CN213178144U - Multi-functional navigation mark lamp of integral type - Google Patents

Abstract

The utility model belongs to the field of beacon light equipment for rivers and seaports, and in particular relates to an integrated multifunctional navigation light, which comprises an illumination light structure and a control terminal structure; The lighting structure is controlled to be turned on and off; the lighting structure includes a lamp body, a lampshade and a lampstand, the lampshade cover is outside the lamp body and is connected with the lampstand, a socket and an air inlet channel are arranged on the lampstand, a plug cavity is arranged in the socket, and the plug cavity passes through The air inlet channel communicates with the external environment; the lamp body includes a lamp post and a plug handle, the lamp post is connected above the plug handle, and the lamp post is a columnar structure formed by three or more LED lamp boards connected end to end, and the interior of the lamp post forms a columnar structure. Heat dissipation channel; when the plug handle of the lamp body is connected to the plug cavity, the air inlet channel, the heat dissipation channel and the air supply through hole are connected to dissipate heat from the LED lamp board; the natural wind is used to dissipate heat from the lamp body, thereby reducing the size of the lamp body Long-term insufficient heat dissipation causes life problems.

Description

Multi-functional navigation mark lamp of integral type

Technical Field

The utility model belongs to the navigation mark lamp equipment field in river seaport, concretely relates to multi-functional navigation mark lamp of integral type.

Background

The navigation mark is a mark for indicating the direction, the boundary and the obstructions of the navigation channel, comprises a river crossing mark, a coastal mark, a guide mark, a transition guide mark, a head and tail guide mark, a side mark, a left and right navigation mark, a position indicating mark, a flood mark, a bridge and the like, is used for helping to guide the navigation of the ship, position and mark the obstructions and indicate warning, is generally applied to fixed safety roadways of Yangtze river and offshore water and plays a role of a water traffic light; the navigation mark lamp provides necessary safety guarantee devices for ships driving at night, and along with the development of a navigation channel cause, the functions and the performance of the current navigation mark lamp control circuit are relatively comprehensive and stable. However, under the large background of advocating safer and better navigation mark service, how to better improve the safe service quality is a development direction of the navigation channel management department for improving the service quality in the current innovation work.

The navigation mark is an important navigation aid device for a river channel or a sea channel, the navigation mark lamp is usually powered by solar energy, however, the dense canyon of high forests in the upstream mountain of the Yangtze river is more, and the insufficient solar energy for supplementing electric energy in winter is always a prominent problem; when the beacon light is in power shortage, sudden hardware damage and network failure or jam at night, the safety of the road wheel is possibly endangered. Along with the improvement of the intelligentization level of the beacon light, functions of positioning, detection, real-time communication and the like are carried in many beacon lights at present.

Although the current navigation mark lamp of navigation mark lamp is in the design that adopts the LED lamp more, there is market blank in the aspect of the heat dissipation of LED lamp in current navigation mark lamp, and if the heat that gives off when using during because the LED lamp can not in time dispel the heat and will cause the life of navigation mark lamp to reduce sharply, consequently, how to solve the heat dissipation of navigation mark lamp and become the problem that awaits a urgent solution.

SUMMERY OF THE UTILITY MODEL

In order to solve the heat dissipation problem of navigation mark lamp, the utility model provides a multi-functional navigation mark lamp of integral type through inlet air channel, heat dissipation channel and the design of the through-hole isotructure of supplying gas, forms the airflow channel who guides wind on the LED lamp to utilize natural wind to carry out the cooling of LED lamp heat dissipation.

The utility model discloses the technical scheme who adopts does:

an integrated multifunctional navigation mark lamp comprises a light lamp structure and a control terminal structure; the control terminal structure can control the on and off of the light lamp structure according to a remote control instruction; the structure of the illuminating lamp comprises a lamp body, a lampshade and a lamp stand, wherein the lampshade covers the outside of the lamp body and is connected with the lamp stand; the lamp body comprises a lamp post and an insertion handle, the lamp post is connected above the insertion handle, the lamp post is of a columnar structure formed by connecting more than three LED lamp panels end to end, and a heat dissipation channel is formed inside the lamp post; when the plug handle of the lamp body is connected to the plug cavity, the air inlet channel, the heat dissipation channel and the air supply through hole are communicated to dissipate heat of the LED lamp panel.

Optionally: the lamp stand is I-shaped and comprises an upper lamp stand, a lower lamp stand and a connecting column connected between the upper lamp stand and the lower lamp stand; the inlet of the air inlet channel is arranged on the side wall of the connecting column and is in an open shape, and the outlet of the air inlet channel is in an L shape and is opposite to the air supply through hole.

Optionally: the upper lamp stand is provided with a plurality of exhaust holes, and hot air fed into the cover body by the air feeding through hole is exhausted to the external environment through each exhaust hole.

Optionally: the air inlet channel is provided with a plurality of inlets and an outlet, the outlet is respectively communicated with each inlet, and the inlets are uniformly distributed on the periphery of the connecting column.

Optionally: the plug handle is quadrangular, two power connection pieces are arranged on the side wall of the plug handle, two conductive elastic pieces are arranged on the inner side wall of the slot, and the conductive elastic pieces correspond to the power connection pieces one to supply power to the LED lamp panel.

Optionally: the lampshade is detachably connected to the upper lamp stand in a threaded connection mode.

Optionally: the control terminal structure comprises a solar energy cover body, a base, a battery and a terminal controller; the solar energy cover body is connected between the lamp stand and the base, the battery and the terminal controller are arranged in the solar energy cover body, the solar energy cover body is connected with the battery and charges the battery, the battery is connected with the terminal controller and supplies power to the terminal controller, and the terminal controller is used for receiving an external remote control command and controlling the on-off or the flicker of the light lamp structure.

Optionally: the solar cover body is conical and is formed by splicing a plurality of fan-shaped solar panels.

Optionally: the battery is fixed on the base, the terminal controller is fixed above the battery, the terminal controller is externally connected with a control platform in a communication mode, and the control platform is used for sending remote control instructions to the terminal controller.

Optionally: a flange-shaped base is arranged below the base.

The utility model has the advantages that:

1. the light structure can form the airflow channel who is used for the cooling in this scheme, and this airflow channel can divide into several sections, including inlet air channel, heat dissipation channel and air feed through-hole etc. utilize the great characteristics of wind-force ratio on the surface of water to the lamp body has corresponding heat dissipation setting, thereby can the make full use of natural wind dispel the heat to the lamp body, thereby reduces the problem that the lamp body used the life that causes in high temperature environment for a long time and reduces.

2. The structure of the light lamp and the structure of the control terminal are arranged in an up-and-down overlapping mode and are integrally arranged, wiring between the light lamp and the control terminal can be effectively reduced, and the structure is simplified.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an integrated multifunctional beacon light;

fig. 2 is a schematic structural view of a lamp body;

fig. 3 is a half sectional view of the lamp stand.

In the figure: 1-a lamp body; 2-lamp shade; 3-a solar housing; 4-a base; 5-a base; 6-a battery; 7-a terminal controller; 8-lamp stand; 9-connecting the electric piece; 10-inserting a handle; 11-LED lamp panel; 12-air feed through holes; 13-a socket; 14-connecting column; 15-lamp stand down; 16-a conductive dome; 17-lamp mounting table; 18-a vent hole; 19-a plug cavity; 20-air inlet channel, 21-heat dissipation channel.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the accompanying drawings is only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without any inventive work.

The technical solution provided by the present invention will be described in detail by way of embodiments with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

In some instances, some embodiments are not described or not in detail, as they are conventional or customary in the art.

Furthermore, the technical features described herein, or the steps of all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments, in addition to the mutually exclusive features and/or steps. It will be readily appreciated by those of skill in the art that the order of the steps or operations of the methods associated with the embodiments provided herein may be varied. Any order in the drawings and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated to be required.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The terms "connected" and "coupled" when used in this application, encompass both direct and indirect connections, and also include both direct and indirect connections, where appropriate and without making any inconsistency.

Example 1

As shown in fig. 1, 2 or 3, the integrated multifunctional navigation light of the present embodiment includes a light structure and a control terminal structure; the light structure is connected above the control terminal structure, and the control terminal structure can control the on and off of the light structure according to a remote control command.

The structure of the light lamp includes the lamp body 1, lamp shade 2 and lamp stand 8, the lamp shade 2 is connected on the upper lamp stand 17 removably in the threaded connection way, the lamp stand 8 is I-shaped, the lamp stand 8 includes upper lamp stand 17, lower lamp stand 15 and joint pin 14 connecting between the two, the lamp shade 2 covers the outside of lamp body 1 and connects with upper lamp stand 17; the lamp holder 8 is provided with a socket 13, a plug-in cavity 19 is arranged in the socket 13, two conductive elastic pieces 16 are arranged on the inner side wall of the plug-in cavity 19, and the two conductive elastic pieces 16 are respectively arranged on the two opposite side walls of the plug-in cavity 19.

The lamp body 1 comprises a lamp post and an inserting handle 10, the lamp post is of a columnar structure formed by connecting more than three LED lamp panels 11 end to end, and a heat dissipation channel 21 is formed inside the lamp post; the plug handle 10 is connected below the connection, the plug handle 10 is quadrangular, two electric connection pieces 9 are arranged on the side wall of the plug handle 10, and the conductive elastic pieces 16 correspond to the electric connection pieces 9 one by one to supply power to the LED lamp panel 11; an air supply through hole 12 is provided in the stem 10, an upper portion of the air supply through hole 12 communicates with a heat dissipation channel 21, and an upper portion of the heat dissipation channel 21 communicates with a space in the globe 2.

The lamp stand 8 is also provided with an air inlet channel 20, the inlet of the air inlet channel 20 is arranged on the side wall of the connecting column 14 and is open, the outlet of the air inlet channel 20 is L-shaped, and when the plug handle 10 is plugged into the socket 13, the air inlet channel 20 is opposite to the air feeding through hole 12; a plurality of exhaust holes 18 are arranged on the upper lamp stand 17, natural wind can enter from an inlet of an air inlet channel 20 and then is exhausted to the external environment after sequentially passing through the air supply through hole 12, the heat dissipation channel 21, the lampshade 2 and the exhaust holes 18; and in this process, natural wind can dispel the heat to LED lamp plate 11.

In addition, as an extension design: the connecting column 14 is provided with a plurality of inlets in the air inlet channel 20, the air inlet channel 20 shares one outlet, the outlet is respectively communicated with each inlet, and the inlets are uniformly distributed on the periphery of the connecting column 14.

Above structure utilizes inlet air channel 20, heat dissipation channel 21, air feed through-hole 12 and structures such as air vent, can form the air current passageway, utilizes the great characteristics of wind-force on the surface of water to lamp body 1 has corresponding heat dissipation design, thereby can make full use of natural wind dispel the heat to lamp body 1, thereby reduces the problem that the life that lamp body 1 used in high temperature environment for a long time and caused reduces.

Example 2

As shown in fig. 1, 2 or 3, in addition to the structure of embodiment 1, the control terminal structure thereof includes components such as a solar housing 3, a base 4, a battery 6 and a terminal controller 7.

The solar cover body is conical and is formed by splicing a plurality of fan-shaped solar panels.

The battery 6 is fixed on the base 4, and a flange-shaped base 5 is arranged below the base 4; the terminal controller 7 is fixed above the battery 6, and the terminal controller 7 is externally connected with a control platform in a communication mode, and the control platform is used for sending remote control instructions to the terminal controller 7.

The solar energy cover body 3 is connected between the lamp stand 8 and the base 4, the battery 6 and the terminal controller 7 are arranged in the solar energy cover body 3, the solar energy cover body 3 is connected with the battery 6 and charges the battery, the battery 6 is connected with the terminal controller 7 and supplies power to the terminal controller 7, the terminal controller 7 can receive an external remote control instruction, and the terminal controller 7 controls the on-off or the flicker of a light lamp structure above the terminal controller 7 according to the remote control instruction; the terminal controller 7 supplies the current of the battery 6 to the socket 13 of the lamp stand 8 and controls the power supply to the lamp body 1, and the terminal controller 7 is used as a switch in the above power supply process.

The above examples are merely examples for clarity of description and are not intended to limit the embodiments; other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are intended to be within the scope of the invention.

Claims (10)

1. The utility model provides a multi-functional navigation mark lamp of integral type which characterized in that: comprises a light lamp structure and a control terminal structure; the control terminal structure can control the on and off of the light lamp structure according to a remote control instruction; the structure of the illuminating lamp comprises a lamp body (1), a lampshade (2) and a lamp stand (8), wherein the lampshade (2) covers the outside of the lamp body (1) and is connected with the lamp stand (8), a socket (13) and an air inlet channel (20) are arranged on the lamp stand (8), an inserting cavity (19) is arranged in the socket (13), and the inserting cavity (19) is communicated with the external environment through the air inlet channel (20); the lamp body (1) comprises a lamp post and an insertion handle (10), the lamp post is connected above the insertion handle (10), the lamp post is of a columnar structure formed by connecting more than three LED lamp panels (11) end to end, and a heat dissipation channel (21) is formed inside the lamp post; when the plug handle (10) of the lamp body (1) is connected to the plug cavity (19), the air inlet channel (20), the heat dissipation channel (21) and the air supply through hole (12) are communicated to dissipate heat of the LED lamp panel (11).

2. The integrated multifunctional beacon light of claim 1, wherein: the lamp stand (8) is I-shaped, and the lamp stand (8) comprises an upper lamp stand (17), a lower lamp stand (15) and a connecting column (14) connected between the upper lamp stand and the lower lamp stand; the inlet of the air inlet channel (20) is arranged on the side wall of the connecting column (14) and is in an open shape, and the outlet of the air inlet channel (20) is in an L shape and is opposite to the air feeding through hole (12).

3. The integrated multifunctional beacon light of claim 2, wherein: the upper lamp stand (17) is provided with a plurality of exhaust holes (18), and hot air fed into the cover body by the air feeding through hole (12) is exhausted to the external environment through each exhaust hole (18).

4. The integrated multifunctional beacon light of claim 3, wherein: the air inlet channel (20) is provided with a plurality of inlets and an outlet, the outlets are respectively communicated with the inlets, and the inlets are uniformly distributed on the periphery of the connecting column (14).

5. The integrated multifunctional beacon light of claim 2, wherein: the plug handle (10) is in a quadrangular prism shape, two electric connection pieces (9) are arranged on the side wall of the plug handle (10), two conductive elastic pieces (16) are arranged on the inner side wall of each slot, and the conductive elastic pieces (16) correspond to the electric connection pieces (9) one to supply power to the LED lamp panel (11).

6. The integrated multifunctional beacon light of claim 2, wherein: the lampshade (2) is detachably connected on the upper lamp stand (17) in a threaded connection mode.

7. An integrated multifunctional beacon light according to any of claims 2-6, characterized in that: the control terminal structure comprises a solar energy cover body (3), a base (4), a battery (6) and a terminal controller (7); the solar energy cover body (3) is connected between the lamp stand (8) and the base (4), the battery (6) and the terminal controller (7) are arranged in the solar energy cover body (3), the solar energy cover body (3) is connected with the battery (6) and charges the battery, the battery (6) is connected with the terminal controller (7) and supplies power to the terminal controller, and the terminal controller (7) is used for receiving an external remote control instruction and controlling the on-off or flashing of a light lamp structure.

8. The integrated multifunctional beacon light of claim 7, wherein: the solar cover body is conical and is formed by splicing a plurality of fan-shaped solar panels.

9. The integrated multifunctional beacon light of claim 7, wherein: the battery (6) is fixed on the base (4), the terminal controller (7) is fixed above the battery (6), the terminal controller (7) is externally connected with a control platform in a communication mode, and the control platform is used for sending a remote control command to the terminal controller (7).

10. The integrated multifunctional beacon light of claim 7, wherein: a flange-shaped base (5) is arranged below the base (4).

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