CN215735123U - Cabinet air guide mechanism, cabinet device and server cabinet - Google Patents

Abstract

The utility model provides a cabinet air guide mechanism which is adaptive to a cabinet device, wherein the cabinet device is provided with an equipment installation cavity, the cabinet air guide mechanism comprises an air guide main body component, the air guide main body component is provided with a steering air channel, and the steering air channel is communicated with the equipment installation cavity. The utility model also provides a machine cabinet device, which comprises a cabinet body and a machine cabinet air guide mechanism, wherein the cabinet body comprises an air inlet plate and an air outlet plate which are opposite, the cabinet body is also provided with an equipment installation cavity and an air guide mechanism installation cavity, the machine cabinet air guide mechanism is installed in the air guide mechanism installation cavity, and the equipment installation cavity is communicated with the air guide mechanism installation cavity and is positioned between the air inlet plate and the air outlet plate. The utility model also provides a server cabinet. According to the cabinet air guide mechanism provided by the utility model, the air guide main body assembly is provided with the steering air channel, and the steering air channel is communicated with the equipment installation cavity, so that the air flow organization is changed, the air flow organization in the cabinet can meet the requirements of equipment with different functions, the air flow refrigeration efficiency is improved, and refrigeration and energy conservation are realized.

Description

Cabinet air guide mechanism, cabinet device and server cabinet

Technical Field

The utility model relates to the technical field of cabinets, in particular to a cabinet air guide mechanism, a cabinet device and a server cabinet.

Background

The current cabinet airflow is organized, typically by entering at the front door of the cabinet and exiting at the rear door of the cabinet. For equipment needing front air inlet and rear air outlet, refrigerating airflow can enter from the front side of the equipment and is discharged from the back side of the equipment after passing through the internal load of the equipment. The refrigerating airflow can fully flow through the load and take away the heat generated by the load.

However, the airflow organization of the existing cabinet cannot meet different requirements of equipment, and the refrigeration efficiency of the airflow is low, so that the refrigeration requirement of the equipment is difficult to meet.

SUMMERY OF THE UTILITY MODEL

An embodiment of the present invention provides a rack air guiding mechanism, a rack device, and a server rack, so as to solve the above problems. The embodiment of the utility model achieves the aim through the following technical scheme.

In a first aspect, an embodiment of the present invention provides a cabinet air guide mechanism, which is adapted to a cabinet device, where the cabinet device is provided with an equipment installation cavity, and the cabinet air guide mechanism includes an air guide main component, where the air guide main component is provided with a steering air duct, and the steering air duct is communicated with the equipment installation cavity.

In one embodiment, the air guide main body assembly comprises an air guide outer frame and an arc-shaped air guide plate, wherein the arc-shaped air guide plate is connected to the air guide outer frame and forms a steering air duct with the air guide outer frame.

In an implementation mode, the air guide outer frame comprises a first supporting plate, a second supporting plate, a third supporting plate, a first air baffle and a second air baffle, the first air baffle is opposite to the second air baffle, the first supporting plate, the second supporting plate and the third supporting plate are connected between the first air baffle and the second air baffle, the first supporting plate and the second supporting plate enclose a first ventilation opening, the second supporting plate and the third supporting plate enclose a second ventilation opening, the first ventilation opening and the second ventilation opening are respectively located at two ends of a steering air duct, and the arc-shaped air baffle is connected between the first supporting plate and the third supporting plate.

In one embodiment, the air guide main body assembly further includes an air guide partition plate, the air guide partition plate is disposed in the turning air duct, and an extending direction of the air guide partition plate coincides with an extending direction of the turning air duct.

In an implementation mode, the cabinet air guide mechanism further comprises a butt joint assembly, the butt joint assembly is connected with the air guide main body assembly, the butt joint assembly is provided with an opening, and the opening is communicated with the steering air channel and is communicated with the equipment installation cavity.

In one embodiment, the docking assembly includes opposite first and second ends, the opening extends through the first and second ends, the first end is connected with the air guide main body assembly, and the second end is provided with a sealing member.

In a second aspect, an embodiment of the present invention further provides a cabinet apparatus, including a cabinet body and any one of the above-mentioned cabinet air guiding mechanisms, where the cabinet body includes an air inlet plate and an air outlet plate which are opposite to each other, the cabinet body is further provided with an equipment installation cavity and an air guiding mechanism installation cavity, the cabinet air guiding mechanism is installed in the air guiding mechanism installation cavity, and the equipment installation cavity is communicated with the air guiding mechanism installation cavity and both located between the air inlet plate and the air outlet plate.

In an implementation mode, rack air guide mechanism includes first air guide mechanism and second air guide mechanism, air guide mechanism installation cavity includes first installation cavity and second installation cavity, first installation cavity, equipment fixing cavity and second installation cavity communicate in proper order, first air guide mechanism installs in first installation cavity, second air guide mechanism installs in the second installation cavity, the air inlet plate is equipped with the air intake, the air-out plate is equipped with the air outlet, the air current that gets into through the air intake passes through first air guide mechanism direction equipment installation cavity, and discharge from the air outlet behind second air guide mechanism.

In one embodiment, the first mounting cavity and the second mounting cavity are arranged in a longitudinal direction.

In one embodiment, the first and second mounting cavities are arranged side by side.

In an implementation mode, the cabinet body still includes main frame body, and equipment fixing cavity and wind guiding mechanism installation cavity all set up in main frame body, and the air inlet board is installed in main frame body with the play aerofoil, and the air inlet board includes a plurality of installation blind plates, and a plurality of installation blind plates enclose into the air intake with main frame body.

In a third aspect, an embodiment of the present invention further provides a server rack, including a functional device and any one of the above rack apparatuses, where the functional device is installed in the device installation cavity.

Compared with the prior art, the cabinet air guide mechanism, the cabinet device and the server cabinet provided by the embodiment of the utility model have the advantages that the steering air channel is arranged through the air guide main body component and is communicated with the equipment installation cavity, the airflow organization is changed, after the cabinet air guide mechanism is installed in the cabinet, the airflow organization in the cabinet can meet the requirements of equipment with different functions, and when the airflow is refrigerating airflow, the refrigerating efficiency of the airflow can be improved, and the refrigeration and energy conservation are realized.

These and other aspects of the utility model are apparent from and will be elucidated with reference to the embodiments described hereinafter.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an air guide mechanism of a cabinet according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a wind guide main assembly of the cabinet wind guide mechanism provided in the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a docking assembly of an air guide mechanism of a cabinet according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a cabinet apparatus according to an embodiment of the present invention.

Fig. 5 is a schematic view of the airflow pattern of the cabinet apparatus provided in fig. 4.

Fig. 6 is a schematic structural diagram of a cabinet device according to an embodiment of the present invention.

Fig. 7 is a schematic view of the airflow pattern of the enclosure apparatus provided in fig. 6.

Fig. 8 is a schematic structural diagram of a cabinet apparatus according to another embodiment of the present invention.

Fig. 9 is a schematic view of an airflow pattern of the cabinet apparatus provided in fig. 8.

Fig. 10 is another airflow pattern diagram of the enclosure apparatus provided in fig. 8.

Fig. 11 is a schematic structural diagram of a server rack provided in an embodiment of the present invention.

Detailed Description

In order to facilitate an understanding of the embodiments of the present invention, the embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the examples of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

At present, in a server cabinet of a mainstream manufacturer, a front door of the cabinet is a single-opening mesh door, and a rear door of the cabinet is a double-opening mesh door. Along with the improvement of the processing technology of the cabinet, the opening rate of the mesh door plate is not lower than 72%. The air flow of the cabinet body is organized into that the air flow enters from the front door of the cabinet body and is exhausted from the rear door of the cabinet body.

The inventor finds that for the equipment with front air inlet and rear air outlet, the refrigerating airflow enters from the front of the equipment and is discharged from the rear of the equipment. The refrigerating airflow can fully flow through the equipment and take away the heat of the equipment.

However, the air conditioner is used for the equipment which is used for air inlet from the left side and air outlet from the right side, the equipment which is used for air inlet from the right side and air outlet from the left side, the equipment which is used for air inlet from the bottom and air outlet from the top, and the equipment which is used for air inlet from the top and air outlet from the bottom. The air flow organization in the machine cabinet can not well meet the requirements of equipment with other air inlet and outlet modes except for air outlet after front air inlet, so that the refrigerating efficiency of refrigerating air flow is not high.

Therefore, the inventor provides an air guide mechanism of a cabinet to solve the above problems. The following describes the cabinet air guiding mechanism provided by the present invention in detail with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a cabinet air guiding mechanism 11, where the cabinet air guiding mechanism 11 is adapted to a cabinet device, the cabinet device is provided with an equipment installation cavity, the cabinet air guiding mechanism 11 includes an air guiding main component 110, the air guiding main component 110 is provided with a turning air duct 112, and the turning air duct 112 is communicated with the equipment installation cavity.

The cabinet air guide mechanism 11 provided by the utility model can be at least arranged in a standard cabinet with front air inlet and rear air outlet, so that the air flow organization in the cabinet is changed. The cabinet air guide mechanism 11 is of a modular overall structure, wherein the modularization means that the length, the width and the height of the cabinet air guide mechanism 11 can be set according to the internal size of a standard cabinet, and an overall structure is formed, a corresponding structure is arranged inside the cabinet and used for installing the cabinet air guide mechanism 11, so that the cabinet air guide mechanism 11 can be installed inside the standard cabinet, can be integrally disassembled from the inside of the standard cabinet when needing to be replaced, and can be produced in batches and sold independently.

Through different use modes of the modularized cabinet air guide mechanism 11, the air flow organization entering from the front of the cabinet can be changed to be consistent with the air flow organization required by the air inlet side of the functional equipment, and the air flow organization at the air outlet side of the functional equipment is changed to be consistent with the air flow organization discharged from the back of the cabinet. The refrigeration requirements of different functional devices are met, and when the airflow is the refrigeration airflow, the refrigeration efficiency can be improved, and refrigeration energy conservation is realized.

Referring to fig. 2, the wind guiding main assembly 110 includes a wind guiding outer frame 113 and an arc-shaped wind guiding plate 115, and the arc-shaped wind guiding plate 115 is connected to the wind guiding outer frame 113 and forms a turning wind channel 112 with the wind guiding outer frame 113.

In this embodiment, the air guiding frame 113 is a substantially rectangular frame structure, and includes a first support plate 1131, a second support plate 1132, a third support plate 1133, a first air baffle 1134, and a second air baffle 1135, where the first support plate 1131, the second support plate 1132, the third support plate 1133, the first air baffle 1134, and the second air baffle 1135 are all rectangular plate-shaped structures. The first air deflector 1134 and the second air deflector 1135 are opposed, e.g., the first air deflector 1134 is the same size as the second air deflector 1135, and the first air deflector 1134 lies in a plane that is parallel to the plane of the second air deflector 1135. Both the first air deflector 1134 and the second air deflector 1135 may be used to deflect air so that air flows along the diverted air path 112. First support plate 1131, second support plate 1132, and third support plate 1133 are all connected between first windshield 1134 and second windshield 1135. In this embodiment, the first support plate 1131, the second support plate 1132 and the third support plate 1133 have the same structure, the plane of the first support plate 1131, the plane of the second support plate 1132 and the plane of the third support plate 1133 are all parallel to each other, the plane of the first support plate 1131 is perpendicular to the plane of the first wind shield 1134 or the plane of the second wind shield 1135, the first support plate 1131, the second support plate 1132 and the third support plate 1133 are located at three vertexes of a right triangle, and the plane of the second support plate 1132 may be coplanar with the plane of the third support plate 1133.

With reference to fig. 2, the air guiding frame 113 further includes a fourth supporting plate 1136 and a rear wind shielding plate 1137, and the fourth supporting plate 1136 and the rear wind shielding plate 1137 are also rectangular plate-shaped structures and are connected between the first wind shielding plate 1134 and the second wind shielding plate 1135. First support plate 1131, second support plate 1132, third support plate 1133, and fourth support plate 1136 are located at four vertices of a rectangle in order, and the minimum spacing between first support plate 1131 and second support plate 1132 is equal to the minimum spacing between third support plate 1133 and fourth support plate 1136. A rear wind deflector 1137 is connected between the third support plate 1133 and the fourth support plate 1136, and may be used for fixing the cabinet wind guiding mechanism 11.

The first support plate 1131 and the second support plate 1132 surround to form a first ventilation opening 1121, the second support plate 1132 and the third support plate 1133 surround to form a second ventilation opening 1123, and the second support plate 1132 separates the first ventilation opening 1121 from the second ventilation opening 1123, wherein the first ventilation opening 1121 and the second ventilation opening 1123 are respectively located at two ends of the turning duct 112. In this embodiment, the first ventilation opening 1121 may be an airflow inlet, and the second ventilation opening 1123 may be an airflow outlet, where the airflow inlet is an opening through which external airflow, such as cooling airflow, enters the cabinet air guiding mechanism 11; the airflow outlet is an opening through which the external airflow is discharged from the cabinet air guide mechanism 11. The turning air duct 112 changes the air flow organization, and after the modularized cabinet air guide mechanism 11 is installed in the cabinet, the air flow organization in the cabinet can meet the requirements of different functional devices. For example, for a standard cabinet, airflow enters from the front door of the cabinet and exits from the rear door of the cabinet, and the airflow inside the cabinet is organized into front air and rear air. When the functional equipment is bottom air inlet top air outlet equipment, the front air can be changed into bottom air inlet through one cabinet air guide mechanism 11, the top air outlet can be changed into back air outlet through another cabinet air guide mechanism 11, so that the air flow in the cabinet is changed into bottom air inlet top air outlet, and the requirement of the bottom air inlet top air outlet functional equipment can be met. When the airflow is the refrigerating airflow, the refrigerating efficiency of the airflow can be improved, and the refrigeration and energy conservation are realized. When the functional equipment is bottom air inlet and top air outlet, or left air inlet and right air outlet, or right air inlet and left air outlet, the airflow organization in the cabinet can be changed through the cabinet air guide mechanism 11, so that the airflow organization in the cabinet can meet the requirements of different functional equipment.

In this embodiment, the direction of the airflow entering the cabinet guiding mechanism 11 and the direction of the airflow discharging are perpendicular to each other, and the diversion air duct 112 changes the airflow by 90 °. In other embodiments, after the modular cabinet air guiding mechanism 11 is installed in the cabinet, the turning air duct 112 may also change the airflow at other angles, for example, 45 ° or 60 ° under the condition that the airflow organization in the cabinet meets the requirements of different functional devices.

The arc-shaped air deflection plate 115 has a substantially arc-shaped cross section. The arc-shaped air deflector 115 can reduce the resistance of the air flow in the flowing process, and is beneficial to the flowing of the air flow. In this embodiment, the arc air deflector 115 is connected between the first support plate 1131 and the third support plate 1133. The arc-shaped air deflector 115 is an integrally formed structure. In other embodiments, the arc-shaped air deflector 115 may be formed by splicing a plurality of air deflectors, and the splicing manner between two adjacent air deflectors may be screw connection, rivet pulling, welding, and the like.

In this embodiment, the air guide main assembly 110 further includes an air guide partition 117, the air guide partition 117 is disposed in the turning air duct 112, and an extending direction of the air guide partition 117 coincides with an extending direction of the turning air duct 112. The air guide partition 117 has the functions of shunting and equalizing the air flow in the turning air duct 112, so that the air flow is more stable, and the refrigeration efficiency of the air flow is improved. The air guiding partition 117 is further connected between the first air deflector 1134 and the second air deflector 1135, the cross section of the air guiding partition 117 is substantially arc-shaped, and the air guiding partition 117 may also be an integrally molded structure. In another embodiment, the air guiding partition plate 117 may be formed by splicing a plurality of air guiding plates, and the splicing manner between two adjacent air guiding plates may be screw connection, rivet connection, welding, or the like. In the present embodiment, the number of the air guide partitions 117 is one. In other embodiments, according to actual needs, the number of the air guiding partition plates 117 may also be two, three, or more, and a plurality of air guiding partition plates 117 may be arranged in the turning air duct 112 at intervals, so as to achieve flow splitting and flow equalizing of the air flow in the turning air duct 112.

In this embodiment, the wind guiding main assembly 110 further includes a plurality of mounting fixtures 118, and the mounting fixtures can be fixedly mounted inside the cabinet, so that the cabinet wind guiding mechanism 11 is fixed inside the cabinet, for example, can be fixed on a mounting pillar inside the cabinet. The number of the mounting fixtures 118 is four, the four mounting fixtures 118 are respectively mounted on a first support plate 1131, a second support plate 1132, a third support plate 1133 and a fourth support plate 1136, one side of each mounting fixture 118 is mounted on one of the support plates, for example, the first support plate 1131, and the fixing manner may be welding or screw fixing connection; the other side of each mounting fixture 118 may be provided with a guide slot (hole) and/or a mounting hole for connecting and fixing with a mounting post inside the cabinet.

Referring to fig. 1 and fig. 3, the cabinet air guiding mechanism 11 further includes a docking assembly 120, and the docking assembly 120 is connected to the air guiding main assembly 110. The connection mode can be bonding or welding through a sealant. The docking assembly 120 may dock with the functional device, so that the airflow may flow to the functional device, and the airflow passing through the functional device may pass through the docking assembly 120 and be exhausted from the air guide main body assembly 110.

The docking assembly 120 includes a first side plate 121, a second side plate 122, a third side plate 123 and a fourth side plate 124, wherein the first side plate 121 and the third side plate 123 are opposite to each other, the second side plate 122 and the fourth side plate 124 are opposite to each other, the second side plate 122 is connected between the first side plate 121 and the third side plate 123, and the fourth side plate 124 is connected between the first side plate 121 and the third side plate 123, so that the docking assembly 120 is a substantially rectangular frame structure with a certain thickness.

The docking assembly 120 includes a first end 125 and a second end 126, and the first end 125 is connected to the wind guiding body assembly 110, wherein the connection may be through a screw and the wind guiding body assembly 110. The second end 126 is provided with a seal 127. The sealing member 127 can be connected with the functional device for tolerance, so as to block a gap between the second end 126 and the functional device, reduce the escape of the refrigerant air flow and improve the refrigeration efficiency. In this embodiment, the sealing member 127 is a bead of sealant that is disposed around the first end 125. In other embodiments, the sealing member 127 may be sealing glue or the like, or may be disposed on the first end 125 in a complete circle.

The docking assembly 120 is provided with an opening 128, the opening 128 extending through the first end 125 and the second end 126, the opening 128 communicating with the turn duct 112 and with the equipment mounting cavity, so that air can enter the functional equipment through the opening 128 to carry heat away from the functional equipment.

To sum up, in the cabinet air guide mechanism 11 provided in the embodiment of the present invention, the length, the width, and the height of the cabinet air guide mechanism 11 can be set according to the internal size of the standard cabinet, and form an integral structure, and can be integrally detached from the inside of the standard cabinet when needing to be replaced, which is a modular integral structure, the air guide main body assembly 110 of the modular cabinet air guide mechanism 11 is provided with the turning air duct 112, and the turning air duct 112 is communicated with the equipment installation cavity, so that the airflow organization is changed, and after the modular cabinet air guide mechanism 11 is installed in the cabinet, the airflow organization in the cabinet can be changed into the airflow organization required by the functional equipment, so as to meet the requirements of different functional equipment, and when the airflow is refrigeration airflow, the refrigeration efficiency of the airflow can be improved, and refrigeration energy saving can be realized.

Referring to fig. 4 and fig. 5, an embodiment of the present invention further provides a cabinet apparatus 10, including a cabinet body 13 and a cabinet wind guiding mechanism 11,

the cabinet 13 includes a main frame 132, an air inlet plate 133 and an air outlet plate 134, the main frame 132 is a substantially rectangular frame structure, the air inlet plate 133 is opposite to the air outlet plate 134, for example, a plane of the air inlet plate 133 is parallel to a plane of the air outlet plate 134, and both the air inlet plate 133 and the air outlet plate 134 are mounted on the main frame 132.

The air inlet plate 133 is provided with an air inlet 1332, and the air inlet 1332 may be an inlet of the cooling air flow into the cabinet device 10. The air inlet plate 133 includes a plurality of installation blind plates 1331, the installation blind plates 1331 are installed in the main frame 132 side by side, and are used for plugging the vacant area of the main frame 132, and enclose an air inlet 1332 with the main frame 132, and the installation blind plates 1331 can reduce the flow of the air flow overflowing from the air inlet 1332. The air outlet plate 134 is provided with an air outlet 1341, and the air outlet 1341 may be an outlet through which the airflow is discharged from the cabinet device 10.

The cabinet body 13 is also provided with an equipment installation cavity 135 and an air guide mechanism installation cavity 136, the equipment installation cavity 135 is communicated with the air guide mechanism installation cavity 136, and the equipment installation cavity 135 and the air guide mechanism installation cavity 136 are both arranged on the main frame body 132 and are both positioned between the air inlet plate 133 and the air outlet plate 134. The air guide mechanism installation cavity 136 can be used for installing the cabinet air guide mechanism 11, and the equipment installation cavity 135 can be used for installing functional equipment.

In this embodiment, the air guiding mechanism installation cavity 136 includes a first installation cavity 1362 and a second installation cavity 1364, and the first installation cavity 1362, the equipment installation cavity 135 and the second installation cavity 1364 are sequentially communicated. The first mounting cavity 1362 is communicated with the air inlet 1332 and can be used for mounting the cabinet air guide mechanism 11; the second mounting cavity 1364 is communicated with the air outlet 1341, and can also be used for mounting the cabinet air guiding mechanism 11.

The cabinet air guiding mechanism 11 includes a first air guiding mechanism 11a and a second air guiding mechanism 11b, wherein the first air guiding mechanism 11a is installed in the first installation cavity 1362, the second air guiding mechanism 11b is installed in the second installation cavity 1364, and the air flow entering through the air inlet 1332 passes through the first air guiding mechanism 11a to be guided to the equipment installation cavity 135, and is discharged from the air outlet 1341 after passing through the second air guiding mechanism 11 b. When the airflow is the refrigerating airflow and the functional equipment is installed in the equipment installation cavity 135, the refrigerating airflow can fully flow through the functional equipment, the heat of the functional equipment is taken away, the refrigerating efficiency is improved, and energy conservation is realized.

Referring to fig. 1, fig. 2 and fig. 5, in the present embodiment, the first mounting cavity 1362 and the second mounting cavity 1364 are longitudinally disposed, for example, the first mounting cavity 1362 is located below the second mounting cavity 1364, and the cabinet body 13 is a single cabinet structure, that is, the second mounting cavity 1364, the equipment mounting cavity 135 and the first mounting cavity 1362 are sequentially arranged from top to bottom. At this time, the first ventilation opening 1121 of the first air guiding mechanism 11a is communicated with the air inlet 1332, the second ventilation opening 1123 of the first air guiding mechanism 11a faces upward, the second ventilation opening 1123 of the second air guiding mechanism 11b faces downward, and the first ventilation opening 1121 of the second air guiding mechanism 11b is communicated with the air outlet 1341. The airflow pattern of the enclosure apparatus 10 is: the airflow enters the first air guiding mechanism 11a from the air inlet 1332 through the first ventilation opening 1121 of the first air guiding mechanism 11a, then enters the functional equipment mounting cavity through the second ventilation opening 1123 of the first air guiding mechanism 11a and the opening 128 of the first air guiding mechanism 11a, then enters the second air guiding mechanism 11b from the equipment mounting cavity 135 through the opening 128 of the second air guiding mechanism 11b, and finally is discharged from the air outlet 1341 through the second ventilation opening 1123 of the second air guiding mechanism 11b and the first ventilation opening 1121 of the first air guiding mechanism 11a in sequence. According to the airflow organization, the airflow passing through the functional equipment installation cavity is from the bottom to the top, and at the moment, the airflow organization in the cabinet body 13 can meet the requirements of functional equipment with bottom air inlet and top air outlet.

Referring to fig. 6 and 7, in one embodiment, first mounting cavity 1362 and second mounting cavity 1364 are also disposed along the longitudinal direction, for example, first mounting cavity 1362 is located above second mounting cavity 1364, and cabinet 13 is also a single cabinet structure, that is, first mounting cavity 1362, equipment mounting cavity 135, and second mounting cavity 1364 are sequentially arranged from top to bottom. At this time, the first ventilation opening 1121 of the first air guiding mechanism 11a is communicated with the air inlet 1332, the second ventilation opening 1123 of the first air guiding mechanism 11a faces downward, the second ventilation opening 1123 of the second air guiding mechanism 11b faces upward, and the first ventilation opening 1121 of the second air guiding mechanism 11b is communicated with the air outlet 1341. The airflow pattern of the enclosure apparatus 10 is: the airflow enters the first air guiding mechanism 11a from the air inlet 1332 through the first ventilation opening 1121 of the first air guiding mechanism 11a, then enters the functional equipment mounting cavity through the second ventilation opening 1123 of the first air guiding mechanism 11a and the opening 128 of the first air guiding mechanism 11a, then enters the second air guiding mechanism 11b from the equipment mounting cavity 135 through the opening 128 of the second air guiding mechanism 11b, and finally is discharged from the air outlet 1341 through the second ventilation opening 1123 of the second air guiding mechanism 11b and the first ventilation opening 1121 of the first air guiding mechanism 11a in sequence. According to the airflow organization, the airflow passing through the functional equipment installation cavity is from the top to the bottom, and at the moment, the airflow organization in the cabinet body 13 can meet the requirement of functional equipment for air outlet at the bottom of top air inlet.

Referring to fig. 8, 9 and 10, in another embodiment, the first mounting cavity 1362 and the second mounting cavity 1364 are arranged side by side, the number of the cabinet bodies 13 is three, the three cabinet bodies 13 are arranged side by side, one cabinet body 13 is provided with the first mounting cavity 1362, one cabinet body 13 is provided with the equipment mounting cavity 135, and the other cabinet body 13 is provided with the second mounting cavity 1364. The first mounting cavity 1362 may be disposed in the left cabinet 13 (as viewed in fig. 8) and may be disposed in the right cabinet 13 (as viewed in fig. 8).

Referring to fig. 8, in the present embodiment, under the condition that the airflow structures are not interfered with each other, the cabinet device 10 may have two airflow structures, for example, a mixture of the airflow structure of the left air inlet and the right air outlet and the airflow structure of the right air inlet and the left air outlet, and the functional device of the left air inlet and the functional device of the right air inlet and the functional device of the left air outlet may be installed in the cabinet device 10 at the same time, for example, the functional device of the left air inlet and the right air outlet is installed above the cabinet device, and the functional device of the right air inlet and the left air outlet is installed below the cabinet device. In other embodiments, only one airflow organization may be included in the cabinet device 10, for example, only the airflow organization of the left inlet air and the right outlet air, or only the airflow organization of the right inlet air and the left outlet air.

Referring to fig. 9, taking the first mounting cavity 1362 disposed in the left cabinet body 13 as an example, the first ventilation opening 1121 (fig. 2) of the first air guiding mechanism 11a is communicated with the air inlet 1332, and the second ventilation opening 1123 of the first air guiding mechanism 11a is communicated with the equipment mounting cavity 135. The second ventilation port 1123 (fig. 2) of the second air guiding mechanism 11b communicates with the equipment installation cavity 135, and the first ventilation port 1121 of the second air guiding mechanism 11b communicates with the air outlet 1341. The airflow organization through the functional equipment installation cavity is left air inlet and right air outlet, and the airflow organization in the cabinet body 13 can meet the requirements of functional equipment for left air inlet and right air outlet.

Referring to fig. 10, when the first mounting cavity 1362 is disposed in the right cabinet body 13, the first ventilation opening 1121 (fig. 2) of the first air guiding mechanism 11a is communicated with the air inlet 1332, and the second ventilation opening 1123 of the first air guiding mechanism 11a is communicated with the equipment mounting cavity 135. The second ventilation port 1123 (fig. 2) of the second air guiding mechanism 11b communicates with the equipment installation cavity 135, and the first ventilation port 1121 of the second air guiding mechanism 11b communicates with the air outlet 1341. The airflow organization through the functional equipment installation cavity is right air inlet and left air outlet, and the airflow organization in the cabinet body 13 can meet the requirements of functional equipment for right air inlet and left air outlet.

To sum up, the cabinet device 10 provided in the embodiment of the present invention changes the airflow organization through the modular cabinet air guiding mechanism 11, so that the airflow organization in the cabinet body 13 is changed into the airflow organization required by the functional device, so as to meet the requirements of different functional devices, when the airflow is the refrigeration airflow, the refrigeration efficiency of the airflow can be improved, and the refrigeration energy saving is realized, and under the condition that the airflow organizations are not interfered with each other, the cabinet device 10 can simultaneously perform the airflow organization of the left air inlet and the right air outlet and the airflow organization of the right air inlet and the left air outlet.

Referring to fig. 11, an embodiment of the present invention further provides a server cabinet 1, which includes a functional device 30 and a cabinet apparatus 10, wherein the functional device 30 is installed in the device installation cavity 135 (fig. 4). The function device 30 may be a network communication device, a route switching device, or the like.

According to the server cabinet 1 provided by the embodiment of the utility model, the airflow organization is changed through the modularized cabinet air guide mechanism 11, so that the airflow organization in the cabinet body 13 is changed into the airflow organization required by the functional equipment, and the requirements of different functional equipment 30 are met, when the airflow is refrigerating airflow, the refrigerating efficiency of the airflow can be improved, the functional equipment 30 is cooled, and the refrigeration and energy conservation are realized.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. The cabinet air guide mechanism is characterized by being adaptive to a cabinet device, the cabinet device is provided with an equipment installation cavity, the cabinet air guide mechanism comprises an air guide main body component, the air guide main body component is provided with a steering air channel, the air guide main body component comprises an air guide outer frame and an arc-shaped air guide plate, the arc-shaped air guide plate is connected to the air guide outer frame, the air guide outer frame and the steering air channel are enclosed, and the steering air channel is communicated with the equipment installation cavity.

2. The cabinet air guide mechanism according to claim 1, wherein the air guide frame includes a first support plate, a second support plate, a third support plate, a first air baffle, and a second air baffle, the first air baffle is opposite to the second air baffle, the first support plate, the second support plate, and the third support plate are all connected between the first air baffle and the second air baffle, the first support plate and the second support plate enclose a first air vent, the second support plate and the third support plate enclose a second air vent, the first air vent and the second air vent are respectively located at two ends of the turning air duct, and the arc-shaped air baffle is connected between the first support plate and the third support plate.

3. The cabinet air guide mechanism according to claim 1, wherein the air guide main assembly further includes an air guide partition plate, the air guide partition plate is disposed in the turning air duct, and an extending direction of the air guide partition plate coincides with an extending direction of the turning air duct.

4. The cabinet air guide mechanism according to claim 1, further comprising a docking assembly, wherein the docking assembly is connected to the air guide main assembly, and the docking assembly is provided with an opening, and the opening is communicated with the turning air duct and the equipment installation cavity.

5. The cabinet air guide mechanism according to claim 4, wherein the docking assembly includes a first end and a second end opposite to each other, the opening extends through the first end and the second end, the first end is connected to the air guide main assembly, and the second end is provided with a sealing member.

6. A cabinet device, comprising a cabinet body and the cabinet air guide mechanism as claimed in any one of claims 1 to 5, wherein the cabinet body comprises an air inlet plate and an air outlet plate which are opposite to each other, the cabinet body is further provided with an equipment installation cavity and an air guide mechanism installation cavity, the cabinet air guide mechanism is installed in the air guide mechanism installation cavity, and the equipment installation cavity and the air guide mechanism installation cavity are communicated and are both located between the air inlet plate and the air outlet plate.

7. The cabinet device according to claim 6, wherein the cabinet air guiding mechanism includes a first air guiding mechanism and a second air guiding mechanism, the air guiding mechanism installation cavity includes a first installation cavity and a second installation cavity, the first installation cavity, the equipment installation cavity and the second installation cavity are sequentially communicated, the first air guiding mechanism is installed in the first installation cavity, the second air guiding mechanism is installed in the second installation cavity, the air inlet plate is provided with an air inlet, the air outlet plate is provided with an air outlet, and an air flow entering through the air inlet passes through the first air guiding mechanism, is guided to the equipment installation cavity, and is discharged from the air outlet after passing through the second air guiding mechanism.

8. The cabinet apparatus of claim 7, wherein the first and second mounting cavities are longitudinally disposed.

9. The cabinet apparatus of claim 7, wherein the first and second mounting cavities are arranged side-by-side.

10. The cabinet device according to claim 7, wherein the cabinet body further includes a main frame body, the equipment installation cavity and the air guiding mechanism installation cavity are both disposed in the main frame body, the air inlet plate and the air outlet plate are installed in the main frame body, the air inlet plate includes a plurality of installation blind plates, and the air inlet is defined by the plurality of installation blind plates and the main frame body.

11. A server cabinet comprising a functional device and a cabinet apparatus as claimed in any one of claims 6 to 10, the functional device being mounted in the device mounting cavity.

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