CN101294583A - Wind direction vent control device - Google Patents

Wind direction vent control device Download PDF

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Publication number
CN101294583A
CN101294583A CNA2008100982809A CN200810098280A CN101294583A CN 101294583 A CN101294583 A CN 101294583A CN A2008100982809 A CNA2008100982809 A CN A2008100982809A CN 200810098280 A CN200810098280 A CN 200810098280A CN 101294583 A CN101294583 A CN 101294583A
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China
Prior art keywords
area
connecting fixed
framework
fan
guide
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CNA2008100982809A
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Chinese (zh)
Inventor
张柏灏
刘文豪
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Asia Vital Components Co Ltd
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Asia Vital Components Co Ltd
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Abstract

The invention discloses a wind direction inlet control device assembled with a fan module The control device comprises a frame body, and is provided with an inlet and an outlet; and a hub seat is arranged in the frame body; wherein fluid control components are arranged between the hub seat and the frame body, and are connected mutually; the fluid control components are radially arrayed and the area of the fluid control component gradually decreases and then gradually increases outwards from the hub seat, thus, the flow direction of the discharged fluid is under control by the fluid control component.

Description

Wind direction outlet controller
Technical field
The present invention relates to a kind of wind direction outlet controller, include fan and framework, this fan is located in the framework, on the set hub seat, and is provided with fluid control unit connection framework and the hub seat that is the radiation arrangement.
Background technique
Electronic product microminiaturization and high frequencyization now, the stability of the golf calorific value problems affect electronic product running that is accompanied by and comes, so effectively and apace get rid of used heat in the hope of reducing system temperature, become important research project now, and for effectively heat being discharged, using fan is most economical a kind of method, fan blade drives via motor and changes electric energy into mechanical energy, energy causes fluid to flow by the transmission of blade, make the convection coefficient in the space increase, and then utilize the variation of pressure and speed increase produced mobilely takes away unnecessary heat, reach the purpose of heat radiation.
And general fan is when driving rotation via motor, fluid is external diffusion around the easily past fan after fan outlet is passed through in the electric fan transmission, the fan of this a kind of uncontrollable fluid flow direction is for the influence of fan hub, make fluid form bigger stagnant area at the wheel hub rear, cause radiating effect to be difficult to show, if it is poor to be installed in circulation, impedance is carried out thermolysis to electrical assembly in the higher zone, the then influence of the stagnant area that produces because of the fan hub rear, the real genus of the fluid thermolysis that can reach is limited, not only causes electrical assembly to be easy to generate high temperature even easier damage when running.
As the disclosed application case of Taiwan patent gazette number be 090118816 assembled fan and employed fan frame structure thereof, this assembled fan and employed fan frame structure thereof, this assembled fan comprises a fan and a fan frame structure, wherein this fan frame structure comprises first framework and first diversion division, be disposed in this first framework, wherein this first diversion division is made of a plurality of stator blade and is become arranged radially, when this fan running, can promote the air quantity and the blast of air-flow that this fan produces by a plurality of stator blades.
Above-mentioned mode of execution, although amount of flow strengthens, the direction of flow that rotates outflow by fan is still uncontrollable, and makes the fan hub rear form big stagnant area, and can't effectively dispel the heat.
Summary of the invention
The purpose of this invention is to provide a kind of wind direction outlet controller that utilizes the fluid control unit to make fluid produce bigger variation in pressure diametrically and then influence the mobile direction of fluid.
Wind direction outlet controller of the present invention, with a blower module winding, it includes a framework, and tool inlet/outlet, in framework, be provided with hub seat, and between hub seat and framework with the fluid control unit mutually mutual connection establish, this fluid control unit is radiation and arranges, and the area of this fluid control unit is outwards cumulative again after decrescence from hub seat, by the fluid control unit direction of flow of outflow is controlled.
Characteristic on above-mentioned purpose of the present invention and structure thereof and the function will be illustrated according to preferred embodiment shown in the drawings.
Description of drawings
Fig. 1 is the perspective exploded view of the present invention's first preferred embodiment;
Fig. 2 is another visual angle cross-sectional schematic of Fig. 1;
Fig. 3 is the solid combination schematic representation of the present invention's first preferred embodiment;
Fig. 4 is the present invention's first preferred embodiment direction of flow schematic representation;
Fig. 5 is another pattern schematic representation of the present invention's first preferred embodiment guide vane;
Fig. 6 is another pattern schematic representation of the present invention's first preferred embodiment guide vane;
Fig. 7 is the perspective exploded view of the present invention's second preferred embodiment;
Fig. 8 is another visual angle cross-sectional schematic of Fig. 7;
Fig. 9 is the solid combination schematic representation of the present invention's second preferred embodiment;
Figure 10 is the present invention's second preferred embodiment direction of flow schematic representation;
Figure 11 is the perspective exploded view of the present invention's the 3rd preferred embodiment;
Figure 12 is another visual angle cross-sectional schematic of Figure 11;
Figure 13 is the solid combination schematic representation of the present invention's the 3rd preferred embodiment;
Figure 14 is the present invention's the 3rd preferred embodiment direction of flow schematic representation;
Figure 15 is another pattern schematic representation of the present invention's the 3rd preferred embodiment guide vane;
Figure 16 is another pattern schematic representation of the present invention's the 3rd preferred embodiment guide vane;
Figure 17 is the perspective exploded view of the present invention's the 4th preferred embodiment;
Figure 18 is another visual angle cross-sectional schematic of Figure 17;
Figure 19 is the solid combination schematic representation of the present invention's the 4th preferred embodiment;
Figure 20 is the direction of flow schematic representation of the present invention's the 4th preferred embodiment;
Figure 21 is the perspective exploded view of the present invention's the 5th preferred embodiment;
Figure 22 is another visual angle cross-sectional schematic of Figure 21;
Figure 23 is the solid combination schematic representation of the present invention's the 5th preferred embodiment;
Figure 24 is the direction of flow schematic representation of the present invention's the 5th preferred embodiment;
Figure 25 is another pattern schematic representation of guide vane of the present invention's the 5th preferred embodiment;
Figure 26 is another pattern schematic representation of guide vane of the present invention's the 5th preferred embodiment;
Figure 27 is the perspective exploded view of the present invention's the 6th preferred embodiment;
Figure 28 is another visual angle cross-sectional schematic of Figure 27;
Figure 29 is the solid combination schematic representation of the present invention's the 6th preferred embodiment;
Figure 30 is the direction of flow schematic representation of the present invention's the 6th preferred embodiment;
Figure 31 is the perspective exploded view of the present invention's the 7th preferred embodiment;
Figure 32 is another visual angle cross-sectional schematic of Figure 31
Figure 33 is the solid combination schematic representation of the present invention's the 7th preferred embodiment;
Figure 34 is the direction of flow schematic representation of the present invention's the 7th preferred embodiment;
Figure 35 is another pattern schematic representation of guide vane of the present invention's the 7th preferred embodiment;
Figure 36 is another pattern schematic representation of guide vane of the present invention's the 7th preferred embodiment;
Figure 37 is the perspective exploded view of the present invention's the 8th preferred embodiment;
Figure 38 is the cross-sectional schematic at another visual angle of Figure 37;
Figure 39 is the solid combination schematic representation of the present invention's the 8th preferred embodiment;
Figure 40 is the direction of flow schematic representation of the present invention's the 8th preferred embodiment;
Figure 41 is the perspective exploded view of the present invention's the 9th preferred embodiment;
Figure 42 is another visual angle cross-sectional schematic of Figure 41;
Figure 43 is the solid combination schematic representation of the present invention's the 9th preferred embodiment;
Figure 44 is the direction of flow schematic representation of the present invention's the 9th preferred embodiment;
Figure 45 is another pattern schematic representation of guide vane of the present invention's the 9th preferred embodiment;
Figure 46 is another pattern schematic representation of guide vane of the present invention's the 9th preferred embodiment;
Figure 47 is the perspective exploded view of the present invention's the tenth preferred embodiment;
Figure 48 is another visual angle cross-sectional schematic of Figure 47;
Figure 49 is the solid combination schematic representation of the present invention's the tenth preferred embodiment;
Figure 50 is the direction of flow schematic representation of the present invention's the tenth preferred embodiment;
Figure 51 is the perspective exploded view of the present invention's the 11 preferred embodiment;
Figure 52 is another visual angle cross-sectional schematic of Figure 51;
Figure 53 is the solid combination schematic representation of the present invention's the 11 preferred embodiment;
Figure 54 is the direction of flow schematic representation of the present invention's the 11 preferred embodiment;
Figure 55 is another pattern schematic representation of guide vane of the present invention's the 11 preferred embodiment;
Figure 56 is another pattern schematic representation of guide vane of the present invention's the 11 preferred embodiment;
Figure 57 is the perspective exploded view of the present invention's the 12 preferred embodiment;
Figure 58 is another visual angle cross-sectional schematic of Figure 57;
Figure 59 is the solid combination schematic representation of the present invention's the 12 preferred embodiment;
Figure 60 is the direction of flow schematic representation of the present invention's the 12 preferred embodiment;
Figure 61 is the perspective exploded view of the present invention's the 13 preferred embodiment;
Figure 62 is another visual angle cross-sectional schematic of Figure 61;
Figure 63 is the solid combination schematic representation of the present invention's the 13 preferred embodiment;
Figure 64 is the direction of flow schematic representation of the present invention's the 13 preferred embodiment;
Figure 65 is another pattern schematic representation of guide vane of the present invention's the 13 preferred embodiment;
Figure 66 is another pattern schematic representation of guide vane of the present invention's the 13 preferred embodiment;
Figure 67 is the perspective exploded view of the present invention's the 14 preferred embodiment;
Figure 68 is another visual angle cross-sectional schematic of Figure 67;
Figure 69 is the solid combination schematic representation of the present invention's the 14 preferred embodiment;
Figure 70 is the direction of flow schematic representation of the present invention's the 14 preferred embodiment;
Figure 71 is the perspective exploded view of the present invention's the 15 preferred embodiment;
Figure 72 is another visual angle cross-sectional schematic of Figure 71;
Figure 73 is the solid combination schematic representation of the present invention's the 15 preferred embodiment;
Figure 74 is the direction of flow schematic representation of the present invention's the 15 preferred embodiment;
Figure 75 is another pattern schematic representation of guide vane of the present invention's the 15 preferred embodiment;
Figure 76 is another pattern schematic representation of guide vane of the present invention's the 15 preferred embodiment;
Figure 77 is the perspective exploded view of the present invention's the 16 preferred embodiment;
Figure 78 is another visual angle cross-sectional schematic of the present invention the 77 figure;
Figure 79 is the solid combination schematic representation of the present invention's the 16 preferred embodiment;
Figure 80 is the direction of flow schematic representation of the present invention's the 16 preferred embodiment;
Figure 81 is the perspective exploded view of the present invention's the 17 preferred embodiment;
Figure 82 is another visual angle cross-sectional schematic of Figure 81;
Figure 83 is the solid combination schematic representation of the present invention's the 17 preferred embodiment;
Figure 84 is the direction of flow schematic representation of the present invention's the 17 preferred embodiment;
Figure 85 is another pattern schematic representation of guide vane of the present invention's the 17 preferred embodiment;
Figure 86 is another pattern schematic representation of guide vane of the present invention's the 17 preferred embodiment;
Figure 87 is the perspective exploded view of the present invention's the 18 preferred embodiment;
Figure 88 is another visual angle cross-sectional schematic of Figure 87;
Figure 89 is the solid combination schematic representation of the present invention's the 18 preferred embodiment;
Figure 90 is the direction of flow schematic representation of the present invention's the 18 preferred embodiment.
Description of reference numerals: 11 fans; 111 fan hub; 112 electric fans; 12 frameworks; 121 hub seats; 122 imports; 123 outlets; 14 guide vanes; 141 guide portions; The area of 141a guide portion; 142 connecting fixed parts; The area of 142a connecting fixed part; 16 ribs; 161 guide portions; The area of 161a guide portion; 162 connecting fixed parts; The area of 162a connecting fixed part; 17 guide vanes; 171 guide portions; The area of 171a guide portion; 172 connecting fixed parts; The area of 172a connecting fixed part; 18 guide vanes; 181 guide portions; The area of 181a guide portion; 182 connecting fixed parts; The area of 182a connecting fixed part; 21 fans; 211 fan hub; 212 electric fans; 22 frameworks; 221 hub seats; 222 imports; 223 outlets; 24 guide vanes; 241 guide portions; The area of 241a guide portion; 242 connecting fixed parts; The area of 242a connecting fixed part; 26 ribs; 261 guide portions; The area of 261a guide portion; 262 connecting fixed parts; The area of 262a connecting fixed part; 27 guide vanes; 271 guide portions; The area of 271a guide portion; 272 connecting fixed parts; The area of 272a connecting fixed part; 28 guide vanes; 281 guide portions; The area of 281a guide portion; 282 connecting fixed parts; The area of 282a connecting fixed part; 31 fans; 311 fan hub; 312 electric fans; 32 frameworks; 321 hub seats; 322 imports; 323 outlets; 34 guide vanes; 341 guide portions; The area of 341a guide portion; 342 connecting fixed parts; The area of 342a connecting fixed part; 36 ribs; 361 guide portions; The area of 361a guide portion; 362 connecting fixed parts; The area of 362a connecting fixed part; 37 guide vanes; 371 guide portions; The area of 371a guide portion; 372 connecting fixed parts; The area of 372a connecting fixed part; 38 guide vanes; 381 guide portions; The area of 381a guide portion; 382 connecting fixed parts; The area of 382a connecting fixed part; 41 fans; 411 fan hub; 412 electric fans; 42 frameworks; 421 hub seats; 422 imports; 423 outlets; 44 guide vanes; 441 guide portions; The area of 441a guide portion; 442 connecting fixed parts; The area of 442a connecting fixed part; 46 ribs; 461 guide portions; The area of 461a guide portion; 462 connecting fixed parts; The area of 462a connecting fixed part; 47 guide vanes; 471 guide portions; The area of 471a guide portion; 472 connecting fixed parts; The area of 472a connecting fixed part; 48 guide vanes; 481 guide portions; The area of 481a guide portion; 482 connecting fixed parts; The area of 482a connecting fixed part; 51 fans; 511 fan hub; 512 electric fans; 52 frameworks; 521 hub seats; 522 imports; 523 outlets; 54 guide vanes; 541 guide portions; The area of 541a guide portion; 542 connecting fixed parts; The area of 542a connecting fixed part; 56 ribs; 561 guide portions; The area of 561a guide portion; 562 connecting fixed parts; The area of 562a connecting fixed part; 57 guide vanes; 571 guide portions; The area of 571a guide portion; 572 connecting fixed parts; The area of 572a connecting fixed part; 58 guide vanes; 581 guide portions; The area of 581a guide portion; 582 connecting fixed parts; The area of 582a connecting fixed part; 61 fans; 611 fan hub; 612 electric fans; 62 frameworks; 621 hub seats; 622 imports; 623 outlets; 64 guide vanes; 641 guide portions; The area of 641a guide portion; 642 connecting fixed parts; The area of 642a connecting fixed part; 66 ribs; 661 guide portions; The area of 661a guide portion; 662 connecting fixed parts; The area of 662a connecting fixed part; 67 guide vanes; 671 guide portions; The area of 671a guide portion; 672 connecting fixed parts; The area of 672a connecting fixed part; 68 guide vanes; 681 guide portions; The area of 681a guide portion; 682 connecting fixed parts; The area of 682a connecting fixed part; 71 frameworks; 711 hub seats; 712 imports; 713 outlets; 72 guide vanes; 721 guide portions; The area of 721a guide portion; 722 connecting fixed parts; The area of 722a connecting fixed part; 73 blower modules; 74 fan frames; 741 imports; 742 outlets; 743 supporting portions; 75 fans; 751 fan hub; 752 electric fans; 76 ribs; 761 guide portions; The area of 761a guide portion; 762 connecting fixed parts; The area of 762a connecting fixed part; 77 guide vanes; 771 guide portions; The area of 771a guide portion; 772 connecting fixed parts; The area of 772a connecting fixed part; 78 guide vanes; 781 guide portions; The area of 781a guide portion; 782 connecting fixed parts; The area of 782a connecting fixed part; 81 frameworks; 811 hub seats; 812 imports; 813 outlets; 82 guide vanes; 821 guide portions; The area of 821a guide portion; 822 connecting fixed parts; The area of 822a connecting fixed part; 83 blower modules; 84 fan frames; 841 imports; 842 outlets; 843 supporting portions; 85 fans; 851 fan hub; 852 electric fans; 86 ribs; 861 guide portions; The area of 861a guide portion; 862 connecting fixed parts; The area of 862a connecting fixed part; 87 guide vanes; 871 guide portions; The area of 871a guide portion; 872 connecting fixed parts; The area of 872a connecting fixed part; 88 guide vanes; 881 guide portions; The area of 881a guide portion; 882 connecting fixed parts; The area of 882a connecting fixed part; 91 frameworks; 911 hub seats; 912 imports; 913 outlets; 92 guide vanes; 921 guide portions; The area of 921a guide portion; 922 connecting fixed parts; The area of 922a connecting fixed part; 93 blower modules; 94 fan frames; 941 imports; 942 outlets; 943 supporting portions; 95 fans; 951 fan hub; 952 electric fans; 96 ribs; 961 guide portions; The area of 961a guide portion; 962 connecting fixed parts; The area of 962a connecting fixed part; 97 guide vanes; 971 guide portions; The area of 971a guide portion; 972 connecting fixed parts; The area of 972a connecting fixed part; 98 guide vanes; 981 guide portions; The area of 981a guide portion; 982 connecting fixed parts; The area of 982a connecting fixed part.
Embodiment
The invention provides a kind of " wind direction outlet controller ", Fig. 1 to Fig. 3 is the present invention's first preferred embodiment, as shown in the figure, include fan 11 and framework 12, wherein these framework 12 tools are for the mobile import 122 of fluid, outlet 123, and be provided with hub seat 121 in this framework 12, this fan 11 is made up of fan hub 111 and electric fan 112, with the hub seat 121 of fan hub 111 corresponding frameworks 12 so that fan 11 be arranged in the framework 12, and be provided with the guide vane 14 that radiation is arranged in the outlet 123 of framework 12, and these guide vane 14 1 ends are connected in framework 12 with guide portion 141, the other end is connected in hub seat 121 with connecting fixed part 142, and the area 141a of this guide portion 141 is big than the area 142a of connecting fixed part 142, flow in the fluid radial pressure of framework 12 with change by guide vane 14, make that outlet 123 fluids can be toward center flow, can be not immediately to external diffusion with effect that reaches the control flow direction and the generation that reduces noise.
Please consult shown in Figure 4 again, produce time-dependent flow field during electric fan 112 turns and change the drive fluid by import 122 inflows, flow out via outlet 123 again, and cross outlet 123 the time when fluid flow, be subjected to the control of area 141a of the guide portion 141 of guide vane 14, fluid produces bigger radial pressure to be changed toward hub seat 121 rear center flow, and flow to hub seat 121 rears because of fluid has more flow, reduce the stagnant area that hub seat 121 rears produce, so when it is applied in when taking the internal system heat to context, can significantly promote radiating efficiency, make whole radiating effect better.
Please consult Fig. 4, Fig. 5 again, guide vane 14 of the present invention shown in Figure 6 can be the guide vane 17 of T font, this guide vane 17 is provided with guide portion 171 and connecting fixed part 172, and the area 171a of this guide portion 171 is big than the area 172a of connecting fixed part 172, or be down L shaped guide vane 18, this guide vane 18 is provided with guide portion 181 and connecting fixed part 182, and the area 181a of this guide portion 181 is big than the area 182a of connecting fixed part 182, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 123, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Fig. 7, Fig. 8, Fig. 9 and Figure 10 are respectively that its solid of the present invention's second preferred embodiment is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its outlet 123 that is not in framework 12 together is provided with the rib 16 that radiation is arranged, this rib 16 is provided with guide portion 161 and connecting fixed part 162, and the area 161a of this guide portion 161 is big than the area 162a of connecting fixed part 162, circulate in the fluid radial pressure of framework 12 with change, and reach the effect of controlling flow direction, increase heat dissipation potential.
Figure 11, Figure 12 and Figure 13 show the present invention's the 3rd preferred embodiment, as shown in the figure, include fan 21 and framework 22, wherein these framework 22 tools are for the mobile import 222 of fluid, outlet 223, and be provided with hub seat 221 in this framework 22, this fan 21 is made up of fan hub 211 and electric fan 212, with the hub seat 221 of fan hub 211 corresponding frameworks 22 so that fan 21 be arranged in the framework 22, and be provided with the guide vane 24 that radiation is arranged in the outlet 223 of framework 22, and these guide vane 24 1 ends connect hub seat 221 with guide portion 241, the other end extends a connecting fixed part 242 and is connected in framework 22, and the area 241a of this guide portion 241 is big than the area 242a of connecting fixed part 242, flow in the fluid radial pressure of framework 22 by guide vane 24 with change, and reach the effect of control flow direction.
Consult Figure 14, produce time-dependent flow field during electric fan 212 turns and change the drive fluid by import 222 inflows, flow out via outlet 223 again, and cross outlet 223 the time when fluid flow, be subjected to the control of area 241a of the guide portion 241 of guide vane 24, circulation is outwards spread in the variation of fluid generation radial pressure, and changes because of fluid produces big radial pressure, and feasible outwards diffusion sphere of circulation strengthens.
Please consult Figure 14, Figure 15 and Figure 16 again, guide vane 24 of the present invention can be the guide vane 27 of T font, this guide vane 27 is provided with guide portion 271 and connecting fixed part 272, and the area 271a of this guide portion 271 is big than the area 272a of connecting fixed part 272, or be down L shaped guide vane 28, this guide vane 28 is provided with guide portion 281 and connecting fixed part 282, and the area 281a of this guide portion 281 is big than the area 282a of connecting fixed part 282, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 223, and then reach the effect of controlling flow direction.
Figure 17, Figure 18, Figure 19 and Figure 20 are for its solid of the present invention's the 4th preferred embodiment is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its outlet 223 that lies in framework 22 that do not exist together is provided with the rib 26 that radiation is arranged, this rib 26 is provided with guide portion 261 and connecting fixed part 262, and the area 261a of this guide portion 261 is big than the area 262a of connecting fixed part 262, circulate in the fluid radial pressure of framework 22 with change, and reach the effect of control flow direction.
Figure 21, Figure 22 and Figure 23 are the present invention's the 5th preferred embodiment, be to include fan 31 and framework 32 as shown in the figure, wherein these framework 32 tools are for the mobile import 322 of fluid, outlet 323, and be provided with hub seat 321 in this framework 32, this fan 31 is made up of fan hub 311 and electric fan 312, with the hub seat 321 of fan hub 311 corresponding frameworks 32 so that fan 31 be arranged in the framework 32, and be provided with the guide vane 34 that radiation is arranged in the outlet 323 of framework 32, and these guide vane 34 two ends are arranged in framework 32 and hub seat 321 with guide portion 341 separately, interconnect with connecting fixed part 342 in guide portion 341 the other ends again, and the area 341a of this guide portion 341 is big than the area 342a of connecting fixed part 342, flow in the fluid radial pressure of framework 32 with change by guide vane 34, make that outlet 323 fluids can be toward center flow, can be not immediately to external diffusion with effect that reaches the control flow direction and the generation that reduces noise.
Please consult Figure 24 again, produce time-dependent flow field during electric fan 312 turns and change the drive fluid by import 322 inflows, flow out via outlet 323 again, and cross outlet 323 the time when fluid flow, be subjected to the control of area 341a of the guide portion 341 of guide vane 34, it is mobile toward hub seat 321 rear center flow and outside diffusion that fluid produces the radial pressure variation, because of flowing to hub seat 321 rears, fluid reduces the stagnant area that hub seat 321 rears produce, so take the internal system heat to context when it is applied in, can effectively promote radiating efficiency, make whole radiating effect better.
Please consult Figure 24 again, Figure 25, guide vane of the present invention 34 shown in Figure 26 can be the guide vane 37 of H font, this guide vane 37 is provided with guide portion 371 and connecting fixed part 372, and the area 371a of this guide portion 371 is big than the area 372a of connecting fixed part 372, or be the guide vane 38 of inverted concave, this guide vane 38 is provided with guide portion 381 and connecting fixed part 382, and the area 381a of this guide portion 381 is big than the area 382a of connecting fixed part 382, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 323, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Consult again please that its solid of Figure 27, Figure 28, Figure 29 and the present invention's the 6th preferred embodiment shown in Figure 30 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its outlet 33 that lies in framework 32 that do not exist together is provided with the rib 36 that is the radiation arrangement, this rib 36 is provided with guide portion 361 and connecting fixed part 362, and the area 361a of this guide portion 361 is big than the area 362a of connecting fixed part 362, flow in the fluid radial pressure of framework 32 with change, and reach the effect of control flow direction.
See also Figure 31, Figure 32 and the present invention's the 7th preferred embodiment shown in Figure 33, include fan 41 and framework 42, wherein these framework 42 tools are for the mobile import 422 of fluid, outlet 423, and be provided with hub seat 421 in this framework 42, this fan 41 is made up of fan hub 411 and electric fan 412, with the hub seat 421 of fan hub 411 corresponding frameworks 42 so that fan 41 be arranged in the framework 42, and be provided with the guide vane 44 that radiation is arranged in the import 422 of framework 42, and these guide vane 44 1 ends are connected in framework 42 with guide portion 441, the other end is connected in hub seat 421 with connecting fixed part 442, and the area 441a of this guide portion 441 is big than the area 442a of connecting fixed part 442, change the fluid radial pressure that flows in framework 42 by guide vane 44, make that outlet 423 fluids can be toward center flow, can be not immediately to external diffusion with effect that reaches the control flow direction and the generation that reduces noise.
Please consult Figure 34 again, produce time-dependent flow field during electric fan 412 turns and change the drive fluid by import 422 inflows, flow out via outlet 423 again, and when fluid flow is crossed import 422, be subjected to the control of area 441a of the guide portion 441 of guide vane 44, fluid produces big radial pressure variation and concentrates toward fan hub 411, and pass through outlet 423 o'clock in stream through electric fan 412 turns, fluid is toward fan hub 411 rear center flow, and reduce the stagnant area that fan hub 411 rears produce because of fluid has more flow to flow to fan hub 411 rears, so when it is applied in when taking the internal system heat to context, can significantly promote radiating efficiency, make whole radiating effect better.
Please consult Figure 34 again, Figure 35, guide vane of the present invention 44 shown in Figure 36 can be the guide vane 47 of T font, this guide vane 47 is provided with guide portion 471 and connecting fixed part 472, and the area 471a of this guide portion 471 is big than the area 472a of connecting fixed part 472, or be down L shaped guide vane 48, this guide vane 48 is provided with guide portion 481 and connecting fixed part 482, and the area 481a of this guide portion 481 is big than the area 482a of connecting fixed part 482, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 423, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Please consult Figure 37 again, Figure 38, its solid of Figure 39 and the present invention's the 8th preferred embodiment shown in Figure 40 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its import 422 that lies in framework 42 that do not exist together is provided with the rib 46 that is the radiation arrangement, this rib 46 is provided with guide portion 461 and connecting fixed part 462, and the area 461a of this guide portion 461 is big than the area 462a of connecting fixed part 462, flow in the fluid radial pressure of framework 42 with change, and reach the effect of control flow direction.
See also Figure 41, Figure 42 and the present invention's the 9th preferred embodiment shown in Figure 43, as shown in the figure, include fan 51 and framework 52, wherein these framework 52 cordings have the import 522 of flowing for fluid, outlet 523, and be provided with hub seat 521 in this framework 52, this fan 51 is made up of fan hub 511 and electric fan 512, with the hub seat 521 of fan hub 511 corresponding frameworks 52 so that fan 51 be arranged in the framework 52, and be provided with the guide vane 54 that radiation is arranged in the import 522 of framework 52, and these guide vane 54 1 ends connect hub seat 521 with guide portion 541, the other end is connected in framework 52 with connecting fixed part 542, and the area 541a of this guide portion 541 is big than the area 542a of connecting fixed part 542, flow in the fluid radial pressure of framework 52 by guide vane 54 with change, and reach the effect of control flow direction.
Please consult shown in Figure 44 again, produce time-dependent flow field during electric fan 512 turns and change the drive fluid by import 522 inflows, flow out via outlet 523 again, and when fluid flow is crossed import 522, be subjected to the control of area 541a of the guide portion 541 of guide vane 54, fluid produces than big radial pressure variation and flows toward electric fan 512 ends, passes through outlet 523 o'clock through electric fan 512 turns in it again, strengthens because of the big radial pressure variation of fluid generation makes fluid outwards spread flow range.
Please consult Figure 44, Figure 45 again, guide vane 54 of the present invention shown in Figure 46 can be the guide vane 57 of T font, this guide vane 57 is provided with guide portion 571 and connecting fixed part 572, and the area 571a of this guide portion 571 is big than the area 572a of connecting fixed part 572, or be down L shaped guide vane 58, this guide vane 58 is provided with guide portion 581 and connecting fixed part 582, and the area 581a of this guide portion 581 is big than the area 582a of connecting fixed part 582, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 523, and then reach the effect of controlling flow direction.
Please consult Figure 47 again, Figure 48, its solid of Figure 49 and the present invention's the tenth preferred embodiment shown in Figure 50 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its import 522 that lies in framework 52 that do not exist together is provided with the rib 56 that radiation is arranged, this rib 56 is provided with guide portion 561 and connecting fixed part 562, and the area 561a of this guide portion 561 is big than the area 562a of connecting fixed part 562, flow in the fluid radial pressure of framework 52 with change, and then reach the effect of control flow direction.
See also Figure 51, the present invention's the 11 preferred embodiment shown in Figure 52 and Figure 53, as shown in the figure, include fan 61 and framework 62, wherein these framework 62 tools are for the mobile import 622 of fluid, outlet 623, and be provided with hub seat 621 in this framework 62, this fan 61 is made up of fan hub 611 and electric fan 612, with the hub seat 621 of fan hub 611 corresponding frameworks 62 so that fan 61 be arranged in the framework 62, and be provided with the guide vane 64 that radiation is arranged in the import 622 of framework 62, and these guide vane 64 two ends are arranged in framework 62 and wheel paddy seat 621 with guide portion 641 separately, interconnect with connecting fixed part 642 in guide portion 641 the other ends again, and the area 641a of this guide portion 641 is big than the area 642a of connecting fixed part 642, flow in the fluid radial pressure of framework 62 by guide vane 64 with change, and reach the effect of control flow direction.
Please consult Figure 54 again, produce time-dependent flow field during electric fan 612 turns and change the drive fluid by import 622 inflows, flow out via outlet 623 again, and when fluid flow is crossed import 622, be subjected to the control of area 641a of the guide portion 641 of guide vane 64, fluid produces radial pressure and changes toward fan hub 611 and electric fan 612 ends mobile, again through electric fan 612 turns and Yu Qiliu by the outlet 623 o'clock, fluid is toward fan hub 611 rear center flow and outwards diffusion is mobile, and fluid flows to fan hub 611 rears, reduce the stagnant area that fan hub 611 rears produce, so go up when taking the internal system heat to context when it is applied in heat radiation, can significantly promote radiating efficiency, make the integral heat sink better effects if.
Please consult Figure 54 again, Figure 55, guide vane 64 of the present invention shown in Figure 56 can be the guide vane 67 of H font, this guide vane 67 is provided with guide portion 671 and connecting fixed part 672, and the area 671a of this guide portion 671 is big than the area 672a of connecting fixed part 672, or be the guide vane 68 of spill, this guide vane 68 is provided with guide portion 681 and connecting fixed part 682, and the area 681a of this guide portion 681 is big than the area 682a of connecting fixed part 682, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 623, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Please consult Figure 57 again, Figure 58, its solid of the present invention's the 12 preferred embodiment shown in Figure 59 and Figure 60 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its import 622 that lies in framework 62 that do not exist together is provided with the rib 66 that shape is arranged in radiation, this rib 66 is provided with guide portion 661 and connecting fixed part 662, and the area 661a of this guide portion 661 is big than the area 662a of connecting fixed part 662, flow in the fluid radial pressure of framework 62 with change, and reach the effect of control flow direction.
See also the present invention's the 13 preferred embodiment shown in Figure 61, Figure 62 and Figure 63, as shown in the figure, on framework 71, offer import 712, the outlet 713 of flowing, and be provided with hub seat 711 in this framework 71 for fluid, and the guide vane 72 of radiation arrangement.
And this blower module 73 is to be made up of fan frame 74 and fan 75, wherein should fan frame 74 tool imports 741, outlet 742, being provided with supporting portion 743 air feeds fan 75 in fan frame 74 is provided with, this fan 75 is made up of fan hub 751 and electric fan 752, with fan hub 751 corresponding supporting portions 743, so that fan 75 is arranged in the fan frame 74.
These guide vane 72 1 ends are connected in framework 71 with guide portion 721, the other end is connected in hub seat 711 with connecting fixed part 722, and the area 721a of this guide portion 721 is big than the area 722a of connecting fixed part 722, framework 71 is arranged in outlet 742 places of blower module 73, change the fluid radial pressure that flows in blower module 73 and framework 71 by guide vane 72, make that the fluid of outlet 713 of framework 71 can be toward center flow, can be not immediately to external diffusion with effect that reaches the control flow direction and the generation that reduces noise.
Please consult Figure 61 again, shown in Figure 64, produce time-dependent flow field during electric fan 752 turns and change of import 741 inflows of drive fluid by blower module 73, via the outlet 742 of blower module 73 and the import 712 of framework 71, flow out via the outlet 713 of framework 71 again, and when fluid flowed framework 71, be subjected to the control of area 721a of guide portion 721 of the guide vane 72 of framework 71, fluid produces big radial pressure to be changed toward hub seat 711 rear center flow, and flow to hub seat 711 rears because of fluid has more flow, reduce the stagnant area that hub seat 711 rears produce, so when it is applied in when taking the internal system heat to context, can significantly promote radiating efficiency, make whole radiating effect better.
Please consult Figure 64 again, Figure 65, shown in Figure 66, guide vane 72 of the present invention can be the guide vane 77 of T font, this guide vane 77 is provided with guide portion 771 and connecting fixed part 772, and the area 771a of this guide portion 771 is big than the area 772a of connecting fixed part 772, or be down L shaped guide vane 78, this guide vane 78 is provided with guide portion 781 and connecting fixed part 782, and the area 781a of this guide portion 781 is big than the area 782a of connecting fixed part 782, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 713, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Please consult Figure 67 again, Figure 68, its solid of the present invention's the 14 preferred embodiment shown in Figure 69 and Figure 70 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and its difference is in the rib 76 that is provided with the radiation arrangement in framework 71, this rib 76 is provided with guide portion 761 and connecting fixed part 762, and the area 761a of this guide portion 761 is big than the area 762a of connecting fixed part 762, flow in the fluid radial pressure of framework 71 and blower module 73 with change, and reach the effect of control flow direction.
And the framework 71 in the above-mentioned the 13 and 14 preferred embodiments not only can be arranged in outlet 742 places of blower module 73, also can be arranged in import 741 places of blower module 73, changes the fluid radial pressure to reach, and then the effect of control flow direction.
See also the present invention's the 15 preferred embodiment shown in Figure 71, Figure 72 and Figure 73, be provided with import 812, the outlet 813 of flowing in framework 81 as shown in the figure, and be provided with hub seat 811 in this framework 81 for fluid, and the guide vane 82 of radiation arrangement.
And this blower module 83 is to be made up of fan frame 84 and fan 85, wherein should fan frame 84 cording imports 841, outlet 842, being provided with supporting portion 843 air feeds fan 85 in fan frame 84 is provided with, this fan 85 is made up of fan hub 851 and electric fan 852, with fan hub 851 corresponding supporting portions 843, so that fan 85 is arranged in the fan frame 84.
These guide vane 82 1 ends are connected in hub seat 811 with guide portion 821, the other end is connected in framework 81 with connecting fixed part 822, and the area 821a of this guide portion 821 is big than the area 822a of connecting fixed part 822, framework 81 is arranged in outlet 842 places of blower module 83, changes the fluid radial pressure that flows in blower module 83 and framework 81 by guide vane 82.
Please consult shown in Figure 71, Figure 74 again, produce time-dependent flow field during electric fan 852 turns and change of import 841 inflows of drive fluid by fan frame 84, flow through the fan outlet 842 of frame 84 and the import 812 of framework 81, flow out by the outlet 813 of framework 81 again, and cross outlet 813 the time when fluid flow, be subjected to the control of area 821a of guide portion 821 of the guide vane 82 of framework 81, fluid produces radial pressure to be changed, outwards diffusion circulation, and, make that outwards the diffusion flow range strengthens because of the fluid radial pressure increases.
Please consult guide vane 82 of the present invention shown in Figure 74, Figure 75, Figure 76 again and can be the guide vane 87 of T font, this guide vane 87 is provided with guide portion 871 and connecting fixed part 872, and the area 871a of this guide portion 871 is big than the area 872a of connecting fixed part 872, or be down L shaped guide vane 88, this guide vane 88 is provided with guide portion 881 and connecting fixed part 882, and the area 881a of this guide portion 881 is big than the area 882a of connecting fixed part 882, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 813, and then reach the effect of controlling flow direction.
Please consult Figure 77 again, Figure 78, its solid of the present invention's the 16 preferred embodiment shown in Figure 79 and Figure 80 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and it does not exist together and lies in framework 81 and be provided with and be the rib 86 that shape is arranged in radiation, this rib 86 is provided with guide portion 861 and connecting fixed part 862, and the area 861a of this guide portion 861 is big than the area 862a of connecting fixed part 862, flow in the fluid radial pressure of framework 81 and blower module 83 with change, and reach the effect of control flow direction.
And the framework 81 in the above-mentioned the 15 and 16 preferred embodiments not only can be arranged in outlet 842 places of blower module 83, also can be arranged in import 841 places of blower module 83, changes the fluid radial pressure to reach, and then the effect of control flow direction.
See also the present invention's the 17 preferred embodiment shown in Figure 81, Figure 82 and Figure 83, be provided with import 912, the outlet 913 of flowing in framework 91 as shown in the figure, and be provided with hub seat 911 in this framework 91 for fluid, and the guide vane 92 of radiation arrangement.
And this blower module 93 is to be made up of fan frame 94 and fan 95, wherein should fan frame 94 cording imports 941, outlet 942, being provided with supporting portion 943 air feeds fan 95 in fan frame 94 is provided with, this fan 95 is to be made up of fan hub 951 and electric fan 952, with fan hub 951 corresponding supporting portions 943, so that fan 95 is arranged in the fan frame 94.
These guide vane 92 two ends are provided with guide portion 921, and it connects framework 91 and hub seat 911 separately, interconnect with connecting fixed part 922 in guide portion 921 the other ends again, and the area 921a of this guide portion 921 is big than the area 922a of connecting fixed part 922, framework 91 is arranged in outlet 942 places of blower module 93, changes the fluid radial pressure that flows in blower module 93 and framework 91 by guide vane 92.
Please consult Figure 81 again, Figure 84, produce time-dependent flow field during electric fan 952 turns and change of import 941 inflows of drive fluid by blower module 93, the flow through outlet 942 of blower module 93 and the import 912 of framework 91, flow out via the outlet 913 of framework 91 again, and when fluid flow during to the outlet 913 of framework 91, be subjected to the control of area 921a of guide portion 921 of the guide vane 92 of framework 91, fluid produces radial pressure to be changed, flow toward hub seat 911 rear center flow and outside diffusion, so because of fluid flows to hub seat 911 rears, reduce the stagnant area that hub seat 911 rears produce, so when it is applied in when taking the internal system heat to context, can significantly promote radiating efficiency, make that whole radiating effect is better.
Please consult Figure 84 again, guide vane of the present invention 92 shown in Figure 85 and Figure 86 can be the guide vane 97 of H font, this guide vane 97 is provided with guide portion 971 and connecting fixed part 972, and the area 971a of this guide portion 971 is big than the area 972a of connecting fixed part 972, or be the guide vane 98 of inverted concave, this guide vane 98 is provided with guide portion 981 and connecting fixed part 982, and the area 981a of this guide portion 981 is big than the area 982a of connecting fixed part 982, above-mentioned two kinds of fluid radial pressures that all can change stream by outlet 913, and then reach the effect of controlling flow direction, increase heat dissipation potential.
Please consult Figure 87 again, Figure 88, its solid of the present invention's the 18 preferred embodiment shown in Figure 89 and Figure 90 is decomposed, combination schematic representation and direction of flow schematic representation, its overall structure is roughly identical with last preferred embodiment with function, promptly repeat no more at this, and it is not in framework 91 together and is provided with and is the rib 96 that shape is arranged in radiation, this rib 96 is provided with guide portion 961 and connecting fixed part 962, and the area 961a of this guide portion 961 is big than the area 962a of connecting fixed part 962, flow in the fluid radial pressure of framework 91 and blower module 93 with change, and reach the effect of control flow direction.
And the framework 91 in the above-mentioned the 17 and 18 preferred embodiments not only can be arranged in outlet 942 places of blower module 93, also can be arranged in import 941 places of blower module 93, changes the fluid radial pressure to reach, and then the effect of control flow direction.
The above only is preferable feasible preferred embodiment of the present invention, and the variation that above-mentioned method, shape, structure, the device of all the present invention of utilization done all should be contained in protection scope of the present invention.

Claims (4)

1. wind direction outlet controller, with a blower module winding, it includes a framework, and tool inlet/outlet, in framework, be provided with hub seat, and between hub seat and framework with the fluid control unit mutually mutual connection establish, it is characterized in that: this fluid control unit is radiation and arranges, and the area of this fluid control unit is outwards cumulative again after decrescence from hub seat, by the fluid control unit direction of flow of outflow is controlled.
2. wind direction outlet controller as claimed in claim 1 is characterized in that: this blower module comprises fan and fan frame.
3. wind direction outlet controller as claimed in claim 1 is characterized in that: this fluid control unit assembly is a guide vane.
4. wind direction outlet controller as claimed in claim 1 is characterized in that: this fluid control unit is a rib.
CNA2008100982809A 2003-07-22 2003-07-22 Wind direction vent control device Pending CN101294583A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNB031460879A CN100453821C (en) 2003-07-22 2003-07-22 Wind direction outlet controlling means

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
CNB031460879A Division CN100453821C (en) 2003-07-22 2003-07-22 Wind direction outlet controlling means

Publications (1)

Publication Number Publication Date
CN101294583A true CN101294583A (en) 2008-10-29

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Application Number Title Priority Date Filing Date
CNA2008100982796A Pending CN101298872A (en) 2003-07-22 2003-07-22 Wind direction outlet control device
CNA2008100982809A Pending CN101294583A (en) 2003-07-22 2003-07-22 Wind direction vent control device
CNA2008100982847A Pending CN101307781A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CNA2008100982828A Pending CN101298873A (en) 2003-07-22 2003-07-22 Wind direction outlet control device
CNA2008100982813A Pending CN101307780A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CNA2008100982832A Pending CN101294584A (en) 2003-07-22 2003-07-22 Wind direction vent control device
CNB031460879A Expired - Fee Related CN100453821C (en) 2003-07-22 2003-07-22 Wind direction outlet controlling means
CNA2008100982851A Pending CN101307782A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CN2008100982777A Expired - Fee Related CN101294582B (en) 2003-07-22 2003-07-22 Wind direction vent control device
CN2008100982781A Expired - Fee Related CN101307779B (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CN2008100982866A Expired - Fee Related CN101298874B (en) 2003-07-22 2003-07-22 Wind direction outlet control device
CNA2008101440978A Pending CN101328909A (en) 2003-07-22 2003-07-22 Wind direction outlet control device

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CNA2008100982796A Pending CN101298872A (en) 2003-07-22 2003-07-22 Wind direction outlet control device

Family Applications After (10)

Application Number Title Priority Date Filing Date
CNA2008100982847A Pending CN101307781A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CNA2008100982828A Pending CN101298873A (en) 2003-07-22 2003-07-22 Wind direction outlet control device
CNA2008100982813A Pending CN101307780A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CNA2008100982832A Pending CN101294584A (en) 2003-07-22 2003-07-22 Wind direction vent control device
CNB031460879A Expired - Fee Related CN100453821C (en) 2003-07-22 2003-07-22 Wind direction outlet controlling means
CNA2008100982851A Pending CN101307782A (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CN2008100982777A Expired - Fee Related CN101294582B (en) 2003-07-22 2003-07-22 Wind direction vent control device
CN2008100982781A Expired - Fee Related CN101307779B (en) 2003-07-22 2003-07-22 Wind direction exit port control device
CN2008100982866A Expired - Fee Related CN101298874B (en) 2003-07-22 2003-07-22 Wind direction outlet control device
CNA2008101440978A Pending CN101328909A (en) 2003-07-22 2003-07-22 Wind direction outlet control device

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CN101555891B (en) * 2008-04-10 2012-03-14 台达电子工业股份有限公司 Fan and fan frame

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Publication number Publication date
CN101298872A (en) 2008-11-05
CN101307779A (en) 2008-11-19
CN101298874B (en) 2012-07-04
CN101328909A (en) 2008-12-24
CN101307781A (en) 2008-11-19
CN1570400A (en) 2005-01-26
CN100453821C (en) 2009-01-21
CN101298873A (en) 2008-11-05
CN101294582A (en) 2008-10-29
CN101294582B (en) 2012-08-15
CN101294584A (en) 2008-10-29
CN101307780A (en) 2008-11-19
CN101298874A (en) 2008-11-05
CN101307782A (en) 2008-11-19
CN101307779B (en) 2012-07-04

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Application publication date: 20081029