CN115361850A - Wind-solar complementary type 5G integrated energy-saving cabinet - Google Patents

Abstract

The invention discloses a wind-solar complementary type 5G integrated energy-saving cabinet which comprises a cabinet body, wherein an equipment upright post is arranged in the middle of the cabinet body, the equipment upright post comprises a power module, a battery module and a plurality of reserved spaces for mounting 5G equipment, which are tightly arranged, and a pre-closed blind plate is detachably mounted in each reserved space; a heat dissipation flow channel which is annularly arranged is arranged between the equipment upright post and the cabinet body, and an air conditioner is arranged on one side wall of the cabinet body; the power module is electrically connected with a power generation device positioned outside the cabinet body. According to the invention, all equipment in the cabinet are closely arranged to form the equipment upright columns, the independent annular heat dissipation flow channel can be formed between the equipment upright columns and the cabinet body, and the air conditioner drives the annular heat dissipation flow channel to form the circulating heat dissipation air flow.

Description

Wind-solar complementary type 5G integrated energy-saving cabinet

Technical Field

The invention relates to the technical field of communication base stations, in particular to a wind-solar complementary type 5G integrated energy-saving cabinet.

Background

At present, global energy requirements are increasingly tense, and industrial energy conservation is more and more emphasized. As one of high-energy consumption industries, the communication industry faces a severe test in the aspect of current network energy-saving construction. With the continuous construction of the 5G network, more and more 5G devices are put into a communication base station cabinet or a machine room. The 4G equipment heat dissipation demand is compared based on 5G equipment and is increased by a wide margin to and outdoor communication base station can only improve the radiating effect's operation mode through increasing the air conditioner, improving rack or computer lab refrigerating power, reducing equipment surface temperature at present stage, and the power consumption of rack or computer lab increases obviously, and the charges of electricity cost is higher and higher, and energy-conserving demand can't satisfy, and 5G development also consequently receives the restriction. Therefore, energy-saving improvement needs to be carried out on the cabinet or the machine room, so that the electricity consumption can be reduced under the condition that the heat dissipation requirement of 5G equipment is met.

Disclosure of Invention

The invention aims to provide a wind-solar complementary type 5G integrated energy-saving cabinet which can reduce the power consumption and is beneficial to meeting the energy-saving requirement under the condition of meeting the heat dissipation requirement.

In order to solve the technical problems, the technical scheme of the invention is as follows: the wind-solar complementary type 5G integrated energy-saving cabinet comprises a cabinet body, wherein an equipment upright post is arranged in the middle of the cabinet body, the equipment upright post comprises a power module, a battery module and a plurality of reserved spaces for mounting 5G equipment, which are mutually and tightly arranged, and a pre-closed blind plate is detachably mounted in each reserved space; a heat dissipation flow channel which is arranged annularly is arranged between the equipment upright post and the cabinet body, and an air conditioner is arranged on one side wall of the cabinet body; the power module is electrically connected with a power generation device positioned outside the cabinet body.

Preferably, the power generation device comprises a solar power generation assembly and a wind power generation assembly.

As preferred technical scheme, solar energy power generation subassembly includes the solar energy mounting bracket of the outer swing installation of one of them lateral wall of rack, install solar panel on the solar energy mounting bracket, the articulated movable guide rail that installs of free end department of solar energy mounting bracket, movable guide rail's free end department installs the activity uide pin, fixed be equipped with on the cabinet body with the fixed guide rail that activity uide pin corresponds.

Preferably, the wind power generation assembly comprises a support mast fixedly mounted on a top plate of the cabinet body, and a wind power generator is mounted on the support mast.

According to a preferable technical scheme, the power module comprises a direct current power distribution unit, a wind-solar-electricity rectification unit and an alternating current power distribution unit which are vertically and sequentially arranged, the direct current power distribution unit comprises a photovoltaic input air switch, a direct current load air switch and a battery air switch which are transversely arranged, the wind-solar-electricity rectification unit comprises a photovoltaic rectification module and an alternating current-direct current rectification module, and the alternating current power distribution unit comprises a wind power generation air switch and an alternating current load air switch which are transversely arranged.

As a preferred technical solution, the ac power distribution unit further includes a commercial power input air switch.

As a preferred technical solution, a monitoring unit is further disposed in the power module.

As a preferred technical scheme, the side wall of the cabinet body comprises a steel plate layer and an EPS heat insulation layer.

According to a preferable technical scheme, a front door is arranged on one side wall of the cabinet body, and a folder is arranged on the inner wall of the front door.

Due to the adoption of the technical scheme, the wind-solar complementary type 5G integrated energy-saving cabinet comprises a cabinet body, wherein an equipment upright post is arranged in the middle of the cabinet body, the equipment upright post comprises a power module, a battery module and a plurality of reserved spaces for mounting 5G equipment, which are tightly arranged, and a pre-closed blind plate is detachably mounted in each reserved space; a heat dissipation flow channel which is annularly arranged is arranged between the equipment upright post and the cabinet body, and an air conditioner is arranged on one side wall of the cabinet body; the power module is electrically connected with a power generation device positioned outside the cabinet body. According to the invention, all equipment in the cabinet are closely arranged to form the equipment upright post, the reserved space where 5G equipment is not installed is also blocked by the pre-closed blind plate, an independent annular heat dissipation flow passage can be formed between the equipment upright post and the cabinet body, and the air conditioner drives the annular heat dissipation flow passage to form circulating heat dissipation airflow.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention.

Wherein:

FIG. 1 is a schematic perspective view of an embodiment of the present invention opening an air conditioner door and a front door;

FIG. 2 is a schematic perspective view of an embodiment of the present invention from another perspective of opening the air conditioner door and the front door;

FIG. 3 is a schematic front view of an open front door according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic top cross-sectional structural view of an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a power module according to an embodiment of the invention.

In the figure: 1-a cabinet body; 11-air conditioning; 12-an air conditioning door; 13-front door; 14-a folder; 2-equipment column; 21-heat dissipation flow channel; 3-a power supply module; 31-a direct current distribution unit; 311-photovoltaic input air switch; 312-dc load is on empty; 313-battery empty; 32-a wind-solar-electric rectification unit; 321-a photovoltaic rectification module; 322-ac/dc rectification module; 33-an ac distribution unit; 331-wind power generation air switch; 332-ac load open; 34-commercial power input is empty; 35-a monitoring unit; 4-reserving space; 41-pre-closing a blind plate; 42-5G equipment; 5-a battery module; 6-a power generation device; 61-solar power generation assembly; 611-solar mounting rack; 612-solar panel; 613-a movable rail; 614-movable guide pin; 615-fixed guide rail; 616-cable holes; 62-a wind power generation assembly; 621-a support mast; 622-flange fixing plate; 623-mast flange; 624-wind generator.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. In the following detailed description, exemplary embodiments of the invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive on the scope of the claims.

As shown in fig. 1 to 6, the wind-solar complementary 5G integrated energy-saving cabinet comprises a cabinet body 1, wherein an equipment upright post 2 is arranged in the middle of the cabinet body 1, the equipment upright post 2 comprises a power module 3, a battery module 5 and a plurality of reserved spaces 4 for mounting 5G equipment 42, which are tightly arranged, and a pre-closed blind plate 41 is detachably mounted at the reserved spaces 4. Wherein, the close arrangement is understood as that the gap between adjacent devices is small, and obvious airflow flow is not easy to generate in the gap. When the 5G equipment 42 is not installed in the reserved space 4, the space is blocked by the pre-closed blind plate 41, and when the 5G equipment 42 is installed, the pre-closed blind plate 41 can be removed, and the space is filled by the 5G equipment 42.

The heat dissipation device is characterized in that a heat dissipation flow channel 21 which is arranged annularly is arranged between the equipment upright column 2 and the cabinet body 1, and an air conditioner 11 is installed on one side wall of the cabinet body 1. This embodiment equipment in the cabinet body 1 closely arranges, forms equipment stand 2 does not have temporarily the headspace 4 of installation 5G equipment 42 also to seal blind plate 41 shutoff in advance, equipment stand 2 with can form independent annular heat dissipation runner 21 between the cabinet body 1, form endless heat dissipation air current in the 11 drive annular heat dissipation runner 21 of air conditioner, this compares and relies on 11 random blowing cold wind of air conditioner to carry out radiating mode, can realize utilizing less refrigerating output can satisfy the heat dissipation demand, and the power consumption reduces, does benefit to and satisfies energy-conserving demand. Wherein, this embodiment indicates each equipment and arranges in proper order from top to bottom, and each equipment all receives the heat dissipation air current effect all around like this, and forms more ideal radiating effect, and has heat dissipation fan etc. in the self operation such as based on 5G equipment 42, and it also realizes self good heat dissipation with the help of annular heat dissipation air current more easily.

Preferably, the lateral wall of the cabinet body 1 of this embodiment includes a steel plate layer and an EPS heat preservation layer, and through heat preservation and heat insulation, the good radiating effect of radiating airflow can be guaranteed. In practical design and use, in this embodiment, an outer door may be selectively opened on the side wall of the cabinet body 1, for example, an air conditioner door 12 is opened on one of the side walls to mount the air conditioner 11, so as to facilitate maintenance of the air conditioner, and for example, a front door 13 is disposed on one of the side walls to perform opening and closing operations, and to disassemble and assemble the 5G equipment 42, and preferably, a folder 14 is disposed on an inner wall of the front door 13 to facilitate retention of some document materials in the cabinet body 1.

The power module 3 is electrically connected with a power generation device 6 positioned outside the cabinet body 1 and used for providing electric power support for each device in the cabinet body 1 and the air conditioner 11. The power generation device 6 of the present embodiment includes a solar power generation assembly 61 and a wind power generation assembly 62 to respectively utilize natural energy such as outdoor solar energy, wind energy, and the like to obtain electric power, thereby further reducing the demand for power generation resources such as coal, and also being beneficial to meeting the energy saving demand.

In this embodiment, the solar power generation assembly 61 includes a solar installation frame 611 installed outside one of the side walls of the cabinet in a swinging manner, a solar panel 612 is installed on the solar installation frame 611, a movable guide rail 613 is installed at a free end of the solar installation frame 611 in a hinged manner, a movable guide pin 614 is installed at a free end of the movable guide rail 613, a fixed guide rail 615 corresponding to the movable guide pin 614 is fixedly arranged on the cabinet body 1, and the movable guide pin 614 is guided by using a long hole formed in the fixed guide rail 615. Through the movable characteristic of the movable guide rail 613, the inclination angle of the solar panel 612 can be adjusted, so that the solar panel 612 can be conveniently adjusted to an angle more beneficial to improving the generation of electric energy for use according to the use place or the sun-shine condition in the current season; of course, the movable guide pin 614 may be secured in a damped or bolt-like manner at any position on the fixed guide 615. Based on the use of the solar panel 612, the cabinet body 1 is provided with a cable hole 616 corresponding thereto for arranging related wires or control lines; of course, the cable hole 616 is waterproof by a waterproof joint.

The wind power generation assembly 62 comprises a support mast 621 fixedly mounted on the top plate of the cabinet 1, and a wind power generator 624 is mounted on the support mast 621. Here, the fixing of the supporting mast 621 is realized by welding a flange fixing plate 622 to the top plate of the cabinet 1, and welding a mast flange 623 which can be fixed to the flange fixing plate 622 by bolts to the bottom end of the supporting mast 621. Certainly, the supporting mast 621 is hollow, and the flange fixing plate 622 is provided with a wiring hole corresponding to the inner cavity of the supporting mast 621, so as to implement electric wire or control line arrangement.

Based on the embodiment, two power generation modes of solar energy and wind energy are used, the power module 3 includes a direct current power distribution unit 31, a wind, photovoltaic and rectifying unit 32 and an alternating current power distribution unit 33 which are vertically and sequentially arranged, the direct current power distribution unit 31 includes a photovoltaic input air switch 311, a direct current load air switch 312 and a battery air switch 313 which are transversely arranged, the wind, photovoltaic and rectifying unit 32 includes a photovoltaic rectifying module 321 and an alternating current and direct current rectifying module 322, and the alternating current power distribution unit 33 includes a wind power generation air switch 331 and an alternating current load air switch 332 which are transversely arranged. Through the setting, each sky is opened, rectifier module etc. can be integrated into the integral type power, does benefit to the cooperation and realizes the inseparable arranging of this embodiment equipment stand 2. And through the arrangement of the power supply module 3, the wind-solar complementary cabinet is formed in the embodiment.

Preferably, the ac power distribution unit 33 further includes a commercial power input air switch 34, so as to temporarily use commercial power to supply power when the wind and light cannot meet the power demand and the power in the battery module 5 is consumed. Based on this, the power module 3 of the present embodiment is further disposed with a monitoring unit 35 to control the preferential use of wind-solar power generation, the storage of excess electric energy into the battery module 5, the use of commercial power, and the like.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the above embodiments and descriptions are only used for illustrating the principle of the present invention, and the present invention may have various changes and modifications without departing from the spirit and scope of the present invention, for example, in practical use, the number of solar panels 612 may be increased and/or wind power generators 624 with larger power may be adopted according to the increase of the power demand of the equipment in the cabinet, and when the number of solar panels 612 is larger and/or the volume of the wind power generators 624 is larger, the solar panels may be separately disposed at the side of the cabinet 1. Such variations and modifications are intended to be within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. Wind-solar complementary type 5G integrated energy-saving cabinet comprises a cabinet body and is characterized in that: an equipment upright column is arranged in the middle of the cabinet body, the equipment upright column comprises a power module, a battery module and a plurality of reserved spaces for mounting 5G equipment, the power module, the battery module and the reserved spaces are tightly arranged, and a pre-closed blind plate is detachably mounted in each reserved space; a heat dissipation flow channel which is arranged annularly is arranged between the equipment upright post and the cabinet body, and an air conditioner is arranged on one side wall of the cabinet body; the power module is electrically connected with a power generation device positioned outside the cabinet body.

2. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 1, wherein: the power generation device comprises a solar power generation assembly and a wind power generation assembly.

3. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 2, wherein: the solar energy power generation subassembly includes the solar energy mounting bracket of the outer swing installation of one of them lateral wall of rack, install solar panel on the solar energy mounting bracket, the articulated movable guide rail that installs of free end department of solar energy mounting bracket, movable guide rail's free end department installs movable guide pin, fixed be equipped with on the cabinet body with the fixed guide rail that movable guide pin corresponds.

4. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 2, wherein: the wind power generation assembly comprises a supporting mast fixedly mounted on a top plate of the cabinet body, and a wind driven generator is mounted on the supporting mast.

5. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 2, wherein: the power module comprises a direct current power distribution unit, a wind-solar-electricity rectification unit and an alternating current power distribution unit which are vertically and sequentially arranged, the direct current power distribution unit comprises a photovoltaic input air switch, a direct current load air switch and a battery air switch which are transversely arranged, the wind-solar-electricity rectification unit comprises a photovoltaic rectification module and an alternating current-direct current rectification module, and the alternating current power distribution unit comprises a wind power generation air switch and an alternating current load air switch which are transversely arranged.

6. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 5, wherein: the alternating current power distribution unit further comprises a mains supply input air switch.

7. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 6, wherein: a monitoring unit is also arranged in the power supply module.

8. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 1, characterized in that: the side wall of the cabinet body comprises a steel plate layer and an EPS heat insulation layer.

9. The wind-solar complementary type 5G integrated energy-saving cabinet of claim 1, characterized in that: a front door is arranged on one side wall of the cabinet body, and a folder is arranged on the inner wall of the front door.

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