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Sensing module, sensing lamp having the same, wall switch having the same, and LED wall lamp

專利號(hào)
US10506686B2
公開(kāi)日期
2019-12-10
申請(qǐng)人
Vaxcel International Co., Ltd.(US IL Carol Stream)
發(fā)明人
Chia-Teh Chen
IPC分類
H05B37/02; F21V23/04; F21V23/00; F21V21/14; F21S8/00; F21V17/12; F21V23/06; F21Y115/10
技術(shù)領(lǐng)域
sensing,lamp,module,parameter,light,adjusting,unit,sensor,element,operating
地域: IL IL Carol Stream

摘要

A sensing lamp includes a lamp body connected with a sensing module. The sensing module is configured with a sensing unit and a cover partially covering the sensing unit. The sensing unit has a passive infrared ray sensor and at least one parameter adjusting element. The sensing unit is rotatable around a central axis passing thru the sensing module and the lamp body. When the sensing unit is rotated to a first angle position, the at least one parameter adjusting element is blocked and the passive infrared ray sensor is able to perform a forward sensing function. When the sensing unit is rotated to a second angle position, the at least one parameter adjusting element is exposed to being conveniently adjusted. The passive infrared ray sensor is configured with a partial cylindrical condensing lens for performing a horizontal detection angle ranging from 100 degrees to 270 degrees.

說(shuō)明書

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of prior application Serial No. U.S. Ser. No. 16/286,491 filed on Feb. 26, 2019, the entire contents of which are incorporated herein by reference. The application Serial No. U.S. Ser. No. 16/286,491 filed on Feb. 26, 2019, is a continuation application of prior application Serial No. U.S. Ser. No. 16/129,876 filed on Sep. 13, 2018, now issued as U.S. Pat. No. 10,264,654 B2. The application Serial No. U.S. Ser. No. 16/129,876 is a continuation application of prior application Serial No. U.S. Ser. No. 15/375,616 filed on Dec. 12, 2016, now issued as U.S. Pat. No. 10,117,313 B2, and entitled SENSING LAMP AND SENSING MODULE THEREOF. The application Serial No. U.S. Ser. No. 15/375,616 is a Continuation-in-Part of prior application Ser. No. 14/828,373, filed on Aug. 17, 2015, now issued as U.S. Pat. No. 9,551,481, and entitled SENSING LAMP.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present disclosure relates to lighting; in particular, to a sensing module of a sensing lamp.

2. Description of Related Art

權(quán)利要求

1
What is claimed is:1. A sensing lamp comprising:a lamp body, for accommodating a light source inside;a sensing module, directly connected with the lamp body, for performing a forward sensing function and controlling an on/off illumination performance, the sensing module further comprising;a sensing unit, having at least one sensor, a control circuit and at least one parameter adjusting element; the at least one sensor and the at least one parameter adjusting element being electrically coupled to the control circuit; a first side of the sensing unit being provided with the at least one sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the control circuit being disposed inside the sensing module; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the lamp body and the sensing module and for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the lamp body and the sensing module;wherein the lamp body and the sensing module are aligned along a central axis passing thru a center of the lamp body and the center of the sensing module, wherein the sensing unit is capable of rotating around the central axis to a first angle position and to a second angle position, wherein when the sensing unit is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor on the first side of the sensing unit is able to perform the forward sensing function; wherein when the sensing unit is rotated to the second angle position, the at least one parameter adjusting element on the opposite side of the sensing unit is not blocked and is exposed to being conveniently adjusted;wherein the lamp body is constructed as being non-angle adjustable for a vertical swing around an axis perpendicular to the central axis; and wherein the at least one tubular supporting arm is either connected to the sensing module or connected to the lamp body for delivering the electric power to the control circuit and the light source for operating the sensing lamp.2. The sensing lamp according to claim 1, wherein the sensing module is disposed on a top side of the lamp body, wherein the sensing unit and the light body are rotatably connected, wherein the cover of the sensing module is fastened to a top side of the lamp body, wherein the cover is designed with a front opening for exposing the at least one sensor or the at least one parameter adjusting element; wherein when the sensing unit is rotated to the first angle position, the at least one sensor is moved to locate inside the front opening and is exposed for performing at least the forward sensing function, wherein when the sensing unit is rotated to the second angle position, the at least one parameter adjusting element is moved to locate inside the front opening and is exposed to being conveniently adjusted thru the front opening.3. The sensing lamp according to claim 1, wherein the sensing module is disposed on a top side of the lamp body, wherein the sensing module is rotatably connected with the lamp body, wherein the sensing module including the sensing unit and the cover is rotatable around the central axis to the first angle position and to the second angle position, wherein when the sensing module is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor is able to perform the forward sensing function; wherein when the sensing module is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.4. The sensing lamp according to claim 1, wherein the sensing module is disposed on a bottom side of the lamp body, wherein the sensing module is rotatably connected with the lamp body, wherein the sensing module including the sensing unit and the cover is rotatable around the central axis to the first angle position and to the second angle position, wherein when the sensing module is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor is able to perform the forward sensing function; wherein when the sensing module is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.5. The sensing lamp according to claim 1, wherein the sensing module is disposed and fixed on a top side of the lamp body, wherein the at least one supporting tubular arm is designed with an arc shape to connect to the sensing module from a top end of the sensing module thru a swivel device configured to allow the sensing module and the lamp body to rotate together around the central axis to the first angle position and to the second angle position, wherein when the sensing lamp is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor is able to perform the forward sensing function; wherein when the sensing lamp is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.6. The sensing lamp according to claim 1, wherein the at least one tubular supporting arm is integrated with the lamp body.7. The sensing lamp according to claim 1, wherein the sensing module is disposed on a bottom side of the lamp body, wherein the sensing unit and the light body are rotatably connected, wherein the cover is fastened to the bottom side of the lamp body, wherein the cover is configured with a front opening for exposing the at least one sensor or the at least one parameter adjusting element; wherein when the sensing unit is rotated to the first angle position, the at least one sensor is moved to locate inside the front opening and is thereby exposed for performing the forward sensing function, wherein when the sensing unit is rotated to the second angle position, the at least one parameter adjusting element is moved to locate inside the front opening and is thereby exposed to being conveniently adjusted thru the front opening.8. The sensing lamp according to claim 1, wherein the sensing module is disposed and fixed on a bottom side of the lamp body, wherein the at least one supporting tubular arm is connected to the sensing module from a bottom end of the sensing module thru a swivel base, wherein the swivel base is designed to hold the sensing module and the lamp body to rotate together around the central axis to the first angle position and to the second angle position, wherein when the sensing lamp is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor is able to perform the forward sensing function; wherein when the sensing lamp is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.9. The sensing lamp according to claim 1, wherein the at least one sensor is a passive infrared ray motion sensor comprising a condensing lens integrated with at least one infrared ray signal detection circuitry, wherein the condensing lens is designed with a partial cylindrical condensing lens able to perform a horizontal detection angle between 100 degrees and 270 degrees depending on an arc angle of the partial cylindrical condensing lens.10. The sensing lamp according to claim 9, wherein the passive infrared ray motion sensor is configured with a depression angle against an axis perpendicular to the central axis of the sensing unit for performing both a downward as well as the forward sensing function.11. The sensing lamp according to claim 9, wherein the passive infrared ray motion sensor is designed with a horizontal pivot allowing the condensing lens to swing vertically for making an adjustment of a depression angle against an axis perpendicular to the central axis for performing both a downward and the forward sensing function.12. The sensing lamp according to claim 1, wherein the sensing unit is rotated to expose the at least one sensor or the at least one parameter adjusting element without using a tool.13. The sensing lamp according to claim 1, wherein the at least one sensor includes a photo sensor.14. The sensing lamp according to claim 1, wherein the at least one sensor is a passive infrared ray motion sensor comprising a condensing lens integrated with an infrared ray signal detection circuitry, wherein the passive infrared ray sensor is designed with an eyeball construction allowing the passive infrared ray sensor to make a universal angle adjustment for selecting and performing a desired sensing function.15. A passive infrared ray sensing lamp, comprising:a lamp body, for accommodating a light source inside;a sensing module, directly connected with the lamp body for performing a forward sensing function and controlling an on/off illumination performance, the sensing module further comprising;a sensing unit, having at least one passive infrared ray motion sensor, a control circuit and at least one parameter adjusting element; the at least one passive infrared ray motion sensor and the at least one parameter adjusting element being electrically coupled to the control circuit; a first side of the sensing unit being provided with the at least one passive infrared ray motion sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the control circuit being disposed inside the sensing module; the at least one passive infrared ray motion sensor being configured with a partial cylindrical condensing lens and at least one infrared ray detection circuitry, the partial cylindrical condensing lens being designed with a horizontal detection angle ranging from 100 degrees to 270 degrees depending on an arc angle of the partial cylindrical condensing lens; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the lamp body and the sensing module and for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the lamp body and the sensing module;wherein the lamp body and the sensing module are aligned along a central axis passing thru a center of the lamp body and the center of the sensing module,wherein the sensing module is disposed on a top side of the lamp body, wherein the sensing module is rotatably connected with the lamp body, wherein the sensing module including the sensing unit and the cover is rotatable around the central axis to a first angle position and to a second angle position, wherein when the sensing module is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one passive infrared ray motion sensor is able to perform the forward sensing function; wherein when the sensing module is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted; wherein the lamp body is constructed as being non-angle adjustable for a vertical swing around an axis perpendicular to the central axis.16. A passive infrared ray sensing lamp, comprising:a lamp body, for accommodating a light source inside;a sensing module, directly connected with the lamp body for performing a forward sensing function and controlling an on/off illumination performance, the sensing module further comprising;a sensing unit, having at least one passive infrared ray motion sensor, a control circuit and at least one parameter adjusting element; the at least one passive infrared ray motion sensor and the at least one parameter adjusting element being electrically coupled to the control circuit; a first side of the sensing unit being provided with the at least one passive infrared ray motion sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the control circuit being disposed inside the sensing module; the at least one passive infrared ray motion sensor being configured with a partial cylindrical condensing lens and at least one infrared ray detection circuitry, the partial cylindrical condensing lens being designed with a horizontal detection angle ranging from 100 degrees to 270 degrees depending on an arc angle of the partial cylindrical condensing lens; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the lamp body and the sensing module for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the lamp body and the sensing module;wherein the lamp body and the sensing module are aligned along a central axis passing thru a center of the lamp body and the center of the sensing module,wherein the sensing module is disposed on a bottom side of the lamp body, wherein the sensing module is rotatably connected with the lamp body, wherein the sensing module including the sensing unit and the cover is rotatable around the central axis to a first angle position and to a second angle position, wherein when the sensing module is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one passive infrared ray motion sensor is able to perform the forward sensing function; wherein when the sensing module is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted;wherein the lamp body is constructed as being non-angle adjustable for a vertical swing around an axis perpendicular to the central axis.17. A passive infrared ray sensing lamp, comprising:a lamp body, for accommodating a light source inside;a sensing module, directly connected with the lamp body for performing a forward sensing function and controlling an on/off illumination performance, the sensing module further comprising;a sensing unit, having at least one passive infrared ray motion sensor, a control circuit and at least one parameter adjusting element; the at least one passive infrared ray motion sensor and the at least one parameter adjusting element being electrically coupled to the control circuit; a first side of the sensing unit being provided with the at least one passive infrared ray motion sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the control circuit being disposed inside the sensing module; the passive infrared ray sensor being configured with a partial cylindrical condensing lens and at least one infrared ray detection circuitry, the partial cylindrical condensing lens being designed with a horizontal detection angle ranging from 100 degrees to 270 degrees depending on an arc angle of the partial cylindrical condensing lens; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the lamp body and the sensing module and for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the lamp body and the sensing module;wherein the lamp body and the sensing module are aligned along a central axis passing thru a center of the lamp body and the center of the sensing module, wherein the sensing module is disposed and fixed on a top side of the lamp body, wherein the at least one supporting tubular arm is designed with an arc shape to connect to the sensing module from a top end of the sensing module thru a swivel device configured to allow the sensing module and the lamp body to rotate together around the central axis to a first angle position and to a second angle position, wherein when the sensing lamp is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one passive infrared ray motion sensor is able to perform the forward sensing function; wherein when the sensing lamp is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.18. A passive infrared ray sensing lamp, comprising:a lamp body, for accommodating a light source inside;a sensing module, directly connected with the lamp body for performing a forward sensing function and controlling an on/off illumination performance,the sensing module further comprising;a sensing unit, having at least a one passive infrared ray motion sensor, a control circuit and at least one parameter adjusting element; the at least one passive infrared ray motion sensor and the at least one parameter adjusting element being electrically coupled to the control circuit; a first side of the sensing unit being provided with the at least one passive infrared ray motion sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the control circuit being disposed inside the sensing module; the at least one passive infrared ray motion sensor being configured with a partial cylindrical condensing lens and at least one infrared ray detection circuitry, the partial cylindrical condensing lens being featured with a horizontal detection angle ranging from 100 degrees to 270 degrees depending on an arc angle of the partial cylindrical condensing lens; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the lamp body and the sensing module and for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the lamp body and the sensing module;wherein the lamp body and the sensing module are aligned along a central axis passing thru a center of the lamp body and the center of the sensing module, wherein the sensing module is disposed and fixed on a bottom side of the lamp body, wherein the at least one supporting tubular arm is connected to the sensing module from a bottom end of the sensing module thru a swivel base, wherein the swivel base is designed to hold the lamp body while allowing the sensing module and the lamp body to rotate together around the central axis to a first angle position and to a second angle position, wherein when the sensing lamp is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one passive infrared ray motion sensor is able to perform the forward sensing function; wherein when the sensing lamp is rotated to the second angle position, the at least one parameter adjusting element is not blocked and is exposed to being conveniently adjusted.19. A sensing lamp comprising:at least one lamp body, for accommodating at least one light source inside;a sensing module, electrically and mechanically coupled with at least one lamp body, for performing at least one sensing function, controlling an illumination performance and performing a security surveillance function, the sensing module further comprising;a sensing unit, including at least one sensor, at least one parameter adjusting element and a control circuit comprising at least a controller; the at least one sensor and the at least one parameter adjusting element being electrically and respectively coupled to the controller of the control circuit; a first side of the sensing unit being provided with the at least one sensor and a second side of the sensing unit being provided with the at least one parameter adjusting element, the first side of the sensing unit and the second side of the sensing unit being disposed in an opposite direction against each other, the at least one control circuit being disposed inside the sensing module; anda cover, partially covering the sensing unit; anda support unit, configured with at least one tubular supporting arm fastened and connected with a back plate mounted on a wall electric outlet for holding the at least one lamp body and the sensing module and for accommodating power wires for delivering an electric power from the wall electric outlet thru the back plate to the at least one lamp body and the sensing module;wherein the sensing unit is capable of rotating around a central axis of the sensing unit to a first angle position and to a second angle position, wherein when the sensing unit is rotated to the first angle position, the at least one parameter adjusting element is blocked by the back plate and the at least one sensor on the first side of the sensing unit is able to perform the at least one sensing function; wherein when the sensing unit is rotated to the second angle position, the at least one parameter adjusting element on the opposite side of the sensing unit is not blocked and is exposed to being conveniently adjusted;wherein the at least one tubular supporting arm is either connected to the sensing module or connected to the at least one lamp body for delivering the electric power to the control circuit and the light source for operating the sensing lamp.20. The sensing lamp according to claim 19, wherein the sensing unit has a first sensor being a photo sensor, and a second sensor being a motion sensor; the photo sensor has a light sensing circuit, and the motion sensor has a motion detection circuit, wherein the photo sensor, the motion sensor and the at least one parameter adjusting element are electrically and respectively coupled with the controller of the control circuit; wherein at dusk when an ambient light detected by the photo sensor is lower than a predetermined value, the controller manages to activate the motion sensor to perform a motion sensing function, wherein when a motion is detected by the motion sensor, the controller operates to perform a high-level illumination, wherein when the ambient light detected by the photo sensor is higher than a second predetermined value, the controller operates to deactivate the motion sensor.21. The sensing lamp according to claim 19, wherein the sensing unit is configured with a first sensor being a photo sensor comprising a light sensing circuit and a second sensor being a video camera sensor comprising a video signal processing circuit; wherein the photo sensor, the video camera sensor and the at least one parameter adjusting element are electrically and respectively coupled with the controller of the control circuit; wherein at dusk when an ambient light detected by the photo sensor is lower than a predetermined value, the controller manages to turn on the at least one light source and to activate the video camera sensor to perform a video surveillance function; wherein when the ambient light detected by the photo sensor is higher than a second predetermined value, the controller operates to turn off the at least one light source.22. The sensing lamp according to claim 19, wherein the sensing unit is configured with a first sensor being a motion sensor comprising a motion sensing circuit, and a second sensor being a video camera sensor comprising a video signal processing circuit; wherein the motion sensor, the video camera sensor and the at least one parameter adjusting element are electrically and respectively coupled with the controller of the control circuit; wherein when a motion is detected by the motion sensor, the video camera sensor is activated to perform a video surveillance function for a predetermined time duration, wherein upon a maturity of the predetermined time duration with no new motion being further detected, the controller operates to deactivate the video camera sensor and cease to perform the video surveillance function.23. The sensing lamp according to claim 19, wherein the sensing unit is configured with a first sensor being a photo sensor comprising a light sensing circuit, a second sensor being a motion sensor to perform a motion sensing function, and a third sensor being a video camera sensor comprising at least a video signal processing circuit; wherein the photo sensor, the motion sensor, the video camera sensor and the at least one parameter adjusting element are electrically and respectively coupled with the controller of the control circuit; wherein at dusk when an ambient light detected by the photo sensor is lower than a predetermined value, the controller operates to activate the motion sensor, wherein when a motion is detected by the motion sensor, the controller manages the at least one light source to perform a high-level illumination and simultaneously operates to activate the video camera sensor to perform a video surveillance function for a predetermined time duration, wherein upon a maturity of the predetermined time duration with no further motion being detected, the controller manages to deactivate the video camera sensor.24. The sensing lamp according to claim 23, wherein at dusk when the motion sensor is activated by the controller, the controller simultaneously manage the at least one light source to perform a low-level illumination.25. The sensing lamp according to claim 21, wherein a remote control transmitter is further installed to be electrically coupled with the controller and the video signal processing circuit for performing a function of a remote video surveillance.26. The sensing lamp according to claim 22, wherein a remote control transmitter is further installed to be electrically coupled with the controller and the video signal processing circuit for performing a function of a remote video surveillance.27. The sensing lamp according to claim 23, wherein a remote control transmitter is further installed to be electrically coupled with the controller and the video signal processing circuit for performing a function of a remote video surveillance.
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