CN213844042U - Radiator based on wireless reverse power supply - Google Patents

Abstract

The utility model discloses a radiator based on wireless reverse power supply, including leading the temperature cushion, lead temperature cushion upper portion and be equipped with wireless receiving coil embedding mounting groove that charges, install wireless receiving coil that charges in the wireless receiving coil embedding mounting groove that charges, wireless receiving coil upper portion of charging installs wireless receiving coil magnetism isolating sheet that charges additional, and wireless receiving coil magnetism isolating sheet upper portion of charging is equipped with down leads temperature sheetmetal assembly. Compared with the prior art, the utility model the advantage lie in: the power supply mode of a rechargeable battery and an external wire inside a portable radiator arranged outside the mobile phone and the tablet computer is cancelled, and the power supply mode of the mobile phone and the tablet computer is used instead for supplying power for the portable radiator by using a wireless reverse charging technology arranged inside the mobile phone and the tablet computer, so that the constraint of a user is reduced, the portability is improved, the real wireless property is realized, the practicability is high, and the popularization is convenient.

Description

Radiator based on wireless reverse power supply

Technical Field

The utility model relates to an electronic product heat abstractor specifically indicates a radiator based on wireless reverse power supply.

Background

At present, the updating speed of mobile phones and tablet computers is changing day by day, the intellectualization of mobile phones and tablet computers is higher and higher, the functions are more and more, in order to meet the increasing use requirements of people, faster processors, larger display screens, faster network support, higher efficient charging speed and the like. At present, the heat dissipation condition of a mobile phone and a tablet computer is not effectively improved all the time when the mobile phone and the tablet computer are used seriously or for a long time, the heat generated by the mobile phone and the tablet computer is generated by high-energy-consumption parts such as a mainboard, a processor and a display screen of the mobile phone and the tablet computer, the heat accumulated in the mobile phone and the tablet computer cannot be dissipated as soon as possible along with the lapse of the using time, the mobile phone and the tablet computer become hotter and hotter, the processing speed of the mobile phone and the tablet computer is influenced when the mobile phone and the tablet computer are seriously heated, the mobile phone and the tablet computer are slow to run and are stuck, partial hardware damage can be caused to the local circuit board of the mobile phone and the tablet computer, the screen is yellow, and the like, if the heating temperature is not controlled, the internal battery can explode, the personal safety hazard can be caused to a user, and high maintenance cost can be paid. Although there are many kinds of heat sink solutions on the market, the heat sink can be used only by supplying energy through the conventional rechargeable battery or external power line, and the frequent charging and plugging of the power line cause inconvenience and restriction to users, which is contrary to the portability of mobile phones and tablet computers, and thus a more ingenious, portable, convenient and practical heat sink solution is required.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that current heat abstractor leads to the not good and inconvenient equipment of radiating effect in the in-service use because of not enough in its structural design, and is with high costs and then increased use cost, unsatisfied present needs.

In order to solve the technical problem, the utility model provides a technical scheme does: a radiator based on wireless reverse power supply comprises a temperature-conducting rubber cushion, wherein a wireless charging receiving coil embedding installation groove is formed in the upper portion of the temperature-conducting rubber cushion, a wireless charging receiving coil is installed in the wireless charging receiving coil embedding installation groove, a wireless charging receiving coil magnetism isolating sheet is additionally installed on the upper portion of the wireless charging receiving coil, a lower temperature-conducting metal sheet assembly is arranged on the upper portion of the wireless charging receiving coil magnetism isolating sheet, a lower temperature-conducting metal sheet water-cooling pipeline is installed on the lower temperature-conducting metal sheet assembly, a lower temperature-conducting metal sheet water-cooling concave interface is arranged at one end of the lower temperature-conducting metal sheet water-cooling pipeline, and a lower temperature-conducting metal sheet water-cooling convex interface is arranged at the other end of the lower temperature-conducting metal sheet water-cooling pipeline; the upper part of the lower temperature-conducting metal sheet assembly is provided with a temperature-insulating layer, the middle part of the temperature-insulating layer is provided with a semiconductor refrigerating sheet embedded hollow area, one side of the semiconductor refrigerating sheet embedded hollow area is provided with an upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area, one side of the upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area is provided with a lower temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area, and the semiconductor refrigerating sheet is embedded into the hollow area and is provided with a semiconductor refrigerating sheet; an upper temperature-conducting metal sheet assembly is arranged at the upper part of the temperature-insulating layer, a micro water pump and fan mounting groove is formed in the upper part of the upper temperature-conducting metal sheet assembly, an upper temperature-conducting metal sheet water-cooling convex interface is arranged in the micro water pump and fan mounting groove, a fan is additionally arranged in the micro water pump and fan mounting groove, an upper shell is arranged at the upper part of the fan, a tricolor LED light temperature display gradual change transparent ring is arranged at the upper part of the upper shell, a fan ventilating area is arranged in the tricolor LED light temperature display gradual change transparent ring, fixing buckles fixed by heat-dissipating equipment are symmetrically arranged on two sides of the upper shell, a left side page-turning cover plate is arranged on one side of the front part of the fixing buckles of the heat-dissipating equipment, a right side page-turning cover plate is arranged on the other side of the front part of the left side page-turning cover plate, a first fixing turning shaft is connected with a first left and right movable turning shaft which is additionally arranged in a first left and right movable groove through a pull rod; the front part of the right page turning cover plate is provided with a fixed turning shaft II, the fixed turning shaft II is connected with a left and right movable turning shaft II of a left and right movable groove II of the turning shaft through a pull rod II, and one end of the left and right movable turning shaft II is connected with a tension spring II; the rear part of the upper shell is connected with a telescopic buckle base of the heat-dissipating equipment through a telescopic buckle base telescopic rod, the lower part of the telescopic buckle base of the heat-dissipating equipment is additionally provided with a rubber pad, and a telescopic rod of the telescopic buckle base telescopic rod which has a limiting effect is additionally arranged on a telescopic rod of the telescopic buckle base;

an upper temperature conducting metal sheet water cooling pipeline is additionally arranged at the bottom of the upper temperature conducting metal sheet assembly, one end of the upper temperature conducting metal sheet water cooling pipeline is connected with an upper temperature conducting metal sheet water cooling convex interface, the other end of the upper temperature conducting metal sheet water cooling pipeline is connected with an upper temperature conducting metal sheet bottom water cooling convex interface, and a lower temperature conducting metal sheet water cooling convex interface is arranged between the upper temperature conducting metal sheet bottom water cooling convex interface and the upper temperature conducting metal sheet water cooling convex interface and penetrates through the hollow area;

a miniature water pump is arranged in the mounting groove of the miniature water pump and the fan, a miniature water pump water-cooling water outlet of the miniature water pump sequentially penetrates through a lower temperature-conducting metal sheet water-cooling convex interface to penetrate through the hollowed-out area, a lower temperature-conducting metal sheet water-cooling convex interface to penetrate through the hollowed-out area to be connected with a lower temperature-conducting metal sheet water-cooling convex interface, a miniature water pump water-cooling water inlet of the miniature water pump is connected to an upper temperature-conducting metal sheet water-cooling convex interface, the upper temperature-conducting metal sheet water-cooling convex interface is connected to an upper temperature-conducting metal sheet bottom water-cooling convex interface through an upper temperature-conducting metal sheet water-cooling pipeline, the upper temperature-conducting metal sheet bottom water-cooling convex interface penetrates through an upper temperature-conducting metal sheet water-cooling convex interface to penetrate through the hollowed-out area to be connected with a lower temperature-conducting metal sheet water-cooling concave interface, and the lower temperature-conducting metal sheet water-cooling convex interface is connected to the lower temperature-conducting metal sheet water-cooling pipeline.

Compared with the prior art, the utility model the advantage lie in: the power supply mode of a rechargeable battery and an external wire inside a portable radiator arranged outside the mobile phone and the tablet computer is cancelled, and the power supply mode of the mobile phone and the tablet computer is used instead for supplying power for the portable radiator by using a wireless reverse charging technology arranged inside the mobile phone and the tablet computer, so that the constraint of a user is reduced, the portability is improved, the real wireless property is realized, the practicability is high, and the popularization is convenient.

As an improvement, a wireless power supply radiator switch is arranged at the front part of the upper shell, and a temperature digital display, a Bluetooth state connection indicator lamp and a wireless power supply radiator heat dissipation temperature plus-minus setting key are sequentially arranged on one side of the wireless power supply radiator switch;

the line powered radiator switch also has a function switching function.

As an improvement, a second PCB is arranged at the bottom of the upper shell, a first PCB is arranged on one side of the second PCB, and a third PCB is arranged on the other side of the second PCB.

As an improvement, opposite sides and reverse sides of the left page turning cover plate and the right page turning cover plate are connected into a whole through interpenetrating buckles of the left page turning cover plate and the right page turning cover plate, and dust cover protection is provided for the bottom heat conduction rubber mat.

As an improvement, the bottom of the lower heat conducting metal sheet assembly is provided with a wireless charging receiving coil magnetism isolating sheet embedding installation groove for installing and fixing the wireless charging receiving coil magnetism isolating sheet.

As an improvement, the liquid of the micro water pump flows out from a water-cooling water outlet of the micro water pump, passes through a hollow-out area through a lower temperature-conducting metal sheet water-cooling convex interface, passes through the hollow-out area through a lower temperature-conducting metal sheet water-cooling convex interface, enters a lower temperature-conducting metal sheet water-cooling concave interface through a lower temperature-conducting metal sheet water-cooling pipeline, passes through the hollow-out area through an upper temperature-conducting metal sheet water-cooling convex interface, enters an upper temperature-conducting metal sheet bottom water-cooling convex interface through an upper temperature-conducting metal sheet water-cooling pipeline, enters the upper temperature-conducting metal sheet water-cooling convex interface through an upper temperature-conducting metal sheet water-cooling pipeline, and finally flows to a water-cooling water inlet of the micro water pump.

Drawings

Fig. 1 is a schematic structural diagram of a heat sink based on wireless reverse power supply.

Fig. 2 is a schematic structural diagram of the bottom of an upper shell of a heat sink based on wireless reverse power supply.

Fig. 3 is a schematic diagram of connection between a water pump and an upper temperature-conducting metal sheet assembly of a radiator based on wireless reverse power supply.

Fig. 4 is a schematic view of a bottom structure of a lower temperature-conducting metal sheet assembly of a heat sink based on wireless reverse power supply.

Fig. 5 is a schematic diagram of a left and right flip cover plate interpenetrating snap connection of a wireless reverse power supply-based heat sink.

Fig. 6 is a schematic diagram of a water-cooling work flow of a radiator based on wireless reverse power supply.

As shown in the figure: 1. a heat-dissipating device telescopic buckle base, 2, a telescopic buckle base telescopic rod, 3, a rubber pad, 4, a tricolor LED light temperature display gradual change transparent ring, 5, a fan ventilation area, 6, a left page turning cover plate, 7, a right page turning cover plate, 8, a first fixed turning shaft, 9, a first pull rod, 10, a first left and right movable groove of the turning shaft, 11, a first left and right movable turning shaft, 12, a first tension spring, 13, a second tension spring, 14, a second left and right movable turning shaft, 15, a second left and right movable groove of the turning shaft, 16, a second pull rod, 17, a second fixed turning shaft, 18, a wireless power supply radiator switch, 19, a temperature digital display, 20, a Bluetooth state connection indicator lamp, 21, a wireless power supply radiator heat dissipation temperature plus-minus setting key, 22, a fan, 23, a micro water pump power supply contact, 24, a micro water pump, 25, a micro water pump and fan installation groove, 26, an upper temperature guide metal sheet assembly, 27. an upper temperature-conducting metal sheet water-cooling convex interface 28, a semiconductor refrigeration sheet 29, a heat insulation layer 30, a semiconductor refrigeration sheet embedded hollow area 31, an upper temperature-conducting metal sheet water-cooling convex interface passing through the hollow area 32, a lower temperature-conducting metal sheet water-cooling convex interface passing through the hollow area 33, a lower temperature-conducting metal sheet assembly 34, a lower temperature-conducting metal sheet water-cooling pipeline 35, a lower temperature-conducting metal sheet water-cooling concave interface 36, a lower temperature-conducting metal sheet water-cooling convex interface 37, a wireless charging receiving coil magnetism-isolating sheet 38, a wireless charging receiving coil 39, a temperature-conducting rubber pad 40, a wireless charging receiving coil embedded mounting groove 41, a fixed buckle of a heat-radiating device 42, a first PCB circuit board 43, a second PCB circuit board 44, a telescopic buckle base tension spring 45, a third PCB circuit board 46, a miniature water pump water-cooling water outlet 47 and a miniature water pump water- cooling water inlet 47, 48. the upper temperature-conducting metal sheet bottom water-cooling protruding interface, the lower temperature-conducting metal sheet water-cooling protruding interface, the upper temperature-conducting metal sheet water-cooling pipeline, the wireless charging receiving coil magnetic shielding sheet embedding installation groove, and the left and right page-turning cover plate interpenetrating buckles are adopted in the step (50).

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model discloses when concrete implementation, a radiator based on wireless reverse power supply, including leading temperature cushion 39, its characterized in that: the upper part of the temperature conducting rubber cushion 39 is provided with a wireless charging receiving coil embedding installation groove 40, a wireless charging receiving coil 38 is installed in the wireless charging receiving coil embedding installation groove 40, a wireless charging receiving coil magnetism isolating sheet 37 is additionally installed on the upper part of the wireless charging receiving coil 38, a lower temperature conducting metal sheet assembly 33 is arranged on the upper part of the wireless charging receiving coil magnetism isolating sheet 37, a lower temperature conducting metal sheet water cooling pipeline 34 is installed on the lower temperature conducting metal sheet assembly 33, one end of the lower temperature conducting metal sheet water cooling pipeline 34 is provided with a lower temperature conducting metal sheet water cooling concave interface 35, and the other end of the lower temperature conducting metal sheet water cooling pipeline is provided with a lower temperature conducting metal sheet water cooling convex interface 36; the upper part of the lower temperature-conducting metal sheet assembly 33 is provided with a temperature-insulating layer 29, the middle part of the temperature-insulating layer 29 is provided with a semiconductor refrigerating sheet embedded hollow area 30, one side of the semiconductor refrigerating sheet embedded hollow area 30 is provided with an upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area 31, one side of the upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area 31 is provided with a lower temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area 32, and the semiconductor refrigerating sheet embedded hollow area 30 is internally provided with a semiconductor refrigerating sheet 28; an upper temperature-conducting metal sheet assembly 26 is arranged on the upper portion of the heat-insulating layer 29, a micro water pump and fan installation groove 25 is arranged on the upper portion of the upper temperature-conducting metal sheet assembly 26, an upper temperature-conducting metal sheet water-cooling convex interface 27 is arranged in the micro water pump and fan installation groove 25, a fan 22 is additionally arranged in the micro water pump and fan installation groove 25, an upper shell is arranged on the upper portion of the fan 22, a tricolor LED light temperature display gradual change transparent ring 4 is arranged on the upper portion of the upper shell, a fan ventilating area 5 is arranged in the tricolor LED light temperature display gradual change transparent ring 4, fixed buckles 41 of heat-dissipating equipment are symmetrically arranged on two sides of the upper shell, a left page-turning cover plate 6 is arranged on one side of the front portion of the fixed buckle 41 of the heat-dissipating equipment, a right page-turning cover plate 7 is arranged on the other side of the front portion of the left page-turning cover plate 6, a, one end of the left-right movable turnover shaft I11 is connected with a tension spring I12; the front part of the right page turning cover plate 7 is provided with a second fixed turning shaft 17, the second fixed turning shaft 17 is connected with a second left and right movable turning shaft 14 of a second left and right movable groove 15 of the turning shaft through a second pull rod 16, and one end of the second left and right movable turning shaft 14 is connected with a second tension spring 13; the rear part of the upper shell is connected with a heat-dissipating equipment telescopic buckle base 1 through a telescopic buckle base telescopic rod 2, the lower part of the heat-dissipating equipment telescopic buckle base 1 is additionally provided with a rubber pad 3, and a telescopic buckle base telescopic rod tension spring 44 with a limiting effect is additionally arranged on the telescopic buckle base telescopic rod 2;

an upper temperature conducting metal sheet water cooling pipeline 50 is additionally arranged at the bottom of the upper temperature conducting metal sheet assembly 26, one end of the upper temperature conducting metal sheet water cooling pipeline 50 is connected with an upper temperature conducting metal sheet water cooling convex interface 27, the other end of the upper temperature conducting metal sheet water cooling pipeline is connected with an upper temperature conducting metal sheet bottom water cooling convex interface 48, and a lower temperature conducting metal sheet water cooling convex interface which penetrates through a hollow-out area 49 is arranged between the upper temperature conducting metal sheet bottom water cooling convex interface 48 and the upper temperature conducting metal sheet water cooling convex interface 27;

the miniature water pump 24 is arranged in the miniature water pump and fan installation groove 25, a miniature water pump water-cooling water outlet 46 of the miniature water pump 24 sequentially penetrates through the lower temperature-conducting metal sheet water-cooling convex interface and penetrates through the hollow-out area 49, lower lead protruding interface of temperature sheetmetal water-cooling and pass hollow area 32 and connect protruding interface 36 of temperature sheetmetal water-cooling down, miniature pump water-cooling water inlet 47 of miniature pump 24 is connected on last lead protruding interface 27 of temperature sheetmetal water-cooling, go up lead protruding interface 27 of temperature sheetmetal water-cooling and pass last lead protruding interface of temperature sheetmetal water-cooling 50 connection and go up lead protruding interface 48 of temperature sheetmetal bottom water-cooling, go up lead protruding interface 48 of temperature sheetmetal bottom water-cooling and pass hollow area 31 and connect the concave interface 35 of temperature sheetmetal water-cooling down through leading protruding interface of temperature sheetmetal water-cooling down, lead the concave interface 35 of temperature sheetmetal water-cooling down and connect through leading temperature sheetmetal water-cooling pipeline 34 down lead protruding interface 36 of temperature sheetmetal water-cooling down.

The front part of the upper shell is provided with a wireless power supply radiator switch 18, and one side of the wireless power supply radiator switch 18 is sequentially provided with a temperature digital display 19, a Bluetooth state connection indicator lamp 20 and a wireless power supply radiator heat dissipation temperature plus-minus setting key 21;

the line powered radiator switch 18 also serves the function of switching.

And a second PCB (printed circuit board) 43 is arranged at the bottom of the upper shell, a first PCB 42 is arranged on one side of the second PCB 43, and a third PCB 45 is arranged on the other side of the second PCB 43.

The reverse sides of the opposite sides of the left page turning cover plate 6 and the right page turning cover plate 7 are connected into a whole through left and right page turning cover plate interpenetrating buckles 52, so that the dustproof cover is protected for the bottom heat conduction rubber mat.

The bottom of the lower temperature-conducting metal sheet assembly 33 is provided with a wireless charging receiving coil magnetism-isolating sheet embedding installation groove 51 for installing and fixing the wireless charging receiving coil magnetism-isolating sheet 37.

The liquid of micro-pump 24 is flowed by micro-pump water-cooling delivery port 46, passes through lower portion temperature conduction sheetmetal water-cooling protruding interface and passes out fretwork area 49, lower temperature conduction sheetmetal water-cooling protruding interface passes out fretwork area 32 and gets into lower temperature conduction sheetmetal water-cooling protruding interface 36, get into lower temperature conduction sheetmetal water-cooling concave interface 35 through lower temperature conduction sheetmetal water-cooling pipeline 34, pass out fretwork area 31 through last temperature conduction sheetmetal water-cooling protruding interface and get into last temperature conduction sheetmetal bottom water-cooling protruding interface 48, get into last temperature conduction sheetmetal water-cooling protruding interface 27 through last temperature conduction sheetmetal water-cooling pipeline 50, finally flow to micro-pump water-cooling water inlet 47.

The working principle of the invention is as follows: the scheme adopts a new external portable radiator which does not need an internal battery and an external wire for power supply and works, and designs a real wireless external portable radiator by utilizing the technology of reverse wireless power supply by utilizing the wireless charging function added by the current mobile phone or the tablet personal computer. The portable radiator designed by the scheme adopts a mobile phone and a tablet personal computer to supply power wirelessly, and the specific scheme is that a wireless charging receiving coil is arranged at the bottom of the radiator to supply power, the heat dissipation mode and the power of the whole radiator are controlled by a PVB circuit board in the radiator, a temperature sensing device is arranged at the bottom of the radiator, the tricolor LED light is controlled by the PCB circuit board to control the ring around the fan, the color corresponding to the current temperature brings more visual prompt to the user, the PVB circuit board can feed back and dynamically control the rotating speed of the cooling fan according to the collected temperature data, the energy is saved, the heat is efficiently dissipated, and can also realize one-to-one temperature monitoring control and active intervention type heat dissipation strength by connecting the Bluetooth with a mobile phone or a tablet personal computer, therefore, the heat productivity of the mobile phone or the tablet computer corresponds to the heat dissipation capacity of the heat radiator, and the mobile phone or the tablet computer can dissipate heat in time. The traditional radiator bottom leads temperature cushion and is infected with debris such as dust easily under the condition of not using, need frequent cleaning and change it, to this scheme of problem in increased more comprehensive radiator protection design, adopted page-turning type apron to seal dustproof protection its bottom, only need be used for contacting about the apron that is arranged in the bottom on leading temperature cushion when people use the wireless power supply radiator and turn to the cooperation through pull rod and spring in the recess on the rear shell after stretching to both sides, will fix the apron by oneself alright use, can be to piecing together and hasp lock after the tensile upset of both sides about once more after using up and protect leading temperature silica gel to avoid dust debris infringement, effectively prolong the life and the rate of leading temperature cushion, convenient and practical.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature, and in the description of the invention, "plurality" means two or more unless explicitly specifically defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may include, for example, fixed connections, detachable connections, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the principles and spirit of the present invention.

Claims (6)

1. The utility model provides a radiator based on wireless reverse power supply, is including leading warm cushion (39), its characterized in that: a wireless charging receiving coil embedding installation groove (40) is formed in the upper portion of the temperature conducting rubber cushion (39), a wireless charging receiving coil (38) is installed in the wireless charging receiving coil embedding installation groove (40), a wireless charging receiving coil magnetism isolating sheet (37) is additionally installed on the upper portion of the wireless charging receiving coil (38), a lower temperature conducting metal sheet assembly (33) is arranged on the upper portion of the wireless charging receiving coil magnetism isolating sheet (37), a lower temperature conducting metal sheet water cooling pipeline (34) is installed on the lower temperature conducting metal sheet assembly (33), a lower temperature conducting metal sheet water cooling concave type interface (35) is arranged at one end of the lower temperature conducting metal sheet water cooling pipeline (34), and a lower temperature conducting metal sheet water cooling convex type interface (36) is arranged at the other end of the lower temperature conducting metal sheet water cooling pipeline; the upper part of the lower temperature-conducting metal sheet assembly (33) is provided with a temperature-insulating layer (29), the middle part of the temperature-insulating layer (29) is provided with a semiconductor refrigerating sheet embedded hollow area (30), one side of the semiconductor refrigerating sheet embedded hollow area (30) is provided with an upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area (31), one side of the upper temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area (31) is provided with a lower temperature-conducting metal sheet water-cooling convex interface which penetrates through the hollow area (32), and a semiconductor refrigerating sheet (28) is installed in the semiconductor refrigerating sheet embedded hollow area (30); an upper temperature-conducting metal sheet assembly (26) is arranged on the upper portion of the heat-insulating layer (29), a micro water pump and fan installation groove (25) is formed in the upper portion of the upper temperature-conducting metal sheet assembly (26), an upper temperature-conducting metal sheet water-cooling convex interface (27) is arranged in the micro water pump and fan installation groove (25), a fan (22) is additionally arranged in the micro water pump and fan installation groove (25), an upper shell is arranged on the upper portion of the fan (22), a tricolor LED light temperature display gradual change transparent ring (4) is arranged on the upper portion of the upper shell, a fan ventilation area (5) is arranged in the tricolor LED light temperature display gradual change transparent ring (4), fixed buckles (41) of a heat-dissipating device are symmetrically arranged on two sides of the upper shell, a left side page-turning cover plate (6) is arranged on one side of the front portion of the fixed buckle (41) of the heat-dissipating device, a right side page-turning cover plate (7) is arranged on the other side, a first fixed turning shaft (8) is arranged on the front portion of the left side page-turning cover plate (6), the fixed turnover shaft I (8) is connected with a left and right movable turnover shaft I (11) additionally arranged in a left and right movable groove I (10) of the turnover shaft through a pull rod I (9), and one end of the left and right movable turnover shaft I (11) is connected with a tension spring I (12); a second fixed turning shaft (17) is arranged at the front part of the right page turning cover plate (7), the second fixed turning shaft (17) is connected with a second left and right movable turning shaft (14) of a second left and right movable groove (15) of the turning shaft through a second pull rod (16), and one end of the second left and right movable turning shaft (14) is connected with a second tension spring (13); the rear part of the upper shell is connected with a telescopic buckle base (1) of the equipment to be cooled through a telescopic buckle base telescopic rod (2), a rubber pad (3) is additionally arranged at the lower part of the telescopic buckle base (1) of the equipment to be cooled, and a telescopic buckle base telescopic rod tension spring (44) with a limiting effect is additionally arranged on the telescopic buckle base telescopic rod (2);

an upper temperature-conducting metal sheet water-cooling pipeline (50) is additionally arranged at the bottom of the upper temperature-conducting metal sheet assembly (26), one end of the upper temperature-conducting metal sheet water-cooling pipeline (50) is connected with an upper temperature-conducting metal sheet water-cooling convex interface (27), the other end of the upper temperature-conducting metal sheet water-cooling convex interface is connected with an upper temperature-conducting metal sheet bottom water-cooling convex interface (48), and a lower temperature-conducting metal sheet water-cooling convex interface which penetrates through a hollow area (49) is arranged between the upper temperature-conducting metal sheet bottom water-cooling convex interface (48) and the upper temperature-conducting metal sheet water-cooling convex interface (27);

a miniature water pump (24) is arranged in the miniature water pump and fan installation groove (25), a miniature water pump water cooling outlet (46) of the miniature water pump (24) sequentially penetrates through a lower temperature-conducting metal sheet water cooling convex interface to penetrate through a hollow-out area (49), a lower temperature-conducting metal sheet water cooling convex interface to penetrate through a hollow-out area (32) to be connected with a lower temperature-conducting metal sheet water cooling convex interface (36), a miniature water pump water cooling inlet (47) of the miniature water pump (24) is connected onto an upper temperature-conducting metal sheet water cooling convex interface (27), the upper temperature-conducting metal sheet water cooling convex interface (27) is connected with an upper temperature-conducting metal sheet bottom water cooling convex interface (48) through an upper temperature-conducting metal sheet water cooling pipeline (50), the upper temperature-conducting metal sheet bottom water cooling convex interface (48) penetrates through an upper temperature-conducting metal sheet water cooling convex interface to penetrate through the hollow-out area (31) to be connected with a lower temperature-conducting metal sheet concave water cooling interface (35), the lower temperature-conducting metal sheet water-cooling concave interface (35) is connected with the lower temperature-conducting metal sheet water-cooling convex interface (36) through a lower temperature-conducting metal sheet water-cooling pipeline (34).

2. The heat sink based on wireless reverse power supply of claim 1, wherein: a wireless power supply radiator switch (18) is arranged at the front part of the upper shell, and a temperature digital display (19), a Bluetooth state connection indicator lamp (20) and a wireless power supply radiator heat dissipation temperature plus-minus setting key (21) are sequentially arranged on one side of the wireless power supply radiator switch (18);

the line powered radiator switch (18) also provides a function switching function.

3. The heat sink based on wireless reverse power supply of claim 1, wherein: and a second PCB (43) is arranged at the bottom of the upper shell, a first PCB (42) is arranged on one side of the second PCB (43), and a third PCB (45) is arranged on the other side of the second PCB.

4. The heat sink based on wireless reverse power supply of claim 1, wherein: the reverse sides of the opposite sides of the left page turning cover plate (6) and the right page turning cover plate (7) are connected into a whole through left and right page turning cover plate interpenetrating buckles (52), so that the dustproof cover is protected for the bottom heat conducting rubber mat.

5. The heat sink based on wireless reverse power supply of claim 1, wherein: the bottom of the lower temperature conducting metal sheet assembly (33) is provided with a wireless charging receiving coil magnetism isolating sheet embedding installation groove (51) for installing and fixing a wireless charging receiving coil magnetism isolating sheet (37).

6. The heat sink based on wireless reverse power supply of claim 1, wherein: the liquid of micro-pump (24) is flowed by micro-pump water-cooling delivery port (46), lead the protruding interface of temperature sheetmetal water-cooling through the lower part and pass fretwork area (49), lead protruding interface of temperature sheetmetal water-cooling down and pass fretwork area (32) and get into down and lead protruding interface (36) of temperature sheetmetal water-cooling down, lead the concave interface of temperature sheetmetal water-cooling down (35) through leading temperature sheetmetal water-cooling pipeline (34) entering down, lead protruding interface (48) of temperature sheetmetal bottom water-cooling on passing fretwork area (31) through last lead protruding interface of temperature sheetmetal water-cooling down again, lead protruding interface (27) of temperature sheetmetal water-cooling on getting into through last lead temperature sheetmetal water-cooling pipeline (50), finally flow to micro-pump water-cooling water inlet (47).

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