CN210485432U - Floodlight - Google Patents

Abstract

The utility model relates to a floodlight, which comprises a lamp component and a rotating bracket, wherein the rotating bracket is arranged on the lamp component, and the lamp component can rotate relative to the rotating bracket; the lamp assembly comprises at least two lamp bodies and a plurality of rotating shafts, the lamp bodies are sequentially connected and arranged, the two adjacent lamp bodies are connected through the rotating shafts, and the two adjacent lamp bodies can rotate relative to the rotating shafts. The utility model discloses the floodlight accessible whole rotatory lamp subassembly that provides adjusts the irradiation angle among the technical scheme, can also adjust the light irradiation angle of floodlight through the arbitrary lamp body in the rotatory lamp light subassembly, and then, the effectual irradiatable scope that has improved the floodlight. In addition, the floodlight has the advantages of simple structure, easy operation and better applicability.

Description

Floodlight

Technical Field

The utility model relates to the technical field of lighting fixtures, especially, relate to a floodlight.

Background

LED floodlights are lighting fixtures that use LEDs as light sources and that emit light at angles typically greater than 90 ° relative to the large angle of light emitted by a spotlight.

With the continuous development of LED light source technology, a floodlight using an LED as a light source is increasingly applied. After the LED floodlight in the existing application is installed, the light irradiation angle is generally 120 degrees, the light emitting angle of each lamp is fixed and cannot be adjusted, when a user needs to illuminate more than 120 degrees or even a larger range, a single lamp cannot be completely met, and the requirement can be met only by installing 2 or even more independent lamps. This results in more time wasted for the customer to install the application, and also requires more space to install and place multiple independent light fixtures.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a floodlight with an improved installation and fixation structure, the illumination range of the floodlight can be adjusted in real time according to the actual situation of the application place, the illumination range of the floodlight is effectively improved, and the installation working time and space are reduced; in addition, the floodlight is simple in installation and application structure, easy to operate and good in applicability.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a floodlight comprises a lamp component and a rotating bracket, wherein the rotating bracket is arranged on the lamp component, and the lamp component can rotate relative to the rotating bracket; the lamp assembly comprises at least two lamp bodies and a plurality of rotating shafts, the lamp bodies are sequentially connected and arranged, the two adjacent lamp bodies are connected through the rotating shafts, and the two adjacent lamp bodies can rotate relative to the rotating shafts.

Further, the lamp assembly includes a first lamp body and a second lamp body, the first lamp body forms first protrusions at both ends of a side surface facing the second lamp body, the second lamp body forms second protrusions at both ends of a side surface facing the first lamp body, and the first protrusions and the second protrusions are connected through the rotation shaft.

Further, the rotating bracket is mounted on the rotating shaft.

Further, the lamp unit may further include a third lamp body, wherein the second lamp body may have third protrusions formed at both ends of a side surface thereof facing the third lamp body, the third lamp body may have fourth protrusions formed at both ends of a side surface thereof facing the second lamp body, and the third protrusions and the fourth protrusions may be connected to each other through the rotation shaft.

Further, the rotating bracket is mounted on a side surface of the second lamp body, and the second lamp body is rotatable with respect to the rotating bracket.

Further, above-mentioned floodlight still includes spacing knob, and above-mentioned spacing knob is used for spacing above-mentioned runing rest on above-mentioned lamp subassembly.

Further, the rotating bracket is a U-shaped bracket.

Furthermore, the U-shaped bracket comprises a bottom plate and two side plates, two ends of the bottom plate are respectively connected with the side plates, and the two side plates are rotatably connected with the lamp assembly.

Furthermore, a plurality of mounting holes are formed in the bottom plate.

Further, a waterproof nut is arranged on the surface, facing the rotating support, of the lamp assembly.

Compared with the prior art, the beneficial effects of the utility model reside in that:

according to the floodlight provided by the technical scheme, the rotating support is arranged on the lamp component, and the lamp component can rotate relative to the rotating support, so that a worker can adjust the irradiation range in a mode of integrally rotating the lamp component; this floodlight still carries out the rotation type installation through the rotation axis between a plurality of adjacent lamp bodies with in the lamps and lanterns subassembly, and then, the staff except can adjust irradiation range through whole rotatory light subassembly, can also adjust irradiation range through rotating arbitrary lamp body in the light subassembly, the effectual irradiatable range that has improved floodlight. In addition, the floodlight has the advantages of simple structure, easy operation and better applicability.

Drawings

Fig. 1 is a schematic structural diagram of a floodlight according to a first embodiment of the present invention.

Fig. 2 is a schematic view of the floodlight shown in fig. 1 at another viewing angle.

Fig. 3 is a schematic view of the floodlight shown in fig. 1 at another viewing angle.

Fig. 4 is a schematic structural diagram of the lamp assembly shown in fig. 1.

Fig. 5 is a schematic structural diagram of a floodlight according to a second embodiment of the present invention.

Fig. 6 is a schematic view of the floodlight shown in fig. 5 at another viewing angle.

Fig. 7 is a schematic view of the floodlight shown in fig. 5 at another viewing angle.

Fig. 8 is a schematic structural diagram of the lamp assembly shown in fig. 5.

100. A floodlight; 10. a lamp assembly; 11. a lamp body; 11a, a first lamp body; 11b, a second lamp body; 11c, a third lamp body; 111. a first convex portion; 112. a second convex portion; 113. a third convex portion; 114. a fourth convex portion; 12. a rotating shaft; 20. rotating the bracket; 21. a base plate; 22. a side plate; 23. mounting holes; 30. a limit knob; 40. a waterproof nut.

Detailed Description

The present invention will now be described in more detail with reference to the accompanying drawings, in which the description of the invention is given by way of illustration and not of limitation. The various embodiments may be combined with each other to form other embodiments not shown in the following description.

Example one

Referring to fig. 1 to 4, in the first embodiment of the present invention, a floodlight 100 is provided, the irradiation range of the floodlight 100 can satisfy different irradiation requirements, that is, the worker can adjust the irradiation angle of the floodlight 100 according to the actual situation, and the floodlight 100 has a simple structure, and the irradiation angle is easy to control.

The floodlight 100 comprises: a lamp assembly 10 and a rotating bracket 20, wherein the rotating bracket 20 is mounted on the lamp assembly 10, and the lamp assembly 10 can rotate relative to the rotating bracket 20, that is: when the staff need adjust floodlight 100's irradiation range, the accessible rotates luminaire assembly 10 and realizes floodlight 100 and shine the adjustment of angle to reach the effect of adjustment floodlight 100 irradiation range, need not this floodlight 100 of manual dismouting of staff, simplify the operation process of adjustment irradiation range.

The lamp assembly 10 includes at least two lamp bodies 11 (i.e., a first lamp body 11a and a second lamp body 11b) and a plurality of rotating shafts 12, wherein the lamp bodies 11 are sequentially connected to each other, two adjacent lamp bodies 11 are connected to each other through the rotating shafts 12, and the two adjacent lamp bodies 11 can rotate relative to the rotating shafts 12.

It can be understood that: in this embodiment, the first lamp body 11a and the second lamp body 11b can rotate based on the rotation shaft 12, that is, the included angle between the first lamp body 11a and the second lamp body 11b can be different according to the rotation degree, so that the irradiation angles of the first lamp body 11a and the second lamp body 11b can be adjusted in real time.

It can be understood that the manner of adjusting the illumination range of the luminaire 100 provided in this embodiment includes:

firstly, the lamp assembly 10 rotates relative to the rotating bracket 20 to adjust the irradiation angle of the lamp assembly 10;

second, the first lamp body 11a and the second lamp body 11b are rotated with respect to the rotation shaft 12 to adjust the irradiation angles of the first lamp body 11a and the second lamp body 11 b.

The floodlight 100 in this embodiment adopts the combination of the two adjustment manners, so that the maximum irradiation angle of the floodlight 100 is not lower than 330 degrees, the irradiation range of the floodlight 100 is effectively improved, and the floodlight 100 has good applicability.

The first lamp body 11a has first protrusions 111 formed at both ends of a side surface thereof facing the second lamp body 11b, the second lamp body has second protrusions 112 formed at both ends of a side surface thereof facing the first lamp body, and corresponding through holes (not shown) are formed in axial directions of the first protrusions 111 and the second protrusions 112, and the rotation shaft 12 sequentially passes through the through holes of the first protrusions 111 and the through holes of the second protrusions, so that the first lamp body 11a and the second lamp body 11b are mounted as the lamp assembly 10 rotatable with respect to the rotation shaft 12.

It is understood that the first protrusion 111 and the second protrusion 112 in the present embodiment are disposed at two ends of the side surfaces of the first lamp body 11a and the second lamp body 11b in a staggered manner. In addition, the first protrusion 111 and the second protrusion 112 are annular in shape so as to increase the rotation angle of the first lamp body 11a and the second lamp body 11 b.

Wherein, the rotating bracket 20 is installed at the outer end of the rotating shaft 12, and the rotating bracket 20 is located at the middle position of the lamp assembly 10, so as to effectively ensure the balance of the lamp assembly 10 in the rotating bracket 20. In addition, the rotating bracket 20 is a U-shaped bracket, the U-shaped bracket includes a bottom plate 21 and two side plates 22, one end of each of the two side plates 22 is connected to two end portions of the bottom plate 21, and the other end of each of the two side plates 22 is disposed on an end portion of the rotating shaft 12, so that the two side plates 22 are rotatably connected to the lamp assembly 10.

Wherein, the side plate 22 of the rotating bracket 20 in this embodiment is limited at the rotating shaft 12 by the limiting knob 30, that is: the limit knob 30 can connect the rotary holder 20 to the rotary shaft 12 of the lamp unit 10, and can rotate the lamp unit 10 with respect to the rotary holder 20. In addition, a plurality of mounting holes 23 are opened at the bottom plate 21 of the rotating bracket 20 so that the rotating bracket 20 can be mounted on an external device through the mounting holes 23.

It can be understood that the shape of the plurality of mounting holes 23 formed in the bottom plate 20 may be the same or partially the same, and the shape of the mounting holes 23 is not limited to the shape and distribution of the mounting holes shown in fig. 3, and those skilled in the art can design the shape and distribution of the mounting holes 23 according to actual needs.

Wherein, a waterproof nut 40 is disposed on the surface of the lamp assembly 10 facing the rotating bracket 20, and the waterproof nut is used for ensuring the fixation of an input power line (not shown) and the waterproofing of a wire inlet hole (not shown).

The installation manner of the floodlight 100 provided in the embodiment can be described as follows: the worker mounts the rotating bracket 20 on the external device through the mounting hole 23; meanwhile, the worker connects the first protrusion 111 and the second protrusion 112 to form an integrated structure using the rotation shaft 12 so that the first lamp body 11a and the second lamp body 11b can rotate with respect to the rotation shaft 12; then, the worker can mount the two side plates 22 of the rotating bracket 20 on the rotating shaft 12 located at both side ends of the lamp assembly 20 and perform a position limitation using the position limitation knob 30 so that the lamp assembly 10 can rotate with respect to the rotating bracket 20.

Example two

Referring to fig. 5 to 8, the floodlight 100 provided in the embodiment is different from the first embodiment in that:

the lamp body 11 of the lamp assembly 10 includes: a first lamp body 11a, a second lamp body 11b, and a third lamp body 11c, wherein first protrusions 111 are formed at both ends of a side surface of the first lamp body 11a facing the second lamp body 11b, second protrusions 112 are formed at both ends of a side surface of the second lamp body 11b facing the first lamp body 11a, third protrusions 113 are formed at both ends of a side surface of the second lamp body 11b facing the third lamp body 11c, fourth protrusions 114 are formed at both ends of a side surface of the third lamp body 11c facing the second lamp body 11b, the first protrusions 111 and the second protrusions 112 are connected to each other by a single rotation shaft 12, and the first protrusions 111 and the second protrusions 112 are rotatable with respect to the rotation shaft 12; the third convex portion 113 and the fourth convex portion 114 are also connected to each other via one rotation shaft 12, and both the third convex portion 113 and the fourth convex portion 113 are rotatable with respect to the rotation shaft 12.

It can be understood that: the first protrusion 111 and the second protrusion 112 in this embodiment are disposed at opposite ends of the side surfaces of the first lamp body 11a and the second lamp body 11b in a staggered manner, and the third protrusion 113 and the fourth protrusion 114 are disposed at opposite ends of the side surfaces of the second lamp body 11b and the third lamp body 11c in a staggered manner; in addition, the shapes of the first protrusion 111, the second protrusion 112, the third protrusion 113 and the fourth protrusion 114 are all annular, so as to increase the rotation angles of the first lamp body 11a, the second lamp body 11b and the third lamp body 11c, and effectively improve the irradiation range of the lamp assembly 10.

As shown in fig. 5 and 6, the rotating bracket 20 in this embodiment is installed at a middle position of a side surface of the second lamp body 11b, and is limited at a side surface of the second lamp body 20 by the limit knob 30, so that balance of the lamp assembly 10 installed on the rotating bracket 20 is ensured.

The installation manner of the floodlight 100 provided in the embodiment can be described as follows: the worker mounts the rotating bracket 20 on the external device through the mounting hole 23; meanwhile, the worker connects the first protrusion 111 and the second protrusion 112 to each other by a part of the rotation shaft 12 to form an integrated structure so that the first lamp body 11a and the second lamp body 11b can rotate with respect to the rotation shaft 12, and connects the third protrusion 113 and the fourth protrusion 114 to each other by another rotation shaft 12 to form an integrated structure so that the second lamp body 11b and the third lamp body 11c can rotate with respect to the rotation shaft 12; then, the worker can mount the two side plates 22 of the rotating bracket 20 on the rotating shaft 12 located at both side ends of the lamp assembly 20 and perform a position limitation using the position limitation knob 30 so that the lamp assembly 10 can rotate with respect to the rotating bracket 20.

The floodlight 100 provided in the above embodiment is obtained by installing the rotating bracket 20 on the lamp assembly 10, and the lamp assembly 10 can rotate relative to the rotating bracket 20, so that the worker can adjust the irradiation range by integrally rotating the lamp assembly 10; the floodlight 100 is also rotatably installed by a plurality of adjacent light bodies 11 in the light assembly 10 through the rotating shaft 12; furthermore, the staff can adjust the irradiation range by rotating any lamp body 11 in the light assembly 10 besides adjusting the irradiation range by rotating the light assembly 10 as a whole, thereby effectively improving the irradiation range of the floodlight. In addition, the floodlight 100 has a simple structure, is easy to operate, and has good applicability.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A floodlight is characterized by comprising a lamp component and a rotating bracket, wherein the rotating bracket is arranged on the lamp component, and the lamp component can rotate relative to the rotating bracket; the lamp assembly comprises at least two lamp bodies and a plurality of rotating shafts, the lamp bodies are sequentially connected and arranged, the two adjacent lamp bodies are connected through the rotating shafts, and the two adjacent lamp bodies can rotate relative to the rotating shafts.

2. A floodlight according to claim 1, wherein the lamp assembly comprises a first lamp body and a second lamp body, the first lamp body is formed with a first projection at both ends of a side surface thereof facing the second lamp body, the second lamp body is formed with a second projection at both ends of a side surface thereof facing the first lamp body, and the first projection and the second projection are connected by the rotation shaft.

3. A luminaire as claimed in claim 2, in which the rotatable support is mounted on the rotatable shaft.

4. A floodlight according to claim 2, wherein the lamp assembly further comprises a third lamp body, wherein the second lamp body is formed with third protrusions at both ends of a side surface thereof facing the third lamp body, and wherein the third lamp body is formed with fourth protrusions at both ends of a side surface thereof facing the second lamp body, and wherein the third protrusions and the fourth protrusions are connected by the rotation shaft.

5. A luminaire as claimed in claim 4, in which the rotatable bracket is mounted to the side of the second body, and the second body is rotatable relative to the rotatable bracket.

6. A luminaire as claimed in claim 1, further comprising a spacing knob for spacing the rotatable support from the light assembly.

7. A luminaire as claimed in claim 1, in which the rotatable support is a U-shaped support.

8. A floodlight according to claim 7, wherein the U-shaped bracket comprises a bottom plate and two side plates, two ends of the bottom plate are respectively connected with the side plates, and the two side plates are rotatably connected with the lamp assembly.

9. A luminaire as claimed in claim 8, in which the base is provided with a plurality of mounting apertures.

10. A luminaire as claimed in claim 1, in which the surface of the light assembly facing the swivel bracket is provided with a water-resistant nut.

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