GB2573831A - Infrared sensing light fixture with 270 degrees of coverage - Google Patents

Abstract

An infrared sensing light fixture with 270 degrees of coverage includes a main housing 1, a lamp head rotating joint 2, a driving device (3, Fig. 2) including stepper motor 13, a lamp head 4 and a sensing device (5, Fig. 1). The lamp head rotating joint 2 is connected to the driving device 3. A middle cover 6 is arranged on one side of the main housing 1 away from the lamp head 4 and a driver 8 is arranged below the inner side of the middle cover 6. The fixture uses three infrared sensing heads (25, Fig. 6) which are installed at 90 degrees to each other, to monitor three areas respectively. When there is human body movement in any of these areas, the lamp head 4 automatically rotates to that area.

Description

This disclosure relates to the field of automatic lighting control technology, and in particular to an infrared sensing light fixture with 270 degrees of coverage.

BACKGROUND

With the improvement of the quality of life, people have different demands on the function of light fixtures. Due to the fast development of sensing light fixtures, they are widely used in demanding commercial and industrial occasions, and are the new generation of green and energy-saving light fixtures. However, the lamp heads of sensing light fixtures in the existing market are mostly fixed, i.e., the lamp heads cannot automatically rotate with people's movement, and the lighting coverage of such light fixture is too small to meet the market demand. Therefore, the disclosure provides an infrared sensing light fixture with 270 degrees of coverage to solve the existing problems in the prior art.

SUMMARY

In response to the above problem, the disclosure provides an infrared sensing light fixture rotatable automatically. The infrared sensing light fixture rotatable automatically uses three infrared sensing heads to monitor three areas respectively, wherein when there is a human body movement in any of the areas, the lamp head automatically rotates to this area, thus realizing the automatic tracking lighting function. The three infrared sensing heads are installed at 90 degrees to each other, covering 270 degrees of monitoring range. The scheme uses a stepping motor to control the rotation of the lamp head, wherein when a human body movement is detected in a sensing area, the stepping motor lights the light fixture and controls the lamp head to rotate into this area; when the human body sensing signals are detected in two adjacent areas, the lamp head rotates to the in-between position of the two sensing areas, in order to realize the tracking lighting function of the lamp head rotating along with the human body sensing signal.

The disclosure provides an infrared sensing light fixture with 270 degrees of coverage, including a main housing, a lamp head rotating joint, a driving device, a lamp head and an sensing device; one side above the main housing is provided with the lamp head rotating joint which is connected to the driving device ; the lamp head is arranged on the lamp head rotating joint; one side near the lamp head below the main housing is provided with the sensing device; a middle cover is arranged on one side of the main housing far away from the lamp head; a control board is arranged above the inner side of the middle cover, and a driver is arranged below the inner side of the middle cover; the output end of the sensing device is electrically connected to the input end of the driver; the output end of the driver is connected to the input end of the control board; the output end of the control board is electrically connected to the input end of the driving device; the sensing device is fixed on the driver with a fixing member; the outer side of the middle cover is provided with a wall-mounted board, and the inner side of the middle cover is provided with a pin plate.

A further improvement of the disclosure is that the driving device includes a motor box, a stepping motor, a driving wheel, a driven wheel, a lower fixing member of the driven wheel, a upper fixing member of the driven wheel and a switch board; the stepping motor is embedded inside the motor box, and the output end of the stepping motor extends above the motor box and is mounted with the driving wheel; the driven wheel is engaged with the driving wheel; the lower fixing member of the driven wheel is fixedly mounted under the driven wheel, and the lower fixing member of the driven wheel is mounted on the motor box with bearings; the upper fixing member of the driven wheel is fixedly mounted above the driven wheel; the outer side of the upper fixing member of the driven wheel is fixedly mounted on the housing with bearings; the lamp head rotating joint is sleeved on the outer side of the upper fixing member of the driven wheel, and is fixedly connected to the upper fixing member of the driven wheel.

A further improvement of the disclosure is that the sensing device includes a lower cover of the sensor, a sensing partition board, a sensing signal board and a upper cover of the sensor; the sensing partition board is disposed within the lower cover of the sensor; the sensing partition board has at least one partition; the sensing signal board is disposed above the sensing partition board, and the upper cover of the sensor is disposed above the sensing signal board.

A further improvement of the disclosure is that a waterproof silicone ring is arranged between the lower cover and the upper cover of the sensor.

A further improvement of the disclosure is that the sensing signal board includes a signal board, infrared sensing heads and a sensing button; at least one infrared sensing head is provided; the infrared sensing heads are all set up in the corresponding partitions of the sensing partition board; the sensing button is disposed on the rear side of the sensing signal board, and a button-specific silica gel is disposed on the sensing button.

A further improvement of the disclosure is that three groups of infrared sensing heads are provided with the angle between any two adjacent groups of infrared sensing heads being 90 degrees.

A further improvement of the disclosure is that a sensing lens is arranged outside the lower cover of the sensor.

A further improvement of the disclosure is that the rotation angle of the lamp head is within the range of 0-180 degrees.

A further improvement of the disclosure is that the lamp head is rotatably connected to the rotating joint.

The beneficial effects of the disclosure are as follows: the disclosure uses three infrared sensing heads to monitor three areas respectively, wherein when there is a human body movement in any of the areas, the lamp head automatically rotates to this area, thus realizing the automatic tracking lighting function. The three infrared sensing heads are installed at 90 degrees to each other, covering 270 degrees of monitoring range. The scheme uses a stepping motor to control the rotation of the lamp head, wherein when a human body movement is detected in a sensing area, the stepping motor lights the light fixture and controls the lamp head to rotate into this area; when the human body sensing signals are detected in two adjacent areas, the lamp head rotates to the in-between position of the two sensing areas, in order to realize the tracking lighting function of the lamp head rotating along with the human body sensing signal.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. lisa schematic front view of the disclosure.

FIG. 2 is a schematic diagram of the internal structure of the disclosure.

FIG. 3 is a schematic diagram of the driving device according to the disclosure.

FIG. 4 is an exploded view of the disclosure.

FIG. 5 is a schematic diagram of the sensing device according to the disclosure.

FIG. 6 is a schematic diagram of the sensing signal board according to the disclosure.

Reference numerals: 1-main housing, 2-lamp head rotating joint, 3-driving device, 4-lamp head, 5-sensing device, 6-middle cover, 7-control board, 8-driver, 9-fixing member, 10-wall-mounted board, 11-pin plate, 12-motor box, 13-stepping motor, 14-driving wheel, 15-driven wheel, 16-lower fixing member of the driven wheel, 17-upper fixing member of the driven wheel, 18-switch board , 19-lower cover of the sensor, 20-sensing partition board, 21-sensing signal board, 22-upper cover of the sensor, 23-waterproof silicone ring, 24-signal board, 25-infrared sensing head, 26-sensing button, 27-button-specific silica gel, 28-sensing lens

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

To further understand the disclosure, the disclosure will be further described in detail with reference to the embodiment below. It should be understood that the present embodiment described herein is only to explain the disclosure and is not intended to limit the disclosure.

As shown in FIG. 1, 2, 3, 4, 5 and 6, the present embodiment provides an infrared sensing light fixture with 270 degrees of coverage, wherein the infrared sensing light fixture includes a main housing 1, a lamp head rotating joint 2, a driving device 3, a lamp head 4 and an sensing device 5; one side above the main housing 1 is provided with the lamp head rotating joint 2 which is connected to the driving device 3; the lamp head 4 is arranged on the lamp head rotating joint 2; one side near the lamp head 4 below the main housing 1 is provided with the sensing device 5; a middle cover 6 is arranged on one side of the main housing 1 far away from the lamp head 4; a control board 7 is arranged above the inner side of the middle cover 6, and a driver 8 is arranged below the inner side of the middle cover 6; the output end of the sensing device 5 is electrically connected to the input end of the driver 8; the output end of the driver 8 is connected to the input end of the control board 7; the output end of the control board 7 is electrically connected to the input end of the driving device 3; the sensing device 5 is fixed on the driver 8 with a fixing member 9; the outer side of the middle cover 6 is provided with a wall-mounted board 10, and the inner side of the middle cover 6 is provided with a pin plate 11, wherein the driving device 3 includes a motor box 12, a stepping motor 13, a driving wheel 14, a driven wheel 15, a lower fixing member of the driven wheel 16, a upper fixing member of the driven wheel 17 and a switch board 18; the stepping motor 13 is embedded inside the motor box 12, and the output end of the stepping motor 13 extends above the motor box 12 and is mounted with the driving wheel 14; the driven wheel 15 is engaged with the driving wheel 14; the lower fixing member of the driven wheel 16 is fixedly mounted under the driven wheel 15, and the lower fixing member of the driven wheel 16 is mounted on the motor box 12 with bearings; the upper fixing member of the driven wheel 17 is fixedly mounted above the driven wheel 15; the outer side of the upper fixing member of the driven wheel 17 is fixedly mounted on the housing 1 with bearings; the lamp head rotating joint 2 is sleeved on the outer side of the upper fixing member of the driven wheel 17, and is fixedly connected to the upper fixing member of the driven wheel 17, wherein the sensing device 5 includes a lower cover of the sensor 19, a sensing partition board 20, a sensing signal board 21 and a upper cover of the sensor 22; the sensing partition board 20 is disposed within the lower cover of the sensor 19; the sensing partition board 20 has three partitions; the sensing signal board 21 is disposed above the sensing partition board 20, and the upper cover of the sensor 22 is disposed above the sensing signal board 21, wherein a waterproof silicone ring 23 is arranged between the lower cover 19 and the upper cover 22 of the sensor; the sensing signal board 21 includes a signal board 24, infrared sensing heads 25 and a sensing button 26; three infrared sensing heads 25 are provided; the infrared sensing heads 25 are all set up in the corresponding partitions of the sensing partition board 20; the sensing button 26 is disposed on the rear side of the sensing signal board 24, and a button-specific silica gel 27 is disposed on the sensing button 26, wherein three groups of infrared sensing heads 25 are provided with the angle between any two adjacent groups of infrared sensing heads 25 being 90 degrees; a sensing lens 28 is arranged outside the lower cover of the sensor 19; the rotation angle of the lamp head 4 is within the range of 0-180 degrees, and wherein the lamp head 4 is rotatably connected to the rotating joint 2.

The disclosure uses three infrared sensing heads 25 to monitor three areas respectively, wherein when there is a human body movement in any of the areas, the sensing signal board 21 transmits a pulse signal to the driver 8, which drives the stepping motor 13 to perform the set rotation through the control board 7, so that the lamp head rotating joint 2 and the lamp head 4 are automatically rotated to the area by the driven wheel 15, thus realizing the automatic tracking lighting function. The three infrared sensing heads 25 are installed at 90 degrees to each other, covering 270 degrees of monitoring range. The scheme uses a stepping motor 13 to control the rotation of the lamp head 4, wherein when a human body movement is detected in a sensing area, the stepping motor lights the light fixture and controls the lamp head 4 to rotate into this area; when the human body sensing signals are detected in two adjacent areas, the lamp head rotates to the in-between position of the two sensing areas, in order to realize the tracking lighting function of the lamp head rotating along with the human body sensing signal.

Claims (9)

1. An infrared sensing light fixture with 270 degrees of coverage, wherein the infrared sensing light fixture includes a main housing (1), a lamp head rotating joint (2), a driving device (3), a lamp head (4)and an sensing device (5); one side above the main housing (1) is provided with the lamp head rotating joint (2) which is connected to the driving device (3); the lamp head (4) is arranged on the lamp head rotating joint (2); one side near the lamp head (4) below the main housing (1) is provided with the sensing device (5); a middle cover (6) is arranged on one side of the main housing (1) far away from the lamp head (4); a control board (7) is arranged above the inner side of the middle cover (6), and a driver (8) is arranged below the inner side of the middle cover (6); the output end of the sensing device (5) is electrically connected to the input end of the driver (8); the output end of the driver (8) is connected to the input end of the control board (7); the output end of the control board (7) is electrically connected to the input end of the driving device (3); the sensing device (5) is fixed on the driver (8) with a fixing member (9); the outer side of the middle cover (6) is provided with a wall-mounted board (10), and the inner side of the middle cover (6) is provided with a pin plate (11).

2. The infrared sensing light fixture with 270 degrees of coverage according to claim 1, wherein the driving device (3) includes a motor box (12), a stepping motor (13), a driving wheel (14), a driven wheel (15), a lower fixing member of the driven wheel (16), a upper fixing member of the driven wheel (17) and a switch board (18); the stepping motor (13) is embedded inside the motor box (12), and the output end of the stepping motor (13) extends above the motor box (12) and is mounted with the driving wheel (14); the driven wheel (15) is engaged with the driving wheel (14); the lower fixing member of the driven wheel (16) is fixedly mounted under the driven wheel (15), and the lower fixing member of the driven wheel (16) is mounted on the motor box (12) with bearings; the upper fixing member of the driven wheel (17) is fixedly mounted above the driven wheel (15); the outer side of the upper fixing member of the driven wheel (17) is fixedly mounted on the housing (1) with bearings; the lamp head rotating joint (2) is sleeved on the outer side of the upper fixing member of the driven wheel (17), and is fixedly connected to the upper fixing member of the driven wheel (17).

3. The infrared sensing light fixture with 270 degrees of coverage according to claim 1, wherein the sensing device (5) includes a lower cover of the sensor (19), a sensing partition board (20), a sensing signal board (21) and a upper cover of the sensor (22); the sensing partition board (20) is disposed within the lower cover of the sensor (19); the sensing partition board (20) has at least one partition; the sensing signal board (21) is disposed above the sensing partition board (20), and the upper cover of the sensor (22) is disposed above the sensing signal board (21).

4. The infrared sensing light fixture with 270 degrees of coverage according to claim 3, wherein a waterproof silicone ring (23) is arranged between the lower cover (19) and the upper cover (22) of the sensor.

5. The infrared sensing light fixture with 270 degrees of coverage according to claim 3, wherein the sensing signal board (21) includes a signal board (24), infrared sensing heads (25) and a sensing button (26); at least one infrared sensing head (25) is provided; the infrared sensing heads (25) are all set up in the corresponding partitions of the sensing partition board (20); the sensing button (26) is disposed on the rear side of the sensing signal board (24), and a button-specific silica gel (27) is disposed on the sensing button (26).

6. The infrared sensing light fixture with 270 degrees of coverage according to claim 5, wherein three groups of infrared sensing heads (25) are provided with the angle between any two adjacent groups of infrared sensing heads (25) being 90 degrees.

7. The infrared sensing light fixture with 270 degrees of coverage according to claim 3, wherein a sensing lens (28) is arranged outside the lower cover of the sensor (19).

8. The infrared sensing light fixture with 270 degrees of coverage according to claim 1, wherein the rotation angle of the lamp head (4) is within the range of 0-180 degrees.

9. The infrared sensing light fixture with 270 degrees of coverage according to claim 1, wherein the lamp head (4) is rotatably connected to the rotating joint (2).