CN217273754U - Ultra-thin floodlight - Google Patents

Abstract

The utility model belongs to the technical field of lighting lamps, in particular to an ultra-thin floodlight, which comprises an installation shell, radiating fins arranged on the back surface of the installation shell, and a glass panel arranged in the front surface of the installation shell, wherein two side plates of the installation shell are respectively provided with an installation gap, and a pressing sheet is inserted in each installation gap for fixing the glass panel; the mounting gap includes a support plate integrally formed with the mounting housing for abutting the wafer. The waterproof glue is adopted to replace a waterproof adhesive tape between the traditional glass panel and the surface of the installation shell, so that the overall thickness of the lamp is reduced, and the processing and the assembly are facilitated; the mounting gap is formed in the two side plates of the mounting shell and used for mounting the two pressing plates, so that the requirement for fixing the glass panel is met, and the overall thickness of the lamp is not increased; therefore, compared with the existing similar products, the structure is favorable for realizing the light and thin design of the lamp and is convenient to process and assemble.

Description

Ultra-thin floodlight

Technical Field

The utility model relates to a lighting lamp technical field specifically indicates a light and thin, the floodlight of being convenient for installation.

Background

The floodlight is a point light source which can uniformly irradiate all directions, the irradiation range of the floodlight can be randomly adjusted, and the floodlight is represented as an octahedral icon in a scene. Most of linear floodlights sold in the market at present have heavy lamp bodies, difficult installation and unattractive appearance; the lamp has insufficient heat dissipation, and the appearance and the performance can not flexibly meet the market demand.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an ultra-thin floodlight.

In order to achieve the above object, the utility model adopts the following technical scheme: an ultrathin floodlight comprises a mounting shell, radiating fins arranged on the back surface of the mounting shell, and a glass panel arranged in the front surface of the mounting shell, wherein two mounting gaps are respectively arranged in two side plates of the mounting shell, and a pressing sheet is inserted in each mounting gap for fixing the glass panel; the mounting gap comprises a supporting plate which is integrally formed with the mounting shell and used for abutting against the pressing sheet.

Preferably, the pressing sheet comprises a vertical plate, a transverse pressing plate which is arranged at one end of the vertical plate and is integrally formed with the vertical plate, and a fixing plate which is arranged on the vertical plate and one end of which protrudes out of the inner surface of the vertical plate; the other end of the fixing plate and the vertical plate are integrally formed; the transverse pressing plate is attached to the glass panel.

The angle formed by the transverse pressing plate and the vertical plate is a, and the angle is 0 degrees < a and is not more than 90 degrees.

One end of the fixing plate protruding out of the inner surface of the vertical plate is buckled with the inner wall of the mounting gap.

In order to obtain a waterproof effect, a sunken annular waterproof groove is formed in the front surface of the mounting shell, and waterproof glue is poured into the waterproof groove; the glass panel cover is arranged on the waterproof groove.

Furthermore, a cylindrical body integrally formed with the mounting shell is arranged on the back of the mounting shell, a ventilating column communicated with the inside of the mounting shell is arranged in the cylindrical body, and a waterproof ventilating cap positioned in the cylindrical body is covered on the ventilating column.

The beneficial technical effects are as follows: the utility model discloses a floodlight arranges parts such as PCB board, lens in the installation casing to adopt the glass panels to seal the opening of installation casing, fix the glass panels in installation casing front surface through two preforming, meanwhile, set up the capillary groove at installation casing front surface, fill the waterproof glue in the capillary groove, the glass panels contacts with waterproof glue, prevents that liquid dust from getting into the installation casing inside, adopts waterproof glue to replace the waterproof adhesive tape between traditional glass panels and installation casing surface, not only is favorable to reducing the whole thickness of lamps and lanterns, still is convenient for processing and assembly; the mounting gap is formed in the two side plates of the mounting shell and used for mounting the two pressing sheets, so that the requirement for fixing the glass panel is met, and the integral thickness of the lamp is not increased; therefore, compared with the existing similar products, the structure is favorable for realizing the light and thin design of the lamp and is convenient to process and assemble.

Drawings

Fig. 1 is an exploded view of an embodiment of the present invention;

fig. 2 is a perspective view of an embodiment of the present invention;

fig. 3 is a partial exploded view of an embodiment of the present invention;

fig. 4 is another partial exploded view of an embodiment of the present invention;

fig. 5 is a partial cross-sectional view of a mounting housing of an embodiment of the invention;

fig. 6 is a perspective view of another perspective view of the embodiment of the present invention.

Detailed Description

In order to make the technical field better understand the solution of the present invention, the following detailed description is made with reference to the accompanying drawings and embodiments.

As shown in fig. 1-2 and fig. 6, an embodiment of the present invention provides an ultra-thin floodlight, which includes a mounting housing 1, heat dissipation fins 2 disposed on a back surface of the mounting housing 1, and a glass panel 3 disposed in a front surface of the mounting housing, where the mounting housing 1 is generally made of aluminum alloy by an integral forming process, and a plurality of heat dissipation fins 2 integrally formed with the mounting housing are disposed on a back surface of the mounting housing 1, and the heat dissipation fins are also made together with the mounting housing 1 by the integral forming process; the PCB board 4 and the lens 5 required for the lamp are laid out in the front surface of the mounting case 1, and the opening of the mounting case 1 is closed by the glass panel 3.

As shown in fig. 5, in order to realize the waterproof function of the installation casing 1, a sunken annular waterproof groove 101 is arranged in the front surface of the installation casing 1, and waterproof glue is poured into the waterproof groove 101; the glass panel 3 is covered on the waterproof groove 101. The annular water-proof groove 101 is square, and after the annular water-proof groove 101 is connected with the glass panel 3, liquid can be prevented from entering the installation shell 1 along the contact surface of the glass panel 3 and the annular water-proof groove 101.

As shown in fig. 1 and 3, in order to fix the glass panel 3 in the front surface of the installation housing 1, two installation gaps 103 are respectively arranged in two side plates 102 of the installation housing 1, and a pressing sheet 6 is inserted at each installation gap 103 for fixing the glass panel 3; specifically, in this embodiment, the pressing sheet 6 includes a vertical plate 601, a transverse pressing plate 602 disposed at one end of the vertical plate and integrally formed therewith, and a fixing plate 603 disposed on the vertical plate and having one end protruding out of the inner surface thereof; the other end of the fixing plate 603 is integrally formed with the vertical plate 601; the lateral pressing plate 602 is attached to the glass panel 3, and is used to fix the glass panel 3 to the mounting case 1.

Here, the fixing plate 603 is actually a part of the vertical plate 601, and is processed in such a manner that three slits penetrating through the vertical plate 601 are cut on the vertical plate 601, the three slits are connected to each other, and an area surrounded by the three slits is square, and then one end of the fixing plate 603, which is the end where the fixing plate 603 and the vertical plate are separated from each other, is pushed forcibly, so that the fixing plate is tilted at a certain angle with respect to the vertical plate 601, and thus the fixing plate 603 can be obtained.

The mounting gap 103 comprises a support plate 103a which is formed integrally with the mounting housing 1 and is intended to abut against the upright 601 of the pressure plate 6, i.e. the pressure plate 6 is supported and fixed here by the support plate 103 a.

In the embodiment, the angle between the lateral pressing plate 602 and the vertical plate 601 is a, and 0 ° < a ≦ 90 °. Such as 90 deg., or 80 deg., which angle is determined by the actual need.

As shown in fig. 4 and 6, a cylindrical body 104 integrally formed with the mounting case 1 is provided on the back surface of the mounting case 1, a ventilation column 7 communicating with the inside of the mounting case 1 is provided in the cylindrical body 104, and a waterproof ventilation cap 8 located in the cylindrical body 104 is provided on the ventilation column.

In summary, the floodlight of the utility model adopts the waterproof glue to replace the waterproof adhesive tape between the traditional glass panel 3 and the surface of the installation shell 1, which is not only beneficial to reducing the overall thickness of the lamp, but also convenient for processing and assembling; the installation gap 103 is arranged in the two side plates 102 of the installation shell 1 and used for installing the two pressing sheets 6, so that the requirement of fixing the glass panel 3 is met, and the whole thickness of the lamp is not increased; therefore, compared with the existing similar products, the structure is favorable for realizing the light and thin design of the lamp and is convenient to process and assemble.

In the above description, it should be noted that the terms "mounted," "connected," and the like are used in a broad sense, and for example, they may be fixedly connected, detachably connected, or integrally connected; the connection can be direct connection or indirect connection through an intermediate medium, and the connection between the two components can be internal; the term "mounted" is to be understood as "mounted on" and "disposed on" and includes fixed mounting, movable mounting and the like.

It is to be understood that the above-described embodiments are only some of the embodiments of the present invention, and not all embodiments, and that the appended drawings illustrate preferred embodiments of the present invention, but do not limit the scope of the invention. The present invention may be embodied in many different forms and, on the contrary, these embodiments are provided so that this disclosure will be thorough and complete. All utilize the equivalent structure that the content of the utility model discloses a specification and attached drawing was done, direct or indirect application is in other relevant technical field, all is in the same way the utility model discloses within the patent protection scope.

Claims (6)

1. An ultrathin floodlight comprises a mounting shell, radiating fins arranged on the back surface of the mounting shell and a glass panel arranged in the front surface of the mounting shell, and is characterized in that mounting gaps are respectively arranged in two side plates of the mounting shell, and a pressing sheet is inserted in each mounting gap for fixing the glass panel; the mounting gap includes a support plate integrally formed with the mounting housing for abutting the wafer.

2. The ultra-thin floodlight of claim 1, wherein the pressing plate comprises a vertical plate, a transverse pressing plate integrally formed with the vertical plate at one end thereof, and a fixing plate provided on the vertical plate and having one end protruding from an inner surface thereof; the other end of the fixing plate and the vertical plate are integrally formed; the transverse pressing plate is attached to the glass panel.

3. The ultra-thin floodlight of claim 2, wherein the angle formed by the transverse pressing plate and the vertical plate is a, and is 0 ° < a ≦ 90 °.

4. The ultra-thin floodlight of claim 2, wherein the end of the fixing plate protruding from the inner surface of the standing plate is engaged with the inner wall of the mounting gap.

5. The ultra-thin floodlight of claim 1, wherein a sunken annular waterproof groove is formed in the front surface of the installation housing, and waterproof glue is poured into the waterproof groove; the glass panel cover is arranged on the waterproof groove.

6. The ultra-thin floodlight of claim 1, wherein a cylindrical body is integrally formed on the back of the housing, a ventilation column is disposed in the cylindrical body and communicates with the interior of the housing, and a waterproof ventilation cap is disposed on the ventilation column.

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