KR20050049459A - A device and method for measuring the number of persons in the interior of a room and, using this, a device for automatically switching on and off an electric light and automatically removing self-locking function of a door-locking system - Google Patents

Abstract

The present invention relates to an indoor number measuring device that measures the number of people remaining in an indoor space such as a toilet or an office by using two object detection sensors (for example, an infrared sensor). After measuring the number of people coming in and the number of people out, it is characterized by calculating the number of people remaining indoors by calculating the difference between these values. When the device is applied to the flashing light and the automatic door unlocking device, when the person is indoors can automatically turn on the light and do not operate the automatic door lock. As a result, the present invention can save the hassle of flashing the light by pressing the power switch by hand, or the person in the room to release the door lock latch each time by hand when visiting the outside.

Description

A device and method for measuring the number of persons in the interior of a room and, using this, a device for automatically switching on and off an electric light and automatically removing self-locking function of a door-locking system}

The present invention is to ensure that the lights installed in the interior spaces such as toilets, elevators, private offices only turned on when there are people in the room, the infrared sensor, ultrasonic sensor, contact to the doorway 4 side of the interior space as shown in FIG. After installing two object detection sensors (1, 2) in a row, such as a sensor, the signals of the two sensors are analyzed by the microcontroller to determine whether there is a person in the indoor space, and to automatically flash the lamp (3). Relates to a device.

In the conventional lamp automatic blinking method,

In order to detect the appearance of a person, an object sensor (contact or non-contact sensor) such as an infrared sensor, an optical sensor, an ultrasonic sensor, a weight sensor, etc. is installed at the entrance side to detect a person's entry into an indoor space and automatically turn on a light. You can, but you can not implement the function to turn off the lights again when there is no people in the room,

The method of detecting infrared rays emitted from the human body is to detect the presence of humans by detecting the infrared rays emitted from the people in the indoor space. ,

The method of installing the weight sensor on the floor of the indoor space is not only expensive to install the weight sensor, but also cannot distinguish whether the object to be weighed is a person or an object.

The use of thermal sensors is not only expensive, but can also cause the sensor to react incorrectly to hot water in the bathtub when used in a bathroom,

The method of detecting the presence or absence of a person by installing multiple ultrasonic sensors or light sensors on a wall in an indoor space is not only cumbersome to install, but also has a disadvantage of not being able to detect when a person is stationary in one corner.

Therefore, the present invention has been made to solve the problems of the conventional lamp automatic flashing schemes as described above at one time,

An object of the present invention is to install an object detection sensor, such as two infrared sensors (1, 2) in a line in the entrance (4) side of the indoor space, such as a toilet or office, as shown in Figure 1 The present invention provides a light flasher (or an automatic door unlocking device) that determines whether an electric light is blinking by finally determining whether people are left in the indoor space by distinguishing and detecting an exit case. Referring to the configuration and operation of the present invention based on the drawings as follows.

As illustrated in FIG. 2, an exemplary embodiment of the present invention includes two infrared sensors 1 and 2 installed in a line at an entrance side of an indoor space, and after receiving signals from an infrared sensor and analyzing the lamps. It is composed of a microcontroller (5) that determines whether to turn on or off (3) automatically flashes the light.

In the infrared sensors 1 and 2 illustrated in FIG. 2, the light emitting units 7 and 9 are on the same side as the light receiving units 8 and 10, as shown in FIG. 3A, and the light emitting units 7 and 9 are illustrated in FIG. 3B. The former can be divided into the case opposite to the light receivers 8 and 10. The former has a convenient advantage over the latter in terms of installation, but according to the position of the person passing through the doorway and the color of the clothes of the person, Since the amount of change is different, a more complicated program is required than the latter in order to analyze the electrical signal of the light receiver to determine whether a person is detected. The latter is inconvenient compared to the former in terms of installation, but has the advantage that the electrical signal of the light receiving unit is zero when the person is detected regardless of the position of the person passing through the doorway and the color of the clothes.

Meanwhile, if the person passing through the doorway 4 is in the process of entering in FIG. 1, the outer sensor 1 reacts earlier than the inner sensor 2, and in the process of exiting, the reverse case will be reversed. Figure 4 shows the voltage change of the electrical signal measured by the two sensors installed as shown in Figure 3B when a person passes through the doorway 4, if the process of entering the outer sensor 1 at time Ta as shown in Figure 4A ), The voltage falls below the reference voltage 13 in the order of the inner sensor 2 at the time Tb, and then the voltage is the reference voltage in the order of the outer sensor 1 at the time Tc and the inner sensor 2 at the time Td. (13) will go above. On the contrary, in the process of leaving people, after the voltage drops below the reference voltage 13 in the order of the inner sensor 2 at the time Tb and the outer sensor 1 at the time Ta, as shown in FIG. 4B, the inner sensor (at the time Td again). 2) At time Tc, the voltage rises above the reference voltage 13 in the order of the outer sensor 1.

As described above, the present invention uses an algorithm that determines whether a person is an incoming process or an outgoing process by analyzing the order in which each sensor reacts using two sensors 1 and 2, and the detailed algorithm is It is shown in FIG.

Referring to FIG. 5, when power is supplied to a light flasher, the microcontroller 5 analyzes a voltage change of an electrical signal received from two sensors 1 and 2. After measuring the time Ta, Tb, Tc, and Td at the moment when the voltage falls below the reference voltage 13 and rises at the outer and inner sensors, the magnitude relations are compared and Ta <Tb as described in FIG. If the condition of Tc <Td is satisfied, it is determined that one person came in (see FIG. 6A). If the condition of Ta> Tb and Tc> Td is satisfied, one person is determined (see FIG. 6B). For reference, the condition Ta <Tb and Tc> Td means when one person tries to enter and then goes back out (when it comes back from being detected by two sensors as shown in FIG. 6C), Ta <Tb and Tc> Td The condition means when one person tries to go out and then comes back again (as shown in Fig. 6D, when the two sensors sense the state).

Referring again to FIG. 2, the microcontroller 5 determines the magnitude relationship between Ta, Tb, Tc, and Td as described above, measures the number of people coming in and the number of people leaving, and subtracts the latter from the former. If the value is 1 or more, turn on the light. If the value is 0, turn off the light. If negative value, turn off the light by sending alarm signal (alarm tone, alarm lamp) to indicate that the device is malfunctioning. Switch to (flasher not working).

Another embodiment illustrated in the present invention, as shown in Figure 2, the automatic lock 6 of the digital door lock installed in the private office frequented by external people does not work when there is a person inside the office It is to avoid. The two infrared sensors (1, 2) and the microcontroller (5) installed in the doorway (4) determine whether there is a person in the office, and if there is a person in the office, the automatic locking device (6) does not work. If there is no person, the automatic lock will activate and the door will be locked. For reference, conventional door locks always work when the door is closed regardless of the presence of a person in the room.

As described above, the present invention automatically turns on the indoor light only when there is a person in the indoor space, thereby eliminating the trouble of having to operate the light flashing switch by itself, and in the absence of people in the room. This saves power by preventing the light from turning on. In addition, when the indoor personnel count measuring device according to the present invention is interlocked with the digital door lock, the door automatic lock device does not operate when there is a person in the room, so a person in the room locks the door whenever a person outside the door visits. It has the effect of solving the hassle of releasing the latch every time.

1 is for illustrating an embodiment of the present invention, and shows two sensors (1, 2) installed in the doorway (4) and the lamp (3) automatically flashing,

FIG. 2 is a conceptual view showing an indoor personnel counting device composed of two sensors 1 and 2 and a microcontroller 5 according to the present invention, and a lamp 3 and an automatic locking device 6 controlled by the device. ,

Figure 3 shows two installation examples of the indoor number measuring apparatus according to the present invention, Figure 3A is a case where the light emitting portion and the light receiving portion of the infrared sensor is on the same side, Figure 3B is a conceptual diagram showing a case of the opposite side. ,

FIG. 4 is a graph showing a change tendency of electrical signals detected by the outer and inner sensors when the infrared sensor is installed at the doorway in the same manner as in FIG. 3B.

5 is a flowchart showing a method for calculating indoor residual number of the indoor number measurement device according to the present invention,

FIG. 6 is an explanatory diagram showing a sequence in which sensors of the indoor number measuring device according to the present invention react to a case of entering or leaving a person and other cases.

Claims (3)

Two inner and outer object detection sensors (infrared sensor, ultrasonic sensor, light sensor, contact sensor, etc.) installed near the doorway; And a microcontroller configured to control a control target device such as a light flasher and an automatic door lock after analyzing the electric signal received from the sensor. The method of claim 1, Compare the order of the moments when the measured voltages of the outer and inner sensors are lower than the reference voltage and higher, to distinguish whether a person has entered or exited; And calculating the number of people entering and exiting by the above method, and then using an algorithm for determining that the person is indoors if the former subtracts the latter from the former. Interlocked with the indoor counting device, if there is a person in the room automatically turns on the light and at the same time prevents the automatic door lock operation, if there is no person in the room automatically turns off the light and at the same time the automatic door lock Light flasher and door automatic unlocking device.