CN217423104U - Indicator lamp and base station antenna identification system - Google Patents

Abstract

The utility model relates to the technical field of indicator lamps, in particular to an indicator lamp and base station antenna identification system, which comprises a lamp holder body, a lamp shade body, a lamp source component, a power supply component, a switch and a connecting component, wherein the lamp shade body is buckled on the lamp holder body, the lamp source component comprises a plurality of light source circuit boards, the plurality of light source circuit boards are sequentially spliced end to end around the first direction to form a heat dissipation cavity extending along the first direction, the power supply component comprises a voltage stabilizer for providing stable voltage for the lamp source component, the switch is electrically connected with the power supply component and is used for controlling the opening and closing of the lamp source component, the connecting component is arranged on the lamp holder body and is used for fixing the lamp holder body, and simultaneously, because the density of hot air is smaller relative to the density of cold air, the hot air can be rapidly discharged from the interior of the heat dissipation cavity, the phenomenon that the temperature of the local position in the heat dissipation cavity is high is avoided.

Description

Indicator lamp and base station antenna identification system

Technical Field

The utility model relates to an information technology field especially relates to an pilot lamp and base station antenna identification system.

Background

When the indicating lamp in the prior art is used, the light components in the indicating lamp are laminated together, and a sufficient heat dissipation space is not reserved, so that the local temperature of the indicating lamp can be increased after the indicating lamp is used for a long time, and the service life of the indicating lamp is shortened due to overhigh temperature.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an pilot lamp and base station antenna identification system for improve the radiating efficiency of pilot lamp, extension pilot lamp life.

In order to achieve the above purpose, the utility model provides the following technical scheme:

in a first aspect, the utility model provides an indicator lamp, which comprises a lamp holder body, a lampshade body, a lamp source component, a power supply component, a switch and a connecting component;

the lamp shade body is buckled with the lamp holder body and matched with the lamp holder body to form an accommodating cavity, a power supply control panel is arranged in the accommodating cavity to enable the accommodating cavity to be divided into a first accommodating cavity and a second accommodating cavity which are arranged along a first direction, the lamp source assembly is positioned in the first accommodating cavity, the power supply assembly is positioned in the second accommodating cavity, and the power supply assembly is electrically connected with the lamp source assembly through the power supply control panel; the first direction is parallel to the normal direction of the power supply control board;

the light source assembly comprises a plurality of light source circuit boards which are sequentially spliced end to end around the first direction to form a heat dissipation cavity extending along the first direction;

the power supply assembly comprises a voltage stabilizer for providing stable voltage for the lamp source assembly;

the switch is electrically connected with the power supply assembly and used for controlling the on-off of the lamp source assembly;

the connecting assembly is arranged on the lamp holder body and used for fixing the lamp holder body.

The utility model discloses still including being used for waterproof sealing's lamp shade body, and with lamp shade body lock on the lamp stand body, make and form one between the two and hold the chamber, and will be used for luminous lamp source subassembly to set up in the inside that holds the chamber, this can avoid medium such as external rainwater to disturb the normal use of lamp source subassembly to a certain extent, the inside heat dissipation chamber that still is provided with a plurality of light source circuit boards around forming of lamp source subassembly simultaneously, under the effect in heat dissipation chamber, can effectually be when using the lamp source subassembly, the heat that gives off can be discharged from this heat dissipation chamber. Simultaneously because the direction in heat dissipation chamber is extended by the first direction, simultaneously because the density of hot-air is littleer for cold air density, consequently the hot-air can be quick by the inside discharge in heat dissipation chamber, has avoided the emergence of the higher phenomenon of heat dissipation intracavity local position temperature, and coupling assembling's increase can make this application put in-process convenience more in the installation.

Furthermore, the utility model discloses a there is the lamp source subassembly that is used for luminous to install the pilot lamp to the position of waiting to install through coupling assembling, for example: base station, signal tower time, thereby make the utility model discloses when using, can rely on the lamp source subassembly to send striking pilot light for the position of treating artifical maintenance can directly be presented in the staff, and this process is simple, swift, has avoided the staff in daily optimization maintenance process, has the emergence of the difficult, long, the low problem of rate of accuracy of looking for the station.

Optionally, the connection assembly comprises a first magnetic member;

or, the connecting component comprises a first magnetic part and a second magnetic part magnetically connected with the first magnetic part, wherein the first magnetic part is mounted on the lamp holder body.

Optionally, the light source circuit board further comprises a plurality of lamp beads, and each lamp bead is electrically connected with the light source circuit board.

Optionally, the lamp holder body is provided with a plurality of drainage holes, and the drainage holes are communicated with the second accommodating cavity.

Optionally, a wiring groove and a wire outlet hole matched with the wiring groove are formed in the lamp holder body.

Optionally, a clamping assembly is arranged between the lamp holder body and the lampshade body, and the lamp holder body is clamped with the lampshade body through the clamping assembly.

Optionally, the lamp holder body is in threaded connection with the lamp shade body.

Optionally, the outer surface of the lampshade body is provided with refraction ribs.

Optionally, the inner surface of the lampshade body is provided with a light-diffusing plate.

In a second aspect, the utility model provides a base station antenna identification system, including terminal equipment, server, basic station and as above-mentioned arbitrary the pilot lamp, terminal equipment with server signal connection, the basic station with switch signal connection in the pilot lamp, so that the basic station drive the switching of pilot lamp.

Drawings

Fig. 1 is a schematic view of the overall structure in the embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of the lamp holder body without the lampshade body installed therein in the embodiment of the present invention;

fig. 3 is a schematic view of an overall structure of a lamp socket body according to an embodiment of the present invention;

fig. 4 is a top cross-sectional view of the lampshade body in the embodiment of the present invention;

fig. 5 is a schematic diagram of the connection flow of the signal connection module in the embodiment of the present invention;

fig. 6 is a schematic flow chart of a method for identifying a base station antenna according to an embodiment of the present invention.

In the figure: 1-a lampshade body, 11-a refraction rib, 12-a second threaded hole, 2-a lamp holder body, 21-a connecting assembly, 22-a drain hole, 23-an annular retainer ring, 24-a power supply assembly, 25-a power supply control board, 26-a light source circuit board, 27-a lamp bead, 28-a heat dissipation cavity, 29-a switch, 210-a first threaded hole, 211-a positioning bolt hole, 212-an installation bolt hole, 31-a terminal device, 32-a server and 33-a base station.

Detailed Description

The cell corresponding to the antenna needs to be accurately identified in the current network optimization process, and the following 2 problems exist:

in the process of network optimization and maintenance, because the latitude and longitude of the base station are inaccurate, an engineer cannot quickly find the position of the cell antenna to be optimized.

In the process of network optimization and maintenance, because the label number of the antenna is damaged, an engineer or a tower worker cannot correctly identify the antenna corresponding to the optimized cell.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 6, in a first aspect, an embodiment of the present invention provides an indicator light, including a lamp holder body 2, a lampshade body 1, a lamp source assembly, a power supply assembly 24, a switch 29, and a connecting assembly 21;

the lampshade body 1 is buckled on the lamp holder body 2 and is matched with the lamp holder body 2 to form an accommodating cavity, a power supply control panel 25 is arranged in the accommodating cavity to enable the accommodating cavity to be divided into a first accommodating cavity and a second accommodating cavity which are arranged along a first direction, the lamp source component is positioned in the first accommodating cavity, the power supply component 24 is positioned in the second accommodating cavity, and the power supply component 24 is electrically connected with the lamp source component through the power supply control panel 25; wherein the first direction is parallel to the normal direction of the power control board 25;

the light source assembly comprises a plurality of light source circuit boards 26, and the light source circuit boards 26 are sequentially connected end to end around a first direction to form a heat dissipation cavity 28 extending along the first direction;

the switch 29 is electrically connected with the power supply assembly 24 and is used for controlling the on-off of the lamp source assembly;

the connecting assembly 21 is disposed on the socket body 2 for fixing the socket body 2.

The utility model discloses still including being used for waterproof sealing's lamp shade body 1, and with 1 lock of lamp shade body on lamp stand body 2, make and form one between the two and hold the chamber, and will be used for luminous lamp source subassembly to set up in the inside that holds the chamber, this normal use that can avoid medium such as external rainwater to disturb lamp source subassembly to a certain extent, inside a plurality of light source circuit boards 26 that still are provided with of lamp source subassembly simultaneously centers on the heat dissipation chamber 28 that forms, under the effect in heat dissipation chamber 28, can effectually be when using the lamp source subassembly, the heat that gives off can dispel the heat the chamber 28 and discharge from this. Simultaneously because the direction of heat dissipation chamber 28 is extended by the first direction, simultaneously because the density of hot-air is littleer for cold air density, consequently the hot-air can be quick by the inside discharge of heat dissipation chamber 28, has avoided the emergence of the higher phenomenon of the inside local position temperature in heat dissipation chamber 28, and coupling assembling's increase can make this application put in-process convenience more in the installation.

Furthermore, the utility model discloses a there is the lamp source subassembly that is used for luminous to install the pilot lamp to the position of waiting to install through coupling assembling 21, for example: basic station 33, signal tower, thereby make the utility model discloses when using, can rely on the lamp source subassembly to send striking pilot light for treat that the position that artifical the maintenance can directly be presented in the staff and come, this process is simple, swift, has avoided the staff in daily optimization maintenance process, has the emergence of finding the station difficult, long, the low problem of rate of accuracy.

In the mode that a probably realized, as shown in fig. 1, 1 surface of lamp shade body is provided with refraction muscle 11, and this application will refract muscle 11 annular around setting up at 1 surface of lamp shade body, and the number of refraction muscle 11 is many simultaneously to can guarantee to carry out even reflection, scattering by the light that the lamp source subassembly sent, and increase the reflection area of light, improve the degree of discerning of light.

In a possible way, the inner surface of the lampshade body 1 is provided with a light diffusion plate, such as: this application is provided with the scattered board of rhombus with 1 internal surface of lamp shade body for 1 internal surface of lamp shade body can be with the irregular scattering of light that the lamp source subassembly sent, and simultaneously under a plurality of rhombus scattered board's effect, the continuous scattering between adjacent rhombus scattered board that light can last, and then the light that sends the lamp source subassembly infinitely tends to the homogenization, has improved the utilization efficiency of light.

In a possible implementation manner, the power supply module 24 includes a voltage stabilizer for providing a stable voltage for the lamp source module, and therefore in the above structure, since the present application is difficult to achieve continuous stabilization of the input voltage within a certain range when in use, the voltage stabilizer is used for converting various external different input voltages into appropriate voltage supplies, providing appropriate voltage and current for the light source and the control circuit, ensuring normal lighting and effective control of the light source, and meanwhile, the power supply module 24 adopts a DC-DC BUCK-BOOST voltage-boosting modular design, thereby increasing the reliability of the power supply.

In some embodiments, the connecting component 21 includes a first magnetic component, and when in use, the first magnetic component is, for example, a magnet, so in the above structure, when the present application is applied to a metal surface such as a ferrous product, the first magnetic component can magnetically attract the lamp holder body 2 to a surface to be installed firmly under the action of its own magnetic force, and the installation process is fast and effective only through a simple magnetic attraction effect, and can be widely applied to the metal surface such as the ferrous product;

illustratively, the connection assembly 21 includes a first magnetic member and a second magnetic member magnetically connected to the first magnetic member, wherein the first magnetic member is mounted on the socket body 2, and on the premise that the first magnetic member is a magnet, the second magnetic member can be other suction cup-shaped adsorbing members, adhesive members, and the like, for example, when the second magnetic member is a double-sided adhesive tape, when the magnet of the first magnetic member is applied to a surface that is not magnetically adsorbable to the magnet, the socket body 2 can be adhered to the surface to be adsorbed by the second magnetic member of the double-sided adhesive tape.

In a possible implementation manner, as shown in fig. 2, the light source circuit board 26 further includes a plurality of lamp beads 27, and each lamp bead 27 is electrically connected to the light source circuit board 26.

Can know in the picture, the number of lamp pearl 27 is a plurality of and evenly distributed in light source circuit board 26 and keeps away from a side surface of heat dissipation chamber 28 to can make the light that lamp pearl 27 sent can be full of to the inside of lamp shade body 1, simultaneously when the in-process that uses, lamp pearl 27 optional multiple model lamp pearl 27.

In one possible embodiment: the DIP4mm lamp beads 27 are selected as the lamp beads 27, so that the lamp beads 27 are low-power patch super-bright light-emitting diodes, the power is 0.06W, meanwhile, the size of the lamp beads 27 is 5.8mm multiplied by 8.7mm, but the lamp beads 27 can not realize the parameter effect of completely one to one in production, and errors occur in all the lamp beads 27 in a plurality of the lamp beads 27, so that the modification and the variation of the size of the lamp beads 27 belong to the scope of the claims and the equivalent technology thereof, and the application is also intended to include the modifications and the variations;

meanwhile, when the lamp beads 27 are connected in series and parallel on the light source circuit board 26, the optimal design is performed again, so that the current can be distributed in the circuit more effectively and evenly as much as possible, each lamp bead 27 can be exerted to the maximum, and the brightness is more uniform, therefore, the installation mode not only achieves more uniform current distribution, but also avoids the problems that one lamp bead 27 in the traditional series-parallel mode is damaged, and one string of lamp beads 27 is not bright.

Illustratively, the power supply assembly 24 supplies power to the LED lamp bead 27 and the power supply control board 25, and the power supply control board 25 controls the lamp bead 27 by controlling the on/off of the switch 29 in a pulse width modulation manner, so that the lamp bead 27 is turned on/off at a fixed rule within a certain frequency range to form a flickering effect of the LED identification lamp. The lampshade body 1 is subjected to surface special treatment to form a plurality of diamond-shaped light-diffusing plates with infinite inner walls, the whole lamp is attractive and simple in design, and a good dazzling effect is achieved.

The identification lamp is powered by converting DC 5-30V into DC12V voltage, and is powered by a voltage regulator tube which reduces the voltage to DC 5V. Control LED lamp scintillation device is the triode, through the switch-on and the end of base control collecting electrode and emission stage, by 27 rated current 20mA of every lamp pearl, because LED's VF-IF and temperature characteristic, this application encloses into hexagonal heat dissipation cavity with adjacent light source circuit board 26 simultaneously, guarantees that LED lamp pearl 27 generates heat and radiating effect, and life increases, and it is about 16mA to flow through every lamp pearl 27 with the electric current settlement, forms the luminous discernment lamp of scintillation.

In some embodiments, the socket body 2 has a plurality of drainage holes 22, and the drainage holes 22 are communicated with the second receiving cavity.

In one possible implementation manner, as shown in fig. 3, an annular retaining ring 23 of an integral structure is disposed on the lamp holder body 2, and the diameter of the annular retaining ring 23 is smaller than that of the lamp holder body 2, and meanwhile, positioning bolt holes 211 for mounting the power control board 25 are disposed on the inner side wall of the annular retaining ring 23, so that a slight distance is still provided between the positioning bolt holes 211 and the inner side wall of the annular retaining ring 23, and thus, with this structure, when the power control board 25 is mounted on the annular retaining ring 23 by bolts, a certain gap will exist between the power control board 25 and the annular retaining ring 23, after the lampshade body 1 is mounted on the base body, the outside air in the mounting process still exists inside the lampshade body 1, and a certain amount of water vapor exists in the outside air, and when the lamp beads 27 operate, the water vapor in the air will be condensed into water droplets by the decrease of the outside ambient temperature and the heat generated by the operation of the lamp beads 27, some of the water drops will be adhered to the inner surface of the lampshade body 1, under the action of the gravity of the water drops, the water drops will move in the direction opposite to the first direction, that is, the water drops will move from the first accommodating cavity to the inside of the second accommodating cavity through the gap between the power control board 25 and the annular retainer ring 23, when the other part of the water drops drop drops on the power control board 25, because the surface of the power control board 25 has waterproof performance, the water drops dropping on the power control board 25 will sublimate into vapor under the heat generated by the work of the power control board 25, at this time, because the water drain hole 22 communicated with the outside is arranged inside the second accommodating cavity, the water drops will be discharged from the inside of the second accommodating cavity to the outside environment through the water drain hole 22, the air inside the first accommodating cavity and the second accommodating cavity is ensured to be always kept dry, and simultaneously, when the lamp source assembly and the power source assembly 24 are used, the power supply short circuit phenomenon is caused by the excessively humid environment and water drops.

Offer the erection bolt hole 212 that is used for being connected with coupling assembling 21 on the lamp stand body 2 simultaneously, when coupling assembling 21 installs to the diapire of lamp stand body 2, the bolt can be through erection bolt hole 212 and coupling assembling 21 threaded connection to make coupling assembling 21 can with lamp stand body 2 firm connection, improved the stability of coupling assembling 21 in the installation.

In the mode that one kind probably realized (not shown in the figure), seted up the trough on the lamp stand body 2 and with trough complex wire hole, use through the cooperation of trough with the wire hole for the circuit in this application is arranged and can be more convenient.

In the mode that can realize (not shown in the figure), be provided with the joint subassembly between lamp stand body 2 and the lamp shade body 1, lamp stand body 2 passes through joint subassembly and lamp shade body 1 joint, be provided with joint portion on the lamp shade body 1, simultaneously because the diameter of annular retaining ring 23 is less than the diameter of lamp stand body 2, thereby be provided with the recess with joint portion joint on annular retaining ring 23 global, joint portion can carry out the joint through between recess and the lamp stand body 2, make the connected mode between lamp stand body 2 and the lamp shade body 1 have the variety more.

In some embodiments, the socket body 2 is screwed to the housing body 1.

In a possible implementation mode, as shown in fig. 3 and 4, three first threaded holes 210 are provided on the lamp holder body 2, three second threaded holes 12 are provided on the lamp shade body 1, and the axes of the first threaded holes 210 and the second threaded holes 12 coincide, so that when the lamp holder body 2 and the lamp shade body 1 are installed, bolts can directly penetrate through the first threaded holes 210 and the second threaded holes 12 for threaded connection, and gaps between the lamp holder body 2 and the lamp shade body 1 are reduced to a certain extent.

The embodiments of the present invention are described below in specific configurations:

the first embodiment is as follows:

the lampshade body 1 is buckled on the lamp holder body 2 and matched with the lamp holder body 2 to form an accommodating cavity, a power supply control panel 25 is arranged in the accommodating cavity to enable the accommodating cavity to be divided into a first accommodating cavity and a second accommodating cavity which are arranged along a first direction, the lamp source assembly is positioned in the first accommodating cavity, the power supply assembly 24 is positioned in the second accommodating cavity and connected with the switch 29, and the power supply assembly 24 is electrically connected with the lamp source assembly through the power supply control panel 25; wherein first direction is parallel with power control panel 25's normal direction, the lamp source subassembly includes a plurality of light source circuit boards 26, a plurality of light source circuit boards 26 are around first direction in proper order end to end splice into the heat dissipation chamber 28 that extends along first direction, the cross-section in the perpendicular to first direction in heat dissipation chamber 28 is the hexagon structure, the lamp pearl is connected with light source circuit board 26 electricity, second magnetic part and first magnetic part fixed connection simultaneously, first magnetic part passes through bolt threaded connection with lamp stand body 2, first screw hole has been seted up on the first magnetic part, the axis direction of first screw hole and the axis direction coincidence of erection bolt hole 212, first magnetic part is when being connected with lamp stand body 2, the bolt passes erection bolt hole 212 and first screw hole threaded connection in proper order.

The second embodiment:

for the same structure no longer redundance in embodiment one, first magnetism spare and lamp stand body 2 pass through elasticity buckle fixed connection, one side that first magnetism spare is close to 2 diapalls of lamp stand body is provided with elasticity buckle, set up on the lamp stand body 2 with elasticity buckle complex mounting groove, elasticity buckle is inserting to the inside back of mounting groove, resume under self elastic deformation's effect at elasticity buckle this moment, the inside looks butt of a lateral wall and mounting groove of elasticity buckle to make elasticity buckle spacing in the mounting groove.

Example three:

no longer describe for the same structure in embodiment one, first magnetism spare and lamp stand body 2 formula structure as an organic whole, first magnetism spare is connected with lamp stand body 2 through the welding.

In a second aspect, the present invention provides a base station antenna identification system, including terminal equipment 31, server 32, base station 33 and the pilot lamp as in any one above, terminal equipment 31 and server 32 signal connection, base station 33 and server 32 signal connection, switch 29 signal connection in base station 33 and the pilot lamp to make the switching of base station 33 drive pilot lamp.

Therefore, an embodiment of the present invention is:

s101, after a fault problem is found manually, a signal instruction is sent to a server 32 through a terminal device 31;

s102, after receiving the signal instruction sent by the terminal device 31, the server 32 sends the signal instruction to the base station 33;

s103, after receiving the signal instruction transmitted from the server 32, the base station 33 transmits a signal instruction to the switch 29, drives the switch 29, and turns on the indicator light through the switch 29.

In one possible implementation, for example, the terminal device 31 includes: cell-phone, computer, but remote operation APP's equipment etc..

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. An indicator lamp is characterized by comprising a lamp holder body, a lampshade body, a lamp source component, a power supply component, a switch and a connecting component;

the lamp shade body is buckled with the lamp holder body and matched with the lamp holder body to form an accommodating cavity, a power supply control panel is arranged in the accommodating cavity to enable the accommodating cavity to be divided into a first accommodating cavity and a second accommodating cavity which are arranged along a first direction, the lamp source assembly is positioned in the first accommodating cavity, the power supply assembly is positioned in the second accommodating cavity, and the power supply assembly is electrically connected with the lamp source assembly through the power supply control panel; the first direction is parallel to the normal direction of the power supply control board;

the light source assembly comprises a plurality of light source circuit boards which are sequentially spliced end to end around the first direction to form a heat dissipation cavity extending along the first direction;

the power supply assembly comprises a voltage stabilizer for providing stable voltage for the lamp source assembly;

the switch is electrically connected with the power supply assembly and used for controlling the on-off of the lamp source assembly;

the connecting assembly is arranged on the lamp holder body and used for fixing the lamp holder body.

2. The indicator light of claim 1, wherein the coupling assembly comprises a first magnetic member; alternatively, the first and second electrodes may be,

the connecting assembly comprises a first magnetic piece and a second magnetic piece magnetically connected with the first magnetic piece, wherein the first magnetic piece is mounted on the lamp holder body.

3. The indicator light of claim 1, wherein the light source circuit board further comprises a plurality of light beads, each of the light beads being electrically connected to the light source circuit board.

4. The indicating lamp as claimed in claim 1, wherein the lamp holder body is formed with a plurality of drainage holes, and the drainage holes are communicated with the second receiving cavity.

5. The indicator lamp as claimed in claim 1, wherein the lamp holder body is provided with a wiring groove and an outlet hole matched with the wiring groove.

6. The indicator lamp according to claim 1, wherein a clamping component is arranged between the lamp holder body and the lampshade body, and the lamp holder body is clamped with the lampshade body.

7. The indicator lamp as claimed in claim 6, wherein the lamp holder body is provided with a first threaded hole, the lamp shade body is provided with a second threaded hole, and the first threaded hole and the second threaded hole have axes which are coincident and are fixedly connected through a bolt.

8. The indicator lamp according to claim 1, wherein the outer surface of the lamp housing body is provided with refraction ribs.

9. The indicator lamp as claimed in claim 8, wherein the inner surface of the cover body is provided with a light-diffusing plate.

10. A base station antenna identification system, comprising a terminal device, a server, a base station and an indicator light as claimed in any one of claims 1 to 9, wherein the terminal device is in signal connection with the server, the base station is in signal connection with the server, and the base station is in signal connection with a switch in the indicator light, so that the base station drives the indicator light to be turned on or off.

Images