixedly installed on the outer surface of the central shaft rod 321, the radiation fins 322 are rectangular sheets, the length direction of the radiation fins is parallel to the axis of the central shaft rod 321, the radiation fins 322 are radially and uniformly distributed on the outer surface of the central shaft rod 321, and the radiation fins 322 penetrate through the inner portion of the air inlet holes 4.

The inner wall surface position of the server device shell 1 is fixedly provided with a sealing hoop sleeve 401, the sealing hoop sleeve 401 and the air inlet hole 4 are coaxially arranged, a sealing plug 320 can be inserted into the sealing hoop sleeve 401 and is in sealing fit with the sealing hoop sleeve 401, the cleaning structure comprises a support short column 402, a scraping blade ring 403, a gap scraping blade 404 and a guide triangular rib 405, the support short column 402 is fixedly arranged on the outer wall surface position of the server device shell 1, the scraping blade ring 403 is fixedly arranged on the end surface position of the support short column 402, the scraping blade ring 403 and the air inlet hole 4 are coaxially arranged, the inner side surface position of the scraping blade ring 403 is fixedly provided with the gap scraping blade 404, the gap section shapes between the gap scraping blade 404 and the radiation fins 322 are corresponding, the surface position of the gap scraping blade 404 close to the side of the support short column 402 is fixedly provided with the guide triangular rib 405, and the gap scraping blade 404 is made of elastic material, the gap wiper 404 is elastically bent by the guide triangular ridge 405 provided at the back thereof when the radiation fins 322 are moved outward, and is kept straight by the support force provided by the guide triangular ridge 405 when the radiation fins 322 are moved inward.

Normally closed closure plate structure includes pivot jack 501, normally closed shielding plate 502, swing pivot 503, strip 505 is inhaled to holding cross walk chamber 504 and magnetic force, pivot jack 501 equally divides the inside both sides surface of respectively seting up in the notch of giving vent to anger 5 to be close to the top position, normally closed shielding plate 502 swings and sets up the inside at notch of giving vent to anger 5, swing pivot 503 equally divides the both sides surface of other fixed mounting at normally closed shielding plate 502 to be close to the top position, swing pivot 503 rotates the inside that sets up at pivot jack 501, the inside of normally closed shielding plate 502 is close to the below position and has transversely seted up holding cross walk chamber 504, the inside interlude of holding cross walk chamber 504 is provided with strip 505 is inhaled to magnetic force, strip 505 is inhaled to magnetic force can inhale the cooperation with server device casing 1 magnetism of metal material.

A server cover plate 101 is fixed on the upper cover of the server device housing 1, an array blower fan 102 is fixedly installed inside the server device housing 1, and a socket module 103 is fixedly embedded on the other side surface of the server device housing 1.

When the heat-conducting type air-cooling server is used, when a central processing unit 3 in the server runs under a high load, a large amount of high temperature is generated, the heat is transferred through the heat-conducting base 302, so that the air in the air storage cavity 303 is expanded, the telescopic heat-conducting column 306 is ejected out, the telescopic heat-conducting column 306 drives the transverse pushing connecting plate 315 to move, the transverse pushing connecting plate 315 moves to enable the whole heat-conducting plate to move, the sealing plug 320 is moved out of the sealing hoop sleeve 401 at the moment, the array air-blowing fan 102 is controlled by the server system to rotate to blow air, air flow enters through the air inlet holes 4 and is finally ejected out of the air outlet notch 5 through the radiation fins 322 and the heat-radiating fins 314, the normally-closed shielding plate 502 in the air outlet notch 5 is supported by the air flow and is turned outwards to be opened, and the server is in a high-load self-cooling state at the moment;

when the server is under low load at night and the like, the gas in the gas storage cavity 303 contracts, so that negative pressure is generated in the gas storage cavity 303, the telescopic heat-conducting column 306 is attracted and retracted, the sealing plug 320 is plugged into the sealing hoop sleeve 401 at the moment, the gas inlet 4 is sealed, the array blowing fan 102 is controlled to be closed by the system, the normally-closed shielding plate 502 is kept vertical under the attraction of the magnetic attraction strip 505, the gas outlet notch 5 is sealed, the server device shell 1 is in a completely sealed state at the moment, dust is prevented from entering, the radiation fins 322 extend out of the server device shell 1, contact with the air to perform passive heat dissipation, and the heat of the central processing unit 3 is dissipated through the heat-conducting plate;

in the reciprocating movement of the heat conducting plate, the cleaning structure can scrape and clean the surface of one end of the radiation fin 322 close to the outside, because the surface of one end of the radiation fin 322 close to the outside is in contact with air, and dust is easy to accumulate, in the moving process of the radiation fin 322, the gap wiper 404 can be clamped between the gaps of the radiation fin 322 to wipe off the surface of the radiation fin, through the guide triangular ridge 405 arranged at the back of the gap wiper 404 in the cleaning structure, the radiation fin 322 can move towards the outside and provide a guide effect when being inserted into the middle of the gap wiper 404, so as to avoid deviation of alignment between the radiation fin 322 and the gap wiper 404, and by using the triangular ridge structure of the guide triangular ridge 405, the gap wiper 404 can be bent when the radiation fin 322 moves towards the outside, and the guide triangular ridge 405 can provide a supporting force for the gap wiper 404 when the radiation fin 322 moves towards the inside, the gap scraper 404 is prevented from bending and deforming, so that dust is kept to be scraped at the side of the gap scraper 404 close to the outside, and the dust is prevented from being scraped and accumulated on the surface of the radiation fins 322;

the lubricating liquid guiding groove 307 is annular, a layer of grease can be coated between the outer surface of the telescopic heat-conducting column 306 and the inner wall surface of the heat-conducting fixed sleeve 305, so that the airtight effect between the outer surface of the telescopic heat-conducting column 306 and the inner wall surface of the heat-conducting fixed sleeve 305 can be improved, meanwhile, the abrasion caused by relative movement between the outer surface of the telescopic heat-conducting column 306 and the inner wall surface of the heat-conducting fixed sleeve 305 can be avoided, the heat transfer effect between the telescopic heat-conducting column 306 and the heat-conducting fixed sleeve 305 can be improved, the grease storage box 309 is communicated with the gas storage cavity 303 through the air pressure communicating pipe 312, when the telescopic heat-conducting column 306 is pressed to extend out, the grease in the grease storage box 309 can be pushed to extrude downwards through the air pressure in the gas storage cavity 303, the surface of the telescopic heat-conducting column 306 is coated uniformly, when the telescopic heat-conducting column 306 retracts under the negative pressure, the negative pressure in the gas storage cavity 309 generates negative pressure suction force, and when the telescopic heat-conducting column 306 retracts, excess grease is drawn back into the grease reservoir 309 to avoid grease spillage and loss.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a server device for contact center data transmission usefulness, includes server device casing (1), device mainboard (2), central processing unit (3), inlet port (4) and notch (5) of giving vent to anger, device mainboard (2) fixed mounting is close to lower part surface position in the inside of server device casing (1), central processing unit (3) fixed mounting is in the top surface position of device mainboard (2), its characterized in that: the fixed radiating seat structure that is provided with in upper portion of central processing unit (3), the radiating seat structure has driving function and lubricating function, the inside activity of server device casing (1) is provided with heat conduction plate spare, the radiating seat structure can drive the heat conduction plate spare activity, inlet port (4) have been seted up to one side surface position of server device casing (1), heat conduction plate spare alternates through inlet port (4), one side surface position of server device casing (1) is provided with clean structure with inlet port (4) are coaxial, notch (5) of giving vent to anger have been seted up to the opposite side surface position of server device casing (1), the inside of notch (5) of giving vent to anger is provided with normally closed closure plate structure.

2. The server apparatus for contact center data transmission according to claim 1, wherein: the heat dissipation seat structure comprises a heat conduction fixing plate (301), a heat conduction seat (302), a gas storage cavity (303), an extension channel (304), a heat conduction fixing sleeve pipe (305), a telescopic heat conduction column (306), a lubricating liquid guide groove (307), a communicated lubricating pipe (308), a grease storage box (309), a filling port (310), a sealing cap (311), an air pressure communicating pipe (312), backflow blocking cotton (313) and heat dissipation fins (314).

3. The server apparatus for contact center data transmission according to claim 2, wherein: heat conduction fixed plate (301) fixed mounting is in the top surface position of central processing unit (3), the last fixed surface of heat conduction fixed plate (301) installs heat conduction seat (302), gas storage cavity (303) with extend passageway (304) and all set up the inside at heat conduction seat (302), and gas storage cavity (303) and extend passageway (304) and communicate each other, the outer fixed surface position fixed mounting of heat conduction seat (302) has heat conduction adapter sleeve (305), heat conduction adapter sleeve (305) are cylindrical tubulose, and its inner chamber and the coaxial switch-on of extension passageway (304), the inside activity interlude of heat conduction adapter sleeve (305) is provided with flexible heat conduction post (306), the surface of flexible heat conduction post (306) and the inner wall surface airtight contact of heat conduction adapter sleeve (305).

4. A server device for contact center data transfer according to claim 3, wherein: the lubricating liquid guide groove (307) is formed in the surface of the inner wall of the heat conducting fixed sleeve (305), the lubricating liquid guide groove (307) is in a circular ring shape, the telescopic heat conducting column (306) penetrates through the lubricating liquid guide groove (307), a communicating lubricating pipe (308) is fixedly installed right above the outer surface of the heat conducting fixed sleeve (305), the communicating lubricating pipe (308) is communicated with the lubricating liquid guide groove (307), a grease storage box (309) is fixedly communicated with the surface of the upper end of the communicating lubricating pipe (308), lubricating grease is filled in the grease storage box (309), a filling port (310) is fixedly communicated with the upper surface of the grease storage box (309), a sealing cap (311) is arranged on an external sealing cover of the filling port (310), and an air pressure (312) is arranged on the upper surface of the grease storage box (309), the other end of the air pressure communicating pipe (312) is communicated with the air storage cavity (303), backflow blocking cotton (313) is fixedly arranged inside one end, close to the position of the grease storage box (309), of the air pressure communicating pipe (312), and heat radiating fins (314) are fixedly arranged on the upper surface of the heat conducting seat (302).

5. The server apparatus for contact center data transmission according to claim 1, wherein: the heat conduction plate comprises a transverse pushing connecting plate (315), a linkage heat conduction plate (316), a positioning chute (317), a chute positioning sheet (318), a heat conduction seat plate (319), a sealing plug column (320), a central shaft rod (321) and radiation fins (322).

6. The server apparatus for contact center data transmission according to claim 5, wherein: violently push away even board (315) fixed mounting at the tip surface position of flexible heat conduction post (306), violently push away the both ends surface position of even board (315) and equally divide do fixed mounting have linkage heat-conducting plate (316), the lateral wall surface of linkage heat-conducting plate (316) runs through and has seted up location spout (317), location spout (317) are rectangular form, and with linkage heat-conducting plate (316) parallel arrangement, the inner wall surface fixed mounting of server device casing (1) has spout spacer (318), spout spacer (318) alternate the inside that sets up at location spout (317).

7. The server apparatus for contact center data transmission according to claim 6, wherein: the heat conduction seat plate is characterized in that a heat conduction seat plate (319) is fixedly installed at the surface position of the end portion of the linkage heat conduction plate (316), sealing plug columns (320) are fixedly installed on the surface of the heat conduction seat plate (319), the positions and the number of the sealing plug columns (320) correspond to the air inlet holes (4) in a one-to-one mode, a central shaft rod (321) is fixedly installed at the center position of the surface of one side of each sealing plug column (320), radiation fins (322) are fixedly installed at the outer surface position of the central shaft rod (321), the radiation fins (322) are rectangular sheets, the length direction of the radiation fins is parallel to the axis of the central shaft rod (321), the radiation fins (322) are radially and uniformly distributed on the outer surface of the central shaft rod (321), and the radiation fins (322) penetrate through the air inlet holes (4).

8. The server apparatus for contact center data transmission according to claim 7, wherein: the inner wall surface position fixed mounting of server device casing (1) has seal hoop cover (401), seal hoop cover (401) with inlet port (4) coaxial setting, inside that sealed cock post (320) can insert into seal hoop cover (401), and with it sealed cooperation, clean structure includes support short column (402), doctor-bar ring (403), clearance doctor-bar (404) and direction triangle bead (405), support short column (402) fixed mounting is in the outer wall surface position of server device casing (1), doctor-bar ring (403) fixed mounting is in the tip surface position of support short column (402), doctor-bar ring (403) with inlet port (4) coaxial setting, the inboard surface position fixed mounting of doctor-bar ring (403) has clearance doctor-bar (404), clearance doctor-bar (404) with the clearance cross-sectional shape between radiation fin (322) is corresponding two liang, and a guide triangular rib (405) is fixedly arranged on the surface of one side of the gap scraping blade (404) close to the supporting short column (402).

9. The server apparatus for contact center data transmission according to claim 1, wherein: normally closed closure bushing structure includes that pivot jack (501), normally closed shielding plate (502), swing pivot (503), holding cross channel chamber (504) and magnetic force inhale strip (505), inside both sides surface that do not set up in the notch of giving vent to anger (5) is equallyd divide in pivot jack (501) is close to the top position, normally closed shielding plate (502) swing sets up the inside in notch of giving vent to anger (5), swing pivot (503) are equallyd divide the both sides surface of other fixed mounting in normally closed shielding plate (502) and are close to the top position, swing pivot (503) rotate the inside that sets up in pivot jack (501), the inside of normally closed shielding plate (502) is close to the below position and has transversely seted up holding cross channel chamber (504), the inside interlude of holding cross channel chamber (504) is provided with magnetic force and inhales strip (505).

10. The server apparatus for contact center data transmission according to claim 1, wherein: the server device is characterized in that a server cover plate (101) is fixedly arranged on the upper portion of the server device shell (1) in a covering mode, an array blowing fan (102) is fixedly arranged in the server device shell (1), and a socket module (103) is fixedly embedded in the position of the other side surface of the server device shell (1).