Background
The base station technology is a special comprehensive technology for researching conversion, recording, transmission and storage of network signals, and can be more convenient for the life of people. But present most basic station function singleness, if need satisfy different functional need just need adorn different equipment, the model size makes the installation loaded down with trivial details, and is inconvenient, just fixes after the installation moreover, the dismouting of being inconvenient for is changed. It is therefore important to have a base station that can modularly standardize the functional devices and that can be more easily disassembled and replaced.
For example, utility model patent grant publication No. CN207011172U, publication day 2018 year 2 month 13 day, utility model's name is a configurable base station structure of vehicular, and this application discloses a configurable base station structure of vehicular, include: the system comprises a TDD-LTE base station, an FDD-LTE base station, a power supply unit, a heat dissipation unit and a vehicle-mounted plug box; the TDD-LTE base station, the FDD-LTE base station and the power supply unit are respectively inserted into the vehicle-mounted plug box, and the TDD-LTE base station, the FDD-LTE base station and the power supply unit are connected through communication cables and power supply lines; the heat dissipation unit is arranged at the rear part of the vehicle-mounted plug box and is connected with the power supply unit through a power line; the vehicle-mounted plug box is installed in a trunk of the vehicle. The utility model discloses a although realized the installation of a plurality of modular components, the installation is inflexible, too fixes, and the required fan of heat dissipation is also too much, and it is big to consume energy.
Disclosure of Invention
The invention overcomes the problems that a base station is complex and inconvenient to install a multifunctional module and is not beneficial to disassembly and assembly in the prior art, and provides a plug-in structure of a multimode combined base station, which is used for equipment modularized installation and is easier to disassemble, assemble and replace.
In order to achieve the above purpose, the invention is realized by the following technical scheme:
a plug-in structure of a multi-module combined base station is arranged on a module mounting shell of the base station and comprises a functional clamping piece assembly and a power supply clamping piece assembly; the functional clamping piece assembly comprises two or more functional clamping pieces which are symmetrically arranged on the module mounting shell and used for mounting the functional module; the power supply clamping piece assembly comprises two or more power supply clamping pieces which are symmetrically arranged on the module mounting shell and used for mounting the power supply module; the functional clamping piece and the power clamping piece comprise fixing devices and lock catches arranged on the two fixing devices; the functional module and the power module are provided with clamping grooves for placing the lock catches; the fixing device is fixed on the module mounting shell, and the lock catch is rotationally connected to the fixing device; when the lock catch rotates relative to the fixing device, the lock tongue of the lock catch can fix or unlock the functional module and the power supply module.
The functional module is well fixed by the functional clamping piece assembly, and the functional module is convenient to disassemble and assemble. The power supply clamping piece assembly well fixes the power supply module, and more clamping pieces enable the power supply module with higher height to be better fixed and also facilitate disassembly and assembly. Functional module and power module both sides all are equipped with the draw-in groove of placing the hasp, have realized the modularization installation of equipment. The fixing device improves the stability of the function clamping piece and the power supply clamping piece. The lock catch is rotatably connected between the fixing devices, so that the functional module and the power module can be conveniently mounted and dismounted.
Preferably, the function card assembly is arranged above the power supply card assembly.
Set up like this and make when installing, functional module is in the power module top, and the functional module of being convenient for is closer to the antenna position of basic station, the wiring of being convenient for.
Preferably, the length of the functional clamping piece is half of the width of the functional module, and the clamping groove of the functional module is arranged in the middle of the side face of the functional module.
The functional module is better fixed, so that the functional module is not easy to separate from the clamping piece due to gravity.
Preferably, the length of the power supply clamping piece is half of the width of the power supply module, and the clamping groove of the power supply module is arranged in the middle of the side face of the functional module.
The power module is better fixed and is not easy to move due to the arrangement.
Preferably, the distance between the two functional clamping pieces of the functional clamping piece assembly is 0.3-0.7cm longer than the length of the functional module.
So that the functional module has a placing space during installation and is convenient to disassemble.
Preferably, the transverse distance between the two power cards of the power card assembly is 0.3-0.7cm longer than the length of the power module. .
The power module has a placing space during installation, and is convenient to disassemble.
Preferably, the distance between the adjacent functional clamping pieces in the vertical direction is 4-6 cm. .
This facilitates heat dissipation and wiring between the functional modules.
Preferably, the distance between adjacent power supply clamping pieces in the vertical direction is 8-12 cm.
This facilitates heat dissipation and wiring between the power modules.
Preferably, the module mounting housing is provided with two wiring channels at the outer side of the functional card assembly.
The arrangement of the wiring grooves facilitates the arrangement of wires, reduces the electromagnetic interference between the wires, and facilitates the disassembly and assembly of the functional module and the power module.
Preferably, the wiring grooves are uniformly provided with wire clamps.
The wire clamp can better fix the electric wire and prevent the electric wire from winding.
Compared with the prior art, the utility model has the advantages that:
(1) the functional module is well fixed by the functional clamping piece modules of the two functional clamping pieces, and the functional module is convenient to disassemble and assemble. The power supply clamping piece modules of the two power supply clamping pieces can well fix the power supply module, and more clamping pieces can better fix the power supply module with higher height and facilitate disassembly and assembly. The fixing device also improves the stability of the function clamping piece and the power supply clamping piece.
(2) Functional module and power module both sides all are equipped with the draw-in groove of the hasp of placing the fastener, have realized the modularization installation of equipment.
(3) The function fastener subassembly sets up in power fastener subassembly top for during the installation, the function module is in the power module top, and the function module of being convenient for is closer to the antenna position of basic station, the wiring of being convenient for.
(4) The functional clamping piece of the functional clamping piece component is half of the width of the functional module, and the clamping groove of the functional module is arranged in the middle of the side face of the functional module, so that the functional module is not easy to separate from the clamping piece due to gravity. The power supply clamping piece of the power supply clamping piece component is half of the width of the power supply module, the clamping grooves of the power supply module are arranged in the middle of the side face of the functional module, and the two clamping grooves on one side are uniformly arranged on the height of the functional module, so that the power supply module is not easy to move.
(5) The distance between the two functional clamping pieces of the functional clamping piece component is 0.3-0.7cm longer than the length of the functional module. The transverse distance between every two of the four power cards of the power card assembly is 0.3-0.7cm longer than the length of the power module. The functional module and the power module have a placing space during installation, and are convenient to disassemble.
(6) The distance between the functional card assembly components in the vertical direction is 4-6cm, so that heat dissipation and wiring between the functional modules are facilitated. The distance between the power supply clamping piece assemblies in the vertical direction is 8-12cm, so that heat dissipation and wiring between power supply modules are facilitated.
(7) The module mounting shell is provided with two wiring grooves on the outer side of the functional clamping piece assembly, and the wiring grooves are uniformly provided with wire clamps. The arrangement of the electric wires is convenient, the electromagnetic interference among the electric wires is reduced, and the functional module and the power module are convenient to disassemble and assemble.
Detailed Description
The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.
As shown in fig. 1 and 2, a plug-in structure of a multi-module combination base station is arranged on a module mounting housing 1 of the base station and comprises a functional card assembly and a power supply card assembly; the functional clamping piece assembly comprises two or more functional clamping pieces 2 which are symmetrically arranged on the module mounting shell 1 and used for mounting the functional module 9; the power supply clamping piece assembly comprises two or more power supply clamping pieces 3 which are symmetrically arranged on the module mounting shell 1 and used for mounting the power supply module 10; the functional clamping piece 2 and the power clamping piece 3 both comprise fixing devices and lock catches 5 arranged on the two fixing devices; the functional module 9 and the power module 10 are both provided with a clamping groove 6 for placing the lock catch 5; the fixing device is fixed on the module mounting shell 1, and the lock catch 5 is rotationally connected to the fixing device; when the lock catch 5 rotates relative to the fixing device, the lock tongue of the lock catch 5 can fix or unlock the functional module 9 and the power module 10.
The functional module 9 is well fixed by the functional clamping piece assembly, and the functional module 9 is convenient to disassemble and assemble. The power supply clamping piece assembly well fixes the power supply module 10, and more clamping pieces enable the power supply module 10 with higher height to be better fixed and are convenient to disassemble and assemble. Functional module 9 and power module 10 all are equipped with the draw-in groove 6 of placing hasp 5, have realized the modularization installation of equipment. The fixing device improves the stability of the function clamping piece 2 and the power supply clamping piece 3. The lock catch 5 is rotatably connected between the fixing devices, so that the functional module 9 and the power module 10 can be conveniently mounted and dismounted.
The functional clamping piece assemblies for installing the functional modules 9 are arranged above the power clamping piece assemblies for installing the power supply modules 10, so that the functional modules 9 are arranged above the power supply modules 10 during installation, the functional modules 9 are close to the antenna position of the base station, and wiring is facilitated.
The functional clamping piece assembly comprises two symmetrically arranged functional clamping pieces 2, and each functional clamping piece 2 comprises a fixing device and a lock catch 5 arranged on the fixing device. The fixing means may be one or more fixing blocks 4, here two fixing blocks 4 are used, said catch 5 being arranged between the two fixing blocks 4. Two fixed blocks 4 have improved the steadiness of function fastener 2. The function clamping piece 2 is made of aluminum section, has higher rigidity and is welded on the module installation shell 1. The length of the functional clamping piece 2 is half of the width of the functional module 9, and the clamping groove 6 of the functional module 9 is arranged in the middle of the side surface of the functional module 9, so that the functional module 9 is not easy to separate from the clamping piece due to gravity. The distance between the two functional clamping pieces 2 of the functional clamping piece assembly is 0.5cm longer than the length of the functional module 9, so that the functional module 9 has a placing space during installation and is convenient to disassemble. The distance between the adjacent functional clamping pieces 2 in the vertical direction is 5 cm. This facilitates heat dissipation and wiring between the functional modules 9.
The power supply clamping part assembly comprises four power supply clamping parts 3 which are symmetrically arranged in pairs, and each power supply clamping part 3 comprises two fixing blocks 4 and a lock catch 5 arranged in the middle of each fixing block 4. Two fixed blocks 4 have improved the steadiness of power fastener 3. The power supply clamping piece 3 is made of aluminum profiles, has higher rigidity and is welded on the module mounting shell 1. The length of the power supply clamping piece 3 is half of the width of the power supply module 10, the clamping grooves 6 of the power supply module 10 are arranged in the middle of the side face of the functional module 9, and the two clamping grooves 6 on one side are uniformly arranged on the height of the functional module 9, so that the power supply module 10 is better fixed and is not easy to move. The transverse distance between the two power supply clamping pieces 3 of the power supply clamping piece component is 0.5cm longer than the length of the power supply module 10. So that the power module 10 has a space for placing when being installed, and is convenient to disassemble. The distance between adjacent power supply clamping pieces 3 in the vertical direction is 10cm, so that heat dissipation and wiring between the power supply modules 10 are facilitated.
The module installation shell 1 is provided with two wiring grooves 7 on the outer side of the functional clamping piece assembly. The wiring grooves 7 comprise strong-current wiring grooves and network cable wiring grooves. The strong-current wiring slot is mainly used for placing electric wires connected with the power supply module 10, and the network cable wiring slot is mainly used for placing network cables connected with the network ports. The arrangement of the wiring grooves 7 facilitates the arrangement of wires, reduces electromagnetic interference between the wires, and facilitates the disassembly and assembly of the functional modules 9 and the power supply modules 10. And the wiring grooves 7 are uniformly provided with wire clamps 8. The wire clamp 8 can better fix the wire and prevent the wire from winding.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.