KR100682591B1 - Automatic illumination lamp with light source and occupancy sensor - Google Patents

Abstract

An automatic lighting lamp having an integrated detection sensor and a light source is provided to improve energy efficiency through the operation according to surrounding environment by having a luminance sensor within the lamp. A body(1) has an opened groove having an opened bottom. A detachable spiral type electrode unit is formed on an upper end of the body(1). A cover plate(3) is formed on a lower part of the body(1) and covers the opened groove. A human body detection sensor(32) detects a plurality of LEDs and existence of people. A microcomputer controls to turn the LEDs on for a predetermined time according to a detection signal inputted from the human body detection sensor(32). A power supply unit converts and provides power inputted through the spiral type electrode unit into each element. A luminance sensor(35) detects luminance on a lower plane of the cover plate(3). The microcomputer controls to turn on/off the LEDs for a predetermined time when the detection signal is inputted from the human body detection sensor(32) and the detection signal inputted from the luminance sensor is below a predetermined value.

Description

Automatic Illumination Lamp with Light Source and Occupancy Sensor

1 is a bottom perspective view schematically showing an automatic lighting bulb in which a detection sensor and a light source are integrated according to the present invention.

FIG. 2 is a view for explaining an automatic lighting bulb in which the detection sensor and the light source illustrated in FIG. 1 are integrated.

3 is a control flowchart of a control unit built in an automatic lighting bulb in which a detection sensor and a light source are integrated according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: body

11: spiral electrode part

12: exhaust hole

3: cover plate

31: LED

32: human body detection sensor

33: control unit

34: power supply

35: illuminance sensor

5: transparent cap

10: auto lighting bulb

The present invention relates to a light bulb, and more particularly, to an auto-lighting bulb in which a sensor and a light source are integrated with a sensor that can be easily attached to and detached from a socket that is used according to the presence of a person.

In general, lighting devices are installed in doors or corridors of offices, apartments, and the like. In particular, automatic lighting devices for detecting the presence of people at night and automatically lighting them are widely used.

Such automatic lighting devices are generally configured to detect the presence of a person using an infrared sensor and automatically turn on a light bulb, and to turn off a light bulb after a certain time.

However, since the automatic lighting device is composed of a sensor and a control unit separately from a light bulb, it is impossible to directly use an electric wiring structure in which a light bulb or a fluorescent lamp is installed. There was a problem that takes a lot more than the lamp.

In addition, since the conventional automatic lighting device is mostly used incandescent lamps or fluorescent lamps, the lifespan is only 1,000 to 6,000 hours, so it is often inconvenient to be replaced frequently and is easily damaged because of its weakness.

The present invention has been invented to solve the above problems, and can be easily attached and detached to the existing light bulb socket, and the automatic light bulb integrated with a detection sensor and a light source automatically turned on and off depending on the presence of a person. The purpose is to provide.

In particular, the object of the present invention is to provide an automatic lighting bulb in which a sensor and a light source are integrated, which can significantly reduce power consumption and be used semi-permanently.

It is also an object of the present invention to provide an automatic lighting bulb in which a sensor and a light source are automatically turned on and off according to the surrounding environment of the place where the bulb is installed.

The automatic lighting bulb according to a preferred embodiment of the present invention for achieving the above object is a body having an open groove portion is formed in the lower opening therein and a spiral electrode portion detachable to the bulb socket at the top, and the body It is provided at the bottom to cover the open groove and has a human body sensor for detecting the presence of a plurality of LED and the person on the lower surface so that the LED lights up for a predetermined time according to the detection signal input from the human body sensor And a cover plate having a power supply unit for converting and supplying power input through the helical electrode unit and the helical electrode unit to each component, and further comprising an illuminance sensor detecting a peripheral illuminance on the bottom surface of the cover plate. The sensing signal inputted from the illuminance sensor Below a certain level, when the detection signal is input from the human body sensor, the LEDs are controlled to be turned on for a predetermined time.
According to this configuration, the automatic lighting bulb according to the present invention is automatically turned on according to the presence or absence of a person through a human body sensor provided in the bulb itself. In particular, since the helix blood electrode is formed on the top of the body, it can be easily installed and used in a conventional light bulb socket in which the incandescent bulb is detachably existing.

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Therefore, by installing an automatic lighting bulb in the bulb socket installed in the front door or hallway, the bulb is turned on without a switch operation on the bulb like a conventional automatic lighting device.

In addition, since the light emitting lamp is composed of LEDs, the power consumption can be significantly lowered and used semi-permanently, and the bulb itself can be minimized since it is more resistant to external shock than incandescent bulbs.

The invention will become more apparent through the preferred embodiments described below with reference to the accompanying drawings. Hereinafter will be described in detail to enable those skilled in the art to easily understand and reproduce through these embodiments.

1 is a bottom perspective view schematically showing an auto lighting bulb according to the present invention, Figure 2 is a view for explaining the auto lighting bulb of the present invention.

As shown in Fig. 1 and Fig. 2, the automatic lighting bulb 10 according to the present invention is largely composed of a body 1 and a cover plate 3 mounted below the body 1. In addition, a transparent cap 5 is further provided around the bottom of the body 1.

In the embodiment of the present invention, the body 1 has an open groove portion having an open lower portion therein, and a spiral electrode portion 11 detachable from the light bulb socket at the upper end thereof. In addition, a seating groove 13 into which the cover plate 3 covering the open groove is inserted is formed at the inner circumference of the lower part of the body 1, that is, at the lower circumference of the open groove.

As the spiral electrode is formed on the top of the body as described above, it can be easily installed and used in a general light bulb socket in which an incandescent lamp is detachably existing.

And the cover plate 3 is bolted to the seating groove 13 of the body to cover the open groove formed in the body. As such, the cover plate 3 covering the body 1 is a printed circuit board, and a plurality of LEDs 31, which are light emitting elements, are provided on a lower surface of the cover plate 3.

Accordingly, the automatic lighting bulb according to the present invention, unlike the conventional incandescent light bulb can not only significantly reduce the power consumption, but also resistant to external impact compared to the incandescent light bulb can minimize the breakage of the LED, the light emitting lamp for a longer period of time Can be used.

In addition, the lower surface of the cover plate 3, the LED 31 is provided with a human body sensor 32 for detecting the presence of a person.

In the embodiment of the present invention, a sensor for detecting the presence of a person may be a sensor for detecting the presence of a person by detecting heat, but for detecting the presence of a person using an infrared sensor which is inexpensive and commercially available. It is preferable. The human body detecting sensor detects a state of change in the amount of infrared rays generated in the human body, that is, a moving object with infrared rays.

In addition, the upper surface of the cover plate 3, which is a printed circuit board, is connected to the spiral electrode portion 11 provided at the upper end of the body 1 and the cable 7 and is provided on the printed circuit board, which is the cover plate 3, respectively. A power supply 34 for supplying power to the components is provided. Accordingly, the automatic lighting bulb according to the present invention is operated by the DC power supplied by conversion from the power supply.

In addition, the upper surface of the cover plate 3 is provided with a microcomputer 33 for controlling the LEDs of the light emitting device is turned on in accordance with the presence or absence of a person.

In the embodiment of the present invention, the microcomputer 33 for controlling the lighting of the LEDs includes a memory in which lighting time information is stored so that the LEDs light up for a predetermined time. It also has a built-in timer to measure the lighting time stored in memory.

Accordingly, the automatic lighting bulb according to the present invention is automatically turned on while maintaining a lighting state for a predetermined time by the microcomputer installed inside the bulb. That is, when the human body detection signal is input from the human body sensor, the microcomputer lights the LEDs for a predetermined time according to the lighting time information stored in the memory, and then controls the light emitting states of the LEDs to turn off the LEDs when this time elapses.

As described above, the automatic lighting bulb automatically operated by the microcomputer is turned on and then turned off for a predetermined time when a person exists within a certain range, and more preferably, when a person is detected in a dark environment using an illuminance sensor. It is advantageous to.

 That is, according to a preferred embodiment of the present invention, the auto-light bulb 10 according to the present invention is further provided with an illumination sensor 35 for sensing the ambient illumination on the upper surface of the cover plate (3).

In this embodiment, the microcomputer 33 may be designed such that the LEDs are turned on according to the signals input from the illumination sensor 35 and the human body sensor 32. When using illuminance information input from the illuminance sensor as described above, a set illuminance value for turning on the LEDs is further stored in a memory built into the microcomputer 33.

Accordingly, in the automatic illuminance bulb according to the present invention, the illuminance measurement data measured by the illuminance sensor is less than or equal to the preset illuminance data, and the LEDs light only when a detection signal is input from the human body sensor.

As such, the positions of the illuminance sensor and the human body detecting sensor for measuring the peripheral illuminance are not limited to the center of the lower surface of the cover plate as shown in the drawing. For example, the human body sensor may be installed on the bottom surface of the body facing the ground, not the cover plate. And in the case of the illumination sensor may be installed around the body.

Meanwhile, in the embodiment of the present invention, the above-described illuminance sensor, the human body sensor, and the power supply unit are known in the art before the present application, and thus detailed description thereof will be omitted.

Hereinafter, an operating state of the auto lighting bulb according to the present invention will be described with reference to FIG. 3.

It is assumed that the automatic lighting bulb 10 described below includes a human body sensor 32 and an illuminance sensor 35.

The automatic lighting bulb 10 according to the present invention is operated by the microcomputer 33, first the microcomputer 33 determines whether a person exists within a predetermined range (S331). That is, when a person enters into the detection range of the human body sensor 32 installed in the auto lighting bulb, the microcomputer 33 recognizes the presence of the person according to the detection signal input from the human body sensor 32. However, if no people are detected, the microcomputer will not work and will be in a standby state.

Next, when recognizing the presence of a person, it is determined whether the illuminance of the place where the light bulb is installed is less than or equal to the set value stored in the memory (S332). That is, as a result of determining the measured value input from the illuminance sensor 35, if it is less than or equal to the set illuminance, the process proceeds to the next step, and if it is larger than the set value, the process returns to step S331 again.

That is, when the ambient illuminance is less than the set value in the state where a person is detected, the microcomputer 33 turns on a plurality of LEDs 31 provided on the bottom surface of the cover plate 3, which is a printed circuit board (S333). When the LEDs 31 are turned on as described above, the timer built in the microcomputer 33 is operated. In the state where the LEDs are turned on, the microcomputer 33 maintains the lighting state by using the lighting time information stored in the memory.

The microcomputer 33 then determines whether the lighting time has elapsed (S334). That is, the LEDs that are turned on are turned off according to time information input from a timer that is operated at the same time as the bulb is turned on. In other words, when the input time information and the lighting time information stored in the memory are compared with each other, the LEDs of the light bulbs turned on by the control of the microcomputer are turned off (S335). However, when the time information input from the timer is smaller than the lighting time information set in the memory, the LEDs are turned on by maintaining the lighting state continuously.

Therefore, the auto-light bulb according to the present invention having the above components is automatically turned on when a person exists within the range of the human body sensor as the human body sensor is built in the bulb.

In addition, since the light sensor is built in the light bulb, the light bulb is more efficient in terms of energy since the light bulb is operated according to the surrounding environment such as at night or when the weather is dark when a person is detected.

In particular, since the spiral electrode is formed on the top of the body, it can be easily installed and used in a conventional light bulb socket in which the incandescent lamp is detachably existing. Therefore, by installing the automatic lighting bulb in the bulb socket installed in the front door or corridor, the same effect as the conventional automatic lighting device can be obtained by only the bulb mounted in the bulb socket without installing the automatic lighting device at a cost.

Meanwhile, according to an additional embodiment of the present invention, as illustrated in FIGS. 1 and 2, an exhaust hole 12 is further provided around an upper circumference of the body 1 constituting the bulb.

Accordingly, when the LEDs are turned on, heat generated from various elements, particularly the LEDs, is discharged to the outside through the exhaust hole 12, thereby minimizing damage to the various elements by heat. In addition, it is possible to prevent the moisture generated inside the bulb by the temperature difference between the inside and outside of the bulb. Therefore, the risk of bulb malfunction due to heat and humidity can be reduced.

In addition, according to still another embodiment of the present invention, as shown in Figures 1 and 2 is further provided with a transparent cap 5 at the bottom of the body (1).

In this embodiment, the transparent cap 5 which is mounted by forcibly fitting to the bottom of the body is a transparent body made of acrylic resin, glass, or the like having a high transmittance, and the auto lighting bulb according to the present invention is made of dust such as dust by the cap. This will prevent the LEDs inside the bulb from sticking to the cover plates between the LEDs.

As described in detail above, the automatic lighting bulb in which the detection sensor and the light source are integrated according to the present invention automatically emits light when a human being exists within the range of the human detection sensor as the human detection sensor is built in the light bulb.

In addition, since the light sensor is built in the light bulb, the light bulb is more efficient in terms of energy since the light bulb is operated according to the surrounding environment such as at night or when the weather is dark when a person is detected.

In particular, since the spiral electrode is formed on the top of the body, it can be easily installed and used in a conventional light bulb socket in which the incandescent lamp is detachably existing.

Therefore, by installing an automatic lighting bulb in which a sensor and a light source are integrated in a bulb socket installed in a front door or a corridor, a bulb installed in the bulb socket without using an automatic lighting device at a cost does not need to be replaced with a conventional automatic lighting device. The effect can be obtained.

In addition, unlike the conventional incandescent bulb, by using the LED as a light emitting device, not only can greatly reduce the power consumption, but also resistant to external impact compared to the incandescent bulb can minimize the breakage of the LED can be used for a longer period of time.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many different and obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

Claims (4)

A body having an open groove portion having an open lower portion therein and having a spiral electrode portion detachable from a light bulb socket at an upper portion thereof; It is provided on the lower portion of the body to cover the open groove, the lower body is provided with a human body sensor for detecting the presence of a plurality of LEDs and people, the upper surface for a predetermined time according to the detection signal input from the human body sensor The cover plate is provided with a microcomputer for controlling the LEDs to be turned on and a power supply for converting and supplying the power input through the spiral electrode portion to each component, It further comprises an illuminance sensor for detecting the ambient illuminance on the lower surface of the cover plate, When the detection signal input from the illuminance sensor is less than a certain level, and the detection signal is input from the human body sensor, the microcomputer controls the LEDs to be turned on for a predetermined time. Lighting bulbs. delete The method of claim 1, And an exhaust hole for exhausting heat generated in the space of the open groove to the outside around the body. The method of claim 1, The lower end of the body has a transparent cap further characterized in that the auto-light bulb integrated with the sensor and the light source.

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