CN215639581U - 5G base station battery data acquisition pencil - Google Patents

Abstract

The utility model discloses a 5G base station battery data acquisition harness, which comprises: the temperature acquisition wire harness comprises a temperature acquisition main plug, a plurality of temperature acquisition wires connected with the temperature acquisition main plug and a temperature acquisition terminal connected with the temperature acquisition wires and connected with a temperature sensor; the voltage acquisition wire harness comprises a voltage acquisition main plug, a plurality of voltage acquisition wires connected with the voltage acquisition main plug and a voltage acquisition terminal connected with the voltage acquisition wires and connected with the battery; the extended function acquisition wire harness comprises a twisted pair formed by twisting two wires in pair, and a first extended function terminal and a second extended function terminal which are connected to two ends of the twisted pair; the temperature acquisition wire, the voltage acquisition wire and the pair of twisted wires are integrated together and are wound and fixed through the acetic acid adhesive tape to form a wire harness group, and the temperature acquisition main plug, the temperature acquisition terminal, the voltage acquisition main plug, the voltage acquisition terminal, the first extended function terminal and the second extended function terminal are distributed outside the wire harness group.

Description

5G base station battery data acquisition pencil

The technical field is as follows:

the utility model relates to the technical field of wire harness acquisition, in particular to a 5G base station battery data acquisition wire harness.

Background art:

the 5G base station is a core device of the 5G network, and provides wireless coverage to realize wireless signal transmission between the wired communication network and the wireless terminal. The architecture and morphology of the base station directly affect how the 5G network is deployed. In the technical standard, the frequency band of 5G is much higher than that of 2G, 3G and 4G networks, and the 5G network mainly works in the frequency band of 3000-5000MHz at present. The base station density of a 5G network will be higher since the higher the frequency, the greater the attenuation in the signal propagation.

The battery box is an essential component of the 5G base station, the voltage of the battery box is improved by serially and/or parallelly connecting a plurality of battery packs or battery packs, and the battery management module monitors the voltage, the temperature and other data of the battery through a battery data acquisition wiring harness so as to manage the battery box, ensure the use safety and provide the power supply capacity and efficiency.

However, the existing battery data acquisition wire harness has the phenomenon of multiple and scattered wires, and the phenomenon of wrong connection of the battery data acquisition wire harness is easy to occur in the assembling process of the battery box, so that great trouble is caused to users.

In view of the above, the present invention proposes the following technical solutions.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides a 5G base station battery data acquisition wire harness.

In order to solve the technical problems, the utility model adopts the following technical scheme: this 5G basic station battery data acquisition pencil includes: the temperature acquisition wire harness comprises a temperature acquisition main plug, a plurality of temperature acquisition wires which are connected with the temperature acquisition main plug and form wire conduction, and a temperature acquisition terminal connected with the end part of the temperature acquisition wires, wherein the temperature acquisition terminal is connected with a temperature sensor; the voltage acquisition wire harness comprises a voltage acquisition main plug, a plurality of voltage acquisition wires which are connected with the voltage acquisition main plug and form electric conduction, and a voltage acquisition terminal connected with the end part of the voltage acquisition wires, wherein the voltage acquisition terminal is connected with a battery; the system comprises an extended function acquisition wire harness, a first extension function terminal and a second extension function terminal, wherein the extended function acquisition wire harness comprises a twisted pair formed by twisting two wires, the first extension function terminal is connected to one end of the twisted pair, and the second extension function terminal is connected to the other end of the twisted pair; the temperature acquisition lead, the voltage acquisition lead and the pair of twisted wires are integrated together and are wound and fixed through an acetic acid adhesive tape to form a wire harness group, and the temperature acquisition main plug, the temperature acquisition terminal, the voltage acquisition main plug, the voltage acquisition terminal, the first extended function terminal and the second extended function terminal are all distributed outside the wire harness group; the temperature acquisition main plug and the voltage acquisition main plug are inserted on the mainboard.

Further, in the above technical solution, a first heat-shrinkable tube is fixedly sleeved between the end of the temperature acquisition conductor and the temperature acquisition terminal, and a first number mark is printed on the outer surface of the first heat-shrinkable tube; and a second heat-shrinkable sleeve is fixedly sleeved between the end part of the voltage acquisition conductor and the voltage acquisition terminal, and a second number mark is printed on the outer surface of the second heat-shrinkable sleeve.

Furthermore, in the above technical solution, the temperature acquisition terminal includes a first main body portion, a first ring guiding portion formed at a front end of the first main body portion, and a first wire clamping portion formed at a rear end of the first main body portion, the first ring guiding portion has a first hole site for a screw or a conductive post to pass through, the first wire clamping portion clamps a first metal wire core of the temperature acquisition wire and is fixed by welding through a first soldering tin, and a first insulating glue is further coated on the first wire clamping portion, the first metal wire core, and the first soldering tin.

Furthermore, in the above technical solution, the voltage collecting terminal includes a second main body portion, a second ring guiding portion formed at a front end of the second main body portion, and a second wire clamping portion formed at a rear end of the second main body portion, the second ring guiding portion has a second hole for a screw or a conductive post to pass through, the second wire clamping portion clamps and fixes a second metal wire core of the voltage collecting wire, and is fixed by welding through a second solder, and a second insulating glue is further coated outside the second wire clamping portion, the second metal wire core, and the second solder.

Furthermore, in the above technical solution, the first extended function terminal includes a third main body portion, a third ring guiding portion formed at a front end of the third main body portion, and a third wire clamping portion formed at a rear end of the third main body portion, the third ring guiding portion has a third hole through which the screw or the conductive post passes, the third wire clamping portion clamps and fixes a third metal wire core in the twisted pair wire, and is fixed by welding the third wire clamping portion with the third metal wire core and the third solder, and the third wire clamping portion, the third metal wire core, and the third solder are further coated with a third insulating glue.

In the above-described aspect, the second extended function terminal has the same structure as the first extended function terminal.

Furthermore, in the above technical scheme, a first UV glue is further poured between the temperature acquisition wire and the temperature acquisition main plug, so that the temperature acquisition wire and the temperature acquisition main plug are fixed into a whole.

Furthermore, in the above technical scheme, a second UV glue is further poured between the voltage acquisition wire and the voltage acquisition main plug, so that the voltage acquisition wire and the voltage acquisition main plug are fixed into a whole.

After adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: the utility model integrates three different wire harnesses which are respectively a temperature acquisition wire harness, a voltage acquisition wire harness and an extended function acquisition wire harness, wherein the temperature acquisition wire harness is used for detecting the temperature data of one or more groups of batteries in a G base station and transmitting the temperature data to a mainboard through a temperature acquisition main plug; the voltage acquisition wiring harness is used for detecting voltage and current data of one or more groups of batteries in the G base station and transmitting the data to the mainboard through the voltage acquisition main plug; other data of the battery can be acquired through the extended function acquisition wire harness, so that the aim of multifunctional data acquisition is fulfilled; moreover, the temperature acquisition main plug, the temperature acquisition terminal, the voltage acquisition main plug, the voltage acquisition terminal, the first extended function terminal and the second extended function terminal are all distributed outside the wire harness group, so that the operation and the use are convenient; in addition, the temperature acquisition wires in the temperature acquisition wire harness, the voltage acquisition wires in the voltage acquisition wire harness and the twisted pairs of the extended function acquisition wire harness are wound and fixed together through the acetic acid adhesive tape to form the wire harness group, so that the phenomenon of multiple and scattered wires is avoided, and the use is more convenient.

Description of the drawings:

FIG. 1 is a front view of the present invention;

FIG. 2 is an assembly view of the temperature acquisition terminal of the present invention;

FIG. 3 is an assembly view of the voltage acquisition terminal of the present invention;

fig. 4 is an assembly view of the first extended function terminal of the present invention.

The specific implementation mode is as follows:

the utility model is further illustrated below with reference to specific embodiments and the accompanying drawings.

As shown in fig. 1-4, a 5G base station battery data acquisition harness is provided, which includes: the temperature acquisition wiring harness 1 comprises a temperature acquisition total plug 11, a plurality of temperature acquisition conducting wires 12 which are connected with the temperature acquisition total plug 11 and form conducting wire conduction, and a temperature acquisition terminal 13 connected with the end part of the temperature acquisition conducting wires 12, wherein the temperature acquisition terminal 13 is connected with a temperature sensor; the voltage acquisition wiring harness 2 comprises a voltage acquisition main plug 21, a plurality of voltage acquisition conducting wires 22 which are connected with the voltage acquisition main plug 21 and form electrical conduction, and a voltage acquisition terminal 23 connected with the end part of the voltage acquisition conducting wires 22, wherein the voltage acquisition terminal 23 is connected with a battery; an extended function acquisition harness 3 including a twisted pair 31 formed by twisting two wires, a first extended function terminal 32 connected to one end of the twisted pair 31, and a second extended function terminal 33 connected to the other end of the twisted pair 31; the temperature acquisition lead 12, the voltage acquisition lead 22 and the twisted pair 31 are integrated together and are wound and fixed through an acetic acid adhesive tape 101 to form a wire harness group 100, and the temperature acquisition main plug 11, the temperature acquisition terminal 13, the voltage acquisition main plug 21, the voltage acquisition terminal 23, the first extended function terminal 32 and the second extended function terminal 33 are distributed outside the wire harness group; the temperature acquisition main plug 11 and the voltage acquisition main plug 21 are inserted on the mainboard. The utility model integrates three different wiring harnesses which are respectively a temperature acquisition wiring harness 1, a voltage acquisition wiring harness 2 and an extended function acquisition wiring harness 3, wherein the temperature acquisition wiring harness 1 is used for detecting the temperature data of one or more groups of batteries in a 5G base station and transmitting the temperature data to a mainboard through a temperature acquisition assembly plug 11; the voltage acquisition wiring harness 2 is used for detecting voltage and current data of one or more groups of batteries in the 5G base station and transmitting the data to a mainboard through a voltage acquisition lump plug 21; and can also gather other data of the battery through the acquisition wire harness 3 of the expanded function, in order to realize the purpose of the multi-functional data acquisition; moreover, the temperature acquisition total plug 11, the temperature acquisition terminal 13, the voltage acquisition total plug 21, the voltage acquisition terminal 23, the first extended function terminal 32 and the second extended function terminal 33 are all distributed outside the wire harness group, so that the operation and the use are convenient; in addition, the temperature acquisition conducting wire 12 in the temperature acquisition wiring harness 1, the voltage acquisition conducting wire 22 of the voltage acquisition wiring harness 2 and the twisted pair wire 31 of the extended function acquisition wiring harness 3 are wound and fixed together through the acetate tape to form a wiring harness group, so that the phenomenon of multiple and scattered conducting wires is avoided, and the use is more convenient.

A first heat-shrinkable tube 121 is fixedly sleeved between the end part of the temperature acquisition lead 12 and the temperature acquisition terminal 13, a first number mark 122 is printed on the outer surface of the first heat-shrinkable tube 121, and the assembly can be accurately realized through the first number mark 122, so that the phenomenon of inaccurate information acquisition caused by connection errors is avoided, the accurate information acquisition is ensured, and the battery is safer and more reliable to use; the second heat-shrinkable tube 221 is fixedly sleeved between the end part of the voltage acquisition wire 22 and the voltage acquisition terminal 23, the second number identification 222 is printed on the outer surface of the second heat-shrinkable tube 221, the assembly can be accurately realized through the second number identification 222, the phenomenon that the information acquisition is inaccurate due to the occurrence of connection errors is avoided, the accuracy of the information acquisition is ensured, and the battery is ensured to be used more safely and reliably.

The temperature collecting terminal 13 includes a first main body 131, a first ring guiding portion 132 formed at the front end of the first main body 131, and a first wire clamping portion formed at the rear end of the first main body 131, wherein the first ring guiding portion 132 has a first hole 130 for a screw or a conductive post to pass through, so that the assembly is more convenient, and the assembly of the temperature sensor and the first ring guiding portion 132 can be better realized. This first wire clamping portion package presss from both sides the first metal sinle silk of fixed temperature acquisition wire 12 to through first soldering tin welded fastening, guarantee the stability of connecting, and this first wire clamping portion still coats with the outside of first metal sinle silk and first soldering tin and has first insulating cement, further improve the stability of structure, and this first insulating cement periphery is located to first heat shrinkage bush 121 cover, and its structure is more firm.

The voltage collecting terminal 23 includes a second main body 231, a second ring guiding part 232 formed at the front end of the second main body 231, and a second wire clamping part formed at the rear end of the second main body 231, wherein the second ring guiding part 232 has a second hole 230 for a screw or a conductive post to pass through, so that the second ring guiding part 232 can be directly sleeved on the conductive post of the battery and is fastened through a nut. The second wire clamping portion clamps the second metal wire core of the voltage acquisition conducting wire 22 and is welded and fixed through second soldering tin, the second wire clamping portion, the second metal wire core and the second soldering tin are coated with second insulating glue, the stability of the structure is further improved, the second insulating glue is sleeved with the second heat-shrinkable sleeve 221, and the structure is firmer.

The first extended function terminal 32 includes a third main body 321, a third ring guiding and connecting portion 322 formed at the front end of the third main body 321, and a third wire clamping portion formed at the rear end of the third main body 321, the third ring guiding and connecting portion 322 has a third hole 320 through which a screw or a conductive post passes, the third wire clamping portion clamps and fixes a third metal wire core in the twisted pair wire 31, and is welded and fixed by a third soldering tin, and a third insulating glue is further coated outside the third wire clamping portion, the third metal wire core and the third soldering tin.

The second extended function terminal 33 has the same structure as the first extended function terminal 32.

First UV glue 120 is further poured between the temperature acquisition lead 12 and the temperature acquisition main plug 11, so that the temperature acquisition lead 12 and the temperature acquisition main plug 11 are fixed into a whole, the waterproof effect is achieved, and the stability of an assembly structure can be guaranteed.

And a second UV glue 220 is also poured between the voltage acquisition lead 22 and the voltage acquisition main plug 21, so that the voltage acquisition lead 22 and the voltage acquisition main plug 21 are fixed into a whole, the waterproof effect is achieved, and the stability of an assembly structure can be ensured.

In summary, the present invention integrates three different harnesses, which are respectively a temperature acquisition harness 1, a voltage acquisition harness 2, and an extended function acquisition harness 3, wherein the temperature acquisition harness 1 is used to detect temperature data of one or more groups of batteries in a 5G base station, and transmit the temperature data to a motherboard through a temperature acquisition lump plug 11; the voltage acquisition wiring harness 2 is used for detecting voltage and current data of one or more groups of batteries in the 5G base station and transmitting the data to a mainboard through a voltage acquisition lump plug 21; and can also gather other data of the battery through the acquisition wire harness 3 of the expanded function, in order to realize the purpose of the multi-functional data acquisition; moreover, the temperature acquisition total plug 11, the temperature acquisition terminal 13, the voltage acquisition total plug 21, the voltage acquisition terminal 23, the first extended function terminal 32 and the second extended function terminal 33 are all distributed outside the wire harness group, so that the operation and the use are convenient; in addition, the temperature acquisition conducting wire 12 in the temperature acquisition wiring harness 1, the voltage acquisition conducting wire 22 of the voltage acquisition wiring harness 2 and the twisted pair wire 31 of the extended function acquisition wiring harness 3 are wound and fixed together through the acetate tape to form a wiring harness group, so that the phenomenon of multiple and scattered conducting wires is avoided, and the use is more convenient.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (8)

1. The utility model provides a 5G basic station battery data acquisition pencil which characterized in that: it includes:

the temperature acquisition wiring harness (1) comprises a temperature acquisition main plug (11), a plurality of temperature acquisition conducting wires (12) which are connected with the temperature acquisition main plug (11) and form conducting wire conduction, and a temperature acquisition terminal (13) connected with the end parts of the temperature acquisition conducting wires (12), wherein the temperature acquisition terminal (13) is connected with a temperature sensor;

the voltage acquisition wire harness (2) comprises a voltage acquisition main plug (21), a plurality of voltage acquisition conducting wires (22) which are connected with the voltage acquisition main plug (21) and form electric conduction, and voltage acquisition terminals (23) which are connected with the end parts of the voltage acquisition conducting wires (22), wherein the voltage acquisition terminals (23) are connected with a battery;

the expanded function acquisition wire harness (3) comprises a twisted pair (31) formed by twisting two wires, a first expanded function terminal (32) connected to one end of the twisted pair (31) and a second expanded function terminal (33) connected to the other end of the twisted pair (31);

the temperature acquisition conducting wire (12), the voltage acquisition conducting wire (22) and the twisted pair wire (31) are integrated together and are wound and fixed through an acetic acid adhesive tape (101) to form a wire harness group (100), and the temperature acquisition main plug (11), the temperature acquisition terminal (13), the voltage acquisition main plug (21), the voltage acquisition terminal (23), the first extended function terminal (32) and the second extended function terminal (33) are distributed outside the wire harness group; the temperature acquisition lumped plug (11) and the voltage acquisition lumped plug (21) are inserted on the mainboard.

2. The 5G base station battery data acquisition harness according to claim 1, wherein: a first heat-shrinkable sleeve (121) is fixedly sleeved between the end part of the temperature acquisition lead (12) and the temperature acquisition terminal (13), and a first number mark (122) is printed on the outer surface of the first heat-shrinkable sleeve (121); a second heat-shrinkable tube (221) is fixedly sleeved between the end part of the voltage acquisition lead (22) and the voltage acquisition terminal (23), and a second number mark (222) is printed on the outer surface of the second heat-shrinkable tube (221).

3. The 5G base station battery data acquisition harness according to claim 2, wherein: the temperature acquisition terminal (13) comprises a first main body part (131), a first ring guide connection part (132) formed at the front end of the first main body part (131) and a first wire clamping part formed at the rear end of the first main body part (131), the first ring guide connection part (132) is provided with a first hole (130) for a screw or a conductive post to pass through, the first wire clamping part wraps a first metal wire core for clamping and fixing the temperature acquisition wire (12) and is fixed by welding first soldering tin, and the first wire clamping part, the first metal wire core and the first soldering tin are coated with first insulating glue.

4. A 5G base station battery data acquisition harness according to any of claims 1-3, wherein: the voltage acquisition terminal (23) comprises a second main body part (231), a second circular ring guide connection part (232) formed at the front end of the second main body part (231) and a second wire clamping part formed at the rear end of the second main body part (231), the second circular ring guide connection part (232) is provided with a second hole (230) for a screw or a conductive post to penetrate through, the second wire clamping part clamps and fixes a second metal wire core of the voltage acquisition wire (22) and is fixed by welding second soldering tin, and second insulating glue is further coated outside the second wire clamping part, the second metal wire core and the second soldering tin.

5. A 5G base station battery data acquisition harness according to any of claims 1-3, wherein: the first extended function terminal (32) comprises a third main body part (321), a third ring guide part (322) formed at the front end of the third main body part (321) and a third wire clamping part formed at the rear end of the third main body part (321), the third ring guide part (322) is provided with a third hole (320) for a screw or a conductive post to pass through, the third wire clamping part clamps and fixes a third metal wire core in the twisted pair wire (31) and is welded and fixed through third soldering tin, and the third wire clamping part, the third metal wire core and the third soldering tin are coated with third insulating glue.

6. The 5G base station battery data acquisition harness according to claim 5, wherein: the second extended function terminal (33) has the same structure as the first extended function terminal (32).

7. A 5G base station battery data acquisition harness according to any of claims 1-3, wherein: and a first UV glue (120) is also poured between the temperature acquisition lead (12) and the temperature acquisition master plug (11), so that the temperature acquisition lead (12) and the temperature acquisition master plug (11) are fixed into a whole.

8. A 5G base station battery data acquisition harness according to any of claims 1-3, wherein: and a second UV glue (220) is also poured between the voltage acquisition conducting wire (22) and the voltage acquisition main plug (21), so that the voltage acquisition conducting wire (22) and the voltage acquisition main plug (21) are fixed into a whole.

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