KR20130106324A - A attached type automatic monitoring system and mehtod for sanitation using a wireless communication - Google Patents

Abstract

PURPOSE: An attachment-type automatic sanitation/cleanness monitoring system using wireless communications and a method thereof are provided to prevent diseases caused by the spread of infection like influenza. CONSTITUTION: A sanitation/cleanness monitoring unit (11) is attached to various disinfectors, is connected to the driving part of the various disinfectors, and generates a cleanness signal when the driving part is actuated. A polluted area monitoring unit (13) is installed at a polluted area and constantly generates a pollution signal. When a user wearing a radio frequency identification (RFID) tag (12) approaches the sanitation/cleanness monitoring unit or the polluted area monitoring unit within a pre-set distance, the RFID tag receives a cleanness signal or a pollution signal, and displays the state of cleanness or generates a sound. [Reference numerals] (11) Sanitation/cleanness monitoring unit; (111) Wireless communication unit 1; (112) Control unit 1; (113) Display unit 1; (114) Signal input unit; (115) Connection unit; (12) Radio frequency identification (RFID) tag; (121) Wireless communication unit 2; (122) Control unit 2; (123) Display unit 2; (124) Display unit 2; (125) Sound unit; (13) Polluted area monitoring unit; (131) Wireless communication unit 3; (132) Control unit 3; (133) Display unit 3; (134) Display unit 3; (14) Sterilizer; (AA) Driving unit

Description

Attached type automatic monitoring system and mehtod for sanitation using a wireless communication}

The present invention relates to a sanitary cleanliness monitoring system and method using wireless communication in the form of RFID (Radio Frequency Identification), in particular, between the sanitary cleanliness monitor connected to various sterilizers, the polluted zone monitor installed in the polluted area, and the user's wireless tag. It is about monitoring the cleanliness of the user by indicating the degree of cleanliness using wireless communication.

In general, the next-generation recognition technology that can manage information of various objects such as food, animals, and objects through IC chip and wireless is called RFID. RFID, also known as a smart tag or electronic tag, is increasingly being used in the industry as a technology to replace a widely used bar code. RFID is a method that stores various information of products on a semiconductor chip that emits radio frequency and reads it through a wireless reader, which can store more information than a barcode, and the recognition distance is more than 10Cm ~ 27m. Penetration of obstacles other than metal is possible.

The main applications are diverse such as logistics / distribution management, security, access control, location tracking, toll collection, and counterfeit bill prevention, and the ripple effect of RFID wireless communication technology is expected to be greatest in the dual distribution field. RFID systems consist of transponders that store unique information called tags, transceivers (readers or readers) that read and decrypt, host computers (servers), networks, and applications.

The present invention, by simply incorporating such an RFID system is intended to automatically monitor hygiene cleaning using wireless communication.

Recently, various sterilizers such as hand sterilizers are used to spray disinfectant solutions due to infections caused by various bacteria, bacteria and swine flu. However, the conventional sterilizer is only for sterilization disinfection, and it is not easy to continuously maintain the sanitary clean state.

In general, cleanliness is a very important issue for workers and users who work in group living spaces such as hospitals and day care centers. It looks clean, but your hand's hygiene gets worse over time. If you touch someone with impure hands, especially with young children or patients with weak immunity, the pathogens can be transmitted and become fatal.

The present invention has been proposed to solve the above problems, attached to the various sterilizers, the hygiene cleanliness monitor generates a signal when using the sterilizer, the polluted zone monitor is constantly polluted signal around the unsanitary polluted area The present invention provides a method for automatically attaching and sanitary cleaning using wireless communication, by which a wireless tag having a generated signal can display a sound level by using a display device and a sound device. There is a purpose.

Sanitary cleaning automatic monitoring system of the present invention for achieving the above object, in the automatic monitoring of sanitary cleaning using wireless communication, hygiene cleaning monitor is attached to the surface of the various sterilizers already installed to detect the drive of the sterilizer to generate a drive signal ; Control means for controlling the hygiene monitor; And connecting means connected to the sterilizer internal drive unit; Display means for displaying information; A polluted area monitor which is installed in an unsanitary polluted area to generate a polluted signal at all times; Control means for controlling the polluted area monitor; And input means for setting the degree of contamination; Display means for displaying information; A wireless tag for acquiring a signal generated by the hygiene and sanitation monitor and the polluted area monitor; Control means for controlling the radio tag; Display means for indicating a clean state in the radio tag and input means for setting a cleanliness variation amount reference; And sound means for generating sound.

The automatic sanitary cleaning apparatus of the present invention is attached to various sterilizers, connected to the drive unit of the various sterilizers, the hygiene cleaning monitor for generating a clean signal when driving the drive unit; A polluted area monitor installed in an unsanitary polluted area and continuously generating a polluted signal; It is worn by the user, when the hygiene cleaning monitor or the polluted area close to a predetermined distance, characterized in that it comprises a wireless tag for receiving the clean signal or the polluted signal to display the clean state or to generate a sound .

The sanitary clean monitoring device may include: a signal input unit connected to the various sterilizers to obtain a driving signal of the driving unit; A control unit 1 for acquiring the driving signal and converting the data into the clean signal; A wireless communication unit 1 for transmitting the clean signal obtained by the control unit 1 and data; And a display unit 1 for displaying an operation state according to the information obtained by the control unit 1.

The wireless tag is a wireless communication unit for acquiring the clean signal of the hygiene clean monitor or the pollution signal of the polluted area monitor; A control unit 2 for controlling the wireless communication unit 2 and performing signal processing; A display unit 2 displaying the cleanliness state by the control unit 2; And, setting input unit 1 for setting the cleanness degree change amount reference; And a sound unit generating sound by the controller in response to the clean signal or the pollution signal. . ≪ / RTI >

The polluted area monitor, the wireless communication unit 3 is installed in an unsanitary polluted area and continuously generating a signal; A setting input unit 2 for setting a degree of contamination; A controller 3 for controlling the setting input unit 2 and the wireless communication unit 3; And a display unit 3 for displaying an operation state.

On the other hand, the method of the present invention, the attached type hygiene cleaning automatic monitoring method using a wireless communication, the step of detecting a drive signal from the drive unit of the various sterilizers for transmitting a clean signal from the hygiene cleaning monitor for a predetermined time; A hygienic clean receiving step of acquiring the clean signal of the hygienic cleanliness monitor to maximize the cleanliness of the wireless tag; A control step of calculating and displaying a change in cleanliness level of the radio tag with time; Transmitting the polluted area monitor to generate a polluted signal at the polluted area at all times; A polluted area receiving step of reducing a cleanness level of a radio tag by acquiring a signal generated by the polluted area monitor; And, if the cleanliness of the radio tag is lower than the reference setting or when the minimum warning step of generating a sound and sound; characterized in that it comprises a.

The automatic monitoring method may further include a calculation step of calculating a wireless tag to obtain a wireless signal and data, and quantifying the data to a cleanness level so that a user can identify the cleanness level.

The present invention maintains a variety of conventional sterilizers, by attaching a hygiene cleaning monitor to provide a sanitation hygiene report to the wireless tag holders and others, can always be reminded of the importance of hygiene cleaning in the group living space or hospital, daycare, etc. to prevent infection. It is characterized by that.

As described above, the present invention is installed in various places where various sterilizers are installed, where hygiene and cleanliness is required, and by monitoring the cleanliness of those in charge in the relevant area to keep the state clean all the time, the new species due to the transmission of the current problem. It is effective in preventing diseases like influenza.

Therefore, the hygiene cleanliness is always reminded of the importance of hygiene cleanliness in group living spaces or hospitals, nurseries, etc. to prevent infections and prevent the spread of pathogens, thereby improving the health and economic indicators.

1 is a block diagram showing the structure of the automatic hygiene monitoring system according to a feature of the present invention,
2 is a view showing the attachment method of the automatic hygiene monitoring system according to the present invention,
Figure 3 is an installation example of the attached hygiene cleaning automatic monitoring system using a wireless communication according to the present invention,
4 is a flowchart of a wireless tag according to the present invention.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an embodiment of an automatic hygiene monitoring system using wireless communication according to the present invention.

1, the sanitary clean monitor 11 is attached to a place where various sterilizers 14 are installed, and a connection portion 115 connecting the drive unit and the sanitary clean monitor 11 of the sterilizer 14. ), The signal input unit 114 receiving the driving signal, the hygiene and cleaning monitor 11, the control unit 1 (112) and the control unit 1 (112) for generating a clean signal by the data drive signal generated by the control unit 1 (112) And a display unit 1113 for displaying an operating state of the hygiene and cleaning monitor 11 for wirelessly transmitting a signal.

In this case, when the driving signal is received by the signal input unit 114, the control unit 1112 converts the driving signal into a clean signal, and wirelessly transmits the clean signal through the wireless communication unit 1 111 for a predetermined time.

In addition, the pollution zone monitor 13 controls the setting input unit 2 133 for setting a pollution degree value, a transmission cycle, and the like, and a control unit 3 132 that controls the pollution zone monitor 13 and data sets the data to generate a pollution signal. ), A wireless communication unit 3 131 for continuously and continuously transmitting a pollution signal transmitted from the control unit 3 132, and a display unit 3 134 for displaying an operation state of the pollution area monitor 13. .

In addition, the radio tag 12 is the data transmitted from the sanitary clean monitor 11, the pollution area monitor 13, that is, the wireless communication unit 2121 for receiving a clean signal or a pollution signal, the received data, that is, the clean signal Alternatively, the control unit 2 122 for processing the pollution signal and controlling each component, the setting input unit 1 123 for setting the cleanness degree, the operation time, and the like of the radio tag 12, and the radio tag 12 The display unit 2 (124) for displaying the operation status, and the sound unit 125 for outputting the alarm sound by the control unit 2 (122).

In this case, the control unit 2 122 obtains the clean signal or the pollution signal and converts the clean signal into a data, and calculates the clean level based on the data so that the user can identify the clean level.

At this time, when the received pollution signal is received, the control unit 2 122 sets the cleanliness level to the minimum, displays the cleanliness value on the display unit 2 124, and outputs an alarm sound from the sound unit 125. .

In addition, the controller 2 122 determines the cleanliness level as the minimum when the preset time is reached, displays the cleanliness value on the display unit 2 124, and outputs an alarm sound from the sound unit 125.

In the above, the wireless communication of the wireless communication unit 1 (111) of the sanitary clean monitor 11 and the wireless communication unit 2 121 of the wireless tag 12 is a short range wireless communication method such as an RFID communication method. When approaching the sanitary clean monitor 11 at a predetermined distance, the clean signal transmitted from the wireless communication unit 1 (111) is received by the wireless communication unit 2 (121).

Similarly, the radio communication between the radio communication unit 3 131 of the polluted area monitor 13 and the radio communication unit 2 121 of the radio tag 12 is a short range radio communication method such as an RFID communication method. When approaching the sanitary clean monitor 11 at a predetermined distance, the contamination signal transmitted from the wireless communication unit 3 (131) is received by the wireless communication unit 2 (121).

Figure 2 is an embodiment of the attached hygiene cleaning automatic monitoring using wireless communication in accordance with the present invention.

As shown in Figure 2, the hygiene clean monitor 11 is attached to the surface of the various sterilizers to monitor the sterilizer. That is, the connection is connected to the internal driving unit 115 of the sterilizer to monitor the driving, and transmits a driving signal to the signal input unit 114. The sterilizer is the same as the conventional drive

In addition, the radio tag 12 is a small nameplate so that the user can easily carry it so as to always carry.

Figure 3 is a flow chart of one embodiment of automatic hygiene monitoring using wireless communication according to the present invention.

As shown in FIG. 3, the radio tag 12 circulates at a predetermined time interval. When the power is applied, after the initial initialization (S301) process, when the set time (S302) reaches the cleanliness value is the minimum value (lowest level), this cleanliness state is displayed (S304), sound (S305) This cycles the process of outputting the alarm sound. In addition, even when the pollution area monitor 13 receives the pollution signal S303, the cleanliness value is set to the minimum value (or the lowest level) and the alarm process indicating the status display S304 and the sound S305 is circulated. When the hygiene and cleaning monitor 11 receives the clean signal (S306), the cleanliness value is the highest level, the status display (S307) and the signal reception stop (S308), the start time through the process of setting time delay (S309) initialization (S301) ) Will be recirculated.

At this time, the radio tag 12 determines the cleanliness value by the control unit 2 122 of FIG. 1, and repeats a process of selecting an alarm or a cycle for circulating a predetermined time.

 Figure 4 is an embodiment installation of automatic sanitary cleaning monitoring using wireless communication according to the present invention.

1 and 4, the sanitary clean monitor 11 is attached to the various sterilizers are installed, and the pollution zone monitor 13 is installed at the entrance of the polluted area, so that the holder of the wireless tag 12 moves and the sterilizer ( 14) ensure that radio tag 12 holders are alert to sanitary cleaning at all times during use.

Specifically, in the case where the holder of the wireless tag 12 uses the sterilizer 14, a driving signal is output from the driving unit of the sterilizer 14, and the hygiene cleaning monitor 11 detects the driving signal to transmit a clean signal. The clean signal is transmitted by a wireless tag 12 and a short range wireless communication method in close proximity to the hygiene and cleanliness monitor 11, so that the wireless tag 12 receives the clean signal and recognizes the cleanliness at the highest level. By displaying on the display unit 124 of (12), the holder of the radio tag 12 can confirm his or her cleanliness.

In addition, when the holder of the radio tag 12 is close to the pollution area detector 13 installed in the pollution area, the radio tag 12 receives the pollution signal transmitted from the pollution area detector 13 through the near field communication method and cleans it. By recognizing the minimum, the display unit 124 of the radio tag 12 is displayed, and an alarm sound is output through the sound unit 125. Therefore, the holder of the radio tag 12 can recognize that his or her cleanliness is the lowest.

In addition, since the holder of the radio tag 12 does not use the sterilizer 14 and does not go to the polluted area, the radio tag 12 does not receive the clean signal from the sanitary clean monitor 11 or the polluted signal from the polluted area monitor 13, When time elapses, the wireless tag 12 recognizes the cleanliness level as the minimum and displays it on the display unit 124 of the wireless tag 12, and outputs an alarm sound through the sound unit 125. Therefore, the holder of the radio tag 12 can recognize that his or her cleanliness is the lowest.

Although a preferred embodiment of the present invention has been described in detail above, the present invention is not limited thereto, and various other changes and modifications are possible.

11.Hygiene and cleanliness monitor
12 ... Wireless Tag
13. Polluted area monitor

Claims (6)

A sanitary cleaning monitor attached to various sterilizers and connected to the driving units of the various sterilizers to generate a clean signal when the driving unit is driven;
A polluted area monitor installed in an unsanitary polluted area and continuously generating a polluted signal;
When worn by the user, and close to the sanitary clean monitor or the polluted area monitor at a predetermined distance, characterized in that it comprises a wireless tag for receiving the clean signal or the polluted signal to display the clean state or to generate a sound Hygiene cleaning automatic monitoring device.
According to claim 1, wherein the hygiene cleanliness time period,
A signal input unit connected to the various sterilizers to obtain a drive signal of the driver;
A control unit 1 for acquiring the driving signal and converting the data into the clean signal;
A wireless communication unit 1 for transmitting the clean signal obtained by the control unit 1 and data; And
And a display unit 1 for displaying an operation state according to the information obtained by the control unit 1.
The method of claim 1, wherein the radio tag
A wireless communication unit 2 for acquiring the clean signal of the hygiene clean monitor or the pollution signal of the polluted area monitor;
A control unit 2 for controlling the wireless communication unit 2 and performing signal processing;
A display unit 2 displaying the cleanliness state by the control unit 2; And
A setting input unit 1 for setting a change in cleanliness degree reference; And
A sound unit for generating sound by the controller according to the clean signal or the pollution signal; Sanitary cleaning automatic monitoring device comprising a.
According to claim 1, The polluted area monitor,
A wireless communication unit 3 installed in an unsanitary polluted area and continuously generating a signal constantly;
A setting input unit 2 for setting a degree of contamination;
A controller 3 for controlling the setting input unit 2 and the wireless communication unit 3; And
And a display unit 3 for displaying the operation state.

In the attached type hygiene cleaning automatic monitoring method using wireless communication,
Detecting a driving signal from a driving unit of various sterilizers and transmitting a clean signal from the sanitary cleaner for a predetermined time;
A hygienic clean receiving step of acquiring the clean signal of the hygienic cleanliness monitor to maximize the cleanliness of the wireless tag;
A control step of calculating and displaying a change in cleanliness level of the radio tag with time;
Transmitting the polluted area monitor to generate a polluted signal at the polluted area at all times;
A polluted area receiving step of reducing a cleanness level of a radio tag by acquiring a signal generated by the polluted area monitor; And
And when the cleanness level of the wireless tag is lower than the reference setting or when the minimum level of the alarm to sound and display; hygiene cleaning automatic monitoring method comprising a.
The method of claim 5, wherein the automatic monitoring method,
And calculating the radio tag to obtain the radio signal and data, and quantifying the data to the degree of cleanliness so that the user can identify the degree of cleanliness.

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