TWM252251U - The structural improvement of a heat-sunk component - Google Patents

Description

M252251 V. Creation instructions (1) [Technical field to which the new type belongs] This creation is ^ a structural improvement of a heat-dissipating element ', especially a hollow structure design that uses a plurality of partition gaps and hollows out, so that it can increase heat dissipation The component's heat-dissipating air generates good convection and exchange, thereby improving the heat-dissipating effect. [Previous technology] Electric heating relationship is one of the main technologies used in many electrical products around life, such as water dispensers, coffee machines, plug-in aromatherapy devices, computer information and its peripheral products, etc., and The related processing machines also use electro-thermal relations to assist in the completion of processing operations. It can be seen that the use of electro-thermal technology can be said to be quite popular. However, heat dissipation technology has always been a problem to be overcome by electrical products. People have increasingly demanded computer performance.

For this reason, in the head heater, cooling fan, and 间 simulated between techniques #, there are combinations of components related to cooling & operation, such as, pumps, pumps, etc. to assist such as With the advancement of science and technology, people's

Often blocked by the face of the flap

Page 6 M252251 V. Creation Instructions (2) Blocking the channeling structure of the channeling channel in the other direction, leading to the four sides, and providing the third degree of diffusion on the thermal cylinder and the hollow left, The right convection and the structure are in self-contact and each column flows. This junction does not give hot air. The heat dissipation equivalent to each column space is often arranged. The author, in order to understand the structural relationship of the elements, waited for the four directions in the structural design. In this way, the body of the heat source is indirectly constructed from each relationship of the dentate appropriately adapted to the above-mentioned improvements, the top system is improved to dissipate heat. The body and structure, one tooth, and the effect of guidance, the upward direction of the appropriate heat contact path and the purpose of the convex convex thermal path is limited; extended with a gap, then straight and properly aligned, because the desired part, but also There is no lack of heat-dissipating components. The main purpose is to use its own material to provide a plurality of separation gaps. Each heat-dissipating fin can have it, thereby increasing the heat of heat-dissipating air. Rate. It also used a plurality of cylinders to dissipate heat so that the heat can be connected to the upper diversion space. Therefore, some people have also created a quality that is easy to conduct and hollow out the interior. Producing good [new content] The main purpose of the structure improvement of this creative heat dissipation element is to provide a better heat conduction path and better heat dissipation structure Γ so that ΐ: -one fin ", and each-fin The cloth is provided with a plurality of solids = so that the heat can be placed on each convex w, and then by the structure of the inside of the wing * 7,…, and the structure design of I q masonry structure, so that a female wing has four

M252251

V. Creation Note (3) The heat dissipation relationship of the space is believed to be able to accelerate the convection of the air to dissipate the heat more effectively and quickly to completely diffuse the heat. For the detailed description and technical content of this creation, the description with the drawings is as follows: [Embodiment] First, please refer to "Figure 1", which is a three-dimensional schematic diagram showing the best embodiment of the structure improvement of the heat dissipation component of this creation. It is seen in this creation that the heat dissipation element 1 is integrally formed of a thermally conductive material, which is formed by a plurality of arc-shaped fins 10 formed on a bearing seat 14 which is in a gate shape and The inner top is the contact surface 1 4 1 for attaching and contacting with the heat-dissipated object 2, and the corresponding wall surfaces 140 and 140 on both sides are provided with equidistant locking holes 15. The locking holes 15 mainly provide the whole. The heat-dissipating element 1 is fixed on the heat-dissipated object 2 and can be locked by screws 16 as a tight fitting relationship. Furthermore, the fins 10 provided above the support seat 14 are each fin 1 The 〇 series all maintain a proper gap 11 to serve as a space for hot air to flow left and right, and a hollow groove 13 is penetrated in the wing 10, and the through hollow groove 13 is the wing 1 10. The heat dissipation space below is arranged on the longitudinal surface between the hollow groove and the retaining seat 14 A plurality of perforations therethrough Shu 2, i 2 of the perforated line as a whole radiating element reinforcing structure 1 is designed. Seeing again in "Figures 2 and 3", it is a side view and a top view of the best embodiment of the structure improvement of the heat dissipation element of the creation. It is seen in the figure that each wing 10 of the heat dissipation element 1 is provided with There are a plurality of convex teeth 101 arranged, the main purpose of which is to allow heat to be placed on the convex teeth 101 of each fin 10,

M252251 Five 'Creation Instructions (4) Let the thermal energy be channeled to more points to form a better scatter structure. This At ^ thermal structure design; "This is clearly seen in the upper scatter." The fins 10 all retain the gap u, so that the heat guided by each fin 10 can be used as a standoff, and then calculated by the hollow slot 翼 of the fin 1 (), so that each The fins 10 can have the heat dissipation structure of up, down, left, and right = two: As shown in "Figure 4", when the contact and contact surface 4 conducts two amounts of heat, the heat is first passed through the contact The contact of the face 141 with the glandular scorching heat is 7 ° piece 1, and then the heat passes through each arc-shaped fin 10 φ ° Γί… to guide the surrounding of the overall fin 10, and then the process of grooming & i Γ $ 早已In the first time, in each gap 11 and hollow slot 13: to dissipate heat, 'so when heat is conducted on the surface of the fin 10 plural, first go through the left, right and lower heat dissipation procedures, and then The heat dissipation process, therefore, through the structural design of the heat dissipation element 1 to increase the convection and exchange of heat dissipation air, thereby improving the overall dissipation ", The heat dissipation efficiency of the piece 1. "P it" said, # 4 is the preferred embodiment of the author 4 and j Erfei is used to limit the scope of the implementation of the author. That is, all equal changes and modifications made according to this creative application covering

Page 9 M252251 V. Creation description (5) Fig. 2 is a side view of the best embodiment of the structure improvement of the heat dissipation element of this creation; Fig. 3 is a top view of the best embodiment of the structure improvement of the heat dissipation element of this creation, FIG. 4 is not intended for the heat radiation state of the structure improvement example of the heat dissipation element of the present invention. [Symbol description of the icon]

Radiating element 1 Wing 10 Convex teeth 101 Clearance 11 Perforation 1 2 Hollow groove 13 Bearing holder 1 4 Wall surface 140, 140 ’

Contact surface 1 4 1 Locking hole 1 5 Screw 1 6 Heat sink 2

The M252251 diagram on page 10 briefly illustrates the first diagram, a perspective view of the best embodiment of the structure improvement of the heat sink in this creation, and the second diagram, a side view of the best embodiment of the structure improvement of the heat sink in this creation; The top view of the best embodiment of the structure improvement of the heat dissipation element of this creation; FIG. 4, the heat dissipation state of the best embodiment of the structure improvement of the heat dissipation element of this creation,

Page 11

Claims (1)

M252251 VI. Scope of patent application 1. Improvement of the structure of a heat dissipation element, which is integrally formed of a thermally conductive material and includes a plurality of fins, a hollow groove, and a bearing seat, wherein the bearing seat is formed with A plurality of fins with convex teeth on the perimeter of the fins, and each fin has a proper gap between them; and at least one or more of the fins have The hollow groove is penetrated, and the top of the inside of the bearing seat is a contact surface for contacting one of the objects to be radiated with air. 2. Rushen Zhongyi 3. Rushen Zhongyi 4. Rushen Zhongyi 5 · Rushen Zhongyi Wing 6 · If in the application 7. If the application in the creation of the creative design of each right channel in the application can be a patent application, a patent application can be a patent application, a patent application can be a patent application, a patent hollow slot, a patent, a wing flow The empty heat-dissipating element uses a plurality of gaps and hollows out the interior to make it have a four-degree space heat dissipation relationship, which can enable good convection and exchange in bulk sales, thereby improving the heat dissipation effect. The structure of the heat-dissipating element described in the first item of the range is improved, and one of them is arranged in an arc shape, thereby increasing the heat conduction path. ^ Improved structure of heat dissipation element described in item 1 of the range A rectangular arrangement to increase heat conduction path. The structure of the heat dissipation element described in the first item of the scope is improved. A polygonal arrangement is used to increase the heat conduction path. The structure of the heat dissipation element described in item 1 is improved. # A hollow groove is penetrated through the heat dissipation space. h groove, the structure of the heat dissipation element described in the first item of the range is changed from one end to the other end, and it is the structure of the heat dissipation element described in the _open \ range of the first item] The second series of working rooms have a proper gap. As hot empty left, its other Page 12 M252251 6. Scope of patent application 8. As the structure of the heat dissipation element described in item 1 of the scope of patent application, the contact surface and the object to be radiated can be fixed by an adhesive with thermal conductivity. 9. According to the structural improvement of the heat dissipation element described in item 1 of the scope of the patent application, the bearing seat can be a door shape, and tightening screws are provided at the corresponding positions on both sides as a fixed structural relationship. Page 13