JP2016167144A - Water use state analysis system and safety confirmation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To estimate life activities from a water use state of a water user by a simple method.SOLUTION: A water use state analysis system 1 includes: a water pressure sensor 13 that detects a first water pressure P1 in a primary-side inlet of a hot-water supply system 10 that heats cold water supplied from the primary side inlet 10a and, when a hot-water supply load is generated, supplies hot water from a secondary-side outlet 10b; a water-pressure data storage section 17 that stores the first water pressure P1 detected by the water pressure sensor 13, in a water pressure DB 15 as time-series data; and a water use analysis section 18. The water use analysis section 18 refers to the water pressure DB 15, on the basis of time changes in the first water pressure in one day, analyzes, for each of usage, the state of the water use whether or not the first water pressure P1 increases or decreases more than a reference value, and estimates the life activities of the water user.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a water usage status analysis system that estimates daily activities from the water usage status of a water user. Further, the present invention relates to a safety confirmation system for confirming the safety of residents living alone.

  In recent years, especially in Japan, aging and declining birthrate have become social problems. Along with this, the nuclear family has progressed, and the number of the elderly living alone has been increasing.

  Based on this situation, confirmation of the safety of elderly people living alone has become an important issue for society as a whole.

  For example, there is a safety confirmation system described in Patent Document 1 as a system for acquiring and analyzing the use status of a toilet by measuring the flow rate of water flowing in a water supply pipe and determining safety.

  Although not directly related to the safety confirmation system, a water volume sensor and a water pressure sensor are provided on the tapping pipe of the water heater, and the detection value of the water pressure sensor is compared with the reference value when the bath is hot. Thus, Patent Document 2 describes a water heater with a hot water supply stop function that can determine whether the bathroom currant has been forgotten to be closed even when other plugs are being used.

JP 2013-25472 A JP 2001-91052 A

  As for the above safety confirmation, in urban areas, monitoring activities (tours / visits) are carried out by local governments, but there are limits to the monitoring activities because there are a wide range of target people in rural areas. is there.

  For this reason, there is a demand for a system that automatically acquires the life information of the person being watched over and confirms the safety.

  As a specific example, there is a method of determining safety based on the water consumption pattern of the safety confirmation target person as described in Patent Document 1 above. However, in the determination based on the presence or absence of toilet use, Although the presence / absence can be determined, it is difficult to make a detailed analysis and determination on the daily activities of the subject.

  On the other hand, in such a safety confirmation system, if the subject has an illness, etc., and his / her life activity has changed, he / she can detect the abnormality at an early stage and detect the subject's abnormality before it is too late. It is important to detect from the precursors.

  In view of the above situation, the present invention provides a water use state analysis system capable of estimating detailed life activity based on the water use state of a water user by a simple method, and thereby, changes in life activity. It is an object to realize a safety confirmation system that can detect the problem at an early stage.

In order to achieve the above object, a water use status analysis system according to the present invention is:
A water pressure sensor for detecting a first water pressure at the primary side inlet of the hot water supply system that heats the cold water supplied from the primary side inlet and discharges hot water from the secondary side outlet when a hot water supply load occurs;
A water pressure data storage unit for storing the first water pressure detected by the water pressure sensor in a water pressure database as time series data;
A water use analysis unit,
The water usage analysis unit
Referring to the water pressure database, analyzing a water use situation based on a daily time change of the first water pressure, and estimating a water user's daily activities from the water use situation; To do.

The water usage analysis system according to the first aspect of the present invention is preferably further configured as follows:
The water usage analysis unit analyzes a water usage situation other than the hot water supply use from a time change of the amount of decrease from the reference value of the first water pressure, and classified by use based on a pattern of time change of the amount of decrease in the first water pressure. The second feature is to separate the water usage status.

The water usage analysis system according to the second aspect of the present invention is preferably,
The water use analysis unit estimates the use frequency of the toilet for each use time zone, and analyzes the daily fluctuation of the use frequency to estimate whether the water user is at home or absent, sleep state, or health state The configuration.

The water usage analysis system according to the present invention of the first or second feature is preferably further,
The water use analysis unit analyzes the water use situation of the hot water supply application from the time change of the increase amount from the reference value of the first water pressure, and for each hot water supply application based on the pattern of the time change of the increase amount of the first water pressure. The third feature is to separate the water usage status.

The water usage analysis system according to the present invention of the third feature is preferably,
The water use analysis unit estimates the bathing time and analyzes whether there is a healthy bathing by analyzing the presence / absence of bathing and the daily fluctuation of the bathing time.

The water usage analysis system according to the present invention of the second or third feature is preferably,
The water usage analysis unit estimates the wash use time to estimate the water user's wake-up time.

The water usage analysis system according to the present invention having any one of the first to third features is preferably,
The hot water system is composed of a gas water heater,
A transmission unit for transmitting the first water pressure detected by the water pressure sensor toward the water pressure database is attached to the gas water heater.

The safety confirmation system according to the present invention for achieving the above object is
Using the water usage analysis system according to the present invention having any one of the first to third features,
Based on the daily changes of the estimated daily activities, an abnormality in the daily activities of the water user is detected and the safety of the water user is confirmed.

  According to the water use state analysis system according to the present invention, a water pressure sensor that detects the water pressure (first water pressure) at the primary side inlet of the hot water supply system is provided, and the time change of the first water pressure is analyzed, thereby Person's daily activities can be estimated.

  In general, a water supply channel connected to the primary inlet of the hot water supply system branches upstream from the primary inlet, one of which branches to a pipe connected to the primary inlet, and the other is a facility for toilets and toilets. Branches to a pipeline that leads to For this reason, if water is used for purposes other than hot water supply, such as washing or toilet use, the water pressure at the primary side inlet is affected by changes in the water flow in the water supply channel that branches off upstream, and decreases.

  Thereby, by analyzing the time variation of the first water pressure in one day, the presence / absence of water use other than the hot water use and the time zone of water use other than the hot water use are estimated for each use from the amount of decrease in the first water pressure. It becomes possible.

  In the case of a hot water supply system such as a gas water heater, for example, when a hot water supply load is generated, the first water pressure increases according to the amount of hot water supply. Presence / absence and time zone of water use for hot water supply use can be estimated for each use. In particular, water use by bathing can be estimated.

  Thereby, based on the simple structure which provided only the water pressure sensor and the transmission part, it becomes possible to estimate in detail the daily life activity of a water user according to a water use use.

  Then, the daily activities estimated for each use of water are tabulated daily, and it is possible to detect an abnormality in the daily activities of the water user by detecting whether there is any change in the daily activities. As a result, it is possible to realize a safety confirmation system that detects an anomaly / modulation of daily activities of a water user at an early stage and confirms safety.

The block diagram which shows an example of the water use condition analysis system which concerns on one Embodiment of this invention. Typical water use applications include (a) toilet use, (b) wash surface, (c) bathing, and (d) wash surface using hot water supply, schematically showing patterns of time variation of the first water pressure P1. Graph The figure which shows an example of the result of the water use analysis part estimating the use frequency and use time of a water user's toilet The figure which shows an example of the result that the water use analysis part estimated the wake-up time from the morning use of the water user The figure which shows an example of the result that the water use analysis part estimated the bathing time zone of the water user

<First Embodiment>
Hereinafter, a water use state analysis system (hereinafter, referred to as “the present system 1” as appropriate) according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an example of the configuration of the system 1 of the present invention. As shown in FIG. 1, the system 1 of the present invention includes a water heater 10, a water pressure sensor 13, a water pressure data storage unit 17, and a water use analysis unit 18, and the time variation of the water pressure detected by the water pressure sensor 13 over a day. Based on the above, the water use situation is analyzed, and the water user's daily activities are estimated from the water use situation.

  In this embodiment, the water heater 10 (corresponding to a hot water supply system) is the same as that of a gas combustion type installed in a general household, and when a hot water supply load is generated, cold water supplied from the primary side inlet 10a. The hot water is discharged from the secondary side outlet 10b. The primary side inlet 10 a is connected to the water supply pipe 11. On the other hand, the secondary side outlet 10b is connected to the hot water pipe 12, and is configured to be able to supply hot water to hot water supply facilities in a bathroom, a washroom, a kitchen sink and the like via the hot water pipe 12. The water supply pipe 11 is branched upstream from the primary side inlet 10a, and one of the branched pipes 11a constitutes a pipe going to the primary side inlet 10a, and the other branched pipe 11b is a bathroom and a washroom. It is connected to water supply facilities in toilets, kitchen sinks, etc. In addition, in FIG. 1, although the connection method of each pipeline 11 (11a, 11b) and 12 and the water heater 10 is shown typically in order to make an understanding of this invention easy, each figure is not necessarily as shown in this figure. It does not indicate that the pipeline is arranged.

  The water pressure sensor 13 is installed on the pipe line 11a connected to the primary side inlet 10a. The water pressure sensor 13 detects a water pressure (first water pressure) P1 at the primary side inlet 10a. As the water pressure sensor 13, for example, a commercially available diaphragm type sensor can be used.

  Here, the 1st water pressure detected when there is no water use including the use of hot water supply is set as the reference water pressure P0. When a hot water supply load occurs, the first water pressure P1 becomes higher than the reference water pressure (P1> P0) due to the water supply from the primary side inlet 10a. On the other hand, when there is no hot water supply load but water is used in the bathroom or toilet, the first water pressure P1 is lower than the reference water pressure (P1 <P0) due to the influence of the water flow flowing through the pipeline 11b. The absolute value of the amount of change (P1-P0) of the first water pressure P1 from the reference water pressure increases as the amount of water supply (water consumption) per hour increases.

  The water pressure data storage unit 17 includes a water pressure DB (database) 15 and stores the first water pressure P1 detected by the water pressure sensor 13 in the water pressure DB 15 as time series data. In the present embodiment, the water pressure data storage unit 17 further includes a transmission unit 14 so as to access the water pressure DB 15 connected via a wireless or wired network and write the first water pressure P1. When the transmission unit 14 acquires the detection value of the first water pressure P1 from the water pressure sensor 13, the transmission unit 14 transmits the detection value to the water pressure DB 15 in order to store the detection value in the water pressure DB 15 in the water pressure data storage unit 17. In addition, the water pressure data storage unit 17 controls transmission of the first water pressure P1 by the transmission unit 14 and reception of the first water pressure P1 from the transmission unit 14, and relays access to the water pressure DB 15 of the transmission unit 14, The control part 16 which performs control is provided.

  In this case, when the transmission unit 14 detects the first water pressure P1, the transmission unit 14 may sequentially transmit the detection value to the water pressure DB 15. Alternatively, the detected first water pressure P1 may be used together for each fixed number of times of detection. It may be transmitted to the analysis unit 16. In the present embodiment, the transmission unit 14 has a built-in storage unit that temporarily holds time-series data of the first water pressure P1 detected by the water pressure sensor 13 every predetermined time interval (preferably 1 second or less). The time-series data held in the storage unit is transmitted to the water usage analysis unit 18 every predetermined period (for example, 5 minutes) or in response to a request from the control unit 16 of the water pressure data storage unit 17. . In the water pressure DB 15, the time series data of the first water pressure P1 acquired from the transmission unit 14 and the past time series data already acquired are integrated, and the long time period (preferably one month or more) is integrated. Time series data is stored.

  The water usage analysis unit 18 refers to the water pressure DB 15 and extracts the time series data for one day of the first water pressure P1 on a predetermined day. And based on the time change of the obtained 1st water pressure P1 of the day, the condition of water use is analyzed and a water user's living activity is estimated from the said condition of water use.

  In the system 1 of the present invention, each process of the water pressure data storage unit 17 (excluding the transmission unit 14 and the water pressure DB 15) and the water use analysis unit 18 is performed by computer hardware resources (CPU, various storage devices, etc.) and software. Arithmetic processing is performed using resources (OS, various drivers, etc.), and such arithmetic processing is realized in software by executing a program whose execution is controlled by the CPU. The water pressure DB 15 is constructed in a predetermined storage area of a predetermined storage device provided in the computer or accessible via a network. The control unit 16, the water pressure DB 15, and the water usage analysis unit 18 of the water pressure data storage unit 17 do not have to be built in the same computer. On the other hand, the transmission unit 14 is preferably attached to the water heater 10.

  First, the water usage analysis unit 18 obtains the reference water pressure P0 when there is no water use from the extracted time series data of the first water pressure P1, and the amount of increase or decrease of the first water pressure P1 from the reference water pressure P0. Find time change.

  As described above, when the first water pressure P1 is lower than the reference water pressure P0, water use other than the hot water supply application is estimated. The use of water can be estimated. On the other hand, when the first water pressure P1 is higher than the reference water pressure P0, the use of water in the hot water supply application is estimated. Therefore, a specific hot water supply application can be estimated by performing a pattern analysis on the time variation of the increase amount. .

  In FIG. 2, the pattern of the time change of the 1st water pressure P1 in typical water use is typically shown. As shown in FIG. 2 (a), when the first water pressure P1 shows a time change that suddenly recovers to the reference water pressure P0 in a short time after the first water pressure P1 suddenly greatly decreases from the reference water pressure P0, Is estimated. In this case, it can be said that the water usage pattern when using the toilet is a specific pattern according to the toilet equipment regardless of the water user, and can be easily distinguished and separated from other patterns.

  FIG. 2B shows that after the first water pressure P1 is lowered from the reference water pressure P0 by a lower amount than that in FIG. 2A, the first water pressure P1 lower than the reference water pressure is maintained for several minutes, and then the original reference The time change pattern which returns to the water pressure P0 is shown, and the use of water in the wash surface application is estimated.

  In FIG. 2C, the first water pressure P1 is greatly increased from the reference water pressure P0 for a long time of about 10 to 20 minutes. In this case, the use of water for hot water supply is suggested, but since a relatively long water pressure increase of 10 minutes or more is detected at a relatively large water pressure, hot water is stored in the bathtub. It is estimated that water will be used.

  Moreover, in the case of a wash-basin use, although the case where hot water is used is also considered, as shown in FIG.2 (d), the 1st water pressure P1 in that case is a raise amount smaller than FIG.2 (c) from reference | standard water pressure P0. After the rise, the first water pressure P1 higher than the reference water pressure is maintained for several minutes, and then a time change pattern returning to the original reference water pressure P0 is shown.

  Although not shown, when water is used by a fully automatic washing machine, a pattern in which the first water pressure P1 is repeatedly reduced from the reference water pressure P0 about three times corresponding to “washing” and “rinsing”. Show. Here, the time when the first water pressure P1 decreases, the time interval until the next water pressure decrease is repeated after the first water pressure P1 recovers to the reference water pressure P0, and the decrease of the first water pressure P1 from the reference water pressure P0. The amount is a fixed pattern determined by the performance of the washing machine, and is easily discriminated and separated from other patterns.

  Thus, depending on the water usage, the positive and negative and absolute values of the peak water pressure at which the water pressure change P1-P0 has a peak with respect to the reference water pressure P0, the time until the peak water pressure rises (falls) from the reference water pressure P0, and , The time for maintaining the peak water pressure, etc. shows different patterns. In general, the daily time change of the first water pressure P1 is, for example, a pattern in which the water usage patterns shown in FIGS. 2A to 2D are superimposed. The water usage analysis unit 18 performs pattern analysis to determine whether there is a portion that matches the pattern shown in FIGS. 2A to 2D from the time variation of the first water pressure P1 in one day, and uses the water. Separately, the water use status is classified, and the usage when the water user uses the water is associated with the time used.

  In this way, the water usage analysis unit 18 estimates when and for what purpose the water was used based on the daily time change of the first water pressure P1, and the water user's daily living activities are estimated. presume. This analysis is conducted over multiple days, and water users 'daily activities over multiple days are estimated. From this, by performing statistical analysis as needed, trends in water users' daily activities, that is, lifestyle habits Can be estimated.

  The water usage analysis unit 18 can notify the user of the system 1 of the present invention and call attention when the latest estimated daily activity is out of the lifestyle habit. This is illustrated in the following example.

  FIG. 3 shows the result of estimating the use frequency and use time of a certain water user's toilet. FIG. 3A shows changes in the frequency of daily toilet use over the last week. From FIG. 3 (a), it can be seen that the frequency of use of the toilet has been remarkably increased from 3 days ago, especially from the day before (2 days ago).

  In order to investigate this in more detail, the use of toilets on yesterday's day was made from midnight to morning (0:00 to 6:00), morning to noon (6 to 12), noon to evening (12 to 18), and FIG. 3B shows an analysis divided into four time zones from evening to midnight (18:00 to 24:00). From FIG. 3 (b), it can be seen that toilet use is increasing at midnight, and if half of the toilet use is healthy, it occurs in the midnight zone that should be sleeping. This suggests that the health condition of the water user has been modulated, more specifically, the possibility of poor physical condition due to abdominal pain etc., and the possibility of lack of sleep from 3 days ago.

  Therefore, the water use analysis unit 18 notifies the user that the number of toilet use has increased from three days ago and that toilet use has increased in particular at night, and the user of the system 1 of the present invention. In addition, attention can be drawn to the health condition of water users.

  In addition, as a method of analyzing the usage frequency of toilet use, the time interval from one toilet use to the next toilet use is obtained, and if the time interval from one toilet use to the next toilet use is significantly longer than the average, absent Or you can estimate that you are sleeping. If the time interval includes the night, it is estimated that the user is sleeping, and the bedtime and the wake-up time can be roughly estimated.

  Moreover, it is possible to estimate the wake-up time with higher accuracy by estimating the morning use of the bathroom. In FIG. 4, the result of having estimated the wake-up time based on the wash use time of a certain water user is shown.

  FIG. 4 shows the result of separating the wake-up time of a certain water user in the most recent week for each wake-up time zone at one hour intervals. In FIG. 4, for example, “6:00 am” indicates a wake-up time zone from 6:00 am to 7:00 am. From FIG. 4, it can be seen that the wake-up times are different in the past week. This suggests that the water user's life rhythm may be disturbed.

  Therefore, the water usage analysis unit 18 notifies the user of the system 1 of the present invention that the life rhythm of the water user may be disturbed and alerts the user that the wake-up time is different. Can be aroused.

  In addition, FIG. 5 shows the result of separating the estimated time of water use by bathing by a certain water user in the most recent week for each 30-minute time zone (bathing time zone). In FIG. 5, for example, “8:00 pm” indicates a bathing time period from 8:00 pm to 8:30 pm.

  Although it is possible to estimate whether or not the water user has taken a bath from the presence or absence of the water use pattern when filling with water based on FIG. 2 (c), the bathing time is directly estimated when there is a bath. It is not possible. However, it is assumed that the bathing is performed close in time after filling, and if the filling time varies, the actual bathing time is expected to vary. Furthermore, for example, the time required for bathing by the water user can be roughly estimated from the detection time of the wash-use water usage pattern based on FIG. 2 (d) that would be detected following hot water filling.

  Figure 5 shows that although there are some variations in the bathing time zone for 5 days from 1 week before to 3 days before, bathing is indispensable every day, but the day before yesterday (2 days before) I understand. In this case, it is conceivable that the water user is away from home and bathing is not detected, but bathing is not detected even though life activities are estimated from water usage such as use of the toilet or toilet. If there is, it means that the water user is at home but does not dare to bathe or cannot bathe. This suggests that two days ago, the water user was in poor physical condition and could not take a bath.

  Therefore, the water use analysis unit 18 notifies the user of the system 1 of the present invention that there is a possibility that the water user is not able to take a healthy bath. Can call attention.

  As described above, by using the system 1 of the present invention, the water pressure sensor 13 is attached to the primary inlet of the water heater 10 (hot water system) and the transmitter 14 is attached to the water heater 10 with a simple configuration. Based on the time change of the water pressure detected by 13, the daily activities can be estimated in detail for each water usage from the water usage status of the water user. Thereby, since the abnormal change of the estimated daily activity can be detected, it becomes a suitable structure for safety confirmation.

<Another embodiment>
Another embodiment will be described below.

  <1> In the present invention system (water usage analysis system) 1, a hot water supply system used is assumed to be a gas water heater installed in a general household, but the present invention is not limited to this. Absent. The present invention can also be applied to an electric heating type water heater or a hot water supply system using a hot water storage tank.

  However, as an example of a hot water supply system that can be used at home, there is one that stores hot water heated in the middle of the night in a hot water storage tank and uses it when a hot water supply load occurs. Although it is possible to estimate the use of water for purposes other than the hot water supply application from the decrease in the first water pressure P1, the use of water in the hot water supply application cannot be estimated based on the change in the first water pressure P1. However, in this case, water is used for hot water supply from the rise of the second water pressure P2 by separately attaching a second water pressure sensor for detecting the water pressure (second water pressure) P2 of the secondary side outlet 10b of the hot water supply system. Can be estimated. At this time, the water pressure data storage unit 17 is configured to store the time series data of the second water pressure P2 together with the first water pressure P1 in the water pressure database.

  <2> In addition, when using a gas water heater, for example, the transmitter 13 attached to the hot water system, when a hot water load is generated, transmits information related to the control of the water heater such as the hot water temperature setting and the amount of gas used. It can be configured to transmit together. Thereby, it becomes possible to analyze the water use in the hot water supply application in more detail.

  <3> Furthermore, the system 1 of the present invention acquires time series data of utility usage such as gas, electricity, and / or water, and collates the temporal change of utility usage with the temporal change of the first water pressure P1. Thus, it is possible to estimate life activities by use more accurately.

  INDUSTRIAL APPLICABILITY The present invention can be used as a water usage status analysis system that can estimate detailed daily activities based on the water usage status of the water user, thereby confirming the safety of the water user. Is available as

1: Water use state analysis system according to one embodiment of the present invention 10: Gas water heater (hot water system)
10a: Primary side inlet 10b: Secondary side outlet 11 (11a, 11b): Water supply pipe 12: Hot water pipe 13: Water pressure sensor 17: Water pressure data storage unit 14: Transmission unit 15: Water pressure DB (database)
16: Control unit 18: Water usage analysis unit

Claims (8)

A water pressure sensor for detecting a first water pressure at the primary side inlet of the hot water supply system that heats the cold water supplied from the primary side inlet and discharges hot water from the secondary side outlet when a hot water supply load occurs;
A water pressure data storage unit for storing the first water pressure detected by the water pressure sensor in a water pressure database as time series data;
A water use analysis unit,
The water usage analysis unit
Water use characterized by referring to the water pressure database, analyzing a water use situation based on a daily time change of the first water pressure, and estimating a water user's daily activity from the water use situation Situation analysis system. The water usage analysis unit
Analyzing the water usage other than the hot water supply application from the temporal change in the amount of decrease from the reference value of the first water pressure, and classifying the water usage by usage based on the pattern of temporal change in the amount of decrease in the first water pressure. The water use status analysis system according to claim 1, wherein: The water usage analysis unit
The frequency of use of the toilet is estimated for each usage time zone, and the daily fluctuation of the usage frequency is analyzed to estimate whether the water user is at home or absent, the sleep state, or the health state. The water use status analysis system according to 2. The water usage analysis unit
Analyzing the water usage situation of the hot water supply application from the time change of the increase amount from the reference value of the first water pressure, and classifying the water usage situation for each hot water supply application based on the pattern of the temporal change of the increase amount of the first water pressure. The water use condition analysis system according to any one of claims 1 to 3, wherein The water usage analysis unit
5. The water use state analysis system according to claim 4, wherein the bathing time is estimated, and whether or not a healthy bathing is performed is diagnosed by analyzing the presence or absence of bathing and the daily fluctuation of the bathing time. . The water usage analysis unit
The water use situation analysis system according to any one of claims 2 to 5, wherein the wake-up time of the water user is estimated by estimating the wash use time. The hot water system is composed of a gas water heater,
7. The transmitter according to claim 1, wherein a transmitter for transmitting the first water pressure detected by the water pressure sensor toward the water pressure database is attached to the gas water heater. The water usage analysis system described. Using the water usage analysis system of claims 1 to 7,
A safety confirmation system for detecting a water user's safety by detecting a change in a water user's life activity based on the daily change of the estimated daily activity.

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