CN108693943A - A kind of low-power consumption cloud computer cooling system - Google Patents

Abstract

The invention discloses a kind of low-power consumption cloud computer cooling systems, including cabinet, working chamber and heat dissipation cavity are divided by orifice plate in the cabinet, it is rotatably connected to first rotating shaft on the work chamber inner sidewall, described first rotating shaft one end is rotatably connected to the first flabellum, the one end of the first rotating shaft far from the first flabellum is through work chamber inner sidewall and extends outwardly, it is installed with link block on the side wall of the cabinet, it is installed with servo motor on the link block, the servo motor output end is installed with output shaft, the output shaft is sequentially connected by transmission mechanism and first rotating shaft, it is rotatably connected to screw rod in the heat dissipation cavity.Structure of the invention is compact, easy to control, and the heat that can be generated to mainboard and processor carries out multi-step heat dissipation, is discharged as early as possible convenient for the heat in cabinet, ensures the speed of service of computer, prevent component from generating damage because of overheat.

Description

A kind of low-power consumption cloud computer cooling system

Technical field

The present invention relates to field of computer technology more particularly to a kind of low-power consumption cloud computer cooling systems.

Background technology

Today's society computer keeps essential thing in our work and study, computer during use, main Plate and processor will produce more heat, if may shorten electronics member in host if mainboard and processor heat dissipation are bad The service life of part, although and cannot be closed according to mainboard and temperature of processor equipped with cooling fan in existing computer The effect of suitable heat dissipation, heat dissipation is poor, and the time of heat dissipation lengthens, and causes a large amount of electric power resource to waste, using with certain office It is sex-limited.

Invention content

The purpose of the present invention is to solve problems, and a kind of low-power consumption cloud computer cooling system proposed.

To achieve the goals above, present invention employs following technical solutions:

A kind of low-power consumption cloud computer cooling system, including cabinet, in the cabinet by orifice plate be divided into working chamber and Heat dissipation cavity is rotatably connected to first rotating shaft on the work chamber inner sidewall, and described first rotating shaft one end is rotatably connected to the first fan Leaf, the one end of the first rotating shaft far from the first flabellum is through work chamber inner sidewall and extends outwardly, on the side wall of the cabinet It is installed with link block, servo motor is installed on the link block, the servo motor output end is installed with Output shaft, the output shaft are sequentially connected by transmission mechanism and first rotating shaft, are rotatably connected to screw rod in the heat dissipation cavity, institute One end of output shaft is stated through case side wall and is fixedly connected with screw rod, screw thread is socketed with sliding block, the sliding block on the screw rod It is connect with heat dissipation chamber inner sidewall by position-limit mechanism, the first cooling mechanism is installed on the sliding block, is equipped with above the orifice plate Mainboard, the mainboard are connect by the second cooling mechanism with orifice plate, and processor is equipped on the mainboard, is pushed up in the working chamber Portion is installed with temperature sensor, and alarm, the output end of the temperature sensor and control are equipped at the top of the cabinet The input terminal of device processed is electrically connected, the output end of the controller input terminal with servo motor, rotary electric machine and alarm respectively Electrical connection.

Preferably, the transmission mechanism includes the driving wheel being fixedly mounted in first rotating shaft and output shaft, described in two It is sequentially connected by transmission belt between driving wheel.

Preferably, first cooling mechanism includes the rotary electric machine being fixedly mounted on sliding block, the rotary electric machine Output end is installed with the second flabellum.

Preferably, second cooling mechanism includes the cushion block being fixedly mounted on orifice plate, is fixedly mounted on the cushion block There is solution cavity, coolant liquid is equipped in the solution cavity, heat-conducting layer is installed at the top of the solution cavity, the heat-conducting layer Upper end is fixedly connected with mainboard.

Preferably, the bottom of the cabinet is equipped with placement rack, and the placement rack is connected by damping shock absorber and chassis bottom It connects.

Preferably, the side wall of the cabinet is equipped with multiple ventholes, and the venthole built-in type is equipped with Air Filter.

Preferably, the position-limit mechanism includes the slide bar being fixedly mounted in heat dissipation cavity, and the sliding block is equipped with and slide bar Corresponding activity mouth, the slide bar are slidably connected with sliding block.

In the present invention, the heat that processor and mainboard generate absorbs heat to it by heat-conducting layer realization, the heat of heat-conducting layer absorption Amount, into inside solution cavity, internal coolant liquid realizes first step heat dissipation to heat spreader, when the heat dissipation of the second cooling mechanism is small When the heat that mainboard and processor generate, cabinet inside temperature rise, the temperature of temperature sensor perception pass to control at this time Instruction is delivered separately to alarm, servo motor and rotary electric machine by device processed, controller, and alarm sends out alarm, reminds people The temperature of cabinet inside is excessively high, and rotary electric machine drives the second flabellum to rotate, and the second flabellum accelerates the air inside heat dissipation cavity Circulation transmits air-flow by orifice plate, realizes and radiate to mainboard and processor, and servo motor drives screw rod rotation, and screw rod, which drives, to be slided Block realizes movement, and the second flabellum can be driven to realize movement, increase the area of heat dissipation, servo motor drives driving wheel and biography simultaneously Dynamic band rotation, realizes that the first flabellum realizes rotation, to inside working chamber mainboard and processor radiate.Structure of the invention is tight It gathers, easy to control, the heat that can be generated to mainboard and processor carries out multi-step heat dissipation, is arranged as early as possible convenient for the heat in cabinet Go out, ensures the speed of service of computer, prevent component from generating damage because of overheat.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of low-power consumption cloud computer cooling system proposed by the present invention;

Fig. 2 is a kind of structural circuit control block diagram of low-power consumption cloud computer cooling system proposed by the present invention;

Fig. 3 is a kind of internal structure schematic diagram of low-power consumption cloud computer cooling system proposed by the present invention.

In figure:1 cabinet, 2 orifice plates, 3 placement racks, 4 first rotating shafts, 5 first flabellums, 6 servo motors, 7 output shafts, 8 screw rods, 9 sliding blocks, 10 rotary electric machines, 11 second flabellums, 12 slide bars, 13 link blocks, 14 driving wheels, 15 transmission belts, 16 solution cavities, 17 masters Plate, 18 processors, 19 temperature sensors, 20 alarms, 21 controllers, 22 Air Filters, 23 heat-conducting layers, 24 cushion blocks, 25 dampings subtract Shake device.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

In the description of the present invention, it is to be understood that, term "upper", "lower", "front", "rear", "left", "right", "top", The orientation or positional relationship of the instructions such as "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, merely to just In the description present invention and simplify description, do not indicate or imply the indicated device or element must have a particular orientation, with Specific azimuth configuration and operation, therefore be not considered as limiting the invention.

Referring to Fig.1-3, the bottom of a kind of low-power consumption cloud computer cooling system, including cabinet 1, cabinet 1 is equipped with placement rack 3, placement rack 3 is connect by damping shock absorber 25 with 1 bottom of cabinet, during cabinet 1 radiates, will produce vibration, damping subtracts Shaking device 25 can be to cabinet 1 into row buffering, and cabinet 1 is interior to be divided into working chamber and heat dissipation cavity by orifice plate 2, works on chamber inner sidewall It is rotatably connected to first rotating shaft 4,4 one end of first rotating shaft is rotatably connected to the first flabellum 5, and first rotating shaft 4 is far from the first flabellum 5 One end is through work chamber inner sidewall and extends outwardly, and link block 13 is installed on the side wall of cabinet 1, is fixed on link block 13 Servo motor 6 is installed, 6 output end of servo motor is installed with output shaft 7, and output shaft 7 passes through transmission mechanism and first turn Axis 4 is sequentially connected, and transmission mechanism includes the driving wheel 14 being fixedly mounted in first rotating shaft 4 and output shaft 7, two driving wheels 14 Between be sequentially connected by transmission belt 15, realize the drive connection between output shaft 7 and first rotating shaft 4.

Screw rod 8 is rotatably connected in heat dissipation cavity, one end of output shaft 7 is fixedly connected through 1 side wall of cabinet and with screw rod 8, Screw thread is socketed with sliding block 9 on screw rod 8, and sliding block 9 is connect by position-limit mechanism with heat dissipation chamber inner sidewall, and position-limit mechanism includes fixed pacifies Slide bar 12 in heat dissipation cavity, sliding block 9 are equipped with activity mouth corresponding with slide bar 12, and slide bar 12 is slidably connected with sliding block 9, can be with Sliding block 9 is limited, sliding block 9 is avoided to rotate simultaneously with screw rod 8, the first cooling mechanism is installed on sliding block 9, first dissipates Heat engine structure includes the rotary electric machine 10 being fixedly mounted on sliding block 9, and the output end of rotary electric machine 10 is installed with the second flabellum 11, the second flabellum 11 accelerates the air circulation inside heat dissipation cavity, and realization radiates to mainboard 17 and processor 18, on orifice plate 2 Side is equipped with mainboard 17.

Mainboard 17 is connect by the second cooling mechanism with orifice plate 2, and the second cooling mechanism includes being fixedly mounted on orifice plate 2 Cushion block 24 is installed with solution cavity 16 on cushion block 24, and coolant liquid is equipped in solution cavity 16, and the top of solution cavity 16 is fixedly mounted There are heat-conducting layer 23, the upper end of heat-conducting layer 23 to be fixedly connected with mainboard 17, the second cooling mechanism can be directly to mainboard 17 and processing Device 18 radiates, when the heat dissipation of the second cooling mechanism is more than the heat that processor 18 and mainboard 17 generate, the second cooling mechanism The heat that can be directly generated to processor 18 and mainboard 17 adsorbs, and temperature sensor 19 will not trigger rotary electric machine 10 at this time It realizes and moves with servo motor 6, achieve the purpose that economize on resources, when the second cooling mechanism is less than processor 18 and the generation of mainboard 17 Heat when, servo motor 6 and rotary electric machine 10 realize rotation at this time, and the first flabellum 5 and the second flabellum 11 can be to mainboards 17 It radiating with processor 18, processor 18 is installed on mainboard 17, working chamber inner top is installed with temperature sensor 19, The top of cabinet 1 is equipped with alarm 20, and the output end of temperature sensor 19 is electrically connected with the input terminal of controller 21, controller 21 output end is electrically connected with the input terminal of servo motor 6, rotary electric machine 10 and alarm 20 respectively.

In the present invention, the heat that processor 18 and mainboard 17 generate absorbs heat to it by the realization of heat-conducting layer 23, heat-conducting layer 23 The heat of absorption, into inside solution cavity 16, internal coolant liquid realizes first step heat dissipation to heat spreader, when the second heat dissipation When mechanism heat dissipation is less than the heat that mainboard 17 and processor 18 generate, 1 internal temperature of cabinet rises at this time, and temperature sensor 19 is felt The temperature known, passes to controller 21, and instruction is delivered separately to alarm 20, servo motor 6 and rotary electric machine by controller 21 10, alarm 20 sends out alarm, reminds the temperature inside people's cabinet 1 excessively high, and rotary electric machine 10 drives the second flabellum 11 to occur Rotation, the second flabellum 11 accelerate the air circulation inside heat dissipation cavity, transmit air-flow by orifice plate 2, realize to mainboard 17 and processing Device 18 radiates, and servo motor 6 drives screw rod 8 to rotate, and screw rod 8 is realized with movable slider 9 and moved, and the second flabellum 11 can be driven to realize It is mobile, increase the area of heat dissipation, servo motor 6 drives driving wheel 14 and transmission belt 15 to rotate simultaneously, while the first flabellum 5 is realized Rotation, to inside working chamber mainboard 17 and processor 18 radiate.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Any one skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (7)

1. a kind of low-power consumption cloud computer cooling system, including cabinet (1), which is characterized in that pass through orifice plate in the cabinet (1) (2) it is divided into working chamber and heat dissipation cavity, first rotating shaft (4), the first rotating shaft is rotatably connected on the work chamber inner sidewall (4) one end is rotatably connected to the first flabellum (5), and the one end of the first rotating shaft (4) far from the first flabellum (5) is in working chamber Side wall simultaneously extends outwardly, and link block (13) is installed on the side wall of the cabinet (1), peace is fixed on the link block (13) Equipped with servo motor (6), servo motor (6) output end is installed with output shaft (7), and the output shaft (7) passes through biography Motivation structure is sequentially connected with first rotating shaft (4), and screw rod (8), one end of the output shaft (7) are rotatably connected in the heat dissipation cavity It is fixedly connected through cabinet (1) side wall and with screw rod (8), screw thread is socketed with sliding block (9), the sliding block (9) on the screw rod (8) It is connect with heat dissipation chamber inner sidewall by position-limit mechanism, the first cooling mechanism is installed, on the orifice plate (2) on the sliding block (9) Side is equipped with mainboard (17), and the mainboard (17) is connect with orifice plate (2) by the second cooling mechanism, is equipped on the mainboard (17) Processor (18), the working chamber inner top are installed with temperature sensor (19), report are equipped at the top of the cabinet (1) Alert device (20), the output end of the temperature sensor (19) are electrically connected with the input terminal of controller (21), the controller (21) Output end be electrically connected respectively with the input terminal of servo motor (6), rotary electric machine (10) and alarm (20).

2. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the transmission mechanism packet The driving wheel (14) being fixedly mounted in first rotating shaft (4) and output shaft (7) is included, passes through biography between two driving wheels (14) Dynamic band (15) is sequentially connected.

3. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the first heat dissipation machine Structure includes being fixedly mounted on rotary electric machine (10) on sliding block (9), and the output end of the rotary electric machine (10) is installed with the Two flabellums (11).

4. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the second heat dissipation machine Structure includes the cushion block (24) being fixedly mounted on orifice plate (2), and solution cavity (16) is installed on the cushion block (24), described molten It is equipped with coolant liquid in sap cavity (16), heat-conducting layer (23), the heat-conducting layer (23) are installed at the top of the solution cavity (16) Upper end be fixedly connected with mainboard (17).

5. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the cabinet (1) Bottom is equipped with placement rack (3), and the placement rack (3) is connect by damping shock absorber (25) with cabinet (1) bottom.

6. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the cabinet (1) Side wall is equipped with multiple ventholes, and the venthole built-in type is equipped with Air Filter (22).

7. a kind of low-power consumption cloud computer cooling system according to claim 1, which is characterized in that the position-limit mechanism packet The slide bar (12) being fixedly mounted in heat dissipation cavity is included, the sliding block (9) is equipped with movable mouth corresponding with slide bar (12), the slide bar (12) it is slidably connected with sliding block (9).