CN220306780U - Sharing Co-building 5G intelligent distribution box - Google Patents

Abstract

The utility model relates to a base station facility, and aims to provide a shared co-construction 5G intelligent distribution box which has the characteristics of reducing construction cost and saving resources. The technical scheme is that the shared co-construction 5G intelligent distribution box comprises a box body provided with a box door; the method is characterized in that: an electric mounting plate is arranged in the box body, and an electric assembly is arranged on the electric mounting plate; the electrical component comprises an input air switch, a surge protection air switch, a surge protector, a 5G intelligent ammeter, a main input current transformer, a first current transformer, a second current transformer, a third current transformer, a first output air switch, a second output air switch and a third output air switch; a mushroom head antenna is arranged on the right side of the box body; n rows and PE rows are also arranged in the box body.

Description

Sharing Co-building 5G intelligent distribution box

Technical Field

The utility model relates to a base station facility, in particular to a co-building shared 5G intelligent distribution box of a small micro base station.

Background

At present, in base stations built by all home telecommunication operators, distribution boxes for supplying power to base station equipment are required to be arranged, and the distribution boxes of all operators currently adopt a self-built self-use mode. Such a mode has the following two problems:

(1) Some base stations have limited internal space and cannot be provided with a plurality of distribution boxes;

(2) The self-building and self-use mode can lead to repeated construction of equipment, thereby not only increasing investment cost, but also wasting resources.

Disclosure of Invention

The utility model aims to overcome the defects in the background technology and provide a shared co-construction 5G intelligent distribution box which has the characteristics of reducing construction cost and saving resources.

The technical scheme of the utility model is as follows:

the shared co-construction 5G intelligent distribution box comprises a box body provided with a box door; the method is characterized in that: an electric mounting plate is arranged in the box body, and an electric assembly is arranged on the electric mounting plate; the electrical component comprises an input air switch, a surge protection air switch, a surge protector, a 5G intelligent ammeter, a main input current transformer, a first current transformer, a second current transformer, a third current transformer, a first output air switch, a second output air switch and a third output air switch; a mushroom head antenna is arranged on the right side of the box body; n rows and PE rows are also arranged in the box body.

The input idle switch, the surge protection idle switch, the surge protector and the 5G intelligent ammeter are arranged on the upper part of the electric mounting plate; the main input current transformer, the first current transformer, the second current transformer and the third current transformer are arranged in the middle of the electric mounting plate; the first output air gap, the second output air gap and the third output air gap are arranged at the lower part of the electric mounting plate.

The N rows and the PE rows are arranged below the electric mounting plate.

The backboard of the box body is provided with a first connecting hole; the bottom plate of the box body is provided with a plurality of second connecting holes and a plurality of line holes.

The backboard of the box body is riveted with a plurality of blind nut columns for installing the electric installation plate and a plurality of nut columns for installing N rows and PE rows.

The beneficial effects of the utility model are as follows:

the utility model can supply power to the base station equipment of three operators simultaneously, and can measure the equipment of the electric charge of each operator independently; the utility model is provided with a 5G intelligent ammeter, one mains supply is divided into three independent outputs after passing through the ammeter, and the input total electric quantity and the electric quantity of the independent three outputs can be respectively collected, thereby reducing the investment cost of operators and saving resources.

Drawings

Fig. 1 is a schematic perspective view of the present utility model (door closed).

Fig. 2 is one of the schematic front view structures of the present utility model (door open).

Fig. 3 is a second schematic front view of the present utility model (door open, electrical components omitted).

Fig. 4 is a second schematic front view of the present utility model (door open, electrical mounting plate omitted).

Fig. 5 is a schematic view of the bottom view of the present utility model (door open).

Fig. 6 is a schematic diagram of the connection relationship of the electrical components of the present utility model.

FIG. 7 is a second schematic diagram of the connection relationship of the electrical components of the present utility model.

Reference numerals:

the box door 1, the box body 2, the backboard 2.1, the bottom board 2.2, the side board 2.3, the first connecting hole 2-1, the second connecting hole 2-2, the blind nut post 2-3, the nut post 2-4, the electric mounting plate 4, the input air gap 5, the surge protection air gap 6, the surge protector 7, the intelligent ammeter 8, the mushroom head antenna 9, the main input current transformer 10, the first current transformer 11, the second current transformer 12, the third current transformer 13, the first output air gap 14, the second output air gap 15, the third output air gap 16, the N row 17, the PE row 18 and the wire hole 19.

Detailed Description

The present utility model 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 utility model 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 utility model.

As shown in fig. 1, the shared co-construction 5G intelligent distribution box comprises a box body 2 provided with a box door 1; the box door 1 is hinged on the box body 2 in an openable and closable manner through a hinge, a lock is arranged between the box body and the box door, and an electric component is arranged in the box body. The hinge and the lock are of conventional structures and are not described in detail.

The backboard 2.1 of the box body is provided with a first connecting hole 2-1, and wall-mounted installation of the box body (the box body is fixed on a wall) and pole-holding type installation of the box body (the box body is fixed on a transmission pole) can be realized through the first connecting hole.

The bottom plate 2.2 of the box is provided with a second connecting hole 2-2 through which floor-mounted mounting of the box (the box is fixed on the cement base through an external base) can be achieved.

The bottom plate of the box body is also provided with a plurality of wire holes 19 (four wire holes are recommended, one of which is used as an incoming wire, and the other three are used as outgoing wires).

The box body is provided with an electric mounting plate 4, an N row 17 and a PE row 18. The electric mounting plate is arranged at the upper part of the inner cavity of the box body, the N rows 17 and the PE rows 18 are arranged at the lower part of the inner cavity of the box body, and the N rows 17 and the PE rows 18 are arranged below the electric mounting plate.

Four blind nut posts 2-3 are riveted on the upper portion of the back plate of the box body, and four nut posts 2-4 are riveted on the lower portion of the back plate of the box body. The blind nut posts are of the type BSO-M6-10, and the electrical mounting plate is secured to the four blind nut posts. The types of the nut columns are FH-M6-10, and the N rows 17 and the PE rows 18 are respectively fixed on the two nut columns.

The outer side (the side plate on the right side in fig. 2) of the side plate 2.3 of the box body is provided with a mushroom head antenna 9,5G, and the smart meter 8 is electrically connected with the mushroom head antenna.

The electric installation plate is provided with an electric component, and comprises an input air switch 5, a surge protection air switch 6, a surge protector 7, a 5G intelligent ammeter 8, a main input current transformer 10, a first current transformer 11, a second current transformer 12, a third current transformer 13, a first output air switch 14, a second output air switch 15 and a third output air switch 16.

The input air switch 5, the surge protection air switch 6, the surge protector 7 and the 5G intelligent ammeter 8 are arranged on the upper part of the electric mounting plate and are horizontally arranged in sequence along the left-to-right direction; the main input current transformer 10, the first current transformer 11, the second current transformer 12 and the third current transformer 13 are arranged in the middle of the electric installation plate, and the first current transformer 11, the second current transformer 12 and the third current transformer 13 are arranged below the main input current transformer 10 and are horizontally arranged in sequence along the left-to-right direction; the first, second and third output air openings 14, 15 and 16 are provided at the lower portion of the electric mounting board and are horizontally arranged in order from left to right. The N rows 17 and the PE rows 18 are horizontally aligned in the left-to-right direction.

The input space is arranged at the left side of the upper part of the electric mounting plate and used for accessing a commercial power cable; the surge protector and the protection space thereof are arranged at the middle position of the upper part of the electric mounting plate and used for protecting direct lightning strike and inductive lightning in a circuit; the 5G intelligent ammeter is arranged at the right side of the upper part of the electric installation plate, is used for collecting the total input electric quantity and the electric quantity output by the three independent paths and is transmitted to the monitoring platform by wireless; the mushroom head antenna is arranged on the side plate on the right side of the box body and used for transmitting wireless signals of the ammeter; the four current transformers are arranged in the middle of the electric mounting plate and are used for converting large current in the alternating current circuit into small current with a certain proportion so as to measure the current by the ammeter; three groups of independent output openings are arranged at the lower half part of the electric installation plate and are used for supplying power to base station equipment of three operators; n rows of wires are arranged on the left side below the electric mounting plate and used for wiring N wires in the circuit; and the PE row is arranged on the right side below the electric mounting plate and used for protecting and lightning-proof in the circuit.

The connection method of the electrical component comprises the following steps:

the commercial power is firstly input into the air switch 5 and then passes through two parallel branches; one of the branches is:

the commercial power sequentially passes through a surge protection air switch 6 and a surge protector 7 which are connected in series; in the other branch: the commercial power sequentially passes through a surge protection air switch 6, a surge protector 7 and a main input current transformer 10 which are connected in series, and then passes through three parallel branches;

the first shunt is a first current transformer 11 and a first output air switch 14 which are connected in series; the second shunt is a second current transformer 12 and a second output air switch 15 which are connected in series; the third shunt is a third current transformer 13 and a third output air switch 16 which are connected in series;

the signal wires of the main input current transformer 10, the first current transformer 11, the second current transformer 12 and the third current transformer 13 are connected into the 5G intelligent ammeter 8; the first output air gap, the second output air gap and the third output air gap supply power to base station equipment of three operators respectively.

For example; the first output air switch supplies power to the mobile base station equipment, the second output air switch supplies power to the base station equipment of the telecommunication, and the third output air switch supplies power to the base station equipment of the communication.

The shared co-building 5G intelligent distribution box provided by the utility model can supply power to base station equipment of three operators only by building one distribution box, the electricity charge of each operator can be measured independently, all acquired data can be transmitted to a remote monitoring platform through 5G wireless, and the three operators adopt a shared co-building mode, so that the investment cost of the operators is reduced, and resources are saved.

The components of the utility model are all of the prior art and are available commercially.

Finally, it should be noted that the above list is only specific embodiments of the present utility model. Obviously, the utility model is not limited to the above embodiments, but many variations are possible. All modifications directly derived or suggested to one skilled in the art from the present disclosure should be considered as being within the scope of the present utility model.

Claims (5)

1. The shared co-construction 5G intelligent distribution box comprises a box body (2) provided with a box door (1); the method is characterized in that: an electric mounting plate (4) is arranged in the box body, and an electric assembly is arranged on the electric mounting plate; the electrical component comprises an input air switch (5), a surge protection air switch (6), a surge protector (7), a 5G intelligent ammeter (8), a main input current transformer (10), a first current transformer (11), a second current transformer (12), a third current transformer (13), a first output air switch (14), a second output air switch (15) and a third output air switch (16); a mushroom head antenna (9) is arranged on the right side of the box body; n rows (17) and PE rows (18) are also arranged in the box body.

2. The shared co-construction 5G intelligent distribution box of claim 1, wherein: the input air switch (5), the surge protection air switch (6), the surge protector (7) and the 5G intelligent ammeter (8) are arranged on the upper part of the electric mounting plate; the main input current transformer (10), the first current transformer (11), the second current transformer (12) and the third current transformer (13) are arranged in the middle of the electric installation plate; the first output air gap (14), the second output air gap (15) and the third output air gap (16) are arranged at the lower part of the electric mounting plate.

3. The shared co-construction 5G intelligent distribution box of claim 2, wherein: the N rows (17) and the PE rows (18) are arranged below the electric mounting plate.

4. The shared co-construction 5G intelligent distribution box of claim 3, wherein: the backboard of the box body is provided with a first connecting hole (2-1); the bottom plate of the box body is provided with a plurality of second connecting holes (2-2) and a plurality of wire holes (19).

5. The shared co-building 5G intelligent distribution box of claim 4, wherein: the backboard of the box body is riveted with a plurality of blind nut columns (2-3) for installing the electric installation plate and a plurality of nut columns (2-4) for installing N rows (17) and PE rows (18).