TWM249103U - Improved configuration structure for heat sink module and thermo conductive pipe - Google Patents

Description

M249103 、 Creation Note (1) [Technical Field] It relates to a computer cooling mode, especially a double-sided heat pipe matching hall: the configuration structure of J guide officer and the innovative structure space type. Industrial heat radiation and exhaust gas [Previous technology] "Press, the central processor of the electric cat device (this is the case for desktop electric contacts, the normal operation of the original eight ') The role of the cooling module is more important τ In the case of compact computers, the CPU is constantly upgraded and advanced, 'especially the current notebook computers will affect the normal operation of the CPU. 4 and 2 ca n’t be matched, obviously. High-speed CPU damage; and the conventional loose core, and ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-, The duct (64) is composed of one end of the total heat exchanger (63) and ^ A m ^ rDπ / ... guide g (64) on the earth, Xi Fengyun-2 7 (6 5) 'The other end is set in a heat sink (6 away from V, the groove (61) is a single-tongue end⑽) space type) is only the right milk flow towards the scattered part (as indicated by the arrow in the figure) Xi 4 One of the states where JίIt is exhausting heat. Because of this, f is a heat pipe and heat is exhausted in one direction only. Therefore, heat exhaustion is another kind of known structure. It is as shown in Figure 8. It shows that the difference between the aforementioned structure and the structure is that the fan tank (61) is provided with another side of the heat row (63B), and the heat pipe (64) φ cooperates to form a turn extension (642) However, although the heat dissipation effect of this improvement is better than the previous page M24yi〇3 IV. Creative Instructions (2), but because the fan heatsink (6 3) discharges the turning extension (6 2 2, annihilation; And this type of added structure is still like (63B), (63C). The existing problems are still 丨 one side of the heat dissipation bar, | Great progress has been made .: So, for the above: problems existing in the structure A new and ideal point of practicality [new content] The technology to be solved and the heat pipe configuration have a heat dissipation effect. The heat sink and the heat pipe are set up to solve the problem. Among them, the base is also included in the base: There are two heat flows in the left and right directions of the base, and there are two heat flows to the outside; the main exhaust flow of the heat group (6 2) is still from one side, so the additional heat radiation bar (63B) is caused. The cooling effect that can be achieved by 1 is quite weak and has the same effect. The heat radiation bar (63B), the turning extension (642), figure 9 'iO, and a second heat pipe are added. However, the structural change is due to its effective heat dissipation effect or is limited to a single unit. Therefore, it is not possible to describe the heat dissipation benefits of the overall heat dissipation module. Knowing how the computer heat dissipation module and the heat pipe are configured, 'how to develop a better heat dissipation efficiency and structure' is the industry's need to improve the breakthrough. The structure is a single problem. The main problem is the direction of the problem plus its general 'where the side of the base has a heat conduction surface to diagonally face the base with heat dissipation, so that it has a U-shaped heat conduction surface groove system. Set the air flow; The air outlet duct is designed to improve the breakthrough by using the conventional computer diffuser and one-way or two-way. The system includes a base and a wind guide groove on the wind side for the combination of c PU sets; between the rows; its technically opposite two tongue ends have left and right tubular tubes for the aforementioned two directions, and the middle section is a thermal module This thermal feature package can produce two sides of the heat conduction fan group and the fan group. The air group can be set on M249103. 3. Creation instructions (3) The heat conduction surface of the base, the angles are separated, and the left and right sides dissipate heat. The structure of the heat multi-tube parallel to the prior art is mainly to significantly improve the computer dispersion by changing the gas outlet to the airflow and the heat. [The implementation side is described as follows: First, the heat module and the Including the base tube (40) The heating surface of the fan unit (1 2 combined; the) and the heat-dissipating type] After your review, please match the heat pipe (10): (20)) for the heat pipe row (30 and The left and right sides are turned to the battalion and the left and right sides are parallel or have an inwardly inclined row. Σ g. The conduits respectively arranged on the base can be M _ type at the single pipe. S, Ό configuration type It can also be a double tube, and the effect of surgery: And '$ said, there are two tongue ends to generate two f-side two-side heat dissipation bars and two heat-conducting two-side steering tube end special structure design, which can heat the module and conduct heat efficiently. In response to the overheating phenomenon caused by the continuous upgrading of the CPU (CPU), you can understand and understand the purpose, features, and effects of this creation. Please refer to Figures 1, 2, and 3 for details. This is a preferred embodiment of the improved configuration structure of this creative fan. The large system, fan unit (20), heat sink (30), and one side of the base (1 0) that conducts heat are provided with a guide groove (丨 丨) The central processing unit (CPU) with a guiding computer on the other side of the base (1 0) (not shown) (set (40) is set in the base (1)) Between the heat conducting surface (work 2); its characteristics include:

M249103 IV. Creation instructions (4) The base tongue (13) can produce the base (3 1) and has two directions: The heat guide group is set in the base (50): towards the pipe end (41 丨 to the pipe ends respectively; (31) The above is inherited from the above figure, the 14) can generate two-way airflow and divide the outlet (32) into a U-shaped manager (CPU) into two sides to reach the second row of heat By. There is also a design in which the hot air exhaust (3 3) is discharged to the outside; on the other hand, the heat and gas shape design makes the heat generated by a notebook computer (50) g (4 0) The middle of the middle section of the tube (43) is conducted to the left and right steering tube ends (41) and led to the side heat sink (30) (31), which can be blown out by blowing out> 2) < air flow, as shown in Figure 5 It is shown that this is the other — ^ (1 0) of the heat pipe. The diversion groove (1 1) is provided with two diagonally opposite (14) (the pressure points for generating the exhaust airflow). The outgoing air flows (A1) (A2); (1 0) in two directions are provided with left and right opposite heat radiation bars (30) and two hot air outlets (32) (33) for the aforementioned air flow ( A1) (A 2) are discharged to the outside; the tube (40) is provided in a U-shaped tube, and the middle section (4 3) of the tube (4) is the heat-conducting surface (12) of the notebook computer to absorb the CPU The heat generated, and the left and right turns) (42) are parallel to each other, and the left and right turn sets are arranged on the left and right heat dissipation bars (Μ〆〇) of the base (1 0). Type The airflow action during heat dissipation is like when the fan unit (20) rotates, the airflow through the two tongue ends (丨 3) (left and right directions (A1) (A2) is sequentially discharged from the two sides (3)) (31) and

The end of the right-hand steering tube (4 1) (4 2) forms eight different types of sadness.

M249103 Fourth, creation says 9 ^ 7 ^^ ----------------- J3 Yan Xuan poor tb-turning tube end (7) or (42) Xiao tube of inclination angle 7 The middle section has the shape of (χ); the purpose of this structural design is that ... because it is directly exposed to the left and right heat dissipation bars (30) or (31) if one side of the $ row (3 ° note type If the computer (50) is discharged from the outside, then the other side will be scattered, "1" or (30) will have a turning angle with the outside wall of the computer. This will not help the smooth export of heat, so, will The turning pipe end (41) or (4 2) of the heat pipe (40) is designed to have an inclination angle (XL space type), so that the hot gas exhaust port can be biased to the outside of the notebook computer (50) Wall, and then can be further cooperated with the inside of the notebook computer to form an outer beveled guide surface (51) (as shown in Figure 5), so that the heat can be smoothly discharged from the outside (Note: Section 3) The embodiment disclosed in the figure can also be applied with an angled guide surface structure.) Among them, the heat pipe (40) can be a single pipe structure (as shown in Figures 2 and 5), or Double tube (such as (Shown in Figures 4 and 6), multi-tube parallel structure. [Effect description] The facts of this creative effect enhancement are as follows: Mainly, the diversion groove (11) of the base (10) is provided with two The tongue end (13) (14) has an improved design for generating airflow (Al) (A2) in two directions, and has two hot air exhaust ports (32) (33) in combination with the two-sided heat radiation bars (30) (31). ) And the structural design of the second side of the heat pipe (41) (4 2), which can greatly improve the efficiency of heat dissipation and heat removal of computer cooling modules, in response to the continuous upgrade of the central processing unit (CPU) of today's computers High fever phenomenon.

Page 9 ^ 44 M249103 IV. Creation Instructions (6) The new effects that can be produced by this creation are as follows: The side turning pipe end (41) or (42) set by the heat pipe (40) to the inclination angle (X) The structure of the corresponding heat sink (3 1) or (3 0) externally re-forms the outer beveled guide surface (5 1), so that the hot air can be more smoothly discharged to the outside.

Page 10 ^ 49 M249103 The diagram is briefly explained. The first diagram is a three-dimensional schematic diagram of the preferred embodiment of the present invention. The second diagram is a planar schematic diagram of the preferred embodiment of the present invention. The third diagram is a fragment of the preferred embodiment of the present invention. Schematic diagram of the moving line. The 4th figure is a schematic diagram of the preferred embodiment of the creative pipe. The 5th figure is another embodiment of the creative heat pipe type. The 6th figure is the 5th figure. The heat pipe can be a double pipe type schematic. Fig. 7 is a plan view of a conventional structure. Fig. 8 is a plan view of another conventional structure. Fig. 9 is a plan view of another conventional structure. 0 Fig. 10 is a plan view of another conventional structure. Indicate

[Description of component symbols] This creative part: base ---- (10) guide groove ---- (11) heat conduction surface --- (12) tongue end --- (13) (14) fan unit --- (20) Radiator ------ (30) (31) Hot air exhaust outlet (32) (33)

Heat pipe --- (40) left-hand steering tube end-(41) right-hand steering tube end one (42) middle section of the tube -----(43) derived airflow (A1) (A2): inclination --- -(X) Notebook --- (50) Outside bevel guide --- (51)

Page 11 M249103

$ 12 pages

Claims (1)

M249103 V. Application for Patent Scope 1. An improvement in the configuration and structure of the heat sink module and heat pipe. Its large system includes a base, a fan unit, a heat sink, and a heat pipe; one side of the base is provided with a guide groove for The fan unit is arranged on the other side of the base with a heat conducting surface for the combination of the CPU assembly; the heat pipe is arranged between the heat conducting surface of the base and the heat sink; its features include: the guide of the base The flow channel is provided with two tongue ends diagonally opposite to each other, so as to generate left and right outgoing airflows; the base has two left and right opposite heat radiation bars and two hot air outlets, for The two directions of the outgoing air flow are discharged to the outside; the heat pipe is U-shaped, and the middle section is arranged on the heat conducting surface of the base, and the left and right steering pipe ends are in parallel with each other and the left and right sides The steering tube ends are respectively arranged on the left and right side heat dissipation bars of the base. 2. According to the heat dissipation module and heat conducting: tube configuration improvement described in item 1 of the scope of the patent application, the heat pipe can be a single tube structure type, or a dual tube, multi-tube parallel structure. Type person. 3. An improved configuration structure of a heat dissipation module and a heat pipe. The large system includes a base, a fan unit, a heat sink, and a heat pipe. One side of the base is provided with a guide groove for the fan unit to be installed therein. The other side of the base is provided with a heat conducting surface for the combination of the CPU assembly; the heat pipe is arranged between the heat conducting surface of the base and the heat sink; its characteristics include: the flow channel of the base is provided with an inclined surface To the opposite two tongue ends, it is possible to generate the left and right outgoing airflow. The base has two left and right opposite heat radiation bars and two heat I air outlets for the two directions. Outflow air to the outside; Bi's page 13 M249103 V. Application scope The heat pipe is U-shaped, and the middle section of the heat pipe is set on the heat conducting surface of the base, and the left and right steering tube ends are mutually arranged. The i-side steering tube end and the middle section of the tube have a type of inclination; the left and right steering tube ends are respectively arranged on the left and right heat sinks of the base. 4. According to the heat dissipation module and heat conduction: tube configuration improvement described in Item 3 of the scope of the patent application, the heat pipe can be a single tube structure type, or a dual tube, multi-tube parallel Structural type. 1 5. According to the heat dissipation module and heat conduction described in Item 3 of the scope of the patent application, the configuration structure of the heat sink is improved, where the heat pipe is set to the side of the inclination angle, the blind side, and the corresponding heat sink can be replaced externally. Form an outer beveled guide surface, so that the heat can be discharged more smoothly.