CN211694594U - Lighting ceiling lamp light equalizing device for anti-dazzle indoor building - Google Patents

Abstract

The utility model provides an anti-dazzle indoor lighting ceiling lamp light equalizing device for building, which comprises a lamp body, wherein the lamp body is provided with a light-emitting unit and a connecting piece, the connecting piece can hang the lamp body on the top of a building, a refraction light-transmitting component is provided with an installation part for installing the light-emitting unit, the installation part for installing the light-emitting unit is arranged on the upper surface of the refraction light-transmitting component, the lamp body is integrally equalized to achieve the anti-dazzling effect by arranging the refraction light-transmitting component, on one hand, the refraction light-transmitting component is suspended in the high altitude of the indoor building, and can equalize the light towards the lower part to achieve the uniform distribution of the light by virtue of the light transmitting and refraction effects, and simultaneously has the effect of a light source installation base, the lamp is widely suitable for indoor lighting lamps such as ceiling lamps and the like suspended in high altitude.

Description

Lighting ceiling lamp light equalizing device for anti-dazzle indoor building

Technical Field

The application relates to the field of ceiling lamps, in particular to an anti-dazzle lighting ceiling lamp light equalizing device for indoor buildings.

Background

A pendant is one form of light fixture. Usually, the lamp body of the ceiling lamp is separated from the ceiling by a certain distance, and the lamp is connected by a conduit and an electric wire. Except providing the illumination, because it can suspend in midair in the interior architecture's half empty, the ceiling lamp still has the effect of decorating, compares in traditional ceiling lamp, has aesthetic feeling and sight value more, consequently, more and more interior architectures choose the ceiling lamp as the light source and promote pleasing to the eye degree, is particularly useful for in the space that the requirement is higher to pleasing to the eye degree such as family, hotel, market.

Today, LED technology is being widely used in the field of ceiling lamps. With the development and popularization of the LED lamp technology, by means of the characteristics of low energy consumption, easy adjustment of color brightness and small and exquisite lighting units, the ceiling lamp can have lower energy consumption and can improve the color diversification of the ceiling lamp by applying the LED technology to the ceiling lamp, and the ceiling lamp can have better shape by applying the LED technology under the common condition.

However, the ceiling lamp is different from a conventional small lamp, the lamp body of the ceiling lamp is hung on the top of a building and provides space illumination from the top of the building to the bottom, if a common high-power LED device is directly used as a light source of the ceiling lamp, the problem of glare mainly exists, the problem is mainly reflected in that the point light source effect of the LED device is obvious, the light intensity of a unit area is extremely high, and when people look straight, the light can hurt human eyes.

In order to solve the problem, in the prior art, a light distribution lens is often adopted to perform secondary light distribution on light emitted by an LED device, and although the manner can effectively reduce the situation of too concentrated illumination through a refraction manner, the disadvantages of the manner are that the cost is increased, the process is complicated, and the manner of largely adopting the LED lens can significantly increase the self weight of a lamp body, thereby bringing about the difficult problem of installation and fixation of a suspended lamp.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at: the light equalizing device of the anti-glare ceiling lamp for the indoor building is capable of preventing glare, is stable and firm after installation, and is more uniform in emergent light distribution.

The utility model provides a specific technical scheme as follows:

the light equalizing device comprises a lamp body, wherein the lamp body is provided with a light emitting unit and a connecting piece, the connecting piece can be used for hanging the lamp body on the top of a building, the lamp body is also provided with a plurality of refraction and light transmission parts, the refraction and light transmission parts are provided with installation parts for installing the light emitting unit, the installation parts for installing the light emitting unit are positioned on the upper surface of the refraction and light transmission parts, and the refraction and light transmission parts are of strip-shaped structures; the refraction light-transmitting part is provided with at most one mounting part; the connecting piece comprises a sling, the top of the sling is connected with the top of a building, the bottom of the sling is fixedly connected with the refraction and light transmission part, and each refraction and light transmission part is connected with two slings.

Preferably, the light emitting unit arranged in the mounting part of the refraction and light transmission part comprises an LED lamp bead.

Preferably, the refraction and light transmission part is in a strip shape, two wings of the refraction and light transmission part are respectively connected with two slings, and the two slings on the refraction and light transmission part are arranged in a bilateral symmetry mode with the center of the refraction and light transmission part in the length direction.

Preferably, the light-transmitting refractive member is suspended by two slings having different lengths, and the two slings having different lengths suspend the light-transmitting refractive member in a posture inclined in the longitudinal direction.

Preferably, the light-emitting unit, the connecting member and the light-refracting and transmitting member of the lamp body are arranged to form a first lamp group, a second lamp group and a third lamp group, the second lamp group is located in the transverse middle of the lamp body, the first lamp group and the third lamp group of the lamp body are arranged on two sides of the second lamp group, and the light-emitting unit and the connecting member of the lamp body are distributed on the first lamp group, the second lamp group and the third lamp group.

Preferably, the length of the refraction and light transmission part is 50-200 times of the diameter of the LED lamp bead.

Preferably, the thickness of the refractive and light-transmitting member at both ends in the longitudinal direction is larger than the thickness of the refractive and light-transmitting member at the middle portion.

Preferably, the refraction and light transmission part is made of glass.

Preferably, a light refraction structure is arranged inside the refraction and transmission component, and the light refraction structure comprises a hollow bubble structure arranged inside the refraction and transmission component.

By adopting the structure, the integral light equalization is carried out on the lamp body by arranging the refraction and light transmission part to play a role in preventing dazzling, on one hand, the refraction and light transmission part is provided with the installation part capable of installing the LED lamp beads and is positioned on the upper surface of the refraction and light transmission part, the refraction and light transmission part is suspended in the high altitude of an indoor building, the light equalization can be carried out on the light towards the lower part to realize the uniform distribution of the light by virtue of the light transmission and refraction effects of the refraction and light transmission part, the refraction and light transmission part refracts the light emitted by the lamp body, the refraction effect can generate gradually changed light intensity along with the difference of the distance of the light source, the square distribution suitable for the illumination of the indoor building is favorably formed, the refraction and light transmission part not only can solve the dazzling problem of glare, but also has the function of a light source installation base, has the functions of installation structural parts such as a lens and the installation base, the ceiling lamp suspension structure is beneficial to installation and has the beneficial effect of improving the stability of the overall suspension of the ceiling lamp, and is widely suitable for indoor lighting lamps such as the ceiling lamp and the like suspended in high altitude.

Drawings

Fig. 1 is a front view of the light equalizing device of the lighting ceiling lamp for anti-glare indoor building of the present invention;

fig. 2 is a schematic structural view of the lamp body of the light equalizing device of the anti-glare ceiling lamp for indoor building;

fig. 3 is a schematic view of the connection structure of the light equalizing device of the lighting ceiling lamp for anti-glare indoor building of the present invention;

FIG. 4 is a schematic structural view of an embodiment of a refractive, light-transmissive component of the present invention;

fig. 5 is a schematic structural view of another embodiment of the middle refractive light-transmitting member according to the present invention;

fig. 6 is a schematic structural view of another embodiment of the middle refractive light-transmitting member according to the present invention;

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present application without any creative effort belong to the protection scope of the present application.

Referring to fig. 1 to 3, the lighting ceiling lamp light equalizing device for the anti-glare indoor building of the present embodiment includes a lamp body, the lamp body is provided with a light emitting unit and a connecting member, the connecting member can suspend the lamp body on the top of the building, so as to provide a suspending tension for the lamp body, the top of the building for suspending the lamp body in the present embodiment includes a decorative ceiling 1, which is pre-embedded and reinforced by 18mm multi-layer boards, and a steel wire fixing device is provided between the decorative ceiling and a suspension cable 4, as an implementation manner, the present embodiment adopts a steel wire wiya wire with a diameter of 1.6mm as the suspension cable 4. The light equalizing device of the anti-glare lighting ceiling lamp for the indoor building is suitable for ceiling lamps, the ceiling lamp comprises a lamp body, the lamp body is provided with a plurality of refraction and light transmission parts 3, each refraction and light transmission part 3 is provided with an installation part for installing a light-emitting unit, the installation part for installing the light-emitting unit is positioned on the upper surface of each refraction and light transmission part 3, and each refraction and light transmission part 3 is of a long strip-shaped structure; the refractive and light-transmitting member 3 is at most provided with one mounting portion, and the light-emitting units arranged in the mounting portions of the refractive and light-transmitting member 3 include LED beads 2, so that each refractive and light-transmitting member 3 can mount at most one LED bead 2, as a preferred embodiment, in order to achieve more uniform distribution of an optical field, a part of the refractive and light-transmitting members 3 in this embodiment are provided with mounting portions and the LED beads 2 are arranged in the mounting portions, while another part of the refractive and light-transmitting members 3 in this embodiment are provided with mounting portions, but no LED bead 2 is arranged in the mounting portions, in other embodiments, one LED bead 2 may be arranged in the mounting portions of all the refractive and light-transmitting members 3, so as to further improve the illumination intensity, the light-emitting units in this embodiment include LED beads 2, as a well-known technology in the art, the LED beads 2 in this embodiment include LED chips, As a preferred embodiment, the light-refracting and transmitting member 3 is long and the width thereof is non-uniform, as shown in fig. 4 to 6, the middle of the light-refracting and transmitting member 3 along the length direction is a narrow part, the thickness of the end of the light-refracting and transmitting member 3 is greater than the width of the narrow part, in other words, in the length direction of the light-refracting and transmitting member 3, the thickness at the two ends is greater than the thickness at the middle of the light-refracting and transmitting member, and the LED lamp beads 2 are disposed at the end of the light-refracting and transmitting member 3, that is: LED lamp pearl 2 sets up in the great position of the 3 thickness of refraction light-transmitting part to provide more excellent scattering effect, reduce glare dazzling, the connecting piece includes hoist cable 4, and the top of hoist cable 4 is connected with the top of building, and the bottom and the 3 fixed connection of refraction light-transmitting part of hoist cable 4, every refraction light-transmitting part 3 all is connected with two hoist cables 4. By adopting the structure, the integral light equalization is carried out on the lamp body by arranging the refraction and transmission part 3 to play a role of anti-dazzling, on one hand, because the refraction and transmission part 3 is provided with the installation part which can be used for installing the LED lamp bead 2 and is positioned on the upper surface of the refraction and transmission part 3, the refraction and transmission part 3 is suspended in the high altitude of an indoor building, the light toward the lower part can be equalized to realize the uniform distribution of the light by virtue of the light transmission and refraction effects, the refraction and transmission part 3 refracts the light emitted by the lamp body, the refraction effect can generate gradually changed light intensity along with the difference of the distance of the light source, the dazzling problem caused by the direct downward irradiation of an LED point light source is avoided, the formation of the square distribution suitable for the illumination of the indoor building is facilitated, the refraction and transmission part 3 not only can solve the dazzling problem, but also has the function of a light source installation base, the LED ceiling lamp has the advantages that the LED ceiling lamp has the functions of mounting structural members such as lenses and mounting bases, the problem that an indoor building ceiling lamp is complex in structure and difficult to stably mount is solved, the installation is facilitated, the beneficial effect that the overall suspension stability of the ceiling lamp can be improved is achieved, the LED ceiling lamp is widely applicable to indoor lighting lamps suspended in high altitude, the LED lamp beads 2 of the embodiment adopt an LED COB structure with the color temperature of 3000K, and the length of the refraction and light transmission member is 50-200 times of the diameter of the LED lamp beads 2. As a preferred embodiment, the refractive and transparent member 3 is made of glass, and the refractive and transparent member 3 is made of glass with bubbles blown by hand, and the light refraction structure is provided inside the refractive and transparent member 3 and includes a hollow bubble structure provided inside the refractive and transparent member 3. By adopting the structure, the LED lamp bead 2 can be secondarily refracted with the hollow bubble structure inside the refraction light-transmission part 3, and the illumination uniformity is further improved.

In a preferred embodiment, two slings 4 are connected to each of both wings of the light transmissive and refractive member 3, the two slings 4 on the light transmissive and refractive member 3 are symmetrically disposed at the center in the longitudinal direction of the light transmissive and refractive member 3 so that the center of gravity of the light transmissive and refractive member 3 after being suspended is maintained at the center of gravity, thereby providing a better mounting stability, and further, the light transmissive and refractive member 3 is suspended by two slings 4 having different lengths, and the light transmissive and refractive member 3 is suspended by two slings 4 having different lengths in such a manner that the light transmissive and refractive member 3 is inclined in the longitudinal direction. Adopt such structure, mode through 3 slopes with refraction printing opacity parts makes 3 whole slope gesture distributions in the space of refraction printing opacity parts, compare in traditional structure along the horizontal direction, can effectively utilize the wind of horizontal direction in the environmental space to dispel the heat with the help of the space difference by 3 slopes produced direction of height of refraction printing opacity parts, thereby produce better heat-sinking capability, the LED device that makes to be located the top has stable operational environment temperature, thereby make LED device work more stable, the life of extension ceiling lamp, and simultaneously, such slope design also can make irradiant distribution wider, promote indoor irradiant homogeneity.

As a preferred embodiment, the light emitting units, the connecting members and the light refracting and transmitting members 3 of the lamp bodies are arranged to form a first lamp group 1a, a second lamp group 1b and a third lamp group 1c, the second lamp group 1b is located at the transverse middle part of the lamp body, the first lamp group 1a and the third lamp group 1c of the lamp bodies are arranged at two sides of the second lamp group 1b, and the light emitting units and the connecting members of the lamp bodies are distributed on the first lamp group 1a, the second lamp group 1b and the third lamp group 1 c. By adopting the structure, the lamp body formed by combining the plurality of lamp groups which are mutually overlapped can effectively improve the overall illumination intensity and uniformity of the lamp body, the problem that glare is caused by directly seeing the LED lamp beads 2 when the lamp body is seen from all directions of an indoor building is solved, the square width can be improved, and the uniformity of illumination distribution of the indoor building is ensured.

While preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all changes and modifications that fall within the true scope of the embodiments of the present application.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present application without departing from the spirit and scope of the embodiments of the present application. Thus, if such modifications and variations of the embodiments of the present application fall within the scope of the claims of the embodiments of the present application and their equivalents, the embodiments of the present application are also intended to include such modifications and variations.

Claims (9)

1. The utility model provides an even light device of illumination ceiling lamp for anti-dazzle indoor building, includes the lamp body, the lamp body is provided with luminescence unit and connecting piece, the connecting piece can hang the lamp body in the top of building, its characterized in that: the lamp body is also provided with a plurality of refraction light-transmitting parts, each refraction light-transmitting part is provided with an installation part for installing the light-emitting unit, the installation part for installing the light-emitting unit is positioned on the upper surface of the refraction light-transmitting part, and the refraction light-transmitting part is in a long strip-shaped structure; the refraction light-transmitting part is provided with at most one mounting part; the connecting piece comprises a sling, the top of the sling is connected with the top of a building, the bottom of the sling is fixedly connected with the refraction and light transmission part, and each refraction and light transmission part is connected with two slings.

2. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 1, wherein: the light emitting unit arranged in the mounting part of the refraction and light transmission part comprises an LED lamp bead.

3. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 1, wherein: the refraction light-transmitting part is in a strip shape, two wings of the refraction light-transmitting part are respectively connected with two slings, and the two slings on the refraction light-transmitting part are arranged in a bilateral symmetry mode with the center of the refraction light-transmitting part in the length direction.

4. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 3, wherein: the refraction and light transmission part is suspended by two suspension ropes with different lengths, and the two suspension ropes with different lengths suspend the refraction and light transmission part in a posture inclined along the length direction.

5. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 1, wherein: the light-emitting unit, the connecting piece and the refraction light-transmitting part of the lamp body are arranged to form a first lamp group, a second lamp group and a third lamp group, the second lamp group is located in the transverse middle of the lamp body, the first lamp group and the third lamp group of the lamp body are arranged on two sides of the second lamp group, and the light-emitting unit and the connecting piece of the lamp body are distributed on the first lamp group, the second lamp group and the third lamp group.

6. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 1, wherein: the length of the refraction light-transmitting part is 50-200 times of the diameter of the LED lamp bead.

7. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 1, wherein: the thickness of the two end parts is larger than that of the middle part of the refraction and transmission part in the length direction of the refraction and transmission part.

8. The light equalizing device of any one of claims 1 to 7, wherein: the refraction light-transmitting component is made of glass.

9. The light equalizing device of the ceiling lamp for the anti-glare indoor building of claim 7, wherein: the inside of refracting light-transmitting component is provided with the light refraction structure, the light refraction structure is including setting up in the inside cavity bubble structure of refracting light-transmitting component.

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