CN212647098U - Outdoor overhead type of solar energy synthesizes cabinet - Google Patents
Outdoor overhead type of solar energy synthesizes cabinet Download PDFInfo
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- CN212647098U CN212647098U CN202021137273.8U CN202021137273U CN212647098U CN 212647098 U CN212647098 U CN 212647098U CN 202021137273 U CN202021137273 U CN 202021137273U CN 212647098 U CN212647098 U CN 212647098U
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Abstract
The utility model discloses a solar outdoor overhead comprehensive cabinet, which comprises a solar panel supporting unit and a square SMC composite material box body, the solar panel support unit is on the box top, the top of box inboard is the module of reinforceing the heat dissipation, the lower part of the module of reinforceing the heat dissipation is equipped with equipment fixing reservation district, DC switch power and 12 core integration trays from a left side to the right side in proper order, equipment fixing reservation district lower part is equipped with lightning protection distribution unit, solar energy intelligent control unit, branching unit installing zone and optical cable fixed unit from a left side to the right side in proper order, optical cable fixed unit upper portion is equipped with the optical cable and strengthens the core mounting, be equipped with tail optical fiber dish fine fixed unit in the middle of branching unit installing zone and 12 core integration trays, 12 core integration trays are equipped with cable around and walk the line mounting, be equipped with the inside isolation barrier of box between DC switch power and the 12 core integration trays, the bottom half is equipped with battery.
Description
Technical Field
The utility model relates to the field of communication, specifically be a cabinet is synthesized to outdoor overhead formula of solar energy.
Background
In order to implement the rural pleasure strategy, the rural infrastructure needs to be promoted to upgrade. The infrastructure construction is continuously put in the rural areas, the construction of the infrastructures such as rural roads, water supply, gas supply, environmental protection, power grids, logistics, information, radio and television is accelerated, and the interconnection and intercommunication of the urban and rural infrastructures is promoted. The method implements the strategy of digital rural area, makes a whole planning design, accelerates the covering pace of the broadband network and the fourth generation mobile communication network in rural area, develops information technology, products, applications and services which adapt to the characteristics of the three farmers, promotes the application popularization of remote medical treatment, remote education and the like, and closes the urban and rural digital gap. The broadband Chinese strategy is clearly proposed, and by 2020, the national broadband network completely covers urban and rural areas, the administrative village-wide broadband proportion exceeds 98%, and the rural family broadband access capability reaches 12 Mbps.
The rural market is a place which three operators have to contend for, and how to effectively carry out the broadband construction in the rural areas, particularly the rural broadband construction in the western mountainous area, is a current hotspot problem. The rural areas in the western mountainous area have the characteristics of wide terrain, complex terrain and scattered residents. In general, no suitable position is provided for placing an OLT access device and an optical cable cross-connecting box in rural areas, and the arrangement of the OLT device and a first-level fiber splitting point is a key factor for determining the cost of broadband single wires. At present, most OLT equipment and a level of fiber points are arranged on a base station, so that optical cables are repeatedly arranged, and investment waste is caused.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that to prior art not enough, an interior compact structure, multiple functional, convenient operation's an outdoor built on stilts formula of solar energy synthesizes cabinet to satisfy the demand on the existing market.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides an outdoor overhead formula of solar energy synthesizes cabinet, includes the box to and be located the battery compartment in the box, box earthing unit, the fixed unit of optical cable, core mounting is strengthened to the optical cable, the branching unit installing zone, tail optical fiber dish fine fixed unit, 12 core integration trays, interior isolation barrier of box, walk line preformed hole in the box, direct current switch power, equipment fixing preformed zone, lightning protection distribution unit, solar energy intelligent control unit, reinforce heat dissipation module, solar panel stainless steel support piece, photovoltaic solar panel.
The storage battery compartment and the grounding unit are arranged at the bottom of the box body side by side, the optical cable fixing unit is positioned above the grounding unit, and the optical cable reinforced core fixing piece is positioned above the optical cable fixing unit; the splitter mounting area is positioned at one side of the optical cable fixing unit and the optical cable reinforced core fixing piece; the 12-core integrated tray is positioned at the upper part of an area formed by the optical cable fixing unit, the optical cable reinforced core fixing part and the splitter mounting area; the tail optical fiber coiling fixing units are positioned at the upper side and the lower side of the 12-core integrated tray.
The direct-current switch power supply and the equipment installation reserved area are arranged on one side of the 12-core integrated tray side by side; the lightning protection power distribution unit and the solar intelligent control unit are arranged on one side of the shunt installation area side by side and are positioned at the lower part of the direct current switch power supply and the equipment installation reserved area; the area formed by the direct current switch power supply, the equipment installation reserved area, the lightning protection power distribution unit and the solar intelligent control unit, the area formed by the 12-core integrated tray, the optical cable fixing unit, the optical cable reinforced core fixing piece and the splitter installation area are separated by an isolation baffle in the box body, and the two areas form the middle part of the box body; the wiring preformed hole in the box body is positioned at the upper end part of the isolation baffle in the box body.
The reinforced heat dissipation module is positioned at the upper part of the box body.
Photovoltaic solar panel erects the top at the box through solar panel stainless steel support piece.
Furthermore, cable wiring fixing parts are arranged on the periphery of the storage battery cabin and the 12-core integrated tray, the tail fiber disc fiber fixing unit and the upper part of the direct-current switch power supply.
Furthermore, the bottom panel of the box body is provided with an optical cable routing preformed hole and an electric cable routing preformed hole; an optical cable outside the box body enters the box body through an optical cable wiring preformed hole, enters the right side area in the middle of the box body after passing through an optical cable fixing unit at the lower part of the box body, is stripped at an optical cable reinforcing core fixing part, an optical cable reinforcing core in the optical cable is fixed on the optical cable reinforcing core fixing part, an optical fiber bundle tube in the optical cable passes through a cable wiring fixing part at the right side in the middle of the box body, is end-spliced with an optical fiber pigtail on a 12-core integrated tray, and enters a splitter installation area after being tightened and fixed by the cable wiring fixing part at the left side area at the right side in the middle of the box body and passing through a tail fiber tray fixing unit at the lower right side in the middle of the box body, and the tail fiber coming out of the splitter enters a splitter installation area after passing through the tail fiber tray fixing unit at the right side below the right side in the middle of the box body, is tightened, the cable reaches the left area in the middle of the box body, and enters equipment installation reserved area connecting equipment after the cable is tightened and fixed by the cable routing fixing piece; and the grounding wire outside the box body enters the box body from the optical cable routing preformed hole and is connected with the grounding unit in the box body at the lower part of the box body.
An external power line of the box body enters the box body through a cable routing preformed hole, the external power line enters the lightning protection power distribution unit after being tightened and fixed by a cable routing fixing piece at the lower part of the box body, the external power line enters a direct current switch power supply at the left side of the middle part of the box body through the lightning protection power distribution unit, and the direct current switch power supply is led out to an equipment installation reserved area to supply power to equipment; the solar power line enters the box body through the cable routing preformed hole, the solar power line enters the solar intelligent control unit after being tightened and fixed through the cable routing fixing piece at the lower part of the box body, after the solar power line is led out from the solar intelligent control unit, one direction of the solar power line enters the storage battery cabin to be connected with the battery, the other direction of the solar power line enters the direct current switch power supply at the left side of the middle part of the box body through the lightning protection power distribution unit, and the direct current switch power supply is led out to the equipment installation reserved area to.
Preferably, the cable routing fixing parts are 12 in total and are symmetrically arranged on the upper side, the lower side, the left side and the right side of the middle part and the lower part in the box body.
Furthermore, the front surface of the box body is provided with a box door, and a box body door handle lock is arranged on the box door.
Furthermore, the top panel of the box body is provided with more than one supporting piece fixing unit for installing and fixing the photovoltaic solar panel.
Specifically, the front, back and two sides of the box body are closed SMC composite material shells.
Has the advantages that:
the utility model discloses outdoor overhead type of solar energy synthesizes cabinet is fit for equipment fixing, optical cable branch fine under outdoor environment adverse circumstances, convenient operation, safety, and its external dimension is compact and have safety protection, energy-concerving and environment-protective function. The overhead comprehensive cabinet has complete functions, integrates equipment installation, an optical cable terminal and fiber distribution, has solar power supply capacity, is convenient to enter and exit wires, occupies small area and saves installation space; meanwhile, the method is beneficial to standardized large-scale production, can be popularized and used in China, promotes the rapid construction of networks, and has good application prospect.
Drawings
These and/or other advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings and the following detailed description.
Fig. 1 is a schematic view of the internal structure of the solar outdoor overhead comprehensive cabinet.
Fig. 2 is a schematic front view of the solar outdoor overhead comprehensive cabinet.
Fig. 3 is a schematic bottom view of the solar outdoor overhead complex cabinet.
Fig. 4 is a schematic top view of the solar outdoor overhead complex cabinet.
Fig. 5 is a schematic view of a use scene of the solar outdoor overhead comprehensive cabinet in rural broadband construction.
Fig. 6 is a schematic diagram of internal cable routing of the solar outdoor overhead integrated cabinet.
Wherein each reference numeral represents: 1, a box body; 2, a box door; 3, locking a box body door handle; 4 a battery compartment; 5 a grounding unit; 6 an optical cable fixing unit; 7, fixing the optical cable reinforcing core; 8 a splitter mounting area; 9 tail fiber coiling fixing units; 10 cable routing fixing parts; 11 is a 12-core integrated tray; 12 isolating baffles in the box body; 13 a wiring preformed hole is arranged in the box body; 14 a direct current switching power supply; 15, equipment installation reserved area; 16 lightning protection power distribution units; 17 solar intelligent control unit; 18 an enhanced heat dissipation module; 19 solar panel stainless steel supports; 20 a photovoltaic solar panel; 21, reserving holes for optical cable routing; 22 cable routing preformed holes; 23 support the member fixing unit.
Detailed Description
The invention will be better understood from the following examples.
The drawings in the specification show the structure, ratio, size, etc. only for the purpose of matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and not for the purpose of limiting the present invention, so the present invention does not have the essential meaning in the art, and any structure modification, ratio relationship change or size adjustment should still fall within the scope covered by the technical content disclosed in the present invention without affecting the function and achievable purpose of the present invention. Meanwhile, the terms "upper", "lower", "front", "rear", "middle", and the like used in the present specification are for the sake of clarity only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are also considered to be the scope of the present invention without substantial changes in the technical content.
As shown in fig. 1, the outdoor overhead solar integrated cabinet comprises a box body 1, a storage battery compartment 4 located in the box body 1, a box body grounding unit 5, an optical cable fixing unit 6, an optical cable reinforcing core fixing part 7, a splitter installation area 8, a tail optical fiber coil fixing unit 9, a 12-core integrated tray 11, an isolation baffle 12 in the box body, a box body internal wiring reserved hole 13, a direct current switch power supply 14, an equipment installation reserved area 15, a lightning protection power distribution unit 16, a solar intelligent control unit 17, a reinforced heat dissipation module 18, a solar panel stainless steel supporting piece 19 and a photovoltaic solar panel 20. The front, the back and two sides of the box body 1 are closed SMC composite material shells.
The storage battery compartment 4 and the grounding unit 5 are arranged at the bottom of the box body 1 side by side, the optical cable fixing unit 6 is positioned above the grounding unit 5, and the optical cable reinforced core fixing piece 7 is positioned above the optical cable fixing unit 6; the splitter mounting area 8 is located at one side of the optical cable fixing unit 6 and the optical cable core-strengthening fixing member 7; the 12-core integrated tray 11 is positioned at the upper part of the area formed by the optical cable fixing unit 6, the optical cable reinforced core fixing part 7 and the splitter mounting area 8; the tail optical fiber coiling and fixing units 9 are positioned at the upper side and the lower side of the 12-core integrated tray 11.
The direct-current switching power supply 14 and the equipment installation reserved area 15 are arranged on one side of the 12-core integrated tray 11 side by side; the lightning protection power distribution unit 16 and the solar intelligent control unit 17 are arranged on one side of the shunt installation area 8 side by side and are positioned at the lower parts of the direct current switch power supply 14 and the equipment installation reserved area 15; the area formed by the direct current switch power supply 14, the equipment installation reserved area 15, the lightning protection power distribution unit 16 and the solar intelligent control unit 17 and the area formed by the 12-core integrated tray 11, the optical cable fixing unit 6, the optical cable reinforced core fixing part 7 and the splitter installation area 8 are separated by an isolation baffle plate 12 in the box body, and the two areas form the middle part of the box body; the wiring preformed hole 13 in the box body is positioned at the upper end part of the isolation baffle 12 in the box body.
The heat dissipation enhancing module 18 is located at the upper portion of the case 1.
The photovoltaic solar panel 20 is erected on the top of the box body 1 through a solar panel stainless steel support piece 19.
Cable wiring fixing parts 10 are arranged on the periphery of the storage battery compartment 4 and 12 core integrated tray 11, the tail optical fiber disc optical fiber fixing unit 9 and the upper part of the direct current switch power supply 14. The cable routing fixing pieces 10 are 12 in total and are symmetrically arranged on the upper side, the lower side, the left side and the right side of the middle part and the lower part in the box body 1.
As shown in fig. 2, a box door 2 is arranged on the front surface of the box body 1, and a box body door handle lock 3 is arranged on the box door 2.
As shown in fig. 3, the bottom panel of the box body 1 is provided with a cable routing preformed hole 21 and a cable routing preformed hole 22; an optical cable outside a box body 1 enters the box body 1 through an optical cable routing preformed hole 21, enters a right area in the middle of the box body after passing through an optical cable fixing unit 6 at the lower part of the box body, is stripped at an optical cable reinforcing core fixing part 7, an optical cable reinforcing core in the optical cable is fixed on the optical cable reinforcing core fixing part 7, an optical fiber bundle tube in the optical cable passes through a cable routing fixing part 10 at the right side in the middle of the box body and is connected to a 12-core integrated tray 11 in an end-to-end mode, optical fiber pigtails are spliced and fixed through the cable routing fixing part 10 at the left area at the right side in the middle of the box body, enter a splitter mounting area 8 after passing through a cable routing fixing unit 9 at the lower right side in the middle of the box body and are tightened and fixed by the cable routing part 10 at the left area at the right side in the middle of the box body, and are coiled by the cable routing fixing unit, the cable is passed through an in-box wiring preformed hole 13, passes through an in-box isolation baffle 12 and reaches the left area of the middle part of the box body, and enters an equipment installation preformed area 15 for connecting equipment after being tightened and fixed by a cable wiring fixing part 10; the ground wire outside the box body 1 enters the box body 1 from the optical cable routing preformed hole 21, and the grounding unit 5 in the box body is connected to the lower part of the box body.
An external power line of the box body 1 enters the box body 1 through a cable routing preformed hole 22, the external power line enters the lightning protection power distribution unit 16 after being tightened and fixed by the cable routing fixing part 10 at the lower part of the box body, the external power line enters the direct current switch power supply 14 at the left side of the middle part of the box body through the lightning protection power distribution unit 16, and the direct current switch power supply 14 is led out to the equipment installation preformed area 15 to supply power to equipment; the solar power line enters the box body 1 through the cable routing preformed hole 22, the solar power line enters the solar intelligent control unit 17 after being tightened and fixed through the cable routing fixing part 10 at the lower part of the box body, the solar power line enters the storage battery cabin 4 to be connected with a battery after being led out from the solar intelligent control unit 17, the solar power line enters the direct current switch power supply 14 on the left side of the middle part of the box body through the lightning protection power distribution unit 16 in one direction, and the direct current switch power supply 14 is led out to the equipment installation preformed area 15 to supply power to equipment.
As shown in fig. 4, the top panel of the box 1 is provided with more than one supporting member fixing unit 23 for installing and fixing the photovoltaic solar panel.
Fig. 5 is a schematic view of a use scene of the solar outdoor overhead comprehensive cabinet in rural broadband construction. OLT equipment and first-level branch fibers are arranged in a solar outdoor overhead comprehensive cabinet, an optical cable is led to the solar outdoor overhead comprehensive cabinet from a base station to realize the network access of the OLT, a rubber-covered wire optical cable or an optical cable is led to a branch fiber box of a village A from a first-level branch fiber point, the optical cable is led to a branch fiber box of a village B and a branch fiber box of a village C from the first-level branch fiber point respectively, and broadband users of each village are accessed from respective branch fiber boxes nearby. A outdoor overhead type of solar energy synthesizes cabinet be used for the terminal of the OLT equipment installation shown in figure 5, optical cable and divide fine, be particularly suitable for remote rural area's broadband access network construction.
Fig. 6 is a schematic view of the internal cable routing of the solar outdoor overhead integrated cabinet in this embodiment.
1. Optical cable routing indication:
the optical cable enters through the wire inlet hole at the position I on the bottom of the box body, the optical cable is peeled off after being fixed at the position II, the optical cable reinforcing core is fixed on the metal fixing piece, the optical fiber bundle pipe is bound and fixed through the circuit fixing unit at the position III, enters the fiber melting and distributing unit for terminating according to the direction of the position III schematic route, finally the tail fiber which is connected enters the fiber coiling fixing unit at the position III along the direction of the position IV, enters the optical splitter at the position III, passes through the optical splitter, enters the tail fiber coiling fixing unit at the position II 0 from the position III along the opposite direction of the positions IV and IV from the position IIIThe number position is wired into the equipment area, the tail fiber isThe horn is fixed in position and thenThe number location enters the device.
2. External power line routing indication:
the external power line enters through the wire inlet hole at the first position at the bottom of the box body and along the wire inlet holePosition routing wiring inThe position of the power cord is in the lightning protection power distribution unitThe signal position enters a direct current switch power supply, and a power line from the switch power supply is arrangedAnd the number position enters the equipment to supply power for the equipment.
3. Solar power line routing schematic
The solar power line enters through the wire inlet hole at the position of the first line at the bottom of the box body and along the wire inlet holePosition routing wiring inThe position of the solar intelligent control unit is connected with the power lines of the solar intelligent control unit and the solar intelligent control unit respectivelyIs positioned to enter a lightning protection distribution unitThe position of the power cord is connected with the storage battery and the power cord is arranged after passing through the power distribution unitThe signal position enters a direct current switch power supply, and a power line from the switch power supply is arrangedAnd the number position enters the equipment to supply power for the equipment.
In this embodiment, the following points need to be noted:
1. the solar outdoor overhead comprehensive cabinet is installed in an overhead mode, an installation platform needs to be manufactured or installed on the top surface of a building, no obstacle exists around the installation position, and the solar light-taking requirement is met.
2. The optical cable, the rubber-insulated-wire optical cable and the tail fiber are fixed through the cable wiring fixing piece, and the cable is prevented from being scattered.
3. The box body is only reserved with an equipment mounting position, a storage battery mounting position and an optical splitter mounting position, and the specific equipment, the storage battery and the optical splitter are required to be purchased according to engineering requirements.
4. The optical cable reinforcing core is grounded through the power cable wire inlet hole.
5. When the solar photovoltaic system is installed, the technical specification carried along with the equipment needs to be referred to in detail.
The requirement of the outdoor overhead type solar comprehensive cabinet is fully considered in the embodiment, and the outdoor overhead type solar comprehensive cabinet is designed by combining the installation environment, is flexible and convenient, and has universal applicability.
The utility model provides a thought and method of outdoor overhead type of solar energy synthesis cabinet specifically realize that this technical scheme's method and approach are many, above only the utility model discloses a preferred embodiment should point out, to the ordinary technical personnel of this technical field, is not deviating from the utility model discloses under the prerequisite of principle, can also make a plurality of improvements and moist decorations, these improve and moist decorations should also be regarded as the utility model discloses a protection scope. All the components not specified in the present embodiment can be realized by the prior art.
Claims (7)
1. A solar outdoor overhead comprehensive cabinet is characterized by comprising a box body (1), a storage battery compartment (4) positioned in the box body (1), a box body grounding unit (5), an optical cable fixing unit (6), an optical cable reinforced core fixing part (7), a splitter mounting area (8), a tail fiber coiling fixing unit (9), a 12-core integrated tray (11), a box body internal isolation baffle plate (12), a box body internal wiring preformed hole (13), a direct current switch power supply (14), an equipment mounting preformed area (15), a lightning protection power distribution unit (16), a solar intelligent control unit (17), a reinforced heat dissipation module (18), a solar panel stainless steel support (19) and a photovoltaic solar panel (20);
the storage battery compartment (4) and the grounding unit (5) are arranged at the bottom of the box body (1) side by side, the optical cable fixing unit (6) is positioned above the grounding unit (5), and the optical cable reinforced core fixing piece (7) is positioned above the optical cable fixing unit (6); the splitter mounting area (8) is positioned on one side of the optical cable fixing unit (6) and the optical cable reinforced core fixing piece (7); the 12-core integrated tray (11) is positioned at the upper part of the area formed by the optical cable fixing unit (6), the optical cable reinforced core fixing piece (7) and the splitter mounting area (8); the tail optical fiber coiling fixing units (9) are positioned at the upper side and the lower side of the 12-core integrated tray (11);
the direct-current switching power supply (14) and the equipment installation reserved area (15) are arranged on one side of the 12-core integrated tray (11) side by side; the lightning protection power distribution unit (16) and the solar intelligent control unit (17) are arranged on one side of the shunt installation area (8) side by side and are positioned at the lower parts of the direct-current switch power supply (14) and the equipment installation reserved area (15); the area formed by the direct current switch power supply (14), the equipment installation reserved area (15), the lightning protection power distribution unit (16) and the solar intelligent control unit (17) is separated from the area formed by the 12-core integrated tray (11), the optical cable fixing unit (6), the optical cable reinforced core fixing piece (7) and the splitter installation area (8) through an isolation baffle (12) in the box body, and the two areas form the middle part of the box body; the wiring preformed hole (13) in the box body is positioned at the upper end part of the isolation baffle (12) in the box body;
the enhanced heat dissipation module (18) is positioned at the upper part of the box body (1);
photovoltaic solar panel (20) erect the top at box (1) through solar panel stainless steel support piece (19).
2. The solar outdoor overhead complex cabinet according to claim 1, wherein cable routing fixtures (10) are arranged around the storage battery compartment (4) and the 12-core integrated tray (11) and at the upper parts of the tail fiber coiling fiber fixing unit (9) and the direct current switch power supply (14).
3. The solar outdoor overhead complex cabinet according to claim 2, wherein the bottom panel of the cabinet body (1) is provided with a cable routing preformed hole (21) and a cable routing preformed hole (22); an optical cable outside a box body (1) enters the box body (1) through an optical cable routing preformed hole (21), enters the right side area in the middle of the box body after passing through an optical cable fixing unit (6) at the lower part of the box body, is stripped at an optical cable reinforcing core fixing part (7), an optical cable reinforcing core in the optical cable is fixed on the optical cable reinforcing core fixing part (7), an optical fiber bundle tube in the optical cable is connected to a 12-core integrated tray (11) in an end mode through a cable routing fixing part (10) at the right side and left area of the box body in an extending mode, is tightened and fixed through the cable routing fixing part (10) at the right side and left area of the middle of the box body, enters a splitter mounting area (8) after passing through a tail fiber coiling fixing unit (9) at the right side and right side of the box body, and is tightened and fixed by the cable routing area (10) at the right side and left area of the middle of the box body after passing through, after the tail fiber disc fiber fixing unit (9) above the right side of the middle part of the box body is coiled, the tail fiber disc fiber fixing unit penetrates through an isolation baffle (12) in the box body through a box body wiring preformed hole (13) and reaches the left side area of the middle part of the box body, and after the warp cable wiring fixing part (10) is tightened and fixed, the warp cable wiring fixing part enters an equipment installation preformed area (15) to be connected with equipment; an external ground wire of the box body (1) enters the box body (1) from the optical cable routing preformed hole (21), and is connected with a grounding unit (5) in the box body at the lower part of the box body;
an external power line of the box body (1) enters the box body (1) through a cable routing preformed hole (22), the lower part of the box body is tightened and fixed through a cable routing fixing piece (10) and then enters a lightning protection power distribution unit (16), the external power line enters a direct current switch power supply (14) on the left side in the middle of the box body through the lightning protection power distribution unit (16), and the direct current switch power supply (14) is led out to an equipment installation preformed area (15) to supply power to equipment; the solar power line enters the box body (1) through the cable routing preformed hole (22), the lower portion of the box body is tightened up and fixed through the cable routing fixing piece (10) and then enters the solar intelligent control unit (17), after the solar power line is led out from the solar intelligent control unit (17), one direction of the solar power line enters the storage battery cabin (4) to be connected with a battery, one direction of the solar power line enters the direct-current switch power supply (14) on the left side of the middle portion of the box body through the lightning protection power distribution unit (16), and the direct-current switch power supply (14) is led out to the equipment installation preformed area (15) to supply power to equipment.
4. The outdoor overhead solar integrated cabinet according to claim 3, wherein the number of the cable routing fixing members (10) is 12, and the cable routing fixing members are symmetrically arranged at the upper, lower, left and right sides of the middle and lower parts in the cabinet body (1).
5. The solar outdoor overhead complex cabinet according to claim 1, wherein the cabinet body (1) is provided with a cabinet door (2) on the front surface, and the cabinet door handle lock (3) is arranged on the cabinet door (2).
6. The outdoor overhead solar complex cabinet according to claim 1, wherein the top panel of the cabinet (1) is provided with more than one supporting member fixing unit (23) for installing and fixing the photovoltaic solar panel.
7. The solar outdoor overhead complex cabinet according to claim 1, wherein the front, back and both sides of the cabinet body (1) are closed SMC composite shells.
Priority Applications (1)
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CN202021137273.8U CN212647098U (en) | 2020-06-18 | 2020-06-18 | Outdoor overhead type of solar energy synthesizes cabinet |
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CN202021137273.8U CN212647098U (en) | 2020-06-18 | 2020-06-18 | Outdoor overhead type of solar energy synthesizes cabinet |
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CN212647098U true CN212647098U (en) | 2021-03-02 |
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CN202021137273.8U Active CN212647098U (en) | 2020-06-18 | 2020-06-18 | Outdoor overhead type of solar energy synthesizes cabinet |
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