TWM412600U - Fan carrying structure having capabilty of fixing filter - Google Patents

Description

M412600 * V. New description: [New technical field] This creation is about a fan-carrying structure, especially for a fan-fixed structure with a combination of a fan and a filter. [Background] FIG. 1 is a schematic diagram of a prior art fan-bearing structure for placing a network device, FIG. 2A is a schematic diagram of a prior art fan-bearing structure, and FIG. 2B is a schematic diagram of a prior art fan-bearing structure. The front side schematic view and FIG. 2C are schematic exploded views of the prior art fan bearing structure. The prior art fan-receiving structure 2' is composed of a fan holder 21 and a screen holder 22. The fan holder 21 is configured to receive the hollow shell shape of the one or more fans 3, and the fan 3 is fixed in the fan holder 21 by any means such as screwing or clamping. The opening of the fan holder 21 is configured. Filter holder 22. The screen holder 22 is fixed to the fan holder 21 by the cooperation of the structure of the fan holder 21 and the screwing technique. In order to ensure the smooth flow of the wind, the fan holder 21 is provided with a plurality of through holes 211 on the plate corresponding to the air outlet of the fan 3, and the filter holder 22 is also opened at the air inlet of the corresponding fan 3. A plurality of through holes 221 are formed, and the filter holder 22 is provided with ribs 222 at the through holes 221 . In addition, a groove 223 is separately disposed on the upper and lower sides and the two sides of the filter holder 22, and the opening of the groove 223 faces the center of the filter holder 22, and the filter 23 can be grooved by the same 223 is stuck on the filter holder 22. The front panel of the network device 1 includes a bracket insertion hole, and the user can push the 3 M4h12600 fan-carrying structure 2 to place it in the network device. Conversely, the user can extend a finger into a hook ring 24 of the fan-carrying structure 2 to pull the fan-carrying jaw 2 out. However, the fan bearing structure needs to be composed of two components. The fan fixing frame needs to reserve space for accommodating the filter fixing frame, so that the space occupied by the fan bearing structure is difficult to be reduced, and the required parts and materials cannot be reduced. The manufacturing cost of the bracket cannot be reduced. Secondly, the fan-bearing structure consists of two components. Therefore, the manufacturer needs to separately manufacture the fan holder and the filter holder, and it is not possible to reduce the manufacturing process. The manufacturing time is also difficult to reduce, because the manufacturing cost and design man-hour cannot be reduced. The overall design cost is also high. Thirdly, the fan-carrying structure occupies a certain amount of space. Therefore, the housing of the device needs to be reserved for the accommodating space of the fan-carrying structure. The space occupied by the overall structure of the device casing is also increased, which is suitable for volume comparison. Large network devices (such as 2u high-level network devices) do not meet the design goals and needs of electronic devices that are refined and miniaturized, thus impacting the market competitiveness of electronic devices. The four's need to additionally design the joint structure or use other joint components due to the fan-bearing structure to combine the two components, but the joint structure design is poor, which will reduce the hard stability of the fan-bearing structure. Therefore, 'how to reduce the design cost and space occupied by the wind-driven structure under the condition that the fan-carrying structure maintains its existing functions is a problem that Weishang should consider. [New content] This creation provides a fan-loading structure that can be equipped with a filter and a fan at the same time. 4 Μ12600 In order to solve the above-mentioned bracket problem, the present invention discloses a fan-carrying structure having a solid-carrying filter capacity, which is formed by bending a metal plate and integrally forming it. The fan-carrying crucible includes a first panel region, a first side of the first panel region extending to form a first panel region, and the second panel region and the first panel region are perpendicular to each other. The first plate area is provided with at least a through hole, and the first side of the first plate area and the corresponding first side are extended (4) to have at least one groove structure 'the extension direction thereof is opposite to the second plate (four) extension Form the direction. The openings of the trench structure are oriented to form a screen truss. The feature of the present invention is that the filter holder is designed to be coupled to the fan-bearing structure, and it is not necessary to separately design the fixed structure of the filter screen, so that it can be formed by a metal plate using a bending technique, thereby saving the use of the parts and reducing the number of parts. Manufacturing costs for part design and raw material use. Secondly, the fan-bearing structure has been combined with the structure of the shouting, so that the design and use of the net frame can be avoided, thereby shortening the manufacturing process and reducing the manufacturing man-hours, so the manufacturing cost and design man-hour can be effectively reduced, so that the overall design cost can be greatly reduced. reduce. Thirdly, the creation is to form a groove for the dynasty in the first plate area by bending forming, for the filter mesh to be embedded thereon, so that the stencil net is fixed on the frame, so that the filter fixing structure is coupled to the fan bearing. Structurally, without the need to reserve space for accommodating the filter holder, the space occupied by the fan load-bearing structure can be effectively reduced, and the required parts and raw material requirements are also reduced, thereby reducing the cost of manufacturing the bracket. Fourth, the space occupied by the fan load-bearing structure is reduced, and the space required for the housing of the device is also reduced, and the occupied space of the overall device casing is also reduced, or can be used for other purposes, thereby conforming to the exquisiteness of the electronic device. , Xiao Yuhua's attack target and needs. On the other hand, it can also be accommodated in the same place. 5 M412600

Under the condition of the space of the circuit or device, it is possible to configure more functional components and standards to enhance the market competitiveness of electronic devices. [Embodiment] The preferred embodiment of the present invention will be described in detail below with reference to the drawings. The ruling ceremony will be based on the structure of the metal plate used to make the fan load 4 of the present embodiment. To facilitate understanding, take - = say ' with the +x direction to the right, _χ direction to the left, +γ side: the upper '-Υ direction is below. The metal plate 4 includes a plurality of regions, and a plate portion 41 having a slightly rectangular shape in the middle. The first plate region 41 is provided with more than one through hole. The through hole 411 has a rib 412 spanning thereon. The three through holes 411 having the same length in the direction of the yoke are taken as an example, but the through holes 411 are determined according to the predetermined number of configurations of the fan, and are not limited thereto. The ribs 412 may extend across the through hole 411' in the axial direction or may be ribbed across the through hole in the x-axis direction. Moreover, the number of ribs 412 is not limited to one, and is set according to the needs of the designer. The first side 71 of the first plate region 41 is formed with a length equal to that of the first plate region 4i, and is a rectangular plate-shaped second plate region 42. The second plate region 42 is provided with an opening 42 and the opening plate σ. The number and position of 421 correspond to the aforementioned through-hole. The second side 72 of the first plate area 41 is formed with a first flap area 43. The first side 71 of the first board area 41 is adjacent to the opening 421 of the second board area, and the second flap area 44 is disposed. . The second plate area 42 is disposed on the corresponding side 75 of the first side 71 of the first plate area 41, and has a third plate area 45, that is, the corresponding side 75 is a common adjacent side of the third plate area 45 and the second plate area 42. . The length of the third plate region 45 of this example and the second 6 12600 are as shown in Fig. 4A', which are the first plate region μ and the third zigzag (four) face view, which are based on the wearing line p. First, the first plate region 41 and the third plate region are bent in the direction of 42 in the same direction, so that the metal plate is concave, and the third plate region 45 is lower in height than the first plate region 41, so that gold = The plate 4 has a slightly 胤-shaped structure. In the case of Fig. 4a, the first panel region, the second panel region 45, is bent in the +z direction. The zone plate area 43 and the second flap area 44 are bent in a direction different from the direction toward the second plate and the second plate. In the case of ffl4B, the second panel region is located in the first shape. : 41 t + Y direction, so all the folding zone is curved toward the Y direction. After each of the folding plate regions 43 is bent, it will be bent downward to form a - first groove structure 51; each second folding plate region 44 After being tortuous, it will form a second groove structure 52. At this time, the extension forming direction and the extension of the second plate region 42 form 冓=2: two and the direction of the first groove structure 51 and the second groove structure 52, all the first groove structures 51 and the second The first plate region 41 of the groove structure 52 is combined to form a screen holder. 4C' differs from FIG. 4Β in that the meandering pattern of the flap area is different. The first flap region 43 and the second flap region 图 of Fig. 4Β form a groove structure having a right angle in a quadratic meandering manner. The first flap region 43 of FIG. 4C, in the second flap region 44, is folded in an arcuate manner to present the first groove structure 51 with the opposite sides of the slot, slightly claw-shaped, and the second The structure of the groove structure is shown in Fig. 5. The first groove of the present embodiment is not shown in the figure. FIG. 5 is a continuation of the H-zone of the present embodiment, and FIG. 5C shows the creation of the present embodiment. The first articulation area is shown in Figure 4, please refer to Figure 3 for easy understanding. The first floor area 46 is bent from the third side of the first plate area 41 toward the third plate area 45, so that the seventh side is set in the first plate area 41, the first field is 46 square vertical one An abutting edge of the same end of a plate £45. The flute-engagement region 461 is further bent toward the third plate region 45 for attachment, the inner surface or the outer surface of the 45, and the outer surface is taken as an example. The upper engaging member 452 will be used by the designer to fasten the first engaging region 461 to the third panel region by the adapter 451 of the ## plate amp amp. Similarly, the second gear zone 47 is bent from the fourth side 74 of the first plate section 41 to the (four) three-plate zone 45 direction, so that the second floor zone 1 -: 1: brother one board area 41 The same-end abutment side of the third plate area 45::: Na is further bent toward the third plate area 45 to be attached to the outer surface of the third plate area 45. The engaging member on the second engaging portion 471 is intended to be in close contact with the engaging member 452 of the second plate portion 45 for the designer to fix the second engaging portion 471 to the second plate portion 45. However, in order to make the appearance bracket shape, the portion of the second panel region where the engaging member 451 is disposed may be internally meandered so that the third panel region 45 is leveled with the surfaces of the first engaging region 461 and the second engaging portion 471. Continued See also Figure 3, Figure 5A and Figure 5B. A through hole 462 is defined in the first range 46. The square hole is exemplified herein, but not limited thereto, and other hole shapes are also applicable. An edge of the through hole 462 protrudes outward to form an outer arc-shaped drag portion 463. When the trailing portion 463 is disposed in the first range 46, the second range 47 is provided with a joint fixing hole 472 for the electrical connector of the fan. On the other hand, the towing portion 462 is also disposed in the second range 47, and the ninth M412600 first range 46 is provided with a joint fixing hole 472 for the electrical connector of the fan. Referring to FIG. 6A, a side view of the structure of the fan-bearing structure of the present embodiment is shown, and FIG. 6B is a rear view of the structure of the fan-bearing structure of the present embodiment. Please refer to FIG. 3 for better understanding. This fan-bearing structure 4' is formed by integrally forming the aforementioned metal plate 4. The fan-bearing structure 4 includes a first plate area 4 and a third plate area 45 and a second plate area 42 having a lower height than the first plate area 41. The first plate area 41 and the third plate area 45 are parallel, and the second The plate area 42 is disposed at the same end of the first plate area 41 and the third plate area 45 perpendicular to the first plate area 41 and the third plate area. The first plate region 41 is provided with one or more through holes 411. The through holes 411 are provided with ribs 412 extending therethrough. Here, three holes are arranged in the same direction and in the z-axis direction, and the through holes 411 are taken as an example, but the number of the through holes 411 is It is based on the number of fan configurations, and Asia is not limited to this. The first side 71 and the second side 72 of the first panel region 41 extend in a direction different from the third panel region 45 to form a plurality of first trench structures 51 and second trench structures 52. The openings of the trench structures (51, 52) are opposite, and the first trench structure 51 and the second trench structure 52 are combined with the first panel region 41 to form a screen holder. The phase 1 region 46 and the second gear region 47 are vertically disposed on both sides of the first plate region 41 and the second plate region 45. The first edge region 46 and the outer edge portion (76, 76) of the second groove region 47 are separately provided with a first engagement region 461 and a second engagement region 71, and the connection regions (461, 471) are bent and pasted. Attached to the third plate area and connected to the third plate area # 接接 451 by the joint 452 on the joint area (461, 471) to connect the joint areas (461, 471) to the M412600 The outer or inner surface of the panel region 45. Please refer to FIG. 7 for the fan placement diagram of the present embodiment. Please refer to FIG. 3 to FIG. 6B for the sake of understanding. The first plate area 41, the second plate area 42 and the third plate area 45 are formed in a concave structure, and the open accommodating space therein can be placed with one or more fans 3', which is expected by the designer. Based on the number of fans, the shape, and the capacity of the open accommodating space, there is no limit. The first plate area 41, the second plate area 42 and the third plate area 45 are attached to the three surfaces of the fan 3' so as to resist the air inlet and the air outlet of the fan 3'. The fan 3' positions the fan 3' within the fan carrying structure 4'. The electrical connector of the fan 3' is disposed in the joint fixing hole 472 of the second range 47, and the wiring of the fan 3' is disposed in the accommodating space, or by the first groove structure 51 and the second groove The trough structure 52 performs a full line of behavior. However, in order to fix the fan .3', a plurality of fan fixing members 50 may be disposed in the third plate region 45 near the second plate region 42. The fan fixing members 50 may be screw components, riveting components or cassette components. One type, as long as the fan 3' can be firmly fixed, it can be positioned. The screen 6 is placed in the grooves of the first groove structure 51 and the second groove structure 52 to be fixed to the screen holder (ie, the first groove structure 51, the second groove structure 52 and the first Combination of plate areas 41). The air inlet of each fan 3' is aligned with the through hole 411 of the first plate area 41. To make the fan run smoothly, the third plate area 45, the first folding plate area 43 and the second folding plate area 44 can be arced. When the metal plate 4 is formed into the fan-carrying structure 4', the air inlet and the air outlet of each fan 3' are not obstructed by obstacles, so as to improve the smoothness of the wind flow, thereby improving the heat dissipation effect of the fan 3. 11 M412600 where 'the number of fans that can be configured for this fan-loaded structure can be designed by the designer to design a single fan or multiple fans. Please refer to FIG. 8 for a schematic diagram of a fan-loading structure insertion device according to an embodiment of the present invention. Please refer to FIG. 7 to facilitate understanding. In the network device, the front panel includes a bracket insertion hole, and the user can start with the second gear region 47.

The second gear 46 is placed to place the fan-carrying structure 4 in which the fan 3 is disposed. On the contrary, the user can extend the finger into the through hole 462 of the first gear zone 46 to hook the blade portion 463 and pull the fan bearing structure 4 out. In addition, due to the reduced space occupied by the fan-carrying structure 4, the network is ready! The housing space to be reserved for the housing is also reduced, and the footprint of the overall device housing is also reduced. As shown in Fig. 8, the wind-bearing structure 4 is adapted to the network device 1 with a small built-in space (such as a network device with a high altitude). ", please refer to the other embodiment of the metal plate for making the fan-bearing structure of the creation embodiment, and FIG. 9B is a front view of the fan-bearing structure of the present embodiment, and FIG. 3 and FIG. The difference with 6A is that the ribs 412 can horizontally span the through hole 41丨 in the horizontal direction. . The creation of a financial hand is used to present a solution to the problem. It is not intended to limit the scope of the implementation of this patent. It is consistent with the scope of this creation, or according to the creation of the patent. Equal change and modification are covered by the patent park. ' 12 M412600 [Major component symbol description] [Prior Art] 1 network device 21 fan holder 22 filter holder 222 rib 23 filter 3 fan [this creation] Γ network equipment 4 metal plate 41 first board area 412 The opening 44, 44' of the second plate area of the rib 421, the second folding area 451, the connecting piece φ of the third plate area, the first gear area 462, the through hole 47 of the first gear area, the second gear area 472, the joint fixing hole 51, 51' first groove structure 6 screen 72 second side of the first plate area 74 fourth side of the first plate area 2 fan bearing structure 211 through hole 221 through hole 223 groove 24 hook ring 3 'fan 4' fan Carrying structure 411 through hole 42 second plate area 43, 43' first folding plate area 45 third plate area 452 engaging area engaging piece 461 first engaging area 463 tow portion 471 second connecting area 50 fan fixing member 52, 52 The first side 73 of the first plate area of the first groove region 71 is disposed on the third side of the first plate area. The second plate area of the first plate area is provided with the corresponding side of the third plate area. 14 M412600 P cross-section line 76, 76' Outer side of the area

15

Claims (1)

(10) The next page is revised on the next day of April (the patent application scope: 2 fixed load-carrying fan-loading structures, the system consists of - metal plate ^ 2 the fan-bearing structure includes - the first plate area, the first plate The first side of the zone is formed by extending perpendicular to the first plate region - the second plate is... the first plate region is provided with at least a through hole, and the first edge of the first plate region is corresponding to the structure thereof. (iv) Shen formation at least - groove junction "The extension direction of the structure of the money (10) is opposite to the solidification direction of the second plate area. The groove structures are formed to face each other in the opposite direction - the filter 2. 2 Please turn the formula The fan carrier further includes a third plate region, the first plate region being parallel to the third plate region, wherein the third plate region is disposed in common with one of the second plate regions: the side 'the common neighbor The edge corresponds to the first side of the first-plate area For example, the fan-bearing structure with solid money: net capacity as described in Item 2 of Wei Wei, wherein the third plate area is provided with at least one fan fixing member at the at least one through hole portion corresponding to the first plate region. ^ π π la 围 围 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇 风扇The first side zone and the second groove zone are separately extended from the edge zone, and the first gear zone and the second gear zone are vertically disposed on the third plate zone f and are vertically disposed on the first plate zone and the third zone Between the districts. 5_If you apply for the fan-bearing structure with the solid (four) network capacity described in item 4, the first-level area and the side of the second-side area are separately set. 16 M412600 The replacement page has an interface area that is bent to attach and secure to the third panel area. 6. The fan-carrying structure with fixed ferry capacity as described in claim 4, wherein the first gear region defines a through hole, and a through portion is formed to protrude outward from the through hole. 7. The fan-carrying structure with fixed screen capability as described in claim 6 wherein the trailing portion is in the shape of an arc. 8. The fan-carrying structure with a fixed filter capacity according to claim 1, wherein the first plate area is provided with a plurality of the through holes, each of the through holes having the same length and adjacent to the first A board area. 9. The fan-carrying structure having a fixed screen capacity according to claim 1, wherein the first plate area is provided with at least one rib transverse to the at least one through hole. 10. The fan-loading structure with fixed screen capability according to claim 1, wherein the groove structure is a first flap area and a second flap area formed by the extension of the first panel area. Folded. 17 M4.12600 (The next year's April day correction replacement page | 4. Designation of representative drawings: (1) The representative representative of the case is as shown in Figure 6A. (b) The symbol of the representative figure is briefly described as follows: 4' fan bearing structure 41 first plate area 411 through hole 412 rib 42 second plate area 421 opening of second plate area 46 first gear zone 461 first interface zone 462 Through-hole 463 of the first gear zone Trailing portion 47 Second gear zone 51 First groove structure 52 Second groove structure 71 First side of the first plate area 72 Second side of the first plate area 73 First plate area The third side 74 is the fourth side of the first board area 2