HONG FU JIN PRECISION INDUSTRY (ShenZhen) CO., LTD.
대리인 / 주소
Novak Druce Connolly Bove + Quigg LLP
인용정보
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1인용 특허 :
7
초록▼
A server cabinet includes a bottom side, a top side, a first side wall, a second side wall opposite to the first side wall, a first air inlet tube with a number of air outlets, a second air inlet tube with a number of air outlets, and a number of pairs of adjusting apparatuses. The first air inlet t
A server cabinet includes a bottom side, a top side, a first side wall, a second side wall opposite to the first side wall, a first air inlet tube with a number of air outlets, a second air inlet tube with a number of air outlets, and a number of pairs of adjusting apparatuses. The first air inlet tube is attached to the first side wall and extends from the bottom side to the top side, the second air inlet tube is attached to the second side wall and extends from the bottom side to the top side and the top side and the bottom side are each configured with an opening to receive the first air inlet tube and the second air inlet tube. Each air adjusting apparatus comprises a slidable shielding plate substantially covering the corresponding air outlets.
대표청구항▼
1. A server cabinet comprising: a cabinet;a plurality of servers configured to be received in the cabinet; anda ventilation system comprising an air inlet tube mounted to a side of the cabinet, a plurality of air distributing tubes received in the servers, and a plurality of adjusting apparatus adja
1. A server cabinet comprising: a cabinet;a plurality of servers configured to be received in the cabinet; anda ventilation system comprising an air inlet tube mounted to a side of the cabinet, a plurality of air distributing tubes received in the servers, and a plurality of adjusting apparatus adjacent to the air inlet tube,wherein the air inlet tube defines a plurality of first air outlets aligning with the servers, each sever defines a vent communicating with the corresponding air inlets of the air inlet tube, an end of each air distributing tube is communicated with the vent of the corresponding server, a side of each air distributing tube defines a plurality of second air outlets communicating with the corresponding server, each adjusting apparatus comprises a sliding bracket covering the corresponding first air outlets of the air inlet tube and configured to be slidable relative to the air inlet tube, a sliding block coupled to each sliding bracket, and a resilient member to restore the corresponding sliding bracket, when one of the servers is inserted into the cabinet, the server abuts against the corresponding sliding block to slide the sliding bracket away from the air inlet tube, until the corresponding first air outlets of the air inlet tube aligns with the vent of the corresponding server and the air distributing tube, the resilient member is deformed, cool air out of the cabinet flows into the corresponding air distributing tube though the corresponding first air outlets of the air inlet tube and the vent of the server and flows into the server through the second air outlets of the corresponding air distributing tube. 2. The server cabinet of claim 1, wherein each adjusting apparatus further comprises a position shell mounted to the cabinet adjacent to the air inlet tube, each sliding bracket is slidably coupled to the corresponding position shell, and each sliding bracket comprises a shielding plate configured to shield the corresponding first air outlets of the air inlet tube. 3. The server cabinet of claim 2, wherein each sliding bracket is slidably fitted about the corresponding position shell, each sliding block is slidably received in the corresponding position shell and slidable along a direction perpendicular to an inserting direction of the servers, the resilient members are sandwiched between the sliding blocks and the position shells, a first end of each sliding block is exposed out the corresponding position shell and the sliding bracket to abut against the corresponding server. 4. The server cabinet of claim 3, wherein each sliding bracket slantingly defines an operating slot, each sliding block comprises a sliding pole configured to slide in the corresponding operating slot, when one of server is inserted into the cabinet, the one of server abuts against the corresponding sliding block to slide the sliding block away from the server, the sliding pole of the sliding block abuts against an inner surface of the corresponding operating slot, to slide the corresponding sliding bracket away from the air inlet tube, until the corresponding first air outlets of the air inlet tube align with the vent of the one of server. 5. The server cabinet of claim 4, wherein each position shell comprises two opposite side plates and two spaced partition plates coupled between the side plates, the side plates and the partition plates cooperatively bound an installing space, the sliding block is slidably received in the installing space of the position shell. 6. The server cabinet of claim 5, wherein each sliding bracket comprises two opposite supporting plates slidably engaged with outer surfaces of the side plates of the corresponding position shell, the supporting plates extend out from two opposite sides of an end of the corresponding shielding plate, each operating slot is defined in one of the supporting plates, each shielding plate defines an adjusting slot aligning with the installing space of the corresponding position shell, the first end of the sliding block extends through the adjusting slot of the sliding bracket. 7. The server cabinet of claim 6, wherein one of the side plates of each position shell adjacent to the operating slot defines a slide slot communicating with the installing space and extending perpendicular to the shielding plate of the corresponding sliding bracket, each sliding pole is slidably extended through the corresponding slide slot and received in the corresponding operating slot. 8. The server cabinet of claim 7, wherein an end of each slide slot away from the corresponding shielding plate extends through a side edge of the corresponding side plate of the position shell, an end of each operating slot away from the shielding plate extends through a side edge of the corresponding supporting plate. 9. The server cabinet of claim 7, wherein an end of each operating slot away from the corresponding shielding plate is closer to the air inlet tube than the other end of the operating slot adjacent to the shielding plate. 10. The server cabinet of claim 2, wherein each shielding plate defines an opening adjacent to the air inlet tube, the opening is configured to communicate with the corresponding first air outlets of the air inlet tube and the vent of the corresponding server. 11. The server cabinet of claim 3, wherein the first end of each sliding block slantingly forms an abutting surface facing the air inlet tube, each server slidably abuts against the abutting surface of the corresponding sliding block to slide the sliding block, and the sliding block drives the corresponding sliding bracket to slide. 12. A server cabinet comprising: a bottom side;a top side opposite to and substantially parallel to the bottom side;a first side wall positioned between the top side and the bottom side;a second side wall opposite to and substantially parallel to the first side wall;a first air inlet tube with a plurality of air outlets;a second air inlet tube with a plurality of air outlets; anda plurality of pairs of adjusting apparatuses;wherein, the first side wall and second side wall are each substantially perpendicular to the bottom side and the top side;wherein, the first air inlet tube is attached to the first side wall and extends from the bottom side to the top side, the second air inlet tube is attached to the second side wall and extends from the bottom side to the top side and the top side and the bottom side are each configured with an opening to receive the first air inlet tube and the second air inlet tube;wherein, one air adjusting apparatus of each pair of adjusting apparatuses is mounted on the first side wall substantially perpendicular to the first air inlet tube and in line with one of the plurality of first air inlet tube air outlets, with the other air adjusting apparatus of the pair of adjusting apparatuses mounted on the second side wall substantially perpendicular to the second air inlet tube and in line with one of the plurality of second air inlet tube air outlets;wherein, each air adjusting apparatus comprises a slidable shielding plate substantially covering one of the plurality of the air inlet tube air outlets;wherein, when servers are received in the cabinet between the first side wall and the second wall, a pair of adjusting apparatuses is activated with each shielding plate sliding to uncover an air inlet tube air outlet; andwherein, each server positioned in the cabinet is configured to allow air to flow between the air outlet uncovered in the first air inlet tube and the second air inlet tube. 13. The server cabinet of claim 12, wherein each server comprises an air distributing tube received in the server, and two opposite ends of the air distributing tube communicate with the first air inlet tube and the second air inlet, the air distributing tube defines a plurality of air outlets communicating with the server. 14. The server cabinet of claim 12, wherein each pairs of adjusting apparatuses further comprise two position shells mounted to the first side wall and the second side wall and two sliding brackets slidably coupled to the position shells, each shielding plate is formed the corresponding sliding bracket. 15. The server cabinet of claim 14, wherein each sliding bracket slantingly defines an operating slot, each adjusting apparatuses comprises a sliding block, the sliding block comprises a sliding pole configured to slide in the operating slot, when one of server is inserted into the cabinet, the one of server abuts against the corresponding sliding block to slide the sliding block away from the one of server, the sliding pole of the sliding block abuts against an inner surface of the corresponding operating slot, to slide the corresponding sliding bracket away from the air inlet tube, until the corresponding air outlets of the first air inlet tube and the second air inlet tube communicate with the one of server. 16. The server cabinet of claim 15, wherein each position shell comprises two opposite side plates and two spaced partition plates coupled between the side plates, the side plates and the partition plates cooperatively bound an installing space, the sliding block is slidably received in the installing space of the position shell. 17. The server cabinet of claim 16, wherein each sliding bracket comprises two opposite supporting plates slidably engaged with outer surfaces of the side plates of the corresponding position shell, the supporting plates extend out from two opposite sides of an end of the corresponding shielding plate, each operating slot is defined in one of the supporting plates, each shielding plate defines an adjusting slot aligning with the installing space of the corresponding position shell, the first end of the sliding block extends through the adjusting slot of the sliding bracket. 18. The server cabinet of claim 17, wherein one of the side plates of each position shell adjacent to the operating slot defines a slide slot communicating with the installing space and extending perpendicular to the shielding plate of the corresponding sliding bracket, each sliding pole is slidably extended through the corresponding slide slot and received in the corresponding operating slot. 19. The server cabinet of claim 18, wherein an end of each slide slot away from the corresponding shielding plate extends through a side edge of the corresponding side plate of the position shell, an end of each operating slot away from the shielding plate extends through a side edge of the corresponding supporting plate. 20. The server cabinet of claim 18, wherein an end of each operating slot away from the corresponding shielding plate is closer to the air inlet tube than the other end of the operating slot adjacent to the shielding plate.
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이 특허에 인용된 특허 (7)
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