JP3809881B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water heater for heating water to be passed by gas combustion heat.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a gas supply control device that enables supply of fuel gas such as propane gas by inserting a prepaid card has been considered. Such a gas supply control device includes a shut-off valve that shuts off the gas supply path and a metering unit that measures the amount of gas used, and opens the gas supply path while there is a remaining amount due to the insertion of a prepaid card. The gas can be used, and the remaining amount is subtracted by measuring the amount of gas used. Thereafter, when the remaining amount becomes 0, the gas supply path is shut off by the shut-off valve so that the gas cannot be used.
[0003]
[Problems to be solved by the invention]
However, there is a problem that the installation cost becomes high because a gas supply control device including a shut-off valve and a metering unit must be installed at the gas inlet of each household. In particular, when only a water heater is used as a gas appliance, it is not preferable to provide the gas supply control device because it is an excessive facility.
The hot water heater of the present invention aims to solve the above problems and to reduce the installation cost of the gas supply control device.
[0004]
[Means for Solving the Problems]
The water heater according to claim 1 of the present invention for solving the above-mentioned problems is
A burner for heating the water to be passed by the combustion heat of the fuel gas;
In a water heater provided with an on-off valve for opening and closing a gas supply path to the burner,
A gas amount adjusting valve for adjusting the opening of the gas supply path to the burner;
Valve control means for calculating the control amount of the gas amount adjusting valve so as to bring the tapping temperature close to the set temperature and driving the gas amount adjusting valve;
Gas metering means for metering a gas supply amount by integrating a value corresponding to the control amount or a value corresponding to a control result; and
The remaining amount data is read from a storage medium in which the remaining amount data corresponding to the usable gas amount is stored in advance, and the remaining amount data is subtracted and rewritten based on the gas supply amount measured by the gas measuring means. Reading and writing means,
If the remaining quantity data is less than the predetermined value, and a supply inhibiting means for inhibiting the supply of gas to the burner by closing the above-off valve,
The reading / writing means is provided independently of the instrument body provided with the burner, and the reading / writing means is detachable from the instrument body, and the supply means is provided when the reading means has never been connected to the instrument body. The gist is not to prohibit the gas supply by the prohibition means .
[0011]
According to the first invention, the remaining amount data corresponding to the usable gas amount stored in advance from the storage medium is read. Here, the remaining amount data corresponding to the usable gas amount is not limited to a specific unit, and means, for example, the volume and weight of the gas, the prepaid amount, or the frequency corresponding to the gas amount. .
Then , the control amount of the proportional valve is calculated to drive the proportional valve so that the tapping temperature approaches the set temperature, and the amount of gas supplied to the burner is calculated. Here, since the gas flow rate supplied to the burner is determined by the control amount of the proportional valve, the amount of gas supplied to the burner is measured by integrating the value corresponding to the control amount or the value corresponding to the control result. be able to. Note that the value corresponding to the control amount or the value corresponding to the control result means a value that can be derived from the control amount, a value that can derive the control amount, or the control amount itself. For example, there are a gas flow rate to the burner, a burner combustion amount, a heat amount given to water, an output value to the proportional valve, and the like.
Next, the remaining amount data is subtracted and rewritten based on the measured gas amount. On this occasion,
When the remaining amount data is not equal to or greater than the predetermined value, the on-off valve is closed to prohibit the gas supply to the burner. Therefore, if the predetermined value is set to 0, for example, the use of gas can be limited to the range of the remaining amount data. In addition, since the gas can be supplied only when the remaining amount data is equal to or greater than a predetermined value, the use can be prohibited even in a situation where the remaining amount data cannot be read. Moreover it is possible intends lines in the water heater of such gas supply control, it is not necessary to newly provide a gas supply control unit.
[0012]
Moreover, the said water heater can install a reading / writing means indoors, even when an instrument main body is installed outdoors by providing the reading / writing means independently of the instrument main body provided with a burner. Further, the reading / writing means is detachable from the instrument body, and when the reading / writing means has never been connected to the instrument body, the supply prohibition means does not prohibit the supply of gas. Therefore, in the case where the gas supply prohibition function by the supply prohibition means is unnecessary, the gas can be freely used as long as the read / write means is not connected. On the other hand, in the case where the gas supply prohibition function is required, the read / write means is once used. If connected, the function is maintained. Therefore, the same instrument can be used in different cases. Moreover, the gas supply prohibition is not performed when the read / write means has never been connected, and when the gas supply prohibition function is required, it is free even if the read / write means is removed. Since gas cannot be used, unauthorized use can be prevented.
[0014]
In addition, the water heater according to claim 1 may be provided with an informing means for informing that when the remaining amount data falls to a second predetermined value set larger than the predetermined value. In this case, the remaining amount data decreases to the user before the remaining amount data falls below the predetermined value in order to notify the fact when the remaining amount data falls to the second predetermined value set larger than the predetermined value. I can let you know.
[0015]
Examples of usable storage media include a card with a built-in memory that can be inserted into and removed from an instrument, and a magnetic card. In particular, when a card with a built-in memory is used , the same card can be used continuously by rewriting data stored in the memory, so that the card issuance cost can be reduced. Furthermore, it is easy to carry when taking it out when rewriting the remaining amount data.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
In order to further clarify the configuration and operation of the present invention described above, a preferred embodiment of the water heater of the present invention will be described below.
FIG. 1 is a schematic configuration diagram of a water heater as an embodiment of the present invention. This water heater is roughly divided into a water heater body 10 installed outdoors and a remote controller 30 with a card insertion slot installed indoors.
[0019]
The water heater main body 10 includes a heat exchanger 13 to which the water supply passage 11 and the hot water supply passage 12 are connected, a burner 14 for heating water flowing through the heat exchanger 13, and a main body control unit 15 for controlling combustion. In addition, a flow rate sensor 16 for detecting the incoming water flow rate and an incoming water temperature sensor 17 for detecting the incoming water temperature are provided in the water supply passage 11, and a hot water temperature sensor 18 for detecting the outgoing hot water temperature is provided in the hot water passage 12. A gas supply passage 19 for supplying gas to the burner 14 includes a main electromagnetic valve 20 and an original electromagnetic valve 21 for opening and closing the flow passage, and a proportional valve for adjusting the gas supply amount by changing the opening according to the energization amount. 22 are provided.
[0020]
The main body control unit 15 includes a CPU, RAM, and ROM that form a well-known arithmetic logic circuit (not shown), an input interface that inputs signals from various sensors, an output interface that outputs drive signals to various actuators, and the like. The During the hot water operation, the amount of heat necessary for setting the hot water temperature to the set temperature based on the set temperature set by the remote controller 30 with card insertion port, the detected temperature of the incoming water temperature sensor 17 and the detected flow rate of the flow rate sensor 16 is set. Feedforward control (hereinafter referred to as FF control) for calculation and control, and feedback control (hereinafter referred to as FB control) for correcting the FF control amount based on the deviation between the temperature detected by the tapping temperature sensor 18 and the set temperature. Thus, the opening degree of the proportional valve 22 is adjusted to control the hot water temperature.
[0021]
A remote controller 30 with a card insertion slot displays a set temperature and a remaining frequency, and a card reader / writer 31 for reading information from the inserted IC card 40 and writing information to the IC card 40. The display unit 32 includes an operation unit 33 for performing an external operation such as setting of a set temperature, and a remote control unit 34 for controlling them. The main body control unit 15 and the remote control unit 34 are connected by a cable 35, and data communication is possible.
[0022]
The IC card 40 incorporates an EEPROM (nonvolatile memory) that stores information such as gas unit price, prepaid amount (balance), name, and room number, and is in electrical contact with the card reader / writer 31 on the card surface. Terminal 41 is provided. In addition, security is maintained by setting an encryption code, making it difficult to read and forge information.
[0023]
The card reader / writer 31 reads and writes information with the IC card 40 inserted manually held in a fixed position. Therefore, there is no need for parts such as a motor and a magnetic head as in the case of a magnetic card read / write device, and it can be made compact and integrated with a remote control.
[0024]
When the IC card 40 is inserted, the remote controller 34 reads information stored in the EEPROM by the card reader / writer 31. Then, the amount of usable gas is calculated from the stored prepaid amount and the unit price of gas.
Note that the water heater body 10 has no limitation based on the amount of gas that can be used when the remote controller 30 with a card insertion slot is not connected or when a normal remote controller without a card reader / writer 31 is connected. Can be used as a water heater. Therefore, it can be used even in situations where it is not necessary to limit the amount of gas, and the common hot water supply body 10 can be used in different usage situations. However, once the remote controller 30 with the card insertion slot is connected to the water heater main body 10 once, the information is stored by the main body control unit 15, and thereafter, the operation can be performed only when there is a remaining amount of usable gas. To do. For this reason, it is possible to prevent unauthorized use such as using gas without restriction without connecting the remote controller 30 with a card insertion slot, even though the use situation requires restriction.
[0025]
The display unit 32 includes a two-digit 7-segment LED, a “° C.” lamp, and a “degree” lamp for indicating the display contents of the 7-segment LED. When the IC card 40 is inserted, the remaining frequency of the amount of gas that can be used is displayed as a two-digit number by the 7-segment LED, and the “frequency” lamp is turned on. In addition, when the set temperature is changed by the temperature setting switch on the operation unit, the display content of the 7-segment LED is switched to the set temperature display, the “frequency” lamp is turned off and the “° C.” lamp is turned on, After a certain period of time, the display is switched to the remaining amount frequency display again. As described above, the 7-segment LED normally displays the remaining frequency, but when the set temperature is changed or when the display switching operation is performed by the display changeover switch of the operation unit, the display is switched to the set temperature display. When the amount of usable gas is low, the “Frequency” lamp blinks and a buzzer notifies.
[0026]
Next, a control process performed by the water heater will be described with reference to the flowchart of FIG. This routine is started when it is determined that the IC card 40 is inserted and there is a remaining amount of usable gas.
When the detected flow rate Q detected by the flow rate sensor 16 exceeds a predetermined water flow rate Qs (S1: YES), it is determined that there is water flow, and the main solenoid valve 20 and the original solenoid valve 21 are opened to supply gas to the burner 14. At the same time, ignition is performed by an ignition device (not shown) (S2). Then, the hot water temperature control is performed by adjusting the opening of the proportional valve 22 by FF control for calculating and controlling the necessary amount of heat from the detection values of the sensors and FB control for correcting the FF control (S3). At that time, the flow rate of gas supplied to the burner is calculated by dividing the calculated required heat amount by the calorific value of the gas, and the amount of gas used is measured by integrating the calculated gas flow rate per unit time. (S4) Subtract from the usable gas amount E (S5). Then, when the usable gas amount E becomes less and falls below the predetermined value En (S6: NO), the “frequency” lamp of the display unit 32 blinks and a buzzer notifies (S8). This predetermined value En is set to an amount in which gas can be used for about a week in normal use. After that, whether the flow rate detected by the flow sensor 16 falls below the predetermined water stop flow rate Qe, it is determined that there is no water flow (S9: NO), or when the usable gas amount E becomes 0 (S7: NO ) The main solenoid valve 20 and the original solenoid valve 21 are closed to shut off the gas supply (S10).
[0027]
As described above, according to the water heater of the present embodiment, the metering of the amount of gas used is shared by the proportional valve 22 and the cutoff of the gas supply is shared by the solenoid valves 20 and 21, thereby providing a gas supply control device. Compared with the case of providing separately, the cost of parts can be reduced. In addition, when a gas supply control device is newly provided, it is necessary to provide a shut-off valve and a metering device at the gas inlet, which increases the installation cost. Installation cost can be reduced. Recently, in an apartment house suitable for living alone, such as a one-room apartment, there are increasing cases of using gas only for water heaters and installing an electric hob in the kitchen. If you make a system that pays the supplier in a lump and the resident purchases the remaining amount data from the manager in advance, the gas fee can be collected with certainty. Moreover, in such a system, if one gas meter for meter reading is provided to measure the gas supply amount of the entire apartment, it is not necessary to provide for each resident, and the gas meter is expensive. It can be greatly reduced. Moreover, since the water heater main body 10 does not limit based on the amount of gas that can be used unless the remote controller 30 with the card insertion slot is connected at all, the water heater main body can be used in a situation where the restriction is necessary and a situation where the restriction is not necessary. The manufacturing cost can be reduced by sharing 10. Further, once the remote controller 30 with a card insertion slot is connected even once, a restriction is always made based on the amount of gas that can be used. For example, when the operation is tested at the time of initial installation of the instrument, there is no need to insert the IC card 40, which is convenient. In addition, the 7-segment LED of the display unit 32 displays the remaining amount of gas that can be used during normal use, and when there is an operation for changing the set temperature or a display switching operation, the remaining temperature is switched to the set temperature display. Since it is not necessary to provide separate display units for the quantity frequency display and the set temperature display, the cost increase can be reduced, and it is easy to grasp which is displayed with the "Frequency" lamp and the "C" lamp. Convenient because it can. In addition, when the remaining amount is low, the “Frequency” lamp blinks and a buzzer notifies the user, so that the amount of gas that can be used is lost while the user is not aware and the gas suddenly becomes unusable. Such a problem can be prevented. In addition, by providing the card reader / writer 31 separately from the instrument main body, the IC card 40 can be inserted and removed indoors even if the instrument main body is installed outdoors.
[0028]
Further, by using the IC card 40 as a storage medium and adopting a manual insertion method for the card reader / writer 31, it can be made compact and integrated with the remote control. Furthermore, by storing it in the EEPROM built in the IC card 40, it is more resistant to repeated use than the magnetic card, and when the remaining amount data of the card is reduced, it is the same by rewriting the data to the issuer. Issuing cost can be reduced because the card can be used repeatedly, and it is also convenient for carrying.
[0029]
In this embodiment, the usable gas amount is calculated from the prepaid amount stored in the IC card 40 and the unit price of gas. However, the present invention is not limited to this, and the gas amount may be stored in advance as data. Good.
In this embodiment, the IC card 40 is used as the storage medium. However, the present invention is not limited to this. For example, a magnetic card may be used.
In this embodiment, the remaining frequency of the usable gas amount is displayed on the 7-segment LED of the display unit 32 during normal operation. However, the present invention is not limited to this. For example, the set temperature is displayed during normal operation, and the IC A display method of switching to the remaining amount frequency display may be used when the remaining amount frequency is low at the time of insertion / extraction of the card 40 or display switching operation. Moreover, you may provide the display part of residual amount frequency display and setting temperature display each independently. Alternatively, the set temperature setting function may be eliminated and only the remaining amount control may be performed.
Further, the temperature setting remote controller and the card reader / writer 31 may be provided separately.
In this embodiment, the flow rate of gas supplied to the burner is calculated by dividing the required amount of heat by the calorific value of the gas. However, the present invention is not limited to this. For example, the gas flow rate is calculated from the proportional valve current value. Also good.
[0030]
Although the embodiments of the present invention have been described above, the present invention is not limited to these embodiments, and it is needless to say that the present invention can be implemented in various modes without departing from the gist of the present invention.
[0031]
As described above in detail, according to the water heater according to claim 1 Symbol placement of the present invention, the configuration such as is common on-off valve in order to prohibit the supply of gas, parts compared with a case for a separate gas supply controller Cost can be reduced. Moreover it becomes high installation costs it is necessary to provide a shutoff valve or a metering device to the gas service entrance when newly providing the gas supply control device, according to the water heater according to claim 1 Symbol placement, gas quantity adjustment The value corresponding to the control amount of the valve is integrated to calculate the amount of gas supplied to the burner, and the gas is shut off by the water heater, so that the installation cost can be reduced. Recently, in an apartment house suitable for living alone, such as a one-room apartment, there have been an increasing number of cases where gas is used only for water heaters and an electric stove is provided in the kitchen. If you make a system that pays the supplier in a lump and the resident purchases the remaining amount data from the manager in advance, the gas fee can be collected with certainty. Moreover, in such a system, if one gas meter for meter reading is provided for measuring the gas supply amount of the whole apartment, it is not necessary to provide for each resident . Since this gas meter is expensive, the installation cost at the time of new construction can be greatly reduced.
[0035]
Further, according to the hot water heater of claim 1, since the reading / writing means is provided independently of the instrument body provided with the burner, the reading / writing means can be installed indoors even if the instrument body is installed outdoors. Since it can be easily inserted and removed, it is easy to use.
[0036]
In addition, the reading / writing means is removable from the instrument body, and when the reading / writing means has never been connected to the instrument body, the supply prohibition means does not prohibit gas supply. are therefore, it is possible to share it is not necessary to separately form an instrument which is not provided with the instrument comprising a supply prohibition function of the gas at the time of manufacture of the equipment main body, it is possible to reduce the manufacturing cost. Further, by preventing unauthorized use such as using gas without restriction in a situation where gas supply restriction is necessary, it is possible to reliably collect gas charges.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a water heater as one embodiment.
FIG. 2 is a flowchart showing a control process performed by a water heater.
[Explanation of symbols]
10 ... Hot water heater main part, 14 ... Burner, 15 ... Main part control part,
16 ... Flow rate sensor, 17 ... Temperature sensor, 18 ... Gas supply path,
19 ... main solenoid valve, 20 ... original solenoid valve, 2 2 ... proportional valve,
30 ... Remote control with card insertion slot, 31 ... Card reader / writer,
32 ... Display unit, 33 ... Operation unit, 34 ... Remote control unit, 35 ... Cable

Claims (1)

A burner for heating the water to be passed by the combustion heat of the fuel gas;
In a water heater provided with an on-off valve for opening and closing a gas supply path to the burner,
A gas amount adjusting valve for adjusting the opening of the gas supply path to the burner;
Valve control means for calculating the control amount of the gas amount adjusting valve so as to bring the tapping temperature close to the set temperature and driving the gas amount adjusting valve;
Gas metering means for metering a gas supply amount by integrating a value corresponding to the control amount or a value corresponding to a control result; and
The remaining amount data is read from a storage medium in which the remaining amount data corresponding to the usable gas amount is stored in advance, and the remaining amount data is subtracted and rewritten based on the gas supply amount measured by the gas measuring means. Reading and writing means,
If the remaining quantity data is less than the predetermined value, and a supply inhibiting means for inhibiting the supply of gas to the burner by closing the above-off valve,
The reading / writing means is provided independently of the instrument body provided with the burner, and the reading / writing means is detachable from the instrument body, and the supply means is provided when the reading means has never been connected to the instrument body. A water heater characterized by not prohibiting gas supply by prohibiting means .

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