CN213094537U - Intelligent inductor for lamp - Google Patents

Abstract

The utility model relates to the technical field of lamp inductors, and discloses a lamp intelligent inductor, which comprises a circuit board, a detector and a driver, wherein the detector is used for detecting whether a user is in a detection range, the driver is used for outputting a starting signal, and the circuit board is respectively in electric connection arrangement with the detector and the driver; the circuit board and the induction type lamp are arranged in a circuit communication way; when the detector detects a user signal, the circuit board outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state. Under the normal condition, the user is sensed to the induction type lamps and lanterns, then control lamps and lanterns and give out light, and when the user was in quiescent condition, the user still detected to the detector, and the signal transmission that the detector will detect is to the circuit board, and the starting signal of circuit board output driver impels induction type lamps and lanterns to be the starting condition, and like this, under the user was in the circumstances such as rest, stagnant state, the induction type lamps and lanterns were still in luminous state, and it is unsafe to avoid sudden dark to cause, realizes the lighting requirements of user's stagnant state.

Description

Intelligent inductor for lamp

Technical Field

The patent of the utility model relates to a technical field of lamps and lanterns inductor particularly, relates to lamps and lanterns intelligence inductor.

Background

Along with the development of the society, in order to realize green energy-saving illumination, the lamps and lanterns possess the response function, when sensing people and coming, then control lamps and lanterns luminous, when sensing people and walking, then control lamps and lanterns and close, play green energy-conservation, simultaneously, the user need not press the switch, avoids the danger of wet hand electric shock.

At present, induction lamps are arranged in corridor, balcony, corridor, sundry room, washroom and other areas, so that the loss of electric energy is effectively saved, and the service life of the lamps is prolonged.

In the prior art, when a user stops moving, or the action amplitude is small, the user is acquiescent to leave the induction type lamp, so that the lamp is controlled to be turned off, lamp control errors are easily caused, and the execution of normal behaviors of the user is greatly influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lamps and lanterns intelligence inductor aims at solving prior art, and induction type lamps and lanterns can't detect the problem that is in the user of stagnation state.

The utility model discloses a realize like this, lamps and lanterns intelligence inductor, including circuit board, detector and driver, the detector is used for detecting whether the user is in the detection range, the driver is used for exporting the actuating signal, the circuit board is the electric connection with the detector and the driver respectively arranges; the circuit board and the induction type lamp are arranged in a circuit communication manner; when the detector detects a user signal, the circuit board outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state.

Further, the lamp intelligent sensor comprises a bottom shell and a cover plate, the bottom shell forms a mounting cavity, and the circuit board and the detector are respectively mounted in the mounting cavity; the installation cavity has a front opening, and the cover plate is used for opening or closing the front opening.

Furthermore, the bottom shell is provided with a plurality of positioning columns which are arranged longitudinally, the circuit board is provided with a plurality of positioning holes, the positioning holes and the positioning columns are arranged in a one-to-one correspondence manner, and when the circuit board is arranged in the installation cavity, the top of each positioning column is embedded into the lower end of each positioning hole respectively; the lamp intelligent sensor comprises a fixing plate, wherein the fixing plate is provided with a plurality of fixing columns, and the fixing columns are embedded into the upper ends of the positioning holes.

Furthermore, the positioning columns are arranged in a hollow manner, and the fixing columns are arranged in a hollow manner; when the fixing piece sequentially penetrates through the fixing column, the positioning hole and the positioning column, the fixing plate, the circuit board and the bottom shell are relatively fixedly arranged; the fixing piece is provided with external threads, the fixing column and the positioning column are respectively provided with internal threads, and the fixing piece is in threaded connection with the fixing column and the positioning column respectively.

Further, the cover plate comprises a plate body and a cover body, the plate body is used for opening or closing the front end opening, and the cover body and the detector are arranged correspondingly; the fixed plate has fixed slot and a plurality of stationary blade, the fixed slot is cyclic annular and arranges, the fixed slot has end cell wall, the stationary blade with form fixed area between the end cell wall, the cover body has extension, extension is cyclic annular and arranges, the embedding of extension the fixed slot just extension is in fixed area.

Furthermore, the cover body comprises an induction cover, the extension part and the induction cover are in butt joint arrangement, and the extension part is arranged in a surrounding and surrounding manner along the circumference of the induction cover; along deviating from the detector direction, the response cover is the arch arc and arranges and form the response face, the response face includes a plurality of enlarged district, each enlarged district is according to preface butt joint and arranges, enlarged district is hexagonal shape and arranges.

Further, the driver comprises a first driving motor and a driving board, the first driving motor is in circuit communication with the circuit board, the induction type lamp has an induction range, and when the detector detects a user, the induction type lamp is in a light-emitting state.

Further, the driver comprises a second driving motor and a shielding plate, the second driving motor is in circuit communication with the circuit board, and when the detector detects a user, the induction type lamp is in a light-emitting state.

Furthermore, the intelligent lamp sensor comprises a voice control sensor, and the voice control sensor is electrically connected with the circuit board; when the voice control sensor detects the voice of a user, the circuit board outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state.

Furthermore, the intelligent sensor of the lamp comprises an infrared sensor, and the infrared sensor detects the position of the user according to the human body temperature of the user; the infrared sensor and the circuit board are arranged in an electric connection mode.

Compared with the prior art, the intelligent inductor of the lamp provided by the utility model is used in combination with the induction type lamp, and the induction type lamp automatically controls the lamp to emit light or close; under the normal condition, the user is sensed to the induction type lamps and lanterns, then control lamps and lanterns and give out light, and when the user was in quiescent condition, the user still detected to the detector, and the signal transmission that the detector will detect is to the circuit board, and the starting signal of circuit board output driver impels induction type lamps and lanterns to be the starting condition, and like this, under the user was in the circumstances such as rest, stagnant state, the induction type lamps and lanterns were still in luminous state, and it is unsafe to avoid sudden dark to cause, realizes the lighting requirements of user's stagnant state.

Drawings

Fig. 1 is a schematic cross-sectional view of an intelligent sensor for a lamp according to the present invention;

fig. 2 is a schematic perspective view of a fixing plate and a cover plate of the intelligent sensor for a lamp according to the present invention;

fig. 3 is a schematic view of a detection angle of a detector of the intelligent sensor for a lamp according to the present invention;

fig. 4 is a schematic circuit connection diagram of a driver of the intelligent sensor for a lamp provided by the present invention;

fig. 5 is a schematic circuit connection diagram of a driver of the intelligent sensor for a lamp according to the present invention;

fig. 6 is a schematic diagram of circuit communication between the intelligent lamp sensor and the inductive lamp.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-6, the preferred embodiment of the present invention is shown.

The intelligent lamp sensor comprises a circuit board 20, a detector 30 and a driver, wherein the detector 30 is used for detecting whether a user is in a detection range, the driver is used for outputting a starting signal, and the circuit board 20 is respectively and electrically connected with the detector 30 and the driver; the circuit board 20 is in circuit communication with the induction type lamp; when the detector 30 detects the user signal, the circuit board 20 outputs an activation signal of the driver, so as to activate the induction type lamp.

According to the intelligent lamp sensor, the intelligent lamp sensor is used in combination with an induction lamp, and the induction lamp automatically controls the lamp to emit light or close; under normal conditions, the induction type lamp senses a user, the lamp is controlled to emit light, when the user is in a static state, the detector 30 still detects the user, the detector 30 transmits a detected signal to the circuit board 20, the circuit board 20 outputs a starting signal of the driver, and the induction type lamp is prompted to be in a starting state.

The detector 30 may be a body proximity sensor based on the microwave doppler principle, a planar antenna as the sensing system, a microprocessor controlled sensor.

The human body proximity sensor can detect that the human body proximity distance is adjustable, and the adjustable radius is 1-5 meters.

For example, in a corridor, the corridor is provided with stairs and a platform, the platform is a rest area, and when children and old people move in the corridor, the platform is often selected to rest, and at the moment, the users are in a stagnation state; the human body proximity sensor detection range is basically a building platform, the corresponding detection distance is selected according to the size of the building platform, once a user is in the building platform, the circuit board 20 outputs a starting signal of the driver, and the induction type lamp is prompted to be in a starting state.

The intelligent inductor for the lamp comprises a bottom shell 10 and a cover plate 50, wherein the bottom shell 10 forms a mounting cavity, and the circuit board 20 and the detector 30 are respectively mounted in the mounting cavity; the installation of the circuit board 20 and the detector 30 is realized, and at the same time, the bottom case 10 protects the circuit board 20 and the detector 30.

The installation cavity has a front opening, and the cover plate 50 is used for opening or closing the front opening; the circuit board 20 and the detector 30 are prevented from being exposed, and the service life of the circuit board 20 and the detector 30 is prolonged.

The bottom shell 10 is provided with a plurality of positioning columns 11, the positioning columns 11 are arranged longitudinally, the circuit board 20 is provided with a plurality of positioning holes, the positioning holes and the positioning columns 11 are arranged in a one-to-one correspondence manner, and when the circuit board 20 is arranged in the installation cavity, the top of each positioning column 11 is embedded into the lower end of each positioning hole respectively; the intelligent lamp inductor comprises a fixing plate 40, wherein the fixing plate 40 is provided with a plurality of fixing columns 41, and each fixing column 41 is embedded into the upper end of a positioning hole; like this, through the cooperation of reference column 11, locating hole, fixed column 41, the cooperation effect between reinforcing drain pan 10, circuit board 20 and the fixed plate 40 makes installing between drain pan 10, circuit board 20 and the fixed plate 40 more firm.

The positioning column 11 is arranged in a hollow manner, and the fixing column 41 is arranged in a hollow manner; when the fixing member sequentially penetrates through the fixing column 41, the positioning hole and the positioning column 11, the fixing plate 40, the circuit board and the bottom case 10 are relatively fixedly arranged; the fixing piece is provided with an external thread, the fixing column 41 and the positioning column 11 are respectively provided with an internal thread, and the fixing piece is respectively in threaded connection with the fixing column 41 and the positioning column 11; thus, the installation stability among the bottom chassis 10, the circuit board 20, and the fixing plate 40 is enhanced by the fixing member.

The bottom case 10 is formed with four positioning posts 11, the circuit board 20 has four positioning holes, the fixing plate 40 has four fixing posts 41, and each positioning post 11 and each positioning hole are arranged in one-to-one correspondence with each fixing post 41.

Four reference columns 11 are the four corners and arrange, and four locating holes are the four corners and arrange, and four fixed columns 41 are the four corners and arrange, improve the installation steadiness between drain pan 10, circuit board 20 and fixed plate 40.

In addition, under the action of each positioning column 11, the circuit board 20 is suspended, so that the heat dissipation of the circuit board 20 is facilitated.

The cover plate 50 includes a plate body 51 and a cover body 52, the plate body 51 is used for opening or closing the front end opening, and the cover body 52 is arranged corresponding to the detector 30; the detector 30 detects the external direction through the cover 52, and the detection range of the detector 30 is increased by the cover 52.

The fixing plate 40 has a fixing groove 42 and a plurality of fixing pieces 43, the fixing groove 42 is annularly arranged, the fixing groove 42 has a bottom groove wall, a fixing area is formed between the fixing piece 43 and the bottom groove wall, the cover 52 has an extending part 53, the extending part 53 is annularly arranged, the extending part 53 is embedded in the fixing groove 42, and the extending part 53 is located in the fixing area; the extension 53 of the cover 52 is fitted into the fixing groove 42, and the cover 52 and the fixing plate 40 are fixed to each other by the fixing piece 43, thereby improving the mounting stability of the cover 52.

The cover body 52 comprises an induction cover 54, the outer extension part 53 is in butt joint arrangement with the induction cover 54, and the outer extension part 53 is arranged in a surrounding and surrounding manner along the circumference of the induction cover 54; along the direction departing from the detector 30, the induction cover 54 is arranged in an arched arc shape to form an induction surface, the induction surface comprises a plurality of expansion areas, the expansion areas are sequentially arranged in a butt joint mode, and the expansion areas are arranged in a hexagonal shape; under the action of the respective enlarged regions, the detection range of the detector 30 is increased.

The intelligent lamp sensor comprises a sound control sensor which is electrically connected with the circuit board 20; when the voice control sensor detects the voice of the user, the circuit board 20 outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state; therefore, according to the sound, the induction type lamp controls the lamp to be in a light-emitting state, and the influence on the normal lighting requirement of a user is avoided.

The intelligent sensor of the lamp comprises an infrared sensor, and the infrared sensor detects the position of a user according to the human body temperature of the user; the infrared sensor is electrically connected with the circuit board 20; the infrared sensor detects the user, transmits the signal to the circuit board 20, the circuit board 20 outputs the signal, and the induction type lamp considers that the user is in the illumination range and controls the induction type lamp to be in a light-emitting state.

Embodiment one of the driver: the driver comprises a first driving motor and a driving board, the first driving motor is in circuit communication with the circuit board, the induction type lamp has an induction range, and when the detector 30 detects a user, the first driving motor is started, so that the driving board swings in a reciprocating manner and is in the induction range, and the induction type lamp is in a light-emitting state; therefore, the swinging of the driving plate is equal to the movement of the user, and the induction type lamp considers that the user is in the illumination range and the induction type lamp is controlled to be in a light-emitting state.

Embodiment two of the driver: the driver comprises a second driving motor and a shielding plate, the second driving motor is in circuit communication with the circuit board, when the detector 30 detects a user, the second driving motor starts to control the shielding plate to move to an induction range, and the induction type lamp is in a light-emitting state; the sensing range is shielded by the shielding plate, which is equivalent to the situation that a user enters the sensing range, and static people can be detected.

Embodiment three of the driver: the driver comprises a third driving motor, the third driving motor is used for driving the inductor of the induction type lamp to move, namely, when a human body enters the induction area, the third driving motor enables the inductor to move, the situation that the human body is still is achieved, the inductor moves, the state of the static human body can be detected, namely, a starting signal is output, and the induction type lamp is enabled to be in a starting state.

Embodiment four of the driver: the driver includes the thermal imager, utilizes infrared thermal imaging technique, through the infrared radiation detection to the subject matter, like this, when the user stagnation, the thermal imager detects the user, with signal transmission to circuit board 20, circuit board 20 output plays the signal, then the induction type lamps and lanterns then think the user is in the illumination zone, and induction type lamps and lanterns control is luminous state.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The intelligent inductor for the lamp is characterized by comprising a circuit board, a detector and a driver, wherein the detector is used for detecting whether a user is in a detection range, the driver is used for outputting a starting signal, and the circuit board is respectively and electrically connected with the detector and the driver; the circuit board and the induction type lamp are arranged in a circuit communication manner; when the detector detects a user signal, the circuit board outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state.

2. The intelligent luminaire sensor of claim 1, wherein the intelligent luminaire sensor comprises a bottom case and a cover plate, the bottom case forming a mounting cavity, the circuit board and the detector respectively mounting the mounting cavity; the installation cavity has a front opening, and the cover plate is used for opening or closing the front opening.

3. The intelligent inductor for lamps and lanterns as claimed in claim 2, wherein said bottom shell is formed with a plurality of positioning columns, said positioning columns are arranged longitudinally, said circuit board is provided with a plurality of positioning holes, said positioning holes and said positioning columns are arranged in one-to-one correspondence, when said circuit board is installed in said installation cavity, the top of each positioning column is embedded into the lower end of each positioning hole respectively; the lamp intelligent sensor comprises a fixing plate, wherein the fixing plate is provided with a plurality of fixing columns, and the fixing columns are embedded into the upper ends of the positioning holes.

4. The luminaire intelligent sensor of claim 3, wherein the positioning posts are hollow, and the fixing posts are hollow; when the fixing piece sequentially penetrates through the fixing column, the positioning hole and the positioning column, the fixing plate, the circuit board and the bottom shell are relatively fixedly arranged; the fixing piece is provided with external threads, the fixing column and the positioning column are respectively provided with internal threads, and the fixing piece is in threaded connection with the fixing column and the positioning column respectively.

5. The lamp intelligent sensor of claim 3, wherein the cover plate comprises a plate body and a cover body, the plate body is used for opening or closing the front end opening, and the cover body is arranged corresponding to the detector; the fixed plate has fixed slot and a plurality of stationary blade, the fixed slot is cyclic annular and arranges, the fixed slot has end cell wall, the stationary blade with form fixed area between the end cell wall, the cover body has extension, extension is cyclic annular and arranges, the embedding of extension the fixed slot just extension is in fixed area.

6. The luminaire intelligent sensor of claim 5, wherein the cover body comprises an induction cover, the outer extension is in abutting arrangement with the induction cover, and the outer extension is in surrounding arrangement around a circumference of the induction cover; along deviating from the detector direction, the response cover is the arch arc and arranges and form the response face, the response face includes a plurality of enlarged district, each enlarged district is according to preface butt joint and arranges, enlarged district is hexagonal shape and arranges.

7. The luminaire intelligent sensor of any one of claims 1-6, wherein the driver comprises a first drive motor and a driver board, the first drive motor is in circuit communication with the circuit board, the inductive luminaire has an inductive range, and the inductive luminaire is illuminated when the detector detects a user.

8. The luminaire intelligent sensor of claim 7, wherein the driver comprises a second drive motor and a shutter, the second drive motor being arranged in circuit communication with the circuit board, the inductive luminaire being illuminated when the detector detects a user.

9. The intelligent light sensor according to any one of claims 1-6, wherein the intelligent light sensor comprises a voice-activated sensor, the voice-activated sensor being electrically connected to the circuit board; when the voice control sensor detects the voice of a user, the circuit board outputs a starting signal of the driver to prompt the induction type lamp to be in a starting state.

10. The intelligent light fixture sensor according to any one of claims 1-6, wherein the intelligent light fixture sensor comprises an infrared sensor, and the infrared sensor detects the position of the user according to the human body temperature of the user; the infrared sensor and the circuit board are arranged in an electric connection mode.

Images