CN102858137A - Air guide cover - Google Patents

Abstract

The invention discloses an air guide cover, comprising a cover body and a pair of buckling modules. The cover body is provided with a heat radiation module containing groove and a pair of buckling grooves; the buckling module is provided with a clamping part; the heat radiation module containing groove is provided with a pair of opposite lateral walls; and the pair of the buckling grooves and the pair of the lateral walls respectively form acute angles, so that a containing space is defined by each buckling groove and each lateral wall. When the buckling module is located at a released position, the buckling parts are located in the containing spaces. When the buckling module is located at a buckling position, the buckling part partially extends out of the containing spaces to be combined on a fixing frame.

Description

Wind scooper

Technical field

The present invention relates to a kind of wind scooper, but particularly a kind of rapid-assembling in the wind scooper of fixed mount.

Background technology

In recent years, fan is commonly used to be arranged in the electronic installation.When fan running, fan can produce a forced convertion in electronic installation, this forced convertion is inhaled into electronic installation in order to the cold air that electronic installation is outer, and makes the cold air that is inhaled into absorb the heat of electronic installation inside and heat up into hot-air, again hot-air is discharged electronic installation.Yet when the heat that distributes when electronic installation was higher, the power of fan running just needed higher, carries out heat exchange to extract the higher heat that more substantial gas and electronic installation produced, and then the temperature of electronic installation is maintained in the safe temperature range.But the power of working as fan running is higher, and the noise that produces is just larger, and spent electric power is also more.Therefore, when the heat that distributes when electronic installation is too high, then be not suitable for using individually fan to carry out heat exchange.

Therefore, in order to improve the utilization rate of the cold air that is inhaled into electronic installation, and reduce the required power that expends of fan.The existing practice is often in Servers installed one wind scooper, and wind scooper is communicated with fan and heat generating component, allows the heat generating component that blows to electronic installation inside in the guiding set of cold air via wind scooper that is sucked by fan.Yet existing wind scooper is inner in electronic installation by a plurality of screw closures, thus in the process of assembling wind scooper, too narrow and small because of the electronic installation inner space, and cause the efficient of setter assembling wind scooper not remarkable.Therefore, how to allow the wind scooper will be one of the problem that should focus on of designer in electronic installation by rapid-assembling.

Summary of the invention

In view of above problem, the object of the present invention is to provide a kind of wind scooper, use the problem that the existing wind scooper of prior art is difficult for being assembled in electronic installation that solves.

According to the disclosed wind scooper of one embodiment of the invention, it comprises a cover body and a pair of buckle module.Wherein, cover body comprises a top board and the pair of side plates of extending from the relative both sides of end face in the same direction, top board has a relative inlet end and an exhaust end, the exhaust end of cover body has a radiating module storage tank and a pair of buckle slot, the radiating module storage tank between this to side sheet room and have relative pair of sidewalls, this is protruding to side plate towards this from this oppose side wall respectively to buckle slot, and this is to accompanying respectively an acute angle and an accommodation space between buckle slot and this oppose side wall.Each buckle module comprises a fastener and an elastic component.Fastener is arranged at buckle slot with the relation of relatively buckle slot slip, and fastener has a sliding path, and sliding path and sidewall accompany acute angle.Elastic component is positioned at the sliding path of fastener, and the different two ends of elastic component are held in respectively fastener and buckle slot.Wherein, fastener has a normality and is subjected to off-position that elastic component supports and the snapped-in position of a relative compression elastic piece, when fastener is positioned at the off-position, fastener is arranged in accommodation space, when fastener is stressed and when sliding onto a snapped-in position along sliding path, the part fastener stretches out accommodation space and is positioned at the radiating module storage tank.

According to the disclosed wind scooper of above-described embodiment, be the buckle slot that fastener is arranged at cover body, and can between off-position and snapped-in position, move by fastener, allow wind scooper install easily and to be fixed on the fixed mount.In other words, wind scooper only needs with disposable action fastener to be moved to installing that snapped-in position can finish wind scooper with fixing, needs be fixed in fixed mount by a plurality of screws to replace existing wind scooper.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Figure 1A is incorporated into the schematic perspective view of the housing of being furnished with fixed mount and fan for the wind scooper that discloses the first embodiment according to the present invention;

Figure 1B is that the wind scooper of Figure 1A breaks away from the schematic perspective view of the housing of being furnished with fixed mount and fan;

Fig. 2 is the decomposing schematic representation of the wind scooper of Figure 1A;

Fig. 3 is the schematic perspective view at another visual angle of the wind scooper of Figure 1A;

Fig. 4 A is the illustrative view of Fig. 1;

Fig. 4 B is the enlarged diagram of Fig. 4 A;

Fig. 4 C is the illustrative view of Fig. 1;

Fig. 4 D is the enlarged diagram of Fig. 1;

Fig. 5 is incorporated into the schematic perspective view of the housing of being furnished with fixed mount and fan for the wind scooper that discloses the second embodiment according to the present invention;

Fig. 6 is the decomposing schematic representation of the wind scooper of Fig. 5;

Fig. 7 A is the illustrative view of Fig. 5;

Fig. 7 B is the illustrative view of Fig. 5.

Wherein, Reference numeral

10 housings

20 blower modules

21 fans

30 fixed mounts

31 hole clippings

40 wind scoopers

100 cover bodies

110 top boards

111 inlet ends

112 exhaust ends

113 radiating module storage tanks

114 sidewalls

115 buckle slots

116 slide groove portion

117 inclined-planes

118 through holes

119 shell fragments

120 discharge end

121 buckle ends

122 barricade sections

123 accommodation spaces

124 openings

125 first surfaces

126 second surfaces

130 side plates

140 air inlets

150 exhaust outlets

200 buckle modules

210 fasteners

211 rail portion

212 holding sections

220 elastic components

Embodiment

Below in conjunction with accompanying drawing structural principle of the present invention and operation principle are done concrete description:

Please consult simultaneously Figure 1A to Fig. 3, Figure 1A is incorporated into the schematic perspective view of the housing of being furnished with fixed mount and fan for the wind scooper that discloses the first embodiment according to the present invention, Figure 1B is that the wind scooper of Figure 1A breaks away from the schematic perspective view of the housing of being furnished with fixed mount and fan, Fig. 2 is the decomposing schematic representation of the wind scooper of Figure 1A, and Fig. 3 is the schematic perspective view at another visual angle of the wind scooper of Figure 1A.The housing 10 of above-mentioned indication is the motherboard of an electronic installation inside, and its electronic installation for example is server, desktop computer or mobile computer.One blower module 20 and a fixed mount 30 are set on the housing 10, and the fixed mount 30 of present embodiment is used for fixedly central processing unit and radiating module thereof, and respectively has a hole clipping 31 in the both sides of fixed mount 30.Blower module 20 has 5 fans 21, but the quantity of fan 21 is not to limit the present invention, and in other embodiments, the quantity of fan 21 for example is more than five or is less than five.

The wind scooper 40 of present embodiment comprises a cover body 100 and a pair of buckle module 200.The cover body 100 of present embodiment has a top board 110 and a pair of side plate 130 that extends towards same direction from the both sides of top board 110.Top board 110 has a relative inlet end 111 and an exhaust end 112, the top board 110 that is adjacent to inlet end 111 has a first surface, the top board 110 that is adjacent to exhaust end has one second table, first surface 125 consists of an air inlet 140 with this to side plate 130, and second surface 126 consists of an exhaust outlet 150 with this to side plate 130.Above-mentioned blower module 20 is installed in the air inlet 140 of cover body 100.

Should be noted, go out formula " A1V1=A2V2 " according to white effort Theorem deduction and can learn that the flow velocity of gas is relevant with the area of runner.Therefore, for gas that blower module 20 produces can be accelerated by wind scooper 40 and flow out exhaust outlet 150 from air inlet 140, the area of the air inlet 140 of present embodiment and other embodiment can be less than the area of exhaust outlet 150.In other words, the spacing d1 of first surface 125 and housing 10 is greater than the spacing d2 of second surface 126 with housing 10.And in order to make gas interior more smooth-goingly mobile at wind scooper 40, first surface 125 can be fairshaped shape, for example the serpentine that falls for lying low.

The top board 110 of present embodiment has a radiating module storage tank 113 and a buckle slot 115 in exhaust end 112.To 130 of side plates and have pair of sidewalls 114, this oppose side wall 114 has identical bearing of trend to radiating module storage tank 113 between this, and meaning is that this oppose side wall 114 extends towards the direction of housing 10 from top board 110.Buckle slot 115 is from the direction projection of sidewall 114 towards side plate 130, make 115 of radiating module storage tank 113 and each buckle slots have an acute angle theta and an accommodation space 123, each accommodation space 123 has an opening 124, and the setting party of each opening 124 is to towards radiating module storage tank 113.In other words, buckle slot 115 and the part formation accommodation space 123 that extends towards side plate 130 from sidewall 114, the shape of accommodation space 123 for example is " triangular prism ".

In addition, the buckle slot 115 of present embodiment has a slide groove portion 116 and a barricade section 122, slide groove portion 116 has an inclined-plane 117, a through hole 118 and a shell fragment 119, inclined-plane 117 consists of acute angle theta with sidewall 114, through hole 118 is positioned on the inclined-plane 117, runs through the space of slide groove portion 116 and connection accommodation space 124 and top board 110 tops.Through hole has relative one and discharges end 120 and one buckle end 121, and for the direction extension of the strong point towards the buckle end 121 of through hole 118, and shell fragment 119 normalities protrude from inclined-plane 117 to shell fragment 119 take the release end 120 of through hole 118.In other words, shell fragment 119 has the characteristic of compressible deformation, and when shell fragment 119 stressed generation elastic deformation, shell fragment 119 can be extruded and retraction through hole 118.

Should be noted that in the present embodiment, inclined-plane 117 and the intersection of sidewall 114 are positioned at the edge of the exhaust end 112 of top board 110, allow the opening of acute angle theta towards the inlet end 111 of top board 110.In other words, be adjacent to the spacing d3 of buckle slot 115 and sidewall 114 of exhaust end 112 of top board 110 less than the buckle slot 115 of the inlet end 111 that is adjacent to top board 110 and the spacing d4 of sidewall 114.

The buckle module 200 of present embodiment comprises a fastener 210 and an elastic component 220.Fastener 210 has a rail portion 211 and a holding section 212, and rail portion 211 is arranged at slide groove portion 116 and has a sliding path a, and sliding path a is the path to shell fragment 119 ends from the buckle end 121 of through hole 118.Protrude towards buckle slot 115 from rail portion 211 holding section 212, and part holding section 212 wore through hole 118 and was positioned at accommodation space 123.The different two ends of elastic component 220 are held in respectively rail portion 211 and barricade section 122, and the direction that elastic component 220 arranges is identical with the sliding path a of rail portion 211.

Next, illustrate that the wind scooper 40 of present embodiment is installed in the flowing mode of doing of fixed mount 30, sees also Fig. 4 A to Fig. 4 D, Fig. 4 A is the illustrative view of Fig. 1, Fig. 4 B is the enlarged diagram of Fig. 4 A, and Fig. 4 C is the illustrative view of Fig. 1, and Fig. 4 D is the enlarged diagram of Fig. 1.At first, wind scooper 40 is arranged on the fixed mount 30.At this moment, the rail portion 211 of fastener 210 is held to by elastic component 220 and is positioned at an off-position (shown in Fig. 4 A and Fig. 4 B), the holding section 212 of fastener 210 is positioned at accommodation space 123, and the rail portion 211 of fastener compresses shell fragment 119, allows shell fragment 119 retraction through holes 118.Then, along with rail portion 211 moves to a snapped-in position (shown in Fig. 4 C and Fig. 4 D) along sliding path a.At this moment, part holding section 212 is stretched out opening and was worn the hole clipping 31 of fixed mount 30 and be positioned at radiating module storage tank 113, shell fragment 119 stops to be subjected to rail portion 211 to compress and protrudes from inclined-plane 117, and prop up rail portion 211 by shell fragment 119, related fixedly holding section 212 is snapped in hole clipping 31 and is installed in fixed mount 30 to finish wind scooper 40.First shell fragment 119 is pushed back through hole 118 if need that wind scooper 40 is separated 30 of fixed mounts, allow rail portion 211 move to the off-position and get final product.

Certainly, the intersection of inclined-plane 117 and sidewall 114 not necessarily must be positioned at the edge of the exhaust end 112 of top board 110, also can be positioned at all the other positions of wind scooper 40, below will be narrated with other embodiments of the invention.See also Fig. 5 and Fig. 6, Fig. 5 is incorporated into the schematic perspective view of the housing of being furnished with fixed mount and fan for the wind scooper that discloses the second embodiment according to the present invention, and Fig. 6 is the decomposing schematic representation of the wind scooper of Fig. 5.The structural similarity of the structure of the wind scooper 40 of present embodiment and the wind scooper 40 of the first embodiment is so present embodiment only describes with different place.

The wind scooper 40 of present embodiment comprises a cover body 100 and a pair of buckle module 200.The cover body 100 of present embodiment has a top board 110 and a pair of side plate 130 that extends towards same direction from the both sides of top board 110.Top board 110 has a relative inlet end 111 and an exhaust end 112.

The top board 110 of present embodiment has a radiating module storage tank 113 and a buckle slot 115 in exhaust end 112.To 130 of side plates and have pair of sidewalls 114, this oppose side wall 114 has identical bearing of trend to radiating module storage tank 113 between this, and meaning is that this oppose side wall 114 extends towards the direction of housing 10 from top board 110.Buckle slot 115 is from the direction projection of sidewall 114 towards side plate 130, make 115 of radiating module storage tank 113 and each buckle slots have an acute angle theta and an accommodation space 123, each accommodation space 123 has an opening 124, and the setting party of each opening 124 is to towards radiating module storage tank 113.In other words, buckle slot 115 and the part formation accommodation space 123 that extends towards side plate 130 from sidewall 114, the shape of accommodation space 123 for example is " triangular prism ".

In addition, the buckle slot 115 of present embodiment has a slide groove portion 116 and a barricade section 122, and slide groove portion 116 has an inclined-plane 117, a through hole 118 and a shell fragment 119, and inclined-plane 117 consists of acute angle theta with sidewall 114.

Should be noted that in the present embodiment, inclined-plane 117 and the intersection of sidewall 114 are positioned at the top of sidewall 114, allow the opening of acute angle theta towards housing 10.In other words, be adjacent to the spacing d3 of buckle slot 115 and sidewall 114 on top of sidewall 114 less than the buckle slot 115 of the bottom that is adjacent to sidewall 114 and the spacing d4 of sidewall 114.

Next, illustrate that the wind scooper 40 of present embodiment is installed in the flowing mode of doing of fixed mount 30, see also Fig. 7 A and Fig. 7 B, Fig. 7 A is the illustrative view of Fig. 5, and Fig. 7 B is the illustrative view of Fig. 5.At first, wind scooper 40 is arranged on the fixed mount 30.At this moment, the rail portion 211 of fastener 210 is held to by elastic component 220 and is positioned at an off-position (shown in Fig. 7 A), the holding section 212 of fastener 210 is positioned at accommodation space 123, and the rail portion 211 of fastener compresses shell fragment 119, allows shell fragment 119 retraction through holes 118.Then, along with rail portion 211 moves to a snapped-in position (shown in Fig. 7 B) along sliding path a.At this moment, part holding section 212 is stretched out opening and was worn the hole clipping 31 of fixed mount 30 and be positioned at radiating module storage tank 113, shell fragment 119 stops to be subjected to rail portion 211 to compress and protrudes from inclined-plane 117, and prop up rail portion 211 by shell fragment 119, related fixedly holding section 212 is snapped in hole clipping 31 and is installed in fixed mount 30 to finish wind scooper 40.First shell fragment 119 is pushed back through hole 118 if need that wind scooper 40 is separated 30 of fixed mounts, allow rail portion 211 move to the off-position and get final product.

According to the disclosed wind scooper of above-described embodiment, be the buckle slot that fastener is arranged at cover body, and can between off-position and snapped-in position, move by fastener, allow wind scooper install easily and to be fixed on the fixed mount.In other words, wind scooper only needs with disposable action fastener to be moved to installing that snapped-in position can finish wind scooper with fixing, needs be fixed in fixed mount by a plurality of screws to replace existing wind scooper.

In addition, the top board of wind scooper has fairshaped design, and the area of air inlet that makes wind scooper according to white effort theorem is greater than the area of exhaust outlet, allows wind scooper can be more effectively the cold air of external electronic device be blowed to electronic installation.

Certainly; the present invention also can have other various embodiments; in the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (10)

1. a wind scooper is characterized in that, comprising:

One cover body, comprise a top board and the pair of side plates of extending from the relative both sides of this top board in the same direction, this top board has a relative inlet end and an exhaust end, this exhaust end of this top board has a radiating module storage tank and a pair of buckle slot, this radiating module storage tank between this to side sheet room and have relative pair of sidewalls, this is protruding to side plate towards this from this oppose side wall respectively to buckle slot, and this is to accompanying respectively an acute angle and an accommodation space between buckle slot and this oppose side wall; And

A pair of buckle module, each this buckle module comprises:

One fastener, the relation of sliding with relative this buckle slot is arranged at this buckle slot, and this fastener has a sliding path, and this sliding path and this sidewall accompany this acute angle; And

One elastic component, the different two ends of this elastic component are held in respectively this fastener and this buckle slot, and the direction that this elastic component arranges is identical with this sliding path of this fastener;

Wherein, this fastener has off-position and the relative snapped-in position of compressing this elastic component that a normality is supported by this elastic component, when this fastener is positioned at this off-position, this fastener is positioned at this accommodation space, when sliding onto this snapped-in position along this sliding path, this fastener of part stretches out this accommodation space and is positioned at this radiating module storage tank when this fastener is stressed.

2. wind scooper according to claim 1 is characterized in that, this buckle slot has a slide groove portion, and this slide groove portion and this sidewall accompany this acute angle, and this fastener has a rail portion, and this rail portion is along this sliding path and relatively this slide groove portion slip.

3. wind scooper according to claim 2, it is characterized in that, this slide groove portion has an inclined-plane, one runs through through hole and a shell fragment of this slide groove portion, this inclined-plane and this sidewall accompany this acute angle, this through hole has relative release end and a buckle end, this shell fragment is held as the strong point this buckle end extension towards this through hole take this release of this through hole, and this shell fragment protrudes from this inclined-plane, when this fastener is positioned at this off-position, this fastener pushes this shell fragment, make this shell fragment because of stressed this through hole of generation elastic deformation retraction, when this fastener is positioned at this snapped-in position, this fastener slides onto this buckle end of this through hole and stops to push this shell fragment, makes this shell fragment recover the edge that protrudes from this inclined-plane and be resisted against this rail portion, slides into this off-position to prevent this fastener.

4. wind scooper according to claim 3, it is characterized in that, this fastener comprises a holding section, this holding section is arranged in this through hole, when this fastener is positioned at this off-position, this holding section is positioned at this accommodation space, and when this fastener was positioned at this snapped-in position, this holding section of part was stretched out this accommodation space and is positioned at this radiating module storage tank.

5. wind scooper according to claim 3, it is characterized in that, this buckle slot also comprises a barricade section, and this barricade section is positioned at the side of this buckle end of this through hole towards the direction of this side plate projection from this slide groove portion, and this elastic component is between this barricade and this fastener.

6. wind scooper according to claim 1, it is characterized in that, this top board has the second surface that a first surface and that is positioned at this inlet end is positioned at this exhaust end, make this inlet end of this top board and this consist of an air inlet to side plate, this exhaust end of this top board and this consist of one to side plate and open gas port, and the area of this air inlet is greater than the area of this exhaust outlet.

7. wind scooper according to claim 6 is characterized in that, this first surface of this top board is a streamlined.

8. wind scooper according to claim 1 is characterized in that, the extension of each this buckle slot and the extension of each this sidewall are intersected to consist of this acute angle, and the intersection of this buckle slot and this sidewall is positioned at the edge of this exhaust end of this top board.

9. wind scooper according to claim 1 is characterized in that, the extension of each this buckle slot and the extension of each this sidewall are intersected to consist of this acute angle, and the intersection of this buckle slot and this sidewall is positioned at the top of this sidewall.

10. wind scooper according to claim 1 is characterized in that, this radiating module storage tank of this cover body is embedded at a fixed mount.

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