JP2000018985A - Information communication apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an information communication apparatus by which a gas consumption amount for each gas appliance can be found, simply by making use of a function provided at the gas appliance. SOLUTION: A first appliance information acquisition means 12, by which control information used to control the operation of an appliance in the use of a gas, is acquired at each prescribed timing and in which time information on an acquisition timing is acquired is provided. A first consumption-amount computing means 13, which computes a gas consumption amount on the basis of the control information which is acquired by the first appliance information acquisition means 12 and which corresponds to an acquisition timing and on the basis of the timing information, is provided. An output means 16, which outputs the gas consumption amount computed by the first consumption-amount computing means 13, is provided.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a gas appliance working as a source of gas (for example, city gas) such as a household absorption gas air conditioner, a water heater, a rice cooker, a gas engine heat pump, or the like. The present invention relates to an information communication device used in parallel with a gas appliance.

[0002]

2. Description of the Related Art For the sake of simplicity, the following description will be made taking a domestic absorption gas air conditioner as an example of gas appliances. Household absorption-type gas air conditioners have recently been in widespread use, and in such gas air conditioners, gas rates are applied only to gas air conditioners for the purpose of promoting their use. It is also possible to set. Now,
In general households, in addition to this gas air conditioner, water heater,
A gas appliance such as a rice cooker is provided. Therefore, when charging a gas fee, the total amount of gas used in each household, the gas air conditioner, and the amount of individual gas used may be separately obtained and charged separately.

In such a situation, conventionally, when it is intended to measure the gas consumption of each gas appliance such as a gas air conditioner, a dedicated measurement meter is installed in the gas air conditioner and a meter reader Managed the gas consumption by going to the measurement.

[0004]

However, in this method, it is necessary to install a dedicated measurement meter for each gas appliance, so that the construction cost is increased and this measurement meter is installed separately from the gas appliance. This is inconvenient because extra work and equipment personnel are required, and moreover, a space is required. Therefore, an object of the present invention is to provide an information communication device that can easily determine the amount of gas used for each gas appliance by using a function of the gas appliance.

[0005]

According to a first aspect of the present invention, there is provided an information communication apparatus for achieving the above object. A first device information collection unit that collects at least predetermined time information of the collection timing while collecting at each predetermined collection timing, wherein the control information associated with the collection timing collected by the first device information collection unit; There is provided a first usage calculating means for calculating the gas usage from the time information, and an output means for outputting the gas usage calculated by the first usage calculating means. In a gas device or the like, control information for controlling the operation of the device accompanying the use of the gas flows.
Such control information is, for example, valve opening control information for adjusting the gas amount, an input target value, and the like,
This relates to the amount of gas used by the gas appliance when it operates. Furthermore, in today's gas appliances, while updating control information in a relatively short cycle,
Since the device operates, such control information is substantially
While capturing at a predetermined cycle, which is an example of a predetermined collection timing, the time during which the device has been operated can be obtained based on this control information, and an estimation calculation of the gas usage can be performed from these data. That is, in this device,
The first device information collecting means collects the control information at a predetermined timing (for example, a constant cycle) and also collects time information of the collection timing. Then, the first usage calculating means obtains the gas usage per unit time based on the control information, and converts the device operation time (elapsed time) during which the device operates based on the control information into the time information of the collection timing. For example, it can be obtained as a difference in collection timing. From the gas usage per unit obtained in this manner and the device operating time during which the device operates under the specific control information, the gas usage within this device operating time (this is a substantially estimated gas usage) However, it is possible to make the actual amount of gas used be an amount that can be well represented).
The gas usage thus obtained is output by the output means. Therefore, in the information communication device of the present application,
Utilizing the control information of the gas equipment, which is information related to the gas usage (for example, the input target value described above or the opening control information for the flow control valve provided in the gas supply path, etc.), Can be obtained. This configuration substantially utilizes the information flowing in the control device provided in the gas appliance and the time information.
By storing the means (software) for deriving and outputting gas usage, the function can be provided. Therefore,
The information communication device of the present application is configured by the hardware device provided in the microcomputer and the software. Therefore, it is possible to easily solve the above-described problem and obtain a gas usage amount for each gas appliance.

[0006] In the above structure, as described in claim 2, the storage means for storing the gas usage calculated by the first usage calculation means in association with the collection timing. And a cumulative calculation means for performing a cumulative calculation of the total gas usage over a predetermined time span from the gas usage stored in the storage means, wherein the total gas usage is also output by the output means. preferable.
In practice, the accumulation (cumulative) of gas usage today is required to be relatively long, such as daily or monthly. On the other hand, on the apparatus side of the present application, the gas usage between the timing and the previous or subsequent timing is obtained by the first usage calculator substantially at each collection timing. Here, in general, the control information is generated in units of several seconds to several minutes, for example, and controls the control operation. Therefore, if it is desired to know the total gas usage over a predetermined time span, for example, on a monthly basis, some processing is required. For this purpose, the apparatus is provided with a storage means and, based on the amount of gas used at each collection timing, stored in the storage means, is used for a predetermined time span (span from a predetermined day to a predetermined day or a predetermined time span). Month)
By providing a cumulative calculation means for performing a cumulative calculation over the inside, the cumulative gas usage within a predetermined time span can be obtained. In this case as well, this value can be used by outputting the total gas consumption by the output means.

[0007] In the information communication apparatus described so far, basically, the gas consumption is determined based on the control information and the collection timing (time information) of the control information. The configuration of the information communication apparatus according to claim 1, wherein the device operation time (elapsed time from a predetermined time to a predetermined time) in which the gas device operates according to the control information is individually known in advance. Can be configured as described in claim 3. That is, as described in claim 3, a second device information collecting means for collecting control information for controlling device operation involving gas use at least together with a collection time, and a device of a device operating according to the control information A second calculating unit configured to calculate a gas usage amount of the device based on an operation time (elapsed time from a predetermined time to a predetermined time) and the control information collected by the second device information collecting unit;
The fuel cell system further includes a usage calculating means, and an output means for outputting the gas usage determined by the second usage calculating means. In the case of this configuration, the second device information collecting unit collects the control information, and determines the device operation time (elapsed time from the predetermined time to the predetermined time) of the device operated under the control information. From the relationship, the gas usage can be obtained by the second usage calculator. Here, the device operation time is a time interval that is known in advance, and may be a constant. By outputting the gas usage amount obtained in this way by the output means, it is possible to use it effectively. Also in this case, it is preferable to determine the total gas usage over a predetermined time span, as described in claim 2.

Now, in the example described so far,
As described in claim 4, based on the collected control information or gas usage amount, while comprising a diagnostic unit for performing a diagnosis of gas equipment, the output unit,
It is preferable that the diagnostic result of the diagnostic means is also output. In this case, the diagnosis unit diagnoses the gas device based on the control information or the gas usage.For example, when the gas usage is excessive, the gas diagnosis is performed while comparing the diagnosis result by the diagnosis unit. The operation status of the device can be properly grasped.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIG. Here, FIG. 1 corresponds to a case of an absorption type gas air conditioner 1 as an example of a gas appliance provided with the information communication device of the present invention. The configuration of the absorption-side gas air conditioner 1 on the hardware side is the same as that of the known type, and its basic cycle is composed of a high-temperature regenerator 2, a low-temperature regenerator 3, a condenser 4,
The evaporator 5 and the absorber 6 are combined as a cycle in a predetermined relationship. Here, in the gas absorption type, the high-temperature regenerator 2 is provided with a gas burner 7, and the burner 7 keeps the solution in the high-temperature regenerator 2 at a predetermined high temperature state. Operates. For these hardware-side devices, a control device 8 is provided in order to operate the cycle in a good state, and the gas devices operate according to control information from within the control device 8. This control information includes an input target value for the burner 7.

[0010] In the high-temperature regenerator 2, the temperature of the solution in the high-temperature regenerator 2 is appropriately controlled by controlling the amount of gas combustion in the burner 7 provided in the regenerator 2. In this control, the amount of gas supplied to the burner 7 is controlled according to the adjustment of the opening of the flow control valve 9, and the amount of combustion air supplied from the blower 10 is also controlled. In general, the amount of the combustion air supplied is the burner 7
Is controlled in accordance with the amount of gas supplied to the gas. The control of the amount of gas is performed by controlling the amount of gas supply called an input target value which is set based on the difference between the solution temperature in the high-temperature regenerator 2 and the target temperature of the solution. By setting the target value, the combustion control of the burner 7 can be made suitable for the operation of the equipment. Therefore, the control information is information relating to the amount of gas supplied to the burner 7, in other words, to the amount of gas used by the burner 7, and hence the absorption-type gas air conditioner 1. That is, the input target value is a type of control information for controlling the operation of the device involving the use of gas, and such control information is
In the control device 8, the gas device is generated at a fixed cycle and transmitted to the hardware side, and the gas appliance operates according to this information. A procedure for generating such control information will be described with reference to FIG. Here, the target value of the solution temperature is 120 ° C. The relationship between the water temperature of the solution and the required number of calories (FIG. 2A), and the relationship between the required number of calories and the opening of the flow control valve 9 (FIG. 2).
(B)) and the relationship between the valve opening and the gas flow rate (substantial gas usage) (FIG. 2 (c)). Here, the required number of calories corresponds to the input target value described above. Therefore, the input target value, the gas flow rate, or the valve opening is determined from the solution temperature so as to satisfy the relationships shown in FIGS.

The input target value, which is one type of control information as described above, is sent from the control device 8 to the device. In the gas device 1 of the present invention, such control information is It is used for integrating the amount of gas used in the gas appliance 1. This configuration will be described below. FIG.
As shown in (1), the main part of the control device 8 is provided in the microcomputer 80. Then, a means (software) for integrating gas usage is stored in a state of being incorporated in the microcomputer 80. This means collects control information separately generated by the control device 8 at predetermined timings (for example, at regular intervals), and collects at least day information and time information of the collection timing from the timer 11. The apparatus includes a collection unit 12 and a first usage amount calculation unit 13 that calculates a gas usage amount from control information and time information associated with the collection timing collected by the first device information collection unit 12. Further, a storage means 14 for storing the gas usage calculated by the first usage calculation means 13 in association with the collection timing is provided, and the total gas usage in a predetermined time span over a plurality of collection timings is stored. And a total calculating means 15 for performing a cumulative calculation from the gas usage amount stored in the storage means 14. The gas usage or the total gas usage determined by the first usage calculation means 13 or the total calculation means 15 is output by the output means 16.
Output from

The operation of each means will be described below with reference to FIG. FIG. 3 shows one form of the output information outputted by the output means 16, and FIG. 3A shows the state of information obtained corresponding to each day and time (collection timing). On the other hand, (b) shows the gas usage calculated by totaling every day or every month. These pieces of information are information stored in the storage unit 14 described above, and can be extracted through the output unit 16 as appropriate.

As shown in FIG. 3, when calculating the amount of gas used, as information to be collected, the date and time of use and the input target value at that time are collected. In this collection, as shown in FIG. 1, the input target value is obtained from the control device 8, and the date and time are obtained from the timer 11. Now, each information communication device is provided with a part (not shown) for registering an instrumental difference (correction coefficient between a measured value and a true value in each information communication device) in each gas appliance. Yes,
Correction can be performed based on the instrumental difference registered in this part. This instrumental difference is measured by using a different measuring device (not shown) to measure the amount of gas used in the gas equipment at the time of factory shipment, etc. The instrumental error is obtained by examining the relationship with the output value. This instrumental error is used to derive an estimated gas usage value, as described below.

The information collected at each time is collected and stored in association with a collection timing, which is a date and a time, as shown in FIG. 3 (a). It can be obtained as a device operation time (elapsed time from a specific time to a specific time).
Actually, in the case of FIG. 3A, since the information is collected at a constant period, the device operation time is 5 seconds.
Then, within this time, the gas appliance operates according to the input target value at the initial point in time. Therefore, the estimated amount of use during the device operation time can be obtained as input target value × device operation time × instrument correction value. This estimated usage amount is in cal unit.

The calculation of the device operating time is performed by the operating time calculating means 17 taking the difference in time information between the collection timings, as shown in FIG.

In the first usage amount calculating means 13, the previous usage amount estimation is performed in accordance with the above-described operation formula. In this case, the usage amount is not calculated in cal units but in m ³ units. Since it is necessary to derive the calculation, the flow rate calculation coefficient r (r = 11,000 kcal / m ^{3 for} city gas) is
It is stored so that it can be used as a converted value.

That is, the estimated amount of usage can be arranged as follows. Input target value: p _i (kcal / h) Collection timing time: t _{i + 1} , t _i instrumental difference correction value: q Flow rate calculation coefficient: 1 / r (m ³ / kcal) The condition of city gas is r = 11 , the amount estimated value of 000kcal / m ³ gas (gas ^{consumption): Q (m 3) Q} = Σp i × (t + 1 -t i) × q / r ( corresponding to total)

According to a specific example of this equation, the gas consumption in the first 5 seconds is 8000 × 5/3600 × 1.01 / 11.
000 = 0.00102 m ³ . The gas consumption in the following 5 seconds is 6000 × 5/3600 × 1.01
The /11000=0.0077m ^3.

Next, the gas usage over a time span (for example, daily or monthly) from the predetermined date and time to the predetermined date and time is calculated in the form of the total gas usage during each operation time of the equipment.
Calculated as cumulative gas usage. This accumulation is performed by the accumulation calculating means 15 described above. The form of this information is shown in FIG. It can be seen that the cumulative value for each day and the cumulative value for the month have been calculated. Here, regarding the required time span, for example, as shown in FIG.
Input device (not shown) by specifying the total start date and total end date
By inputting more, it is possible to obtain a gas usage amount in a predetermined time span. In the same way, monthly totalization is also performed. These pieces of information are also output by the output unit 16 in a form as shown in FIG.

The above is the information processing mode relating to the gas usage. The information communication apparatus of the present invention uses the control information, the gas usage, the cumulative gas usage, etc., which are obtained as described above. Diagnostic means 18 for diagnosing gas equipment
Is provided. That is, for example, in the case where the fluctuation of the gas usage is out of the normal range set in advance (for example, an increase in a short time, repeated increase and decrease in a short time, etc.), it is determined that there is some abnormality in the gas equipment. Judge and output "There is an error in the control part of gas consumption." On the other hand,
When the usage amount is recorded, for example, about twice as much as the usage amount for one month, or when the total usage amount reaches a certain reference value, diagnostic information indicating that "gas equipment needs to be inspected" is output. I do.

[Another Embodiment] (a) In the case of the above embodiment, the device operation time between the collection timings is obtained by using the time information of the control information collection timing and the control information. From this and the control information, the gas usage estimated value is obtained.However, if it is possible to directly know the device operation time in which the device works under each control information, the device operation time is detected and set in advance. In some cases, it can be kept. For example, regarding the generation timing of the control information and the command timing of the control information to the controlled device, these timings may be used as the collection timing. Generally, the generation timing interval of such control information is set in advance in accordance with the operation state of the device (state classification such as initial startup or steady operation). Therefore, without providing the operation time calculating means 17 in the above-described embodiment, the equipment operating time to be obtained from this means 17 is replaced with time information in a constant form, for example, which is known in advance, and the equipment is operated. The following configuration is also possible. That is, as shown in FIG. 4, a second device information collecting means 30 is provided which collects control information for controlling device operation involving gas use at least together with its collection time and / or date and time, or both, and operates according to this control information. Second usage calculator 31 for estimating and calculating the gas usage of the device based on the device operation time of the device (this is separately input) and the control information collected by the second device information collector 30. And the output means 16 for outputting the gas usage determined by the second usage calculation means 31. In the case of this example, the second device information collecting means 31 sequentially collects only the control information, and separately obtains a device operation time during which the device operates under the control information. This equipment operation time is
In the example described above, the time difference between the collection timings is
Alternatively, the period of the collection timing is a time that is previously known in a constant state. That is, when the individual device operation time is fixed, the device operation time can be simply a form of the device operation time information between the collection timings stored in the memory. Can be set as a coefficient. Therefore,
Even with this configuration, the gas usage can be determined well. (B) In the above embodiment, the control information is
Although the input target value or the opening degree information of the flow rate control valve 9 provided in the gas supply path has been described, a target value of the current used for controlling the proportional valve and the like may be used. (C) Further, in the above embodiment, the example of the absorption type gas air conditioner has been described, but the present invention can also be applied to information communication devices such as a water heater, a rice cooker, and a gas engine heat pump.

[Brief description of the drawings]

FIG. 1 is a diagram showing a main configuration of a gas appliance including an information communication device of the present application.

FIG. 2 is a relationship diagram when an input target value is obtained from a solution temperature.

FIG. 3 is a diagram showing an output state of information.

FIG. 4 is a diagram showing another configuration example of the gas appliance of the present application.

[Explanation of symbols]

 Reference Signs List 7 gas burner 8 control device 9 flow control valve 11 timer 12 first device information collecting means 13 first usage amount calculating means 14 storage means 15 cumulative calculating means 16 output means 17 operating time calculating means 18 diagnostic means 30 second device information collecting means 31 second usage calculation means 80 microcomputer

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hiroaki Izuma 4-1-2, Hirano-cho, Chuo-ku, Osaka-shi, Osaka Inside Osaka Gas Co., Ltd. (72) Inventor Kaoru Kawamoto 4-chome, Hirano-cho, Chuo-ku, Osaka, Osaka No. 1-2 F-term in Osaka Gas Co., Ltd. (reference) 2F030 CC13 CD08 CE02 CE04 CE32 CF05 CF08 2F031 AF03 2F075 GG04 GG15 GG16 GG17

Claims (5)

[Claims] A first method for collecting control information for controlling the operation of a device involving the use of gas at predetermined collection timings and collecting at least time information of the collection timings.
Device information collecting means, and a first usage calculating means for calculating gas usage from the control information and the time information associated with the collection timing collected by the first device information collecting means,
An information communication device comprising an output unit for outputting a gas usage calculated by the first usage calculation unit. 2. A storage means for storing the gas usage calculated by the first usage calculation means in association with the collection timing, wherein a total gas usage in a predetermined time span over a plurality of collection timings is provided. 2. The information communication apparatus according to claim 1, further comprising a cumulative calculation means for performing a cumulative calculation on the amount from the gas usage amount stored in the storage means, wherein the cumulative gas usage amount is also output by the output means. 3. A second device information collecting means for collecting control information for controlling device operation involving gas use at least with a collection time, a device operating time of a device operating according to the control information, and the second device information. A second usage calculating means for calculating a gas usage of the device based on the control information collected by the collecting means; and an output means for outputting a gas usage determined by the second usage calculating means. Information communication device. 4. A diagnosing device for diagnosing a device based on the collected control information or gas usage amount, and the output device also outputs a diagnosis result of the diagnosing device. 4. The information communication device according to 2 or 3. 5. The information communication apparatus according to claim 1, wherein the control information is a gas input target value in a device.