CN107120601B

CN107120601B - Automatic telescopic solar wall lamp

Info

Publication number: CN107120601B
Application number: CN201710357508.0A
Authority: CN
Inventors: 范丰源
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-05-19
Filing date: 2017-05-19
Publication date: 2020-02-21
Anticipated expiration: 2037-05-19
Also published as: CN107120601A

Abstract

The invention discloses an automatic telescopic solar wall lamp, which comprises: one end of the telescopic sleeve is provided with a connecting layer, and the telescopic sleeve is directly arranged on a wall body or a wood board through the connecting layer; the telescopic mechanism is arranged in the telescopic sleeve, and two ends of the telescopic mechanism are respectively connected with two ends of the telescopic sleeve and are used for being electrified and unfolded; the light source group is arranged at the other end of the telescopic sleeve, can store energy under illumination, can emit light when no illumination exists, and is electrically connected with the telescopic mechanism to be used for controlling the telescopic mechanism to move. The novel shoe rack is convenient to use, green and environment-friendly, saves cost and is strong in fashion sense.

Description

Automatic telescopic solar wall lamp

Technical Field

The invention relates to the technical field of lamps, in particular to a solar telescopic wall lamp.

Background

The wall lamp is a deformation of the garden lamp, a lamp post of the garden lamp is omitted, the wall lamp is directly installed on buildings beside an urban road, a residential road, an industrial park, a tourist attraction, a park yard, a green belt and a square and objects needing brightening and decoration, and the wall lamp has the functions of providing necessary illumination, bringing convenience for people to go out, decorating scenery, brightening the landscape and beautifying the environment.

Therefore, the wall lamp is widely applied as a garden lamp and plays a significant role in the life process of modern people. The traditional wall lamp is the same as a garden lamp, the illumination of the traditional wall lamp depends on a power line, the investment of a wire network is large, the consumed electric quantity is very large, the power supply pressure of a power grid is increased, the energy-saving and environment-friendly wall lamp is not beneficial to energy conservation and environmental protection, and the requirement of the environment-friendly and energy-saving type society in the current stage of China cannot be met. And the traditional wall lamp is installed by adopting screws, and can be installed only by drilling installation holes on a wall body or a wood board and other installation base bodies, so that the wall lamp is inconvenient and certain damage can be caused to the installation base bodies. Moreover, when the lamp is used in a centralized way, the lighting effect is too single, and the current aesthetic requirements cannot be met.

Disclosure of Invention

In order to solve the problems, the invention provides the wall lamp which uses solar energy, is convenient to install and can automatically stretch.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatic telescopic solar wall lamp, comprising:

one end of the telescopic sleeve is provided with a connecting layer, and the telescopic sleeve is directly arranged on a wall body or a wood board through the connecting layer;

the telescopic mechanism is arranged in the telescopic sleeve, and two ends of the telescopic mechanism are respectively connected with two ends of the telescopic sleeve and are used for being electrified and unfolded;

the light source group is arranged at the other end of the telescopic sleeve, can store energy under illumination, can emit light when no illumination exists, and is electrically connected with the telescopic mechanism to be used for controlling the telescopic mechanism to move.

Preferably, the light source group includes:

the lampshade is connected with the opening end of the telescopic sleeve;

the photoelectric conversion device is arranged in the lampshade and is used for converting light energy into electric energy;

the light-emitting device is arranged in the lampshade and used for being electrified to emit light;

and the electric storage device is arranged in the lampshade, is electrically connected with the photoelectric conversion device, the light-emitting device and the telescopic mechanism, and is used for storing and discharging electricity and controlling the expansion of the telescopic mechanism.

Preferably, the telescopic tube includes an installation tube, a folding tube and a support tube, the lampshade includes a face mask and a light guide shell, the face mask is installed at the upper end of the light guide shell, the lower end of the light guide shell is fixedly connected to the support tube, the upper end of the folding tube is slidably accommodated in the support tube, the lower end of the folding tube is slidably accommodated in the installation tube, when the telescopic mechanism is in a folding state, the folding tube is completely accommodated and hidden, and when the telescopic mechanism is unfolded, the support tube is far away from the installation tube to expose the folding tube.

Preferably, the photoelectric conversion device is a solar panel, and the solar panel is fixedly mounted on the lamp shade.

Preferably, the power storage device includes:

the storage battery is electrically connected with the solar cell panel and used for receiving and storing electric energy;

and the control unit is electrically connected with the storage battery, the light-emitting device and the telescopic mechanism and is used for controlling the light-emitting device and the telescopic mechanism.

Preferably, an electric quantity detection module is integrated on the control unit and used for detecting the residual electric energy of the storage battery, and the control unit controls the expansion length of the telescopic mechanism according to detection data of the electric quantity detection module.

Preferably, the light emitting device is configured as an LED light board.

Preferably, the connecting layer is an adhesive layer or an adsorption layer.

Preferably, the telescopic mechanism is a scissor type lifting structure, and the scissor type lifting structure is driven by a motor.

Preferably, the telescopic mechanism is a gear rack transmission structure or a screw rod transmission structure.

The invention has the beneficial effects that: firstly, solar energy is used, an external power supply is not needed, the solar water heater is green and environment-friendly, is convenient to use, and saves cost; secondly, the installation is carried out through the connecting layer, drilling is not needed on the installation base body, and the installation is fast and convenient; and thirdly, according to the expansion length of the telescopic mechanism in the electric quantity control telescopic sleeve, when a large number of wall lamps are used in a concentrated mode, the expansion length between the lamp bodies is different due to the fact that the stored electric quantity is different, a space misplacing feeling is formed, and the lamp is fashionable and accords with the trend and the aesthetic feeling.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the telescopic tube 1 in the invention after being folded;

fig. 3 is an axial schematic view of the present invention.

Detailed Description

Referring to fig. 1 to 3, the present invention is an automatic telescopic solar wall lamp, including:

the wall-mounted telescopic pipe comprises a telescopic pipe 1, wherein one end of the telescopic pipe 1 is provided with a connecting layer, and the telescopic pipe is directly mounted on a wall or a wood board through the connecting layer;

the telescopic mechanism is arranged in the telescopic sleeve 1, and two ends of the telescopic mechanism are respectively connected with two ends of the telescopic sleeve 1 and used for being electrified and unfolded;

the light source group is arranged at the other end of the telescopic sleeve 1, can store energy under illumination, can emit light when no illumination exists, and is electrically connected with the telescopic mechanism to be used for controlling the telescopic mechanism to move.

The light source group includes: the lampshade 2 is connected with the opening end of the telescopic sleeve 1; the photoelectric conversion device is arranged in the lampshade 2 and is used for converting light energy into electric energy; the light-emitting device is arranged in the lampshade 2 and used for being electrified to emit light; and the electric storage device is arranged in the lampshade 2, is electrically connected with the photoelectric conversion device, the light-emitting device and the telescopic mechanism, and is used for storing and discharging electricity and controlling the expansion of the telescopic mechanism.

For convenience of processing, as shown in the figure, the telescopic tube 1 specifically includes an installation tube 101, a folding tube 102 and a support tube 103, the lampshade 2 specifically includes a face mask 202 and a light guide shell 201, the specific connection relationship is as shown in the figure, the face mask 202 is installed at the upper end of the light guide shell 201, the lower end of the light guide shell 201 is fixedly connected with the support tube 103, the installation tube 101 is used for fixedly connecting an installation base body, the upper end of the folding tube 102 can be slidably accommodated in the support tube 103, and the lower end can be slidably accommodated in the installation tube 101. When the telescopic mechanism is in the retracted state, the retracted tube 102 is completely retracted and hidden, and when the telescopic mechanism is deployed, the support tube 103 is away from the installation tube 101 to expose the retracted tube 102. The folding tube 102 may be fixed in the installation tube 101 or in the support tube 103, or may be completely movably disposed, and only some fasteners are used for linkage to prevent the folding tube from falling out.

In this embodiment, the connection layer is an adhesive layer or an absorption layer and is disposed at the bottom end of the mounting tube 101. Further, in order to facilitate the installation of the telescopic mechanism and the arrangement of the connection layer, a base 104 is arranged at the bottom end of the installation tube 101, the base 104 is fixedly connected with the installation tube 101, the connection layer is arranged at the lower end of the base 104, and one end of the telescopic mechanism is connected with the base 104. Through the setting of articulamentum, no longer need bore the mounting hole on installation base member such as wall or wooden wall body during the installation, conveniently save trouble can not destroy the installation base member surface yet, trades the lamp after this installation base member or when no longer installing the wall lamp, can not influence the follow-up application of installation base member.

Since the visible light technology is not mature, the photoelectric conversion device in this embodiment is configured as a solar panel 3, and the solar panel 3 is fixedly installed at the center of the outer end of the face mask 202.

The power storage device is fixedly mounted at the center of the inner end of the face shield 202, and specifically comprises: the storage battery 4 is electrically connected with the solar panel 3 and used for receiving and storing electric energy; and the control unit is electrically connected with the storage battery 4, the light-emitting device and the telescopic mechanism and is used for controlling the light-emitting device and the telescopic mechanism. An electric quantity detection module is integrated on the control unit and used for detecting the residual quantity of electric energy of the storage battery 4, and the control unit controls the expansion length of the telescopic mechanism according to detection data of the electric quantity detection module. The control unit can be set to perform real-time control according to the detection data of the electric quantity detection module, so that the expansion length of the telescopic mechanism is folded in real time according to the reduction of the residual quantity of the electric energy, and also can be set to perform regional section control, namely, a program is set, and when the residual quantity of the electric energy is up to the percentage of the original saturated electric quantity, for example, when the residual quantity of the electric energy is 80% -50%, the telescopic mechanism folds half of the expansion stroke. And the control unit sets the initial state of the telescopic mechanism to be the folding state.

As shown in the drawing, the light emitting device is provided as an LED light panel 5, which is specifically attached to the lower end of the power storage device (refer to the direction of the drawing).

As can be seen from the above, the telescoping mechanism in this embodiment is an electric control mechanism, and the size is not too large, so the telescoping mechanism is configured as a scissor lift structure 6 in this embodiment. Traditional scissor lift is because heavy burden is great, consequently adopts the cylinder drive, and only need promote the lamp body in this embodiment, and weight is slight, consequently scissor lift structure 6 passes through motor drive, and its concrete implementation includes: in the first mode, a component arm of the scissor type lifting structure 6 is fixed with a motor, and the component arm is driven to rotate through the rotation of the motor, so that the scissor type lifting structure 6 is unfolded and folded; in the second mode, the output end of the motor is provided with a screw rod, the screw rod is simultaneously connected with a pair of horizontal pivot points or two vertically adjacent center pivot points of the scissor-type lifting structure 6, the two corresponding pivot points are provided with threads in opposite directions, and the unfolding and folding are controlled by the rotation of the screw rod. In the same way, the telescopic mechanism in this embodiment can also be configured as a rack-and-pinion transmission structure, and the configuration is similar to that of the lead screw.

In this embodiment, because power storage device needs to connect the telescopic machanism electrically, therefore the upper end of stay tube 103 is the through-hole, and LED light board 5 is connected to telescopic machanism's upper end to know that telescopic tube 1 has possessed the slide guide effect from last, consequently telescopic machanism only need expand, receive close the action can, the wall lamp need not bear the action of gravity when the level sets up, is favorable to the realization of action and life's extension.

And in order to prolong the service life of the wall lamp and maintain the best illumination effect of the wall lamp, waterproof structures are arranged among all the components of the telescopic tube 1, among all the components of the lampshade 2 and between the connection positions of the telescopic tube 1 and the lampshade 2. The waterproof structure can be a waterproof adhesive, a waterproof silica gel layer and the like, and the components of the telescopic sleeve 1 can be arranged according to the piston structure.

The automatic telescopic solar wall lamp provided by the embodiment uses solar energy, does not need an external power supply, is green and environment-friendly, is convenient to use and saves cost; secondly, the installation is carried out through the connecting layer, drilling is not needed on the installation base body, and the installation is fast and convenient; thirdly, according to the expansion length of telescopic machanism in the electric quantity control telescopic tube 1, when using the wall lamp in a large number of centralizations, because the electric quantity of storage is different, the expansion length between the lamp body is different, forms the sense of falling by mistake in space, fashion accords with trend and aesthetic at present to the expansion length of wall lamp changes along with the change of electric quantity, can not change a dirt, can not give other people and bring visual fatigue and aesthetic fatigue, and is not boring.

The above examples are only preferred embodiments of the present invention, and other embodiments of the present invention are possible. Those skilled in the art can make equivalent changes or substitutions without departing from the spirit of the present invention, and such equivalent changes or substitutions are included in the scope set forth in the claims of the present application.

Claims

1. An automatic flexible type solar energy wall lamp which characterized in that includes:

the wall-mounted telescopic pipe comprises a telescopic pipe (1), wherein one end of the telescopic pipe (1) is provided with a connecting layer, and the telescopic pipe is directly mounted on a wall body or a wood board through the connecting layer;

the telescopic mechanism is arranged in the telescopic sleeve (1), and two ends of the telescopic mechanism are respectively connected with two ends of the telescopic sleeve (1) and used for being electrified and unfolded;

the light source group is arranged at the other end of the telescopic sleeve (1), can store energy under illumination and emit light when no illumination exists, and is electrically connected with the telescopic mechanism to be used for controlling the telescopic mechanism to move;

specifically, the light source group includes:

the lampshade (2) is connected with the opening end of the telescopic sleeve (1);

the photoelectric conversion device is arranged in the lampshade (2) and is used for converting light energy into electric energy;

the light-emitting device is arranged in the lampshade (2) and used for being electrified to emit light; the electric power storage device is arranged in the lampshade (2), is electrically connected with the photoelectric conversion device, the light-emitting device and the telescopic mechanism, and is used for storing and discharging electricity and controlling the expansion of the telescopic mechanism;

the telescopic tube (1) comprises an installation tube (101), a folding tube (102) and a support tube (103), the lampshade (2) comprises a face mask (202) and a light guide shell (201), the face mask (202) is installed at the upper end of the light guide shell (201), the lower end of the light guide shell (201) is fixedly connected with the support tube (103), the upper end of the folding tube (102) can be slidably accommodated in the support tube (103), the lower end of the folding tube can be slidably accommodated in the installation tube (101), when the telescopic mechanism is in a folding state, the folding tube (102) is completely accommodated and hidden, when the telescopic mechanism is unfolded, the support tube (103) is far away from the installation tube (101) to expose the folding tube (102).

2. The automatic telescopic solar wall lamp as claimed in claim 1, wherein:

the photoelectric conversion device is arranged as a solar cell panel (3), and the solar cell panel (3) is fixedly arranged on the lampshade (2).

3. An automatic telescopic solar wall lamp as claimed in claim 2, characterized in that said electrical storage means comprise:

the storage battery (4), the storage battery (4) is electrically connected with the solar panel (3) and is used for receiving and storing electric energy;

and the control unit is electrically connected with the storage battery (4), the light-emitting device and the telescopic mechanism and is used for controlling the light-emitting device and the telescopic mechanism.

4. An automatic telescopic type solar wall lamp as claimed in claim 3, characterized in that:

an electric quantity detection module is integrated on the control unit and used for detecting the residual quantity of electric energy of the storage battery (4), and the control unit controls the expansion length of the telescopic mechanism according to detection data of the electric quantity detection module.

5. The automatic telescopic solar wall lamp as claimed in claim 4, wherein:

the light emitting device is arranged as an LED light plate (5).

6. The automatic telescopic solar wall lamp as claimed in claim 1, wherein:

the connecting layer is an adhesive layer or an adsorption layer.

7. The automatic telescopic solar wall lamp as claimed in claim 1, wherein:

the telescopic mechanism is a scissor type lifting structure, and the scissor type lifting structure is driven by a motor.

8. The automatic telescopic solar wall lamp as claimed in claim 1, wherein:

the telescopic mechanism is a gear rack transmission structure or a screw rod transmission structure.