JP2006226919A - Apparatus for automatically measuring amount of water drunk amount of urine discharged by animals, and system using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simultaneously measure the amount of water drunk and the amount of urine discharged, continuously, and automatically, and to acquire data over passage of time, indicating the amount of water drunk and the amount of urine discharged in a unified manner. <P>SOLUTION: The apparatus comprises a computer (32); a supplied water weight measuring section (2), a spilled water weight measuring section (3), a discharged urine weight measuring section (4) for measuring changes in the supplied water weight, spilled water weight, and discharged urine weight and outputting them as electrical signals, respectively, and a means (5) for converting the electrical signals into digital data and transmitting it to the computer; a cage (31) for confining an animal, a means (35) for supplying the animal with water; a means (37) for collecting water spilled by the animal, and a means (40) for collecting urine discharged by the animal. Detailed data for each predetermined time interval and scheduled data for each constant time interval that is longer than the predetermined time interval about the amount of water drunk, and the amount of urine discharged corrected for the amount of spilled water are outputted through the digital data transmitted to the computer (32). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an apparatus for automatically measuring the amount of water and urination of an animal over time, and a system using the same.

In pharmacological studies in the urological field, etc., the amount of urination and the number of urinations are measured using an animal such as a dog and used as an index for investigating the health status of the animal and the effects of drugs.
It is well known that the amount of urination and the number of urinations are affected by the amount of water consumed.In pharmacological tests, the amount of water consumed in animals is also measured at the same time, and the temporal and quantitative relationship between the amount of urination and the amount of water consumed is determined. It is important to clarify.

Conventionally, the amount of water consumed or urinated by an animal is measured, for example, by visually checking the change in the amount of water in a siphon-type container with a scale or the change in the amount of urine collected in a graduated cylinder at regular intervals. However, there was a problem that much labor was required.
In order to solve such a problem, Patent Document 1 and Patent Document 2 are provided as devices capable of automatically recording the amount of drinking water and the amount of urination at arbitrary set time intervals for a long time, respectively. Patent Document 1 describes an animal water intake automatic measuring device in which a water drinking container is provided with a sensor, and a signal is output to automatically record the animal water intake. On the other hand, Patent Document 2 describes an animal urine volume automatic measuring device in which a sensor is provided in a urine container and a signal is output to automatically record the urine volume of an animal.
Furthermore, using the apparatus described in Patent Document 1 and the apparatus described in Patent Document 2,
Non-Patent Document 1 is an example of continuously and automatically measuring the amount of drinking water and the amount of urination.

Shokai 63-165519 4-30431 Tarumi Chisato, Takahashi Tatsuhiko, Masuda Hiroshi "Development of a continuous measurement device for water intake and urine output in experimental dogs" Exp. Anim. 41 (3), 1992, p.

However, according to the conventional methods including the above documents, the amount of drinking water and the amount of urination are measured by separate devices. Accumulates in a way that cannot be ignored, and in order to consider the relationship between the amount of water consumed and the amount of urination, it is necessary to re-input the data and analyze it. Was.
In addition, it is desirable to obtain detailed data on the amount of water consumed and urinated, so that changes in the amount of water consumed and urinated can be understood, especially when animals drink and urinate. On the other hand, there is a problem that the amount of data becomes enormous and, on the other hand, if the set time interval is lengthened, it is difficult to understand the necessary changes in the amount of drinking water and urination.

Therefore, the present invention has been made in view of the above problems, and continuously and automatically measures the amount of water consumed and the amount of urination, obtains time-dependent data that centrally shows the amount of water consumed and the amount of urine discharged, It is an object of the present invention to provide an animal drinking water / urine volume automatic measuring apparatus capable of automatically outputting detailed data only when urinating and a system using the same.

In order to solve the above-mentioned problems, an animal drinking water / urine volume automatic measuring device according to claim 1 is connected to a computer, and an apparatus for automatically measuring a drinking water amount corrected for zero water amount and a urinating amount. Because
A change in the feed water weight caused by feeding water to the animal, and a feed water weight measuring unit for outputting as an electrical signal;
A zero water weight measuring unit that measures a change in the zero water weight caused by spilling when the animal feeds water and outputs it as an electrical signal;
A change in urine weight caused by the animal urinating, and a urine weight measurement unit that outputs as an electrical signal;
The gist of the present invention is that it comprises means for converting the electrical signals output as described above into digital data and transmitting them to a computer.

Further, an animal drinking water / urine volume automatic measurement system according to claim 2 comprises a computer-connected device of claim 1 and a cage for storing animals.
Close to the cage,
Means for supplying water to the animal so as to be connected to the water supply weight measuring unit and capable of measuring a change in the water supply weight by the water supply weight measuring unit;
Means for collecting the water that the animal saturates so that the change in the zero water weight can be measured by the zero water weight measuring unit;
Means for collecting the urine discharged from the animal so that the change in the urine weight can be measured by the urine weight measuring unit;
With the digital data transmitted to the computer, detailed data for each given time interval, and the amount of water consumed after correcting the amount of zero water and the amount of urination, and for each fixed time interval longer than the given time interval. The gist is that the scheduled data is output.

In addition, the animal water consumption / urination volume automatic measurement system according to claim 3 includes a computer-connected device having the configuration according to claim 1 and a cage for storing the animal.
Close to the cage,
Means for supplying water to the animal so as to be connected to the water supply weight measuring unit and capable of measuring a change in the water supply weight by the water supply weight measuring unit;
Means for collecting the water that the animal saturates so that the change in the zero water weight can be measured by the zero water weight measuring unit;
Means for collecting the urine discharged from the animal so that the change in the urine weight can be measured by the urine weight measuring unit;
Computer
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight To function as a means to output the amount of drinking water and urination calculated based on the measured value, zero water weight measured value and urine weight measured value to a separate file as regular data for each fixed time interval The summary is as follows.

Further, the animal water consumption / urination volume automatic measurement program according to claim 4 is a program for causing the system having the configuration according to claim 2 to function.
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight It is possible to function as a means for outputting the amount of drinking water and the amount of urine calculated based on the measured value, the zero water weight measured value and the urinary weight measured value to the separate file as the regular data for each fixed time interval. The gist.

A distribution server device according to claim 5 is a program for causing a system having the configuration according to claim 2 to function.
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight Means for outputting the amount of drinking water and the amount of urination calculated based on the measurement value, the zero water weight measurement value and the urine weight measurement value to a separate file as the fixed-time data for each fixed time interval;
The gist is to distribute a program for functioning as a distribution means for distributing in response to a distribution request from a distribution destination.

Further, the animal water consumption / urination volume automatic measurement method according to claim 6 is a method for automatically measuring the animal's water consumption and urination volume,
Measuring the change in feed water weight caused by feeding the animal and obtaining a feed water weight measurement at a given time interval;
Measuring the change in urine weight caused by the animal urinating and obtaining a urine weight measurement at a given time interval;
Calculate the difference between the acquired measured value of the feed water weight and the measured value of the feed water weight obtained before the predetermined time, and whether the absolute value exceeds the set threshold value for the amount of change in the feed water weight A step of determining
The difference value between the obtained urine weight measurement value and the urine weight measurement value obtained before a predetermined time is calculated, and whether or not the absolute value exceeds a set threshold value for the change in urine weight. A step of determining
Only when it is determined that any of the above set threshold values is exceeded, the amount of drinking water and the amount of urination are determined for each given time interval at which the water supply weight measurement value and the urine weight measurement value are obtained. As detailed data, output step,
It is determined whether or not it matches the timing of data output at a certain time interval longer than the given time interval at which the measured values of water supply weight and urine weight are obtained. Only when it is done, it includes the step of outputting the amount of drinking water and the amount of urination as the fixed-time data for each fixed time interval.

  According to the present invention, the amount of drinking water and the amount of urination can be automatically measured continuously at substantially the same time although there is a time lag on the computer, and the time-lapse data showing the amount of drinking water and the amount of urination can be obtained centrally. It is possible to easily consider the relationship between the amount of drinking water and the amount of urination using the obtained data.

  In addition, according to the present invention, detailed data for a given time interval is automatically output only when there is a large change in the amount of drinking water and urination volume. A detailed analysis can be performed on the change in the amount, and the total amount of data to be output can be minimized.

In view of the fact that the amount of water consumed and the amount of urine are deeply related to each other, the present invention enables simultaneous measurement of the amount of water consumed and the amount of urine over time on the same time axis, and enables output in the same format. It is.
In the present invention, "zero water" refers to the water that is spilled when the animal consumes the "water supply" given, and "drinking water" is the "water supply" excluding "zero water" It refers to the water that an animal ingests into the body.

The object of the present invention is to finally obtain the amount of water and urination of an animal, and the “water consumption” and “urination” are obtained as weight, and can be obtained by volume or the like. However, in the present invention, in order to obtain them, a means of measuring changes in the water supply weight, the zero water weight, and the urination weight is particularly used.
For this purpose, the animal drinking water / urine volume automatic measuring device and system according to the present invention are configured to include a load sensor that measures changes in the water supply weight, zero water weight, and urine weight and outputs them as electrical signals.
As the load sensor, for example, a strain gauge type load cell (load converter) can be typically used. This load cell has a structure in which a strain gauge is bonded to a strain body that deforms under a load, a tensile or compressive load is measured as a voltage change, and an electric signal corresponding to the load load is output to detect the weight. It is well known as a thing.

Furthermore, the animal drinking water / urine volume automatic measuring apparatus and system according to the present invention are configured to include means for enabling the computer to process the electrical signal output by the load sensor.
As such means, for example, a converter (converter), a control device, or the like that converts a minute electric signal output from a strain gauge so as to be digitally processable and transmits digital data to a computer can be used.

A personal computer (simply referred to as “computer” in the present invention) is used in the animal water consumption / urination volume automatic measurement system according to the present invention, and the “computer” is a control of an OS (Operating system) or the like. Programs, storage means such as internal memory for temporary storage of various data, input means such as a mouse / keyboard for inputting instructions and data to the computer, monitors and printers for retrieving computer processed data, etc. In addition to the output means and various means for causing the program according to the present invention to function, those provided with various hardware and software means necessary for operating the system according to the present invention are used.

In addition to recording the program or file according to the present invention on a recording medium such as a CD-ROM and installing it on another computer, the distribution server device is used to send it to another computer via a network. It may be downloaded and used, or only functions may be used.
Further, the animal drinking water / urine volume automatic measurement system according to the present invention is used by connecting one computer to one set or plural sets of devices and cages, and by using one or plural sets. A plurality of computers may be connected to the apparatus and cage to configure a network and used.

A first embodiment of the present invention will be described with reference to FIGS. This embodiment shows an animal drinking water / urine volume automatic measuring apparatus and a system using the same according to the present invention.

As shown in FIG. 1, an animal drinking water / urine volume automatic measuring device (1) according to the present embodiment includes a water-feeding weight measuring unit that separately measures changes in water-feeding weight, zero-water weight, and urine weight. (2) A zero water weight measuring unit (3), a urine weight measuring unit (4), and a control panel (5).
The water supply weight measuring unit (2) includes a water supply tank (9) that can be manually replenished from the outside, and a load cell (10) that suspends the water supply tank (9) and measures a change in its weight as a change in the water supply weight. And is fixed to a required position of the frame (6) that is movable on the floor surface by the tire (7) so that the height can be adjusted.

  On the other hand, the zero water weight measuring unit (3) and the urine weight measuring unit (4) are provided with a water collection cup (50) for collecting water to be squeezed when the animal takes water, and urine discharged by the animal. A urine collection cup (51) (see FIG. 3) for collecting is placed, and load cells (11) and (12) for measuring changes in weight as changes in zero water weight and urine weight are provided respectively. (15) It is fixed to a required position of the frame (6) via the (16) so that the height can be adjusted and the position in the horizontal plane can be adjusted.

The control panel (5) is connected to the load cells (10), (11), and (12) of the feed water weight measurement unit (2), the zero water weight measurement unit (3), and the urine weight measurement unit (4), respectively, and is connected to the load cell. (10) It has a function of converting the electrical signal received from (11) and (12) into digital data and outputting it, and is fixed integrally with the frame (6).
For example, as shown in FIG. 2, the control panel has a feed water weight display unit (20), a zero water weight display unit (21), and a urination weight for displaying measured values by the load cells (10), (11), and (12). The display unit (22) has a load cell wiring port (23), a power cord connection port (24), an in-house LAN connection port (25) on the back side, and a power switch (26), a service outlet (27), a LAN on the left side surface. A connection port (28) and the like are provided.

Next, an animal drinking / urine volume automatic measurement system (30) configured using the above device (1) will be described with reference to FIG.
As shown in FIG. 3, the animal drinking / urine volume automatic measurement system (30) according to the present embodiment includes the above-described device (1) and a cage set at a required position in the vicinity of the device (1) ( 31) and a computer (32) connected to the device (1) via a line (55).

The cage (31) is for storing the animal (57) to be tested. As shown in FIG. 3, the cage (31) has a support frame (45) that is movable on the floor surface by a tire (46). It is prepared for.
As shown in FIG. 3, the side wall surface and the bottom surface of the cage (31) can handle the water supply section (32) that allows the stored animal (57) to drink water, and the urination of the stored animal can be processed. A urination section (33) is provided outside.

An opening (not shown) that is large enough to allow the stored animal (57) to face the outside of the cage (31) is provided on the side of the cage (31) where the water supply part (32) is provided. A drinking mouth (35) is arranged in the water supply part (32) so that the stored animal (57) can ingest water supplied from the water supply weight measuring part (2).
As shown in FIG. 3, the drinking mouth (35) is connected via a water supply tank (9) and a water supply hose (36) of the water supply weight measuring unit (2), and below the water supply tank (9). When the animal wants to drink water and press the drinking mouth (35) with a tongue or the like, the water that flows down naturally in the water supply hose (36) is released, and when the pressure is released, the water discharge stops. Has a structure.
A water sampling port (37) is provided below the drinking water port (35) below the water supply unit (32). The inclined surface facing the water sampling port (37) collects water that the animal saturates when drinking water and places it below. Zero water is allowed to flow down to the water sampling cup (50) placed without leakage.

On the other hand, a urine collection port (40) is provided in the lower part of the urination part (33), and a bottom plate / feces separation network (41) on which the animal (57) to be stored is placed is provided above the urination part (33). The urine separated from the feces through the bottom plate / feces separation network (41) is collected by an inclined surface facing the urine collection port (40), and the urine is leaked into the urine collection cup (51) placed below. It is made to flow down.

The computer (32) is connected to the control panel (5) via the line (55), but is sent from the water supply weight measuring unit (2), the zero water weight measuring unit (3), and the urine weight measuring unit (4). The electrical signal converted into digital data by the control panel (5) is used as a water supply weight measurement value, a zero water weight measurement value, and a urine weight measurement value, respectively. (Interval).
In this embodiment, the measured value of the water supply weight, the measured value of the zero water weight, and the measured value of the urine weight are values including the weights of the water supply tank (9), the water collection cup (50), and the urine collection cup (51), respectively. Measured and acquired as above, but the actual water supply weight, zero water weight, and urine weight excluding the weight of the water supply tank (9), water collection cup (50), and urine collection cup (51) itself are directly measured. It is good also as a setting acquired as a value.

When using the system (30) according to this embodiment, the water supply weight measuring unit (2), the zero water weight measuring unit (3), and the urine weight measuring unit (4) of the device (1) are adjusted to the optimum positions. However, the cage (31) and the computer (32) are arranged, and the water collection cup (50) and the urine collection cup (51) are placed at appropriate positions in relation to the water collection port (37) and the urine collection port (40), respectively. Set on the load cells (11) and (12).
In addition, a required amount of water is supplied to the water supply tank (9) of the water supply weight measuring unit (2) in advance. Although the capacity | capacitance of a water supply tank (9) can be set arbitrarily, when measuring over a long period of time, it is good also as supplying water to a water supply tank (9) suitably manually.
The measurement can be started by turning on the power of the control panel (5) and starting a predetermined program in the computer (32). This program and specific measurement procedures will be described later (Example 2 and Example 3).

By using the apparatus (1) and the system (30) according to the present embodiment, it becomes possible to continuously and simultaneously measure the amount of drinking water and the amount of urination of the animal.
Conventionally, when measuring the amount of water consumed by an animal, a method of measuring the amount of decrease in water given as the amount of water consumed has been used. There were many cases that could not be ignored. The apparatus according to the present embodiment can measure the amount of water that the animal has spilled at the same time as the amount of water that has been fed down, so that the amount of water that has been squeezed (zero water amount) is corrected over time. It becomes possible to measure.

If the funnel is placed on the water collection cup (50) and the urine collection cup (51), evaporation of the collected zero water and urine can be suppressed, and more accurate measurement can be performed. Become.

A second embodiment of the present invention will be described with reference to FIG. The present embodiment shows a processing procedure of a program for causing the animal's drinking water / urine volume automatic measurement system (30) configured according to the first embodiment to function.

As shown in FIG. 4, first, a feed water weight measurement value (X) is acquired in S1. This feed water weight measurement value (X) is obtained by converting the electrical signal from the load cell (10) of the feed water weight measuring unit (2), which measures the weight of the feed water tank, into digital data by the control panel (5), and executing the computer (32 ).
Then, whether or not it is within 10 seconds from the start is determined by S2, but this is set so that the acquired data is not output for 10 seconds immediately after the start of measurement in order to easily understand the change of the output data. (S5 and S8 are also the same), an arbitrary time may be set, and such a setting is not necessarily performed.
In the following description, it is assumed that 10 seconds have passed immediately after the start of measurement.

For the feed water weight measurement value (X) acquired in S1, it is determined in S3 whether or not the following formula (Formula 1) is satisfied. That is, the difference value between the feed water weight measurement value (X) and the feed water weight measurement value (α) acquired 2, 4, 6, 8, 10 seconds before is calculated as an absolute value, and either of them is calculated. If the preset threshold value (a) for the water supply weight is exceeded, the detailed output flag for detailed data output is set in S3 ′, assuming that (Equation 1) is satisfied. If any of the calculated absolute values is less than or equal to the set threshold value (a), the detailed output flag is not set up assuming that (Equation 1) is not satisfied.
(Equation 1)
| Α-X |> a
(However, α: 2, 4, 6, 8, 10 seconds before water supply weight measurement, a: set threshold)

  Next, a zero water weight measurement value (Y) is obtained through S4. This zero water weight measurement value (Y) is converted into digital data by the control panel (5) from the electrical signal from the load cell (11) of the zero water weight measurement unit (3) that measures the weight of the water sampling cup (50). Processed and sent to the computer (32).

For the zero water weight measurement value (Y) acquired in S4, it is determined in S6 whether or not the following equation (Equation 2) is satisfied. That is, a difference value between the zero water weight measurement value (Y) and the zero water weight measurement value (β) acquired 2, 4, 6, 8, 10 seconds ago is calculated as an absolute value, However, if it exceeds the threshold value (b) set in advance for the zero water weight, it is assumed that (Equation 2) is satisfied, and a detailed output flag for detailed data output is set in S6 ′. If any of the calculated absolute values is less than or equal to the set threshold value (b), the detailed output flag is not set up assuming that (Equation 2) is not satisfied.
(Equation 2)
| Β-Y |> b
(However, β: measured value of zero water weight before 2, 4, 6, 8, 10 seconds, b: set threshold value)

    Next, the urination weight measurement value (Z) is obtained through S7. This urine weight measurement value (Z) is obtained by converting the electrical signal from the load cell (12) of the urine weight measurement unit (4) that measures the weight of the urine collection cup (51) into digital data by the control panel (5), It is transmitting to the computer (32).

With respect to the zero water weight measurement value (Z) acquired in S7, it is determined in S9 whether or not the following equation (Equation 3) is satisfied. That is, the difference value between the urine weight measurement value (Z) and the urine weight measurement value (γ) acquired 2, 4, 6, 8, 10 seconds before is calculated as an absolute value, When the threshold value (c) set in advance for the urination weight is exceeded, the detailed output flag for the detailed data output is set in S9 ′, assuming that (Equation 3) is satisfied. If any of the calculated absolute values is less than or equal to the set threshold value (c), the detailed output flag is not set up assuming that (Equation 3) is not satisfied.
(Equation 3)
| Γ-Z |> c
(However, γ: 2, 4, 6, 8, 10 seconds before urine weight measurement, c: set threshold)

  Then, in S10, it is determined whether or not any detailed output flag is set by the above process. When it is determined that at least one detailed output flag is set, the obtained feed water weight measurement value (X), zero water weight measurement value (Y), and urine weight measurement value (Z) are obtained through S10 ′. The amount of drinking water and the amount of urination calculated based on these are output as detailed data to one file. If it is determined that no detailed output flag is set, detailed data is not output.

Further, in S11, it is determined whether or not the timing coincides with the data output timing at predetermined time intervals (1 minute interval in this embodiment). If it is determined that they match, in S11 ′, the water consumption weight value (X), the zero water weight value (Y), the urine weight value (Z), and the amount of water calculated based on them are calculated. The amount of urination is output to a separate file from the detailed data as scheduled data. If it is determined that they do not match, the scheduled data is not output.
The fixed time interval for outputting the regular data can be arbitrarily set.

The above process is a computer process within a very short time, and the same process is repeated every 2 seconds in this embodiment until a stop operation is performed. Although “every 2 seconds” is taken into consideration that it is necessary and sufficient for analyzing the detailed changes in the amount of drinking water and urination, this time interval can be set arbitrarily.
In the present embodiment, the processing is performed in the order of the feed water weight measurement value (X), the zero water weight measurement value (Y), and the urine weight measurement value (Z). Nor.

In pathological animals such as benign prostatic hyperplasia, urination may be performed in several times within a short period of time, and the urination rate is important data even for normal continuous urination There is. For this reason, it is necessary to acquire detailed data at intervals of several seconds in order to better understand the state of urination in relation to drinking water. When time is measured, the amount of data becomes enormous.
However, according to the program according to the present embodiment, the water supply weight measurement value (X), the zero water weight measurement value (Y), and the urine weight measurement value (Z) are fixed at regular time intervals (1 minute intervals). While outputting the data, the amount of change compared with the value acquired before the predetermined time (2, 4, 6, 8, 10 seconds) indicates the set threshold values (a), (b), (c). Detailed data for each given time interval (2-second interval) is output only when the rate exceeds the limit, so that the predetermined changes in the water supply weight, zero water weight, and urination weight are treated as drinking and urination actions. The state can be analyzed in detail.
In particular, as in the present embodiment, the amount of change is calculated by comparing with a plurality of values within the past fixed time of “2, 4, 6, 8, 10 seconds ago”, and compared with the set threshold value. If this is done, especially when the set threshold value is set to a small range, it becomes possible to reliably prevent detection omissions caused by minute numerical fluctuations during digital conversion due to deviations in measurement time and the like.

A third embodiment of the present invention will be described with reference to FIGS. The present embodiment shows a more specific procedure when performing measurement using the animal water consumption / urination volume automatic measurement system (30) constituted by the embodiment 1 and the embodiment 2. FIG. 12 shows a state in which the animal drinking / urine volume automatic measuring device according to the present embodiment is set in a cage.
Note that the collected data in this example is for a beagle dog (male, weight 17 kg, 9 years old, prostatic hypertrophy) in a test room maintained at a temperature of 23 ° C. and a humidity of 55% (from the evening to the next morning (about 15 It was obtained by measuring over half an hour).

FIG. 5 shows an example of the main screen when the program according to the present invention is started. The program consists of three files: an execution file, a setting file, and a display file. By selecting and executing the execution file, software for displaying output data along with the main screen (for example, spreadsheet software) Are standing up at the same time.

As shown in FIG. 5, the main screen (70) is configured such that a threshold value (71), a storage destination (72), and a measurement interval (73) can be set. “Threshold” refers to the occurrence of a constant change in the water supply weight, zero water weight, and urination weight, which is attributed to the act of drinking and urinating animals, and starts outputting detailed data. The threshold value (71) can be set to an arbitrary value for each of the water supply weight, zero water weight, and urine weight. In this example, since all are set to 2 (unit g), when any of the water supply weight, zero water weight, and urine weight changes more than 2 grams within a predetermined time, Detailed data output is started.
The save destination (72) is for selecting and setting a file for saving the output scheduled data. In this embodiment, the save destination (72) is saved in a CSV format that can be edited by software for displaying data. As for the detailed data, another file with a specific name depending on this setting is automatically created and stored.
The measurement interval (73) is for setting a time interval for outputting the scheduled data, and is set to a 1 minute interval in this embodiment.

After setting the threshold value (71), the storage location (72), and the measurement interval (73) as described above, when the start button (74) is clicked, the computer (32) is communicably connected to the device (1). Data measurement / acquisition is started. In the communication log (76), the connection status and acquired data are sequentially displayed.
The acquired data is output as regular data and detailed data as shown in FIGS. 6 and 9 according to the procedure shown in the second embodiment, and is stored in a predetermined file.

As shown in FIG. 6, as shown in FIG. 6, “(initial water supply weight) is included with measured values of“ water supply weight ”,“ zero water weight ”,“ urine weight ”at every set measurement interval (one minute interval). "Water supply weight)-(zero water weight-initial zero water weight)" and "drinking amount" calculated by "urine drainage weight-initial urine weight" are output.
In this embodiment, “initial feed water weight”, “initial zero water weight”, and “initial urine weight” are the feed water weight measurement unit (2), the zero water weight measurement unit (3) immediately after the start of measurement, These are respectively measured by the load cells (10), (11), and (12) of the urine weight measuring unit (4).

  In this embodiment, the fixed-time data (FIG. 6) as numerical values, a graph (FIG. 7) about the water supply weight, zero water weight, and urine weight automatically created based on this data, as well as the amount of water consumed and the amount of urine discharged The graph (FIG. 8) for the is displayed in real time during measurement in a separate window from the main screen.

As detailed data, the amount of change in the measured values (current values) of the feed water weight, zero water weight, and urine weight (current value) with respect to those measured values every 2 seconds in the past 10 seconds is determined according to the procedure shown in Example 2. When the set threshold value is exceeded, output is started. Further, in the present embodiment, it is set so that the detailed data is continuously output for a certain time (for example, 2 minutes) after the start of the detailed data output, regardless of the change state thereafter.
Further, in order to make the change easy to understand, the detailed data is set so that output is started retroactively to a certain time before the change exceeding the set threshold value (for example, 10 seconds before).

During the output of the detailed data, as shown in FIG. 5, the remaining output time (maximum 2 minutes) is displayed as a bar graph in the detailed output (77) on the main screen (70).
If a change exceeding the set threshold value occurs again during the detailed data output, the remaining time for the detailed data output is extended.

As detailed data, as shown in FIG. 9, the computer (32) is the same as the regular data together with the water supply weight, zero water weight, and urine weight at every interval (2 second intervals) at which the computer (32) acquires data from the device (1). Calculated by “amount of drinking water”, “amount of urination”, and “(water supply weight before setting threshold−water supply weight) − (weight of zero water−zero water weight before setting threshold)” The “current urine output” calculated based on “current drinking water” and “urine weight minus urine weight before setting threshold” is output.
In the present embodiment, “feed water weight before setting threshold value”, “zero water weight before setting threshold value”, and “urine weight before setting threshold value” are immediately before a change exceeding the setting threshold value occurs. The measured values were respectively measured by the load cells (10), (11), and (12) of the feed water weight measuring unit (2), the zero water weight measuring unit (3), and the urine weight measuring unit (4).

In this embodiment, as with the regular data, detailed data (FIG. 9) as numerical values, a graph (FIG. 10) about the water supply weight, zero water weight, and urine weight automatically created based on this data, as well as this time A graph (FIG. 11) about the amount of drinking water and the amount of urination this time is displayed in real time during measurement in a separate window from the main screen.

  If the measurement is to be terminated / stopped, clicking the stop button (75) terminates the program and stops communication between the computer (32) and the device (1).

Thus, the animal drinking water / urine volume automatic measuring device (1) and the system (30) according to the present invention can be used by a very simple operation.
In addition, if there is a large change exceeding the set threshold in the measured values of the water supply weight, zero water weight, and urination weight, the detailed data is traced back 10 seconds before the change, and at least continuously for 2 minutes. It is possible to easily grasp the state at the time of change.
Furthermore, if the graph is automatically created in conjunction with this as in this embodiment, it is possible to visually grasp the change, which has a great effect on data analysis.

  The present invention continuously and automatically measures the amount of water consumed and the amount of urination, obtains temporal data that centrally shows the amount of water consumed and the amount of urination, and automatically collects detailed data only when the animal drinks and urinates. The present invention provides an apparatus for automatically measuring the amount of drinking water and urination for animals and a system using the same, which can be output to an electric field, and has industrial applicability.

It is an elevational view showing an animal drinking water / urine volume automatic measuring device. It is a figure which shows the control panel of the drinking water amount / urine volume automatic measurement apparatus for animals. It is a figure which shows the whole structure of the drinking water amount / urine volume automatic measurement system for animals. It is a flowchart which shows the process sequence of the drinking amount / urination amount automatic measurement program for animals. It is a figure which shows the example of the main screen on the computer in the drinking water amount / urine volume automatic measurement system for animals. It is a figure which shows the example output by the numerical value of regular data. It is a figure which shows the example output by the graph of fixed time data (measurement value). It is a figure which shows the example output by the graph of regular data (calculated value). It is a figure which shows the example output by the numerical value of detailed data It is a figure which shows the example output by the graph of detailed data (measurement value). It is a figure which shows the example output by the graph of detailed data (calculated value). It is an external view which shows the state which set the drinking water amount / urine volume automatic measuring apparatus for animals to the cage.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Animal drinking water / urine volume automatic measuring device 2 Water supply weight measurement part 3 Zero water weight measurement part 4 Urine weight measurement part 5 Control part 6 Frame 7 Tire 9 Water supply tank 10, 11, 12 Load cell 15, 16 Arm 20 Water supply weight Display unit 21 Zero water weight display unit 22 Urine weight display unit 23 Load cell wiring port 24 Power cord connection port 25 In-house LAN connection port 26 Power switch 27 Service outlet 28 LAN connection port 30 Automatic drinking water / urine volume measurement system for animals 31 Cage 32 Water supply portion 33 Urination portion 35 Drinking port 36 Water supply hose 37 Water collection port 40 Urine collection port 41 Bottom plate / feces separation network 45 Support frame 46 Tire 50 Water collection cup 51 Urine collection cup 55 Line 57 Animal 70 Main screen

Claims (6)

A device connected to a computer to automatically measure the amount of drinking water and the amount of urination, with zero water corrected.
A change in the feed water weight caused by feeding water to the animal, and a feed water weight measuring unit for outputting as an electrical signal;
A zero water weight measuring unit that measures a change in the zero water weight caused by spilling when the animal feeds water and outputs it as an electrical signal;
A change in urine weight caused by the animal urinating, and a urine weight measurement unit that outputs as an electrical signal;
Means for converting each of the electrical signals output by the above into digital data and transmitting it to a computer;
Animal drinking and urination volume automatic measuring device equipped with. The apparatus of claim 1 connected to a computer;
And a cage for storing animals,
Close to the cage,
Means for supplying water to the animal so as to be connected to the water supply weight measuring unit and capable of measuring a change in the water supply weight by the water supply weight measuring unit;
Means for collecting the water that the animal saturates so that the change in the zero water weight can be measured by the zero water weight measuring unit;
Means for collecting the urine discharged from the animal so that the change in the urine weight can be measured by the urine weight measuring unit;
With the digital data transmitted to the computer, detailed data for each given time interval, and the amount of water consumed after correcting the amount of zero water and the amount of urination, and for each fixed time interval longer than the given time interval. An automatic measuring system for animal water consumption and urine output that outputs scheduled data. The apparatus of claim 1 connected to a computer;
And a cage for storing animals,
Close to the cage,
Means for supplying water to the animal so as to be connected to the water supply weight measuring unit and capable of measuring a change in the water supply weight by the water supply weight measuring unit;
Means for collecting the water that the animal saturates so that the change in the zero water weight can be measured by the zero water weight measuring unit;
Means for collecting the urine discharged from the animal so that the change in the urine weight can be measured by the urine weight measuring unit;
Computer
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight To function as a means to output the amount of drinking water and urination calculated based on the measured value, zero water weight measured value and urine weight measured value to a separate file as regular data for each fixed time interval Automatic measuring system for drinking water and urination for animals. A program for causing the system according to claim 2 to function,
Computer
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight For functioning as a means for outputting the amount of drinking water and the amount of urine calculated based on the measured value, the zero water weight measured value and the urinary weight measured value to the separate file as the fixed-time data for each fixed time interval. Animal water consumption and urine volume automatic measurement program. A program for causing the system according to claim 2 to function,
Computer
Means for obtaining data of a feed water weight measurement value, a zero water weight measurement value, and a urine weight measurement value at respective given time intervals;
When the difference value between the obtained feed water weight measurement value and the feed water weight measurement value obtained before a predetermined time is calculated and the absolute value exceeds a set threshold value for the change amount of the feed water weight, Means for setting a flag for detailed data output;
The difference value between the obtained zero water weight measurement value and the zero water weight measurement value obtained before a predetermined time is calculated, and the absolute value thereof exceeds the set threshold value for the amount of change in the zero water weight. Means for setting a flag for detailed data output, and
When the difference value between the acquired urine weight measurement value and the urine weight measurement value acquired before a predetermined time is calculated, and the absolute value exceeds a set threshold for the amount of change in urine weight, Means for setting a flag for detailed data output;
Only if it is determined whether any of the above flags is set, and it is determined that the flag is set, the calculation is based on the measured value of the feed water weight, the zero water weight, and the urine weight. Means for outputting the amount of drinking water and the amount of urination to one file as detailed data for each given time interval for which data is acquired;
It is determined whether or not it matches the timing of data output at a fixed time interval longer than the given time interval for acquiring data, and only when it is determined that they match, the water supply weight Means for outputting the amount of drinking water and the amount of urination calculated based on the measurement value, the zero water weight measurement value and the urine weight measurement value to a separate file as the fixed-time data for each fixed time interval;
A program for functioning as a delivery means for delivering in response to a delivery request from a delivery destination,
Distribution server device for distribution. A method for automatically measuring the amount of water and urination of an animal,
Measuring the change in feed water weight caused by feeding the animal and obtaining a feed water weight measurement at a given time interval;
Measuring the change in urine weight caused by the animal urinating and obtaining a urine weight measurement at a given time interval;
Calculate the difference between the acquired measured value of the feed water weight and the measured value of the feed water weight obtained before the predetermined time, and whether the absolute value exceeds the set threshold value for the amount of change in the feed water weight A step of determining
The difference value between the obtained urine weight measurement value and the urine weight measurement value obtained before a predetermined time is calculated, and whether or not the absolute value exceeds a set threshold value for the change in urine weight. A step of determining
Only when it is determined that any of the above set threshold values is exceeded, the amount of drinking water and the amount of urination are determined for each given time interval at which the water supply weight measurement value and the urine weight measurement value are obtained. As detailed data, output step,
It is determined whether or not it matches the timing of data output at a certain time interval longer than the given time interval at which the measured values of water supply weight and urine weight are obtained. Only when it is possible to output the amount of drinking water and the amount of urination as regular data for each of the fixed time intervals;
For automatically measuring the amount of drinking water and urination for animals including

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