DE29719231U1 - CPU and heatsink mounting assembly - Google Patents

Description

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1533 HJ

Mike Lin

No. 56, Lane 55, Dong-Rong Rd., Sei-Rong Village Da-Lei Hsiang, Tai-Chung Hsien, Taiwan

CPU and heatsink mounting arrangement

The present invention relates to a CPU and heat sink mounting assembly comprising a CPU housing vertically mounted on a printed circuit board, a heat sink mounted on one side of the CPU housing, a fan bracket covering the heat sink and mounted on the CPU housing to hold the heat sink in place, and a plurality of plug shafts each passed through respective through holes on the fan bracket and the heat sink and secured to respective oval mountings.

holes of the CPU housing using a rotating movement within a limited angle.

Conventionally, a CPU of a personal computer is mounted on the motherboard in a horizontal position and fixed firmly on one side thereof. Nowadays, a CPU of advanced personal computers is installed on the motherboard in a vertical position so that less space is taken up for installation on the motherboard. When a CPU of a personal computer is installed, a heat radiation device must be attached to one side of the CPU for rapid radiation, and fastening devices such as spring clamps are used to hold the heat radiation device and the CPU together. However, attaching a heat radiation device makes the CPU heavier on one side thereof. If the CPU is made heavier on one side, a faulty contact may occur and the contact pins of the CPU may be damaged.

According to one aspect of the present invention, the CPU and heat sink mounting assembly includes a CPU housing mounted on a printed circuit board in a vertical position, and a heat sink mounted on one side of the CPU housing, a fan bracket covering the heat sink, which is attached to the CPU housing to hold the heat sink in place, and a plurality of plug shafts each passed through respective through holes in the fan bracket and the heat sink and attached to respective oval mounting holes of the CPU housing and then rotated through a limited angle to bring the oval support plates into contact with the oval mounting holes of the CPU housing. According to one

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In another aspect of the present invention, a support frame is attached to the printed circuit board to keep the heatsink and fan mount in close contact with the CPU housing.

Fig. 1 is an oblique view of a CPU and heatsink mounting assembly according to the present invention;

Fig. 2 is an exploded view of Fig. 1;

Fig. 3 is a side cross-sectional view on a larger scale than Fig. 1 and shows the unlocked plug shafts;

Fig. 4 is a front view of Fig. 1:
Fig. 5 is a side view of Fig. 4;

Fig. 6 is an enlarged view of a portion of Fig. 4 showing the unlocked plug shafts; and

Fig. 7 is similar to Fig. 6, but shows the plug shafts in the locked position.

Referring to Fig. 1, a CPU housing 11 is mounted on a circuit board with a printed circuit 10 in a vertical position. A heat sink 20 is attached to one side of the CPU housing 11. A fan bracket 30 covers the heat sink 20 and is attached to the CPU housing 11 to hold the heat sink 20 in place. A support frame 40 is attached to the circuit board 10 to support the heat sink 20 and the fan bracket 30.

Referring to Figs. 2 and 3 and again Fig. 1, the heat sink 20 and the fan bracket 30 each have through holes 21; 31 which are each connected to respective oval mounting holes 12 of the CPU housing 10 by a respective plug shaft 50. The plug shaft 50 has an oval holding plate 51 at one end and a handle 52 at the opposite end. When the plug shaft 50 is passed through a through hole 31 of the fan bracket 30 and through a through hole 21 of the heat sink 20 into an oval mounting hole 12 of the CPU housing 11, it is rotated by a certain angle to bring its oval holding plate 51 into contact with an inner wall of the CPU housing 10 behind the corresponding mounting hole 12. An annular flange 32 rises from one side of the fan bracket 30 around each through hole 31. The annular flange 32 includes an angle groove defining an upper stop edge 33 and a lower stop edge 34 adapted to limit the angle of rotation of the respective plug shaft 50.

The support frame 40 is an elongated frame comprising two legs 41 located at its opposite ends, each leg 41 having a bottom plug 42 that is inserted into a respective mounting hole 13 on the board 10, two mounting strips 43 located at its two opposite ends, each mounting strip 43 having an elongated slot 44 that is secured in a respective mounting hole 13 on the board 10 by a respective plug element 60, two pairs of coupling lugs 45; 46 located at the two opposite ends between the legs 41 and the mounting strips 43, respectively, and two bottom support devices 70 each pivotable about the coupling lugs 45, 46 to secure the heat sink 20 to the support frame 40. Each holding device 70 comprises a transverse pivot shaft 71 which can be pivoted on the ground

between the respective pair of coupling lugs 45, 46, a head finger bar 73 on the head adapted to rotate the pivot shaft 71 by hand, and a hook-shaped portion 72 in the middle on an inner side which is brought into contact with the cooling fins of the heat sink 20 on one side with the head finger bar 73.

Retaining plates 80 are respectively fixed to the support frame 40. The support frame 40 is formed in a hollow structure. Each retaining plate 80 includes a plurality of downward hooks 81 each projecting from its bottom side and hooking into an open space of the support frame 40, and a forward hook 82 projecting from its front side and brought into contact with a hook hole 19 of the CPU case. Upward hooks 49 are formed integrally with a long side of the support frame 40. When the fan bracket 30 is fitted to the heat sink 20 and supported by the support frame 40, the upward hooks 49 are each brought into contact with the respective hook holes 39 of the fan bracket 30.

Referring to Figs. 4-7, when the heat sink 20 and the fan bracket 30 are fastened together and fitted to the CPU housing 10, the bottom holding devices 70 are rotated upwardly inwardly to bring the respective hook-shaped portions 72 into contact with the heat sink 20, the upward hooks are brought into contact with the hook holes 39 of the fan housing 30, the upward hooks 82 of the holding plates 80 are brought into contact with the hook holes 19 of the CPU housing 10, the plug shafts 50 are respectively passed through the through holes 31 of the fan bracket 30 and through the through holes 21 of the heat sink 20 into the oval mounting holes 12 of the CPU housing 10, and then rotated by an angle

of 90° to bring the respective oval holding plates 51 into contact with the oval mounting holes 12 of the CPU housing 10. On the other hand, the CPU housing 10, the heat sink 20, the fan bracket 30 and the support frame 40 can be detached from each other when the plug shafts 50 are rotated in the opposite direction to detach the respective oval holding plates 51 from the respective oval holding holes 12 of the CPU housing 10 and when the holding devices 70 are each rotated outward to detach the respective hook-shaped portions 72 from the heat sink 20.

While only one embodiment of the present invention has been shown and described, it will be understood that various modifications and changes may be made therein without departing from the spirit and scope of the disclosed invention

Claims (5)

Protection claims 1. A CPU and heatsink mounting assembly comprising a CPU housing (11) mounted on a printed circuit board (10) in a vertical position, a heatsink (20) mounted on one side of the CPU housing, a fan bracket covering the heatsink (30) mounted to the CPU housing to hold the heatsink in place, and mounting means adapted to mount the fan bracket and the heatsink to the CPU housing, wherein: the CPU housing includes a plurality of oval mounting holes (12); the heat sink comprises a plurality of through holes (21) which are respectively connected to the oval mounting holes of the CPU housing; the fan holder comprises a plurality of through holes (31) which are respectively connected to the through holes of the heat sink and the oval mounting holes of the CPU housing; the fastening device comprises a plurality of plug shafts (50) which are respectively guided through the through holes of the fan holder and the heat sink and the oval fastening holes of the CPU housing and are brought into contact with the oval fastening holes of the CPU housing by a rotational movement through a limited angle, each of the plug shafts having a handle (52) at one end for turning by hand and an oval holding plate (51) at one end, which is inserted into an oval fastening hole of the CPU housing and rotated by the handle through an angle so that it comes into contact with the respective oval fastening hole of the CPU housing. 2. The CPU and heatsink mounting assembly of claim 1, wherein the fan mount includes a plurality of annular flanges (32) each projecting from one side around each through hole of the fan mount, each of the annular flanges having an angle groove defining an upper stop edge (33) and a lower stop edge (34) and adapted to limit the angle of rotation of the respective plug shaft in the respective through hole of the fan mount. 3. The CPU and heatsink mounting assembly of claim 1, further comprising a support frame (40) mounted on the printed circuit board and adapted to support the heatsink and the fan mount. 4. CPU and heatsink mounting assembly according to claim 3, wherein the support frame is an elongated frame comprising two legs (41) arranged at the two opposite ends, and wherein each of the legs has a bottom plug rod (42) which fits into a respective mounting hole (13) on the printed circuit board, two mounting strips (43) arranged at the opposite ends near the legs, the mounting strips each having an elongated slot (44) which is attached to a respective mounting hole on the printed circuit board by a respective plug element, two pairs of coupling lugs (45; 46) each arranged at two opposite ends between the legs and the mounting strips, and two devices (70) for holding down, each pivotally attached to the coupling lugs and pivotable between a first position in which the devices for Keep them in contact with the heat sink, in to hold the heat sink on the support frame, and a second position in which the holding devices are each released from the heat sink. 5. The CPU and heatsink mounting assembly according to claim 4, wherein the mounting frame has a hollow structure with a plurality of holding plates (80) and is integrally formed with a plurality of upward hooks on a rear side thereof, each holding plate having a plurality of downward hooks (81) on a bottom side which hook into an open space of the support frame and a forward hook (82) on a front side which are each brought into contact with a respective hook hole (19) on the CPU housing, the upward hooks of the holding frame being each brought into contact with the respective hook holes (39) in the fan bracket. 1533-description-additional-claim