CN214700525U - Stealthy solar lamp - Google Patents

Abstract

A stealthy solar lamp comprises a controller, a wall brick-shaped main body (1), an LED lamp panel (3), a solar panel (4) and a lithium battery (6); wherein the brick-shaped body comprises a frame-shaped shell (11) and a lens (12); the solar panel, the frame-shaped shell and the bottom plate are combined into a box body, and the LED lamp panel, the controller and the lithium battery are installed in the box body; a lock wall mounting hanging hole (111) is formed in the frame-shaped shell; the controller, the LED lamp panel, the solar panel and the lithium battery are electrically connected with each other; the controller comprises a control panel (2) and a switch, and the switch is used for switching the lighting working mode of the LED lamp panel.

Description

Stealthy solar lamp

Technical Field

The utility model relates to a solar lamp product technical field, especially a stealthy solar lamp.

Background

In recent years, manufacturers and research and development units related to lighting devices have gradually changed the light source of the lighting device into Light Emitting Diodes (LEDs) in order to achieve the requirements of energy saving and environmental protection. The light emitting diode is a solid semiconductor element, and energy is released in the form of light by utilizing the current passing through the light emitting diode, so that the light emitting diode has the advantages of small volume, high reaction speed, low power consumption, low pollution and the like. However, since the light divergence angle of the led is smaller than that of the conventional light source, the light is concentrated during irradiation, which easily causes the difference of the brightness between the adjacent and distant portions of the light source, and the light source cannot be uniformly irradiated, many lamps use the secondary optical principle to change the optical performance of the led by using the lens for secondary refraction, and the leds with different purposes need to be matched with different lenses to generate different light and effects. The light emitting side of the light emitting diode applied to the street lamp is covered with a light emitting diode lens, so that light rays of the light emitting diode are emitted out of the surface of the lens after passing through the lens to form deflected and refracted light rays so as to adjust the light rays to be projected in a specific direction.

The human motion detection sensor module is a human detection sensor based on an infrared pyroelectric principle, can only detect a moving human body, adopts a passive pyroelectric infrared Probe (PIR), does not emit any type of radiation, and has low power consumption and good concealment. The detection element with the size of 2 x 1mm is mainly made of a material with high thermoelectric coefficient, such as lead zirconate titanate ceramic, lithium tantalate, triethylene-sulfate and the like. One or two detecting elements are arranged in each detector, and the two detecting elements are connected in series with reversed polarity to suppress interference caused by self temperature rise. The infrared radiation detected and received by the detecting element is converted into weak voltage signal, amplified by the field effect tube in the probe and output. In order to improve the detection sensitivity of the detector and increase the detection distance, a fresnel lens is generally arranged in front of the detector, the lens is made of transparent plastic, the upper part and the lower part of the lens are respectively divided into a plurality of equal parts to form a lens with a special optical system, the common lens comprises two lenses of 7m and 3m, the effective distance of the lens is about 7m and 3m in front of the lens, and the fresnel lens is matched with an amplifying circuit and can amplify signals by more than 70 decibels, so that the farther distance can be detected. The working principle is as follows: the human body has a constant body temperature, generally 37 degrees, and emits infrared rays with a specific wavelength of about 10UM, and the passive infrared probe operates by detecting infrared rays with a wavelength of about 10UM emitted by the human body. When a person moves to the action range of the high-level signal, the high-level signal is output, the duration of the high-level signal can be adjusted by the yellow key, and the adjusting time can be about 500ms to 16 seconds.

The double-glass solar cell panel is formed by laminating two pieces of toughened glass, an EVA (ethylene vinyl acetate) adhesive film and a solar cell silicon wafer at a high temperature through a laminating machine to form a composite layer, and a photovoltaic cell assembly formed by collecting lead terminals in series and parallel connection between the solar cells through leads. The solar cell comprises a first toughened glass layer, a second PVB or PO or EVA or ionomer material layer, a third monocrystal or polycrystal battery layer, a fourth PVB or PO or EVA or ionomer material layer and a fifth toughened glass or high-transmittance back plate layer which are sequentially arranged from top to bottom.

Document CN2014105634817 discloses a solar LED contour lamp comprising: the solar charging system comprises a transparent cover, a first solar cell panel LED lamp bead driving control panel, a second solar cell panel, a first base plate, an LED lamp bead belt, a second base plate, a third solar cell panel, a fourth solar cell panel, a charging lithium battery pack and a third base plate; the transparent cover is in a semi-cylindrical structure, is 30-100 cm long and is made of transparent plastics; fixing devices are respectively arranged on two inner side surfaces of the transparent cover, and each fixing device consists of a first clamping groove, a second upper groove, a third clamping groove and a fourth clamping groove; the first clamping groove and the second clamping groove are arranged in parallel and are parallel to the plane end of the transparent cover; the first clamping groove is used for clamping a second solar cell panel and a third solar cell panel; the second clamping groove is used for clamping the LED lamp bead driving control board; the third clamping groove and the fourth clamping groove are correspondingly arranged on two inner side surfaces of the transparent cover and are used for clamping the first solar cell panel and the fourth solar cell panel respectively; after the second solar cell panel, the third solar cell panel and the LED lamp bead driving control panel are respectively clamped in the corresponding clamping grooves, a cavity is formed among the second solar cell panel, the third solar cell panel and the LED lamp bead driving control panel, and the first base plate and the second base plate are both positioned in the cavity and used for supporting the second solar cell panel and the third solar cell panel; the LED lamp bead belt consists of 30-108 LED lamp beads, is fixed in the middle of the upper part of the LED lamp bead driving control plate and is positioned between the second solar cell panel and the third solar cell panel; the rechargeable lithium battery pack consists of 4-8 rechargeable batteries and is fixed below the LED lamp bead driving control panel; a third base plate is arranged below the rechargeable battery pack and used for supporting the rechargeable lithium battery pack fixed below the LED lamp bead driving control plate; the left end cover and the right end cover are respectively fixed at the left end and the right end of the transparent cover, so that the whole transparent cover is sealed; the first solar cell panel, the second solar cell panel, the third solar cell panel and the fourth solar cell panel are electrically connected with each other and are finally electrically connected with the rechargeable battery pack; when the solar LED contour lamp works, all solar panels absorb energy in the daytime and store the energy in rechargeable lithium batteries, and when the solar LED contour lamp is dark, the whole group of LED contour lamps are uniformly started through a light control or time control switch; when the whole group of LED contour lamps are used for a set time, the LED contour lamps are turned off uniformly through a light control or time control switch; and when the day comes, all the solar panels continue to charge and store electric energy, and the solar panels work circularly and repeatedly. The first base plate, the second base plate and the third base plate are all in rectangular strip structures. The first clamping groove, the second upper groove, the third clamping groove and the fourth clamping groove are integrated with the transparent cover. The solar LED contour light can determine whether to install the first solar cell panel and the fourth solar cell panel according to the conversion efficiency and the illumination degree of the solar cell panels in the using process.

When the solar LED contour light is in an external control mode, the incoming and outgoing lines are divided into two groups: one group is a signal line which consists of two lines and is respectively connected with the program controller; the other set of lines consists of three lines, namely: one line is connected with a light control or time control switch, so that the whole group of solar LED contour lamps can be uniformly switched on and off according to the light control or time control; the other two lines are mutually complementary connecting lines of electric energy between the solar LED contour lamps, the two lines can realize mutual charging between each lamp tube, and the voltage consistency of each lamp tube is ensured.

The inventor finds that the technical scheme has the defects of complex structure and high cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stealthy solar lamp can realize merging into an organic whole with the wall, can not see the lamp on the wall, nevertheless can send the light illumination after responding to human activity evening.

The utility model discloses the technical scheme who adopts as follows: a stealthy solar lamp is characterized by comprising a controller, a wall brick-shaped main body (1), an LED lamp panel (3), a solar panel (4) and a lithium battery (6); wherein the brick-shaped body comprises a frame-shaped shell (11) and a lens (12);

the solar panel, the frame-shaped shell and the bottom plate are combined into a box body, and the LED lamp panel, the controller and the lithium battery are installed in the box body; a lock wall mounting hanging hole (111) is formed in the frame-shaped shell; the controller, the LED lamp panel, the solar panel and the lithium battery are electrically connected with each other; the controller comprises a control panel (2) and a switch, and the switch is used for switching the light emitting mode of the LED lamp panel.

Further, a human motion detection sensor module and a Fresnel lens (7) are installed in the box body, and the human motion detection sensor module and the Fresnel lens are connected with the controller and used for sensing human activity signals.

Furthermore, a polarized lens (5) is installed in the box body, and the polarized lens is used for enabling light rays to be emitted out of the surface of the lens after passing through the lens to form deflected and refracted light rays so as to adjust the projection of the light rays in a specific direction.

Further, the switch comprises a switch plate (212), a support (213) and a switch silica gel cap (211), and the switch of the working modes is realized by pressing a switch key on the switch plate through the switch silica gel cap.

Preferably, the solar panel is a tempered glass solar panel.

Further, the surface of the frame-shaped shell (11) is provided with a pattern processing layer, and the pattern processing layer enables the surface of the box body to present the shape and the color of the wall brick.

Furthermore, a waterproof silica gel ring (8) is arranged in the box body.

The utility model discloses an operating principle is, changes light energy into the electric energy through solar panel and stores in the lithium cell, and the power storage daytime supplies power to the LED lamp plate through the controller evening.

The beneficial effects of the utility model reside in that: the utility model discloses but convenient and fast installs on the building wall of red brick (also can be blue and green brick, the brick of white brick or other building usefulness, lamps and lanterns are the same, only the colour is different, red brick building wall joins in marriage red promptly, the wall of blue and green brick building joins in marriage cyan, so analogize, the brick that has the decorative pattern reason is different and carry out different surface treatment according to the decorative pattern reason on surface, lamps and lanterns and wall fuse together like this, perfect match the scene and use, can not see on the wall that there is the lamp (whole is red wall brick face), but can give out light to light up the environment evening.

Drawings

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

fig. 2 is a schematic view of another aspect of the present invention;

fig. 3 is an exploded view of the structure of the present invention.

Fig. 4 is a schematic diagram of the internal structure of the present invention.

Fig. 5 is an installation diagram of an embodiment of the present invention.

Fig. 6 is an installation diagram of another embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 1, 2, 3 and 4, the stealth solar lamp is characterized by comprising a controller, a wall brick-shaped main body (1), an LED lamp panel (3), a solar panel (4) and a lithium battery (6); wherein the brick-shaped body comprises a frame-shaped shell (11) and a lens (12);

the solar panel, the frame-shaped shell and the bottom plate are combined into a box body, and the LED lamp panel, the controller and the lithium battery are installed in the box body; a lock wall mounting hanging hole (111) is formed in the frame-shaped shell; the controller, the LED lamp panel, the solar panel and the lithium battery are electrically connected with each other; the controller comprises a control panel (2) and a switch, and the switch is used for switching the light emitting mode of the LED lamp panel.

Further, a human motion detection sensor module and a Fresnel lens (7) are installed in the box body, and the human motion detection sensor module and the Fresnel lens are connected with the controller and used for sensing human activity signals.

Furthermore, a polarized lens (5) is installed in the box body, and the polarized lens is used for enabling light rays to be emitted out of the surface of the lens after passing through the lens to form deflected and refracted light rays so as to adjust the projection of the light rays in a specific direction.

Further, the switch comprises a switch plate (212), a support (213) and a switch silica gel cap (211), and the switch of the working modes is realized by pressing a switch key on the switch plate through the switch silica gel cap.

Preferably, the solar panel is a tempered glass solar panel.

Further, the surface of the frame-shaped shell (11) is provided with a pattern processing layer, and the pattern processing layer enables the surface of the box body to present the shape and the color of the wall brick.

Furthermore, a waterproof silica gel ring (8) is arranged in the box body.

As shown in fig. 5 and 6, the lamp (9) can be mounted in a wall surface by embedding or hanging.

The above description relates to only some embodiments of the present invention, and any replacement or modification made by those skilled in the art based on the spirit of the present invention should be covered by the protection scope of the present invention, which should be subject to the claims.

Claims (7)

1. A stealthy solar lamp is characterized by comprising a controller, a wall brick-shaped main body (1), an LED lamp panel (3), a solar panel (4) and a lithium battery (6); wherein the brick-shaped body comprises a frame-shaped shell (11) and a lens (12); the solar panel, the frame-shaped shell and the bottom plate are combined into a box body, and the LED lamp panel, the controller and the lithium battery are installed in the box body; a lock wall mounting hanging hole (111) is formed in the frame-shaped shell; the controller, the LED lamp panel, the solar panel and the lithium battery are electrically connected with each other; the controller comprises a control panel (2) and a switch, and the switch is used for switching the lighting working mode of the LED lamp panel.

2. The stealth solar lamp of claim 1, wherein a human motion detection sensor module and a Fresnel lens (7) are mounted in the box, and the human motion detection sensor module and the Fresnel lens are connected to the controller for sensing human activity signals.

3. The stealthy solar lamp of claim 1, characterized in that a polarized lens (5) is installed in the box, and the polarized lens is used for making light pass through the lens and then emit the light out on the lens surface to form deflected refracted light, so as to adjust the light to be projected in a specific direction.

4. The stealth solar light of claim 1, wherein the switch comprises a switch plate (212), a bracket (213), and a switch silicone cap (211), by which a switch key on the switch plate is pressed to effect switching of operating modes.

5. The stealth solar light of claim 1, wherein the solar panel is a tempered glass solar panel.

6. The stealth solar light according to claim 1, characterized in that the surface of the frame-shaped shell (11) is provided with a textured layer that makes the surface of the box appear in the shape and colour of a wall brick.

7. The stealthy solar lamp of claim 1, characterized in that a waterproof silicone ring (8) is provided in the box.

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