CN113325937A

CN113325937A - Server for industrial park information management and control equipment thereof

Info

Publication number: CN113325937A
Application number: CN202110883609.8A
Authority: CN
Inventors: 王婷婷; 李宗峰; 李雪英; 张东亚
Original assignee: Shandong Beigong University Industrial Park Management Co ltd
Current assignee: Shandong Beigong University Industrial Park Management Co ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2021-08-31
Anticipated expiration: 2041-08-03
Also published as: CN113325937B

Abstract

The invention relates to the technical field of servers, in particular to a server for industrial park information management and control equipment thereof, wherein the server comprises a working unit, a transmission unit and a heat dissipation unit; the working unit takes the body as a carrier; the heat dissipation device comprises a body, and is characterized in that a heat conduction cavity and a heat dissipation cavity are arranged on the outer surface of the body, motors are symmetrically mounted on two sides of the top end of the heat dissipation cavity, a ball screw is connected to the bottom end of each motor, a sliding frame is connected to each ball screw through a sliding sleeve, an airflow communication assembly is arranged in each sliding frame, and a cold air pipe and an air outlet pipe are respectively connected to the heat dissipation cavity; the invention can carry out more efficient heat dissipation on the server, improves the problem of poor heat dissipation effect of the server through the fan, simultaneously reduces the problems of noise and damage caused by heat dissipation of the fan, simultaneously keeps the server in an isolated state with the outside in the heat dissipation process, reduces the influence of dust and impurities in an industrial park on the server, and further improves the working quality and the service life of the server.

Description

Server for industrial park information management and control equipment thereof

Technical Field

The invention relates to the technical field of servers, in particular to an industrial park information management server and control equipment thereof.

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.

Some technical solutions related to the server also appear in the prior art, such as a chinese patent, publication No.: CN108323125A, the invention provides a server heat dissipation cabinet, which includes a frame body and a plurality of layers of placing units arranged on the frame body from top to bottom, wherein a server storage area and an air inducing area arranged above the server storage area are arranged in the placing units; a cooling water layer is arranged on the periphery of the placing unit, a cavity is arranged in the cooling water layer, an air bag made of an elastic film is arranged in the cavity, and a weight is hung on the air bag to enable the air bag to be suspended in water; the periphery of the cooling water layer is provided with an air duct, the air duct comprises an air inlet duct surrounding the upper part of the cooling water layer and an air outlet duct surrounding the lower part of the cooling water layer, the air inlet duct communicates the outside with the induced air region, and the air outlet duct communicates the server storage region with the outside; the server storage area and the induced air area are separated by a partition plate, a plurality of air holes are formed in the partition plate, and a flow guide fan capable of supplying air into the server storage area is arranged in the induced air area; the cabinet can improve the heat dissipation effect on the server.

Because the data that the server collection of industrial park information management usefulness is huge for the server produces higher temperature at the in-process of high load operation, but current server passes through the fan radiating formal efficiency not high, and the fan can produce certain noise and heat after long-time operation simultaneously, can damage even, thereby influences the operating quality and the life of server.

In view of the above, an industrial park information management server and a control device therefor have been proposed.

Disclosure of Invention

The invention provides a server for industrial park information management and control equipment thereof, aiming at overcoming the defects of the prior art and solving the problems that the efficiency of the heat dissipation form of some servers through fans is not high, and meanwhile, certain noise and heat can be generated after the fans run for a long time, and even the fans can be damaged, so that the working quality and the service life of the servers are influenced.

The technical scheme adopted by the invention for solving the technical problems is as follows: a server for industrial park information management comprises a working unit, a transmission unit and a heat dissipation unit; the working unit takes the body as a carrier, and the transmission unit takes a 5G network as a carrier; the heat dissipation unit takes a heat conduction cavity made of heat conduction materials as a carrier; the heat conducting cavity is sleeved outside the body; the heat dissipation device comprises a heat conduction cavity, a motor, a sliding frame, an air flow communication assembly, a cold air pipe and an air outlet pipe, wherein the heat conduction cavity is arranged outside the heat conduction cavity, the motor is symmetrically arranged on two sides of the top end of the heat dissipation cavity, the bottom end of the motor is connected with a ball screw which penetrates through the heat dissipation cavity, the ball screw is connected with the sliding frame through a sliding sleeve, the air flow communication assembly is arranged in the sliding frame, the side wall of the sliding frame is respectively attached to the outer wall of the heat conduction cavity and the inner wall of the heat dissipation cavity, the bottom end and the top end of the heat dissipation cavity are respectively connected with the cold air pipe and the air outlet pipe, and the cold air pipe and the air outlet pipe are respectively provided with a one-way valve; when the server works, the server for industrial park information management acquires huge data, so that the server generates higher temperature in the process of high-load operation, but the efficiency of the existing server is not high in the form of heat dissipation through a fan, and meanwhile, the fan generates certain noise and heat after long-time operation and even can be damaged, so that the working quality and the service life of the server are influenced; when the server is used, the heat conducting cavity made of heat absorbing materials such as heat conducting silica gel sheets can efficiently absorb heat generated on the server body and transmit the heat to air between the heat conducting cavity and the heat dissipation cavity, the cold air pipe is connected with refrigeration equipment through the air pump, when hot gas in the heat dissipation cavity needs to be discharged, the sliding sleeve on the ball screw and the sliding frame are driven by the motor to move from bottom to top, so that the sliding frame can extrude and drive the hot gas in the heat dissipation cavity from bottom to top, meanwhile, the cold air pipe and the one-way valves on the air outlet pipe are respectively opened under the action of air pressure on two sides of the sliding frame, so that external cold gas can flow in from the bottom end of the heat dissipation cavity, and the hot gas in the heat dissipation cavity can be fully discharged from the air outlet pipe under the pushing of the sliding frame, and therefore, the cold gas newly flowing into the heat dissipation cavity can achieve a more efficient cooling effect on the server, the server is cooled in this way, the problem that the server has a poor cooling effect through a fan is solved, the problem of noise and damage caused by cooling through the fan is solved, the server is in an isolated state with the outside in the cooling process, and the influence of dust and impurities in an industrial park on the server is reduced, so that the working quality and the service life of the server are improved.

Preferably, the airflow communication assembly comprises a circulation groove which is formed by penetrating the end part of the sliding frame, a sliding rod is connected inside the circulation groove in a sliding manner and is in interference fit with the circulation groove, a push rod is connected to the top surface of the heat dissipation cavity corresponding to the top end of the sliding rod, a first connecting groove communicated with the lower end surface of the sliding rod is formed in the side wall of the top end of the sliding rod, a second communication groove communicated with the top surface of the sliding frame is formed in the position, corresponding to the first connecting groove, of the circulation groove, a limiting block capable of limiting the sliding frame is connected to the side wall of the heat dissipation cavity corresponding to one side of the push rod, and when the sliding frame is attached to the limiting block, the push rod can push the first communication groove on the sliding rod to be communicated with the second communication groove; when the sliding frame is located at the bottom end of the heat dissipation cavity, the sliding rod drives the two communicating grooves to be staggered under the extrusion of the bottom end of the heat dissipation cavity, the inside of the sliding frame is in a completely closed state, hot gas can be effectively extruded out when the sliding frame moves upwards, when the sliding frame moves to a limiting block at the top end of the heat dissipation cavity under the driving of the motor, the sliding rod can be pushed by the push rod to slide inside the communicating groove at the moment, the two communicating grooves are in a communicating state, when the subsequent motor drives the sliding frame to reset, cold gas located at the bottom end of the sliding frame can circulate to the top end of the heat dissipation cavity through the opened circulating groove, the whole heat dissipation cavity can be fully distributed with the cold gas, meanwhile, the automatic work of the airflow communicating component is controlled through controlling the moving position of the sliding frame, and the internal structure of the airflow communicating component is simplified.

Preferably, a plurality of groups of runners are arranged in the heat conduction cavity, the air inlet ends of the runners are connected with the cold air pipe, and the air outlet ends of the runners are communicated with the bottom end of the side wall of the heat conduction cavity; when the cooling device works, when the sliding frame moves from bottom to top in the heat dissipation cavity, the air pressure at the bottom of the sliding frame is reduced, the hot gas in the flow channel is sucked, and meanwhile, the cold gas in the cold gas pipe flows into the flow channel, so that the cold gas flowing into the flow channel can play a more effective cooling effect on the server.

Preferably, a lubricating cavity is formed in the side wall of the top end of the inside of the sliding frame, a water absorbing block is filled in the lubricating cavity, the outer end of the lubricating cavity is connected with a baffle, the inner end of the lubricating cavity is connected with a pressing plate in a sliding mode, an elastic body is connected between the pressing plate and the inner end of the lubricating cavity, a flow guide groove communicated with the inner wall of the heat dissipation cavity is formed in the lubricating cavity corresponding to the bottom end of the water absorbing block, a magnetic block capable of absorbing the pressing plate is embedded and mounted on the side wall, close to the heat dissipation cavity, of the sliding frame, a conveying groove communicated with the lubricating cavity is formed in the bottom end of the inner wall of the heat dissipation cavity, and conveying strips connected with the water absorbing block are filled in the conveying groove; during operation, when the motor drives the magnetic block on the sliding frame to move downwards to the lubricating cavity, the magnetic block can attract the pressing plate and enable the pressing plate to extrude the water absorption block attached with lubricating oil, so that the lubricating oil in the water absorption block can flow from top to bottom along the side wall of the heat dissipation cavity along the guide groove, the lubricating effect can be achieved on the side wall of the heat dissipation cavity, the friction resistance when the subsequent sliding frame and the heat dissipation cavity move relatively is reduced, meanwhile, the lubricating oil flowing to the bottom end of the heat dissipation cavity can be conveyed to the water absorption block again under the action of the conveying strip, and therefore the lubricating oil can be used in a reciprocating mode.

Preferably, the top end of the diversion trench is provided with a funnel-shaped cavity with a wide top and a narrow bottom, and the top end of the funnel-shaped cavity is connected with a partition plate made of a filter screen material; the during operation, when the piece that absorbs water is extruded, the lubricating oil in the piece that absorbs water can be under the effect in funnel chamber more abundant efficient flow direction guiding gutter, and the baffle that sets up simultaneously also reduces the piece that absorbs water and the condition that the lubricating oil that will extrude reabsorbed when reseing to make lubricating oil can more effectual outflow and play lubricated effect to heat dissipation chamber lateral wall.

Preferably, an oil supply groove is formed in the position, corresponding to the lubricating cavity, of the sliding frame, the other end of the oil supply groove is communicated with the side wall of the sliding frame, close to the heat conducting cavity, a coating groove is formed in one end, close to the heat conducting cavity, of the oil supply groove, a coating layer is filled in the coating groove, an oil supply bar connected with the coating layer is filled in the oil supply groove, and the coating layer and the oil supply bar are made of water absorbing materials respectively; the during operation, when sliding frame and stopper were laminated mutually, the oil feed groove can be aligned with lubricated chamber just this moment, and lubricating oil in the piece that absorbs water this moment can be carried to the coating department through sending the twisted cruller, and the sliding frame can be through the motion that drives the coating at downstream's in-process afterwards, paints lubricating oil on the coating on the heat conduction cavity lateral wall to frictional resistance between sliding frame and the heat conduction chamber that can significantly reduce.

Preferably, one end of the oil feeding groove close to the heat dissipation cavity is connected with a sliding ball in a sliding mode, a spring is connected between one end of the sliding ball far away from the heat dissipation cavity and the oil feeding groove, a connecting layer made of water absorbing materials is embedded in the sliding ball, and a funnel-shaped conduction groove matched with the baffle is formed in the position, corresponding to the sliding ball, of the baffle; during operation, the sliding ball is impressed inside the conduction groove under the effect of spring to fully contact through articulamentum and water absorption piece, thereby make the inside lubricating oil of water absorption piece can pass through the more effectual coating layer transmission of articulamentum, when the sliding frame when the downstream, the lateral wall of conduction groove slope can impress the sliding ball in the oil supply groove, thereby makes the motion of sliding frame go on smoothly.

Preferably, a cooling groove is formed in the side wall, attached to the heat conducting cavity, of the sliding frame, a connecting pipe communicated with the cooling groove is connected to the position, corresponding to one end of the cooling groove, of the top surface of the sliding frame, a cold water cavity is connected to the top surface of the heat radiating cavity corresponding to the top end of the connecting pipe, a water inlet pipe is connected to the top end of the cold water cavity, a water outlet groove is connected to the bottom end of the cold water cavity, the width of a groove opening of the water outlet groove is gradually increased from bottom to top, a plugging block is arranged inside the water outlet groove, an elastic block is connected between the plugging block and the inside of the cold water cavity, and a water outlet pipe capable of being connected with the water outlet end of the cooling groove is connected to the inner wall of the heat radiating cavity; during operation, the shutoff piece can carry out the shutoff to going out the basin under the effect of elasticity piece, and can drive the connecting pipe during sliding frame upward movement and extrude the shutoff piece, make out the basin and be in open mode, external water pump is impressed the cooling water through cold water chamber and connecting pipe in the cooling bath this moment, make the higher rivers of temperature in the cooling bath discharge through the outlet pipe, sliding frame can drive the cooling water in the cooling bath when the downstream after from the top down cools off heat conduction chamber in proper order, the radiating effect of server has further been improved.

Preferably, the top end of the conveying groove is connected with an air bag, the conveying groove corresponding to the bottom end of the air bag is connected with a stop block, a through cavity is arranged in the air bag, a conducting strip made of water-absorbing materials is filled in the through cavity, and the upper end and the lower end of the conducting strip are respectively connected with the water-absorbing block and the conveying strip; the during operation, lubricating oil in the transport strip can be through switching on the strip and transmit to the piece that absorbs water on, when the clamp plate extrudees the piece that absorbs water under the absorption of magnetic block, the clamp plate can extrude the gasbag simultaneously, make the gasbag inflation and drive and link up the cavity and tighten, thereby can compress tightly the conduction strip, reduce follow-up piece that absorbs water when the extrusion, the condition of its inside lubricating oil from carrying the strip backward flow, make the lubricating oil in the piece that absorbs water can be more abundant flow from heat dissipation intracavity wall, and play more effective lubricated effect to it.

A control device for industrial park information management is applicable to any one of the servers and is used for controlling automatic operation of a heat dissipation unit on the server.

The invention has the following beneficial effects:

1. according to the server, the heat dissipation structure arranged outside the server can dissipate heat of the server more efficiently, the problem that the heat dissipation effect of the server through the fan is poor is solved, the problems of noise and damage caused by heat dissipation of the fan are solved, meanwhile, the server is in an isolated state with the outside in the heat dissipation process, the influence of dust and impurities in an industrial park on the server is reduced, and therefore the working quality and the service life of the server are improved.

2. When the sliding frame moves from bottom to top in the heat dissipation cavity, the air pressure at the bottom of the sliding frame is reduced, the hot gas in the flow channel is sucked, and meanwhile, the cold gas in the cold gas pipe flows into the flow channel, so that the cold gas flowing into the flow channel can play a more effective cooling effect on the server.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is an enlarged view at B in FIG. 2;

FIG. 4 is a schematic view showing the structure of a cooling bath inside a slide frame according to the present invention;

FIG. 5 is a schematic structural view of the top end of the conveying trough in the second embodiment;

FIG. 6 is a system block diagram of the present invention;

in the figure: the device comprises a body 1, a heat conducting cavity 2, a heat radiating cavity 3, a motor 4, a ball screw 5, a sliding frame 6, a cold air pipe 7, an air outlet pipe 8, a one-way valve 9, a sliding rod 10, a push rod 11, a first connecting groove 12, a second connecting groove 13, a limiting block 14, a flow passage 15, a lubricating cavity 16, a water absorbing block 17, a baffle plate 18, a pressing plate 19, an elastic body 20, a flow guide groove 21, a magnetic block 22, a conveying strip 23, a funnel-shaped cavity 24, a partition plate 25, a coating layer 26, an oil feeding strip 27, a sliding ball 28, a connecting layer 29, a conduction groove 30, a cooling groove 31, a connecting pipe 32, a cold water cavity 33, a water inlet pipe 34, a blocking block 35, an elastic block 36, a water outlet pipe 37, an air bag 38, a stop block 39 and a conduction strip 40.

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.

The first embodiment is as follows:

referring to fig. 1 to 4, a server for information management of an industrial park according to the present invention includes a working unit, a transmission unit, and a heat dissipation unit; the working unit takes the body 1 as a carrier, and the transmission unit takes a 5G network as a carrier; the heat dissipation unit takes a heat conduction cavity 2 made of heat conduction materials as a carrier; the heat conducting cavity 2 is sleeved outside the body 1; a heat dissipation cavity 3 is arranged outside the heat conduction cavity 2, motors 4 are symmetrically arranged on two sides of the top end of the heat dissipation cavity 3, the bottom end of each motor 4 is connected with a ball screw 5 penetrating through the inside of the heat dissipation cavity 3, the ball screw 5 is connected with a sliding frame 6 through a sliding sleeve, an airflow communication assembly is arranged in each sliding frame 6, the side wall of each sliding frame 6 is respectively attached to the outer wall of the heat conduction cavity 2 and the inner wall of the heat dissipation cavity 3, the bottom end and the top end of the heat dissipation cavity 3 are respectively connected with a cold air pipe 7 and an air outlet pipe 8, and the cold air pipe 7 and the air outlet pipe 8 are respectively provided with a one-way valve 9; when the server works, the server for industrial park information management acquires huge data, so that the server generates higher temperature in the process of high-load operation, but the efficiency of the existing server is not high in the form of heat dissipation through a fan, and meanwhile, the fan generates certain noise and heat after long-time operation and even can be damaged, so that the working quality and the service life of the server are influenced; when the server is used, the heat conducting cavity 2 made of heat absorbing materials such as heat conducting silica gel sheets can efficiently absorb heat generated on the server body 1 and transmit the heat to the air between the heat conducting cavity 2 and the heat radiating cavity 3, the cold air pipe 7 is connected with refrigeration equipment through the air pump, when the hot air in the heat radiating cavity 3 needs to be discharged, the sliding sleeve on the ball screw 5 and the sliding frame 6 are driven by the motor 4 to move from bottom to top, so that the sliding frame 6 can extrude the hot air in the heat radiating cavity 3 from bottom to top, meanwhile, the cold air pipe 7 and the check valve 9 on the air outlet pipe 8 are respectively opened under the action of air pressure at two sides of the sliding frame 6, so that the external cold air can flow in from the bottom end of the heat radiating cavity 3, and the hot air in the heat radiating cavity 3 can be sufficiently discharged from the air outlet pipe 8 under the pushing of the sliding frame 6, and therefore, the cold air newly flowing into the heat radiating cavity 3 can have a more efficient cooling effect on the server, the server is cooled in this way, the problem that the server has a poor cooling effect through a fan is solved, the problem of noise and damage caused by cooling through the fan is solved, the server is in an isolated state with the outside in the cooling process, and the influence of dust and impurities in an industrial park on the server is reduced, so that the working quality and the service life of the server are improved.

The airflow communication assembly comprises a circulation groove which is formed in the end part of a sliding frame 6 in a penetrating mode, a sliding rod 10 is connected inside the circulation groove in a sliding mode, the sliding rod 10 is in interference fit with the circulation groove, a push rod 11 is connected to the top surface of a heat dissipation cavity 3 corresponding to the top end of the sliding rod 10, a first connection groove 12 communicated with the lower end face of the sliding rod 10 is formed in the side wall of the top end of the sliding rod 10, a second communication groove 13 communicated with the top surface of the sliding frame 6 is formed in the position, corresponding to the first connection groove 12, of the circulation groove, a limiting block 14 capable of limiting the sliding frame 6 is connected to the side wall of the heat dissipation cavity 3 corresponding to one side of the push rod 11, and when the sliding frame 6 is attached to the limiting block 14, the push rod 11 can push the first communication groove in the sliding rod 10 to be communicated with the second communication groove 13; during operation, when the sliding frame 6 is located at the bottom end of the heat dissipation cavity 3, the sliding rod 10 drives the two communicating grooves to be staggered under the extrusion of the bottom end of the heat dissipation cavity 3, so that the inside of the sliding frame 6 is in a completely closed state, so that the sliding frame 6 can effectively extrude hot gas when moving upwards, when the sliding frame 6 moves to the position of the limit block 14 at the top end of the heat dissipation cavity 3 under the driving of the motor 4, the push rod 11 can push the sliding rod 10 to slide in the communicating groove at the moment, so that the two communicating grooves are in a communicating state, so that when the subsequent motor 4 drives the sliding frame 6 to reset, cold gas at the bottom end of the sliding frame 6 can circulate to the top end of the heat dissipation cavity 3 through the opened circulating groove, so that the cold gas can be fully distributed in the whole heat dissipation cavity 3, and meanwhile, the automatic work of the airflow communicating component is controlled by controlling the moving position of the sliding frame 6, and the internal structure of the airflow communicating component is simplified.

A plurality of groups of runners 15 are arranged in the heat conduction cavity 2, the air inlet end of each runner 15 is connected with the cold air pipe 7, and the air outlet end of each runner 15 is communicated with the bottom end of the side wall of the heat conduction cavity 2; when the cooling device works, when the sliding frame 6 moves from bottom to top in the heat dissipation cavity 3, the air pressure at the bottom of the sliding frame 6 is reduced and the hot gas in the flow channel 15 is sucked, and meanwhile the cold gas in the cold gas pipe 7 flows into the flow channel 15, so that the cold gas flowing into the flow channel 15 can play a more effective cooling effect on the server.

A lubricating cavity 16 is formed in the side wall of the top end inside the sliding frame 6, a water absorption block 17 is filled in the lubricating cavity 16, the outer end of the lubricating cavity 16 is connected with a baffle 18, the inner end of the lubricating cavity 16 is connected with a pressing plate 19 in a sliding manner, an elastic body 20 is connected between the pressing plate 19 and the inner end of the lubricating cavity 16, a flow guide groove 21 communicated with the inner wall of the heat dissipation cavity 3 is formed in the lubricating cavity 16 corresponding to the bottom end of the water absorption block 17, a magnetic block 22 capable of attracting the pressing plate 19 is embedded and mounted on the side wall, close to the heat dissipation cavity 3, of the sliding frame 6, a conveying groove communicated with the lubricating cavity 16 is formed in the bottom end of the inner wall of the heat dissipation cavity 3, and a conveying strip 23 connected with the water absorption block 17 is filled in the conveying groove; when the lubricating device works, when the motor 4 drives the magnetic block 22 on the sliding frame 6 to move downwards to the lubricating cavity 16, the magnetic block 22 can attract the pressing plate 19 and extrude the water absorption block 17 absorbed with lubricating oil, so that the lubricating oil in the water absorption block 17 can flow from top to bottom along the side wall of the heat dissipation cavity 3 along the guide groove 21, the side wall of the heat dissipation cavity 3 can be lubricated, the friction resistance when the subsequent sliding frame 6 and the heat dissipation cavity 3 move relatively is reduced, meanwhile, the lubricating oil flowing to the bottom end of the heat dissipation cavity 3 can be conveyed to the water absorption block 17 again under the action of the conveying strip 23, and the lubricating oil can be used repeatedly.

A funnel-shaped cavity 24 with a wide upper part and a narrow lower part is arranged at the top end of the diversion trench 21, and a partition plate 25 made of a filter screen material is connected to the top end of the funnel-shaped cavity 24; during operation, when the water absorption block 17 is extruded, lubricating oil in the water absorption block 17 can flow into the diversion trench 21 more fully and efficiently under the action of the funnel-shaped cavity 24, and the partition plate 25 arranged at the same time also reduces the situation that the extruded lubricating oil is reabsorbed by the water absorption block 17 when being reset, so that the lubricating oil can flow out more effectively and has a lubricating effect on the side wall of the heat dissipation cavity 3.

An oil supply groove is formed in the position, corresponding to the lubricating cavity 16, of the sliding frame 6, the other end of the oil supply groove is communicated with the side wall of the sliding frame 6 close to the heat conduction cavity 2, a coating groove is formed in one end, close to the heat conduction cavity 2, of the oil supply groove, a coating layer 26 is filled in the coating groove, an oil supply bar 27 connected with the coating layer 26 is filled in the oil supply groove, and the coating layer 26 and the oil supply bar 27 are made of water-absorbing materials respectively; during operation, when sliding frame 6 and stopper 14 are laminated mutually, the oil supply groove can align with lubricated chamber 16 just this moment, and lubricating oil in the piece 17 that absorbs water can carry to coating 26 department through sending oil strip 27 this moment, and sliding frame 6 can be through the motion that drives coating 26 at the in-process of downstream afterwards, paints the lubricating oil on coating 26 on leading heat chamber 2 lateral wall to can significantly reduce the frictional resistance between sliding frame 6 and the heat chamber 2.

One end of the oil feeding groove close to the heat dissipation cavity 3 is connected with a sliding ball 28 in a sliding mode, a spring is connected between one end of the sliding ball 28 far away from the heat dissipation cavity 3 and the oil feeding groove, a connecting layer 29 made of water absorbing materials is embedded in the sliding ball 28, and funnel-shaped guide grooves 30 matched with the baffle plate 18 and the sliding ball 28 are formed in the positions, corresponding to the baffle plate 18 and the sliding ball 28; during operation, the sliding ball 28 is pressed into the inside of the guiding groove 30 under the action of the spring and is fully contacted with the water absorption block 17 through the connecting layer 29, so that lubricating oil in the water absorption block 17 can be more effectively transmitted to the coating layer 26 through the connecting layer 29, and when the sliding frame 6 moves downwards, the side wall of the guiding groove 30, which is inclined, can press the sliding ball 28 into the oil supply groove, so that the movement of the sliding frame 6 can be smoothly carried out.

A cooling groove 31 is formed in the side wall, attached to the heat conducting cavity 2, of the sliding frame 6, a connecting pipe 32 communicated with the cooling groove 31 is connected to the position, corresponding to one end of the cooling groove 31, of the top surface of the sliding frame 6, a cold water cavity 33 is connected to the top surface of the heat radiating cavity 3 corresponding to the top end of the connecting pipe 32, a water inlet pipe 34 is connected to the top end of the cold water cavity 33, a water outlet groove is connected to the bottom end of the cold water cavity 33, the width of a groove opening of the water outlet groove is gradually increased from bottom to top, a plugging block 35 is arranged inside the water outlet groove, an elastic block 36 is connected between the plugging block 35 and the inside of the cold water cavity 33, and a water outlet pipe 37 capable of being connected with the water outlet end of the cooling groove 31 is connected to the inner wall of the heat radiating cavity 3; during operation, shutoff piece 35 can carry out the shutoff to going out the basin under the effect of elastic block 36, and smooth frame 6 can drive connecting pipe 32 during the upward movement and extrude shutoff piece 35, make out the basin and be in open mode, external water pump is impressed the cooling water in cooling tank 31 through cold water chamber 33 and connecting pipe 32 this moment, make the higher rivers of temperature in cooling tank 31 discharge through outlet pipe 37, smooth frame 6 can drive the cooling water in cooling tank 31 when the downstream from the top down cools off heat conduction chamber 2 in proper order, the radiating effect of server has further been improved.

Example two:

referring to fig. 5, an air bag 38 is connected to the top end of the conveying groove, a stop 39 is connected to the conveying groove corresponding to the bottom end of the air bag 38, a through cavity is arranged inside the air bag 38, a conducting strip 40 made of a water-absorbing material is filled inside the through cavity, and the upper end and the lower end of the conducting strip 40 are respectively connected to the water-absorbing block 17 and the conveying strip 23; during operation, lubricating oil in the conveying strip 23 can be transmitted to the water absorption block 17 through the conducting strip 40, when the pressing plate 19 extrudes the water absorption block 17 under the adsorption of the magnetic block 22, the pressing plate 19 can simultaneously extrude the air bag 38, so that the air bag 38 expands and drives the through cavity to be contracted, so that the conducting strip 40 can be compressed, the condition that the internal lubricating oil of the subsequent water absorption block 17 flows back from the conveying strip 23 when the subsequent water absorption block 17 is extruded is reduced, the lubricating oil in the water absorption block 17 can flow out from the inner wall of the heat dissipation cavity 3 more fully, and a more effective lubricating effect is achieved.

The working principle is as follows: the heat conducting cavity 2 made of heat absorbing material such as heat conducting silica gel sheet can efficiently absorb the heat generated on the server body 1 and transmit the heat to the air between the heat conducting cavity 2 and the heat dissipating cavity 3, meanwhile, the cold air pipe 7 is connected with the refrigeration equipment through the air pump, when the hot air in the heat dissipating cavity 3 needs to be discharged, the sliding sleeve on the ball screw 5 and the sliding frame 6 are driven by the motor 4 to move from bottom to top, so that the sliding frame 6 can extrude the hot air in the heat dissipating cavity 3 from bottom to top, meanwhile, the cold air pipe 7 and the check valve 9 on the air outlet pipe 8 are respectively opened under the action of the air pressure at two sides of the sliding frame 6, so that the external cold air can flow in from the bottom end of the heat dissipating cavity 3, meanwhile, the hot air in the heat dissipating cavity 3 can be fully discharged from the air outlet pipe 8 under the pushing of the sliding frame 6, and therefore, the cold air newly flowing into the heat dissipating cavity 3 can have a more efficient cooling effect on the server, the server is cooled in the mode, so that the problem that the cooling effect of the server through a fan is poor is solved, the problems of noise and damage caused by cooling of the fan are reduced, and meanwhile, the server is in an isolated state with the outside in the cooling process, so that the influence of dust and impurities in an industrial park on the server is reduced, the working quality of the server is improved, and the service life of the server is prolonged; when the sliding frame 6 is positioned at the bottom end of the heat dissipation cavity 3, the sliding rod 10 drives the two communicating grooves to be staggered under the extrusion of the bottom end of the heat dissipation cavity 3, so that the inside of the sliding frame 6 is in a completely closed state, the sliding frame 6 can effectively extrude hot gas when moving upwards, when the sliding frame 6 moves to the position of the limiting block 14 at the top end of the heat dissipation cavity 3 under the driving of the motor 4, the push rod 11 can push the sliding rod 10 to slide in the communicating grooves, so that the two communicating grooves are in a communicating state, when the subsequent motor 4 drives the sliding frame 6 to reset, cold gas positioned at the bottom end of the sliding frame 6 can circulate to the top end of the heat dissipation cavity 3 through the opened circulating grooves, so that the cold gas can be fully distributed in the whole heat dissipation cavity 3, and meanwhile, the automatic work of the airflow communicating component is controlled by controlling the moving position of the sliding frame 6, and the internal structure of the airflow communicating component is simplified; when the sliding frame 6 moves from bottom to top in the heat dissipation cavity 3, the air pressure at the bottom of the sliding frame 6 is reduced and the hot gas in the flow channel 15 is sucked, and meanwhile, the cold gas in the cold gas pipe 7 flows into the flow channel 15, so that the cold gas flowing into the flow channel 15 can play a more effective cooling effect on the server; when the motor 4 drives the magnetic block 22 on the sliding frame 6 to move downwards to the lubricating cavity 16, at the moment, the magnetic block 22 can attract the pressing plate 19 and extrude the water absorption block 17 absorbed with lubricating oil, so that the lubricating oil in the water absorption block 17 can flow from the side wall of the heat dissipation cavity 3 to the bottom along the flow guide groove 21, the side wall of the heat dissipation cavity 3 can be lubricated, the friction resistance when the subsequent sliding frame 6 and the heat dissipation cavity 3 move relatively is reduced, and meanwhile, the lubricating oil flowing to the bottom end of the heat dissipation cavity 3 can be conveyed into the water absorption block 17 again under the action of the conveying strip 23, so that the lubricating oil can be used repeatedly; when the water absorption block 17 is extruded, the lubricating oil in the water absorption block 17 can flow into the diversion groove 21 more fully and efficiently under the action of the funnel-shaped cavity 24, and the partition plate 25 also reduces the situation that the extruded lubricating oil is reabsorbed by the water absorption block 17 when the water absorption block is reset, so that the lubricating oil can flow out more effectively and has a lubricating effect on the side wall of the heat dissipation cavity 3; when the sliding frame 6 is attached to the limiting block 14, the oil supply groove can be aligned with the lubricating cavity 16, the lubricating oil in the water absorption block 17 can be conveyed to the coating layer 26 through the oil supply bar 27, and then the sliding frame 6 can drive the coating layer 26 to move in the downward movement process, so that the lubricating oil on the coating layer 26 is coated on the side wall of the heat conduction cavity 2, and the friction resistance between the sliding frame 6 and the heat conduction cavity 2 can be greatly reduced; the sliding ball 28 is pressed into the conduction groove 30 under the action of the spring and is fully contacted with the water absorption block 17 through the connecting layer 29, so that the lubricating oil in the water absorption block 17 can be more effectively transmitted to the coating layer 26 through the connecting layer 29, and when the sliding frame 6 moves downwards, the inclined side wall of the conduction groove 30 can press the sliding ball 28 into the oil supply groove, so that the movement of the sliding frame 6 can be smoothly carried out; the blocking block 35 can block the water outlet groove under the action of the elastic block 36, the sliding frame 6 can drive the connecting pipe 32 to extrude the blocking block 35 when moving upwards, so that the water outlet groove is in an open state, at the moment, an external water pump presses cooling water into the cooling groove 31 through the cold water cavity 33 and the connecting pipe 32, so that water flow with higher temperature in the cooling groove 31 is discharged through the water outlet pipe 37, and then the sliding frame 6 can drive the cooling water in the cooling groove 31 to sequentially cool the heat conducting cavity 2 from top to bottom when moving downwards, so that the heat dissipation effect of the server is further improved; lubricating oil in the conveying strip 23 can be transmitted to the water absorption block 17 through the conducting strip 40, when the pressing plate 19 extrudes the water absorption block 17 under the adsorption of the magnetic block 22, the pressing plate 19 can simultaneously extrude the air bag 38, so that the air bag 38 expands and drives the through cavity to be contracted, thereby compressing the conducting strip 40, reducing the condition that the internal lubricating oil of the subsequent water absorption block 17 reflows from the conveying strip 23 when extruding, and enabling the lubricating oil in the water absorption block 17 to flow out from the inner wall of the heat dissipation cavity 3 more fully, and playing more effective lubricating effect on the lubricating oil.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A server for managing industrial park information, characterized in that: comprises a working unit, a transmission unit and a heat dissipation unit;

the working unit takes the body (1) as a carrier, and the transmission unit takes a 5G network as a carrier; the heat dissipation unit takes a heat conduction cavity (2) made of heat conduction materials as a carrier; the heat conduction cavity (2) sleeve is established in body (1) outside, the outside in heat conduction cavity (2) is equipped with heat dissipation cavity (3), motor (4) are installed to the top bilateral symmetry in heat dissipation cavity (3), the bottom of motor (4) is connected with ball screw (5) that run through heat dissipation cavity (3) inside, be connected with sliding frame (6) through the sliding sleeve on ball screw (5), be provided with air current intercommunication subassembly in sliding frame (6), the lateral wall of sliding frame (6) is laminated with the outer wall in heat conduction cavity (2) and the inner wall in heat dissipation cavity (3) respectively mutually, the bottom and the top in heat dissipation cavity (3) are connected with cold air pipe (7) and outlet duct (8) respectively, install check valve (9) on cold air pipe (7) and outlet duct (8) respectively.

2. The industrial park information management server according to claim 1, wherein: the airflow communication component comprises a circulation groove which is arranged at the end part of the sliding frame (6) in a run-through way, a sliding rod (10) is connected inside the circulation groove in a sliding way, the sliding rod (10) is in interference fit with the circulation groove, the top surface of the heat dissipation cavity (3) corresponding to the top end of the sliding rod (10) is connected with a push rod (11), a first connecting groove (12) communicated with the lower end surface of the sliding rod (10) is arranged on the side wall of the top end of the sliding rod, a second communicating groove (13) communicated with the top surface of the sliding frame (6) is arranged at the position of the circulating groove corresponding to the first connecting groove (12), a limit block (14) which can limit the sliding frame (6) is connected on the side wall of the heat dissipation cavity (3) corresponding to one side of the push rod (11), and when the sliding frame (6) is attached to the limiting block (14), the push rod (11) can push the first communicating groove on the sliding rod (10) to be communicated with the second communicating groove (13).

3. The industrial park information management server according to claim 2, wherein: the heat conduction cavity (2) is internally provided with a plurality of groups of runners (15), the air inlet ends of the runners (15) are connected with the cold air pipe (7), and the air outlet ends of the runners (15) are communicated with the bottom end of the side wall of the heat conduction cavity (2).

4. The industrial park information management server according to claim 3, wherein: a lubricating cavity (16) is arranged on the side wall of the top end in the sliding frame (6), a water absorption block (17) is filled in the lubricating cavity (16), the outer end of the lubricating cavity (16) is connected with a baffle plate (18), the inner end of the lubricating cavity (16) is connected with a pressure plate (19) in a sliding way, an elastic body (20) is connected between the pressure plate (19) and the inner end of the lubricating cavity (16), a guide groove (21) communicated with the inner wall of the heat dissipation cavity (3) is arranged on the lubricating cavity (16) corresponding to the bottom end of the water absorption block (17), a magnetic block (22) capable of attracting the pressure plate (19) is embedded and mounted on the side wall of the sliding frame (6) close to the heat dissipation cavity (3), the bottom end of the inner wall of the heat dissipation cavity (3) is provided with a conveying groove communicated with the lubricating cavity (16), and a conveying strip (23) connected with the water absorption block (17) is filled in the conveying groove.

5. The industrial park information management server according to claim 4, wherein: the top end of the diversion trench (21) is provided with a funnel-shaped cavity (24) which is wide at the top and narrow at the bottom, and the top end of the funnel-shaped cavity (24) is connected with a partition plate (25) made of a filter screen material.

6. The industrial park information management server according to claim 5, wherein: an oil supply groove is formed in the position, corresponding to the lubricating cavity (16), of the sliding frame (6), the other end of the oil supply groove is communicated with the side wall, close to the heat conducting cavity (2), of the sliding frame (6), a coating groove is formed in one end, close to the heat conducting cavity (2), of the oil supply groove, a coating layer (26) is filled in the coating groove, an oil supply bar (27) connected with the coating layer (26) is filled in the oil supply groove, and the coating layer (26) and the oil supply bar (27) are made of water absorption materials respectively.

7. The industrial park information management server according to claim 6, wherein: one end sliding connection that oil feed groove is close to heat dissipation chamber (3) has smooth ball (28), be connected with the spring between the one end that heat dissipation chamber (3) were kept away from in smooth ball (28) and the oil feed groove, smooth ball (28) inside is inlayed and is installed linkage layer (29) of the material that absorbs water, baffler (18) and the corresponding position department of smooth ball (28) offer guide slot (30) with it matched with infundibulate.

8. The industrial park information management server according to claim 7, wherein: the utility model discloses a cooling water tank, including sliding frame (6), connecting pipe (32) that cooling tank (31) are linked together are located to be connected with the corresponding position department in sliding frame (6) and heat conduction chamber (2) looks laminating on the lateral wall, be connected with on sliding frame (6) top surface with cooling tank (31) one end, be connected with cold water chamber (33) on heat dissipation chamber (3) top surface that connecting pipe (32) top corresponds, cold water chamber (33) top is connected with inlet tube (34), cold water chamber (33) bottom is connected with out the basin, the notch width that goes out the basin is supreme crescent from bottom to top, just it is equipped with plugging block (35) to go out the inside of basin, be connected with elastic block (36) between plugging block (35) and cold water chamber (33) inside, be connected with outlet pipe (37) that can be connected with the play water end of cooling tank (31) on the inner wall in heat dissipation chamber (3).

9. The industrial park information management server according to claim 8, wherein: the conveying trough top is connected with gasbag (38), be connected with dog (39) on the conveying trough that gasbag (38) bottom corresponds, gasbag (38) inside is provided with and runs through the cavity, it has conduction strip (40) of the material that absorbs water to run through inside the packing of cavity, the upper and lower both ends of conduction strip (40) are connected with water absorption piece (17) and conveying strip (23) respectively.

10. A control device for industrial park information management, characterized in that: the control device is adapted to a server according to any of claims 1-9, the control device being adapted to control the automatic operation of the heat dissipating unit on the server.