KR20110065296A - Lighting device with sensor - Google Patents

Abstract

PURPOSE: A lighting device with a sensor is provided to rotate a sensor to be faced to a desired coverage area by arranging a sensor in an upper part side spherical concave part. CONSTITUTION: A lower casing(4) interlinks a bottom side to a power socket. A circuit board(3) is accommodated into the lower casing. The upper casing(1) has an upper cover therein. An intermediate casing combines a plurality of penetrated holes on a circumferential side with a plurality of wind passing slots on an intermediate circumferential side and combines the upper casing and the lower casing with screwed teeth. A plurality of LEDs(21) are formed in the top side of an intermediate casing. A senor assembly(20) is accommodated into a spherical concave part contacting to the LED of the upper part of an intermediate casing.

Description

Lighting device with a sensor {LIGHTING DEVICE WITH SENSOR}

The present invention relates to a lighting device, and to a lighting device incorporating a sensor assembly that can be easily and conveniently adjusted in direction.

Various sensor devices are widely applied in daily life. One common application of sensor devices is to use them for flashing (on / off) lighting devices or for activating / deactivating video surveillance devices for efficient energy or resource utilization.

Regardless of its type or quality, sensors typically have a specific sensing direction and specific coverage. Thereby, the sensor must be manually adjusted to reach the desired direction and coverage, or a constant automatic adjustment means is required so that the sensor can sense the entry / exit of the target into or out of the coverage. Thus, the sensor is typically mounted on a constant pivot and can be adjusted by a constant lever. However, this additional means makes the sensor bulky, and the adjustment range is also typically limited by the pivoting lever. Thus, blind spots are often indispensable for which the sensor cannot effectively perform sensing.

It is therefore an object of the present invention to provide a new lighting device with an integrated sensor assembly in order to solve the above-mentioned problems of the prior art.

The lighting device according to the invention comprises an upper casing, an intermediate casing, a circuit board, a lower casing and a sensor assembly.

The intermediate casing has a plurality of through holes along the top circumference and has a plurality of ventilation slots formed axially along the middle circumference. Circumferential threads are provided between the through-holes and the ventilation slots and beneath the ventilation slots. Multiple LEDs are arranged on the top and bottom surfaces of the middle casing top side, and the sensor assembly is arranged between the LEDs. The lower side of the lower casing is coupled to a power socket and a circuit board is arranged inside the lower casing and connected to the LEDs and sensor assembly. The sensor assembly includes a cylindrical casing and a ring having a spherical top end. The cylindrical casing is threaded to the ring and together with the ring constitutes a substantially spherical shape. Thereby, the sensor assembly is rotatably arranged in the upper spherical recess of the intermediate casing.

The sensor assembly can be easily rotated toward the desired coverage area by manually twisting the ring. Since the sensor assembly is formed in a particularly spherical shape, its rotation angle is not limited by the pivot or lever as in the prior art. In addition, since no lever or pivot is used, the sensor assembly can have a small size and can be flexibly applied to various kinds of lighting devices. The upper casing can be replaced with an enlarged casing for easier assembly and reduced production costs.

1 is a perspective view of a lighting apparatus according to an embodiment of the present invention.
2 is an exploded perspective view illustrating components of the lighting apparatus of FIG. 1.
3 is an enlarged schematic view of the sensor assembly of the lighting device of FIG. 1.
4 is a schematic diagram illustrating the orientation of the sensor assembly of FIG. 3.
FIG. 5 is a schematic diagram illustrating the sensor assembly of FIG. 3 facing sideways. FIG.
6 is an enlarged schematic view of a sensor assembly of a lighting device according to another embodiment of the present invention.
7 to 11 are schematic diagrams showing a lighting device according to an optional embodiment of the present invention.

As shown in FIGS. 1 to 5, a lighting device according to one embodiment of the invention comprises an upper casing 1, an intermediate casing 2, a circuit board 3, a lower casing 4 and a sensor assembly 20. ).

As shown in FIGS. 1 and 2, the intermediate casing 2 has a plurality of through holes 23 along the upper circumferential surface and a plurality of ventilation slots 24 formed in the axial direction along the intermediate circumferential surface. It has a tube shape. A circumferential thread (not shown) is provided between the through hole 23 and the ventilation slot 24 and below the ventilation slot 24 for engaging the upper and lower casings with each other. A plurality of light emitting diodes 21 are arranged on the top and bottom of the upper side of the intermediate casing 2 and surround the sensor assembly 20. The lower side of the lower casing 4 is coupled to a power socket (not shown), and a circuit board 3 is arranged inside the lower casing 4 to connect to the sensors in the LEDs 21 and the sensor assembly 20. do. The sensor assembly 20 includes a cylindrical casing 203 and a ring 202 having a spherical top end. The cylindrical casing 203 is threaded into the ring 202 and, together with the reel 202, constitutes a substantially spherical shape. Thereby, the sensor assembly 20 is rotatably arranged in the upper spherical concave portion 201 of the intermediate casing 2, by the circular central opening of the upper cover 11 accommodated in the upper casing 1. Further confined. Optionally, the recess 201 and the top cover 11 can be integral with the upper casing 1, so that the sensor assembly 20 can be arranged directly on the upper casing 1 as shown in FIG. 6. Can be.

3 to 5, the sensor assembly 20 is rotatably positioned in the spherical recess 201, and the sensor assembly 20 is positioned higher than the center of the sensor assembly 20. 20 is stably confined between the spherical recess 201 and the top cover 11. As described and shown, the sensor assembly 20 (and therefore the sensor therein) can be easily rotated toward the desired coverage area by manually twisting the ring 202. When a person or any object enters the coverage area, a sensor inside the sensor assembly 20 senses the object to light up the LEDs 21 of the lighting device. If the object leaves the coverage area, the sensor can turn off the LEDs 21 to reduce energy consumption. It should be noted that since the sensor assembly 20 is formed in a particularly spherical shape, its rotation angle is not limited by the pivot or lever as in the prior art. In addition, since no lever or pivot is used, the sensor assembly can have a small size and can be flexibly applied to various kinds of lighting devices.

7-10 provide various sensor assembly 20 configurations in accordance with optional embodiments of the present invention. As further shown in FIG. 11, in another embodiment of the present invention, the upper casing 1 may be replaced with an expanded casing 203 for easier assembly and reduced production costs. In this embodiment, there is no ring 202 and the cylindrical casing 203 is stationary and cannot rotate.

1: upper casing
2: middle casing
3: circuit board
4: lower casing
11: upper cover
20: sensor assembly
21: light emitting diodes (LEDs)
23: through hole
24: ventilation slot
201 spherical concave
202 ring
203: cylindrical casing

Claims (3)

A lower casing having a lower side connected to the power socket;
A circuit board accommodated in the lower casing;
An upper casing having an upper cover therein;
An intermediate casing having a plurality of through holes around an upper circumferential surface, a plurality of ventilation slots around an intermediate circumferential surface, and circumferential threads around the upper and lower circumferential surfaces for engaging the upper and lower casings;
A plurality of light emitting diodes (LEDs) on the upper side of the middle casing; And
And a sensor assembly having a cylindrical casing which, together with a ring, constitutes a substantially spherical shape with the ring and is rotatably housed in a spherical recess adjacent to the LEDs on the upper side of the intermediate casing. Lighting device provided. 2. A lighting device with a sensor according to claim 1, wherein said upper casing is replaced by an enlarged cylindrical casing. The lighting device of claim 1, wherein a cylindrical casing is arranged independently around the LEDs and the cylindrical casing is stationary and does not rotate.

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