CN110785057B - Integrated cabinet with vertical air duct - Google Patents

Abstract

The invention relates to the technical field of integrated cabinets, in particular to an integrated 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 up-down convection of air, wherein the cabinet body comprises a fixing bracket 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 bracket and is used for placing integrated equipment, and two air guide parts which 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 arrangement directions of the two air guide openings are opposite. The invention adopts wind energy to cool, is energy-saving and environment-friendly, can cool the equipment by only introducing cold air into the corresponding ventilation openings, does not need to cool the whole room, and has low power consumption, less power consumption and lower cost.

Description

Integrated cabinet with vertical air duct

Technical Field

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

Background

At present, with the development progress of society, the 5G market is advanced, the network broadband market and the service volume are continuously increased, the power consumption of equipment 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, and because the heating element of the communication equipment can improve the temperature of the equipment space in the integrated cabinet, particularly the heat dissipation capacity of the 5G communication equipment is far higher than that of the 4G equipment, in order to ensure that the equipment has a good and stable working environment, a new integrated cabinet for the 5G communication equipment needs to be designed.

The network deployment equipment of the traditional cabinet is not arranged in a centralized manner, is limited in coverage, is limited in architecture layout, causes uncooled air duct systems, and is not connected with other equipment heat Leng Fang to a staggered interlayer, the traditional machine room is used for refrigerating the space in the machine room through an air conditioner, the purpose of cooling heating equipment of the cabinet in the room is achieved through cooling the whole room, and a plurality of cooling equipment or high-power cooling equipment is needed under the condition that the machine room is large.

But the temperature is reduced in a traditional way, and the condition of uneven temperature at each point possibly exists 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 is concentrated and is placed is far higher than 4G equipment, and current integrated rack heat dissipation nature is poor, is difficult to showing the realization to the cooling of 5G equipment in the rack through the air conditioner, and the cold wind through air conditioner output with the interior equipment exhaust hot-blast no crisscross interlayer that generates heat of rack, cold and hot wind direction appears the disorder easily to can influence the cooling effect of equipment.

Disclosure of Invention

The integrated 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 existing integrated cabinet and the existing cooling technology.

In order to achieve the above purpose, the integrated group cabinet with the vertical air duct is provided with integrated group equipment in the integrated group cabinet, the integrated group 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 used for fixing the vertical air duct mechanism and a vent communicated with the vertical air duct mechanism, the vertical air duct mechanism comprises an equipment installation component which is fixed on the support and is used for placing the integrated group equipment, and two air guide components which are respectively arranged at the upper end and the lower end of the equipment installation component and are communicated with the equipment installation component, each air guide component is provided with an air guide port communicated with the vent, and the arrangement directions of the two air guide ports are opposite.

Further, the equipment installation component is including being fixed in installing support on the fixed bolster, both sides all are provided with about the installing support with the opening of wind-guiding component intercommunication, integrated group's equipment be vertical form install in on the installing support.

Further, the device mounting component further comprises separation inserting sheets arranged on the mounting bracket at intervals along the vertical direction, and the integrated group device is fixed on the separation inserting sheets.

Further, 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 a rectangular cavity is formed by the first supports and the second supports in a surrounding mode.

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

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

Further, the cabinet body is provided with a ventilation net at the ventilation opening.

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

Further, the two vertical air duct mechanisms are both installed in the cabinet body in the forward direction.

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

The invention has the beneficial effects that: the invention provides an integrated cabinet with a vertical air duct, which is characterized in that a directional air duct is determined by matching a cabinet body and a vertical air duct mechanism, wherein an equipment installation space is arranged in the vertical air duct mechanism, when cold air enters from a vent hole below the surface of the cabinet body, the cold air is guided by an air guide part below the vertical air duct mechanism to enter the equipment installation space, then heat emitted by equipment is taken away and discharged from an air guide part above the air guide part; the air inlet and the air outlet of the integrated cabinet are positioned in different directions, so that the cold and hot air interlacing condition 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 that are needed in the description of the embodiments of the present invention will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is an elevation view of a vertical duct stud provided in an embodiment of the present invention;

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

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

FIG. 5 is a schematic diagram showing 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 anisotropic wind tunnel system according to an embodiment of the present invention;

The symbols of each element in the figure are as follows:

The cabinet comprises a cabinet body, a 2-vertical air duct mechanism, a 21-air guide component, 211-side plates, 212-air guide plates, 22-equipment installation components, 221-installation brackets, 222-separation inserting sheets, 2221-first brackets and 2222-second brackets.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 6, the present invention provides an integrated cabinet with a vertical air duct, in which an integrated cabinet is provided, the integrated cabinet includes a cabinet body 1 and at least one vertical air duct mechanism 2 disposed in the cabinet body 1 and capable of forming vertical convection of air, the cabinet body 1 includes a fixing bracket (not shown in the drawings) for fixing the vertical air duct mechanism 2 and a ventilation opening communicating with the vertical air duct mechanism 2, the vertical air duct mechanism 2 includes an equipment mounting component 22 fixed on the bracket for placing the integrated equipment and two air guide components 21 respectively disposed at upper and lower ends of the equipment mounting component 22 and communicating with the equipment mounting component 22, and each air guide component 21 is provided with an air guide opening communicating with the ventilation opening, and the arrangement directions of the two air guide openings are opposite.

The integrated cabinet is a vertical integrated cabinet, a plurality of vertical air channel mechanism installation spaces for installing the vertical air channel mechanisms 2 are formed in the integrated cabinet, different air channel mechanism installation spaces are isolated by using transverse partition plates, the vertical air channel mechanisms 2 comprise a main body positioned in the middle 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 parts 21 at one end are determined to be the cold air guide parts 21, the other end is determined to be the hot air guide parts 21, the air guide parts 21 are fixedly connected with the main body, the air guide parts 21 can be integrally and fixedly connected with the main body, and also can be detachably connected with the main body, for example, the air guide parts 21 can be in threaded connection with the main body, so that the air guide parts 21 can be detached for transportation, and if the air guide parts 21 or the main body are damaged, the purpose of repairing can be achieved by replacing damaged parts. In order to ensure that the interior space of the apparatus can exchange heat with the outside through the air, the ventilation opening must communicate with the air guide opening of the air guide member 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 cooperation of the corresponding condenser and the blower, and adsorb the cold air to the equipment installation space from the ventilation opening through the self-contained exhaust device of the equipment, when the cold air contacts with the equipment in the equipment installation space, the cold air takes away the heat emitted by the equipment due to the difference between the temperature and the temperature of the equipment, and flows out from the air guide opening of the air guide part 21 at the other end, and the hot air is discharged out of the integrated cabinet through the ventilation opening communicated with the air guide opening.

The above is an implementation mode of cooling the present invention, at present, most of the machine rooms are traditional machine rooms, and the air conditioner is arranged in the machine room to cool the space in the machine room, so that the temperature in the traditional machine room is lower.

The direction of the air duct can be changed by changing the direction that the air guide opening of the air guide part 21 faces the cabinet, for example, assuming that 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 direction that the air guide opening of the air guide part 21 faces the air inlet and the air outlet is the same, the air guide openings of the air guide part 21 for the air inlet and the air outlet face the front or the side of the integrated cabinet at the same time, and then the air inlet direction and the air outlet direction are located in the same direction, so that the mixture of cold and hot air near the air inlet and the air outlet of the air inlet and the air outlet influences the next cooling effect; if the directions of the air inlets of the air guide parts 21 of the air inlet and the air outlet are opposite, the air inlets are on the front side of the integrated cabinet, the air outlets of the air guide parts 21 of the air inlet and the air outlet are on the back side of the integrated cabinet, otherwise, the air inlets of the air inlet and the air outlet are on the front side of the integrated cabinet, and when the directions of the air inlets of the air guide parts 21 of the air inlet and the air outlet are opposite, the cold air and the hot air exhausted are isolated by the integrated cabinet, so that the subsequent cooling effect of equipment is not affected.

In this example, the device mounting part 22 includes a mounting bracket 221 fixed on the fixing bracket, openings communicating with the air guiding part 21 are provided on the upper and lower sides of the mounting bracket 221, and the integrated group device is vertically mounted on the mounting bracket 221.

In order to ensure that the vertical air duct mechanism 2 can be fixed inside the cabinet 1, a structure matched with the fixing bracket, namely, a mounting bracket 221 needs to be arranged on the vertical air duct mechanism 2 to be matched with the fixing bracket to fix the vertical air duct mechanism 2, as shown in fig. 1, 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 1, the mounting bracket 221 needs to be detachably connected with the fixing bracket because the vertical air duct cabinet is detachable from the cabinet 1, and the mounting bracket 221 needs to be fixedly connected with the fixing bracket to ensure that the vertical air duct mechanism 2 is firmly fixed in the cabinet 1, so that the mounting bracket 221 is preferably connected with the fixing bracket in a screwed mode.

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 formed in 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.

Since the cold air is changed into hot air and then rises, the air duct mechanism is a vertical air duct mechanism, the equipment also needs to be vertically installed in the equipment installation component 22, so that the lower end of the cold air vertical air duct mechanism 2 enters the air guide component 21 and then enters the inside of the equipment installation component 22, and the heat discharged by the equipment is absorbed and changed into hot air and then rises to be discharged from the air guide component 21 above the vertical air duct mechanism 2.

In this example, the device mounting part 22 further includes separation tabs 222 disposed on the mounting bracket 221 and spaced apart in a vertical direction, and the integrated circuit device is fixed to the separation tabs 222.

As shown in fig. 1, the installation component is internally provided with a separation insert 222 for separating devices, since the devices are vertically installed in the device installation component 22, the separation insert 222 is arranged in the device installation component 22 at intervals along the vertical direction, a single device is fixed between adjacent separation inserts 222, the integrated group device is estimated on the separation insert 222, preferably in a screwed connection manner, the corresponding positions on the separation insert 222 and the devices are provided with threaded holes, and the devices are fixed on the separation insert 222 through bolts.

Securing the device by separating tabs 222 is but one embodiment of the invention and the device may also be secured to mounting bracket 221.

In this example, the separation blade 222 includes a first support 2221 for connecting with the mounting bracket 221 and a second support 2222 disposed between the first supports 2221, where the first support 2221 and the second support 2222 define a rectangular cavity.

In the above structure, the first brackets 2221 are fixedly connected to the mounting brackets 221 to fix the separation blade 222 to the device mounting member 22, the device is fixed to the first brackets 2221 or the second brackets 2222, and the second brackets 2222 are fixedly connected to the first brackets 2221 and disposed between the first brackets 2221, so that the device can be fixed inside the device mounting member 22 whether the device is fixed to the first brackets 2221 or the second brackets 2222; wherein, the second support 2222 is used for separating devices, the second support 2222 has a certain width, and the devices on two sides of the second support 2222 are separated by the second support 2222 itself; a plurality of devices may be installed in the device installation part 22, and the devices may need to be connected by a connection part, so that a gap is required between the first supports 2221 and between the second supports 2222 of the same separation blade 222 in order to ensure that the connection parts of the devices can be connected, 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 guide member 21 includes two side plates 211 fixed to the openings of the mounting brackets 221 and an air guide 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 the air guiding plate 212 is fixedly connected to one end of the device mounting 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 the opening of the adjacent mounting bracket 221, the air guiding opening is communicated with the air opening, the air guiding opening is a preferred structure when the air opening is arranged on the side surface of the cabinet body 1, the air guiding opening faces the air opening direction, when cold air enters the air guiding opening from the side surface, under the guidance of the air guiding component 21, the air flows from the horizontal direction to the vertical direction, so that the air can flow into the device mounting component 22 which is vertically arranged, and then the device which is vertically arranged in the device mounting component 22 is cooled.

In this example, the air deflector 212 is inclined toward the air guide.

As shown in fig. 1, the air deflector 212 is an inclined plate, and the air deflector 212 forms an acute angle with the plane of the air guide opening, so that the air deflector 212 can guide the flow direction of air.

The structure of the air guide member 21 is a preferable structure of the present invention, and may be other structures, such as a rectangular parallelepiped structure, in which when the air guide member 21 is a rectangular parallelepiped having four sides including three sides and a bottom, one of the remaining two sides is an opening for communicating with the equipment mounting member 22, and one is an air guide opening communicating with the ventilation opening, the rectangular parallelepiped structure can also realize the air guide function of the air guide member 21, but when the ventilation opening is provided at the side of the cabinet 1, the resistance of the air flowing in the rectangular parallelepiped structure is greater than that of the structure employed in the present invention, and the structure of the rectangular parallelepiped is more material, so that the structure of the present invention is a preferable structure in terms of both the air guide effect and the cost.

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

In order to avoid that the cold air brings in the impurities with larger volume when entering from the ventilation opening and further influences the operation of the equipment, a corresponding filtering device is arranged at the ventilation opening or the air guide opening, for example, a ventilation net is arranged at the ventilation opening 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, and the whole cabinet doors are covered with ventilation meshes, so that cold air can freely enter and exit the ventilation meshes, sundries are filtered outside by the ventilation meshes, and the integrated cabinet body 1 with the structure can realize the cooling in the traditional mode if being positioned in a traditional machine room.

In this example, two vertical air duct mechanisms 2 are disposed in the cabinet body 1 and are overlapped in the vertical direction.

The integrated group mechanism is preferably provided with two vertical air channel mechanisms 2 which are overlapped and arranged along the vertical direction, the front surface and the back surface of the vertical air channel mechanisms 2 are respectively provided with the same mounting bracket 221, so that the vertical air channel mechanisms 2 can be positively mounted in the integrated cabinet and can be reversely mounted in the integrated cabinet, and the positions of the air guide openings can be different when the vertical air channel mechanisms 2 are positively and directionally mounted due to the fact that the air guide openings of the air guide parts 21 at the two ends of the vertical air channel mechanisms 2 are reversely arranged, and the vertical air channel cabinets are vertically mounted in the cabinet body 1.

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

In the invention, the forward direction and the reverse direction are opposite concepts, and one side of the vertical air duct mechanism 2 is assumed to be the front side, when the vertical air duct mechanism 2 is placed in the cabinet body 1, the front side of the vertical air duct mechanism 2 faces the direction of the air inlet, and the process is a forward installation process, wherein for convenient installation, the direction of a front cabinet door or a reverse cabinet door is the installation direction, so that the vertical air duct mechanism 2 can be placed by opening the cabinet door; in consideration of the influence of natural factors, in the invention, the air guide opening below the vertical air duct mechanisms 2 is an air inlet, so that after the two vertical air duct mechanisms 2 are positively installed in the cabinet body 1, the air guide opening below the two vertical air duct mechanisms 2 faces the front, and cold air can enter from below the vertical air duct mechanisms 2, and the concrete process is shown in fig. 5.

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

As explained above, the above-mentioned forward direction and reverse direction are a relative concept, but there is a difference between the forward direction installation and reverse direction installation of the vertical duct mechanism 2 in the cabinet 1, so that the difference occurs between the positions of the air inlet guide openings of the vertical duct mechanism 2 installed forward and reverse direction, in the present invention, the vertical duct mechanism 2 above the cabinet 1 is installed forward, and the vertical duct mechanism 2 below is installed reverse, so that the vertical duct mechanism 2 above the cabinet 1 is adjacent to the air inlet guide opening of the vertical duct mechanism 2 below the cabinet 1, and thus the flow direction of the cold air can be controlled centrally, for example, if a blower is used to blow the cold air, the cold air can be guided into the air inlet guide openings of the two duct columns only by aligning the blowing surface of the blower with the middle position of the cabinet 1, as shown in fig. 6.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (5)

1. The integrated group cabinet is internally provided with integrated group equipment and is characterized by comprising a cabinet body and at least one vertical air duct mechanism which is arranged in the cabinet body and can form up-down convection of air, wherein the cabinet body comprises a fixing bracket for fixing the vertical air duct mechanism and a vent communicated with the vertical air duct mechanism, the vertical air duct mechanism comprises an equipment installation part which is fixed on the fixing bracket and is used for placing the integrated group equipment, and two air guide parts which 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 vent, and the arrangement directions of the two air guide openings are opposite; the device installation component comprises an installation bracket fixed on the fixed bracket, openings communicated with the air guide component are formed in the upper side and the lower side of the installation bracket, and the integrated group device is vertically installed on the installation bracket; the device mounting part further comprises separation inserting sheets which are arranged on the mounting bracket at intervals along the vertical direction, and the integrated group device is fixed on the separation inserting sheets; the separation inserting piece comprises two first brackets connected with the mounting brackets and two second brackets arranged between the two first brackets, and the first brackets and the second brackets enclose a rectangular cavity; the air guide component comprises two side plates fixed at the opening of the mounting bracket and an air guide plate connected with the two side plates; the air deflector is inclined towards the air guide opening.

2. An integrated stack cabinet with vertical duct according to claim 1, characterized in that the cabinet is provided with a ventilation net at the ventilation opening.

3. An integrated cabinet with vertical duct according to any of claims 1 to 2, wherein two vertical duct mechanisms are provided in the cabinet and are stacked in a vertical direction.

4. An integrated stack cabinet with vertical duct according to claim 3, wherein both of the vertical duct mechanisms are positively mounted within the cabinet.

5. An integrated stack cabinet having a vertical duct according to claim 3, wherein one of said vertical duct mechanisms is mounted forward within said cabinet and the other of said vertical duct mechanisms is mounted reverse within said cabinet.