CN110785057A - Integrated unit cabinet with vertical air duct - Google Patents

Abstract

The invention relates to the technical field of integrated cabinets, in particular to an integrated unit cabinet with a vertical air duct, which comprises a cabinet body and at least one vertical air duct mechanism which is arranged in the cabinet body and can form air up-down convection, wherein the cabinet body comprises a fixed support for fixing the vertical air duct mechanism and a ventilation opening communicated with the vertical air duct mechanism, the vertical air duct mechanism comprises an equipment installation part which is fixed on the support and used for placing integrated unit equipment and two air guide parts which are respectively arranged at the upper end and the lower end of the equipment installation part and communicated with the equipment installation part, each air guide part is provided with an air guide opening communicated with the ventilation opening, and the arrangement directions of the two air guide openings are opposite. The wind energy cooling device has the advantages that the wind energy cooling is adopted, the energy is saved, the environment is protected, the cooling of the equipment can be completed only by introducing cold air into the corresponding ventilation openings, the whole room is not required to be cooled, the power consumption is low, and the cost is low.

Description

Integrated unit cabinet with vertical air duct

Technical Field

The invention relates to the technical field of integrated cabinets, in particular to an integrated unit cabinet with a vertical air duct.

Background

At present, along with social development progress, 5G market is promoted, network broadband market and service volume are continuously increased, equipment power consumption is overlarge, the installation space of communication equipment in an integrated cabinet is compact, a cooling mode suitable for 4G communication equipment is not suitable for 5G communication equipment, the temperature of the space of the internal equipment of the integrated cabinet can be increased by a heating element of the communication equipment, particularly, the heat dissipation capacity of the 5G communication equipment is far higher than that of the 4G communication equipment, and a new integrated cabinet for the 5G communication equipment needs to be designed in order to ensure that the equipment has a good and stable working environment.

The network deployment equipment of traditional rack is not concentrated and is set up, covers the limitation, and its framework layout is more limited, leads to the air duct system incoordination, and does not have crisscross interlayer with other equipment hot cold direction, and traditional computer lab passes through the air conditioner and refrigerates the space in the computer lab, reaches the purpose to the cooling of the equipment that generates heat of indoor cabinet through the cooling to whole room, under the great condition in computer lab, needs a plurality of cooling equipment or powerful cooling equipment.

But the temperature is reduced through the traditional mode, and the condition that the temperature of each point is uneven can exist in the machine room. And the environmental temperature of the whole space of the machine room is controlled in a relatively low range, so that a large amount of energy is consumed. And the heat dissipation capacity when 5G communication equipment concentrates to place is higher than 4G equipment far away, and current integrated rack thermal diffusivity is poor, is difficult to the realization that shows through the air conditioner to the cooling of 5G equipment in the rack, and through the cold wind of air conditioner output with the rack in the equipment exhaust hot-blast crisscross interlayer that does not have, disorder appears easily in cold and hot wind direction to can influence the cooling effect of equipment.

Disclosure of Invention

The integrated unit cabinet with the vertical air duct provided by the embodiment of the invention can be used for cooling 5G high-capacity power equipment, and is used for solving the problems of high cost, high power consumption, staggered cold and hot directions, difficulty in meeting the heat dissipation requirement of 5G communication equipment and the like in the conventional integrated cabinet and the conventional cooling technology.

In order to achieve the above purpose, the present invention provides an integrated group machine cabinet with a vertical air duct, wherein an integrated group device is arranged in the integrated group machine cabinet, and the integrated group machine cabinet comprises a cabinet body and at least one vertical air duct mechanism which is arranged in the cabinet body and can form air up-down convection, the cabinet body comprises a fixing support for fixing the vertical air duct mechanism and a vent communicated with the vertical air duct mechanism, the vertical air duct mechanism comprises a device installation component which is fixed on the support and is used for placing the integrated group device, and two air guide components which are respectively arranged at the upper end and the lower end of the device installation component and are communicated with the device installation component, each air guide component is provided with an air guide opening communicated with the vent, and the arrangement directions of the two air guide openings are opposite.

Furthermore, the equipment installation part comprises an installation support fixed on the fixed support, openings communicated with the air guide part are formed in the upper side and the lower side of the installation support, and the integrated group equipment is vertically installed on the installation support.

Furthermore, the equipment installation part also comprises separation inserting pieces arranged on the installation support at intervals along the vertical direction, and the integrated group equipment is fixed on the separation inserting pieces.

Furthermore, the separation inserting piece comprises a first support and a second support, wherein the first support is used for being connected with the mounting support, the second support is arranged between the first supports, and the first support and the second support enclose a rectangular cavity.

Furthermore, the air guiding component comprises two side plates fixed at the opening of the mounting bracket and an air guiding plate connected with the two side plates.

Further, the air deflector is inclined towards the air guide opening.

Furthermore, the cabinet body is provided with a ventilation net at the vent.

Furthermore, two vertical air duct mechanisms which are stacked and arranged along the vertical direction are arranged in the cabinet body.

Furthermore, the two vertical air duct mechanisms are both arranged in the cabinet body in the forward direction.

Furthermore, one vertical air duct mechanism is arranged in the cabinet body in the forward direction, and the other vertical air duct mechanism is arranged in the cabinet body in the reverse direction.

The invention has the beneficial effects that: the invention provides an integrated unit cabinet with a vertical air duct, a directional air duct is determined by matching a cabinet body and a vertical air duct mechanism, an equipment installation space is arranged in the vertical air duct mechanism, and after cold air enters from a vent below the surface of the cabinet body, the cold air is guided into the equipment installation space by a wind guide component below the vertical air duct mechanism, then the heat emitted by the equipment is taken away and discharged from the wind guide component above; the air inlet and the air outlet of the integrated cabinet are positioned in different directions, the condition of hot and cold air staggering can not occur, and the cooling effect is good.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic structural diagram of a vertical duct column according to an embodiment of the present invention;

FIG. 2 is a front view of a vertical duct column according to an embodiment of the present invention;

FIG. 3 is a general schematic view of an integrated group cabinet with vertical ducts according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of an integrated group cabinet having a vertical duct, according to one embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating the effect of a co-directional duct system according to an embodiment of the present invention;

FIG. 6 is a schematic diagram illustrating the effect of the counter-rotating air duct system according to an embodiment of the present invention;

the symbols of the elements in the figures are:

1-cabinet body, 2-vertical air duct mechanism, 21-air guide part, 211-side plate, 212-air guide plate, 22-equipment installation part, 221-installation support, 222-separation inserting piece, 2221-first support and 2222-second support.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 6, the present invention provides an integrated group cabinet with a vertical air duct, wherein an integrated group device is arranged in the integrated group cabinet, and the integrated group cabinet includes a cabinet body 1 and at least one vertical air duct mechanism 2 arranged in the cabinet body 1 and capable of forming air up-down convection, the cabinet body 1 includes a fixing bracket (not shown in the figure) for fixing the vertical air duct mechanism 2 and a vent communicated with the vertical air duct mechanism 2, the vertical air duct mechanism 2 includes a device mounting component 22 fixed on the bracket and used for placing the integrated group device and two air guiding components 21 respectively arranged at the upper and lower ends of the device mounting component 22 and communicated with the device mounting component 22, each air guiding component 21 is provided with an air guiding opening communicated with the vent, and the arrangement directions of the two air guiding openings are opposite.

Wherein, the integrated machine cabinet is a vertical integrated machine cabinet, the interior of the integrated machine cabinet is provided with a plurality of vertical air channel mechanism installation spaces for installing vertical air channel mechanisms 2, different air channel mechanism installation spaces are isolated by transverse clapboards, the vertical air channel mechanism 2 comprises a main body positioned in the middle for installing equipment and air guide parts 21 positioned at two ends, the air guide parts 21 can guide hot air and cold air, when the air guide part 21 at one end is determined as a cold air guide part 21, the other end is determined as a hot air guide part 21, the air guide part 21 must be fixedly connected with the main body, wherein, the air guide part 21 can be fixedly connected with the main body integrally and can also be detachably connected with the main body, for example, the air guide part 21 can be screwed with the main body, the air guide part 21 is connected with the main body in a screwed mode, so that the air guide part 21 can, and if the air guide part 21 or the main body is damaged, the damaged part can be replaced to achieve the aim of repairing. In order to ensure that the internal space of the device can exchange heat with the outside through air, the ventilation opening must be communicated with the air guiding opening of the air guiding part 21.

The integrated cabinet provided by the invention can blow cold air to the ventilation opening on the surface of the cabinet body 1 through the matching of the corresponding condenser and the blower, and the cold air is absorbed to the equipment installation space from the ventilation opening through the air draft device of the equipment, when the cold air is contacted with equipment in the equipment installation space, the cold air takes away heat emitted by the equipment due to the difference between the temperature and the equipment temperature, flows out from the air guide opening of the air guide part 21 at the other end, and discharges hot air out of the integrated cabinet through the ventilation opening communicated with the air guide opening.

At present, most machine rooms are also traditional machine rooms, and air conditioners are arranged in the machine rooms to refrigerate spaces in the machine rooms, so that the temperature in the traditional machine rooms is low.

The direction of the air duct can be changed by changing the direction of the air guide opening of the air guide part 21 facing the cabinet, for example, if the vertical air duct mechanism 2 is installed in the installation space of the vertical air duct mechanism 2 of the integrated cabinet from the front, at least one air guide opening of the air guide part 21 faces the front, if the air guide openings of the air guide parts 21 for air inlet and air outlet face the same direction, the air guide openings of the air guide parts 21 for air inlet and air outlet face the front or the side of the integrated cabinet at the same time, so that the air inlet direction and the air outlet direction are located in the same direction, and the next cooling effect is influenced by the mixing of cold and hot air near the air inlet and outlet vent; if the wind guide openings of the wind guide parts 21 for air inlet and air outlet face opposite directions, the air inlet is arranged on the front side of the integrated cabinet, the air outlet is arranged on the back side of the integrated cabinet, otherwise, the air inlet is arranged on the back side of the integrated cabinet, and the air outlet is arranged on the front side of the integrated cabinet.

In this example, the equipment installation component 22 includes an installation bracket 221 fixed on the fixed bracket, openings communicated with the air guide component 21 are formed in both the upper and lower sides of the installation bracket 221, and the integrated cluster equipment is vertically installed on the installation bracket 221.

Wherein, because the cabinet body 1 is internally provided with a fixing bracket for fixing the vertical air duct mechanism 2, in order to ensure that the vertical air duct mechanism 2 can be fixed in the cabinet body 1, a structure matched with the fixing bracket, namely, a mounting bracket 221 is required to be arranged on the vertical air duct mechanism 2 to be matched with the fixing bracket for fixing the vertical air duct mechanism 2, as shown in figure 1, in the invention, the mounting bracket 221 comprises two parts, namely a part for connecting the separation inserting sheet 222 and a part for connecting the fixing bracket, the mounting bracket 221 is arranged at the outer edge position of the equipment mounting part 22, the fixing bracket is correspondingly arranged on the surface of the cabinet body 1, because the vertical air duct cabinet is separable from the cabinet body 1, the mounting bracket 221 is required to be detachably connected with the fixing bracket, and because the mounting bracket 221 is required to be fixedly connected with the fixing bracket for ensuring that the vertical air duct, the mounting bracket 221 is preferably connected to the fixing bracket in a screw-coupling manner.

Openings communicated with the air guide part 21 are formed in the upper side and the lower side of the mounting support 221, the openings are located at two ends of the equipment mounting part 22, the air guide part 21 is arranged at the opening position, an opening is formed in the connecting end of the air guide part 21 and the equipment mounting part 22, the opening of the equipment mounting part 22 is communicated with the opening of the air guide part 21, and therefore air can flow into the equipment mounting part 22 from the air guide part 21 at one end and flow out from the air guide part 21 at the other end.

The air duct mechanism is a vertical air duct mechanism, equipment also needs to be vertically installed in the equipment installation part 22, so that the lower end of the cold air vertical air duct mechanism 2 enters the air guide part 21 and then enters the equipment installation part 22, the heat quantity exhausted by the equipment is absorbed and changed into hot air, the hot air rises and is exhausted from the air guide part 21 above the vertical air duct mechanism 2, and the process utilizes natural laws and does not need additional power, so that the energy consumption is low.

In this example, the device mounting part 22 further includes separation insertion pieces 222 arranged on the mounting bracket 221 at intervals in the vertical direction, and the integrated group devices are fixed on the separation insertion pieces 222.

As shown in fig. 1, the installation part is internally provided with separation inserting sheets 222 for separating the devices, the devices are vertically installed in the device installation part 22, the separation inserting sheets 222 are arranged in the device installation part 22 at intervals along the vertical direction, a single device is fixed between adjacent separation inserting sheets 222, the integrated group devices are estimated to be arranged on the separation inserting sheets 222 and are preferably connected in a threaded manner, the separation inserting sheets 222 and the corresponding positions on the devices are provided with threaded holes, and the devices are fixed on the separation inserting sheets 222 through bolts.

The fixing of the device by the separation blade 222 is only one embodiment of the present invention, and the device may be fixed by fixing the device to the mounting bracket 221.

In this example, the separation insertion piece 222 includes a first bracket 2221 for connecting with the mounting bracket 221 and a second bracket 2222 disposed between the first brackets 2221, and the first bracket 2221 and the second bracket 2222 form a rectangular cavity.

In the above structure, the first bracket 2221 is fixedly connected to the mounting bracket 221 so as to fix the separation blade 222 to the device mounting part 22, the device is fixed to the first bracket 2221 or the second bracket 2222, and the second bracket 2222 is fixedly connected to the first bracket 2221 and arranged between the first brackets 2221, so that the device can be fixed inside the device mounting part 22 no matter the device is fixed to the first bracket 2221 or the second bracket 2222; among them, the second support 2222 is used for separating the devices, and the second support 2222 has a certain width, and the devices on both sides of the second support 2222 are separated by the second support 2222 itself; in order to ensure that the connection parts between the devices can be connected, there are gaps between the first supports 2221 and the second supports 2222 of the same separation blade 222, so that the first supports 2221 and the second supports 2222 can enclose a cavity to facilitate the connection of the connection parts of the devices on both sides of the separation blade 222.

In this example, the air guiding member 21 includes two side plates 211 fixed to the opening of the mounting bracket 221, and an air guiding plate 212 connecting the two side plates 211.

As shown in fig. 1, the air guiding component 21 includes two side plates 211 and an air guiding plate 212, one side of the two side plates 211 and one side of the air guiding plate 212 are fixedly connected to one end of the equipment installation component 22, the two side plates 211 and the air guiding plate 212 enclose an opening and an air guiding opening, the opening is communicated with an opening of the adjacent installation bracket 221, the air guiding opening is communicated with the ventilation opening, the above structure is a preferred structure when the ventilation opening is arranged on the side surface of the cabinet body 1, the air guiding opening faces the direction of the ventilation opening, and after cold air enters the air guiding opening from the ventilation opening on the side surface, the air flows in the vertical direction instead of the horizontal direction under the guidance of the air guiding component 21, so that the air can flow in the equipment installation component 22 which is vertically arranged, and further cool the equipment which.

In this example, the air deflection plate 212 is inclined toward the air deflection opening.

As shown in fig. 1, the air guiding plate 212 is an inclined plate, and an acute angle is formed between the air guiding plate 212 and a plane where the air guiding opening is located, so that the air guiding plate 212 can guide the flowing direction of the air.

The structure of the air guiding component 21 is a preferred structure of the present invention, and may be other structures, for example, a rectangular parallelepiped structure, when the air guiding component 21 is a rectangular parallelepiped, the rectangular parallelepiped has four faces including three side faces and a bottom face, wherein, of the remaining two faces, one opening for communicating with the equipment mounting component 22 and one air guiding opening for communicating with the air vent, the rectangular parallelepiped structure can also realize the air guiding function of the air guiding component 21, and only when the air vent is arranged on the side face of the cabinet body 1, compared with the structure adopted by the present invention, the resistance of air flowing in the rectangular parallelepiped structure is larger, and the material consumption of the rectangular parallelepiped structure is more, so the structure of the present invention is a preferred structure in view of both the air guiding effect and the cost.

In this example, the cabinet body 1 is provided with a ventilation net at the vent.

In order to avoid that the cold air enters from the air vent and brings in impurities with larger volume to influence the operation of the equipment, a corresponding filtering device is required to be arranged at the air vent or the air guide opening, for example, a ventilation net is arranged at the air vent to filter the impurities.

In the invention, the purpose of filtering sundries is preferably achieved by adopting the following structure, the front and the back of the cabinet body 1 are provided with cabinet doors, the whole cabinet doors are covered with ventilation meshes, so that cold air can freely enter and exit the ventilation meshes, the sundries are filtered outside by the ventilation meshes, and if the integrated cabinet body 1 of the structure is positioned in a traditional machine room, the traditional cooling mode can be realized.

In this example, two vertical air duct mechanisms 2 stacked and arranged along the vertical direction are arranged in the cabinet body 1.

The integrated group mechanism is preferably provided with two vertical air duct mechanisms 2 which are stacked and arranged along the vertical direction, and the front and the back of each vertical air duct mechanism 2 are respectively provided with the same mounting bracket 221, so that the vertical air duct mechanisms 2 can be mounted in an integrated cabinet in a forward direction and in an inverted direction, and the air guide openings of the air guide parts 21 at the two ends of each vertical air duct mechanism 2 are arranged in opposite directions, and the vertical air duct cabinets are vertically mounted in the cabinet body 1, so that the positions of the air guide openings can be different when the vertical air duct mechanisms 2 are mounted in the forward direction and the reverse direction.

In this example, the two vertical air duct mechanisms 2 are both installed in the cabinet body 1 in the forward direction.

In the invention, the forward direction and the reverse direction are relative concepts, and if a certain surface of the vertical air channel mechanism 2 is a front surface, after the vertical air channel mechanism 2 is placed in the cabinet body 1, the front surface of the vertical air channel mechanism 2 faces the direction of the air inlet, the process is a forward installation process, wherein for convenience of installation, the direction of a front cabinet door or a back cabinet door is the installation direction, so that the vertical air channel mechanism 2 can be placed when the cabinet door is opened; in consideration of the influence of natural factors, in the invention, the air guide opening below the vertical air duct mechanism 2 is an air inlet, so that when the two vertical air duct mechanisms 2 are installed in the cabinet body 1 in the forward direction, the air guide openings below the two vertical air duct mechanisms 2 face the front side, so that cold air can enter from the lower side of the vertical air duct mechanisms 2, and the specific process is as shown in fig. 5.

In this example, one of the vertical air duct mechanisms 2 is installed in the cabinet body 1 in the forward direction, and the other vertical air duct mechanism 2 is installed in the cabinet body 1 in the reverse direction.

As explained above, the forward direction and the reverse direction are relative concepts, but there is a certain difference between the forward installation and the reverse installation of the vertical air duct mechanism 2 in the cabinet body 1, so that there is a difference between the positions of the air inlet and the air outlet of the vertical air duct mechanism 2 installed in the forward direction and the reverse direction, in the present invention, the vertical air duct mechanism 2 above the cabinet body 1 is installed in the forward direction, and the vertical air duct mechanism 2 below the cabinet body 1 is installed in the reverse direction, so that the vertical air duct mechanism 2 above the cabinet body 1 is adjacent to the air inlet and the air outlet of the vertical air duct mechanism 2 below the cabinet body 1, so as to be able to centrally control the flow direction of the cold air, for example, if a blower is used to blow the cold air, the cold air can be guided into the air inlets of the two air duct columns by aligning the blowing surface.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The integrated group machine cabinet with the vertical air channel is internally provided with integrated group equipment and is characterized by comprising a cabinet body and at least one vertical air channel mechanism which is arranged in the cabinet body and can form vertical air convection, wherein the cabinet body comprises a fixed support and a ventilation opening, the fixed support is used for fixing the vertical air channel mechanism, the ventilation opening is communicated with the vertical air channel mechanism, the vertical air channel mechanism comprises an equipment installation part and two air guide parts, the equipment installation part is fixed on the fixed support and is used for placing the integrated group equipment, the two air guide parts are respectively arranged at the upper end and the lower end of the equipment installation part and are communicated with the equipment installation part, each air guide part is provided with an air guide opening communicated with the ventilation opening, and the setting directions of the two air guide openings are opposite.

2. The cabinet according to claim 1, wherein the equipment-mounting member comprises a mounting bracket fixed to the fixing bracket, openings communicating with the air-guiding member are provided on both upper and lower sides of the mounting bracket, and the integrated cluster equipment is vertically mounted on the mounting bracket.

3. The rack of claim 2, wherein the equipment mounting member further comprises separating tabs spaced apart in a vertical direction on the mounting bracket, the integrated group equipment being secured to the separating tabs.

4. The cabinet of claim 3, wherein the partition insert comprises two first brackets connected to the mounting bracket and two second brackets disposed between the two first brackets, and the first brackets and the second brackets define a rectangular cavity.

5. The integrated group cabinet with the vertical duct of claim 2, wherein the air guiding component comprises two side plates fixed at the opening of the mounting bracket and an air guiding plate connecting the two side plates.

6. The integrated cluster cabinet with the vertical duct of claim 5, wherein the air deflection plate is inclined toward the air outlet.

7. The integrated group unit cabinet with the vertical air duct according to claim 1, wherein the cabinet body is provided with a ventilation net at a ventilation opening.

8. The cabinet of any one of claims 1 to 7, wherein two vertical air duct mechanisms are disposed in the cabinet body and stacked in a vertical direction.

9. The integrated group cabinet with the vertical duct of claim 8, wherein both of the vertical duct mechanisms are mounted in the cabinet body in a forward direction.

10. The integrated group unit cabinet with the vertical air ducts as claimed in claim 8, wherein one of the vertical air duct mechanisms is installed in the cabinet body in a forward direction, and the other vertical air duct mechanism is installed in the cabinet body in a reverse direction.

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