TW201102607A - Vacuum-mist cooler - Google Patents

Abstract

There is an electric vacuum pump, mist sprayer, a radiator and a cooler in the cooler of thermomodule, The vacuum pump suck the mist from vacuum room, Mist sprayer spray mist into vacuum room, The water mist suck the heater energy out by electric vacuum pump from the cooler of thermomudules to keep cold for maintaining cooling temperature therein. The vacuum pump and mist sprayer keeps the cold temperature in the cooler, Water Mist is flow and pumped cyclically let the cooler cooling down fast, Its structure is simple and Its cost is low.

Description

201102607 .... VI. Description of the invention: [Technical field to which the invention pertains] [_] The present invention relates to a wafer cooling device, and more particularly to a wafer rapid cooling device having a thin vacuum pump and a sprayer and a metal hollow heat conductive casting having a pipeline. The vacuum spray rapidly cools the electronic chip, and the mist improves the freezing effect of the electronic chip. The thin vacuum pump and the sprayer are embedded in the heat-conducting body to make the heat-dissipating structure thin. [Prior Art] [0002] 〇〇General wafer cooling device is shown in Figure 16: Conventional cooling plate cooling device, including heat sink and ice cold plate clamped uniform cold plate, heat sink plate side fixed cooling fan, cooling plate heat When the amount is high, if you want to accelerate the cooling of the cooling plate, you need to increase the heat sink, but the temperature of the contact between the cooling plate and the heat sink is very high, and the temperature around the heat sink is not high, increase the heat sink or strengthen The cooling fan often does not have a cooling effect. The Taiwan New Patent No. M270407 and the Taiwan New Patent No. M260724 have the purpose of adding a soaking plate to uniformly absorb heat evenly to avoid uneven heat dissipation. However, it is customary to add a uniform heat plate. ★ The heat sink can only provide passive heat dissipation (Passive co〇iing). Due to the limited thermal conductivity of the material itself, it is difficult to meet the increasingly stringent heat dissipation requirements. At the same time, the patents related to heat pipes include Taiwan Invention Patent No. 1241 156 Taiwan Invention Patent No. 1236337, and Taiwan Invention Patent No. 1225584. The heat pipe removes a large amount of heat by phase change. The conventional heat pipe is in the heat pipe, and the flow direction of the liquid working fluid is opposite to the flow direction of the gaseous working fluid. Such a heat pipe using a capillary structure has a problem of large flow resistance and cannot cope with high heat flux density. In addition, the traditional heat pipe has a short transmission distance and a small contact surface. Form number A0101 « 〇 ^ 098123288 Page 3 / 28 pages 0982039634-0 201102607 and other issues. The cooling plate of the electronic refrigerator can bring heat from the cold end to the hot end, but if the hot end of the cold piece contacts the heat sink, the temperature is high, and the current of the cold piece is desperately added, or the thickened heat sink is enlarged. The electronic refrigerator often does not have the effect of cooling and cooling, so the cooling device for the electronic refrigerator has a great room for improvement. SUMMARY OF THE INVENTION [3] 1. The object of the present invention is to provide a cooling device for solving the problem of poor electronic cooling efficiency, cooling plate cooling and accelerated cooling and cooling of the cooling plate, by means of a vacuum pump and a sprayer. And the metal hollow heat pipe with the pipeline can improve the heat dissipation efficiency of the heat conductive casting body, can reduce the thermal resistance of the heat conductive casting body, can avoid the accumulation of the working fluid, can be miniaturized, accelerate the cooling of the cooling plate, and the vacuum of the electronic ice cooler is rapidly frozen. Spray ice cooler. Want to improve the cooling effect of the cooling plate of the electronic refrigerator, desperately add the current of the cold film, or increase the thickening heat sink, often without cooling and cooling effect, the hot end of the cooling piece must be in contact with the heat sink The temperature drops rapidly, in order to improve the cooling and cooling effect of the cooling piece; the method of cooling and cooling is air cooling and water cooling. If the air cooling increases the thickening heat sink or strengthens the cooling fan, it does not have the cooling cooling effect. For the water cooling method, the face of the heat sink is passed through the cold test through the cold test, and the cold test enhances the cooling and cooling effect. ... Q98123288 2. If the coolant passes through the heat sink, the method of natural circulation of Laisheng cold-down is slow. The flow of the cold liquid through the heat sink is slow, and the hot end of the cold fin and the heat sink are lighter. The effect of cooling and cooling is not improved, so it is necessary to add - water f pump and - liquid storage tank, large liquid storage tank 'a large number of low temperature coolant, and water pump cycle cold dust = 2 miscellaneous, ^ _ heat Board, cooling _ heat dissipation page 4 / a total of 28 pages 098203i 201102607 cooling cooling effect. 3. Large _ liquid tank, large i low temperature coolant, 纟 actual application, in addition to air conditioning air conditioning, to __, such as electronic refrigerators, electronic dehumidifiers, etc., can be assigned to the product design is (4) short, The large liquid storage tank 'a large amount of low-temperature coolant, thick and heavy and very serious affects the portable function', so the liquid storage tank is thinned, the liquid storage tank is added back to the diaphragm, the water and electricity pump will be cooled by the hollow heat sink Pressed to the thin water tank, the coolant is stored under the __ back-type partition, hot and cold, and hydropower _

Pressing, accelerating the coolant pumping cycle _, shrinking the reservoir to improve the cooling and cooling effect of the cooling fin. ...

4. Hydropower “Adding miscellaneous plates, scientific rafts, (4) Water escaping embedded on the radiator” The thin hydroelectric pump pumps the coolant to the cooling plate to cool the cooling fins, and the cooling fluid pump circulates and flows the refrigerant quickly. Cooling, the cooling liquid improves the cold-acting effect of the cooling piece, and the thin-type hydroelectric power is secreted in the _, so that the heat-dissipating structure is thinned. The body of the thin-type hydroelectric pump has a metal outer casing, and the metal outer casing is fixed with a piezoelectric body. The ceramic piece and the vibrating plate, the metal body of the thin hydroelectric pump is directly locked to the cooling plate, and the metal casing of the thin hydroelectric pump has an inlet pipe and an outlet pipe, and the inlet pipe and the outlet pipe of the thin hydroelectric pump are thin to the cooling liquid. The liquid storage tank coolant is sucked into the storage tank by the thin liquid storage tank through the inlet pipe of the thin hydroelectric pump, and the cooling liquid is sent back to the liquid storage tank by the outlet pipe of the thin hydroelectric pump, and the cooling liquid is pumped and circulated to rapidly cool the electronic chip. 5. The general portable product design is light and short, and the cooling effect of the cooling liquid is reduced after the thin liquid storage tank is changed. If the cooling liquid is to be cooled quickly, the liquid storage tank must be provided with fins and fins. A cooling fan is required at the rear, and the coolant can be completely cooled. The heat sink of the device is metal 098123288 Form No. A0101 Page 5 / Total 28 Page 0992039634-0 201102607 Empty with piping, the rear of the radiator is fixed The fan has a groove in the center of the radiator. The upper and lower sides of the groove have a water outlet and a water inlet. The thin water pump is embedded in the groove in the center of the radiator. The inlet pipe of the thin hydroelectric pump is inserted into the radiator. The outlet pipe of the thin electric pump is inserted into the water outlet of the radiator. The water pipe of the radiator rises upward from the central water outlet to the top of the heat dissipation plate, and the pipe rotates left and right to the bottom end of the heat dissipation plate, and then the central portion The pipeline leads to the water inlet of the heat sink. The pipeline is configured to have the characteristics of hot cooling, and the heat of the electronic chip is quickly discharged to the top of the heat sink, and the coldest portion of the bottom of the heat sink is pumped into the cold. The liquid uses the characteristics of hot cooling and the pumping core of the hydroelectric pump to accelerate the cooling _ circulating flow to rapidly cool the electronic chip, the cooling fan blows the cooling plate to cool down, and the thin hydroelectric pump is embedded in the radiator to make the heat dissipation structure thinner. effect. 6. The thin hydroelectric pump is embedded in the heat sink. The process is more complicated. For example, the components of the water pump are installed in the metal hollow radiator, so that the radiator and the water pump are integrated. It is a better design, the radiator of the chip rapid cooling device. The metal hollow has a pipeline, and the center of the radiator has a groove, and the hollow pipeline directly communicates with the groove in the center of the radiator, and the piezoelectric ceramic piece and the vibration plate of the electric pump are directly shackled in the groove of the radiator. The hydroelectric system of the electric ceramics and the vibrating plate vibrate, the coolant is directly pumped to the hollow pipe of the radiator, and the cooling liquid is cooled in the air duct of the radiator. Hydroelectric fruit-bodyization makes the heat dissipation structure thinner. 7. Taking water as an example, the heat transfer coefficient of the pool boiling heat sink is about 1 〇 4 W/m 2 K, and the heat transfer coefficient of spray cooling (Spray c〇〇iing) can exceed 5×10 5 W/m. 2 K. The sealed space of the vacuum miscellaneous heat-conducting casting body is evacuated, and the sprayer sprays the cooling liquid into the sealing of the heat-conductive casting body 098123288 0982039634-0 Form No. A0101 Page 6 / 28 pages 201102607 Vacuum to, use, use Vacuum spray cooling can effectively improve the heat dissipation system, the first political heat, the cooling effect of the cooling film cooling effect, and even the ice cold plate of the electronic refrigerator appears to freeze. The sprayer is too large to be easily installed, and the sprayer is easily corroded by the coolant. The sprayer plus diaphragm can reduce the corrosion of the coolant. The sprayer has a piezoelectric micro-droplet spray device with a diaphragm, which mainly includes: a spray hole seat, a diaphragm piece, The dust board, the fluid passage, and the contact seat are provided with a plurality of micro-opening holes on the new board, and the diaphragm piece is between the orifice plate and the piezoelectric plate of the nozzle hole holder. The piezoelectric plate is disposed on the other side of the diaphragm relative to the nozzle holder, and at least a portion thereof is connected to the diaphragm to drive the diaphragm to generate vibration, and the piezoelectric plate holder is surrounded by the nozzle The seat and the diaphragm are fitted together, and the fluid passage is disposed on the nozzle seat for guiding the flow body into the cavity of the nozzle seat. The piezoelectric plate can be combined by the above components. When the voltage is applied to the voltage, vibration is generated to drive the diaphragm to generate a vibration perpendicular to the direction of the orifice plate, and to press the fluid between the diaphragm and the orifice plate, and further from the orifice plate The hole in the hole is sprayed out, the German 11 volume reduction device, Lai can reduce the cold But the liquid is rot. 8. The spray-like real line is quite different from the real one. For example, the sprayer and the vacuum fruit are placed in the vacuum chamber of the guide scale. The power of the Confucian can be piezoelectric or capacitive, and the Confucian is set. Below the vacuum chamber, the Confucian H has a pressure-pressure Μ and a micro-perforation sheet having a Wei number of holes, the atomizer atomizing the coolant and spraying in the vacuum chamber to generate a spray to take away the The heat energy generated by the heat source, the piezoelectric ceramic vibration plate and the diaphragm piece, the heat sink has a water pipe plate and a heat dissipation plate, the water pipe plate is a metal hollow pipe, and the central portion of the water pipe plate has a groove vacuum chamber hollow pipe Directly connected to the central recessed vacuum chamber of the water pipe, vacuum system 0992039634-0 098123288 Form No. Α0101 Page 7 / Total 28 pages 201102607 and spray n directly in the groove of the water pipe, vacuum pump suction and sprayer Spraying, the coolant is directly pumped to the hollow pipe of the water pipe to circulate, and the heat-conducting fan is embedded in the heat-dissipating plate, and the heat-conductive casting body is integrated with the vacuum pump and the sprayer. 9. In the embodiment of the present invention, the heat dissipation plate is changed into a circular tube type heat dissipation tube, and the circular tube type heat dissipation official has a heat dissipation fin, and the thin guide scale body is fixed in front of the heat dissipation tube, and has a metal outer casing and a scale body and an ice cold plate. Clip with the cold piece, thin = the inlet pipe and the outlet pipe of the heat-conducting casting body are connected to the circular tube type heat-dissipating tube, the back surface of the heat-dissipating b is radiant, the true line is added to the circular tube-type heat-dissipating tube, and the cooling fan is directed to the heat-dissipating tube. The heat dissipation of the Korean film is used to cool the coolant rapidly, and the remaining coolant of the coolant is circulated. The sprayer sprays the coolant into the sealed space vacuum chamber of the heat-conducting casting body to rapidly cool the cooling plate and improve the coolant. The freezing effect of the cooling sheet. ' 10. The ice-cold plate of the embodiment is locked on the ice-cooling box of the electronic refrigerator, the electronic ice water machine or the ice wine machine, and the cooling liquid of the thin vacuum fruit pump is discharged through the metal hollow pipe and the heat dissipation. _Cooling liquid ^ into the guide, the sealed space vacuum chamber of the casting body, so that the cooling piece is rapidly cooled, and the cooling liquid is raised by the electronic refrigerator, the electronic ice water machine or the ice wine machine. 11. The actual remuneration of the case: ice-cold plate lock, electric shirt, electronic refrigerator, ice-cooled plate, ice-cold plate, ice-cooled plate, fan fan, thin vacuum, chestnut coolant, gold channel, heat sink The radiator circulates and flows, and the sprayer sprays the coolant into the vacuum chamber of the heat-conducting rotating body, so that the cooling piece is rapidly cooled, the coldness of the ice-cold plate is blown out by the blower fan, and the cooling liquid improves the cold fineness of the electron (4) and The dehumidification effect of the electronic machine. ' "' 098123288 12. The example of this case · · Coolant is water, pure water, Yin alcohol, C Form No. A0101 Page 8 / Total 28 stomach ' 201102607 Ammonia water, aqueous solution or refrigerant, sprayer through the spray port The cooling liquid mist sprays the vacuum chamber of the heat-conducting casting body, and the thin vacuum pump pumps the cooling liquid from the vacuum chamber into the water pipe, the vacuum pump suction and the sprayer spray, and the vacuum secret pump coolant passes through the metal pipe and the heat dissipation fins. The circulation of the radiator causes the cooling fin to cool rapidly. 13. The embodiment of the present invention: the ice cold plate and the radiator of the device are metal hollow pipes, and the thin water pump is embedded on the ice cold plate, and a thin vacuum pump will be

098123288 The coolant is pumped from the vacuum chamber to the radiator to cool the electronic chip. The coolant is pumped and circulated, and the Confucian will cool the sealed space of the human casting body. The electron wafer is cooled rapidly, and the coolant increases the coldness of the electronic chip. The effect is that the thin-type hydroelectric pump pumps the coolant to the ice-cold plate to circulate, so that the freezing effect of the electronic chip is improved. 14. Compared with the prior art, the present invention provides an active loop type heat dissipating device with a vacuum dish and an atomizer, which is designed to evacuate the sealed space of the heat conductive casting body into a vacuum state, and the sprayer makes the liquid working fluid coolant. A tiny droplet is formed, and the sprayer sprays the coolant onto the heat source of the sealed jade vacuum chamber. This will not form a liquid film at the bottom of the evaporation end, making the thermal resistance smaller than that of the conventional loop type heat pipe, thereby improving the efficiency of the loop type heat pipe. At the same time, the evaporation chamber vacuum chamber of the present invention can be a fin-shaped cavity, and the wire source has a large contact area, and the (four) tube and the inlet pipe shooting room designed by the invention are configured, so that the solution can be solved. Conventional technology has a short transmission distance and a problem that the contact area is too small. In addition, the vacuum pump and the atomizer integrated in the vacuum chamber of the evaporation chamber have the effect of helping the blue water, and the vacuum spray cooling can improve the heat dissipation performance, and the volume occupied by the conventional technology can be reduced. Thermal wire casting true line and true line and reading body, relative micro-form number A0101 page 9 / 28 pages 0992039634-0 201102607,, products. It can be seen from the above that the vacuum spray ice cooling device designed by the invention can achieve the heat dissipation efficiency, reduce the thermal resistance, the working fluid accumulation, and the miniaturization, and the evaporation heat of the coolant rapidly reduces the temperature of the heat conductive casting body, and the cooling piece The rapid freezing of ice-cold plates, the rapid cooling of vacuum spray chillers, and the enhancement of the value of industrial use have overcome the problems of prior art. [Embodiment] [0004] 1 · A vacuum spray ice cooler in this case is illustrated in Figure 2 is a three-dimensional appearance of the creation, a heat-conductive casting body: 1::.5 and an ice-cold plate 51 cool and consistent cold sheet heat conduction The body 15 has a heat dissipation plate 21 and a water pipe plate 31. The heat dissipation plate 21 is followed by a heat dissipation fin. The front water pipe plate 31 of the heat conduction scale 15 is a metal hollow pipe. The heat conduction casting body 15 is locked behind a heat dissipation fan 25, _ The thin vacuum pump 11 and the sprayer are embedded on the water tube plate 31 of the heat conductive casting body 15. 2. Description of the device Fig. 1 is a cross-sectional view showing the structure of the present invention. The thin heat-conductive casting body 15 has a metal casing, and the metal casing of the thin heat-conductive casting body 15 directly locks the cooling plate 01, and the water pipe of the heat-conductive casting body 15 31 is a hollow metal tube having a tube, and a vacuum chamber 14 having a recess in the center of the metal shell of the thin heat-conducting cast body 15 is provided. The vacuum chamber 14 has an inlet pipe and an outlet pipe. The vacuum pump U is placed in the outlet pipe, and the sprayer 61 is placed in the water inlet. Camp, vacuum, such as the sealing space of the rail casting body is really vacuum, the sprayer 61 will spray the coolant to seal the true Q14, suspending the coolant in the true two to evaporate into a gas, the evaporation heat of the coolant quickly reduces the heat conduction At the temperature of the prayer body, the cooling film 01 quickly freezes the ice-cold plate, so that the vacuum spray ice cooler is quickly frozen. The coolant is passed from the water pipe plate 31 of the thin heat-conductive casting body 15 through the water inlet pipe and the atomizer 61, into the thin vacuum chamber 14, and the coolant is passed through the outlet pipe of the vacuum 098123288 Form No. A0101, page 1 / page 28, 0982039634-0. The water pump plate 3 of the heat-conductive recording body 15 is returned by the vacuum pump 11, and the coolant pumping circulation flows to rapidly cool the electronic wafer. ρβ 3. This device is shown in Fig. 3 as an exploded perspective view of the present invention. The water pipe plate 31 of the heat-transfer casting body 15 of the vacuum spray ice cooler is a metal hollow pipe, and a heat-dissipating fan 25 is fixed on the back surface of the heat-dissipating plate 21, and a vacuum chamber 14 having a groove in the center of the water pipe plate 31, the vacuum chamber 14 is up and down There is a spray port 23 and a suction port 22, as shown in Fig. 7 is a recirculating cross-sectional view of the water pipe, the groove 53 in the center of the water pipe plate 31 of the heat-conductive casting body 15 has a vacuum chamber 14, and the vacuum system 1 is embedded in On the suction port 22 of the outlet end of the heat-transfer casting vacuum chamber 14, the vacuum fruit 11 draws the sealed space vacuum chamber 14 of the heat-conductive casting body into a vacuum state, and the atomizer 61 sprays the cooling night into the vacuum chamber 14 of the heat-conductive casting body. The mist cooling liquid evaporates into a gas in the vacuum chamber 14, the evaporation heat of the cooling liquid rapidly reduces the temperature of the heat-conducting town body 15, the cooling sheet rapidly freezes the ice-cold plate, the vacuum spray ice cooler is rapidly frozen, and the inlet pipe of the vacuum pump 11 is connected to the water pipe. The suction port 22 of the plate 31, the sprayer 61 is connected to the spray port 23 of the water pipe plate 31, and the water pipe groove of the water pipe plate 31 is lifted upward from the central suction port 22 to the top end of the water pipe plate 31 and is rotated to the left and right. Yong: the bottom end of the tube sheet 31, and then the center The pipeline leads to the spray port 23 of the water pipe plate 31. The pipe § & is provided with the characteristic that the coolant 42 is cooled down, and the heat of the electronic chip is quickly discharged to the top of the water pipe plate 31, and the water pipe plate 31 is bottomed. The coldest part of the end is pumped into the cooling liquid, and the circulating pumping pressure of the vacuum spray is used to accelerate the circulating flow of the cooling liquid to rapidly cool the electronic chip, and the cooling fan 25 blows to cool the heat sink, and the vacuum chamber 14 is embedded. It is fixed to the heat sink to make the heat dissipation structure thinner. 4. Description of the device Fig. 4 is a cross-sectional view showing the structure of the atomizer and Fig. 5 is an exploded perspective view showing the atomizer. The body of the thin sprayer 61 has a pump body shell and a metal outer casing, and the pump body is provided with a diaphragm piece 12 and a piezoelectric vibration plate 13, and the thin form number is Α0101, page 11/28 pages, nQR, 201102607 sprayer 61 is directly connected to the vacuum chamber 14, the sputum sprayer 6i has an inlet pipe and a spray port 23, and the thin sprayer 61 has _(four) (four) inside, and the stone eve 52 is located above the inlet pipe to have a water inlet, (4) Fuyang Standing on the spray port 2 3, there is a water outlet valve above. 5. The description of the device is shown in Fig. 6. The inside of the sprayer is a mounting-piezoelectric ceramic sheet 12 and a vibrating plate 13. As shown in Fig. 6], the sprayer is not intended to be sucked, the diaphragm 12 and the piezoelectric vibrating plate 13 are bent downward, the pump body cavity is enlarged, the inlet valve 35 of the silicone pad 52 is opened upward, and the outlet valve 33 of the silicone pad 52 is turned upward. When it is closed, the coolant flows from the inlet pipe 44 through the inlet valve 35 into the pump body chamber of the atomizer 61. Figure 6-2 is a schematic diagram of the spray of the sprayer. The diaphragm 12 and the piezoelectric vibrating plate 13 are bent upwards, and the pumping chamber and the small inlet valve 35 of the Shixi capsule 52 are closed downward; The valve 33 is opened downward, and the coolant is sprayed by the atomizer 61 into the sealed space vacuum chamber 14 of the heat conductive casting body. 6. Description of the device embodiment FIG. 14 is a cold cross-sectional view of the liquid storage tank pump. The heat conductive casting body 15 has a metal casing and a vacuum of the pump body casing. The first metal casing vacuum chamber 14 is equipped with a sprayer μ and a vacuum pump. η, the metal shell of the thin heat-conductive casting body 15 is directly locked on the cooling plate 01, the metal vacuum chamber 14 of the heat-conductive casting body is connected to the inlet pipe 44 and the outlet pipe 43, and the inlet pipe 44 and the outlet pipe 43 are connected to a cooling The liquid storage tank 41, the liquid storage tank 41 is thinned and plasticized, and the liquid storage tank 41 is provided with a return type partition 64. The cooling liquid 42 flows back in the liquid storage tank 41 from top to bottom, and the cooling liquid 42 is stored by the liquid storage tank. The bottom of the tank 41 is introduced into the thin sprayer 61 through the inlet pipe 44, and the coolant 42 is sprayed into the body cavity of the thin vacuum chamber 14, and the coolant 42 is returned from the vacuum pump 11 of the thin vacuum chamber 14 to the top of the liquid storage tank 41 through the outlet pipe 43. The cooling pump presses the circulating flow to rapidly cool the cooling fins. 7. Description of the embodiment of the apparatus Fig. 8 is a water tube plate pump cold meter diagram 'thin type 0992039634-0 Form No. Α0101 098123288 Page 12/28 pages 201102607 The heat conductive casting body 15 has a vacuum chamber atomizer 61 and a true MU The metal casing vacuum (four) is fixed directly to the body of the cold metal, the body of the casting body 15 of the metal body B. The thin heat-conducting casting body 15 is connected to the inlet pipe 44 = water (four), the inlet of the thin vacuum chamber 14 (four) and the water (10) Connected to = 1 = Γ 4, material _ silk fine hot plate 21 and water official plate 31, water tank extension plate 31 plus return water pipe groove 32, coolant 1: water pipe plate 31 back water pipe groove The flow is from top to bottom, and the heat sink 21 has heat-dissipating fins 45 . 9_ , the heat sink 21 is locked with a cooling fan Ο 25 at the rear, and the coolant 42 is sprayed by the bottom of the water pipe 44 and the sprayer 61 The thin vacuum chamber 14 has a body cavity, and the cooling is purely sent by the thin vacuum chamber Η. The second pump in the outlet pipe 43 is sent back to the top of the water pipe plate 31. The cooling fan 25 blows the cold bribe sheet 45, and the cold pump circulates the wire to rapidly cool the electronic chip. .

G 8. Description of Embodiment of the Apparatus FIG. 9 is an overall sectional view of a pump plate. The heat sink of the vacuum spray ice cooler has a metal hollow pipe water pipe plate 31, and the water pipe plate 31 has a 1-slot vacuum chamber 14 at the center thereof, and the t-empty pipe directly communicates with the vacuum chamber 14 in the center of the water pipe plate 31, A The empty chamber 14 is directly anchored in the groove of the water pipe plate 31 of the radiator 24, and the vacuum is connected to the vacuum chamber 14'. The coolant is directly sprayed by the device 61 to the water pipe of the radiator (4), and the hollow pipe vacuum chamber 14 is The vacuum pump 11 draws the coolant of the vacuum chamber 14 out. The coolant 42 flows back and forth from the top to the bottom of the water pipe 32 of the water pipe plate 31. The heat dissipation plate 21 has heat dissipation fins 45, and the heat dissipation plate 21 is locked at the rear side to dissipate heat. The fan 25, the cooling liquid 42 is sprayed into the vacuum chamber 14 from the bottom of the water pipe plate 31, and the cooling liquid 42 is sent back to the top of the water pipe plate 31 by the thin vacuum pump n. The cooling liquid circulates in the hollow pipe water pipe 32 of the heat dissipation plate, and is cooled by the heat sink. The fan 25 blows and cools the fins 45, and the coolant pump circulates and flows to make the cold 098123288 Form No. A0101 0982039634-0 Page 113 / 28 pages 201102607 The heat dissipation structure is rapidly cooled, and the radiator is integrated with the vacuum chamber 14. To the thinning effect. 9. Description of the device embodiment Figure 1 is a heat-dissipating tube. The heat-dissipating tube 04 has heat-dissipating fins 45 and a thin heat-conductive casting body. The front side of the circular tube heat pipe 04, the thin guide body with a metal outer casing is called the dispersing 51-clamp-cooling #G1, the thin-shaped guiding scale 15 is in the cutting 7-plate tube 43 and the round tube-type heat-dissipating tube 〇4, heat dissipation The back of the tube 4 is cracked--, the water-cooling fan 25' thin vacuum illusion will cool the secret tube-type heat dissipation, '", 〇4, the cooling fan 25 blows the heat-dissipating fins 45 of the heat-dissipating tube 〇4, know, % of people, make cooling

The liquid is rapidly cooled, and the coolant pump is intended to flow through the heat-dissipating tube 具有4 of the heat-dissipating fins 45, so that the cooling sheet 01 is rapidly cooled, and the cooling liquid enhances the freezing effect. 7 1〇. Description of the device embodiment as shown in Figure 11 is an electronic air conditioner: section 'solid, cold

The plate 51 is locked on the ice-cooling box 〇3 of the electronic air conditioner 或5 or the electronic dehumidifier, and the water-cooling plate 51 has heat-dissipating fins 45. The ice-cooling plate has a blower fan 63 on the side or above, and the vacuum pump 11 and the sprayer 61 pump; However, the liquid flows through the radiator 24# of the metal hollow pipe and the fins 45 to rapidly cool the fins 1, and the coldness on the ice plate 51 is blown out by the blower fan 63, and the coolant raises the electrons. The freezing effect of air conditioner and the dehumidification effect of electronic dehumidifier. FIG. 12 is a diagram of an electronic refrigerator, the ice cold plate 51 is locked on the electronic refrigerator 75, the electronic ice water machine or the ice cold box 〇 2, the thin vacuum pump π and the sprayer 61 pump cooling The liquid circulates through the radiator 24 having the metal hollow pipe and the heat dissipating fins, so that the cooling plate 01 is rapidly cooled, and the cooling liquid improves the cooling effect of the electronic refrigerator 75, the electronic ice water machine or the ice wine machine. 12. Description of Embodiments of the Apparatus FIG. 13 is a cross-sectional view of a double water tube. Cooling 098123288 Form No. A0101 Page 14/28 Page 0992039634-0 201102607 The liquid is a liquid, aqueous or refrigerant, and the thin vacuum pump pump coolant flows through the radiator 24 with metal hollow tubes and fins. The cold piece cools quickly. The ice cold plate and the heat sink 24 of the device are metal hollow with a pipeline, and the vacuum pump 11 and the sprayer 61 are embedded on the heat sink. A vacuum pump 11 and a sprayer 61 pump the coolant to the vacuum chamber of the radiator to cool the chamber. Cold film, cooling pump pumping circulating flow makes the cooling film quickly cool the cooling liquid to increase the cold green fruit of the electronic crystal. [The thin hydroelectric pump records the cooling liquid to the ice cold plate, so that the freezing effect of the cooling piece is improved. Ο 13. Compared with the prior art, this implementation is designed to be a true and sprayer. The vacuum is used to heat the sealed space. The sprayer sprays the coolant into the sealed space vacuum chamber of the heat-conducting caster. Do the spray cooling to take away (4) H to reduce the rate of effect, and the mixed working fluid will not accumulate in the bottom of the vacuum chamber. Moreover, since there is no capillary structure at the bottom of the vacuum body, and the reduced vacuum cavity surface cavity has a large contact area with the heat source, the thermal resistance can be reduced by the width. In addition, the heat dissipation of the Korean-style vacuum chamber body with a large amount of heat absorption can eliminate the hot spot of hot money.

(4) When driving the vacuum pump and the atomizer, the pumping force and the structure of the crucible structure from the film county (4) can drive the working fluid to complete _, and has the advantages of small volume, low consumption rate of 0, and the true U and sprayer are designed. The upper and lower chambers of the vacuum chamber can greatly reduce the volume occupied, which is more conducive to product miniaturization. The above embodiments are merely illustrative of the principles of the invention and its advantages rather than =:=. Any technology that leads to the technology has the usual knowledge to modify and change. In the above-mentioned embodiment, the scope of the invention is 098,123,288, and the scope of protection of the present invention should be as listed in the patent application scope of 0982039634-0, page 15 of 28, 2011. [0005] [Simple description of the drawing] Fig. 1: A cross-sectional view of the creation structure. Figure 2: The three-dimensional appearance of the creation. Figure 3: An exploded perspective view of the creation. Figure 4: A cross-sectional view of the structure of the sprayer. Figure 5: An exploded view of the sprayer. Figure 6-1: Schematic diagram of water absorption from a sprayer. Figure 6-2: Schematic diagram of the sprayer spray. Figure 7: A cross-sectional view of the water pipe trough. Figure 8: Cold section of the water tube pump. Figure 9: An integrated cross-sectional view of the pump plate. Figure 10: Cold section of the heat pipe pump. Figure 11: Electronic air conditioner brake diagram. Figure 12: A cross-sectional view of an electronic refrigerator. Figure 13: A cross-sectional view of a double water pipe. Figure 14: Cold section of the reservoir pump. Figure 15: Conventional Cooling Plate Cooling Device r [0006] [Main component symbol description] 01 Cooling plate 02 Icy cooling box 03 Icy box 04 Heat pipe 11 Vacuum pump 12 Diaphragm sheet 13 Vibration plate 14 Vacuum chamber 21 Heat sink 22 Air suction port 23 Spray port 24 radiator 31 water pipe 32 water pipe 33 water outlet valve 34 insulation cotton 41 storage tank 42 coolant 43 outlet pipe 44 inlet pipe 51 ice cold plate 52 矽 rubber pad 53 groove 55 electronic refrigerator 55 water pump 61 spray 62 body casing 63 drum fan 64 partition 05 electronic air conditioner 15 thermal conductive casting 25 cooling fan 3 5 inlet valve 45 heat sink fin y 098123288 Form No. A0101 Page 16 / 28 page 0992039634-0

Claims (1)

201102607 VII. Patent application scope: 1. - Vacuum spray ice-cooled H includes - cooling sheet, - guide scale, - ice cold plate '-vacuum system, coolant and a sprayer, heat-conductive casting body and ice-cold plate clamping - a cooling sheet, characterized in that: the heat-conductive casting body of the vacuum spray ice cooler is a vacuum of a metal hollow wire seal, the inlet of the vacuum chamber of the heat conduction prayer chamber, and the vacuum pump is fixed on the heat conduction casting. On the outlet end of the vacuum chamber, the vacuum pump draws the sealed space of the heat-conducting casting body into a vacuum state, and the sprayer sprays the cooling liquid into the sealed space vacuum chamber of the heat-conductive casting body, and the mist-cooled secret vacuum chamber is lining, and the cold hiding level The temperature of the low heat conductive casting body is rapidly tempered, and the material is rapidly cooled; the east ice cold plate makes the vacuum chiller freeze quickly. 2. The vacuum spray ice cooler according to claim 1, wherein the heat-conducting scale has a water pipe plate and a heat dissipation plate, the water pipe plate is a metal hollow pipe, and the heat dissipation plate is fixed on the back surface. The central part of the cooling fan water pipe has a vacuum chamber. The upper and lower sides of the hollowing chamber have an abstract port and a spray port. The sprayer is embedded in the central vacuum chamber of the heat sink. The vacuum pump is embedded in the center of the heat sink. The suction pipe, the water pipe of the water pipe is directly lifted from the suction port of the central vacuum chamber to the top pipe of the water pipe by the vacuum pump, and then descends to the bottom end of the water pipe, and then the central pipe passes through the sprayer to the water pipe vacuum chamber. The spray port, the thin vacuum pump and the sprayer are embedded in the groove above and below the central vacuum chamber of the heat-conducting casting body, and the bottom end of the pipe of the water pipe plate is lifted up to the top of the water pipe through the vacuum chamber, and the coolant is installed on the water pipe plate. The circulation in the pipeline. 3. A vacuum spray ice cooler as described in claim 1, wherein the atomizer has a piezoelectric microdroplet ejection device of a diaphragm, 098123288 Form No. A0101 Page 17 of 28 0982039634- 0 201102607 ,. Mainly includes: a spray hole seat, a diaphragm piece, a piezoelectric plate, a fluid passage, a spray hole seat is provided with a spray hole plate, a plurality of small spray holes are arranged on the spray hole plate, and a The diaphragm is disposed between the orifice plate of the nozzle holder and the piezoelectric plate, wherein the magic board is disposed on the other side of the diaphragm relative to the nozzle holder, and at least a portion thereof is connected to the diaphragm The piezoelectric plate can drive the spacer to generate vibration; and a piezoelectric plate holder is arranged around the nozzle holder and the diaphragm, and a fluid passage is disposed on the nozzle holder for guiding The fluid enters the cavity of the nozzle hole, and the piezoelectric plate is combined to vibrate when the voltage is applied, and the diaphragm is driven to generate vibration perpendicular to the direction of the orifice plate, and the diaphragm is forced. Between the diaphragm and the orifice plate The fluid in the gap, and further out from the ejection orifices of the orifice plate. 4. The vacuum spray ice cooler as described in the scope of claim 2, wherein the power of the sprayer is piezoelectric or capacitive, and the sprayer is disposed below the vacuum chamber, the sprayer has a piezoelectric sheet and a micro-spray sheet having a plurality of micro-spray holes, the mist squirting atomizes the spray liquid and sprays the vacuum chamber to generate a spray to take away the heat energy generated by the heat source, the piezoelectric ceramic The vibration plate and the diaphragm piece have a water pipe plate and a heat dissipation plate. The water pipe plate has a metal hollow pipe. The water pipe plate has a groove vacuum chamber at the center, and the hollow pipe directly communicates with the central concave portion of the water pipe plate. The tank vacuum chamber, the vacuum pump and the sprayer are directly embedded in the groove of the water pipe plate, the sprayer sprays the coolant mist through the spray port to the vacuum chamber of the heat conductive casting body, and the thin vacuum pump pumps the coolant from the vacuum chamber. Water pipe, vacuum pump suction and sprayer spray, the coolant is directly pumped on the hollow pipe of the water pipe plate and the shield ring flows. After the heat dissipation fan is embedded in the heat dissipation plate, the heat conductive casting body is integrated with the vacuum system and the sprayer. Form No. A0101 098123288 Page 18 of 28 0982039634-0 201102607 5 . The vacuum spray ice cooler as described in claim 1 is characterized in that the heat conductive casting body is connected to a circular tube type heat pipe. The heat-dissipating fins, the vacuum pump and the sprayer are fixed on the upper and lower sides of the vacuum chamber in the center of the heat-conducting casting body, and the thin heat-conductive casting body with the metal shell and the ice-cold plate solid-solid cooling sheet, the inlet pipe and the outlet pipe of the thin heat-conductive casting body are connected to the round tube type The heat pipe, the back side of the heat-conducting casting body is fixed with a heat-dissipating fan, the sprayer sprays the coolant mist through the spray port to the vacuum chamber of the heat-conductive casting body, and the thin vacuum pump pumps the coolant from the vacuum chamber into the water pipe, ❹ vacuum pump suction and The sprayer sprays a thin vacuum pump to pump the coolant into the tube-type heat pipe. After the heat-dissipating fan is placed on the heat-dissipating fin of the heat-conducting cast body, the coolant pump is circulated through the heat-dissipating tube having the heat-dissipating fins. The vacuum spray ice cooler as described in claim 1, wherein the ice cold plate is locked on an ice refrigerator of an electronic refrigerator, an electronic ice water machine or a wine cooler, and the sprayer is sprayed through the spray port. The cooling liquid mist sprays the vacuum chamber of the heat-conducting casting body, the thin vacuum pump pumps the cooling liquid from the vacuum chamber into the water pipe, the vacuum pump suctions and the sprayer spray, and the thin vacuum pump and the atomizer pass the cooling liquid through the metal hollow tube. The heat-conductive casting body of the road and the heat-dissipating fins circulates.真空 The vacuum spray ice cooler described in claim 1 is characterized in that the ice-cold plate is locked on the ice-cooling box of the electronic air conditioner or the electronic dehumidifier, the ice-cold plate has fins, and the ice-cold plate side The side has a blower fan, the sprayer sprays the coolant mist into the vacuum chamber of the heat-conducting casting body through the spray port, the thin vacuum pump pumps the coolant from the vacuum chamber into the water pipe, the vacuum pump suction and the sprayer spray, the thin vacuum pump and the spray The mist pump pressure coolant flows through a radiator having a metal hollow pipe and a heat radiating fin, and the ice cold plate has a blower fan, and the blower fan encourages the wind to flow through the ice cold plate to blow the ice cold wind. The vacuum spray ice cooler as described in claim 1 is characterized in that the coolant is water, pure water, methanol, propylene, water, 098123288 Form No. 1010101 Page 19 of 28 Page 0992039634-0 201102607 Aqueous solution or refrigerant, thin vacuum pump and sprayer pump coolant flows through a radiator with a metal hollow tube and a heat sinking strip. The heat-conducting cast body has a metal casing, and the metal casing is filled with a vacuum pump and a spray. The metal shell of the heat-conducting casting body is directly locked on the cooling sheet, and the metal shell of the heat-conductive casting body has an inlet pipe and an outlet pipe, and the inlet pipe and the outlet pipe of the heat-conducting casting body are connected to a liquid storage tank of the cooling liquid. The liquid storage tank is thinned, and a return type separator is added in the liquid storage tank, and the cooling liquid flows back from the top to the bottom in the liquid storage tank, and the cooling liquid is sprayed into the heat conduction pipe from the liquid storage tank through the inlet pipe of the thin sprayer. In the vacuum chamber of the casting body, the coolant is sent back to the liquid storage tank by the outlet pipe of the thin vacuum pump. 9 · As described in the scope of the patent application, vacuum spray: fog cooler, which is characterized in that the ice cold plate and the heat sink are metal hollow with pipelines, and a thin hydroelectric pump is embedded in the ice cold plate. The upper group vacuum pump and the sprayer are embedded in the heat sink, and the sprayer sprays the coolant into the vacuum chamber of the heat transfer casting body through the spray port, and the thin vacuum pump pumps the coolant from the vacuum chamber into the water pipe, and the vacuum pump draws and The sprayer sprays the thin water pump to pump the coolant to the ice-cold plate for circulation, and the λ air pump and the sprayer circulate the coolant to the heat-dissipating plate of the heat-conducting town. 198123288 Form number Α0Ι01 20th true / total 28 pages