KR100728323B1 - Apparatus for controlling lamp for visual protecting, and method for controlling and socket including it - Google Patents

Abstract

The present invention relates to a control device and a control method of a lamp for eye protection, and a socket to which the lamp is applied, for the purpose of eliminating the damage and psychological rejection of the optic nerve caused by sudden dot / light off by gradually increasing the brightness of the lamp. do.

Control device for a vision protection lamp according to the present invention, the human body presence sensor 10 for detecting the presence of a human body in a certain area; A lamp on / off signal input unit 20 for converting a signal input from the human presence sensor into a digital signal; A zero crossing detection unit 30 for detecting a zero crossing time point P1, P2, P3,,, of the commercial AC power supply; A triac 40 for applying / blocking power to the lamp L; On-time of the triac (T1, T2, T3 ,,) based on the zero crossing time input by the zero crossing detection unit in the state in which the lamp on / off signal is input from the lamp on / off signal input unit. A control unit 50 for gradually controlling the phase of the AC power by setting differently to control the phase of the AC power so that the lamp gradually darkens after being fully lit and gradually darkens; And it comprises a power supply unit 60 for supplying a commercial AC power.

Lamp, sensor light, zero crossing, triac, slow up

Description

Control device and control method of eye protection lamp and socket to which it is applied {APPARATUS FOR CONTROLLING LAMP FOR VISUAL PROTECTING, AND METHOD FOR CONTROLLING AND SOCKET INCLUDING IT}

1 is a phase diagram showing a point / off state of the lamp according to the prior art.

2 is a block diagram of a control device for a vision protection lamp according to the present invention.

3 is a control flowchart according to the control method of the eye protection lamp according to the present invention.

Figure 4 is a phase diagram of a power supply showing a light / off state of the lamp according to the control device and control method of the lamp for vision protection according to the present invention.

Figure 5 is a phase diagram showing a current application state according to the control device and control method of the eye protection lamp according to the present invention.

Figure 6 is a perspective view of the socket to which the control device of the eye protection lamp according to the present invention is applied.

Figure 7 is an exploded perspective view of a socket to which the control device of the eye protection lamp according to the present invention is applied.

8 is a conceptual view of a socket to which the control device of the eye protection lamp according to the present invention is applied.

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

10: lamp on / off applying means, 20: lamp on / off signal input unit

30: zero crossing detection unit, 40: triac

41: triac controller, 50: controller

51: memory, 52: mode setting unit

53: resistor, 60: power supply

The present invention relates to a control device and a control method of the eye protection lamp and a socket to which the lamp is applied, and more particularly, to prevent damage to the optic nerve and the visual system brain cells due to the sudden point / light off of the lamp, and to eliminate psychological rejection. The present invention relates to a control device and a control method of a vision protection lamp, and to a socket to which it is applied, so that such a vision protection technology can be easily applied.

In general, lamps are installed at the entrance and indoor space of the building where people enter and exit. Such lamps may be of a type that is turned on by a user's manual switch operation, or is turned on by an operation of a remote controller, or is turned on by sensing a human presence sensor.

Here, in the entrance of the apartment, stairway, or the porch of the house where the entrance and exit of the person are intermittently generated, the lamp is turned on only when the person is detected by detecting the presence or absence of human body detection in order to prevent power waste due to continuous lighting. In other cases, a sensor or the like which is kept off is installed.

Such a sensor is composed of, for example, an illuminance sensor, a human body presence sensor, an amplifier, a timer, and a lamp driver. In other words, the human body presence sensor operates when the power is supplied through the illuminance sensor above a certain illuminance, and when a person enters the monitoring area of the human presence sensor, the human body amplifies the human body detection signal at that moment and sends it to the timer. It is determined that a person enters the surveillance area through the change of the detection signal, and the lamp driving unit is controlled to turn on the lamp for a predetermined time. At this time, the lamp is instantaneously applied to 100% power in the light-off state and is turned on to the maximum 100% state, the power is turned off momentarily after a certain time passes (see Fig. 1).

However, the lamp according to the prior art has the following problems.

Conventional lamps, especially sensor lamps, can cause damage to the retina, optic nerve, and visual system brain cells by giving an optical shock to the visual system because the lamp is turned on instantaneously when a person is detected within the detection zone. For those with weak optic nerves, the damage is fatal.

In addition, since the sensor lamp controls the lamp to be turned on only for a certain time after detecting the presence of a human body, if the setting time is exceeded even though a person is still waiting at the entrance, the lamp does not generate a heat detection change / operation change value. Will be turned off. At this time, there is no problem when the accessor completes the entrance or completes the operation within the lamp keeping time such as the timer by the sensor lamp, but there is no problem. If the timer exceeds the time set in the lamp, the lamp will automatically turn off, so the surroundings will be dark, and the outsider will be dark and suddenly cannot see the surroundings. There is psychological rejection and fear that must be restarted.

In addition, since the sensor detects only the movement of the human body, if it is installed in a restroom, the lamp of the sensor lamp goes off because the movement is not detected when the person sits still without moving to see the work in the restroom. Weak people are surprised by the sudden lights out and feel a sense of fear, there is a disadvantage that can not be used in the bathroom.

In addition, there is a problem of the lamp itself with such use problems. As the lamp is turned on momentarily, the incandescent bulb has a short-term heat expansion due to instant thermal expansion of the filament, which shortens the life of the lamp. In the case of a discharge tube such as a fluorescent lamp, there is a disadvantage in that a blackening phenomenon occurs and the life thereof is shortened.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and to provide a control device and method for a vision protection lamp and a socket to which the lamp is applied so that the lamp may gradually become bright to prevent damage to the visual system caused by instantaneous lighting. There is a purpose.

In addition, another object of the present invention is to relieve a sense of fear due to sudden turn off by foretelling the lamp turn off by gradually darkening the lamp.

Still another object of the present invention is to prevent shortening of the life of the lamp due to instantaneous lighting.

The control device and method of the eye protection lamp according to the present invention for achieving the above object and the socket to which the lamp is applied, control the amount of power applied to the lamp when the lamp is turned on and off so that the lamp is gradually brightened and darkened. It features.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

As shown in Fig. 2, the control device 1 of the eye protection lamp according to the present invention is a lamp on / off for converting the lamp on / off signal of the analog form input from the lamp lighting application means 10 into a digital signal Power is applied to the off signal input unit 20, the zero crossing detection unit 30 for detecting the zero crossing points P1, P2, P3, and (see Fig. 4) of the commercial AC power supply and the lamp L. On / off time point of the triac 50 based on the triac 40 to block and the signal input from the human presence sensor 10 and the zero crossing timing detected by the zero crossing detecting unit 30. It is configured to include a control unit 50 for controlling the lamp (L) is gradually turned on / off when detecting the human body by determining T3 ,,, and, and a power supply unit 60 for supplying a commercial AC power, Each component will be described in detail.

The lamp flashing light applying means 10 is installed on a human body presence sensor 10A, a wall surface, etc. for detecting the presence of a human body in the detection area, and a manual switch 10B for converting a contact point by a user's operation to generate an on / off signal. And a remote controller 10C for generating an on / off signal at a remote location. The human body presence sensor 10 detects the presence or absence of a human body in the detection area, and may use a thermal conductivity sensor, an infrared sensor, a proximity sensor, etc. to detect the human body by detecting heat of the human body.

The lamp on / off signal input unit 20 converts an analog lamp on / off signal input from the lamp on / off applying unit 10 into a digital signal and inputs it to the controller 50.

The human presence sensor 10A detects all human presences and may input all human presence signals from the lamp on / off signal input unit 20 to the controller 50, and the human presence sensor 10A only detects the entry of the human body. In addition, the lamp on / off signal input unit 20 may input only the lamp on signal to the controller 50 and the lamp off signal may be determined by a timer.

The zero crossing detecting unit 30 detects the zero crossing points P1, P2, P3,, which are periodically generated by the commercial AC power, and inputs them to the controller 50.

The triac 40 is turned on under the control of the controller 50 and is turned off at the zero crossing points P1, P2, P3,, to apply / block power to the lamp L. It is controlled by the triac control part 41 which converts a digital signal into an analog signal.

The controller 50 is based on a lamp on / off signal input from the lamp on / off signal input unit 20 (or an on signal by the lamp on / off signal input unit 20 and an off signal by a timer). By turning on / off the lamp L by determining the on-times T1, T2, T3,, of 40, the lamp L is turned on by human body sensing as shown in FIG. 5. It is gradually turned on for a certain time from the point of time and then 100% for a certain time and then gradually turned off for a certain time. That is, the lighting from the lamp to the lights out can be divided into the lighting adaptation step (S1)-the maximum lighting step (S2)-the extinction notice step (S3).

Here, when the extinguishing of the lamp L is determined by time, the entire time of the lighting of the lamp L is stored in the memory 51 of the controller 50.

The point / light off of the lamp L will now be described in detail.

The control unit 50 generates zero crossing points (P1, P2, P3 ,,,) (see FIG. 4) periodically and the zero crossing points (P1, P2, P3 ,, ...) in the commercial AC power supply AC. By using the characteristics of the triac 40 off at), the on time (T1, T2, T3 ,,) of the triac 40 is different based on the zero crossing time points (P1, P2, P3 ,,). In this way, the lamp L is controlled to gradually turn on / off.

Figure 4 is a phase diagram showing the supply of power to control the lamp to be turned on / off according to the present invention, (a) is a waveform diagram of a commercial AC power supply, (b) is a power applied to gradually light the lamp (C) is a phase diagram of a power supply applied to illuminate the lamp at maximum brightness, and (d) is an illustration of a phase diagram of power supply applied to gradually darken the lamp. That is, as shown in FIG. 4, the controller 50 receives the zero crossing points P1, P2, P3,, which are periodically generated through the zero crossing detector 30, and zero crossing points P1 and P2. By gradually controlling the on time (T1, T2, T3 ,,) of the triac 40 on the basis of, P3 ,,, the lamp L is gradually brightened. (Lighting adaptation step (S1)), 100% power is applied to the lamp (L) for a predetermined time to be lit with the maximum brightness (maximum lighting step (S2)), then, the zero crossing time point (P1, P2) The lamp L is gradually darkened by controlling the on-times T1, T2, T3,, of the triac 40 to be gradually closer to each other (to reduce the amount of power) based on, P3, and. (Lighting off stage (S3)).

On the other hand, the user can vary the time of the lighting adaptation step (S1) and the extinguishing warning step (S3), for example, the long-time (short-time) mode and the short-time (short-time) mode can be changed To be provided. Therefore, the control part 50 is equipped with the mode setting part 52 which sets a long time mode and a short time mode. The mode setting unit 52 is operated by the user's switch SW1 operation to set the mode to long time or short time.

When the lamp L is turned off by time, the time of lighting adaptation step S1 and lighting off step S3 is adjusted within the total lighting time (sum of lighting adaptation time + maximum lighting time + lighting off time). do. That is, the maximum lighting time is changed according to the time of the lighting adaptation stage and the unlit prediction stage.

In the figure, reference numeral 53 is a register of the controller 50, and 42 is a triac protection unit.

Hereinafter, a control method of the eye protection lamp according to the present invention will be described.

(S100) Initialization and output off. In order to prevent malfunction of the device, the memory 51 of the control unit 50, the mode setting unit 52, the register 53, and the like are initialized, and the lamp L is turned off.

(S200) Select mode. According to the present invention, a long time mode and a short time mode in which the lighting adaptation time of gradually increasing the lamp l and the unlit notice time of gradually darkening are provided are provided, and the user can operate the mode selection switch SW1. Time mode and short time mode can be selected.

(S210) Mode setting. The mode setting unit 52 of the control unit 50 maintains the selected mode in the step (S200) mode selection step to maintain the lighting adaptation time in which the lamp L gradually brightens and the unlit notice time in which the lamp gradually darkens in the selected mode. do.

(S300) Lamp on / off detection. Lamp flashing light applying means 10 (human presence sensor 10A detects the presence or absence of human body in the detection area of the installation place and outputs an on / off signal, and manual switch 10B changes the contact point by a user's operation). While outputting an on / off signal, the remote control receiver 10C outputs an on / off signal by the operation of the remote controller), and outputs a lamp on / off signal to the lamp on / off signal input unit 20, and the lamp on. The on / off signal input unit 20 converts the analog signal output from the lamp lighting lamp applying unit 10 into a digital signal and inputs it to the controller 50.

(S400) Lamp on flag set (FLAG SET). When the lamp on signal is input from the lamp on / off signal input unit 10, the controller 50 determines the lighting of the lamp L and stores the lamp L. FIG.

(S500) Zero crossing point detection. The zero crossing detection unit 30 detects a zero crossing time point (P1, P2, P3 ,,) from the commercial AC power input to the control unit 50.

(S600) Controls the lamp brightness slow up. While the ON signal of the lamp L is input, the controller 50 controls the triac 40 to cause the lamp L to slow up (gradually brighten) for a predetermined time (a predetermined time in the long time mode or the short time mode). ). The controller 50 receives the zero crossing points P1, P2, P3 ,, through the zero crossing point detection step (S600), based on the zero crossing points P1, P2, P3 ,,. Progressive zero crossing time points P1, P2, P3, ... at the on time points T1, T2, T3, ... of the triac 40 (The triac 40 has zero crossing time points P1, P2, P3). Since the zero crossing time point (P1, P2, P3 ,,,) refers to the off time point corresponding to the on time point (T1, T2, T3 ,,,) of the triac 40 in the on state, The on-times T1, T2, T3,,, of the triac 40 are controlled by the triac controller 41 so that the power is applied to the lamp L so that the power is increased. As such, when the triac 40 is turned on at the time points T1, T2, T3, and, the power is applied to the lamp L so that the lamp L is turned on, and the zero crossing points P1, P2 and P3. , ,,,), the lamp L is turned off until the triac 40 is turned off and receives the next on signal. As the operation is continued, the on time of the triac 40 increases, and thus the lamp L gradually becomes brighter as the amount of power applied to the lamp L increases. As the brightness of the lamp L is gradually increased in this manner, the optic nerve of the user is adapted to the brightness of the lamp L, thereby preventing damage to the optic nerve.

(S700) Lamp max lit. The (S600) lamp brightness slow-up control step proceeds for a predetermined time, and when the control step time elapses, 100% of power is applied to the lamp L, and the lamp L is turned on at the maximum brightness (see FIG. 4). See phase diagram (c)).

(S800) Lamp off detection. When the lighting time of the lamp L has elapsed or no person is present within the detection area by the human presence sensor 10, the lamp turn-off signal is output.

(S810) Lamp off flag set (FLAG SET). When the lamp off signal is output in the (800) lamp off detection step, the control unit 50 converts the lamp on execution state stored in the (S400) lamp on flag setting step into a lamp off determination state and executes lamp off. Decide

(S900) Controls the lamp brightness slow down. In the state in which the off signal of the lamp L is input, the controller 50 controls the triac 40 so that the lamp L is slowed down (gradually darkened) for a predetermined time (a predetermined time in the long time mode or the short time mode). ). The controller 50 receives the zero crossing points P1, P2, P3, and through the zero crossing point detection step (S500), based on the zero crossing points P1, P2, P3, and. The on-times T1, T2, T3,, of the triac 40 gradually become closer to the zero crossing time points P1, P2, P3,, so that the power applied to the lamp L decreases. The on of the triac 40 is controlled through the triac controller 41. As this operation continues, the on time of the triac 40 is shortened, and thus the lamp L gradually becomes brighter as the amount of power applied to the lamp L decreases (see the phase diagram (d) of FIG. 4). ). As the lamp L gradually darkens as described above, the user notices that the lamp L is turned off, so that when the user does not complete the work at this time, the sensor such as the sensor can detect the user so that the sensor light turns on again. can do. When the lamp lighting applying means 10 is the human presence sensor 10A and the remote controller 10C, the lamp L is controlled to gradually darken, but the lamp lighting applying means 10 is the manual switch 10B. In this case, when the contact is changed by the operation of the manual switch 10B, the power is immediately cut off, so the lamp L is turned off immediately without being gradually turned off.

(S1000) The lamp is off. When the time of the lamp brightness slow-down control step elapses, the lamp L is turned off and completely turned off.

Hereinafter, a socket to which a lamp for controlling a time protection according to the present invention is applied will be described.

6 to 8, the socket 100 to which the lamp for controlling a vision protection according to the present invention is applied is a time for controlling on / off of the case 110 and the lamp L (see FIG. 8). It consists of a protective lamp control device (1) is used detachably in the main socket 200 (see Fig. 8).

The case 110 may be formed of first and second members 111 and 112 that are decomposably coupled to each other.

The first case member 111 is formed in a curved shape that is open toward the lower side, and the main socket connection portion 111a that is connected to the main socket 200 and receives external power is protruded from the central portion of the outer surface thereof.

The second case member 112 has a cylindrical shape that is open toward the upper side, and a concave lamp connection portion 112a in which the lamp L is mounted is formed therein.

The socket connecting portion 111a of the first case member 111 may have a male screw shape, and the lamp connecting portion 112a of the second case member 112 may have a female screw shape.

The first case member 111 and the second case member 112 may be coupled by fasteners, such as bolts 113, screwed, or may be coupled to each other based on the fitting method. The coupling structure of the first and second case members 111 and 112 is not limited to the coupling structure described above, and any structure capable of dissolving the first and second case members 111 and 112 in a degradable manner is applicable.

The on / off control circuit 1 of the lamp L is mounted on the PCB 120. The on / off control circuit unit 1 of the lamp L includes a lamp on / off signal input unit 20 for converting an analog type lamp on / off signal input from the lamp on / off applying unit 10 into a digital signal; Zero crossing detection unit 30 for detecting the zero crossing time point (P1, P2, P3 ,,, (see Fig. 4)) of the commercial AC power supply, and the triac 40 for applying / blocking power to the lamp (L) And the on-time T1, T2, T3,, of the triac 50 based on the signal input from the human presence sensor 10 and the zero crossing point detected by the zero crossing detection unit 30. It comprises a control unit 50 for controlling the lamp (L) to gradually turn on / off when detecting the human body, and a power supply unit 60 for supplying a commercial AC power.

The lamp flashing light applying means 10 is installed on a human body presence sensor 10A, a wall surface, etc. for detecting the presence of a human body in the detection area, and a manual switch 10B for converting a contact point by a user's operation to generate an on / off signal. And a remote controller 10C for generating an on / off signal at a remote location. The human body presence sensor 10 detects the presence or absence of a human body in the detection area, and may use a thermal conductivity sensor, an infrared sensor, a proximity sensor, etc. to detect the human body by detecting heat of the human body.

The operation of the socket to which the lamp control apparatus for visual protection according to the present invention is applied varies depending on the type of the lamp lighting applying means 10. The socket is basically made to gradually lighten when the lamp is turned on, and gradually darkened when turned off. When the lamp lighting application means 10 is the human presence sensor 10A and the remote controller 10C, the lamp is gradually When the lamp is turned on and off, and the lamp lighting application means 10 is the on / off manual switch 10B, when the off signal is generated by the manual switch 10B, the lamp is gradually darkened as the power is cut off immediately. Can only control the lighting of the lamp.

The lamp on / off signal input unit 20 receives a signal applied from the human presence sensor 10A, which is the lamp on / off applying means 10, converts an analog lamp on / off signal into a digital signal, and then controls the controller 50. ), Receives a signal (for example, infrared rays) transmitted from the remote controller 10B, converts the signal into a digital signal, and then applies it to the controller 50. The contact change by the operation of the manual switch 10C is converted into a digital signal. It converts and inputs it to the control part 50.

When the lamp turning-on application means 10 is the human presence sensor 10A, the human presence sensor 10A detects all the presence of the human body and transmits all the human presence signals from the lamp on / off signal input unit 20 to the controller 50. The human body presence sensor 10A may detect only an entry of a human body, the lamp on / off signal input unit 20 may input only a lamp on signal to the controller 50, and a lamp off signal may be determined by a timer. .

The zero crossing detecting unit 30 detects the zero crossing points P1, P2, P3,, which are periodically generated by the commercial AC power, and inputs them to the controller 50.

The triac 40 is turned on under the control of the controller 50 and is turned off at the zero crossing points P1, P2, P3,, to apply / block power to the lamp L. It is controlled by the triac control part 41 which converts a digital signal into an analog signal.

The controller 50 is based on a lamp on / off signal input from the lamp on / off signal input unit 20 (or an on signal by the lamp on / off signal input unit 20 and an off signal by a timer). By turning on / off the lamp L by determining the on-times T1, T2, T3,, of 40, the lamp L is turned on by human body sensing as shown in FIG. 5. It is gradually turned on for a certain time from the point of time and then 100% for a certain time and then gradually turned off for a certain time. That is, the lighting from the lamp to the lights out can be divided into the lighting adaptation step (S1)-the maximum lighting step (S2)-the extinction notice step (S3).

Here, when the extinguishing of the lamp L is determined by time, the entire time of the lighting of the lamp L is stored in the memory 51 of the controller 50.

Referring to the operation of the socket to which the lamp control device for visual protection according to the present invention configured as described above is as follows.

The socket 100 according to the present invention is used in combination with the main socket 200 without changing the structure of the structure, such as the main socket 200, the manual switch (10C) that is already installed, and when not in use, the main socket 200 Store away from

The main socket connection portion 111a of the socket 100 according to the present invention is coupled to the main socket 200 by a screw type, and the lamp L is connected to the lamp connection portion 112a of the socket 100.

In this state, the lamp L is operated to turn on / off the lamp L. FIG. For example, the on / off signal of the lamp L is generated by the lamp lighting applying means 10.

When the on / off signal of the lamp L is applied by the lamp lighting applying means 10 (the human body sensor 10A detects a human body in the detection area, turns on or operates the manual switch 10B, or the remote controller 10C). The ON / OFF signal is applied by selecting the ON button), and the lamp ON / OFF signal input unit 20 converts the ON / OFF signal input from the lamp on / off applying means 10 into a digital signal and inputs it to the controller 50. do.

(1) Lighting of the lamp (L)

When the lighting of the lamp L is determined, the zero crossing detection unit 30 detects the zero crossing time points P1, P2, P3, and the like from the commercial AC power input to the control unit 50, and inputs the control unit 50 to the control unit 50. The triac 40 controls the ramp L to be slowed up (gradually brightened) for a predetermined time (a predetermined time in the long time mode or the short time mode). The controller 50 receives the zero crossing time points P1, P2, P3, and, and the ON time T1 of the triac 40 based on the zero crossing time points P1, P2, P3, and. T2, T3 ,,,) is gradually zeroed at the point of zero crossing (P1, P2, P3 ,,,) (the triac 40 is turned off at the point of zero crossing (P1, P2, P3 ,,,) (P1, P2, P3 ,,) is applied to the lamp L so as to be far from the on time (T1, T2, T3, ...) of the triac 40 in the on state. The on-times T1, T2, T3,, of the triac 40 are controlled through the triac controller 41 so that the power becomes large. As such, when the triac 40 is turned on at the time points T1, T2, T3, and, the power is applied to the lamp L so that the lamp L is turned on, and the zero crossing points P1, P2 and P3. , ,,,), the lamp L is turned off until the triac 40 is turned off and receives the next on signal. As the operation is continued as described above, the on time of the triac 40 increases, and as the amount of power applied to the lamp L increases, the lamp L gradually becomes brighter. As the brightness of the lamp L is gradually increased in this manner, the optic nerve of the user is adapted to the brightness of the lamp L, thereby preventing damage to the optic nerve.

The gradual brightness of the lamp L proceeds for a predetermined time, and when this time elapses, 100% of power is applied to the lamp L, and the lamp L is turned on at the maximum brightness.

(2) The lamp L is turned off.

 When the lamp L is turned on or when no person is present within the detection area by the human presence sensor 10A, when the manual switch 10B is turned off or when the off button of the remote controller 10C is selected, the lamp is turned off. do. When the lamp L is turned on, the lamp L is gradually turned on regardless of the kind of the lamp turning-light applying means 10, but when the lamp L is turned off, Therefore, the lamp L is turned off.

In this case, when the lamp L is turned off by operating the manual switch 10B, the lamp L is turned off at the same time as the switch is turned off and the power is cut off, and the human presence sensor 10A and the remote controller 10C are turned off. In this case, the lamp L is gradually turned off by controlling the power of the lamp L, and the action thereof is as follows.

The control unit 50 converts the lamp lighting execution state into the lamp lighting determination state and determines the execution of lamp lighting when receiving the light off signal from the human presence sensor 10A and the remote controller 10C. Subsequently, the controller 50 controls the triac 40 so that the lamp L is slowed down (gradually darkened) for a predetermined time (a predetermined time in the long time mode or the short time mode). The controller 50 receives the zero crossing time points P1, P2, P3, and, and the ON time T1 of the triac 40 based on the zero crossing time points P1, P2, P3, and. Triac through the triac controller 41 so that T2, T3 ,,, is gradually approaching the zero crossing point P1, P2, P3 ,, (i.e., the power applied to the lamp L decreases). The on of 40 is controlled. As the above operation continues, the on time of the triac 40 is shortened, and thus the lamp L gradually becomes brighter as the amount of power applied to the lamp L decreases. As the lamp L gradually darkens as described above, the user notices that the lamp L is turned off, so that when the user does not complete the work at this time, the sensor such as the sensor can detect the user so that the sensor light turns on again. can do. When the lamp is gradually turned off and the time elapses, the lamp L is turned off so that the lamp L is completely turned off.

As described above, according to the control device and method of the eye protection lamp according to the present invention and the socket to which the lamp is applied, when the on signal of the lamp is input, the lamp does not completely light up at a moment and gradually brightens, thereby retina and optic nerve. And since the damage to the visual system brain cells can maintain a good health state of the user.

In addition, even when the lamp is turned off, the lamp is gradually darkened, and as the user predicts the lamp to be turned off, the lamp may be re-lit before the lamp is completely turned off, thereby eliminating the psychological fear and rejection caused by the unexpected turning off. Therefore, the utility of the product which can prevent the sudden turning off of the lamp in the toilet without movement for a certain time after turning on the sensor light increases.

In addition, by applying the socket according to the present invention to the main socket without changing the structure of the existing main socket, the lamp can be completely turned on after the lamp is gradually brightened, thereby reducing the cost of the structural change of the existing structure, the user It can be selectively used according to the taste of the filament, and the premature breakage of the filament, blackening phenomenon can be prevented to extend the life of the lamp.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (7)

Human presence sensor that detects the presence of human body in the detection area, operated by the user and turned on / off by a switch, and turned on by controlling the phase of AC power by setting the on time differently based on the zero crossing time of commercial AC power. In the lamp control device that controls the lamp to gradually lighten gradually and gradually darker after the maximum lighting for a certain time, A lamp on / off signal input unit 20 for converting a signal input from the lamp on / off applying means 10 including the manual switch 10B and the remote controller 10C together with the human body presence sensor 10A into a digital signal; ; A zero crossing detection unit 30 for detecting a zero crossing time point P1, P2, P3,,, of the commercial AC power supply; A triac 40 for applying / blocking power to the lamp L; And, On-time of the triac (T1, T2, T3 ,,) based on the zero crossing time input by the zero crossing detection unit in the state in which the lamp on / off signal is input from the lamp on / off signal input unit. And a control unit (50) for controlling the phase of the AC power by gradually setting differently to control the phase of the AC power so that the lamp gradually brightens and gradually darkens after the maximum lighting. The method of claim 1, wherein the controller 50 further includes a mode setting unit 52 for setting a long time mode and a short time mode in which the lamps are gradually lightened or darkened at different times. Control of protective lamps. Human presence sensor that detects the presence of human body in the detection area, operated by the user and turned on / off by a switch, and turned on by controlling the phase of AC power by setting the on time differently based on the zero crossing time of commercial AC power. In the lamp control method to control the lamp to gradually lighten gradually and gradually darker after the maximum lighting for a certain time, A lamp on / off determining step of determining the lamp on / off based on a lamp on / off signal input from a lamp on / off applying means including a sensor, a manual switch, and a remote controller; A zero crossing time detection step of detecting a zero crossing time point (P1, P2, P3 ,,,) of a commercial AC power applied in a state in which the lamp is turned on by determining the lamp lighting; On the basis of the zero crossing point detected in the zero crossing point detection step, the on point (T1, T2, T3 ,,) of the triac controlling the on / off of the lamp is gradually moved away from the zero crossing point. A lamp brightness slow-up control step of gradually brightening the lamp by gradually controlling a phase of a commercial AC power supply for a time; A lamp maximum lighting step of controlling the triac so that the lamp is turned on at the maximum brightness for a predetermined time when the lamp brightness slow-up control step has elapsed; When the time of the lamp maximum lighting step elapses, the on time of the triac controlling the on / off of the lamp on the basis of the zero crossing time detected in the zero crossing time detection step is gradually closer to the zero crossing time. A ramp brightness slow down control step of gradually gradually darkening the lamp by gradually controlling a phase of a commercial AC power supply for a time; And, And a lamp off step of extinguishing the lamp when the lamp brightness slow down control step has elapsed. The eye protection lamp of claim 3, further comprising a mode setting step of selecting a mode in which the lighting adaptation time and the lighting off time are different according to the lamp brightness slow-up control step and the lamp brightness slow-down control step. Control method. delete It is assembled so as to be disassembled from each other, the case is provided with a socket connection portion and a lamp connection portion to which the main socket and the lamp are respectively connected, and the lamp is gradually turned on by determining the lamp lighting by the lamp lighting application means applied to the case. In the socket comprising a lamp control means for controlling the control to gradually turn off, The lamp control means includes a lamp on / off signal input unit 20 for converting a signal input from a lamp lighting applying means including a human body presence sensor 10A, a manual switch 10B, and a remote controller 10C into a digital signal. Wow; A zero crossing detection unit 30 for detecting a zero crossing time point P1, P2, P3,,, of the commercial AC power supply; A triac 40 for applying / blocking power to the lamp L; In addition, on the basis of the zero crossing time input by the zero crossing detection unit in the state in which the lamp on / off signal input unit receives the lamp on / off signal, the triacs on time points T1, T2, T3, And controlling the phase of the AC power by gradually setting different), and controlling the phase of the lamp for controlling the visual protection lamp, characterized in that the control unit 50 is configured to control the lamp to gradually become dark after being gradually turned on. Socket applied. delete

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