CN109922636B - Cabinet system and cabinet door thereof - Google Patents

Abstract

The invention provides a cabinet system and a cabinet door thereof, wherein the cabinet system comprises a cabinet and a cabinet door which can be opened and closed relative to the cabinet, the cabinet is used for arranging a plurality of electronic computer devices therein, and the cabinet door comprises a radiator, a fan module and a door frame assembly; the radiator and the fan module are arranged on the door frame assembly, and at least one of the radiator and the fan module can be detached from the door frame assembly. Therefore, the cabinet system and the cabinet door are convenient for future inspection, maintenance or repair, and the maintenance and repair efficiency is improved.

Description

Cabinet system and cabinet door thereof

Technical Field

The invention relates to the field of heat dissipation, in particular to a cabinet system and a cabinet door thereof.

Background

With the advancement and popularization of science and technology, various electronic computer devices have long become indispensable roles in daily life of people, such as network storage devices, server devices, and the like. Generally, these computer devices can be stored in a rack (rack) made of cold-rolled steel plate, metal, etc. to protect and shield electromagnetic interference, and can be orderly and orderly arranged. In addition, the rack is also provided with a door (door) so that a user or a maintenance person can directly maintain and repair the electronic computer equipment stored in the rack after opening the door.

With the advent of the big data and internet era, the processing capacity of electronic computer equipment is increasingly enhanced, the generation of heat is also increasingly greater, and how to effectively dissipate heat of a cabinet storing the electronic computer equipment is a key that directly affects the performance and the service life of the electronic computer equipment. Therefore, in the existing cabinet, a door body, which is a so-called condensation door (door with cooling kit), may be further provided with a non-detachable or non-detachable heat dissipation component, such as a condenser, so as to reduce the ambient temperature of the cabinet and exhaust the waste heat of the cabinet by driving the airflow through a fan disposed in the cabinet or other places. In particular, no door body combined with a condenser and a fan is proposed at present.

On the other hand, because of the indispensable necessity of the cabinet, the standards association or industry association has established several standards for the size, material, hole site, etc. of the cabinet for general manufacturers to follow, and how to integrate the cabinet and the components of the heat dissipation system thereof under the established standards to make more efficient use of the space and to take into account the heat exchange rate and the maintenance efficiency of each component has become a direction for the cabinet manufacturers to think about improvement.

Disclosure of Invention

The present invention is directed to a cabinet system and a cabinet door thereof, which can be disassembled to facilitate future inspection, maintenance or repair.

The technical scheme adopted by the invention for solving the technical problem is to provide a cabinet system, which comprises a cabinet and a cabinet door, wherein the cabinet is used for arranging a plurality of electronic computer devices therein; the cabinet door is used for opening and closing relative to the cabinet and comprises a radiator, a fan module and a door frame assembly, wherein the radiator is communicated with the cabinet in a fluid manner and is used for carrying out heat exchange on a fluid medium passing through the radiator; the fan module is used for driving an air flow; the door frame assembly is used for arranging the radiator and the fan module on the door frame assembly, and the radiator is a detachable radiator and/or the fan module is a detachable fan module.

Preferably, the door frame assembly includes an upper door frame, a lower door frame, a first door frame and a second door frame, and an accommodating space is formed between the upper door frame, the lower door frame, the first door frame and the second door frame for accommodating the heat sink and the fan module.

Preferably, the distance between the upper door frame and the lower door frame is smaller than the height of the cabinet.

Preferably, the heat sink has at least one housing joint portion, the door frame assembly has at least one first door frame joint portion, and each housing joint portion is used for being jointed with the corresponding first door frame joint portion to fix the heat sink on the door frame assembly.

Preferably, each of the housing coupling portions is coupled to the corresponding first door frame coupling portion through a locking manner or a fastening manner.

Preferably, the fan module comprises a fan module frame, the fan module frame is provided with at least one fan module combination part, and the door frame component is provided with at least one second door frame combination part; each fan module combination part is used for being combined with the corresponding second door frame combination part so as to fix the fan module on the door frame component.

Preferably, each fan module combination portion is combined with the corresponding second door frame combination portion through a locking manner or a buckling manner.

Preferably, the fan module frame further has at least one fan module auxiliary assembly portion, and the door frame assembly further has at least one side frame auxiliary assembly portion; each fan module auxiliary assembly part is used for matching with a corresponding side frame auxiliary assembly part to assist a user to assemble the fan module on the door frame assembly.

Preferably, each fan module auxiliary assembly portion is a guide slot with an opening, and each side frame auxiliary assembly portion is a convex portion extending towards an accommodating space in the door frame assembly, wherein the fan module moves towards the accommodating space after each guide slot of the fan module is aligned with the corresponding convex portion; or, each fan module auxiliary assembly part is a convex part, each side frame auxiliary assembly part is a guide groove with an opening, and the fan module moves to the accommodating space after each convex part of the fan module is aligned with the corresponding guide groove.

Preferably, the fan module further includes at least one fan and a circuit board, the circuit board is electrically connected to a power source, and the at least one fan is connected to the circuit board to be powered.

Preferably, the at least one fan is at least one detachable fan, each detachable fan has a fan connecting part, and the circuit board has at least one fan module connecting part; each fan connecting part is electrically connected with the corresponding fan module connecting part so as to supply power to the corresponding fan.

Preferably, the fan module further includes a fan module frame assembly, the fan module frame assembly is used to connect with the fan module frame to form at least one fan accommodating space, and the at least one fan accommodating space is used to accommodate the at least one fan.

Preferably, the fan module frame assembly has at least one frame assembly combining portion, the at least one fan has at least one fan combining portion, and each fan combining portion is used for combining with the corresponding frame assembly combining portion to fix the at least one fan on the fan module frame.

Preferably, each fan combining part is combined with the corresponding frame assembly combining part in a locking mode or a buckling mode.

Preferably, the circuit board is fixedly arranged on the frame of the fan module.

Preferably, the fan connecting portion is an electrical male connector, and the fan module connecting portion corresponding to the fan connecting portion is an electrical female connector.

Preferably, the fan connecting portion is an electrical female socket, and the fan module connecting portion corresponding to the fan connecting portion is an electrical male connector.

Preferably, the at least one fan includes a plurality of fans arranged in a matrix.

Preferably, the cabinet door is directly connected to the cabinet, or the cabinet system further includes a cabinet door transfer frame, and the cabinet door is indirectly connected to the cabinet through the cabinet door transfer frame.

The invention also provides a cabinet door, which is applied to a cabinet for arranging a plurality of electronic computer devices therein, and the cabinet door can be opened and closed relative to the cabinet; the fan module is used for driving an air flow; the door frame assembly is used for arranging the radiator and the fan module on the door frame assembly, and the radiator is a detachable radiator and/or the fan module is a detachable fan module.

Preferably, the door frame assembly includes an upper door frame, a lower door frame, a first door frame and a second door frame, and an accommodating space is formed between the upper door frame, the lower door frame, the first door frame and the second door frame for accommodating the heat sink and the fan module.

Preferably, the distance between the upper door frame and the lower door frame is smaller than the height of the cabinet.

Preferably, the heat sink includes a housing and a fluid pipeline connected to the housing for flowing the fluid medium into or out of the heat sink.

Preferably, the housing has at least one housing coupling portion, the door frame assembly has at least one first door frame coupling portion, and each housing coupling portion is configured to couple with the corresponding first door frame coupling portion to fix the heat sink to the door frame assembly.

Preferably, each of the housing coupling portions is coupled to the corresponding first door frame coupling portion through a locking manner or a fastening manner.

Preferably, the fan module comprises a fan module frame, the fan module frame is provided with at least one fan module combination part, and the door frame component is provided with at least one second door frame combination part; each fan module combination part is used for being combined with the corresponding second door frame combination part so as to fix the fan module on the door frame component.

Preferably, each fan module combination portion is combined with the corresponding second door frame combination portion through a locking manner or a buckling manner.

Preferably, the fan module frame further has at least one fan module auxiliary assembly portion, and the door frame assembly further has at least one side frame auxiliary assembly portion; each fan module auxiliary assembly part is used for matching with a corresponding side frame auxiliary assembly part to assist a user to assemble the fan module on the door frame assembly.

Preferably, each fan module auxiliary assembly portion is a guide slot with an opening, and each side frame auxiliary assembly portion is a convex portion extending towards an accommodating space in the door frame assembly, wherein the fan module moves towards the accommodating space after each guide slot of the fan module is aligned with the corresponding convex portion; or, each fan module auxiliary assembly part is a convex part, each side frame auxiliary assembly part is a guide groove with an opening, and the fan module moves to the accommodating space after each convex part of the fan module is aligned with the corresponding guide groove.

Preferably, the fan module further includes at least one fan and a circuit board, the circuit board is electrically connected to a power source, and the at least one fan is connected to the circuit board for supplying power.

Preferably, the at least one fan is at least one detachable fan, each detachable fan has a fan connecting part, and the circuit board has at least one fan module connecting part; each fan connecting part is electrically connected with the corresponding fan module connecting part so as to supply power to the corresponding fan.

Preferably, the fan module further includes a fan module frame assembly, the fan module frame assembly is used to connect with the fan module frame to form at least one fan accommodating space, and the at least one fan accommodating space is used to accommodate the at least one fan.

Preferably, the fan module frame assembly has at least one frame assembly combining portion, the at least one fan has at least one fan combining portion, and each fan combining portion is used for combining with the corresponding frame assembly combining portion to fix the at least one fan on the fan module frame.

Preferably, each fan combining part is combined with the corresponding frame assembly combining part in a locking mode or a buckling mode.

Preferably, the circuit board is fixedly arranged on the frame of the fan module.

Preferably, the fan connecting portion is an electrical male connector, and the fan module connecting portion corresponding to the fan connecting portion is an electrical female connector.

Preferably, the fan connecting portion is an electrical female socket, and the fan module connecting portion corresponding to the fan connecting portion is an electrical male connector.

Preferably, the at least one fan includes a plurality of fans arranged in a matrix.

Preferably, the cabinet door is directly connected to the cabinet, or the cabinet door is indirectly connected to the cabinet through a cabinet door transition frame.

The heat dissipation components of the cabinet door, such as the heat radiator and/or the fan module, can be independently disassembled from the door frame assembly or assembled to the door frame assembly, so that when any one of the components fails or abnormally operates, a user or a maintenance worker can maintain and repair the cabinet door only by taking down the failed or abnormally operated heat dissipation component from the cabinet door without disassembling the cabinet door directly connected or indirectly connected to the cabinet. Moreover, the fan of the fan module can be independently detached from or assembled to the fan module, so that when the fan module fails or abnormally operates, a user or a maintenance worker can maintain and repair the fan module without detaching the cabinet door but only detaching the failed or abnormally operated fan from the cabinet door. Therefore, the invention is convenient for future inspection, maintenance or repair, and the efficiency of maintenance and repair is improved. In addition, the fan module and the radiator are integrated into the cabinet door, so that the additional arrangement space is not occupied.

Drawings

FIG. 1: a schematic structural concept diagram of a rack system according to a first embodiment of the present invention is shown.

FIG. 2: is a conceptual diagram of the cabinet door of the cabinet system shown in fig. 1 from another perspective.

FIG. 3: is a conceptual diagram of the cabinet system shown in fig. 2, in which the heat sink of the cabinet door is detached from the cabinet door.

FIG. 4: which is a schematic diagram of the door frame assembly of the cabinet door of the cabinet system shown in fig. 1 relative to the fan module.

FIG. 5: a schematic view of a door frame assembly of a cabinet door of the cabinet system shown in fig. 1 and a fan module at another viewing angle.

FIG. 6: is a schematic exploded view of a fan module of a cabinet door of the cabinet system shown in fig. 1.

FIG. 7: a schematic structural concept diagram of a rack system according to a second embodiment of the present invention is shown.

FIG. 8: is a conceptual diagram of the structure of the cabinet door transfer frame of the cabinet system shown in fig. 7.

Detailed Description

For convenience of description, the structures, organizations or components of the cabinets and doors in the drawings of the present invention are not in proportion to their applications, but may be scaled up or down in different proportions according to the description, and are not intended to limit the implementations of the cabinets and doors in the present invention.

The rack (rack) is a single or combined rack that can be placed in a computer room and used to carry a plurality of electronic computer devices, and is illustrated in fig. 1 and 7 by a dashed concept. In addition, the electronic computer device carried by the cabinet may be a network storage device, a server device, and the like, but is not limited to the foregoing.

Referring to fig. 1 and fig. 2, fig. 1 is a conceptual diagram of a cabinet system according to a first embodiment of the present invention, and fig. 2 is a conceptual diagram of a cabinet door of the cabinet system shown in fig. 1 from another perspective. The cabinet system 9 includes a cabinet 2 and a cabinet door 1, wherein the cabinet door 1 is directly or indirectly connected to the cabinet 2 and can be opened and closed relative to the cabinet 2, and a user or a maintenance person can directly perform maintenance and repair on at least one electronic computer device (not shown) carried by the cabinet 2 after opening the cabinet door 1.

The cabinet door 1 includes a door frame assembly 11, at least one fan module 12 and a heat sink 13, the door frame assembly 11 includes a door upper frame 111, a door lower frame 112, a first door side frame 113 and a second door side frame 114, and an accommodating space 115 is formed between the door upper frame 111, the door lower frame 112, the first door side frame 113 and the second door side frame 114 for accommodating the fan module 12 and the heat sink 13, and the heat sink 13 is in fluid communication with the cabinet 2, so that a fluid medium can circulate between the heat sink 13 and the cabinet 2; the fan module 12 and the heat sink 13 are respectively a detachable fan module and a detachable heat sink which can be independently detached from or assembled to the door frame assembly 11.

In addition, the fan modules 12 are used for driving airflow, and have the function of exhausting hot air with higher temperature in the environment and the function of performing air cooling and heat dissipation, and each fan module 12 includes at least one fan 121. In the embodiment, the cabinet door 1 includes four fan modules 12, each fan module 12 includes three fans 121, and the fans 121 are also detachable fans respectively and are arranged in a matrix, but the number of the fan modules 12, the number of the fans 121 and the arrangement manner are not limited to the above. In the present embodiment, the heat sink 13 is a condenser (condenser), which is a kind of heat exchanger, and is used to perform heat exchange on the fluid medium passing through the heat sink, and further, the condenser can be applied to convert gas or vapor into liquid according to actual requirements, and quickly transfer the heat in the liquid to the air near the heat sink 13 to release heat, and then the fan module 12 drives the airflow to take away the heat energy in the air near the heat sink 13, and the condenser can also be applied to reduce the temperature of the surrounding environment according to actual requirements, so as to achieve the effect of air cooling and heat dissipation by matching with the airflow driven by the fan module 12. However, the implementation of the heat sink 13 is not limited to the above.

Please refer to fig. 3, which is a conceptual diagram illustrating the cabinet door of the cabinet system shown in fig. 2 with the heat sink removed from the cabinet door. The radiator 13 comprises a housing 131 and a fluid pipeline 132, and the fluid pipeline 132 is connected to the housing 131 and is used for fluid medium to flow into the radiator 13 or flow out of the radiator 13; the housing 131 has at least one housing combining portion 1311, the door frame assembly 11 has at least one first door frame combining portion 116, and each housing combining portion 1311 is used to combine with the corresponding first door frame combining portion 116 to fix the heat sink 13 on the door frame assembly 11.

In the embodiment, each first door frame combining portion 116 of the door frame assembly 11 is located on the front side of the first door side frame 113 or the front side of the second door side frame 114 of the door frame assembly 11, and each shell combining portion 1311 of the heat sink 13 is combined with the corresponding first door frame combining portion 116 through a locking manner, but the location of the first door frame combining portion 116 and the combination manner of the first door frame combining portion 1311 of the heat sink 13 are not limited to the above.

Referring to fig. 4 and 5 simultaneously, fig. 4 is a schematic diagram illustrating a relative relationship between a door frame assembly and a fan module of a cabinet door of the cabinet system shown in fig. 1, and fig. 5 is a schematic diagram illustrating a relative relationship between a door frame assembly and a fan module of a cabinet door of the cabinet system shown in fig. 1 from another view angle. For clarity, fig. 4 and 5 only show a single fan module 12 and a single fan 121. Fig. 4 and 5 illustrate that the fan module 12 can be detached from the doorframe assembly 11 or assembled to the doorframe assembly 11 by a user or a maintenance person.

Further, each fan module 12 further includes a fan module frame 122, the fan module frame 122 has at least one fan module combining portion 1221, the door frame assembly 11 further has at least one second door frame combining portion 117 corresponding to the at least one fan module combining portion 1221, and each fan module combining portion 1221 is configured to combine with the corresponding second door frame combining portion 117 to fix the fan module 12 on the door frame assembly 11.

In the embodiment, each second door frame combining portion 117 of the door frame assembly 11 is located on the inner wall of the first door side frame 113 or the inner wall of the second door side frame 114 of the door frame assembly 11, and each fan module combining portion 1221 is combined with the corresponding second door frame combining portion 117 through a locking manner, but the position of the second door frame combining portion 117 and the combining manner of the second door frame combining portion 1221 are not limited to the above, and those skilled in the art can perform any equivalent design changes according to the actual application requirements, for example, each fan module combining portion 1221 and the corresponding second door frame combining portion 117 can also be combined through a fastening manner.

Preferably, but not limited thereto, the fan module frame 122 of each fan module 12 further has at least one fan module auxiliary assembling portion 1222, and at least one of the first door side frame 113 and the second door side frame 114 of the door frame assembly 11 further has at least one side frame auxiliary assembling portion 118 corresponding to the at least one fan module auxiliary assembling portion 1222; the fan module 12 can be assembled to the door frame assembly 11 by the user through the at least one fan module auxiliary assembling portion 1222 matching with the corresponding side frame auxiliary assembling portion 118.

In the present embodiment, each fan module auxiliary assembly portion 1222 is a guide slot having an opening, each side frame auxiliary assembly portion 118 is a sheet-shaped protrusion extending toward the receiving space 115 of the door frame assembly 11, and when a user or a maintenance person assembles the fan module 12 to the door frame assembly 11, the user or the maintenance person can limit the fan module 12 by aligning the opening of the guide slot with the appropriate protrusion and then pushing the fan module 12 toward the receiving space 115 of the door frame assembly 11 according to the actual position. After the fan module 12 is limited, a user or a maintenance person can further fix the fan module 12 on the door frame assembly 11 through the fan module combining portion 1221 and the second door frame combining portion 117.

However, the above-mentioned embodiment is only one of the fan module auxiliary assembling portion 1222 and the side frame auxiliary assembling portion 118, and it is not limited to the above, and those skilled in the art can make any equivalent design changes according to the actual application requirements, for example, the design changes can be made such that each fan module auxiliary assembling portion 1222 is a sheet-shaped protrusion, and each side frame auxiliary assembling portion 118 is a guide slot with an opening, so that in the process of assembling the fan module 12 to the door frame assembly 11 by a user or a maintenance person, the protrusion can be aligned with the opening of the suitable guide slot according to the actual position and then the fan module 12 is pushed toward the accommodating space 115 of the door frame assembly 11, so as to assist the user or the maintenance person in limiting the fan module 12.

Please refer to fig. 6, which is a schematic perspective exploded view of a fan module of a cabinet door of the cabinet system shown in fig. 1. For clarity, only a single fan 121 is illustrated in fig. 6. Fig. 6 illustrates that the fan 121 can be detached from the fan module frame 122 or assembled on the fan module frame 122 by a user or a maintenance person.

Further, each fan module 12 further includes a circuit board 123, the circuit board 123 is electrically connected to a power source (not shown) directly or indirectly, and has at least one fan module connection portion 1231 corresponding to the at least one fan 121, and each fan 121 has a fan connection portion 1211 (see fig. 5); when a user or a maintenance person assembles the fan 121 to the fan module 12, the fan connecting portion 1211 of the fan 121 is electrically connected to the corresponding fan module connecting portion 1231 of the fan module 12, so that the fan 121 can be powered on to operate.

In the embodiment, the circuit board 123 of the fan module 12 is fixed on the fan module frame 122, the fan module connection portion 1231 is an electrical female socket, and the fan connection portion 1211 is an electrical male socket, so that a user or a maintenance person can easily perform the hot plug process regardless of detaching the fan 121 from the fan module frame 122 or assembling the fan 121 to the fan module frame 122. However, the position of the circuit board 123 of the fan module 12 and the implementation of the fan module connection portion 1231 and the fan connection portion 1211 are not limited to the above embodiments, and one of ordinary skill in the art can modify the design equally according to the actual application requirement, for example, the fan module connection portion 1231 is an electrical male connector and the fan connection portion 1211 is an electrical female connector.

Preferably, but not limited thereto, the fan module 12 further includes a fan module frame assembly 124, and the fan module frame assembly 124 is connected to the fan module frame 122 to form at least one fan accommodating space 125 for accommodating at least one fan 121; the fan module bezel assembly 124 has at least one bezel assembly connection portion 1241, each fan 121 further has at least one fan connection portion 1212 corresponding to the at least one bezel assembly connection portion 1241, and each fan connection portion 1212 is used to connect with the corresponding bezel assembly connection portion 1241 to fix the fan 121 on the fan module frame 122.

In the embodiment, each fan combining portion 1212 is combined with the corresponding frame assembly combining portion 1241 by a snap-fit manner, but not limited thereto, each fan combining portion 1212 and the corresponding frame assembly combining portion 1241 may also be combined by other manners (such as a locking manner), and those skilled in the art can make any equivalent design changes according to the actual application requirements.

In addition, referring to fig. 1 again, the length and width of the cabinet door 1 are not limited to conform to the height (H) and width (W) of the cabinet 2. Further, in the embodiment, the distance between the first door-side frame 113 and the second door-side frame 114 of the door frame assembly 11 of the cabinet door 1 approximately matches the width (W) of the cabinet 2, but the distance between the upper door frame 111 and the lower door frame 112 is smaller than the height (H) of the cabinet 2; the lower space of the cabinet door 1 corresponds to the position of a specific component (not shown) in the cabinet 2, so that a user or a maintenance person can directly inspect, maintain or repair the specific component from the outside without opening the cabinet door 1.

In an embodiment, the specific component is a cooling liquid distribution unit (CDU), which is a water-cooled component capable of directly bringing a fluid medium (e.g., cooling liquid) to a plurality of Cold plates (not shown) respectively associated with a plurality of electronic computer devices through a plurality of pipes (not shown) at the same time and performing flow rate adjustment. However, the above is only an embodiment, and the specific components disposed in the cabinet 2 and corresponding to the lower space of the cabinet door 1 are not limited to the cooling liquid distribution device.

Of course, the length and width of the cabinet door 1 and the relative position relationship between the cabinet door 1 and the cabinet 2 are not limited to the above, for example, the length and width of the cabinet door 1 may respectively correspond to the height (H) and width (W) of the cabinet 2 according to the practical application requirement, or one of ordinary skill in the art may make any equivalent design change according to the practical application requirement, so that the specific position in the cabinet 2 does not correspond to the cabinet door 1.

Please refer to fig. 7, which is a conceptual diagram of a rack system according to a second embodiment of the present invention. The cabinet system 9 'of the present embodiment is substantially similar to that described in the first embodiment, and will not be described herein again, but the difference is that the cabinet system 9' further includes a cabinet door transition frame 3 disposed between the cabinet doors 1 and 2, which is used for connecting the cabinet doors 1 and 2, and the cabinet door transition frame 3 in fig. 7 is illustrated by a dashed concept.

Please refer to fig. 8, which is a conceptual diagram illustrating a structure of a cabinet door transition frame of the cabinet system shown in fig. 7, wherein fig. 8 is a view from a cabinet door 1 (not shown in fig. 8) to a cabinet 2 (not shown in fig. 8). The cabinet door adapter frame 3 comprises an adapter frame component 31 and an adapter frame inter-frame component 32, wherein the adapter frame component 31 forms the framework of the cabinet door adapter frame 3 and defines the length and the width of the cabinet door adapter frame 3, and the length and the width of the cabinet door adapter frame 3 are equal to the length and the width of the cabinet 2; one or more butting portions 311 are disposed on the adapting frame assembly 31 to connect the cabinet 2 and the cabinet door 1.

In the embodiment, each of the butting portions 311 is located on the side frame of the frame component 31 and can be connected to the cabinet 2 and the cabinet door 1 respectively, but the location and the type of the butting portion 311 are not limited to the above, for example, each of the butting portions 311 can also be used for the cabinet door frame 3 to be connected to only the cabinet 2 or only the cabinet door 1.

Furthermore, the adaptor frame assembly 31 may also provide for fixing or connecting the adaptor frame assembly 32, and the adaptor frame assembly 32 includes one or more straight frames or frames with bent portions, which are fixed or connected between the upper and lower frames of the adaptor frame assembly 31, or between the two side frames of the adaptor frame assembly 31; the adaptor frame assembly 32 can define different spaces within the adaptor frame assembly 31 for different uses.

In the present embodiment, the bezel assembly 32 defines bezel spaces 33, 34; the adapter frame space 33 corresponds to the lower space of the cabinet door 1 and the position of a specific component in the cabinet 2, so that a user or a maintenance person can conveniently check, maintain or repair the specific component from the outside directly. In one embodiment, the specific component is a Coolant Distribution Unit (CDU), but not limited thereto. The adapter space 34 may be provided with other components, for example, the adapter space 34 may be provided with the fluid pipeline 4, and the fluid pipeline 4 is circulated by the fluid medium for liquid cooling and heat dissipation. Also, the adapter frame assembly 32 itself may include guides, mating holes, etc. designed to provide additional mechanical attachment or connection.

As can be seen from the above description, since the heat sink 13 and the fan module 12 of the cabinet door 1 of the cabinet systems 9 and 9' can be independently detached from or assembled to the door frame assembly 11, and the fan 121 can be independently detached from or assembled to the fan module frame 122, when any one of the heat sink 13, the fan module 12, and the fan 121 fails or abnormally operates, a user or a maintenance person does not need to detach the cabinet door 1 directly or indirectly connected to the cabinet 2, but only needs to detach the failed or abnormally operated detachable heat sink 13, the fan module 12, or the fan 121 from the cabinet door 1, so as to perform maintenance and repair, thereby improving the efficiency of maintenance and repair. In addition, the fan module 12 and the heat sink 13 of the present invention are integrated into the cabinet door 1, and do not occupy additional space.

Although the heat sink of the cabinet door of the cabinet system, the fan module and the fan in the fan module are all detachable in the above embodiments, it is not limited to the above embodiments, and those skilled in the art can make any equivalent design changes according to the actual application requirements. For example, the heat sink can be detachable, and the fan module and the fan in the fan module can be non-detachable. For another example, the heat sink may be non-detachable, and the fan module and the fan in the fan module may be detachable. For another example, the heat sink and the fan module can be designed to be non-detachable, and only the fan module can be detachable.

The above-mentioned embodiments are merely illustrative for explaining the principle of the present invention and its efficacy, and explaining the technical features of the present invention, and are not intended to limit the scope of the present invention. Any changes or equivalent arrangements which can be easily made by those skilled in the art without departing from the technical principle and spirit of the present invention belong to the scope of the present invention.

Claims (27)

1. A cabinet system, comprising:

a cabinet for a plurality of electronic computer devices to be disposed therein; and

a cabinet door for opening and closing relative to the cabinet, comprising:

a heat sink in fluid communication with the cabinet and configured to exchange heat with a fluid medium passing through the heat sink;

the fan module is used for driving an air flow and comprises at least one fan and a circuit board, wherein the circuit board is electrically connected with a power supply, the at least one fan is at least one detachable fan, each detachable fan is provided with a fan connecting part, and the circuit board is provided with at least one fan module connecting part; each fan connecting part is electrically connected with the corresponding fan module connecting part so as to supply power to the corresponding fan; and

the door frame assembly is used for arranging the radiator and the fan module on the door frame assembly, the radiator is a detachable radiator and/or the fan module is a detachable fan module, the cabinet system further comprises a cabinet door adapter frame, the cabinet door is indirectly connected to the cabinet through the cabinet door adapter frame, the cabinet door adapter frame comprises an adapter frame assembly and an adapter frame inter-frame assembly, the adapter frame assembly comprises a plurality of butt-joint parts for connecting the cabinet and the cabinet door, and the adapter frame inter-frame assembly is fixed on the adapter frame assembly to define a plurality of adapter frame spaces, wherein at least one adapter frame space of the adapter frame spaces is used for facilitating a maintainer to directly inspect, maintain or repair from the outside.

2. The cabinet system according to claim 1, wherein the door frame assembly includes a top door frame, a bottom door frame, a first door side frame and a second door side frame, and a receiving space is formed between the top door frame, the bottom door frame, the first door side frame and the second door side frame for receiving the heat sink and the fan module.

3. The cabinet system of claim 2, wherein the upper door frame is spaced from the lower door frame by a distance less than the height of the cabinet.

4. The enclosure system of claim 1, wherein the heat sink has at least one housing engaging portion and the door frame assembly has at least one first door frame engaging portion, and each housing engaging portion is configured to engage with a corresponding first door frame engaging portion to secure the heat sink to the door frame assembly.

5. The cabinet system as claimed in claim 4, wherein each of the housing coupling portions is coupled to the corresponding first door frame coupling portion by a locking means or a locking means.

6. The rack system of claim 1, wherein the fan module includes a fan module bezel, the fan module bezel having at least one fan module engaging portion, and the door frame assembly having at least a second door frame engaging portion; each fan module combination part is used for being combined with the corresponding second door frame combination part so as to fix the fan module on the door frame component.

7. The rack system of claim 6, wherein each fan module combination portion is combined with the corresponding second door frame combination portion through a locking manner or a buckling manner.

8. The enclosure system of claim 6 wherein the fan module bezel further comprises at least one fan module secondary assembly portion and the door frame assembly further comprises at least one side frame secondary assembly portion; each fan module auxiliary assembly part is used for matching with a corresponding side frame auxiliary assembly part to assist a user to assemble the fan module on the door frame assembly.

9. The cabinet system as claimed in claim 8, wherein each fan module auxiliary assembly portion is a guide slot having an opening, and each side frame auxiliary assembly portion is a protrusion extending toward a receiving space in the door frame assembly, wherein the fan module moves toward the receiving space after each guide slot is aligned with the corresponding protrusion; or, each fan module auxiliary assembly part is a convex part, each side frame auxiliary assembly part is a guide groove with an opening, and the fan module moves to the accommodating space after each convex part of the fan module is aligned with the corresponding guide groove.

10. The rack system of claim 6, wherein the fan module further comprises a fan module bezel assembly, and the fan module bezel assembly is configured to couple with the fan module frame to form at least one fan receiving space, and the at least one fan receiving space is configured to receive the at least one fan.

11. The rack system of claim 10, wherein the fan module bezel assembly has at least one bezel assembly engaging portion and the at least one fan has at least one fan engaging portion, and each fan engaging portion is configured to engage with the corresponding bezel assembly engaging portion to secure the at least one fan to the fan module rim.

12. The rack system of claim 11, wherein each fan coupling portion is coupled to the corresponding frame assembly coupling portion by a locking means or a locking means.

13. The rack system of claim 6, wherein the circuit board is fixedly disposed on the frame of the fan module; or

The fan connecting part is an electrical male connector, and the fan module connecting part corresponding to the fan connecting part is an electrical female connector; or

The fan connecting part is an electrical female base, and the fan module connecting part corresponding to the fan connecting part is an electrical male head; or

The at least one fan includes a plurality of fans arranged in a matrix.

14. A cabinet door is applied to a cabinet in which a plurality of electronic computer devices are arranged, and the cabinet door can be opened and closed relative to the cabinet, and is characterized by comprising:

a radiator for exchanging heat with a fluid medium passing through the radiator;

the fan module is used for driving an air flow and comprises at least one fan and a circuit board, wherein the circuit board is electrically connected with a power supply, the at least one fan is at least one detachable fan, each detachable fan is provided with a fan connecting part, and the circuit board is provided with at least one fan module connecting part; each fan connecting part is electrically connected with the corresponding fan module connecting part so as to supply power to the corresponding fan; and

the door frame assembly is used for arranging the radiator and the fan module on the door frame assembly, the radiator is a detachable radiator and/or the fan module is a detachable fan module, wherein the cabinet door is indirectly connected to the cabinet through a cabinet door adapter frame, the cabinet door adapter frame comprises an adapter frame assembly and an adapter frame inter-frame assembly, the adapter frame assembly comprises a plurality of butt-joint parts for connecting the cabinet and the cabinet door, and the adapter frame inter-frame assembly is fixed on the adapter frame assembly to define a plurality of adapter frame spaces, wherein at least one of the adapter frame spaces is used for facilitating a maintainer to directly check, maintain or repair from the outside.

15. The cabinet door according to claim 14, wherein the door frame assembly comprises an upper door frame, a lower door frame, a first door side frame and a second door side frame, and a receiving space is formed between the upper door frame, the lower door frame, the first door side frame and the second door side frame for receiving the heat sink and the fan module.

16. The enclosure door of claim 15, wherein the upper door frame is spaced from the lower door frame by a distance less than the height of the enclosure.

17. The cabinet door of claim 14, wherein the heat sink includes a housing and a fluid conduit coupled to the housing for flowing the fluid medium into or out of the heat sink.

18. The cabinet door of claim 17, wherein the heat sink has at least one housing engaging portion, the door frame assembly has at least one first door frame engaging portion, and each housing engaging portion is configured to engage with a corresponding first door frame engaging portion to secure the heat sink to the door frame assembly.

19. The cabinet door of claim 18, wherein each of the housing coupling portions is coupled to the corresponding first door frame coupling portion by a locking means or a locking means.

20. The cabinet door of claim 14, wherein the fan module includes a fan module bezel, the fan module bezel having at least one fan module engaging portion, and the door frame assembly having at least one second door frame engaging portion; each fan module combination part is used for being combined with the corresponding second door frame combination part so as to fix the fan module on the door frame component.

21. The cabinet door of claim 20, wherein each fan module combination portion is combined with the corresponding second door frame combination portion through a locking manner or a buckling manner.

22. The enclosure door of claim 20, wherein the fan module bezel further comprises at least one fan module secondary assembly portion, and the door frame assembly further comprises at least one side frame secondary assembly portion; each fan module auxiliary assembly part is used for matching with a corresponding side frame auxiliary assembly part to assist a user to assemble the fan module on the door frame assembly.

23. The cabinet door as claimed in claim 22, wherein each of the fan module sub-assembling portions is a guide slot having an opening, and each of the side frame sub-assembling portions is a protrusion extending toward a receiving space in the door frame assembly, wherein the fan module moves toward the receiving space after each of the guide slots is aligned with the corresponding protrusion; or, each fan module auxiliary assembly part is a convex part, each side frame auxiliary assembly part is a guide groove with an opening, and the fan module moves to the accommodating space after each convex part of the fan module is aligned with the corresponding guide groove.

24. The cabinet door of claim 20, wherein the fan module further comprises a fan module bezel assembly, the fan module bezel assembly configured to couple with the fan module bezel to form at least one fan receiving space, the at least one fan receiving space configured to receive the at least one fan.

25. The cabinet door according to claim 24, wherein the fan module bezel assembly has at least one bezel assembly coupling portion, and the at least one fan has at least one fan coupling portion, and each of the fan coupling portions is adapted to couple with the corresponding bezel assembly coupling portion to fix the at least one fan to the fan module bezel.

26. The cabinet door of claim 25, wherein each fan coupling portion is coupled to the corresponding frame assembly coupling portion by a locking means or a locking means.

27. The enclosure door of claim 20, wherein the circuit board is secured to the fan module frame; or

The fan connecting part is an electrical male connector, and the fan module connecting part corresponding to the fan connecting part is an electrical female connector; or

The fan connecting part is an electrical female base, and the fan module connecting part corresponding to the fan connecting part is an electrical male head; or

The at least one fan includes a plurality of fans arranged in a matrix.

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