TWM253211U - Heat dissipation system with multiple heat dissipation devices - Google Patents

Description

M253211 3. Creation instructions (l) I. [New type belongs to a new type refers to a type of system that includes a finned heat sink. I. [Previous technology is applied to the technical field of electricity due to the fast computer] Sheet component type 1 :: heat dissipation system of thermal element 'especially-heat source structure is more; heat dissipation magnetic effect of multiple heat dissipation elements such as fans and heat pipes Pass the face of the "vendor" ^ and then use the wind to dissipate heat from the fins. The appearance of this heat sink is because of the single heat dissipation of the electronic elements that are operated by the law, and it is obvious that this case will be generated, which is generally a borrowing fan. The heat dissipation on the production film is from the wind device, so that under normal circumstances, the components such as the middle element can be improved. The creator performs the effect of the brain on the continuous heating of the electronic crystal, which generates heat from the cold air. The fan in the device is used for normal use. For users and users, it is still necessary to handle the heat source in view of the rate. For example, the central part of the meniscus is used for a period of time. By a single 'generation of air-conditioning will be installed in a place where the wind cannot be detected without the continuous use of electrical appliances and other damage to the cooling device' its processing speed is getting more and more processors After other electronic crystals, due to high-frequency oscillation or electricity to dissipate heat in a timely manner, it is very easy to respond to its efficiency due to temperature. Therefore, at present, the fins are heated on the heat source that requires heat dissipation to conduct the heat source. The fan flows into the cooling fins, and in the main box, whether the fan of the computer ’s main fan is operating normally. The fan for cooling is caused by the “situation” in the main computer—only by In the application, τ < unreliable is a result of research and innovation, revealing-

$ 5 pages

M253211

4. Creative Instructions (2) A cooling system with multiple cooling elements. III. [New Plastic Content] The purpose of this new plastic is to provide a heat dissipation system with multiple heat dissipation elements, including: fin members, composed of most side-by-side fin bodies; heat exchange tube groups In the fin body, the inlet end of the heat exchange tube group is connected to the outlet end of a hydraulic pump, and the outlet end of the heat exchange tube group is connected to the inlet end of the hydraulic pump; a fan is fixed to the fin. The fin member 2 has one side, so that its wind direction is directed to the fin member; a heat pipe is inserted into each of the fin bodies; and a heat source socket is connected between the heat pipe and the three heat sources to The heat energy of the heat source is quickly transferred to the fins ^ through the heat-conducting tube, and the cold air blown by the fan is circulated in the heat exchange tube 纟 and cold ^ to dissipate the ^ component; The creative system consists of multiple heat-dissipating components such as fans, heat pipes, and gastric slices. The heat source is used to dissipate heat. When one of them is broken, such as a fan or a cooling tube, it is used to circulate the heat in the tube Bei Shi, please place, # ^ 衣 ... 衣 杨 & 甲 之The damage of the hydraulic pump of the fluid suddenly rose :: 2 The heat dissipation element radiates heat to the heat source to avoid the damage of the heat source ... ', the heat source ... (such as the central processing unit). The desirable entity' can be described below and attached Figures, and IV. [Embodiment] Heat dissipation: As shown in Figures 1-4, the new system is related to-a type with multiple reorganization (20), η thermal system / system includes · fin member (10), Heat exchange pipe fittings, such as 1 ^ (30), heat pipe (40), heat source socket (50), and other heat sinks-",, source (60) constitute a heat dissipation system with multiple heat dissipation elements M253211

The fin component (10) of the cooling basin with multiple heat dissipation elements disclosed in this creation is composed of a majority of "W, Shi /, and tube replacement groups (20), placed in each continuation: ⑴); the heat transfer The inlet end (20a) of the uo) is connected to the outlet end of a hydraulic pump (21) (21 • Haier = the official replacement set (20 ^ the outlet end (20b) is connected to the inlet end (21b) of the hydraulic pump (21)) The fan (30) is fixed to one of the fin members (ι〇), and the direction of the wind is directed to the fin member (10); the guide tube (40) is put through each of the fins In the body (11); and 哕, 盾, and 勒勒 广 u ^ ^ ^, π Λ „^ and the 痃 connected source heat base (50) is connected to the °) to connect the heat energy of the heat source (6 °) It is quickly transferred to each fin body (11) through heat conduction & (40), and is cooled by the cold air blown by the fan (30) and the cooling liquid circulating in the heat exchange tube group (20). The heat dissipation of the fin member (10); that is, the creation uses multiple heat dissipation elements such as a heat exchange tube group (20), a fan (30), a heat transfer tube (40), and a fin member (10). The formed heat dissipation system performs heat dissipation on the heat source (60). When one of the heat-dissipating elements is damaged, such as the fan (20) or the hydraulic pump (2 1) used to circulate the coolant in the heat exchange system (1-20), other heat-dissipating elements can be used to apply heat to the heat source. Pre-heating to avoid the sudden heating up of the heat source, which will cause damage to the heat source ... (such as the central processing unit). The fin member (10) mentioned above is taken from most fin bodies (11) The juxtaposed Feng group is formed with a space between each fin body (11) to allow the cold air generated by the fan (30) to pass through, but this creation does not limit the type of the component of the book It can also be taken from the fin components currently used in general, and is not self-limiting. "Fourth, creation instructions (4)

Live the two one:; = V is defined on both sides as-wind guide two (,) and outside, in the cover ⑺) relative to the wind guide σ (711) outside figure J711) and-wind guide exit (712) 'And the fan ⑺, so that the fan ⑼; with a lock connection energy, out: = piece = of () to the outside and take away. Furnace two daggers !: The revealed heat exchange tube group (2 °) can be composed of a single-hollow-body or a series of hollow tube bodies (20,) in series, so that each hollow g is connected by an infusion tube (2 2 ) To be connected in series. Shangbo Er " 〇) pass through and are embedded in each fin body (⑴ 空 = :) is the cooling liquid in each hollow tube body (20,), can make ^ ^ precession Heat exchange to bring the thermal energy on the rotor body ⑴) away from the two sheet boundaries only shows the heat dissipation system with multiple heat dissipation elements, which can be only 3 and early, heat officials (40) or most heat pipes (4〇 ), Let each heat pipe two: Hi thermal conductivity material (such as copper) made from heat conduction material (40), each heat conduction officer (40) is passed through and embedded in each fin body (ιι), When the heat energy of the heat source (60) is transferred to the heat source socket (50), its contribution

It can be quickly transferred to each of the Korean film members (10) through the heat-conducting pipes (40) to the contact piece body (1 1) which is in contact with it, to check the heat dissipation of s forget + I source ⑽ fortunately spread to the outside. In order to enhance the heat, the heat dissipation system with multiple heat dissipation elements is disclosed. The heat source socket (50) contains: the lower socket (51) on the top surface of the plate M253211. 4. Creation instructions (5)-(5) 11), is defined as a carrier to bridge each heat conduction and heat exchange tube group (20); and a upper seat (52), "span placed in each conduction heat (40) 'or heat exchange tube Above the middle section of the group (30), a side wall (521) is protruded on each side of the upper seat to fix 1 side wall of the lower socket (51) by a screw lock 7 to communicate with the lower socket (51 ) Stably clamp each heat pipe (40 or heat exchange tube group (20). The heat source socket (50) shown above, wherein a groove (522) is formed at the top of the upper seat (52). For the purpose of bridging a buckle (not shown) inside. The cooling system with multiple cooling elements disclosed in this creation can be applied to a computer central processing unit or other On the side hardware or chip, this creation is not self-limiting. The heat dissipation system with multiple heat dissipation components disclosed in this creation, as shown in the fourth figure, is a heat exchange tube set that can make one of the heat dissipation systems (20) The heat exchange tube group (20) connected in series to another heat dissipation system enables most heat dissipation systems to be applied in series. The heat dissipation system with multiple heat dissipation elements disclosed in this creation has the following characteristics and advantages to show its Novelty and practicability: 1. Using multiple heat dissipation components such as sequel component (10), heat exchange tube group (20), fan (30), and heat pipe (40), it can dissipate heat from a heat source, which can greatly reduce heat. Improve the heat dissipation efficiency of the heat source. # 2 · When the hydraulic pump (21) used to circulate the coolant is damaged in the above heat exchange tube group (20), the heat source (40) can still be used to quickly heat the heat source (40). 60) The heat energy is transferred to each fin body (11), except for each fin body (η)

M253211 IV. Creation instructions (6) Lightly radiate heat to the outside, and at the same time, use a fan (30) to pass through the cold * Dissipate the thermal energy on the fin body (11) of the sheet member (10) outwards: still satisfy This heat source is required for heat dissipation. " 3. When the above heat exchange tube group (20) is used to circulate the coolant and the: fan (30) is also damaged at the same time, the political and thermal system disclosed in this work can still be conducted by heat. The tube (4 thermal energy is quickly transferred to the fin structure W — the fan… the source (60) of the η camera (1 0) female-fin body (] n b, pull a fin body (11) and radiate to the outside world + On the private basket U1), the hunter rises by π, causing 埶 i to shoot outside the heat to avoid the sudden heat source (60), the dish, V causing the heat source C such as the central processing unit to be damaged. 4. It is possible to connect the first and second secrets of the majority of the heat dissipation systems: Az / Zhongxi Private, Le, Lian, and Xun; τ Γ The heat-father replacement group (20) can be connected in series to dissipate heat from most heat sources. Τ The structure and secrets revealed by this new model, 7M ^ and Fan, should be modified to reflect the spirit of the new model

Brief description of the drawings V. [Simplified illustration of the first picture: the first picture of the new model ... The third picture of the new model: the display of the fourth picture: the first diagram of the series [element symbol simply (1 0) Fin member (20 ') Hollow pipe body (21) Hydraulic pump (22) Infusion tube (50) Heat source socket (52) Upper seat (60) Heat source (711) Air inlet (20) Heat exchange Pipe (20b) outlet end (21b) inlet end (40) heat pipe (5 11) top plate surface (522) groove (71) cover (7 2) fixing hole

Ming] three-dimensional schematic. The schematic diagram of the local structure decomposition. Schematic diagram of new application status. f-type = a diagram showing an example of the application of a heat exchange tube in most heat dissipation systems. Ming] (11) Fin body (20a) Inlet end (21a) Outlet end (3 0) Fan (5 1) Lower socket (5 2 1) Side wall (70) Fan socket (712) Air outlet

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Claims (1)

M253211 5. Scope of patent application 1. A heat dissipation system with multiple heat dissipation elements, including: a fin member, composed of a plurality of side-by-side fin bodies; a heat-parent tube replacement group is placed in each fin body, and The inlet end of the heat exchange tube group is connected to the outlet end of a hydraulic pump, and the heat exchange tube group and the outlet end are connected to the inlet end of the hydraulic pump; A body; and a heat source socket, which is connected between the heat pipe and the heat source to quickly transfer heat and heat to the fin body through the heat pipe. ",, ~ 2 · The multiple heat sink element with multiple heat sinks as described in item 1 of the scope of patent application ^ u IT < Distribution system, further including a fan, fastened to one of the fin members ", The direction of the wind is directed to the fin member. W '3 · The system with multiple heat dissipation elements as described in item 2 of the scope of the patent application, further including a fan socket, the fan socket contains a political heating body, a cover The fins that hold the fin member are outside the cover. The sides of the cover are defined as an air inlet and an air outlet, and around the opposite entrance of Y, there are multiple fixing holes for locking. The cold air flow generated by the wind horse from the guide fan can guide the gap between the fin bodies of the wind from the guide of the military body and follow the wind guide outlet to the outside: the inlet channeling in 4. If the scope of patent application The system with multiple heat-dissipating rats as described in item 1. The system, wherein the heat exchange tube group can be composed of the heat dissipation of most of the middle pieces, and the hollow tube bodies are connected by infusion tubes in series. The two official bodies are connected in series 5 · A system with multiple dispersions as described in item 1 of the scope of patent application, which contains most of the thermal conductivity Let each heat pipe = The heat dissipation of the component be placed in the sleeve hole of each fin body. &Amp; Blades pass through and are embedded M253211-Application for patent scope 6 · If you apply for a patent system, 'the end plate surface, the system' One upper seat, two sides, and side walls respectively, and 7. For example, when applying for a patent system, the end plate surface is the tube changer group; the middle section of the group is secured by screws to clamp the heat conduction 8 9 · If you apply for a patent system, of which 〇1 〇 · The heat dissipation system of a patent application is a user of a heat dissipation system. The multiple heat sinks described in this item include: The first connection range is defined by the heat source connection to form a crossover. A side wall is protruded in each of the heat conducting pipes to stably clamp each of the described mounting platforms by screws, and the first connection range of the lower connection seat and the heat source connection seat are defined to form a carrier stage to bridge. Above each guide section, the wire is fixed to the guide tube ^ ,,,, & Multiple heat dissipation: Connect the heat pipes of each guide at the same time, respectively, so as to protrude with the upper seat and cross the side, so that the Both sides of the upper seat are fixed to the side wall of the lower socket Pipe and heat exchange tube group. The top of the heat source socket with multiple heat sinks described in item 1 of Mosewei, and a heat sink with a component formed on the top of the heat source socket described in range 6 above. A top heat pipe; and a heat sink of the upper seat and the lower seat of the 0 component, and a side wall of the top heat pipe and the heat exchange and heat exchange tube is provided to stabilize the heat dissipation groove of the lower seat. 'Multiple heat dissipation systems as described in item 1 or 2 of the heat dissipation range of the component with a groove formed' means that the heat exchange tube group of the heat dissipation system is connected in series to another heat exchange tube group 'so that most of the heat dissipation systems Tandem