CN211345105U - Solar ceiling lamp with protection function - Google Patents

Abstract

The utility model relates to a solar energy ceiling lamp with protect function. The ceiling lamp comprises a solar light-emitting component, a light-transmitting shell and a protective shell. The light-transmitting shell is provided with a mounting cavity for accommodating the solar light-emitting component, the protective shell is used for providing a protective space for the solar light-emitting component and is light-transmitting, and the protective shell is detachably connected with the light-transmitting shell and/or the solar light-emitting component. The protective shell is transparent, so that the solar panel is not influenced to absorb sunlight, and when the solar ceiling lamp is used, the solar light-emitting component is completely arranged in the cavities of the two shells, so that the protective shell can prevent rainwater, dust and the like from entering the cavities, and a protective space is provided; in terms of visual effect, the light-transmitting shell and the protective shell form a complete shell.

Description

Solar ceiling lamp with protection function

Technical Field

The utility model relates to an energy-conserving lighting technology field especially relates to a solar energy ceiling lamp with protect function.

Background

People often install lamps on flowers, plants and trees or other suitable places in outdoor gardens, so that night illumination is facilitated, and meanwhile, the night landscape can be provided for the outdoors. At present, the lamp is generally powered by a power wire to provide illumination, and this way needs to be implemented by wiring or the like, and is therefore not favorable for outdoor use. Solar energy, as a green energy source, has been able to meet lighting requirements. Solar lamps are also becoming a new trend for outdoor lamps. The solar lamp comprises a solar panel, a battery, an automatic control circuit (PCB circuit board) and a light-emitting lamp body. Solar panel relies on absorptive sunshine to convert the electric current into and charges to the battery, and the battery supplies power to the luminescent lamp body to can shine night and throw light on or decorate night.

For example, chinese patent publication No. CN207674311U discloses a solar outdoor pendant lamp. Which comprises a lamp holder assembly and a globe. The lamp holder assembly comprises a lamp holder, a power circuit and an LED lamp panel. The ground of lamp stand is equipped with the connecting seat, and the connecting seat is connected with power supply circuit, is equipped with the socket on the connecting seat, and the back of LED lamp plate is equipped with the contact pin, and the top surface both sides of lamp stand are equipped with the support column respectively, and parallel arrangement has the heat insulating board on the support column, and the top surface of heat insulating board is equipped with the mounting box, is equipped with solar cell panel in the mounting box, is equipped with transparent top cap simultaneously on.

However, the outdoor ceiling lamp has no protective shell, so that on one hand, the outdoor ceiling lamp is not attractive enough due to the fact that the lamp is installed after the ceiling is cut; on the other hand, rainwater, dew and the like easily enter the lamp, and the circuit is easily damaged.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor studied a lot of documents and patents when making the present invention, but the space did not list all details and contents in detail, however, this is by no means the present invention does not possess these prior art features, but on the contrary the present invention has possessed all features of the prior art, and the applicant reserves the right to increase the related prior art in the background art.

SUMMERY OF THE UTILITY MODEL

To the deficiency of the prior art, the utility model provides a solar energy ceiling lamp with protect function. The solar ceiling lamp comprises a solar light-emitting component and a light-transmitting shell, wherein the light-transmitting shell is provided with an installation cavity for accommodating the solar light-emitting component, the ceiling lamp is provided with a light-transmitting protection shell for providing a protection space for the solar light-emitting component, and the protection shell is detachably connected with the light-transmitting shell and/or the solar light-emitting component.

According to a preferred embodiment, the solar radiation module is arranged on the upper side of the geometric center of the light-transmitting housing in such a way that the light emitted by the solar radiation module can pass through more than 60% of the area of the light-transmitting housing.

According to a preferred embodiment, the solar light emitting module is provided with a lampshade, and the lampshade and the light-transmitting shell are respectively arranged on two sides of the geometric center of the light-transmitting shell in a manner that light rays emitted by the solar light emitting module pass through at least two light-transmitting covers.

According to a preferred embodiment, the arc of the lamp shade is smaller than the arc of the light-transmitting housing in such a way that the light emitted by the solar light emitting element can pass through the lamp shade and then penetrate to more than 60% of the area of the light-transmitting housing.

According to a preferred embodiment, when viewed in a plan view of the ceiling lamp, a plan view area of the protective case and a plan view area of the light-transmitting case are in a range of 1: 2 and 1: 1.

According to a preferred embodiment, the protective housing has a tangential angle of between 30 ° and 60 ° as seen in a front view of the ceiling lamp.

According to a preferred embodiment, when the protective housing is placed in the light-transmitting housing, the protective housing is detachably connected to the solar light emitting assembly.

According to a preferred embodiment, the protective housing is provided with attachment means for attaching the suspension.

According to a preferred embodiment, the mounting suspension portion comprises a hook detachably connected to the mounting part of the protective housing and a hanging rope connected to the hook in such a way that the pendant lamp can be rotated through 360 °.

According to a preferred embodiment, the mounting suspension portion is disposed on a plumb line of the pendant lamp, and the geometric center of the lamp cover and the geometric center of the light-transmitting housing are respectively located on the plumb line.

Drawings

Fig. 1 is an outline view of a solar energy ceiling lamp from a front view perspective provided by the present invention;

fig. 2 is a schematic view of a housing of a solar ceiling lamp provided by the present invention;

fig. 3 is a schematic view of a solar light emitting assembly of a solar ceiling lamp provided by the present invention; and

fig. 4 is a schematic view of a solar ceiling lamp in a top view angle.

List of reference numerals

100: protective case 200 e: limiting surface

200: light-transmitting housing 300 a: solar panel mounting surface

300: solar light emitting assembly 300 b: mounting post

400: mounting the hanging portion 300 c: contact surface

100 a: mounting member 300 d: outer casing

100 b: mounting buckle 300 e: solar cell

200 a: mounting cavity 300 f: PCB board

200 b: 300g of light-emitting cavity: lamp shade

200 c: lampshade mounting surface 300 h: battery pressure plate

200 d: circumferential chamber wall α: tangential angle

400 a: the hook 400 b: hanging rope

Detailed Description

This is described in detail below with reference to fig. 1-4.

Example 1

The embodiment provides a solar ceiling lamp with a protection function. As shown in fig. 1, 2 and 3, the pendant lamp includes a solar light emitting assembly 300, a light-transmissive case 200 and a protective case 100. As shown in fig. 2, the top of the light-transmitting housing 200 is opened with a mounting opening. Below the mounting opening is a mounting cavity 200 a. The mounting cavity 200a is used to mount the solar light emitting assembly 300. The protective casing 100 and the light-transmitting casing 200 have similar outer shapes so that the solar ceiling lamp is complete in appearance. As shown in fig. 1, the light-transmitting housing 200 has a truncated spherical shape, and the protective housing 100 has a truncated spherical shape. The protective casing 100 and the light-transmitting casing 200 provide a protective space for the solar light emitting device 300 when they are connected to each other. In this way, the utility model discloses following technological effect has at least: 1. the solar light emitting assembly 300 is convenient to mount, dismount and overhaul; 2. the protective shell 100 is transparent, so that the solar panel is not influenced to absorb sunlight, and when the solar ceiling lamp is used, the solar light-emitting component 300 is completely arranged in the cavities of the two shells, so that the protective shell 100 can prevent rainwater, dust and the like from entering the cavities, thereby providing a protective space; 3. visually, the light-transmitting casing 200 and the protective casing 100 form a complete casing, for example, the light-transmitting casing 200 is spherical, and the protective casing 100 is a transparent cover with a radian, which is still a complete spherical package on the whole without destroying the appearance of the whole sphere; 4. a hanging member may be provided on the protective casing 100 so that it can be hoisted using a collocated rope.

Preferably, as shown in fig. 2, the light-transmitting housing 200 has a limiting surface 200e thereon. The limiting surface 200e is used to limit the depth of the solar light emitting device 300 extending into the mounting cavity 200 a. The limiting surface 200e is matched with the contact surface 300c of the solar light emitting component 300. The contact surface 300c has a mounting post 300b on the opposite side. The protection case 100 has a mounting buckle 100b on the inside. The mounting buckle 100b and the mounting post 300b can be buckled with each other, so that the limiting surface 200e and the contact surface 300c of the solar light emitting component 300 can be abutted against each other. And the stopper surface 200e is also in close contact with the protective case 100. Therefore, when the protective housing 100 is placed in the light-transmitting housing 200, the protective housing 100 is detachably connected to the solar light emitting element 300. Due to the structural design, when the protective shell 100 is in close contact with the light-transmitting shell 200, the protective shell 100 is also connected with the solar light-emitting component 300 in a mutually buckled manner, so that the connection strength of the protective shell 100, the solar light-emitting component 300 and the solar light-emitting component can be increased, and the outdoor wind load resistance can be improved.

Preferably, as shown in fig. 2, a part of the circumferential cavity wall 200d of the mounting cavity 200a is provided with an internal thread, and a part of the outer housing 300d of the solar light emitting module 300 is provided with an external thread mutually matched with the internal thread. Therefore, when the solar pendant is in a suspended state, the partial outer housing 300d of the solar light module 300 can be fixedly connected to the partial circumferential cavity wall 200d of the installation cavity 200 a. According to the structural design, the solar light-emitting component 300 is fixed relative to the light-transmitting shell 200 in a hanging state, and the mounting buckle 100b and the mounting column 300b can be buckled with each other, so that the light-transmitting shell 200 and the protective shell 100 are relatively fixed, and the solar ceiling lamp is a compact structure, so that under the action of wind load, the solar light-emitting component 300 cannot shake in a cavity relative to the light-transmitting shell 200 and the protective shell 100, and the damage to the internal solar panel and other precision devices is prevented.

Preferably, the solar panel mounting surface 300a of the solar light emitting module 300 is mounted with a solar panel as shown in fig. 2, and the protective case 100 is detachably connected with the light-transmitting case 200 and/or the solar light emitting module 300 in such a manner that sunlight can be irradiated to the solar panel therethrough.

Preferably, the cover 300g of the solar light emitting module 300 and the cover mounting surface 200c of the light-transmitting case 200 are fitted to each other. For example, as shown in fig. 2 and 3, the cover 300g has a curved surface, and the cover mounting surface 200c also has a curved surface of the same size. The lamp cover 300g can extend into the light emitting cavity 200 b. Preferably, the mounting suspension portion 400 is disposed on a vertical line of the ceiling lamp on which a geometric center of the lamp cover 300g and a geometric center of the light-transmitting housing 200 are located, respectively.

Preferably, the solar light emitting module 300 has a battery pressing plate 300h built therein. The cell press plate 300h has a cell installation groove (not shown) for installing the solar cell 300e of the solar light emitting module 300. The solar light emitting device 300 is a product familiar to those skilled in the art, and thus the light emitting principle and the charging principle will not be described in detail.

Example 2

The embodiment may be a further improvement and/or addition to embodiment 1, and repeated contents are not described again. The preferred embodiments of the present invention are described in whole and/or in part in the context of other embodiments, which can supplement the present embodiment, without resulting in conflict or inconsistency.

Preferably, the protective case 100 is provided with a mounting part 100a for mounting the hanging part 400. The mounting member 100a is a threaded hole and its geometric centerline is collinear with the weight line of the pendant.

Preferably, the mounting hanger 400 includes a hook 400a and a hanging rope 400 b. The tail end of the hook 400a has an external thread matching the screw hole for threadedly fixing the hook 400a to the protective case 100. The upper end of the hook 400a is a circular ring, and a hole channel coaxial with the tail end is formed in the circular ring. The lanyard 400b passes through the hole and enters the interior of the ring to form a knot that is larger than the hole. Therefore, the solar ceiling lamp can rotate 360 degrees around the central line of the hanging rope. Based on this structure, solar energy ceiling lamp can rotate by arbitrary angle under the effect of wind-load to this can increase its decorative effect.

Example 3

The embodiment may be a further improvement and/or a supplement to embodiments 1 and/or 2, and repeated details are not repeated. The preferred embodiments of the present invention are described in whole and/or in part in the context of other embodiments, which can supplement the present embodiment, without resulting in conflict or inconsistency.

Preferably, the solar light emitting assembly 300 is installed at an upper side of the geometric center of the light-transmitting housing 200. Therefore, the light of the solar light emitting device 300 can transmit more than 60% of the light transmitting housing 200. The farther the solar light emitting device 300 is from the geometric center of the light-transmissive casing 200, the more light is transmitted through the solar light emitting device.

Preferably, the lamp cover 300g is accommodated in the light-transmitting cavity of the light-transmitting housing 200. Therefore, the light emitted from the solar light emitting assembly 300 firstly transmits through the lamp shade 300g and then transmits out of the light-transmitting casing 200.

Preferably, the arc of the lamp cover 300g is smaller than that of the light-transmissive case 200. The light transmitting case 300 positioned at the upper portion of the lamp shade 300g transmits a weak light effect, and the light transmitting case 300 positioned at the upper portion of the lamp shade 300g transmits a strong light effect. Under the condition that the radian of the lampshade 300g is smaller than that of the light-transmitting shell 200, the light emitted by the solar light-emitting component 300 can pass through the lampshade 300g and then penetrate to more than 60% of the area of the light-transmitting shell 200.

Preferably, as shown in fig. 4, the top-view area of the light-transmitting case 200 of the protective case 100 is 1: 2 and 1: 1. In this manner, the solar light assembly 300 can collect a greater area of sunlight. And helps the user looking up to see that the pendant is a "complete" loop when it is hanging, giving the pendant a "complete" nature. For example, the protective casing 100 has a tangential angle α of 30 to 60 ° as viewed in a front view of the ceiling lamp. The included angle α between the tangent line through the connection point of the protective housing 100 and the light-transmitting housing 200 and the horizontal line is between 30 and 60 degrees, which is defined as the tangential angle in the present invention.

It should be noted that the above-mentioned embodiments are exemplary, and those skilled in the art can devise various solutions in light of the present disclosure, which are also within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (11)

1. A solar energy ceiling lamp with protection function includes:

a solar light emitting assembly (300); and

a light-transmissive housing (200) having a mounting cavity (200a) for accommodating the solar light emitting assembly (300),

it is characterized in that the preparation method is characterized in that,

the ceiling lamp is provided with a light-transmitting protective shell (100) for providing a protective space for the solar light-emitting component (300), and the protective shell (100) is hermetically connected with the light-transmitting shell (200) so that the solar light-emitting component (300) is hermetically accommodated in the mounting cavity (200a) in a manner of receiving sunlight.

2. The pendant according to claim 1, wherein the solar light emitting assembly (300) is disposed on the upper side of the geometric center of the light-transmissive case (200) in such a manner that the light emitted therefrom can transmit more than 60% of the area of the light-transmissive case (200).

3. The pendant according to claim 2, wherein the solar light emitting assembly (300) is provided with a lampshade (300g), and the lampshade (300g) is accommodated in the light-transmitting cavity of the light-transmitting housing (200) in a manner that light emitted by the solar light emitting assembly (300) at least passes through the lampshade (300g) and then passes through the light-transmitting housing (200).

4. The pendant of claim 3, wherein the arc of the light shade (300g) is less than the arc of the light-transmissive housing (200) in a manner that light emitted by the solar light assembly (300) can pass through the light shade (300g) and then pass through to more than 60% of the area of the light-transmissive housing (200).

5. The pendant lamp according to claim 4, wherein, as viewed from a top view of the pendant lamp, a top view area of the protective case (100) is 1: 2 and 1: 1.

6. A pendant according to claim 5, characterized in that the angle α between the tangent to the point of connection of the light-transmissive housing (200) via the protective housing (100) and the horizontal, seen in a front view of the pendant, is between 30 and 60 degrees.

7. The pendant according to claim 6, wherein the protective housing (100) is removably connected to the solar light module (300) when the protective housing (100) is placed in the light transmissive housing (200).

8. The pendant according to claim 7, wherein a mounting member (100a) for mounting the hanging portion (400) is provided on the protective case (100).

9. The pendant of claim 8, wherein the mounting suspension (400) comprises a hook (400a) and a lanyard (400b),

wherein the hook (400a) is detachably connected with the mounting part (100a) of the protective case (100), and the hanging rope (400b) is connected with the hook (400a) in such a manner that the pendant lamp can rotate 360 degrees.

10. The pendant of claim 9, wherein the mounting suspension (400) is disposed on a plumb line of the pendant,

the geometric center of the lampshade (300g) and the geometric center of the light-transmitting shell (200) are respectively positioned on the vertical line.

11. A solar ceiling lamp comprising:

a solar light emitting assembly (300); and

a light-transmissive housing (200) having a mounting cavity (200a) for accommodating the solar light emitting assembly (300),

it is characterized in that the preparation method is characterized in that,

a light-transmitting protective housing (100) detachably disposed at an upper side of the light-transmitting housing (200), the solar light emitting module (300) being installed in the protective housing (100) such that the solar light emitting module (300) can receive sunlight and emit light via the protective housing (100).

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