Electronic product integrated water-cooling radiator and application method thereofTechnical Field
The invention relates to the technical field of electronic products, in particular to an integrated water-cooling radiator of an electronic product and an application method thereof.
Background
The electronic technology is an emerging technology developed in western countries such as European America at the end of the nineteenth century and at the beginning of the twentieth century, and starts with the morse 1837 invention telegraph in America, the Alexander invention telephone in America 1875 and the fleming invention electron tube in UK physicist 1902. Electronic products are most rapidly developed in the twentieth century and are most widely applied, and become an important mark for the development of modern science and technology.
The electronic product can produce certain heat in the during operation, and the traditional condition is through the vent natural heat dissipation, but in order to pursue extremely radiating, still can adopt water-cooling heat dissipation in some electronic products, but traditional water-cooling water pump motor adopts hall element drive usually, because hall element's position requirement is too high, makes the motor operation unstable, can't let cooling medium stable circulation, and the water-cooling effect obtains unstable assurance.
Disclosure of Invention
The invention aims to solve the defects existing in the prior art, such as: some electronic products can also adopt water cooling for heat dissipation, but a traditional water cooling water pump motor is usually driven by a Hall element, and the motor is unstable to operate due to the fact that the position requirement of the Hall element is too high, and a cooling medium cannot be stably circulated, so that the water cooling effect is not stably ensured.
In order to achieve the above purpose, the present invention adopts the following technical scheme:
The utility model provides an electronic product integration water cooling radiator, includes hydroecium water pump housing and heat dissipation water row, water injection port on the hydroecium water pump housing, water injection port internal thread connection has water injection port seal screw, be equipped with the grafting power cord on the hydroecium water pump housing, threaded connection has a plurality of hydroecium water row seal screw in the hydroecium water pump housing, be equipped with the motor drive board in the hydroecium water pump housing, the motor drive board passes through circuit board set screw fixed connection in the hydroecium water pump housing, hydroecium water pump housing has the casing end cover through a plurality of upper cover set screw fixed mounting, hydroecium water pump housing bottom side is provided with the impeller, the impeller both sides all are provided with tetrafluoro gasket, impeller one side is through fixed baffle screw fixedly connected with baffle, be equipped with the sizing block on the heat dissipation water row, heat dissipation water row and hydroecium water pump housing pass through a plurality of screw fixation locking.
Preferably, a multi-polarity stator coil is arranged in a groove in the water chamber water pump shell, and the multi-polarity stator coil and the motor driving plate are in split type installation design.
Preferably, the water chamber and the water pump housing are respectively provided with a water inlet and a water outlet.
Preferably, a sealing gasket is arranged between the junction of the radiating water row and the edge of the water chamber water pump shell.
Preferably, the multi-polar stator coil is fixed in the water chamber water pump shell through epoxy resin encapsulation.
The invention also comprises a method for applying the integrated water-cooling radiator of the electronic product, which comprises the following steps:
a. And arranging the electronic product integrated water-cooling radiator in a water pump motor.
B. the water pump motor is driven through the multi-polarity stator coil, so that the water pump operates.
C. The water pump operates to drive the impeller to rotate, and the cooling medium is driven by the centrifugal force of the impeller to move continuously to form circulation.
D. the heat medium flows out from the water outlet of the water chamber and the water pump shell through the water pipe and into the cold head.
E. The cooling medium enters the water inlet of the water chamber water pump housing through the water pipe, the cooling medium reenters the radiating water to release heat, and finally, the cooling medium flows back into the water chamber water pump from the water inlet.
Preferably, the integrated water-cooling radiator is provided with a multi-polarity stator coil, and the multi-polarity stator coil and the impeller are multi-polarity modules.
Preferably, a water inlet on the water chamber water pump housing adopts vacuumizing and liquid adding to add cooling liquid in the production process.
Compared with the prior art, the invention has the beneficial effects that:
1. The water pump motor is driven by the multi-polarity stator coil, so that the water pump runs stably and efficiently, the lift of the water pump is 1.5M, the flow is 1.5L/min, and the heat dissipation efficiency is improved;
2. The heat medium flows out from the water outlet of the water chamber water pump shell through the water pipe into the cold head, and after absorbing heat by the cold head, the heat medium enters the water inlet of the water chamber water pump shell through the water pipe, and then flows back into the water chamber water pump from the water inlet after entering the heat dissipation water drain, so that the heat dissipation effect is achieved;
3. Through setting up the water filling port, be convenient for adopt the evacuation liquid feeding when adding cooling liquid in the production process, great improvement production efficiency, hydroecium water pump water row integrated design, hydroecium water pump casing not only is the hydroecium of water row, is the driving system of whole water-cooling external member again.
Drawings
Fig. 1 is a schematic diagram of a split three-dimensional structure of parts of an integrated water-cooled radiator for electronic products according to the present invention;
In the figure: 1-upper cover fixing screws, 2-circuit board fixing screws, 3-motor driving plates, 4-water chamber water row sealing screws, 5-water injection port sealing screws, 6-water chamber water pump shell, 7-impellers, 8-sealing gaskets, 9-sizing blocks, 10-heat dissipation water rows, 11-shell end covers, 12-multi-polarity stator coils, 13-plug power lines, 14-tetrafluoro gaskets, 15-baffles and 16-fixed baffle screws.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.
In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.
Referring to fig. 1, an integrated water cooling radiator for electronic products comprises a water chamber water pump housing 6 and a radiating water drain 10, wherein a water filling port is arranged on the water chamber water pump housing 6, a water filling port sealing screw 5 is connected in an internal thread manner to the water filling port, the added water filling port is convenient for adopting vacuumizing and liquid filling when cooling liquid is added in the production process, the production efficiency is greatly improved, an inserting power line 13 is arranged on the water chamber water pump housing 6, a plurality of water chamber water drain sealing screws 4 are connected in the water chamber water pump housing 6 in an internal thread manner, a water pump is arranged in the water chamber water pump housing 6 as driving force, a motor driving plate 3 is arranged in the water chamber water pump housing 6, the motor driving plate 3 is fixedly connected in the water chamber water pump housing 6 through a circuit board fixing screw 2, a multi-polarity stator coil 12 is arranged in a groove in the water chamber water pump housing 6, a water pump motor is driven through the multi-polarity stator coil 12, the water pump is enabled to operate stably and efficiently, the multi-polarity stator coil 12 and the motor driving plate 3 are in a split type installation design, the pump body thickness can be reduced, the multi-polarity stator coil 12 is fixed in the water chamber 6 through an epoxy resin package, and the epoxy resin has good dielectric property, and plays a role of insulation.
The hydroecium water pump housing 6 is provided with casing end cover 11 through a plurality of upper cover fixed screws 1 fixed mounting, hydroecium water pump housing 6 downside is provided with impeller 7, impeller 7 drives through the water pump motor, be equipped with water inlet and delivery port on the hydroecium water pump housing 6 respectively, coolant is constantly circulated under the drive of the centrifugal force of impeller 7, the heat medium gets into the cold head from the delivery port through the water pipe from the inside hydroecium water pump housing 6, will have thermal coolant to get into the water inlet of hydroecium water pump housing 6 through the water pipe after the heat absorption of cold head and flow back into the hydroecium water pump inside with heat release from the water inlet water pump at the entering cooling water row 10, reach the radiating effect.
The impeller 7 both sides all are provided with tetrafluoro gasket 14, play the lubrication effect, and impeller 7 one side is equipped with sizing block 9 through fixed baffle screw 16 fixedly connected with baffle 15 on the heat dissipation water row 10, and heat dissipation water row 10 and hydroecium water pump housing 6 are through a plurality of screw fixation locking, are provided with sealed pad 8 between heat dissipation water row 10 and hydroecium water pump housing 6 marginal junction, guarantee sealed effect through sealed pad 8, prevent to appear leaking liquid.
The water chamber water pump housing 6, the radiating water row 10 and the impeller 7 are integrally assembled to form the water chamber water pump housing 6, and the water chamber water pump housing 6 is a power system of the whole integrated water cooling radiator and cannot normally operate after being separated.
The water chamber water pump housing 6 is internally connected with a plurality of water chamber water discharge sealing screws 4 in a threaded manner, and is locked and sealed through the plurality of sealing screws 4.
The multi-polar stator coil 12 and the impeller 7 are multi-polar modules.
The method for applying the integrated water-cooling radiator of the electronic product comprises the following steps:
a. And arranging the electronic product integrated water-cooling radiator in a water pump motor.
B. The water pump motor is driven by the multi-polar stator coil 12 so that the water pump operates.
C. The water pump operates to drive the impeller 7 to rotate, and the cooling medium is driven by the centrifugal force of the impeller 7 to move continuously to form circulation.
D. The heat medium flows out from the water chamber water pump housing 6 through the water pipe into the cold head from the water outlet.
E. The cooling medium enters the water inlet of the water chamber water pump housing 6 through the water pipe, the cooling medium reenters the radiating water drain 10 to release heat, and finally, the cooling medium flows back into the water chamber water pump from the water inlet.
The multi-polarity stator coil 12 is arranged on the integrated water-cooling radiator, and the multi-polarity stator coil 12 and the impeller 7 are multi-polarity modules.
The water inlet on the water chamber water pump housing 6 adopts vacuumizing and liquid adding to add cooling liquid in the production process.
The cooling medium continuously circulates under the drive of the centrifugal force of the impeller, the heat medium enters the cold head from the water outlet of the water chamber water pump shell through the water pipe, the cooling medium with heat enters the water inlet of the water chamber water pump shell through the water pipe after absorbing heat of the cold head, and the heat is released after entering the heat dissipating water row, and flows out from the water outlet of the shell.
When the device is used by a user, the water pump motor is driven by the multi-polarity stator coil 12, so that the water pump operates stably and efficiently, the lift of the water pump is 1.5M, the flow is 1.5L/min, the heat dissipation efficiency is improved, the cooling medium continuously circulates under the drive of the centrifugal force of the impeller 7 through the rotation of the impeller 7, the heat medium flows out from the water outlet of the water chamber water pump housing 6 through the water pipe into the cold head, and after heat absorption of the cold head, the heat medium enters the water inlet of the water chamber water pump housing 6 through the water pipe, and then flows back to the water chamber from the water inlet through the heat dissipation water drain 10, so that the heat dissipation effect is achieved.
The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.