RU95070U1 - LIGHTING DEVICE WITH SENSOR - Google Patents

Abstract

 1. A lighting fixture with a sensor having a lower case having a lower side connected to a power outlet, a circuit board placed inside said lower case, an upper case with an upper cover located inside, a middle case having several through holes located in an upper circle, several ventilation holes located on the middle circumference, and a circular thread on said upper circumference and lower circumference for connection with said upper and lower bodies, sets light emitting diodes (LEDs) on the upper side of said middle body and a sensor assembly having a cylindrical body screwed into a ring, resulting in a predominantly spherical configuration being formed, wherein said sensor assembly is rotatably placed in a spherical cavity near said light emitting diodes on said upper side of said middle case. ! 2. The lighting device according to claim 1, characterized in that the upper case is cylindrical. ! 3. The lighting device according to claim 2, characterized in that the upper cylindrical body is fixed and not rotatable.

Description

The technical field to which the utility model relates.

This utility model relates generally to lighting devices, more precisely, to a lighting device with an integrated sensor assembly, the direction of which can be easily and conveniently adjusted.

Description of the prior art

Any sensor, regardless of its type and quality, usually has a certain reading direction and a certain coverage area. The desired direction and coverage area of the sensor as such needs to be adjusted manually, or some means of automatic adjustment is necessary so that the sensor can detect the appearance of an object in the coverage area or its exit from the coverage area. In this regard, the sensor is usually mounted on any axis of rotation with the possibility of regulation using the handle. However, due to this additional tool, the sensor becomes bulky, and its adjustment range is usually limited by the pivot axis or handle. In this regard, dead zones are often inevitable, in which the sensor is not capable of efficiently detecting.

Summary of utility model essence

Accordingly, in order to overcome the disadvantages of the prior art, a new lighting device with an integrated sensor assembly is proposed in this utility model. The lighting fixture consists mainly of the upper housing, the middle housing, the circuit board, the lower housing and the sensor assembly. The middle case has several through holes located on the upper circumference, and several ventilation holes located on the middle circumference. A circular thread is located between the through holes and the ventilation holes and below the ventilation holes. On the upper surface and lower surface of the upper side of the middle case there are several light-emitting diodes (LEDs), between which the sensor assembly is located. The lower side of the lower case is connected to a socket, and inside the lower case there is a circuit board connected to the LEDs and the sensor assembly. The sensor assembly has a cylindrical body with a spherical upper end and a ring. The cylindrical body is screwed into the ring, as a result of which in the aggregate a predominantly spherical configuration is formed. Then, the sensor assembly is rotatably placed in a spherical cavity on the upper side of the middle body.

Brief Description of the Drawings

Figure 1 shows a perspective image of a lighting device according to one embodiment of the present utility model,

figure 2 shows a perspective image with a spatial separation of the parts, which illustrates the various components of the lighting device shown in figure 1,

figure 3 shows an enlarged schematic illustration of the sensor Assembly of the lighting device shown in figure 1,

figure 4 shows a schematic illustration that illustrates the configuration of the direction of operation of the sensor Assembly, shown in figure 3,

figure 5 shows a schematic illustration shown in figure 3 of a sensor located in the lateral direction,

6 shows an enlarged schematic illustration of a sensor assembly of a lighting device according to another embodiment of the present utility model,

7-11 are schematic views illustrating lighting devices according to alternative embodiments of the present utility model.

Detailed Description of Preferred Embodiments

As shown in figures 1-5, the lighting device according to one of the embodiments of the present utility model consists mainly of the upper housing 1, the middle housing 2, the circuit board 3, the lower housing 4 and the sensor 20 assembly.

As shown in figures 1 and 2, the middle case 2 has a tubular shape and several through holes 23 located along the upper circumference, and several axial ventilation holes 24 located along the middle circumference of the middle case 2. Between the through holes 23 and the ventilation holes 24 and below the ventilation holes 24 is a circular thread (without specifying a position) for connection with the upper and lower bodies 1 and 4, respectively. On the upper surface and lower surface of the upper side of the middle housing 2, there are several light emitting diodes (LEDs) 21 surrounding the sensor assembly 20. The lower side of the lower case 4 is connected to a socket (not shown), and inside the lower case 4 is a circuit board 3 connected to the LEDs 21 and the sensor inside the sensor 20 assembly. The sensor assembly 20 has a cylindrical housing 203 with a spherical upper end and a ring 202. The cylindrical housing 203 is screwed into the ring 32, resulting in a predominantly spherical configuration. Then, the sensor assembly 20 is rotatably placed in a spherical cavity 201 on the upper side of the middle body 2, while it is additionally held by the circular central hole of the upper cover 11 in the upper housing 1. Alternatively, the cavity 201 and the upper cover 11 may be integral with the upper case 1, as a result of which the sensor 20 assembly is placed directly on the upper case 1, as shown in Fig.6.

As shown in FIGS. 3-5, the sensor assembly 20 is rotatably located in the spherical cavity 201, and the top cover 11 is located higher than the center of the sensor assembly 20, whereby the sensor assembly 20 is securely held between the spherical cavity 201 and top cover 11. As described and shown, by manually turning the ring, you can easily rotate the 202 sensor 20 assembly (and therefore located inside the sensor) so that it faces the desired coverage area. When a person or an object appears in the coverage area, the sensor inside the sensor assembly 20 detects it and turns the LEDs 21 of the lighting device. When the object leaves the coverage area, the sensor can turn off the LEDs 21 to reduce energy consumption.

It should be noted that the sensor assembly 20 is specially designed for a spherical configuration and, therefore, its rotation angle is not limited by the rotation axis or handle, as in the prior art. In addition, since a handle or a pivot axis is not used, the sensor assembly 20 can be smaller and can be used more flexibly in various lighting fixtures.

Figures 7-10 show various equivalent configurations of the sensor assembly 20 according to alternative embodiments of the present utility model. As further shown in FIG. 11, in yet another embodiment of the present utility model, the upper housing 1 may actually be replaced by the expanded housing 203 to further facilitate assembly and reduce manufacturing costs. In this embodiment, there is no ring 202, and the cylindrical body 203 is stationary and not able to rotate.

Claims (3)

1. A lighting fixture with a sensor having a lower case having a lower side connected to a power outlet, a circuit board placed inside said lower case, an upper case with an upper cover located inside, a middle case having several through holes located in an upper circle, several ventilation holes located on the middle circumference, and a circular thread on said upper circumference and lower circumference for connection with said upper and lower bodies, sets light emitting diodes (LEDs) on the upper side of said middle body and a sensor assembly having a cylindrical body screwed into a ring, resulting in a predominantly spherical configuration being formed, wherein said sensor assembly is rotatably placed in a spherical cavity near said light emitting diodes on said upper side of said middle case. 2. The lighting device according to claim 1, characterized in that the upper case is cylindrical. 3. The lighting device according to claim 2, characterized in that the upper cylindrical body is fixed and not rotatable.