CN216591647U - Three-proofing lamp - Google Patents

Abstract

The embodiment of the utility model provides a tri-proof light, it includes lower lamp house subassembly, dome lamp shell and sets up the illuminating part between lower lamp house subassembly and dome lamp shell, is the fixed connection of sealed type between lower lamp house subassembly and the dome lamp shell, and forms airtight cavity between the two, the illuminating part sets up in the cavity; the lower surface of the lower lamp housing component is at least semitransparent; the lower lamp shell assembly comprises an anti-dazzle net, and light emitted by the light emitting piece is emitted outwards from the lower surface of the lower lamp shell assembly after passing through the anti-dazzle net. Thereby the utility model discloses a set up anti-dazzle net in the lower lamp housing subassembly of tri-proof light, let the light that the illuminating part sent outwards outgoing again after passing through anti-dazzle net, the effectual glare that has reduced has promoted the illuminating effect, has also improved user experience.

Description

Three-proofing lamp

Technical Field

The embodiment of the utility model provides a but, relate to but not limited to the illumination field, particularly, relate to but not limited to a tri-proof light.

Background

In the field of lighting, lamps with waterproof, dustproof and anticorrosion functions are changed into three-proofing lamps, and are generally applied to lighting places with strong corrosivity, much dust or rain, such as power plants, steel, petrifaction, ships, venues, parking lots, basements and the like; the application of tri-proof light often pays attention to is illumination function itself, and the simple lamps and lanterns that also have safeguard function then do not pay attention to its actual illuminating effect, lead to the tri-proof light among the prior art to only play the effect of illumination, and actual illuminating effect is not ideal, and user's experience is not good.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a pair of tri-proof light, the main technical problem who solves is that the illuminating effect of tri-proof light is poor among the prior art, and user experience is not good.

In order to solve the technical problem, an embodiment of the present invention provides a tri-proof light, which includes a lower lamp housing assembly, a top lamp housing, and a light emitting element disposed between the lower lamp housing assembly and the top lamp housing, wherein the lower lamp housing assembly and the top lamp housing are fixedly connected in a sealed manner, and a sealed cavity is formed therebetween, and the light emitting element is disposed in the cavity; the lower surface of the lower lamp housing component is at least semitransparent; the lower lamp shell assembly comprises an anti-dazzle net, and light emitted by the light-emitting piece is emitted outwards from the lower surface of the lower lamp shell assembly after passing through the anti-dazzle net.

Optionally, the lower lamp housing assembly includes an anti-glare panel, the anti-glare panel includes the anti-glare mesh and a light-transmitting plate disposed below the anti-glare mesh, and the anti-glare mesh and the light-transmitting plate are integrally formed.

Optionally, the lower lamp shell assembly includes a lamp shade and an anti-glare mesh, the anti-glare mesh is disposed above the lamp shade, and the anti-glare mesh is fixedly connected to the lamp shade and/or the top lamp shell.

Optionally, the shape of the mesh in the antiglare net is honeycomb-shaped, rectangular, triangular or circular.

Optionally, the backlight module further comprises a reflecting plate, wherein the reflecting plate is arranged between the top lamp housing and the light emitting member.

Optionally, the cross-sectional shape of the reflection plate is one of the following:

a plane;

a plane with an edge bent towards the luminous piece;

the arc opening faces the arc surface of the luminous piece.

Optionally, the top lamp shell further comprises at least two pull buckles, the pull buckles are arranged on the outer side of the top lamp shell, bayonets corresponding to the pull buckles are arranged on the outer side of the lower lamp shell assembly, and the pull buckles are fastened with the bayonets to achieve fixed connection between the top lamp shell and the lower lamp shell assembly.

Optionally, each of the pulling buckles is symmetrically arranged on two sides of the top lamp housing in the length direction.

Optionally, a waterproof mounting hole penetrating through the inside and the outside of the top lamp housing is formed in one end face of the top lamp housing, and the mounting hole is used for accommodating a wire penetrating through the inside and the outside of the top lamp housing and supplying power to the light-emitting component.

Optionally, the top surface of the top lamp housing is further provided with at least one mounting portion.

The utility model has the advantages that:

according to the embodiment of the utility model, a tri-proof light comprises a lower lamp shell component, a top lamp shell and a light-emitting piece arranged between the lower lamp shell component and the top lamp shell, wherein the lower lamp shell component and the top lamp shell are fixedly connected in a sealing way, a sealed cavity is formed between the lower lamp shell component and the top lamp shell, and the light-emitting piece is arranged in the cavity; the lower surface of the lower lamp housing component is at least semitransparent; the lower lamp shell assembly comprises an anti-dazzle net, and light emitted by the light emitting piece is emitted outwards from the lower surface of the lower lamp shell assembly after passing through the anti-dazzle net. Thereby the utility model discloses a set up anti-dazzle net in the lower lamp housing subassembly of tri-proof light, let the light that the illuminating part sent outwards outgoing again after passing through anti-dazzle net, the effectual glare that has reduced has promoted the illuminating effect, has also improved user experience.

Other features and corresponding advantages of the invention are set forth in the following part of the specification, and it is to be understood that at least some of the advantages become apparent from the description of the invention.

Drawings

Fig. 1 is a schematic structural view of a tri-proof light in an embodiment of the present invention;

fig. 2 is an explosion diagram of a tri-proof light structure in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings by way of specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, the tri-proof light provided in this embodiment includes a lower lamp housing assembly 1, a top lamp housing 2, and a light emitting element disposed between the lower lamp housing assembly 1 and the top lamp housing 2, wherein the lower lamp housing assembly 1 and the top lamp housing 2 are fixedly connected in a sealed manner, and a sealed cavity is formed therebetween, and the light emitting element is disposed in the cavity; the lower surface of the lower lamp housing component 1 is at least semitransparent; the lower lamp housing assembly 1 includes an anti-glare mesh 12 therein, and light emitted from the light emitting member passes through the anti-glare mesh 12 and then exits from the lower surface of the lower lamp housing assembly 1.

The tri-proof light in the embodiment has the effects of water resistance, dust resistance and corrosion resistance, and can be applied to various places with strong corrosion, dusty soil and much water; the tri-proof light has the advantages that the tri-proof light is effective in that the light structure can at least avoid the influence of the outside on components such as a circuit and a light emitting piece, so that the tri-proof light can still ensure the illumination function under the environment.

The main structure of the tri-proof light in the embodiment comprises three components, namely a lower light housing component 1, a top light housing 2 and a light emitting piece arranged between the lower light housing component 1 and the top light housing 2; wherein, the connection between lower lamp housing subassembly 1 and dome lamp shell 2 is the fixed connection of closed, and the cavity that forms between the two is airtight, and this airtight space can completely cut off the invasion of steam, dust at least, guarantees the waterproof dustproof of the part in the cavity. In order to realize this function, can usually realize sealedly through setting up the sealed rubber ring at each connection position of tri-proof light, because the elasticity of sealed rubber ring, can set up sealed rubber ring with the size that is greater than the space of connection position, then through the extrusion to sealed rubber ring for the clearance between the connection position is filled up, thereby realizes waterproof dustproof. Specifically, in the present embodiment, the connection between the lower lamp housing assembly 1 and the top lamp housing 2 can be realized by a sealing rubber ring to realize a sealed fixed connection therebetween. In addition to the connection between the lower lamp housing assembly 1 and the top lamp housing 2, the connections between other components in the tri-proof lamp in the embodiment may be sealed and fixed by a sealing rubber ring.

The top lamp shell 2 is arranged for the first purpose of realizing the installation of all parts in the tri-proof lamp, particularly a luminous part; secondly, in order to realize the sealing function of the tri-proof light, the tri-proof light needs to be matched with the lower lamp housing component 1; third, 2 outsides in the dome lamp shell can set up corresponding installed part, and this installed part can make the tri-proof light can install in work or life place through modes such as hoist and mount. Wherein, the illuminating part can be directly fixed on the top lamp shell 2, and also can be indirectly fixed on the top lamp shell 2 through other mounting plates, namely the mounting plate is fixedly connected with the top lamp shell 2, and the illuminating part is fixedly connected with the mounting plate.

In the accommodating cavity formed by the top lamp housing 2 and the lower lamp housing assembly 1, in addition to the light emitting element, other electronic devices including but not limited to a driver may be provided, and the driver is connected to the light emitting element for controlling the light emission of the light emitting element, which may include controlling the on/off, brightness, color, and the like of the light emitting element. In addition, some other necessary or unnecessary electronic devices may be included and may be disposed in the receiving cavity formed by the top lamp housing 2 and the bottom lamp housing assembly 1.

In the tri-proof light of the present embodiment, the lower lamp housing assembly 1 includes the anti-glare mesh 12, so that the light emitted by the light-emitting member passes through the anti-glare mesh 12 and then exits outward. The setting of anti-dazzle net 12 can soft the light that the illuminating part sent, avoids the injury that the glare caused the people's eye, and the effectual use that improves the tri-proof light is experienced.

In the specific structure of the antiglare net 12, the shape of the mesh in the antiglare net 12 may be specifically honeycomb-shaped, rectangular, triangular, or circular. The shape of each mesh can be set according to the light-emitting intensity of the light-emitting member, the shape of the tri-proof light and the like.

In some embodiments, the lower lamp housing assembly 1 may specifically include an antiglare plate including an antiglare net and a light-transmitting plate disposed below the antiglare net, the antiglare net and the light-transmitting plate being integrally formed. The lower lamp shell component is a main part of the lower half part of the tri-proof lamp, and the functions of the lower lamp shell component comprise anti-dazzle and light transmission; in order to realize the functions of anti-dazzle and light transmission, the lower lamp shell component 1 can directly comprise an integrated anti-dazzle plate, the structure of the anti-dazzle plate comprises an anti-dazzle net and a light transmission plate, and the anti-dazzle net and the light transmission plate are integrally formed, so that the anti-dazzle and light transmission functions can be realized simultaneously through one component, and the anti-dazzle and light transmission functions are integrally manufactured through plastic processing technologies such as injection molding and the like. The lower housing assembly 1 may also include other parts, such as an intermediate member for connecting the glare shield to the dome housing 2 may be further provided above the glare shield, or the glare shield may be directly connected to the dome housing 2.

In some embodiments, the lower lamp housing assembly 1 may specifically include a lampshade 11 and an anti-glare mesh 12, the anti-glare mesh 12 is disposed above the lampshade 11, and the anti-glare mesh 12 is fixedly connected with the lampshade 11 and/or the top lamp housing 2. The anti-dazzle and light-transmitting functions in the lower lamp housing assembly 1 can be realized by the anti-dazzle plate which is integrally formed in the above embodiment, and can also be separately arranged, that is, the anti-dazzle net 12 is used as a separate component in the lower lamp housing assembly 1, and the lower lamp housing assembly 1 further comprises a lampshade 11 which is equivalent to the lampshade 11 and the anti-dazzle net 12 which jointly form the lower lamp housing assembly 1; the lampshade 11 and the anti-dazzle net 12 are separated, the anti-dazzle net 12 is arranged above the lampshade 11, and light emitted by the light-emitting piece passes through the anti-dazzle net 12 and then is emitted out through the lampshade 11.

In order to fix the antiglare net 12, the antiglare net 12 may be fixedly connected with the lampshade 11 by fasteners, including but not limited to snaps, threaded fasteners, and the like; in addition, the antiglare net 12 may be fixedly connected with the dome lamp housing 2.

In some embodiments, a reflective plate 3 may be further included, and the reflective plate 3 is disposed between the top light housing 2 and the light emitting element. The position that sets up of reflecting plate 3 is equivalent to the top at the illuminating part, and the light that the illuminating part sent like this, if the direction of outgoing is lamp housing subassembly 1 down dorsad, just can pass through after reflecting plate 3 reflects, lamp housing subassembly 1 is outwards outgoing again down, can promote the luminous utilization ratio of illuminating part to promote light brightness.

In some embodiments, the cross-sectional shape of the reflection plate 3 may specifically be one of:

a plane;

a plane with an edge bent towards the luminous piece;

the arc opening faces the arc surface of the luminous piece. The form of the reflecting plate 3 can be a plane directly, namely a flat reflecting plate 3, and the reflecting plate 3 is convenient to arrange, but the reflecting effect is general; or the LED lamp can also be a plane plate with folded edges, and the folded edges are folded towards the light-emitting piece, so that light can be reflected better, and the LED lamp has a better reflection effect compared with a pure plane plate; the reflecting plate 3 can also be an arc surface, and the opening direction of the reflecting plate faces the light-emitting piece, so that the light can be converged besides the reflection of the light, and the brightness of the emergent light can be improved.

In some embodiments, at least two pulling buckles 21 may be further included, the pulling buckle 21 is disposed on an outer side of the top lamp housing 2, a bayonet corresponding to the pulling buckle 21 is disposed on an outer side of the lower lamp housing assembly 1, and the pulling buckle 21 is fastened to the bayonet to realize the fixed connection between the top lamp housing 2 and the lower lamp housing assembly 1. In order to realize the fixed connection between the top lamp housing 2 and the lower lamp housing assembly 1, besides the conventional realization through the threaded fastener, the connection can also be realized through the matching of the pulling buckle 21 and the bayonet. The pull buckle 21 is arranged on the outer side of the ceiling lamp shell 2, is movably connected with the ceiling lamp shell 2 through a hinge, and can be connected with the ceiling lamp shell 2 in an opening and closing manner based on the rotation of the hinge; the end of the pull buckle 21 can be matched with the bayonet arranged on the outer side of the lower lamp shell assembly 1, and the end of the pull buckle 21 is buckled with the bayonet in a closed state, so that the top lamp shell 2 is fixedly connected with the lower lamp shell assembly 1.

In some embodiments, the pulling buckles 21 are symmetrically disposed on both sides of the top light housing 2 in the length direction. The number of the pulling buckles 21 is even, and the number and the positions of the pulling buckles 21 can be correspondingly set according to the length of the tri-proof light and the connection stability; the more the number of the tab 21 is set, the higher the stability of the mounting.

In some embodiments, a waterproof mounting hole 22 is disposed on one of the end surfaces of the top light housing 2 and penetrates through the top light housing 2, and the mounting hole is used for accommodating a wire penetrating through the top light housing 2 to supply power to the light emitting element. The waterproof mounting hole 22 is formed in the end face of the dome lamp housing 2 in the length direction, so that wires can penetrate through the inside and the outside of the dome lamp housing 2, and power supply for the light-emitting part is achieved.

In some embodiments, at least one mounting portion 23 may be further provided on the top surface of the dome housing 2. The mounting part 23 is arranged on the top surface of the top lamp shell 2, so that the tri-proof light can be hoisted, or the mounting part 23 is directly mounted on a ceiling or other positions; alternatively, the tri-proof light may be attached to a vertical wall surface through the attaching portion 23.

The embodiment of the utility model provides a tri-proof light, which comprises a lower lamp shell component 1, a top lamp shell 2 and a light-emitting piece arranged between the lower lamp shell component 1 and the top lamp shell 2, wherein the lower lamp shell component 1 and the top lamp shell 2 are fixedly connected in a sealing way, a sealed cavity is formed between the lower lamp shell component 1 and the top lamp shell 2, and the light-emitting piece is arranged in the cavity; the lower surface of the lower lamp housing component 1 is at least semitransparent; the lower lamp housing assembly 1 includes an anti-glare mesh 12 therein, and light emitted from the light emitting member passes through the anti-glare mesh 12 and then exits from the lower surface of the lower lamp housing assembly 1. Thereby the utility model discloses a set up anti-dazzle net 12 in the lower lamp house subassembly 1 of tri-proof light, let the light that the illuminating part sent outwards outgoing again after passing through anti-dazzle net 12, the effectual glare that has reduced has promoted illuminating effect, has also improved user experience.

The foregoing is a more detailed description of embodiments of the present invention, and the specific embodiments are not to be considered in a limiting sense. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A tri-proof light is characterized by comprising a lower light housing component, a top light housing and a light-emitting piece arranged between the lower light housing component and the top light housing, wherein the lower light housing component and the top light housing are fixedly connected in a sealing manner, a sealed cavity is formed between the lower light housing component and the top light housing, and the light-emitting piece is arranged in the cavity; the lower surface of the lower lamp housing component is at least semitransparent; the lower lamp shell assembly comprises an anti-dazzle net, and light emitted by the light-emitting piece is emitted outwards from the lower surface of the lower lamp shell assembly after passing through the anti-dazzle net.

2. The tri-proof light of claim 1, wherein the lower lamp housing assembly comprises an anti-glare panel comprising the anti-glare mesh and a light-transmissive plate disposed below the anti-glare mesh, the anti-glare mesh being integrally formed with the light-transmissive plate.

3. The tri-proof light of claim 1, wherein the lower lamp housing assembly comprises a lampshade and the anti-dazzle net, the anti-dazzle net is arranged above the lampshade, and the anti-dazzle net is fixedly connected with the lampshade and/or the top lamp housing.

4. The tri-proof light of claim 1, wherein the shape of the mesh in the antiglare net is honeycomb, rectangular, triangular, or circular.

5. The tri-proof light of any one of claims 1 to 4, further comprising a reflector plate disposed between the top light housing and the light emitting member.

6. The tri-proof light of claim 5, wherein the cross-sectional shape of the reflector plate is one of:

a plane;

a plane with an edge bent towards the luminous piece;

the arc opening faces the arc surface of the luminous piece.

7. The tri-proof light according to any one of claims 1 to 4, further comprising at least two pull buckles, wherein the pull buckles are disposed on the outer side of the top light housing, the outer side of the lower light housing assembly is provided with bayonets corresponding to the pull buckles, and the pull buckles are fastened with the bayonets to realize the fixed connection between the top light housing and the lower light housing assembly.

8. The tri-proof light of claim 7, wherein each of the pulling buckles is symmetrically arranged on two sides of the top light housing in the length direction.

9. The tri-proof light as claimed in any one of claims 1 to 4, wherein a waterproof mounting hole is formed on one end surface of the top light housing and penetrates through the top light housing, and the mounting hole is used for accommodating a wire penetrating through the top light housing to supply power to the light emitting element.

10. The tri-proof light of any one of claims 1 to 4, wherein the top surface of the top light housing is further provided with at least one mounting portion.

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