JP2019076305A - Hand-washing monitoring system and monitoring information transmission device - Google Patents

Abstract

To provide a hand-washing monitoring system which can monitor each user, and monitor a hand-washing state of each user.SOLUTION: A hand-washing monitoring system of the invention comprises: detection means for detecting a person who washes his/her hands; nanobubble water supply means for supplying electrolytic water for hand-washing which uses nanobubble water including nanobubble, when the detection means detects a person who washes his/her hands; monitoring information transmission means arranged in the vicinity of outside of, or in the nanobubble water supply device, and transmits monitoring information based on ID information transmitted from the ID device; and totaling means for receiving the monitoring information transmitted from the monitoring information transmission means, then based on the monitoring information, totaling a residence time of a person corresponding to an identifier for every identifier.SELECTED DRAWING: Figure 8

Description

  The present invention relates to, for example, a hand washing monitoring system used in a hand washing electrolytic water supply device installed at a site that handles medical products, hygiene products, food and the like.

  Conventionally, water (hereinafter, referred to as nano bubble water) containing fine bubbles (nano bubbles) including bubbles of nanometer order is widely known.

  Nanobubble water has the effect of entering fine irregularities and raising dirt, and is used in the field of cleaning and cleaning (see, for example, Patent Document 1).

Patent No. 4563496

  By the way, in hospitals, nursing homes, sites where food is handled, etc., it is required to thoroughly wash hands in hygiene management, and it is desirable to manage each individual by performing monitoring or the like.

  The present invention has been made to solve such a problem, and an object thereof is to provide a hand washing monitoring system and a monitoring information transmission apparatus capable of monitoring the state of hand washing for each individual.

In order to solve such problems, in the hand washing monitoring system of the present invention,
Nano bubble water supply means for supplying nano bubble water for hand washing containing nano bubbles;
ID (Identification) means for transmitting an identifier by near field communication;
Monitoring information transmitting means disposed in the vicinity of the inside or outside of the nanobubble water supply device and transmitting monitoring information based on the ID information transmitted from the ID device;
The monitoring information transmission means may further comprise: counting means for receiving the monitoring information transmitted from the monitoring information transmitting means and totaling stay time of a person corresponding to the identifier for each identifier based on the monitoring information.

Further, in the hand washing monitoring system of the present invention, detection means for detecting a hand washing person,
A nanobubble water supply means for supplying nanobubble water for handwashing containing nanobubbles when the handwasher is detected by the detection means;
An imaging unit configured to capture an image identifier in which an ID (Identification) information including an identifier that can identify an individual is represented by an image;
An identifier detection unit that detects the identifier from imaging data captured by the imaging unit;
And collecting means for storing hand washing time information on the time of hand washing of the hand washing person in association with the identifier.

  INDUSTRIAL APPLICABILITY The present invention can implement a hand-washing monitoring system and a monitoring information transmission device that can monitor users for each individual and can monitor the status of hand-washing for each individual.

It is a basic diagram which shows the structure of the hand washing monitoring system in 1st Embodiment. It is a basic diagram which shows the structure of the nano bubble water supply apparatus in 1st Embodiment. It is a basic diagram which shows the structure of the person detection apparatus in 1st Embodiment. It is a basic diagram which shows the structure of ID apparatus in 1st Embodiment. It is a basic diagram which shows the structure of the tally apparatus in 1st Embodiment. It is a basic diagram which shows the monitoring information transmission process procedure in 1st Embodiment. It is a basic diagram which shows the structure of the electrolyzed water supply apparatus in 2nd Embodiment. It is a basic diagram which shows use (1) of the hand-washing monitoring system in 2nd Embodiment. It is a basic diagram which shows use (2) of the hand washing monitoring system in 2nd Embodiment. It is a basic diagram which shows installation of the image identifier in 2nd Embodiment. It is a basic diagram which shows use of the hand washing monitoring system in 3rd Embodiment. It is a schematic diagram which shows installation of the image identifier in 3rd Embodiment. It is a basic diagram which shows the structure of the nano bubble water supply apparatus in other embodiment.

First Embodiment
Next, an embodiment of the present invention will be described with reference to the drawings.

  1 shown in FIG. 1 shows a hand washing monitoring system as a whole. The hand washing monitoring system 1 includes a nanobubble water supply device 2, a person detection device 3, an ID (Identification) device 4, and a counting device 5.

  As shown in FIG. 2, in the nanobubble water supply device 2, the control unit 21 configured by an MPU (Micro Processing Unit), a ROM (Read Only Memory) and a RAM (Random Access Memory) (not shown) It is designed to control the whole.

  The sensor 22 is preferably non-contact type, such as infrared light, for hygiene reasons. For example, the sensor 22 supplies a hand washing request signal to the control unit 21 when it senses a user's hand washing request by the user holding his hand in front of the sensor 22.

  When the control unit 21 receives the hand washing request signal from the sensor 22, the control unit 21 starts generation of hand washing nano bubble water.

  Specifically, the control unit 21 generates nanobubble water containing fine bubbles by supplying a generation start signal to the nanobubble water generation unit 24 (described as NB water generation unit in the figure) and the mixing dilution unit 25. To start.

  A nanobubble water reservoir 23 (described as an NB water reservoir in the drawing) is connected to the nanobubble water generator 24. The nanobubble water generation unit 24 supplies nanobubble water generated when nanobubble water is generated by, for example, a high-speed swing system, a pressure release system, or a venturi system, or a combination thereof to the nanobubble water storage unit 23. In addition, when the water storage amount in the nanobubble water storage unit 23 becomes constant, the nanobubble water generation unit circulates the nanobubble water in the nanobubble water storage unit 23 under the control of the control unit 21 to generate nanobubble water multiple times. It is possible to increase micro bubbles in the nano bubble water. Although tap water may be used as an undiluted solution of nanobubble water as it is, installation of a filter can prevent calcification of electrodes and piping, and the nanobubble water supply device 2 can be miniaturized.

  The microbubbles are so-called nanoscale microbubbles of 10 to 900 nm, and can be stably present for several months or more. It is also possible to mix specific gas components when generating fine bubbles and to generate fine bubbles composed of specific gas components. As the gas component contained in the fine bubbles, in addition to air, chlorine and ozone having a bactericidal effect, carbonic acid and nitrogen having a moisturizing effect, aroma component gas having a scent, hydrogen having an antioxidant effect, and a deodorizing effect Specific effect gases with specific effects, such as gases, can be used. Moreover, finishing ingredients, such as an aroma ingredient and a moisturizing ingredient, can also be mixed to the generated nano bubble water.

  The discharge unit 26 is connected to the nanobubble water storage unit 23, and discharges the handwashing nanobubble water supplied from the nanobubble water storage unit 23.

  When the control unit 21 controls the discharge unit 26 and supplies nano bubble water for hand washing for a preset supply time, the control unit 21 supplies a supply stop signal to the discharge unit 26 to stop the discharge of nano bubble water. Do.

  As described above, the nanobubble water generating apparatus is configured to supply the handwashing nanobubble water for a preset time according to the supply requirement of the user's handwashing nanobubble water.

  As shown in FIG. 3, in the person detection device 3, a control unit 31 including an MPU, a ROM, and a RAM (not shown) integrally controls the entire person detection device 3.

  The person detection device 3 has a communication range of, for example, several meters such as sound waves and Bluetooth (registered trademark), a so-called short distance communication function, and communication over relatively long distances such as wired LAN (Local Area Network) or wireless LAN. It has two possible communication functions with the so-called local network.

  The control unit 31 communicates with an external device through the external interface 34 using the short distance communication and the local network.

  As shown in FIG. 4, in the ID device 4, a control unit 41 configured by an MPU, a ROM, and a RAM (not shown) controls the entire ID device 4 in an integrated manner. The control unit 41 communicates with an external device through the external interface 42 using the short distance communication function.

  The person detection device 3 uses the short distance communication function to detect the presence or absence of the ID device 4 within the detection range.

  Specifically, the person detection device 3 transmits a response request signal to the ID device 4. When the ID device 4 receives the response request signal because the ID device 4 has entered the detection range of the person detection device 3, the ID device 4 transmits the identifier of the user registered therein to the person detection device 3 as an ID information signal. The transmission and reception of this signal is performed while the ID device 4 is within the detection range of the person detection device 3.

  When receiving the identifier signal, the control unit 31 causes the ID detection unit 32 to determine the identifier of the ID device 4 from the ID information signal. Further, the control unit 31 causes the measuring unit 33 to generate monitoring information representing the situation in which the ID device 4 is detected within the detection range, and transmits the monitoring information as a monitoring information signal to the aggregation device 5 together with the identifier.

  The monitoring information may be information detected by the user, but the user may use the time when the ID device 4 continues to be detected, or the detection start time when the ID device 4 starts to be detected and the detection end time when it is detected last It is preferable that the information represents the staying time within the detection range of

  The person detection device 3 is also connected to the control unit 21 of the nanobubble water supply device 2. The control unit 21 also supplies a generation start signal supplied to the discharge unit 26 to the person detection device 3.

  When the control unit 31 of the person detection device 3 receives the generation start signal, the control unit 31 associates the reception time with the generation start signal, and transmits the received signal via the local network. When the aggregation unit 52 of the aggregation device 5 receives the generation start signal, the aggregation unit 52 estimates the current remaining amount of nanobubble water in the nanobubble water storage unit 23 by calculation.

  The counting unit 52 can also check the monitoring information and the reception time of the generation start signal to confirm that the user has performed the hand-washing. For example, if the user is detected without a generation start signal, it can be determined that the user has passed nearby without hand washing, and if the user is detected for a short time while there is a generation start signal, You can doubt whether you did.

  As shown in FIG. 5, the counting device 5 has a computer configuration, and a control unit 51 including a central processing unit (CPU), a ROM, and a RAM (not shown) controls the entire counting device 5 in an integrated manner. It is done.

  When receiving the monitoring information signal through the external interface 53, the control unit 51 of the counting device 5 generates an identifier and monitoring information from the monitoring information signal, and performs a counting process.

  Specifically, the counting unit 52 of the control unit 51 counts the monitoring information for each user associated with the identifier. As a result, the counting unit 52 can count the time each user is using for hand washing.

  Then, when the operator makes a display request of the aggregation result via the operation input unit 54, the control unit 51 causes the display unit 55 to display the aggregation result in a graph or a list.

  As a result, the administrator can visually recognize the number of times of hand washing for each user and the time used for hand washing, and can thoroughly control hand washing.

  Next, the monitoring information transmission processing procedure RT1 executed by the person detection device 3 will be described using the flowchart of FIG.

  When the person detection device 3 starts the monitoring information transmission process, the person detection device 3 proceeds to step SP1.

  In step SP1, the person detection device 3 stands by for reception of the ID information signal, and determines whether or not the ID information signal is detected. If a negative result is obtained, the person detection device 3 waits for the reception of the ID information signal in step SP1.

  If a positive result is obtained in step SP1, the person detection device 3 at this time determines the time at this time as a detection start time, and proceeds to the next step SP2.

  In step SP2, the person detection device 3 continues to receive the ID information signal, and proceeds to the next step SP3.

  In step SP3, the person detection device 3 determines whether or not the ID information signal is no longer detected. If a negative result is obtained here, the person detection device 3 returns to step SP2 and continues reception of the ID information signal.

  If a positive result is obtained in step SP3, the person detection device 3 determines the time when the ID information signal was last received as the detection end time, and proceeds to the next step SP4.

  In step SP4, when the person detection device 3 transmits the detection start time, the detection end time, and the identifier extracted from the ID information signal as monitoring information, the person detection device 3 moves to the end step and ends the processing.

  According to the above configuration, the hand washing monitoring system 1 transmits the identifier by the short distance communication and the nano bubble water supply device 2 as the nano bubble water supplying means for supplying the hand water washing nano bubble water containing the fine bubbles, ID (Identification) An ID device 4 as a means, a person detection device 3 as monitoring information transmitting means disposed in the vicinity of the outside of the nanobubble water supply device 2 and transmitting monitoring information based on ID information transmitted from the ID device 4 It has the tallying device 5 as tallying means for receiving the monitoring information transmitted from the device 3 and tallying for each identifier.

  As a result, the hand washing monitoring system 1 can manage the state of hand washing for each user corresponding to the identifier, and can thoroughly manage hygiene.

  The counting device 5 counts the staying time of the person corresponding to the identifier based on the monitoring information. As a result, the hand washing monitoring system 1 can estimate the time the user used for hand washing, and can thoroughly manage hygiene.

  The person detection device 3 transmits at least the detection start time when the person corresponding to the identifier is detected and the detection end time when the detection is completed to the aggregation means.

  As a result, the person detection device 3 only needs to transmit the time detected first and the time detected last, and the processing load on the measurement unit 33 can be reduced.

  The person detection device 3 transmits, to the aggregation device 5, supply information indicating the supply status of the nanobubble water actually supplied by the nanobubble water supply device 2.

  Thereby, the tally apparatus 5 can confirm the fact that nano bubble water was actually used, the residual amount of the nano bubble water storage part 23, etc.

  The person detection device 3 measures the time during which the person corresponding to the identifier continues to be detected as the stay time, and transmits it to the aggregation means. Thus, the counting device 5 can grasp the staying time for each user corresponding to the identifier by a simple process.

  The nanobubble water supply device 2 generates and stores nanobubble water containing fine bubbles, and the counting device 5 estimates the remaining amount of the stored nanobubble water based on the supply information.

  As a result, in the hand washing monitoring system 1, the administrator can always grasp the remaining amount of the nano bubble water raw material liquid based on the actual supply condition, so that the trouble such as hand washing can not be performed It can be prevented in advance.

  The nano bubble water supply device 2 has a sensor 22 that senses the supply requirement of the person's hand wash nano bubble water. Thereby, the nano bubble water supply apparatus 2 can supply nano bubble water for hand washing only when necessary.

  The human detection device 3 is provided outside the nanobubble water supply device 2 and, upon receiving a signal indicating that nanobubble water for hand washing has been supplied, transmits the supply information to the aggregation means. As a result, the person detection device 3 only needs to connect a circuit for receiving supply information to the nanobubble water supply device 2, and the external person detection device 3 can be used.

  The nano bubble water supply device 2 supplies hand wash nano bubble water over a predetermined supply time. Thereby, the nano bubble water supply apparatus 2 can be urged | promoted to perform hand washing of the same time over the same time to all the users.

  The human detection device 3 is attached to the nanobubble water supply device 2, and the external interface 34 as a supply information receiving unit for receiving supply information representing the supply condition of the nanobubble water actually supplied by the nanobubble water supply device 2; The external interface 34 and the ID detection unit 32 as identifier receiving means for receiving the identifier transmitted from the ID device 4 by communication, and monitoring information based on the ID information transmitted from the ID device 4 are transmitted to the external aggregation device 5 It has the measurement part 33 and the external interface 34 as a monitoring information transmission means.

  Thereby, the person detection device 3 can be installed externally to the nanobubble water supply device 2 with a simple configuration.

Second Embodiment
Next, a second embodiment will be described with reference to FIGS. The second embodiment is different from the first embodiment in that the image identifier and the camera device are used, and the configuration of the electrolyzed water supply device. In addition, the code | symbol which added 100 to the location corresponding to 1st Embodiment is attached | subjected, and the description about the same location is abbreviate | omitted.

  The hand washing monitoring system 101 shown in FIG. 7 includes an electrolyzed water supply device 102, a control box 130, an imaging device 140, and a water softener 119. Soft water is supplied to the electrolyzed water generating unit 124 of the electrolyzed water supply device 102 from a water softener 119 connected to the water supply. The water softener 119 is not essential, and tap water may be directly supplied to the electrolyzed water generating unit 124. In FIG. 7, the electric flow is indicated by a solid line, and the flow of water is indicated by an alternate long and short dash line.

  In the electrolyzed water supply device 102, electrolyzed water is supplied as hand electrolyzed electrolyzed water instead of nano bubble water. Further, in the electrolyzed water supply device 102, an electrolyzed water storage unit 126 is provided downstream of the electrolyzed water generation unit 124. The electrolyzed water reservoir 126 may be provided separately from the electrolyzed water supply device 102. A water level sensor 126A is provided in the electrolyzed water storage unit 126, and water level information indicating that the current water level or a predetermined water level has fallen below is supplied to the control unit 121.

  The electrolyzed water generating unit 124 is, for example, a 1 to 3 tank type electrolytic cell, and electrolyzes the raw material solution in which the electrolyte supplied from the raw material liquid storage unit 123 is dissolved, and the water supplied from the water softener 119 As a result, weakly or slightly acidic acidic electrolyzed water or alkaline electrolyzed water is produced.

  The control unit 121 operates the electrolyzed water generating unit 124 based on the water level information to generate hand-washed electrolyzed water. Further, the control unit 121 monitors the water level of the electrolyzed water storage unit 126 based on the water level information, and displays on the display unit 129 when the electrolyzed water storage unit 126 falls below a predetermined depletion water level. Similarly, the control unit 121 calculates the remaining amount of the raw material liquid in the raw material liquid storage unit 123 based on the generation amount of the electrolyzed water, and displays on the display unit 129 when the remaining amount falls below a predetermined replenishment water level. The control unit 121 also displays an error on the display unit 129 when an error occurs in the electrolyzed water supply device 102.

  Further, when the control unit 121 recognizes that an object is present in the vicinity by the sensor 122 including, for example, an infrared sensor or the like, the control unit 121 transmits an object detection signal indicating that the object is detected to the control unit 121. When the object detection signal is supplied, the control unit 121 controls the electrolytic water storage unit 126 and discharges the hand-washing electrolytic water from the discharge unit 127.

  At the same time, the control unit 121 controls the photographing device 140 by supplying a photographing start signal to the photographing device 140, and starts a photographing process. The photographing device 140 supplies the photographed data to the control box 130. The identifier detection unit 133 of the control box 130 temporarily stores shooting data in the storage unit 132, detects an image identifier from the shooting data, and extracts ID information represented by the detected image identifier. The ID information includes information on the handwasher including at least an ID for identifying the handwasher. As the image identifier, for example, a one-dimensional or two-dimensional barcode (QR code (registered trademark)) or the like is suitably used.

  For example, when the ID information includes the name of the handwasher, the electrolyzed water supply device 102 or the control box 130 performs an operation such as calling the name of the handwasher by a voice output unit (not shown) to speak. Hand washing can be recommended.

  The identifier detection unit 133 supplies the extracted ID information and the supply start time to the counting device 105 via the communication unit 134. The time when the control unit 121 first receives an object detection signal from the sensor 122, the time when the control unit 121 starts discharging the hand-washing electrolytic water, the time when shooting starts, and the identifier detection unit 133 receives shooting data One time selected from the time etc. is regarded as the supply start time and used.

  The identifier detection unit 133 supplies a detection completion signal indicating that the identifier has been detected to the control unit 121. At this time, the control unit 121 controls the photographing device 140 by supplying a photographing end signal to the photographing device 140 and stops the photographing process.

  The control unit 121 monitors the sensor 122 and recognizes that the hand washing is completed if the object detection signal is not supplied for a predetermined time, and stops the discharge of the hand washing electrolytic water, and the supply stop time is notified to the control box 130. Supply. The identifier detection unit 133 supplies the supply stop time to the counting device 105 via the communication unit 134.

  As a result, the counting device 105 is supplied with the ID information, the supply start time, and the supply stop time. The counting device 105 stores the ID included in the ID information in association with the supply start time and the supply stop time. As a result, it is possible to count who has washed his hand at what time and how long by the counting device 105. The ID information, the supply start time, and the supply stop time may be supplied together, and the supply timing is not limited.

  In addition, it is possible to continue the photographing process in setting. In this case, the control unit 121 terminates the photographing process upon stopping the discharge of the electrolyzed water.

  Next, usage examples of the hand washing monitoring system 101 will be described with reference to FIGS.

  As shown in FIGS. 8 and 9, the hand washing monitoring system 101 is installed, for example, in accordance with the hand washing table 199 in a factory for food or medicine. The electrolyzed water supply apparatus 102 is installed near the center of the hand-washing stand 199, and the discharge part 127 is installed in the position higher than a hand-washing stand. The imaging device 140 is installed, for example, at a height (130 to 180 cm from the floor surface) in the vicinity of the head of the handwasher, and has a configuration that enables wide-angle imaging. In wide-angle shooting, wide-angle shooting may be performed using a wide-angle lens, or a lens unit in the imaging device 140 may be driven to change an imaging location.

  In the case of the photographing device 140A driven by the lens unit, when the photographing start signal is supplied from the control unit 121, the photographing device 140A directs the lens to a position where the image identifier 150 is assumed to be (generally front in FIG. 9). Start shooting. In addition, when the angle change signal according to the detection completion signal is supplied from the control unit 121, the photographing device 140A changes the angle of the lens unit, and photographs the vicinity of the discharge port of the discharge unit 127. Thus, the photographing device 140A can photograph the state of hand washing. The photographed hand-washing photographing data is transmitted to the counting device 105 via the control box 130.

  Further, in the case of the photographing device 140B having a wide-angle lens, the photographing process is started and ended according to the photographing start signal and the photographing end signal. The photographed hand-washing photographing data is transmitted to the counting device 105 via the control box 130.

  It is assumed that the image identifier 150 is placed on the clothes of the handwasher. In the figure, the image identifier 150 is installed in the forehead portion. The image identifier 150 is placed on the upper and lower body fronts of the body, such as the arms and waist, chest and belly. The image identifier 150 is preferably installed so as not to be peeled off by sewing or printing in order to prevent it from becoming a foreign substance in the factory by peeling off. In FIG. 10, the image identifier 150 is printed on the upper side of the hat collar. It is also possible to store an image identifier printed on paper in a transparent pocket with a transparent cover, such as for example ski wear.

  When installing the image identifier 150 above the waist of the body of the handwasher, it should be integrated with clothes such as work clothes like printing or ironing in order to prevent foreign matter mixing due to the drop of the image identifier 150 Is preferred.

Third Embodiment
A third embodiment will now be described with reference to FIGS. The third embodiment is different from the first embodiment in that the electrolyzed water supply device does not have a sensor, and the process is executed according to the detection of the image identifier. In addition, the code | symbol which added 100 to the location corresponding to 2nd Embodiment is attached | subjected, and the description about the same location is abbreviate | omitted.

  As shown in FIG. 11, in the hand washing monitoring system 201, the photographing device 240 is installed at a position of about 20 to 50 cm from the floor surface so as to be fixed to the leg 299A of the hand washing table 299. The nanobubble water supply device 202 does not have a sensor. The imaging device 240 performs imaging at predetermined intervals (for example, once every 0.1 to 2.0 seconds), and supplies imaging data to the control box 230.

  The identifier detection unit 233 of the control box 230 supplies an identifier detection signal to the nanobubble water supply device 202 when the first image identifier is detected in a state where the electrolyzed water is not discharged. When the identifier detection signal is supplied, the control unit 221 discharges the hand-washed electrolyzed water from the discharge unit 227 over a predetermined discharge time. At this time, the imaging device 240 continues the imaging process and supplies the imaging data to the control box 230.

  The control unit 221 supplies the supply start time and the supply end time of the electrolyzed water to the control box 230. The identifier detection unit 233 continues extraction of the ID information extracted from the image identifier, and the first and last detected ID and detection time together with the supply start time and supply end time of the electrolyzed water via the communication unit 234 The data is supplied to the counting device 205.

  As a result, while the electrolyzed water is being discharged by monitoring the image identifier, the counting device 205 can check whether the handwasher has been present, that is, can estimate the time when the handwasher has handwashed.

  As shown in FIG. 12, an image identifier 250 is attached to the front of the boot. Although there is no limitation on the method of attaching the image identifier 250, for example, the image identifier 250 is attached by a sealing method using an adhesive. While work clothes are often worn in common, boots are often distributed for each individual, and it is easy to keep the height of the image identifier constant from the floor, so install the image identifier. Suitable for In addition, since the height from the floor surface is small, there is almost no possibility of contamination of the product even if the image identifier is peeled off. Also, the frequency of detection errors can be reduced due to relatively less contamination.

<Operation and effect>
Hereinafter, the features of the invention group extracted from the above-described embodiment will be described by showing problems, effects, and the like as necessary. In the following, for ease of understanding, the corresponding configurations in the above-described embodiments are appropriately shown in parentheses, but the present invention is not limited to the specific configurations shown in parentheses. In addition, the meanings and examples of the terms described in the respective features may be applied as the meanings and examples of the terms described in the other features described in the same word.

According to the above configuration, in the hand washing monitoring system 201 of the present invention,
Detection means (sensor 122) for detecting a handwasher;
Electrolyzed water supply means (electrolyzed water storage section 126) for supplying hand-washed electrolyzed water using electrolyzed water generated by electrolyzing the electrolyte raw material solution in which the electrolyte is dissolved when hand washing is detected by the detection means When,
Shooting means (shooting device 140) for shooting an image identifier in which ID (Identification) information including an identifier capable of identifying an individual is represented by an image;
An identifier detection unit (identifier detection unit 133) for detecting the identifier from the photographed data photographed by the photographing unit;
And aggregating means (aggregation device 105) for storing hand washing time information on the time of hand washing of the hand washing person in association with the identifier.

  In this way, it is possible to monitor the time of handwashing for each handwasher using the image identifier.

In the hand washing monitoring system, the hand washing time information is
It is characterized in that it is supply time information based on a supply start time and a supply end time at which the electrolyzed water for hand washing is supplied. The supply time information includes information such as the supply start time and the supply end time, and information capable of calculating the time when the electrolytic water is supplied, such as the supply start time and the supply time representing the time when the electrolytic water is supplied. It is good if it is.

  As a result, the supply start time and the supply end time at which the electrolyzed water for hand washing is actually supplied can be used as the hand washing time of the hand washing person, so that the hand washing time of the hand washing person can be estimated with high accuracy.

In the hand washing monitoring system, the hand washing time information is
It is characterized in that it is hand washing estimated information based on a detection start time and a detection end time at which the identifier is detected.

  As a result, since the time during which the handwasher is being photographed, that is, the time in front of the table, can be used as the handwashing time of the handwasher, it is possible to estimate the handwashing time of the handwasher with high accuracy.

In the hand washing monitoring system, the detection means is
It is characterized by being a sensor installed in the outside or the neighborhood of the above-mentioned electrolyzed water supply means.

  As a result, the detection means can be disposed at or near the electrolyzed water supply means itself, so that the timing of discharging hand-washed electrolyzed water can be made appropriate.

In the hand washing monitoring system, the photographing means is
The photographing process is performed only when the hand washing person is detected by the detection means.

  As a result, it is possible to execute the photographing process only when necessary, and it is possible to save the electricity cost and to increase the life of the photographing device. Also,

In the hand washing monitoring system, the identifier detection means
An identifier corresponding to the supply start time and the supply end time is detected.

  This makes it possible to check whether or not the same handwasher was present at the supply start time and the supply end time, that is, whether or not the handwasher has been replaced.

The detection means
Said photographing means,
The electrolytic water supply means is
The electrolyzed water for hand washing is supplied only when the identifier is extracted at predetermined intervals from the photographed data by the identifier detection means.

  Thereby, even if there is no separate sensor, it is possible to supply hand-washing electrolytic water only when it is necessary.

The counting means is
The supply time information is associated with an identifier extracted between the supply start time and the supply end time.

  Thereby, the handwasher and the supply time information of the electrolyzed water can be reliably associated.

The photographing means is
The hand-washing monitoring system according to any one of claims 1 to 6, which is installed at a position less than 100 cm from the floor.

  As a result, the position at which the image identifier is installed is limited to a position below the waist, and therefore, even if the image identifier is peeled off, the product is less likely to be contaminated.

The image identifier is
It is characterized in that it is installed on the clothes of the handwasher.

  As a result, as compared with the method of hanging a card or the like from the neck, security in the factory can be secured, and loss of the image identifier or foreign object contamination associated therewith can be prevented.

The image identifier is
It is characterized in that it is installed in the boots of the handwasher.

  As a result, the image identifier can be installed at a position lower than the floor surface, and the image identifier can be easily attached by a sealing method or the like using the smooth surface of the boots.

The image identifier is
It is characterized in that it is set at a constant distance from the bottom surface.

  Thus, the imaging device can reliably capture the image identifier, and the detection accuracy of the image identifier can be improved.

In the hand washing monitoring system, the electrolyzed water supply device is
Only when the identifier is detected, the electrolyzed water for hand washing is supplied.

  As a result, since the identifier is always detected when the hand-washing person performs hand-washing, it is possible to prevent in advance the situation where the hand-washing person can not confirm who is by look detection of the identifier.

In the hand washing monitoring system, the counting device is
Only when the difference between the ID detection time at which the identifier is detected and the supply start time is within a predetermined time, it is determined that the handwasher has performed handwashing.

  For example, when the supply start time and the supply end time, the ID information and the ID detection time are sequentially supplied from the control box, it is possible to appropriately link the ID and the hand washing time.

<Other Embodiments>
In the second embodiment described above, the ID information, the supply start time, and the supply stop time are supplied to the counting device 105, but the present invention is not limited to this, and, for example, the electrolyzed water storage unit When a pH meter, thermometer, and effective chlorine concentration meter are installed at 126, the measurement values (pH, temperature, effective chlorine concentration) when electrolyzed water is supplied are summed up together with the device 105. It may be supplied to the This makes it possible to prove the quality of the electrolyzed water at hand washing. In addition, based on the ID information, the supply start time and the supply stop time, the counting device 105 stores the average hand washing time, the number of hand washings per given period (day, week, month, year, etc.), time, etc. It is also possible.

  Further, in the third embodiment described above, although the IDs detected first and last are supplied to the counting device 205, the present invention is not limited to this, for example, in addition to the above, ID information The change may be monitored, and if it has changed, the changed time and ID may be sent to the counting device 205 in addition to the above. Further, all of the detected IDs may be transmitted to the counting device 205.

  Furthermore, in the above-described third embodiment, the time taken by the handwasher to estimate the handwashed time is estimated by monitoring the image identifier. It may be possible to confirm the presence of the handwasher.

  Furthermore, in the second embodiment described above, the generated electrolyzed water is used as it is as the hand-washed electrolyzed water, but the present invention is not limited to this. For example, a pH measuring device or an effective chlorine concentration measuring device is provided in the electrolyzed water storage unit 126, and dilution water (tap water, nano bubble water, etc.) is added so that the pH or effective chlorine concentration measuring device is within a predetermined range Electrolytic water for hand washing may be prepared inside the electrolysis reservoir 126 by adding dilution water according to the amount of electrolytic water generated.

  Moreover, in the second embodiment described above, although the object is detected by the sensor 122 and then the photographing by the photographing device 140 is started, the present invention is not limited to this. For example, the imaging device may perform imaging as needed, and after the ID is detected, the hand-washing electrolytic water may be supplied from the discharge unit only when the object detects the ID. In this case, when the ID is detected, the solenoid valve installed in the electrolyzed water storage unit is opened, and when the object is detected, the pressurized water supply pump is operated.

  Furthermore, in the third embodiment described above, the hand washing electrolytic water is supplied for a predetermined time and the hand washing time is estimated by detecting the ID, but the present invention is not limited to this.

  In the above embodiment, the electrolyzed water is diluted to form electrolyzed water for hand washing, but the present invention is not limited to this, and nano bubble electrolyzed water in which nano bubbles are mixed in the electrolyzed water is diluted or electrolyzed. Nano bubble electrolyzed water can also be used as hand-washed electrolyzed water by diluting water with nano bubble water. For example, as shown in FIG. 13, electrolyzed water and nanobubble water can be mixed and used in the mixing and dilution part 125.

  In the first embodiment described above, the case has been described where the person detection device 3 does not have the sound output means. The present invention is not limited to this, and the person detection device 3 may have voice output means, obtain the counting result from the counting device 5, and make an announcement according to the counting result corresponding to the identifier. For example, for a user with a short hand wash, an announcement such as "Let's wash hands slowly" can be made.

  Moreover, in 1st Embodiment mentioned above, the nano bubble water supply apparatus 2 described the case where it was made to supply the electrolytic water for hand-washing over the quantity or time which were preset. The present invention is not limited to this, and the sensor 22 may detect the hand of a person, and the nanobubble water supply device 2 may supply the electrolyzed water for hand washing while the hand of the person is detected. As a result, it is possible to supply the electrolyzed water without waste for the amount required for each user.

  Furthermore, in the embodiment described above, the case where the person detection device 3 is externally attached has been described. The present invention is not limited to this, and may be incorporated in the nanobubble water supply device 2.

  Furthermore, in the above-described first embodiment, the case where the person detection device 3 receives the supply start signal as the supply information has been described. The present invention is not limited to this, and may be, for example, a supply end signal. In addition, the person detection device 3 receives both the supply start signal and the supply end signal, and when the supply signal can not be received after a predetermined time has passed since the supply start signal was received, the electrolytic water raw material liquid is not It is also possible to determine that the information has been lost and to send warning information to that effect to the counting device 5. In this case, the counting device 5 can promptly display the warning information on the display unit 55 or notify by voice.

  Furthermore, in the embodiment described above, the nanobubble water supply device 2 as the electrolyzed water supply means, the ID device 4 as the ID means, the person detection device 3 as the monitoring information transmission means, and the counting device as the counting means The case where the hand washing monitoring system 1 was configured as a hand washing monitoring system by 5 and 5 was described. The present invention is not limited to this, and the hand washing monitoring system of the present invention may be configured by the electrolyzed water supply unit, the ID unit, the monitoring information transmission unit, and the counting unit according to various other configurations.

  The present invention can be applied to, for example, a dilute electrolytic water supply device installed in a hand-washing space such as a hospital or a nursing home.

1, 101, 201: hand washing monitoring system 2, 102, 202: nano bubble water supply device 5, 105, 205: counting device 21, 121, 221: control unit 22, 122: sensor 24, 124, 224: electrolyzed water generation unit 25, mixed dilution unit 26, 126, 226: discharge unit 130: control box 132: storage unit 133: identifier detection unit 134: communication unit 140: imaging device 150: image identifier

Claims (10)

Nano bubble water supply means for supplying nano bubble water for hand washing containing nano bubbles;
ID (Identification) means for transmitting an identifier by near field communication;
Monitoring information transmitting means disposed in the vicinity of the inside or outside of the nanobubble water supply device and transmitting monitoring information based on the ID information transmitted from the ID device;
Receiving means for receiving the monitoring information transmitted from the monitoring information transmitting means, and adding up the staying time of the person corresponding to the identifier for each identifier based on the monitoring information; Monitoring system. The monitoring information transmission means
The hand washing monitoring system according to claim 1, wherein at least the detection start time at which a person corresponding to the identifier is detected and the detection end time at which the detection is completed are transmitted to the counting means. The nanobubble water for hand washing is
It is a nano bubble electrolyzed water which contains a nano bubble in the electrolyzed water produced | generated by electrolyzing the electrolyzed water raw material liquid which is the aqueous solution which the electrolyte melt | dissolved, It is a hand-washing monitoring system of Claim 1 characterized by the above-mentioned. The electrolyzed water is
It is an acidic electrolyzed water. The hand-washing monitoring system of Claim 3 characterized by the above-mentioned. The electrolyzed water is
It is alkaline electrolyzed water. The hand-washing monitoring system of Claim 3 characterized by the above-mentioned. The nanobubble water for hand washing is
The handwashing monitoring system according to claim 1, further comprising a finishing component such as a scent component and a moisturizing component. The nanobubble water for hand washing is
The hand washing monitoring system according to claim 1, wherein the special effect gas having a specific effect is contained as a fine bubble. Detection means for detecting a handwasher;
A nanobubble water supply means for supplying nanobubble water for handwashing containing nanobubbles when the handwasher is detected by the detection means;
An imaging unit configured to capture an image identifier in which an ID (Identification) information including an identifier that can identify an individual is represented by an image;
An identifier detection unit that detects the identifier from imaging data captured by the imaging unit;
The handwashing monitoring system, comprising: tallying means for storing handwashing time information on the time of handwashing of the handwasher in association with the identifier. The hand washing time information is
It is supply time information based on the supply start time and supply end time to which the nanobubble water for hand washing was supplied, The hand-washing monitoring system of Claim 7 characterized by the above-mentioned. The hand washing time information is
The hand washing monitoring system according to claim 7, wherein the hand washing estimation information is based on detection start time and detection end time at which the identifier is detected.

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