KR102194630B1 - Ceiling mounted entry and exit Counter Structure using Two transmitter and receiver - Google Patents

Abstract

In the present invention, by installing the first and second transmission and reception units on the ceiling spaced apart from the upper side of the door, it is not directly installed on the door side so that the work is easy, does not affect the aesthetics of the door side, and the corner of the door Sensing defects caused by diffuse reflection can be fundamentally prevented, and two transmitters and receivers can be used to determine whether a person is in or out and control electrical devices such as lighting accordingly.

Description

Ceiling mounted entry and exit counter structure using two transmitters and receivers

The present invention relates to an entry/exit counter structure of an entrance door using two transmission and reception units installed on the ceiling, and is installed on the ceiling at a location spaced apart from the upper side of the entrance door 10 to emit a first transmission wavelength ( 100); And, a second transmission unit 200, which is spaced apart from the first transmission unit 100 by a predetermined distance in the horizontal direction, and emits a second transmission wavelength; And, emitted from the first transmission unit 100 A first receiving unit 300 for receiving a first receiving wavelength generated by reflecting the first transmission wavelength to any one of a person, a floor surface 20, or an upper surface 11 of the door 10; And, the A second receiving wavelength generated by reflecting the second transmission wavelength emitted from the second transmission unit 200 on any one of a person, a floor surface 20, or an upper surface 11 of the door 10 2 receiving unit 400; And, through the received first receiving wavelength and the second receiving wavelength to calculate and count the number of individuals in the entry/exit direction (600); two installed on the ceiling, characterized in that consisting of It relates to the entry/exit counter structure of the door using the transmission and reception unit.

Currently, as environmental issues arise, energy conservation and development of alternative energy are making the top priority of each country, and Korea is also encouraging the spread of energy-saving devices by refining regulations for the supply of high-efficiency energy equipment and energy conservation guidelines for public institutions. .

In this trend, when a person does not exist in a specific space such as a toilet or a warehouse, there is a demand for a technology to determine whether or not a person exists in a specific space in order to minimize the energy consumed in the space.

Among these technologies, the “power control and entry/exit check system having an automatic mode function (Korean Patent Publication No. 10-2010-0068706)” of the following Patent Document 1 contains the first microcomputer and a light-emitting sensor, and A light-emitting sensor unit installed; A light-receiving sensor unit including a first light-receiving sensor and a second light-receiving sensor installed in a direction inside the entrance and parallel to the first light-receiving sensor, and the second microcomputer is embedded; It is connected to a +,-data cable that receives data from the first and second micoms, and when the detection signals of the first and second light-receiving sensors are continuously received through the first and second micoms, the target It is used as a high-efficiency energy equipment through a configuration including a control means that turns on or off the power supply in the space, increases installation efficiency during wiring, and increases safety accidents and control efficiency by managing the number of people entering and leaving a certain space. There was a possible effect.

However, the “power control and access number check system with automatic mode function” of Patent Document 1 is difficult to work by digging the left and right sides of the wall of the door frame and installing the light-emitting sensor unit and the light-receiving sensor unit and connecting wires. There is a problem in that the period is lengthened, the appearance is not good, and in particular, diffuse reflection is generated by the edge of the entrance door, which may cause poor sensing.

Patent Document 1: Korean Patent Application Publication No. 10-2010-0068706

The present invention has been conceived to solve the above-described problem, and an object of the present invention is to install the first and second transmitting and receiving units on the ceiling spaced apart from the upper side of the door, so that the operation is not directly installed on the door side. It is easy, does not affect the aesthetics of the door, and can fundamentally prevent poor sensing due to diffuse reflection at the corner of the door, and uses two transmitters and receivers to determine whether a person is entering or not, and lighting accordingly. It is to provide an entry/exit counter structure for entrance doors using two transmission and reception units installed on the ceiling that can control electric devices.

In order to solve the above problems, the entrance/exit counter structure of an entrance door using two transmission and reception units installed on the ceiling according to the present invention is installed on the ceiling at a position spaced apart from the upper side of the entrance door 10 to transmit the first A first transmission unit 100 for emitting a wavelength; and a second transmission unit 200 installed horizontally apart from the first transmission unit 100 by a predetermined distance, and emitting a second transmission wavelength; and, the second transmission unit 200 1 A first receiving wavelength generated by reflecting the first transmission wavelength emitted from the transmission unit 100 to any one of a person, a floor surface 20, or an upper surface 11 of the door 10 Receiving unit 300; And, the second transmission wavelength emitted from the second transmission unit 200 is generated by being reflected on any one of a person, the floor surface 20, or the upper surface 11 of the door 10 A second reception unit 400 for receiving a second reception wavelength; and an entry/exit reading unit 600 for calculating and counting the number of individuals in the entry/exit direction through the received first reception wavelength and the second reception wavelength. To do.

In addition, when a person enters or exits through the door 10, the first and second reception units 300 and 400 compare the waveform change of the first and second reception wavelengths received, and the first reception unit 300 and the A comparison and determination unit 500 for determining which of the second receiving units 400 first has changed the waveform and transmitting a result value to the entry/exit reading unit 600 is further configured.

In addition, the comparison and determination unit 500 is each of the first and second reception wavelengths reflected on the bottom surface 20 and received, and when opening or closing the door 10, the upper surface 11 of the door 10 Each of the first and second reception wavelengths reflected and received is characterized in that the result value is calculated and set in advance and is not transmitted to the entry/exit reading unit 600.

In addition, the lighting means control unit 700 is provided to turn on/off the lighting means 30 provided in the door 10 according to the number of entries and exits set by receiving the number of entries and exits from the entry/exit reading unit 600 It characterized in that it is further configured.

In addition, the first transmission wavelength and the second transmission wavelength are characterized in that the signal is made of any one of ultrasound, laser or infrared.

As described above, according to the present invention, by installing the first and second transmitting and receiving units on the ceiling at a location spaced apart from the upper side of the door, it is not directly installed on the door side, so the operation is easy, and the beauty of the door side It does not affect the door, and it is possible to fundamentally prevent poor sensing due to diffuse reflection at the corner of the door, and it is possible to grasp whether a person is entering or not using two transmitting and receiving units, and control electrical devices such as lighting accordingly. There is an advantage.

1 and 2 are configuration diagrams showing the overall configuration of the entry/exit counter structure of an entrance door using two transmission and reception units installed on the ceiling according to a preferred embodiment of the present invention
3 to 5 are exemplary diagrams showing the transmission and reception of signals for each situation in the entry/exit counter structure of a door using two transmission and reception units installed on the ceiling according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a detailed description of an entry/exit counter structure of an entrance door using two transmission and reception units installed on the ceiling according to an embodiment of the present invention. First of all, it should be noted that in the drawings, the same components or parts are indicated by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

Hereinafter, a structure of an entry/exit counter of an entrance door using two transmission and reception units installed on the ceiling according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

First, FIGS. 1 and 2 are diagrams showing the overall configuration of an entry/exit counter structure of an entrance door using two transmission and reception units installed on the ceiling according to a preferred embodiment of the present invention.

As shown in FIG. 1, the first transmission unit 100, the first reception unit 300, the second transmission unit 200, and the second reception unit 400 are installed on the ceiling at a position spaced apart from the upper side of the door 10. do. In this case, it is preferable that the first transmission unit 100, the first reception unit 300, the second transmission unit 200, and the second reception unit 400 are formed in pairs and are installed at predetermined intervals.

Meanwhile, the first transmission unit 100, the first reception unit 300, the second transmission unit 200, and the second reception unit 400 may have a Fresnel lens installed on the front surface to facilitate straightness. .

The first transmission unit 100 emits a first transmission wavelength, and the second transmission unit 200 emits a second transmission wavelength. In this case, the first transmission wavelength and the second transmission wavelength may be a signal composed of any one of ultrasonic waves, laser rays, and infrared rays.

The first receiving unit 300 includes a person, a bottom surface 20, or an upper surface 11 of the door 10, where the first transmission wavelength emitted from the first transmitting unit 100 enters through the door 10. ) Is a type of reception sensor that receives the first reception wavelength generated by reflection, and the second reception unit 400 has the second transmission wavelength emitted from the second transmission unit 200 through the door 10 It is a kind of reception sensor that receives the second reception wavelength generated by reflection by the person coming out, the floor surface 20 or the upper surface 11 of the door 10.

That is, the number of individuals in the entry/exit direction is calculated by comparing the waveform change of the received first reception wavelength and the second reception wavelength, and counting, thereby controlling the lighting means 30.

At this time, the number of individuals in the entry/exit direction is calculated and counting is performed through the entry/exit reading unit 600, and the lighting means 30 receives the number of entries and exits from the entry/exit reading unit 600, and the set entry number and entry number It is turned on / off by the luminaire control unit 700 according to.

On the other hand, the comparison and determination unit 500 compares the waveform change of each of the first and second reception wavelengths received by the first and second receiving units 300 and 400 when a person enters or exits through the door 10 Thus, which one of the first receiving unit 300 and the second receiving unit 400 first determines whether the waveform has changed and transmits the result value to the entry/exit reading unit 600.

On the other hand, the comparison decision unit 500 is reflected on the bottom surface 20, each of the first and second reception wavelengths and when opening or closing the door 10, the upper surface 11 of the door 10 Each of the first and second receiving wavelengths reflected and received is not transmitted to the entrance/exit reading unit 600 by calculating and setting the result value in advance, thereby eliminating counting by the operation of the door 10 It makes it possible to realize the counting of entry and exit.

Hereinafter, FIGS. 3 to 5 will be described a process of transmitting and receiving signals for each situation in a structure of an entry/exit counter of an entrance door using two transmission and reception units installed on the ceiling according to a preferred embodiment of the present invention.

First, as shown in FIG. 3, before a person approaches the door 10, the first transmission wavelength and the second transmission wavelength emitted from the first transmission unit 100 and the second transmission unit 200 are The first reception wavelength and the second reception wavelength reflected on the surface 20 and returned are respectively sensed and received by the first reception unit 300 and the second reception unit 400.

At this time, each received result value is compared with the value set by the comparison and determination unit 500 and filtered at the same time and is not transmitted to the entry/exit reading unit 600.

In addition, when the door 10 is opened or closed by an external force other than a person, the respective first and second reception wavelengths reflected on the upper surface 11 of the door 10 and received are the result values. As described above, it is set not to be transmitted from the comparison and determination unit 500 to the entry/exit reading unit 600.

Next, as shown in FIG. 4, when a person approaches the door 10, the first transmission wavelength emitted from the first transmission unit 100 is reflected by the person, and the returned first reception wavelength is The second transmission wavelength sensed and received by the first receiving unit 300 while having a different shape of the waveform, and simultaneously emitted from the second transmitting unit 200 is reflected on the bottom surface 20 and returned 2 The arbitrary wavelength is sensed and received by the second receiver 400.

That is, the comparison and determination unit 500 compares the waveforms of the first reception wavelength and the second reception wavelength to determine which one has changed the waveform first, and the comparison and determination unit, which confirms that the first reception wavelength has changed first ( 500) transmits the result value to the entry/exit reading unit 600, and the entry/exit reading unit 600 calculates and counts that a person has entered the interior through the door 10.

Conversely, as shown in FIG. 5, when a person exits through the door 10, the second transmission wavelength emitted from the second transmission unit 200 is reflected by the person, and the second reception wavelength returned is different. The first transmission wavelength sensed and received by the second receiving unit 400 in a state of having a shape waveform and simultaneously emitted from the first transmitting unit 100 is reflected on the bottom surface 20 and returned to the first transmission wavelength. The occasional wavelength is sensed and received by the first receiver 200.

That is, the comparison and determination unit 500 compares the waveforms of the first reception wavelength and the second reception wavelength to determine which one has changed the waveform first, and the comparison and determination unit, which confirms that the second reception wavelength has changed first ( 500) transmits the result value to the entry/exit reading unit 600, and the entry/exit reading unit 600 calculates and counts that a person has gone out through the door 10.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been used herein, these are used only for the purpose of describing the present invention, and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of the present invention should be determined by the technical spirit of the appended claims.

10: door 11: upper side of door
20: bottom surface 30: lighting means
100: first transmission unit 200: second transmission unit
300: first receiver 400: second receiver
500: Advancement and Inspection Division 600: Comparative Tribunal
700: lighting means control unit 800: transmission and reception driving unit

Claims (5)

A first transmission unit 100 which is installed on the upper side of the entrance door 10 and on the ceiling at a location spaced apart by a predetermined distance in the horizontal direction on the entrance path to emit a first transmission wavelength;
A second transmission unit 200 installed on the ceiling and spaced apart from the first transmission unit 100 by a predetermined distance in the horizontal direction on the entrance path, and emitting a second transmission wavelength;
It is installed at a location spaced apart from the ceiling by a predetermined distance in the horizontal direction on the entrance path from the second transmission unit 200, and the first transmission wavelength emitted from the first transmission unit 100 passes through the door 10 A first receiving unit 300 for receiving a first receiving wavelength generated by being reflected on any one of a person entering through and an upper surface 11 of the door 10;
It is installed at a position spaced apart from the ceiling by a predetermined distance in the horizontal direction on the entrance path from the first reception unit 300, and the second transmission wavelength emitted from the second transmission unit 200 penetrates the door 10 A second receiving unit 400 for receiving a second receiving wavelength generated by reflection on any one of the person coming out through and the upper surface 11 of the door 10;
It is installed at a location spaced apart from the ceiling by a predetermined distance in the horizontal direction on the access path from the second receiving unit 400, and calculates and counts the number of individuals in the entry/exit direction through the received first and second reception wavelengths. Entry/exit reading unit 600; Entry/exit counter device of the entrance door using two transmission and reception units installed on the ceiling, characterized in that consisting of. The method of claim 1,
When a person enters or exits through the door 10, the first and second receiving units 300 and 400 compare the waveform change of each of the first and second receiving wavelengths to be compared with the first receiving unit 300 Two of the second receivers 400, which determine whether the waveform has changed first, and transmit the result value to the entry/exit reading unit 600, further comprising: Entry/exit counter device for entrance/exit using the transmitter and receiver. The method of claim 2,
The comparison and determination unit 500
Each of the first and second reception wavelengths reflected on the bottom surface 20 and received by the first and second reception wavelengths reflected on the upper surface 11 of the entrance door 10 when the door 10 is opened or closed. A reception wavelength counter device for entrance/exit using two transmission/reception units installed on the ceiling, characterized in that the reception wavelength is not transmitted to the entrance/exit reading unit 600 by calculating and setting the result value in advance. The method of claim 3,
The lighting means control unit 700 is further configured so that the lighting means 30 provided in the door 10 are turned on/off according to the set number of entrances and exits received from the entrance/exit reading unit 600 Entry/exit counter device of the entrance door using two transmission and reception units installed on the ceiling, characterized in that the The method of claim 4,
The first transmission wavelength and the second transmission wavelength is a signal consisting of any one of an ultrasonic wave, laser, or infrared rays.

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