TW200844338A - Fan shockproof structure - Google Patents

Abstract

A fan shockproof structure for a fan is disclosed. The fan shockproof structure includes a first holder, a second holder, several first shockproof rings, several second shockproof rings, and several screws. The first holder and the second holder are disposed on two opposite side of the fan. The first shockproof rings are disposed between the first holder and the fan. The second shockproof rings are disposed between the first holder and the fan. The first holder, the second holder, the first shockproof rings, and the second shockproof rings would be fixed on the fan by the screws. The first holder and the second holder would not be contact with the fan.

Description

200844338 IX. Description of the Invention: [Technical Field] The present invention relates to a fan anti-vibration structure, and more particularly to a fan anti-vibration structure applied to a server fan. [Prior Art] When a computer system (such as a personal computer, a server host, etc.) is operated, waste heat is generated, and as the speed of the computer system increases, the waste heat generated by the operation of the computer system also increases significantly. If the waste heat generated during the operation of the computer system is not removed, it will reduce the effectiveness of the computer system or even call the system to be damaged or damaged. Therefore, a dip device is needed to remove the waste heat generated during the operation of the computer system. The fan speed is getting faster and faster for the pursuit of a better rate. However, the speed is higher.

The frequency of vibration caused by the fan also increases. Take the server as an example. 'Because the space in the server is limited, the furnace π server is on the ehassis, and the high = fan 疋 疋 因而 因而 因而 因而 田 田 田 田 田 田 田 田 田 田 田 田 田 田 田 田 田The sex & peripheral device such as a hard disk is easily damaged. It becomes a hard disk and other peripherals. ^ How to reduce the fan's operation is a very important issue. Peripheral device such as hard disk [Invention] 5 200844338 m The purpose of this is to provide a fan anti-vibration knot for reducing the influence of vibration during fan operation on peripheral devices. According to the above object of the present invention, a shockproof structure applied to a fan is proposed. The fan anti-vibration structure comprises a first support frame, a first truss support, a plurality of first shock-proof pads, and a plurality of second shock-proof pads, so as: t a plurality of screws. The first support frame and the second support frame are coupled with: the opposite ends 'and the first support frame and the first shock-proof tamping two on the fan-end end by the screw, the second support frame and the second anti-shock 塾Fixed on the other end face of the fan: 'The first shock pad and the second shock pad have grooves, and the card is stuck on the first support frame and the second frame, so that the first support "the first support frame does not match the fan In direct contact, the fan is hung between the first branch and the second support frame in a hanging manner, and the fan is not in direct contact with the bottom surface of the casing. The first support frame may have a card protruding outward. The card scoops the corresponding card slot buckle in the ring machine to limit the freedom of movement of the first support frame, and the first support frame, the second support frame and the bottom surface of the casing can cooperate with the positioning post and the positioning hole. The fan anti-vibration structure of the present invention can absorb the vibration of the fan during operation by the first anti-vibration pad and the second anti-morning pad, and erect the fan on the servo by using the first support frame and the second support frame. The bottom of the casing to reduce the fan's operation The vibration is transmitted to the other peripheral devices through the bottom surface of the casing. Embodiments The spirit of the present invention will be clearly described in the following drawings and detailed description, and the preferred embodiments of the present invention are known to those of ordinary skill in the art. The invention can be modified and modified by the teachings of the present invention without departing from the spirit and scope of the present invention. Soil-refer to FIG. 1A, which shows a preferred embodiment of the fan anti-vibration structure of the present invention. Stereo view. The fan anti-vibration structure can be used for vibration during (4). The fan anti-vibration structure includes a first support frame: 10 ❹ first support frame 120, a plurality of first shock-proof pads 130, and a plurality of second anti-shock pads M〇 And the plurality of screws 150. In this embodiment, the first support frame 110 and the second support frame 120 are respectively located at the air outlet of the fan 1: the air inlet end, wherein the first support frame 110 and the second support frame 12〇 The first anti-vibration pad 130 and the second anti-vibration pad 14 can be locked on the fan 1 by using a screw 15 。. Since, in this embodiment, the first support frame 110 and the second support frame 120 are different from each other. The first support frame 110 and the second support frame 120 can have a plurality of open traces so that the φ airflow with high heat can flow through the fan 100 to dissipate heat. Referring to FIG. 1B The cross-sectional view of the fan anti-vibration structure in the first embodiment is shown in Fig. 1A. In the present embodiment, the number of the first anti-shock pads 130 of the first anti-shock pad 140 is four, which are respectively arranged in the fan 1〇. Each of the four corners of the crucible ′′ each of the first anti-shock 塾 13 〇 and the second anti-shock 塾 can have a recess 170, and the first anti-vibration pad 13 〇 and the second anti-vibration pad 14 嵌 can be embedded by the recess 170 The card is stuck in the fixing hole of the second support frame U0 of the first support frame 11 . The flanges of the first shock absorbing pad 13 〇 and the second shock absorbing pad 14 on both sides of the groove 170 are respectively protruded from the first support frame ιι and the sides of the first support 120 of the 200844338. Therefore, the first support frame 11〇 and the second support frame 120 can be separated from the fan 100 by using the first shockproof pad 13〇 and the second shockproof pad 14〇, so that the first support frame 11〇 and the second support frame 12 are not Direct contact with the fan 100. As a result, the vibration generated when the fan 1 is operated is mostly the first shock pad 13 〇 and the second shock pad 14 〇 absorbing, which reduces the influence of the fan 100 on the peripheral device during operation. The first shock pad 130 and the second shock pad 40 are an elastic bushing, and the material thereof can be a material with strong shock absorbing capability, such as rubber. In this embodiment, the first support frame u, the second support frame 12, the first shock pad 130, and the second shock pad 14 are locked by the screw 15 于 on the fan 1 ,, wherein the screw 150 The portion contacting the first shock pad 13 〇 and the second shock pad 140 may be a neck 152, wherein the head 15 of the screw 15 is not threaded to match the first shock pad 〇 3 〇 and the second shock pad 140 Closer contact. The threaded portion of the screw 15 turns through the sleeve of the first shock pad 130 and the second shock pad 14〇 to the fixing holes on both sides above the fan 1〇〇. Therefore, the fan 1 〇〇 can be extended as a hang buckle portion on both end faces by screws 150 and hung on the first support frame ιι and the second support frame 120 ′ while the first support frame 〇 and the second support frame The fixing holes on the lower sides of the ι2 亦 are also mounted with the first shockproof pad 13 〇 and the second shockproof pad 140 ′ such that the fan 1 〇〇 and the first support frame 11 〇 and the second support frame are above the first shock pad 130 The second anti-vibration pad 14 is shackled on the first support frame 110 and the second support frame 12 〇, and the first anti-vibration pad 130 and the second anti-vibration t 14 〇 are padded on the fan and the first support frame Between the raft and the second support frame 120. 200844338 Multi: Fig. 2 is a top view showing a preferred embodiment of the fan anti-vibration structure of the present invention applied to a feeder fan. In the embodiment, the device: the bottom surface of the casing is 2〇〇, and the server further includes a motherboard 21 located at the bottom surface 200 of the casing. The motherboard 21 can be fixed to the bottom surface of the casing by a plurality of supporting structures 220. 200. On the same day, the same reference is made to the reference figure 3A, which is a cross-sectional view of a preferred embodiment of the second embodiment. The main board 210 is fixed to the bottom surface 200 of the casing by the supporting structure 22, and a positioning space 23 is formed between the main board 21 〇 and the bottom surface 200 by the support structure 22 〇. The first support frame 110 of the fan anti-shock structure has a hook 112 protruding from the first support frame 110 to one end of the bottom surface 200 of the casing, and the hook 112 can extend into the main plate 21 and the bottom surface of the casing 2 The positioning space 230 between the turns contacts the bottom surface of the edge of the motherboard 21 and is mutually engaged to limit the degree of freedom of movement of the first support frame 110 in the up and down direction. The fan 100 is secured to the bottom surface 2 of the chassis of the server by the first support frame 110 and the second support frame 12. Wherein, the fan is suspended between the first support frame 丨1〇 and the second banquet frame 120, and a buffer space 24〇 is formed between the fan 1〇〇 and the machine bottom surface 200, so that the fan 1 does not overlap with the casing The bottom surface 200 is in direct contact, so that the vibration generated when the fan 1 is operated can be prevented from being transmitted to the other peripheral devices by the bottom surface 200 of the casing. Referring to Fig. 3B, there is shown a cross-sectional view of a section line of a preferred embodiment b_b of Fig. 2. The first support frame has at least one first positioning post 114, and the bottom surface 200 of the casing has at least one corresponding to the first positioning post 200844338 11 4, and a clamping hole 202, wherein the first The first to fourth of the support frame 110 can be engaged with the first positioning hole 202 of the bottom surface 200 of the casing, and the support frame 110 is fixed to the bottom surface 200 of the casing. The second support frame 12 has a plurality of positioning holes 122, and the bottom surface 200 of the casing may have a second positioning post 204 corresponding to the second positioning 孑|1, a seventh positioning column 204, wherein the bottom surface 200 of the casing The first-Ning/"----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- It can be seen that the application of the present invention has the following advantages. The fan shockproof structure of the present invention can be absorbed by the first anti-shock damper shock pad to absorb the fan when operating the fan, and the η - * ^ ^锝f vibration, and use the first support frame and less wind shore! Silk * wood ° and fan on the bottom of the server chassis, to reduce the vibration of the fan when running. Other peripheral devices Although the present invention has been exemplified by a preferred sinus shell, as described above, the law JL is not intended to limit the present invention, and any of the IX ^ + Knowledge ^ does not deviate from the invention >#; i > Suspension, μ God and scope, when a variety of more r ^ β The accompanying patent

The target perimeter is defined. Brief Description of the Drawings In order to make the above-mentioned and the medicinal preparations of the present invention, the purpose, the features, the advantages and the embodiments are more obvious and easy to understand, the detailed description of the drawings is as follows: 1A is a perspective view showing a preferred embodiment 10 200844338 of the present invention. The figure shows the section of the ΙΑρίφ example. The fan anti-vibration structure of ° is better. The fan H diagram shows that the fan anti-vibration structure of the present invention is applied to the feeding device. Fig. 3 is a cross-sectional view showing a cross section of a preferred embodiment of Fig. 2;

Fig. 3 is a cross-sectional view showing a Β_Β section line of a preferred embodiment of Fig. 2. [Main component symbol description] 100: Fan 110: First support frame 112: Hook 114: First positioning post 120: Second support frame 122: Second positioning hole 130: First shock pad 140: Second shock pad 150 : Screw 152 : Neck 160 : Opening 170 : Groove 2 0 0 · Case bottom surface 202 : Brother one positioning hole 204 · Second positioning post 210 : Main board 220 : Support structure 230 : Positioning space 240 : Buffer space 11

Claims (1)

200844338 X. Patent application scope: 1·-A fan anti-shock structure, which fixes a fan to the shoulder surface of a casing, including: a first-branch frame is disposed at the end of the fan, the first frame a plurality of fixing holes; a second supporting frame 'disposed on the other end of the fan relative to the first supporting frame, the second supporting frame has a plurality of fixing holes; /, a plurality of first shock-proof pads, each - - the shock pad has a groove, the other - the shock pad is shackled to the fixing holes of the first support frame such that the first support frame does not directly contact the fan; a second anti-vibration pad, each of the second anti-vibration pads has a groove, and the second anti-shock is inserted into the second support frame holes by the groove, so that the second support frame does not directly contact the fan; And a plurality of screws respectively passing through the first anti-shock and the second anti-fence pads, so that the two ends of the fan are the first support frame and the second support frame. 4 extensions, while hanging in the ^ patent application scope! The fan mentioned in the item is shockproof. The materials of the younger brothers - the shockproof cymbal and the second shockproof pads are - rubber: medium 3. As claimed in the patent scope! The fan is shockproof. The fan has an air inlet end and an air outlet end. The eight anti-shock pads are located at the air inlet end. The two f wood and the second shockproof pad are located at the outlet. At the end of the wind. The frame and the 12 200844338 4 • The fan-proof morning structure described in claim 1 wherein the fan is not in direct contact with the bottom surface of the casing. 5. The fan anti-vibration structure according to the scope of claim 4, wherein the bottom surface of the casing has a plurality of supporting structures, the supporting structure fixing a main board to the bottom surface of the casing, the main board and the bottom surface of the casing Forming a positioning space therebetween, wherein the first support frame has a hook protruding from the one end of the first swing frame closer to the bottom surface of the casing, the hook hooking into the positioning space, and mutually interacting with the motherboard Blocking. The fan anti-vibration structure of claim 5, wherein the first support frame has at least a clamping post, and the bottom surface of the casing has at least one first positioning hole corresponding to the first positioning post, a first positioning post: engaging with the first positioning hole, the second supporting frame has at least one positioning hole, the machine bottom surface has at least a first clamping column corresponding to the second positioning hole, wherein the second Positioning column and the second positioning hole card 13