KR20180082823A - the entrance lamp system for automatically turning on when a load is applied to the bottom of the entrance - Google Patents

Abstract

The present invention relates to an entrance lamp system automatically turned on when a load is applied to the floor of an entrance. The entrance lamp system comprises an entrance lamp formed on the ceiling of an entrance and has a plurality of light emitting elements built therein to emit light; a sensing unit formed between the floor and tiles located below the entrance lamp and transmitting a signal when a load is applied to the tiles; and a switching unit receiving the signal and supplying power to the entrance lamp.

Description

The entrance lamp system automatically turns on when a load is applied to the floor of the entrance.

More particularly, the present invention relates to a system such as a doorway which is automatically turned on when a load is applied to the floor of a doorway, and more particularly, to a doorway system that automatically detects when a person enters the doorway and automatically loads the doorway, And a lighting system such as a door.

Generally, a doorway is an illuminating light installed on a doorway used when a person enters and leaves a house, and is equipped with a far-infrared ray emitted from the human body and a detection sensor for detecting motion.

This kind of human body detection type entrance hall is constructed such that a sensor for detecting a person and a switch for turning on and off the light are integrated so that it lights up only when a person enters or exits and is automatically turned off when a person does not go in. Power consumption can be reduced.

However, in the case of the conventional sensor, since the position is fixed, if the person does not move, such as wearing shoes or sitting, or is slightly out of the limited detection range, it is judged that there is no person even though there is a person, There was a problem that it turned off.

Korean Utility Model Registration No. 20-0272709 for solving such a problem relates to a human body continuous sensing device. As shown in FIG. 1, a human body is continuously sensed such as an elevator, a hall, a toilet, a warehouse, A human body detection sensor for detecting a human intrusion continuously by rotating a lens having a prism surface while keeping a human body detection sensor in a fixed state such that an illumination light is automatically turned on or off, The fixing bracket 7 fixing the sensor 14 to the boss 8 is fixed to the board 1 with the screw 9 and the rotating body 10 provided with the driven gear 11 is attached to the boss 8 And a lens 12 having a prism surface 13 is inserted and fixed in the rotating body 10 and the shaft 3 of the speed reduction motor 2 fixed to the substrate 1 with screws 4, The driving gear 5 having the supporting disk 6 is fixed to the driving gear 5 And the driven gear 11 are engaged with each other and at the same time the supporting disk 6 supports the lower side of the driven gear 11.

However, since the human body detection sensor of the related art detects the far-infrared ray emitted from the human body, the human body can be easily recognized due to the large difference from the ambient temperature in the winter, but the detection is slow due to a small difference from the ambient temperature in the summer There was a problem.

In addition, there is a problem in that the human body detection sensor of the related art operates according to abrupt ambient temperature change of more than 5 degrees Celsius, .

Korean Utility Model Registration No. 20-0272709

An object of the present invention to solve such problems is to provide a system such as a door or the like which is automatically turned on when a load is applied to a bottom of a door which does not cause a malfunction due to a different method of detecting a person.

Another object of the present invention is to provide a system such as a porch which automatically lights up when a load is applied to a floor of a porch that allows a porch or the like to be continuously lit while a load is detected by a person entering the porch and the load is measured .

Another object of the present invention is to provide a system such as a doorway which is automatically turned on when a load is applied to a floor of a door so as to prevent power consumption due to a malfunction due to malfunction of a door sensor due to malfunction of a sensing sensor.

In order to solve the above-described problems, a system such as a door or the like, which is automatically turned on when a load is applied to the floor of the door of the present invention, is formed on a ceiling of a door, And a switching unit for receiving a signal transmitted from the sensing unit and supplying power to the doorway or the like when the sensing unit receives a signal, .

Further, the sensing unit of the system such as the doorway, which is automatically turned on when a load is applied to the floor of the entrance of the present invention, is made up of a piezoelectric element generating a voltage when a pressure is applied, and the piezoelectric element generates a voltage by a pressure applied to the tile And then transmits a signal to the switching unit.

In addition, the switching unit of the system such as a doorway system, which is automatically turned on when a load is applied to the floor of the entrance of the present invention, further includes a timer configured to supply power to the doorway only for a certain period of time when a signal is transmitted from the sensing unit do.

In addition, the timer of the system such as a doorway which is automatically turned on when a load is applied to the floor of the entrance of the present invention is operated when a signal transmitted from the sensing unit is broken.

As described above, according to the system such as the doorway which is automatically turned on when a load is applied to the floor of the entrance according to the present invention, there is an effect that no malfunction is caused by changing the method of detecting a person.

Also, according to the system such as the doorway which is automatically turned on when a load is applied to the floor of the entrance door according to the invention, when a person enters the doorway, the doorway is continuously lit while the load of the person is detected and the load is measured.

In addition, according to the system such as a doorway which is automatically turned on when a load is applied to the floor of the door according to the invention, the door does not light up due to a malfunction of the detection sensor, and power is not wasted due to malfunction.

1 is an exploded perspective view showing a human body continuous sensing device according to a related art;
2 is a block diagram showing the overall configuration of a system such as a doorway which is automatically turned on when a load is applied to a floor of a door according to the present invention.
Fig. 3 is a perspective view showing a system such as a doorway which is automatically turned on when a load is applied to the floor of a porch according to the present invention. Fig.
Figure 4 is a side view of a system such as a doorway that automatically lights up when a load is applied to the floor of the door according to the present invention;

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. The detailed description of the functions and configurations of the present invention will be omitted if it is determined that the gist of the present invention may be unnecessarily blurred.

More particularly, the present invention relates to a system such as a doorway which is automatically turned on when a load is applied to the floor of a doorway, and more particularly, to a doorway system that automatically detects when a person enters the doorway and automatically loads the doorway, And a lighting system such as a door.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing the overall structure of a system such as a door lighting system which is automatically turned on when a load is applied to a floor of a door according to the present invention. FIG. 3 is a front view of a door, FIG. 4 is a side view showing a system such as a door lighting system which is automatically turned on when a load is applied to a bottom of a door according to the present invention. FIG.

As shown in FIGS. 2 to 4, the door system 100, which is automatically turned on when a load is applied to the floor 10 according to the present invention, is formed on the ceiling of the door, And a sensing unit (not shown) which is formed between the floor 10 and the tile 20 located below the doorway 100 and transmits a signal when a load is applied to the tile 20, And a switching unit 200 for receiving a signal from the sensing unit 300 and supplying electric power to the light source 100.

The sensing unit 300 includes a piezoelectric element 310 generating a voltage when a pressure is applied to the piezoelectric element 310. The piezoelectric element 310 generates a voltage by a pressure applied to the tile 20, Is transmitted.

The doorway (100) is composed of an illumination device composed of an LED or an incandescent lamp. When the electric power is supplied, the light is irradiated toward the floor (10) so that people can easily enter and exit the doorway at night.

The operation of the door 100 is controlled by the switching unit 200 so that the switching unit 200 is configured to supply electric power to the door 100 when the person is sensed. And it is preferable to be constructed such that it can be easily maintained together with the door lamp 100 by being positioned inside the upper ceiling.

The switching unit 200 includes an electronic circuit to control the operation of the door 100. The input unit 220 is connected to the sensing unit 300 through a cable so as to receive a signal transmitted when the sensing unit 300 senses a person. (300).

One end of the output terminal 230 is connected to the cable of the doorway lamp 100 and the other end of the output terminal 230 is connected to the power line supplied from the outside so as to supply or cut off the power to the doorway lamp 100 according to On or Off of the output terminal 230 The front door 100 or the like is turned on or off.

At this time, it is preferable to use a relay for controlling the opening and closing of the other electric circuit by identifying the type of presence or absence of electrical input or the like in correspondence with the amount of electricity set in advance so that the output terminal 230 can be turned on and off.

When the sensing unit 300 senses a person and transmits an electrical signal to the input terminal 220, the switching unit 200 applies power to the relay so that the external power line is connected to the doorway 100 through the relay So that the front light 100 can be automatically turned on and off.

The sensing unit 300 includes a plurality of piezoelectric elements 310, each of which is composed of a functional ceramic having a direct piezoelectric effect for converting mechanical energy into electrical energy and a piezoelectric adverse effect for converting electrical energy into mechanical energy.

The piezoelectric element 310 is a phenomenon in which an electromotive force is generated at the output terminal 230 when an external stress or a vibration displacement is given to the piezoelectric element due to a direct piezoelectric effect, and a plurality of such piezoelectric elements 310 are connected to the bottom 10, (20) at regular intervals.

The piezoelectric element 310 can generate an electromotive force by a vibration generated when a person is pressed or treaded by a load generated by the person treading the tile 20 while entering the front porch.

The electromotive force generated in the piezoelectric element 310 is transmitted to the switching unit 200 through the cable and the switching unit 200 switches the lighting unit 100 on or off according to the value of the electromotive force generated in the piezoelectric element 310 .

That is, when the electromotive force value generated in the piezoelectric element 310 is larger than a preset value in the switching unit 200, the switching unit 200 operates the relay so that the entrance light 100 is turned on If the electromotive force value is smaller than the set value, it is judged that the person does not enter the porch, so that the porch 100 is not turned on.

In addition, since it is operated by a load of a person, an electric signal transmitted to the switching unit 200 is not generated in the absence of a person, and it is operated only when a predetermined electromotive force is reached. 100 can be prevented from being operated.

The switching unit 200 may further include a timer 210 configured to supply power to the door 100 only when a signal is transmitted from the sensing unit 300.

The timer 210 is operated when a signal transmitted from the sensing unit 300 is interrupted.

The timer 210 is built in the electronic circuit of the switching unit 200 and when the front light 100 is turned on by the electromotive force generated in the piezoelectric element 310 of the sensing unit 300, The power source supplied to the relay is cut off after a predetermined time, so that the front lamp 100 is turned off.

At this time, when the electric signal is continuously transmitted from the sensing unit 300 after the door light 100 is turned on, the power supplied to the timer 210 is temporarily shut off, and then the sensing unit 300 transmits The electric power is supplied to the timer 210 so that the door 100 is turned off after a predetermined time.

As described above, according to the system such as the doorway which is automatically turned on when a load is applied to the floor of the entrance according to the present invention, there is an effect that no malfunction is caused by changing the method of detecting a person.

Also, according to the system such as the doorway which is automatically turned on when a load is applied to the floor of the entrance door according to the invention, when a person enters the doorway, the doorway is continuously lit while the load of the person is detected and the load is measured.

In addition, according to the system such as a doorway which is automatically turned on when a load is applied to the floor of the door according to the invention, the door does not light up due to a malfunction of the detection sensor, and power is not wasted due to malfunction.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken as a limitation of the scope of the present invention. Or modify it. The scope of the invention should, therefore, be construed in light of the claims set forth to cover many of such variations.

10: Floor
20: Tiles
100: Doors, etc.
200:
210: Timer
220: input terminal
230: Output stage
300:
310: piezoelectric element

Claims (4)

An entrance door formed on the ceiling of the door and formed with a plurality of light emitting elements to irradiate light;
A sensing unit formed between a floor and a tile located at a lower portion of the doorway and transmitting a signal when a load is applied to the tile;
And a switching unit for receiving a signal transmitted from the sensing unit and supplying electric power to the doorway,
System such as the front door lights automatically when the load is applied to the bottom of the door.
The method according to claim 1,
Wherein the sensing unit comprises a piezoelectric element generating a voltage when a pressure is applied thereto and the piezoelectric element generates a voltage by a pressure applied to the tile and then transmits a signal to the switching unit
System such as the front door lights automatically when the load is applied to the bottom of the door.
The method according to claim 1,
The switching unit may further include a timer configured to supply power to the door or the like only for a predetermined period of time when a signal is transmitted from the sensing unit
System such as the front door lights automatically when the load is applied to the bottom of the door.
The method of claim 3,
Wherein the timer is operated when a signal transmitted from the sensing unit is cut off
System such as the front door lights automatically when the load is applied to the bottom of the door.

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