CN211395435U - Externally-embedded solar reflective spike - Google Patents

Abstract

The application discloses an externally-embedded solar energy reflective spike nail, which comprises a shell, a reflective sheet, a spike nail lamp and a light-emitting component, wherein a cavity is arranged in the shell, reflective sheet mounting grooves are formed in the outer walls of the two sides of the shell, the reflective sheet is mounted on the reflective sheet mounting grooves, a lamp hole and a glue filling hole are also formed in the shell, the lamp hole and the glue filling hole respectively penetrate through and communicate the cavity and the reflective sheet mounting grooves, the aperture of the glue filling hole is larger than that of the lamp hole, and the glue filling hole is used for filling glue into the reflective sheet mounting grooves; the light-emitting component is arranged in the cavity, the back surface of the reflector is provided with a hollow lamp post, the lamp post is embedded into the lamp hole and the glue filling hole, the lamp holder of the spike lamp extends into the lamp post, and the light-emitting component is used for absorbing sunlight and then driving the spike lamp to emit light; and filling pouring sealant between the reflector and the reflector mounting groove. The spike lamp reflector has high-strength impact resistance, and the compression resistance and the waterproof performance are more superior and durable.

Description

Externally-embedded solar reflective spike

Technical Field

The application relates to the technical field of solar spikes, in particular to an externally-embedded solar reflective spike.

Background

The existing externally-embedded reflective solar spike has a shell, a spike lamp, a reflective sheet and the like, a lamp hole and a reflective sheet mounting groove are formed in the shell, the reflective sheet mounting groove is located on the upper surface of the shell, and the lamp hole penetrates through the inside of the shell and the reflective sheet mounting groove. When making the outer formula of inlaying reflection of light spike, penetrate the lamp hole from the inside of spike casing to the lamp holder of spike lamp earlier, then make the lamp holder stretch out in the reflector panel mounting groove, scribble glue on the luminescent plate after that, in reflector panel embedding reflector panel mounting groove, follow-up other spare parts of installing again.

According to the externally-embedded type reflective solar spike with the structure, the reflective sheet cannot be completely attached to the reflective sheet mounting groove, namely, a gap exists between the reflective sheet and the shell, so that the reflective sheet is easy to crack and damage under external force impact (such as rolling of a high-speed running automobile), and the impact resistance is weak; in addition, the gap causes the light emitting sheet and the light emitting sheet mounting groove not to be a complete solid structure, and the pressure resistance is low.

Disclosure of Invention

The application provides an outer formula solar energy reflection of light spike that inlays can solve and has the space and lead to the spike shock resistance weak, the problem that compressive property is low between reflection of light piece and the casing.

In order to achieve the purpose, the following technical scheme is adopted in the application:

an externally-embedded solar energy reflective spike comprises a shell, a reflective sheet, a spike lamp and a light-emitting component, wherein a cavity is arranged in the shell, reflective sheet mounting grooves are formed in the outer walls of the two sides of the shell, the reflective sheet is mounted on the reflective sheet mounting grooves, a lamp hole and a glue filling hole are also formed in the shell, the lamp hole and the glue filling hole respectively penetrate through and are communicated with the cavity and the reflective sheet mounting grooves, the aperture of the glue filling hole is larger than that of the lamp hole, and the glue filling hole is used for filling glue into the reflective sheet mounting grooves; the light-emitting component is arranged in the cavity, the back surface of the reflector is provided with a hollow lamp post, the lamp post is embedded into the lamp hole and the glue filling hole, the lamp holder of the spike lamp extends into the lamp post, and the light-emitting component is used for absorbing sunlight and then driving the spike lamp to emit light; and filling pouring sealant between the reflector and the reflector mounting groove.

Further, still include the exhaust hole, the exhaust hole runs through the bottom that has linked up reflector mounting groove and casing, and the exhaust hole is arranged in the gas in the space between encapsulating back discharge reflector and the reflector mounting groove.

Furthermore, the light-emitting component comprises a solar panel, a battery and a controller, the solar panel is electrically connected with the battery, and the spike lamp is also electrically connected with the solar panel and the battery respectively through the controller; transparent shell is installed on the top of casing, and solar panel is close to transparent shell setting.

Furthermore, the cavity of the shell is filled with a pouring sealant, the light emitting assembly is wrapped by the pouring sealant, and the pouring sealant is transparent adhesive.

Further, the cavity of the shell is filled with pouring sealant.

Further, the spike lamp is an LED lamp.

A manufacturing method of an externally-embedded solar energy reflecting spike nail comprises the following steps:

the reflector is arranged on the reflector mounting groove by using waterproof silica gel, and the periphery of the reflector is sealed by the waterproof silica gel;

the solar panel is positioned at the lower end of the transparent shell and is attached to the transparent shell;

a controller, a battery and a spike lamp are arranged in the cavity of the shell, and a lamp cap of the spike lamp is placed in a lamp post on the back of the reflector;

welding circuit connection parts of the spike lamp, the controller, the solar panel and the battery together;

the shell is placed upside down, the first pouring is carried out, the pouring sealant is poured into the pouring hole and the lamp hole of the shell, and the pouring sealant fills the gap between the reflector and the reflector mounting groove;

after the pouring sealant of the first pouring sealant is solidified, performing second pouring sealant, and filling the cavity of the shell with the pouring sealant;

and after the pouring sealant of the second pouring is solidified, the preparation is finished.

Further, before the potting adhesive for the first potting is cured, the reflector mounting groove is subjected to exhaust treatment through the exhaust hole.

The beneficial effect of this application is:

1) the application discloses external embedded solar energy reflection of light spike through set up the encapsulating hole that runs through between the cavity at the casing and reflector mounting groove, and the aperture in encapsulating hole is greater than the lantern hole, and accessible encapsulating hole pours into more casting glue into between reflector and the reflector mounting groove during the manufacturing. In this way, no unnecessary gap exists between the reflector and the reflector mounting groove, and the reflector mounting groove form a solid structure through pouring sealant. The structure can ensure that the reflector has high-strength impact resistance under the impact of external force, and is not easy to damage.

2) The solid structure is arranged between the reflecting piece and the reflecting piece mounting groove, so that the compression resistance and the waterproof performance are more superior, and the durability is realized.

Drawings

FIG. 1 is a perspective view of an externally-embedded solar energy reflective spike;

FIG. 2 is an inverted view of an externally-embedded solar energy reflective spike;

FIG. 3 is an exploded view of an externally embedded solar spike;

FIG. 4 is a flow chart of a method for manufacturing an externally-embedded solar light-emitting spike.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

An externally-embedded solar energy reflective spike comprises a shell 1, a reflective sheet 2, a spike lamp 3 and a light-emitting component 4. The inside of casing 1 has cavity 11, has the reflector mounting groove 12 of slope on the both sides outer wall of casing 1, and reflector 2 installs on reflector mounting groove 12. The shell 1 is also provided with a glue filling hole 13 and a lamp hole 14, and the lamp hole 14 and the glue filling hole 13 are respectively communicated with the cavity 11 and the reflector installation groove 12 in a penetrating way. The aperture of the glue filling hole 13 is larger than that of the lamp hole 14, so that glue can be filled from the cavity 11 to the reflector mounting groove 12 through the glue filling hole 13.

The light emitting component 4 is arranged in the cavity 11, and the back surface of the reflector 2 is provided with a hollow lamp post 21. In the process of installing the reflector 2 on the reflector installation groove 12, the lamp post 21 is embedded into the lamp hole 14 and the glue filling hole 13 of the shell 1, and the lamp head of the spike lamp 3 extends into the lamp post 21. In the present embodiment, the spike lamp 3 is an LED lamp. After the light-emitting component 4 absorbs solar energy, the spike lamp 3 can be directly powered on one hand, and the electric energy can be stored on the other hand and used for power supply at night or in rainy days.

The filling sealant is filled between the reflector 2 and the reflector mounting groove 12, so that the reflector 2 and the reflector mounting groove 12 are of solid structures and have no gap.

The externally-embedded solar reflective spike further comprises an exhaust hole 15, wherein the exhaust hole 15 penetrates through the bottom ends of the reflective sheet mounting groove 12 and the shell 1, and after the pouring sealant is finished and before the pouring sealant is solidified, the gas between the reflective sheet 2 and the reflective sheet mounting groove 12 and the gas contained in the pouring sealant can be discharged through the exhaust hole 15.

The light emitting assembly 4 includes a solar panel 41, a battery 42 and a controller (not shown), the solar panel 41 and the battery 42 are electrically connected, and the spike lamp 3 is electrically connected to the solar panel 41 and the battery 42 through the controller. The top end opening of casing 1, and the opening part covers and installs transparent shell 5, and solar panel 41 is close to transparent shell 5 and sets up, is convenient for absorb the sunlight. The solar panel 41 absorbs sunlight and converts the sunlight into electric energy, and then directly supplies power to the spike lamp 3, or supplies the electric energy to the battery 42, and the battery 42 stores the electric energy.

The cavity 11 of the housing 1 is also filled with a potting adhesive, which covers the light emitting assembly 4 to prevent liquid from permeating into the light emitting assembly 4. The cavity 11 is filled with pouring sealant, so that the whole spike becomes a solid body, and the impact resistance and the pressure resistance of the whole spike are improved.

A manufacturing method of an externally-embedded solar luminous spike comprises the following steps:

s100: mounting of reflectors

Adopt waterproof silica gel to paint on reflector mounting groove 12, install reflector 2 embedding in reflector mounting groove 12, waterproof silica gel bonds reflector 2 to sealed reflector 2 all around.

In the process of installing the reflector 2 into the reflector installation groove 12, the hollow lamp post 21 on the back of the reflector 2 is embedded into the lamp hole 14 and the glue filling hole 13.

S200: installing transparent shell and solar panel

When installing transparent shell 5, adopt waterproof silica gel to paint in the open-ended edge in casing top, transparent shell 5 bonds on the top of casing through waterproof silica gel to cover the top end opening of casing. The waterproof silica gel seals the periphery of the transparent shell 5. The solar panel 41 is assembled to the lower end of the transparent case 5 by fitting the transparent case 5 therebetween, and the solar panel 41 is disposed so as to be attached to the transparent case 5.

The peripheries of the reflector 2 and the transparent shell 5 are sealed, so that after the shell 1 is placed upside down subsequently, the pouring sealant cannot leak out of the shell 1 in the pouring process.

S300: installation controller, battery and spike lamp

The controller, the battery 42 and the spike lamp 3 are arranged in the cavity 11 of the shell 1, and the lamp cap of the spike lamp 3 extends into the lamp post 21 of the reflector 2.

S400: circuit connection

The circuit connection parts of the spike lamp 3, the controller, the solar panel 41, and the battery 42 are welded together.

S500: first glue pouring

After the circuit connection is completed, the shell 1 is placed upside down, and the first glue filling is carried out. The pouring sealant adopts epoxy glue. Pouring sealant into the sealant hole 13 and the lamp hole 14 from the cavity 11 of the housing 1 flows into the reflector mounting groove 12 through the sealant hole 13 and the lamp hole 14 (mainly flows through the sealant hole 13), so that the sealant fills the gap between the reflector 2 and the reflector mounting groove 12.

Before the potting adhesive of first encapsulating solidifies, carry out thorough exhaust treatment through exhaust hole 15 to reflector mounting groove 12, also discharge the gas between reflector 2 and reflector mounting groove 12, after the potting adhesive solidification, can further improve sealing performance between the two.

S600: secondary glue filling

And after the pouring sealant of the first pouring sealant is completely cured, performing second pouring sealant. Pouring the potting adhesive into the cavity 11 of the housing 1, so that the cavity 11 is filled with the potting adhesive.

S700: complete the preparation

And after the pouring sealant for the second pouring is solidified, the preparation of the whole externally-embedded solar reflective spike is completed.

The utility model provides an outer formula solar energy reflection of light spike that inlays, is through setting up the encapsulating hole that runs through between cavity and reflector mounting groove, and the aperture in encapsulating hole is greater than the lantern hole for can pour into more casting glue into between reflector and the reflector mounting groove during the manufacturing. In this way, no unnecessary gap exists between the reflector and the reflector mounting groove, and the reflector mounting groove form a solid structure through pouring sealant. The structure can ensure that the reflector has high-strength impact resistance and is not easy to damage under the impact of external force. And because be solid construction between reflector panel and the reflector panel mounting groove, compressive property and waterproof performance are more superior, durable.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended that the present application be limited to the specific embodiments thereof. It will be apparent to those skilled in the art from this disclosure that many more simple derivations or substitutions can be made without departing from the inventive concepts herein.

Claims (6)

1. The utility model provides an outer formula solar energy reflection of light spike nail, includes casing, reflection of light piece, spike lamp and light-emitting component, the inside of casing has the cavity, reflection of light piece mounting groove has on the both sides outer wall of casing, reflection of light piece is installed on the reflection of light piece mounting groove, its characterized in that: the lamp hole and the glue filling hole are respectively communicated with the cavity and the reflector mounting groove in a penetrating manner, the aperture of the glue filling hole is larger than that of the lamp hole, and the glue filling hole is used for filling glue into the reflector mounting groove;

the light-emitting assembly is arranged in the cavity, a hollow lamp post is arranged on the back surface of the light reflecting sheet, the lamp post is embedded into the lamp hole and the glue filling hole, a lamp cap of the spike lamp extends into the lamp post, and the light-emitting assembly is used for absorbing sunlight and then driving the spike lamp to emit light; and filling pouring sealant between the reflector and the reflector mounting groove.

2. The externally embedded solar reflective spike of claim 1, wherein: still include the exhaust hole, the exhaust hole runs through and has been linked together the bottom of reflection of light piece mounting groove and casing, the exhaust hole is used for discharging after the encapsulating gas in the space between reflection of light piece and the reflection of light piece mounting groove.

3. The externally embedded solar reflective spike of claim 1, wherein: the light-emitting component comprises a solar panel, a battery and a controller, the solar panel is electrically connected with the battery, and the spike lamp is also electrically connected with the solar panel and the battery respectively through the controller; transparent shell is installed on the top of casing, solar panel is close to transparent shell sets up.

4. The externally embedded solar reflective spike of claim 1, wherein: the cavity of the shell is filled with the pouring sealant, the light-emitting component is wrapped by the pouring sealant, and the pouring sealant is transparent adhesive.

5. The externally embedded solar reflective spike of claim 4, wherein: and the cavity of the shell is filled with the pouring sealant.

6. The externally embedded solar reflective spike of any one of claims 1 to 5, wherein: the spike lamp is an LED lamp.

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