CN112105234A - Electronic radiator device capable of radiating heat and cooling water according to temperature - Google Patents

Abstract

The invention discloses an electronic radiator device capable of radiating heat and cooling water according to temperature, which comprises a radiating box, a heat dissipation cavity with an upward opening is arranged in the heat dissipation box, a driving cavity is arranged above the heat dissipation cavity, two lifting shafts are rotationally connected with the lower wall of the heat dissipation cavity, a screw rod is fixedly wound on the outer peripheral surface of the lifting shaft, a thread block is connected on the outer peripheral surface of the screw rod in a threaded manner, the end of the thread block far away from each other is fixedly connected with the auxiliary block, the invention can add a sensor for detecting the temperature into the electronic radiator, the number of the heat radiating fins and the rotating speed of the fan are controlled in real time by detecting the temperature of the electronic device in the using process, when the electronic device is overloaded due to overhigh temperature in the working process, the water cooling is added to cool the ambient temperature of the electronic device so as to protect the electronic device from being damaged, improve the working efficiency of the electronic device and prevent the electronic device from being scrapped.

Description

Electronic radiator device capable of radiating heat and cooling water according to temperature

Technical Field

The invention relates to the related field of electronic radiators, in particular to an electronic radiator device capable of radiating heat and cooling water according to temperature.

Background

In a general electronic radiator, a plurality of independent radiating fins are generally used for naturally cooling an electronic device in the working process, so that the electronic device is burnt and scrapped due to overhigh temperature in the using process, the use rate of the electronic device is low, the resource of the electronic device is wasted, and the electronic device is burnt and possibly causes disasters such as fire disasters if people find that the electronic device is possibly burnt.

Disclosure of Invention

In order to solve the problems, the electronic radiator device which radiates heat and cools water according to temperature is designed, and comprises a heat radiation box, a heat radiation cavity with an upward opening is arranged in the heat radiation box, a driving cavity is arranged above the heat radiation cavity, two lifting shafts are connected in the lower wall of the heat radiation cavity in a rotating mode, a screw rod is wound and fixedly connected on the outer peripheral surface of each lifting shaft, threaded blocks are connected on the outer peripheral surface of the screw rod in a threaded mode, auxiliary blocks are fixedly connected at the ends, far away from each other, of the threaded blocks, thirteen auxiliary radiating fins are fixedly connected at the ends, far away from each other, of the auxiliary blocks, a contact spring is fixedly connected at the upper end of each auxiliary block, an ejector rod is fixedly connected at the upper end of the contact spring, a top block is fixedly connected at the upper end of the, the outer peripheral surface of the extension shaft is rotationally connected with a sliding cavity, the sliding cavity is symmetrically distributed and arranged in a left-right mode by taking the central line of the heat dissipation cavity as a symmetric center, the extension shaft extends upwards into the driving cavity, the outer peripheral surface of the extension shaft is fixedly connected with a large belt pulley, the lower wall of the driving cavity is fixedly connected with three extension springs, the upper ends of the extension springs are fixedly connected with jacking blocks, inner bearings are rotationally connected in the jacking blocks, the inner peripheral surfaces of the inner bearings are fixedly connected with embedded shafts, the outer peripheral surfaces of the embedded shafts are fixedly connected with small belt pulleys, extension belts are rotationally connected between the small belt pulleys and the large belt pulley, the upper ends of the embedded shafts are fixedly connected with meshing bevel gears, the driving cavity is mutually far away from the side wall and is rotationally connected with meshing shafts, the outer peripheral surfaces of, the end, far away from each other, of the meshing bevel gear is meshed and connected with the lower end of the fixed bevel gear, the end, close to each other, of the meshing shaft is fixedly connected with a sliding block, the lower end of the sliding block is fixedly connected with a cooling liquid box, the end, far away from each other, of the sliding block is fixedly connected with a vertical stop block, the lower end of the cooling liquid box is fixedly connected with a nozzle, a nozzle with a downward opening is arranged in the nozzle, a lower stop block is fixedly connected to the lower wall of the driving cavity, an upper stop block is fixedly connected to the upper wall of the driving cavity, a buckle is fixedly connected between the upper stop block and the lower stop block, the end, far away from each other, of the buckle and the end, close to each other, of the sliding block are slidably connected with a sliding rod, a reset, the screw rod rotates to drive the thread block, the auxiliary block and the auxiliary radiating fin to move upwards, the auxiliary block drives the contact spring, the ejector rod and the ejector block to move upwards, when the ejector block moves upwards and enters the driving cavity, the ejector block is jacked upwards when the ejector block contacts the ejector block, the extension spring is further extended, the inner bearing, the embedded shaft, the small belt pulley and the meshing bevel gear are further driven to move upwards, the lifting shaft rotates to drive the extension shaft, the large belt pulley and the extension belt to rotate, the extension belt drives the small belt pulley, the embedded shaft and the inner bearing to rotate, and when the meshing bevel gear moves upwards and is meshed with the fixed bevel gear, the fixed bevel gear and the meshing shaft are further driven to rotate, and then drive the sliding block is close to the removal each other, and then drives the coolant liquid case vertical dog, the spout is close to the removal each other, the sliding block then is close to each other on the slide bar outer peripheral face and slides, the sliding block is close to one end and then compresses each other reset spring, starts this moment the coolant liquid case, and then with coolant liquid in the coolant liquid case fills in the spout, the spout with coolant liquid fill in the heat dissipation intracavity, and then right the heat dissipation chamber is cooled down and is handled.

Preferably, a driving motor is fixedly connected to the lower wall of the heat dissipation cavity, a lower driving shaft is connected to the upper end of the driving motor in a power mode, a driving belt pulley is fixedly connected to the outer peripheral surface of the lower driving shaft, a lower side belt pulley is fixedly connected to the outer peripheral surface of the lower side of the lifting shaft, a driving belt is rotatably connected between the lower side belt pulley and the driving belt pulley, an upper rotating shaft is rotatably connected to the upper wall of the heat dissipation cavity, an upper middle belt pulley is fixedly connected to the outer peripheral surface of the upper rotating shaft, a side belt pulley is fixedly connected to the outer peripheral surface of the upper side of the lifting shaft, a transmission belt is rotatably connected between the side belt pulley and the upper middle belt pulley, and when the temperature in the heat dissipation cavity is too high and needs to be subjected to auxiliary cooling, the, The lower side belt pulley, the lifting shaft, the side belt pulley, the transmission belt, the upper rotating shaft and the upper side middle belt pulley rotate, and then the cooling treatment operation of the next step is carried out in the heat dissipation cavity.

Preferably, the lower side fan blade fixer is fixedly connected to the outer peripheral surface of the lower driving shaft on the lower side, four lower side fan blades are fixedly connected to the outer peripheral surface of the lower side fan blade fixer, the upper end of the lower driving shaft is rotatably connected with a lower bearing, the outer peripheral surface of the lower bearing is rotatably connected with a heat dissipation fixer, thirteen active heat dissipation fins are fixedly connected to the upper end of the heat dissipation fixer, the outer peripheral surface of the upper rotating shaft is fixedly connected to the inner peripheral surface of the lower side fan blade fixer on the upper side, the lower end of the upper rotating shaft is rotatably connected to the lower bearing on the upper side, the outer peripheral surface of the lower bearing on the upper side is rotatably connected to the upper end of the heat dissipation fixer on the upper side, an electronic device is in contact connection with the front wall and the rear wall of the heat dissipation cavity, the lower fan blades are used for cooling the heat dissipation fixer and the active cooling fins, and the active cooling fins are used for cooling and cooling the electronic device in the heat dissipation cavity.

Preferably, the upper side of the heat dissipation cavity is provided with two through cavities, the two through cavities are arranged in a bilateral symmetry mode by taking the central line of the heat dissipation cavity as a symmetry center, the through cavities are communicated with the driving cavity and the heat dissipation cavity, the upper wall of the heat dissipation cavity is provided with two closed cavities, the two closed cavities are arranged in a bilateral symmetry mode by taking the central line of the heat dissipation cavity as a symmetry center, the closed cavities are close to one another and are in rotating connection with a torsion shaft, the inner peripheral surface of the torsion shaft is fixedly connected with a torsion spring, the front ends of the torsion spring are fixedly connected with swing auxiliary rods, the swing auxiliary rods are far away from one end of each other and are fixedly connected with an extrusion spring, the extrusion springs are far away from one end of each other and are in sliding connection with the closed cavity and far away from one side wall, when cooling liquid in the cooling liquid tank, through it is right to run through the chamber the electron device sprays the cooling and handles, and works as the kicking block is when the rebound, works as the kicking block gets into during the closed intracavity, the kicking block upper end will swing mobile jib jack-up, and then compress the extrusion spring, and then drive swing subsidiary pole swing upwards, and then drive the torsional spring the axis of torsion rotates, the kicking block upper end with the kicking block is close to one side lower extreme contact each other, and then will the kicking block jack-up, and then carry out transmission on next step.

The invention has the beneficial effects that: the electronic radiator can be added with a sensor for detecting the temperature, the number of radiating fins and the rotating speed of the fan are controlled in real time by detecting the temperature of the electronic device in the using process, and when the electronic device is overloaded due to overhigh temperature in the working process, the temperature around the electronic device is cooled by adding water cooling so as to protect the electronic device from being damaged and improve the working efficiency of the electronic device and prevent the electronic device from being scrapped.

Drawings

In order to more clearly illustrate the embodiments of the 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 invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of an overall structure of an electronic heat sink device for dissipating heat and cooling water according to temperature according to the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

FIG. 4 is an enlarged schematic view of C in FIG. 1;

fig. 5 is a schematic diagram of the structure D-D in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an electronic radiator device capable of dissipating heat and water-cooling according to temperature, which comprises a heat dissipation box 11, wherein a heat dissipation cavity 12 with an upward opening is arranged in the heat dissipation box 11, a driving cavity 14 is arranged above the heat dissipation cavity 12, two lifting shafts 49 are rotatably connected with the lower wall of the heat dissipation cavity 12, a screw rod 50 is fixedly wound on the outer peripheral surface of each lifting shaft 49, a thread block 53 is connected with the outer peripheral surface of each screw rod 50 in a threaded manner, an auxiliary block 102 is fixedly connected with one end of each thread block 53 far away from each other, thirteen auxiliary radiating fins 45 are fixedly connected with one end of each auxiliary block 102 far away from each other, a contact spring 46 is fixedly connected with the upper end of each contact spring 46, an ejector rod 48 is fixedly connected with the upper end of each ejector rod 48, an ejector block 47 is fixedly connected with an extension shaft 18 in an upward extending manner by the lifting, the sliding cavities 63 are distributed symmetrically left and right by taking the central line of the heat dissipation cavity 12 as a symmetric center, the extension shaft 18 extends upwards into the driving cavity 14, the outer peripheral surface of the extension shaft 18 is fixedly connected with a large belt pulley 21, the lower wall of the driving cavity 14 is fixedly connected with three extension springs 43, the upper ends of the extension springs 43 are fixedly connected with a jacking block 19, the jacking block 19 is rotatably connected with an inner bearing 26, the inner peripheral surface of the inner bearing 26 is fixedly connected with an embedded shaft 27, the outer peripheral surface of the embedded shaft 27 is fixedly connected with a small belt pulley 20, a stretching belt 22 is rotatably connected between the small belt pulley 20 and the large belt pulley 21, the upper end of the embedded shaft 27 is fixedly connected with an engaging bevel gear 23, the driving cavity 14 is mutually far away from the side wall and is rotatably connected with an engaging shaft 24, and the outer peripheral surface of, when the engagement bevel gear 23 moves upwards, one end of the engagement bevel gear 23 away from each other is engaged with the lower end of the fixed bevel gear 25, one end of the engagement shaft 24 close to each other is fixedly connected with a sliding block 31, the lower end of the sliding block 31 is fixedly connected with a cooling liquid tank 32, one end of the sliding block 31 away from each other is fixedly connected with a vertical stop 28, the lower end of the cooling liquid tank 32 is fixedly connected with a nozzle 40, a downward-opening spray pipe 33 is arranged in the nozzle 40, a lower stop 17 is fixedly connected to the lower wall of the driving cavity 14, an upper stop 16 is fixedly connected to the upper wall of the driving cavity 14, a buckle 15 is fixedly connected between the upper stop 16 and the lower stop 17, one end of the buckle 15 away from each other and one end of the sliding block 31 close to each other are slidably connected with a sliding rod 30, when the temperature in the heat dissipation cavity 12 is too high, the lifting shaft 49 rotates at this time to drive the screw rod 50 to rotate, the screw rod 50 rotates to drive the screw block 53, the auxiliary block 102 and the auxiliary heat dissipation fins 45 to move upwards, the auxiliary block 102 drives the contact spring 46, the ejector rod 48 and the ejector block 47 to move upwards, when the ejector block 47 moves upwards into the driving cavity 14, the ejector block 47 contacts the ejector block 19 to eject the ejector block 19 upwards to stretch the extension spring 43, thereby driving the inner bearing 26, the embedded shaft 27, the small belt pulley 20 and the engaging bevel gear 23 to move upwards, and the lifting shaft 49 rotates to drive the extension shaft 18, the large belt pulley 21 and the extension belt 22 to rotate, so that the extension belt 22 drives the small belt pulley 20, The embedded shaft 27 and the inner bearing 26 rotate, when the engagement bevel gear 23 moves upwards to be engaged with the fixed bevel gear 25, the fixed bevel gear 25 and the engagement shaft 24 are driven to rotate, the sliding block 31 is driven to move close to each other, the cooling liquid tank 32, the vertical stop 28 and the nozzle 40 are driven to move close to each other, the sliding block 31 further slides close to each other on the outer peripheral surface of the sliding rod 30, the sliding block 31 is close to one end to compress the return spring 29, the cooling liquid tank 32 is started at the moment, the cooling liquid in the cooling liquid tank 32 is filled into the spray pipe 33, and the spray pipe 33 fills the cooling liquid into the heat dissipation cavity 12, so that the heat dissipation cavity 12 is cooled.

Beneficially, a driving motor 13 is fixedly connected to a lower wall of the heat dissipation chamber 12, a lower driving shaft 55 is dynamically connected to an upper end of the driving motor 13, a driving pulley 61 is fixedly connected to an outer peripheral surface of the lower driving shaft 55, a lower side pulley 51 is fixedly connected to an outer peripheral surface of a lower side of the lifting shaft 49, a driving belt 52 is rotatably connected between the lower side pulley 51 and the driving pulley 61, an upper rotating shaft 100 is rotatably connected to an upper wall of the heat dissipation chamber 12, an upper middle pulley 101 is fixedly connected to an outer peripheral surface of the upper rotating shaft 100, a side pulley 44 is fixedly connected to an outer peripheral surface of an upper side of the lifting shaft 49, a driving belt 38 is rotatably connected between the side pulley 44 and the upper middle pulley 101, and when the temperature in the heat dissipation chamber 12 is too high and needs to be cooled in an auxiliary manner, the driving motor 13 is started, The driving pulley 61, the driving belt 52, the lower side pulley 51, the lifting shaft 49, the side pulley 44, the transmission belt 38, the upper rotating shaft 100 and the upper side intermediate pulley 101 rotate, and then the cooling treatment operation of the next step is performed in the heat dissipation chamber 12.

Beneficially, a lower fan blade holder 56 is fixedly connected to the outer peripheral surface of the lower driving shaft 55 at the lower side, four lower fan blades 59 are fixedly connected to the outer peripheral surface of the lower fan blade holder 56, a lower bearing 57 is rotatably connected to the upper end of the lower driving shaft 55, a heat dissipation holder 58 is rotatably connected to the outer peripheral surface of the lower bearing 57, thirteen active heat dissipation fins 62 are fixedly connected to the upper end of the heat dissipation holder 58, the outer peripheral surface of the upper rotating shaft 100 is fixedly connected to the inner peripheral surface of the lower fan blade holder 56 at the upper side, the lower end of the upper rotating shaft 100 is rotatably connected to the lower bearing 57 at the upper side, the outer peripheral surface of the lower bearing 57 at the upper side is rotatably connected to the upper end of the heat dissipation holder 58 at the upper side, an electronic device 54 is connected to the front and rear walls of the heat dissipation chamber 12 in, The lower side fan blades 59 and the lower bearing 57 rotate, the lower side fan blades 59 are used for cooling the heat dissipation fixing device 58 and the active heat dissipation fins 62, and the active heat dissipation fins 62 are used for cooling and dissipating heat of the electronic device 54 in the heat dissipation cavity 12.

Beneficially, the upper side of the heat dissipation cavity 12 is provided with two through cavities 36, the two through cavities 36 are arranged in a bilateral symmetry manner with the center line of the heat dissipation cavity 12 as the symmetry center, the through cavities 36 are communicated with the driving cavity 14 and the heat dissipation cavity 12, the upper wall of the heat dissipation cavity 12 is provided with two closed cavities 41, the two closed cavities 41 are arranged in a bilateral symmetry manner with the center line of the heat dissipation cavity 12 as the symmetry center, the closed cavities 41 are close to each other and are rotationally connected with a torsion shaft 34, the inner peripheral surface of the torsion shaft 34 is fixedly connected with a torsion spring 35, the front end of the torsion spring 35 is fixedly connected with a swing auxiliary rod 37, the swing auxiliary rod 37 is far away from each other and is fixedly connected with an extrusion spring 39, the extrusion spring 39 is far away from each other and is fixedly connected with a swing main rod 42, the swing main rod 42 is far away, when the coolant liquid in the coolant liquid case 32 fills in the spray tube 33, through it is right to pass through the chamber 36 the electronic device 54 sprays the cooling and handles, and when the kicking block 47 is when the rebound, when the kicking block 47 gets into in the closed chamber 41, the kicking block 47 upper end will swing mobile jib 42 jack-up, and then compress extrusion spring 39, and then drive swing subsidiary pole 37 is upwards swung, and then drive the torsional spring 35, the axis of torsion 34 rotates, the kicking block 47 upper end with the contact of the mutual lower extreme that is close to one side of kicking block 19, and then will the kicking block 19 jacks up, and then carries out transmission on next step.

The following describes in detail the usage steps of an electronic heat sink device for dissipating heat and water cooling according to temperature with reference to fig. 1 to 5:

initially, the driving motor 13 and the cooling liquid tank 32 are in a closed state, the auxiliary heat sink 45, the side belt pulley 44, the contact spring 46, the ejector rod 48, the ejector block 47 and the thread block 53 are located at positions away from each other below the heat dissipation chamber 12, the fixed bevel gear 25 is disengaged from the engagement bevel gear 23, the sliding block 31, the cooling liquid tank 32, the vertical stopper 28 and the nozzle 40 are located at positions away from each other in the driving chamber 14, the return spring 29 is in an extended state, and the swing main rod 42, the extrusion spring 39 and the swing sub-rod 37 are in a closed state.

During the use, when the temperature in the heat dissipation chamber 12 is too high and needs to be assisted to cool down, the driving motor 13 is started at this moment, and then the driving shaft 55, the driving belt pulley 61, the driving belt 52, the lower side belt pulley 51, the lifting shaft 49, the side belt pulley 44, the driving belt 38, the upper rotating shaft 100 and the upper side middle belt pulley 101 are driven to rotate, and then the cooling processing operation of the next step is carried out in the heat dissipation chamber 12.

When the temperature in the heat dissipation chamber 12 is too high, the lifting shaft 49 rotates to drive the screw rod 50 to rotate, the screw rod 50 rotates to drive the thread block 53, the side belt pulley 44 and the auxiliary heat dissipation sheet 45 to move upwards, the side belt pulley 44 drives the contact spring 46, the ejector rod 48 and the ejector block 47 to move upwards, the ejector block 47 moves upwards to enter the driving chamber 14, the ejector block 19 is jacked upwards when the ejector block 47 contacts the jacking block 19, the extension spring 43 is further extended, the inner bearing 26, the embedded shaft 27, the small belt pulley 20 and the engagement bevel gear 23 are further driven to move upwards, the lifting shaft 49 rotates to drive the extension shaft 18, the large belt pulley 21 and the extension belt 22 to rotate, the extension belt 22 drives the small belt pulley 20, the shaft 27 and the inner bearing 26 to rotate, and when the engagement bevel gear 23 moves upwards to engage with the fixed bevel gear 25, the fixed bevel gear 25 is further driven at the moment, The meshing shaft 24 rotates to drive the sliding block 31 to move close to each other, and further drive the cooling liquid tank 32, the vertical stop 28 and the nozzle 40 to move close to each other, the sliding block 31 further slides close to each other on the outer peripheral surface of the sliding rod 30, the sliding block 31 is close to one end to compress the return spring 29, at the moment, the cooling liquid tank 32 is started, further cooling liquid in the cooling liquid tank 32 is filled into the spray pipe 33, the spray pipe 33 fills the cooling liquid into the heat dissipation cavity 12, and further the heat dissipation cavity 12 is cooled.

When the cooling liquid in the cooling liquid tank 32 is filled in the spray pipe 33, the electronic device 54 is sprayed and cooled through the through cavity 36, when the top block 47 moves upwards, when the top block 47 enters the closed cavity 41, the upper end of the top block 47 jacks up the swing main rod 42, thereby compressing the compression spring 39 and further driving the swing auxiliary rod 37 to swing upwards and further driving the torsion spring 35 and the twisting shaft 34 to rotate, the upper end of the jacking block 47 is contacted with the lower end of the jacking block 19 at the side close to each other, and the jack-up blocks 19 are jacked up to proceed with the next step of transmission, and when the upper rotating shaft 100 and the lower driving shaft 55 rotate, and then the lower fan blade holder 56, the lower fan blade 59 and the lower bearing 57 are driven to rotate, the lower fan blade 59 cools and dissipates the heat of the heat dissipation holder 58 and the active heat dissipation fin 62, and the active heat dissipation fin 62 cools and dissipates the heat of the electronic device 54 in the heat dissipation chamber 12.

The invention has the beneficial effects that: the invention can add a sensor for detecting the temperature into the electronic radiator, controls the quantity of radiating fins and the rotating speed of the fan in real time by detecting the temperature of the electronic device in the using process, and cools the ambient temperature of the electronic device by adding water cooling when the electronic device is overloaded due to overhigh temperature in the working process so as to protect the electronic device from being damaged and improve the working efficiency of the electronic device to prevent the electronic device from being scrapped.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a according to water-cooled electronic heat sink device of temperature heat dissipation, includes the heat dissipation case, its characterized in that: a heat dissipation cavity with an upward opening is arranged in the heat dissipation box, a driving cavity is arranged above the heat dissipation cavity, two lifting shafts are rotatably connected to the lower wall of the heat dissipation cavity, a screw rod is fixedly wound on the outer peripheral surface of each lifting shaft, a threaded block is in threaded connection with the outer peripheral surface of each screw rod, an auxiliary block is fixedly connected to one end of each threaded block, thirteen auxiliary radiating fins are fixedly connected to one end of each auxiliary block, which is far away from each other, a contact spring is fixedly connected to the upper end of each auxiliary block, an ejector rod is fixedly connected to the upper end of each contact spring, a top block is fixedly connected to the upper end of each ejector rod, an extension shaft is fixedly connected to the lifting shaft in an upward extending manner, a sliding cavity is rotatably connected to the outer peripheral surface of the extension shaft, the sliding cavities are symmetrically, the outer peripheral surface of the extension shaft is fixedly connected with a large belt pulley, the lower wall of the driving cavity is fixedly connected with three extension springs, the upper ends of the extension springs are fixedly connected with a jacking block, the jacking block is internally and rotatably connected with an inner bearing, the inner peripheral surface of the inner bearing is fixedly connected with an embedded shaft, the outer peripheral surface of the embedded shaft is fixedly connected with a small belt pulley, a stretching belt is rotatably connected between the small belt pulley and the large belt pulley, the upper end of the embedded shaft is fixedly connected with a meshing bevel gear, the driving cavity is mutually far away from the side wall and rotatably connected with a meshing shaft, the outer peripheral surface of the meshing shaft is fixedly connected with a fixed bevel gear, when the meshing bevel gear moves upwards, the end, far away from each other, of the meshing bevel gear is meshed with the lower end of the fixed bevel gear, the sliding block is mutually away from one end fixedly connected with vertical stop dog, coolant box lower extreme fixedly connected with spout, be equipped with the downward spray tube of opening in the spout, fixedly connected with lower stop dog on the drive chamber lower wall, dog on the drive chamber upper wall fixedly connected with, go up the dog with fixedly connected with buckle between the lower stop dog, the buckle keep away from one end each other with the sliding block is close to one end sliding connection has the slide bar each other, twine fixedly connected with reset spring on the slide bar outer peripheral face.

2. The electronic heat sink device as claimed in claim 1, wherein: fixedly connected with driving motor on the heat dissipation chamber lower wall, driving motor upper end power is connected with down the drive shaft, fixedly connected with drive pulley on the drive shaft outer peripheral face down, fixedly connected with downside belt pulley on the lifting axle downside outer peripheral face, downside belt pulley with it is connected with drive belt to rotate between the drive pulley, heat dissipation chamber upper wall internal rotation is connected with the pivot, fixedly connected with upside middle belt pulley on the pivot outer peripheral face of going up, lift fixedly connected with side belt pulley on the axle upside outer peripheral face, the side belt pulley with it is connected with driving belt to rotate between the upside middle belt pulley.

3. The electronic heat sink device as claimed in claim 2, wherein: the downside fixedly connected with downside flabellum fixer on the lower drive shaft outer peripheral face, four downside flabellums of fixedly connected with on the downside flabellum fixer outer peripheral face, the drive shaft upper end is rotated and is connected with down the bearing, it is connected with the heat dissipation fixer to rotate on the bearing outer peripheral face down, heat dissipation fixer upper end fixedly connected with thirteen initiative fin, fixed connection is in the upside on the upper shaft outer peripheral face downside flabellum fixer inner peripheral face, the upper shaft lower extreme rotates to be connected in the upside down the bearing, the upside down the bearing outer peripheral face rotate to be connected in the upside heat dissipation fixer upper end, the contact is connected with electron device on the wall before the heat dissipation chamber.

4. The electronic heat sink device as claimed in claim 1, wherein: the heat dissipation chamber upside is equipped with two and runs through the chamber, two run through the chamber with heat dissipation chamber central line distributes the setting for symmetry center bilateral symmetry, run through the chamber intercommunication the drive chamber with the heat dissipation chamber, heat dissipation chamber upper wall is equipped with two closed chambeies, two closed chamber with heat dissipation chamber central line distributes the setting for symmetry center bilateral symmetry, closed chamber is close to a lateral wall internal rotation each other and is connected with the axis of torsion, axis of torsion inner peripheral surface fixedly connected with torsional spring, torsional spring front end fixedly connected with swing auxiliary rod, swing auxiliary rod keeps away from one end fixedly connected with extrusion spring each other, the extrusion spring keeps away from one end fixedly connected with swing mobile jib each other, swing mobile jib keep away from one end sliding connection each other in closed chamber keeps away from on the lateral wall each other.

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