JP3544445B2 - Heating equipment - Google Patents

Description

【００２６】
これら累積データの種類はメンテナンス情報処理装置を付設する加熱装置の必要に応じて適宜設定することができる。また、データの単位も、例えば１００時間を１とする等記憶手段のメモリの容量に応じて適宜定めることができる。
【００２７】
給湯用燃焼部３及び浴槽用燃焼部４の累積燃焼時間は、マイクロコンピュータで構成される制御回路部３３内に、燃焼時間の積算値をカウントアップする時間間隔を設定するためのタイマを設けることにより、フレームロッド又はガス制御弁の信号により燃焼中であることを検知して、燃焼時間を計測し累積値を記憶手段３５に記憶させる。
【００２８】
運転回数は、給湯栓５の開栓により第１水量センサ１７の出力が、誤操作でないことを確認するための所定時間、継続することを以て運転１回と認識し回数を累積して記憶する。浴槽の場合は第２水量センサの出力または操作器３１の運転指示信号によって同様に運転回数を計測することができる。
【００２９】
更に、記憶手段３５には、図４に示すようなメンテナンス情報を構成することができるデータを所定のパッケージデータとして記憶保持する記憶エリアを備えている。
【００３０】
記憶手段３５へのデータの書き込み又はデータの表示を指示する操作手段３１は、通常は使用者が給湯装置を使用する時に、使用条件の設定指示を行う為に使用する操作器３１の使用モードをメンテナンスモードに変換して用いる。
【００３１】
勿論、給湯装置の保守点検を行う専門業者が必要に応じてコントローラ３０に接続して使用する業者専用の操作機器を操作手段としてもよい。
【００３２】
図３は操作器３１の一例を示す外観図である。操作器３１はスイッチ部３８と表示部３９を備える。スイッチ部３８には給湯及び浴槽の出湯温度を設定する時に使用する「ぬるく」と「あつく」の２つのスイッチ４１、４２、全自動運転を指示するための「全自動」のスイッチ４３、運転を指示する「運転」スイッチ４４、予約運転を指示するときに操作する「予約運転」スイッチ４５、予約運転を指示した場合に予約時間を設定する時に操作する「予約設定」スイッチ４６及び時刻の修正時に使用する「時計設定」スイッチ４７を備え、さらに時間を設定する時に使用する「時」と「分」スイッチ４８、４９を備える。
【００３３】
表示部３９には、少なくとも給湯設定温度表示部Ａと浴槽設定温度表示部Ｂ及び設定時間表示部Ｃを備える。かかる操作器３１を用いて、業者がメンテナンス情報処理装置にアクセスする場合、一般の使用者が通常使用しない隠しスイッチ操作を設定しておき、かかるスイッチ操作により、操作器３１をメンテナンス情報記憶装置にアクセスできるメンテナンスモードに切り換えて、操作手段３１とする。
【００３４】
例えば「運転」と「ぬるく」の２つのスイッチ４４、４１を同時に押すことにより、操作器３１をコントローラ３０の設定指示モードからメンテナンスモードに切り換える。かかる操作により、操作器３１のスイッチ部３８の各スイッチ４１〜４９は記憶手段３５の書き込み情報を表示させ又は書き込みを指示するスイッチとなり、又、記憶手段３５のデータを呼び出すためのデータを特定する情報を表示させ、データの表示を指示するスイッチとなる。表示部３９は、例えば給湯設定温度表示部Ａが累積データを特定するモニタ番号の表示部Ａに、浴槽設定温度表示部Ｂは交換部品を特定する情報としての部品コードの表示部Ｂに、更に、設定時間表示部Ｃは累積データの表示部Ｃに切り換えられる。
【００３５】
交換部品の書き込みを容易に行うため、給湯装置を修理した時に交換した構成部品を特定する情報として、交換する可能性のある給湯装置の構成部品について下表のようにコードを設定しておく。
【００３６】
【表２】

【００３７】
時間設定用の「時」スイッチ４８は部品コード表示スイッチ４８で、該スイッチ４８を押す毎に、部品コード表示部Ｂに部品コードを００、０１、０２、０３と順次表示する。給湯装置を修理した時に、業者が給湯用ファンモータを交換した場合、部品コード表示部Ｂに部品コード表示スイッチ４８によりコード０１を表示させる。この状態で、確定のためのスイッチである「時計設定」スイッチ４７を押すと記憶手段３５の記憶エリアに交換部品のコード０１と、確定スイッチ４７を操作した時点に記憶手段３５が記憶している使用開始時からの累積データの全てが記憶手段３５に記憶される。交換部品が多数あり、例えば３０の部品コードを設定するような場合は、時間設定用の「分」スイッチ４９をも部品コード表示スイッチ４９とし、当該スイッチ４９を押す毎に、部品コードの数字の大きい方から３０、２９、２８と逆の順序に表示させるようにして、部品コードの設定時間の短縮を図ることもできる。
【００３８】
部品コード００は保守点検・修理を特定するコードである。部品交換を行わずに保守点検や修理のみで済んだ場合は、部品コード表示部Ｂに００を表示させて確定スイッチ４７を押すと、記憶手段３５に記憶されている当該スイッチ操作時点の使用開始時からの累積データが記憶される。
【００３９】
尚、部品コードを表示して確定のスイッチ４７を操作する場合に書き込まれる累積データは、交換部品と関連性のある累積データのみを書き込むようにすることもできる。例えば給湯用ファンモータを交換したときの書き込み累積データはモニタ番号０１、０２、０４の累積データのみでよく、モニタ番号０３の浴槽用燃焼部の燃焼累積時間は直接関連性がないのでこの累積データを記憶させる必要はない。これらは交換する部品毎に適宜設定することができる。以上の操作手段３１による書き込み操作により、図４に示すメンテナンス情報を構成するデータはすべて記憶手段３５に記憶される。
【００４０】
保守点検の際、業者が操作器３１をメンテナンスモードに切り換えた後、モニタ番号表示スイッチである「あつく」スイッチ４２を押すとモニタ番号表示部Ａに給湯燃焼部３の累積燃焼時間を特定するモニタ番号が０１と表示され、累積データ表示部Ｃに０１に該当する給湯燃焼部の使用開始時からの累積燃焼時間が表示される。モニタ番号表示スイッチ４２を押す毎にモニタ番号は０２、０３、０４、０１と順次変更され、その都度モニタ番号に該当する使用開始時からの累積データが順次表示される。
【００４１】
モニタ番号表示スイッチ４２により使用開始時からの累積データを表示させる場合は、部品コード表示部Ｂは記憶手段３５に書き込まれている部品コードを表示する。交換部品が無い状況においては、部品コード表示部には００と表示され、既に、何点かの部品を交換している状況の場合は、部品コード表示部Ｂに交換時の累積データの数値が最も小さい部品コードを表示する。この状態で、業者が、部品コード呼び出しスイッチに設定されている「予約運転」スイッチ４５を押すと、モニタ番号表示部Ａに表示されたモニタ番号に特定される当該交換部品の交換時の累積データと部品コード呼び出しスイッチ４５操作時における使用開始時からの累積データとから制御回路部３３の演算手段が演算を行って求めた部品交換以降の累積データを累積データ表示部Ｃに表示する。
【００４２】
更に、部品コード呼び出しスイッチ４５を押す毎に、交換時の累積データの数値の小さい順、即ち部品交換が行われた順に、部品コードが記憶手段３５から部品コード表示部Ｂに呼び出され、部品コードとともに部品交換以降の累積データが累積データ表示部Ｃに表示される。部品コード呼び出しスイッチ４５により表示した部品コードの累積データを選択する場合は、この状態でモニタ番号表示スイッチ４２によりモニタ番号表示部Ａの表示を替えることにより、表示されたモニタ番号に該当する部品交換以降の累積データを累積データ表示部Ｃに表示させることができる。部品コード呼び出しスイッチ４５により、部品コード表示部Ｂに００を呼び出した場合は、保守点検時の累積データ数値の最も大きい、即ち前回の保守点検時の累積データと表示時点の使用開始時からの累積データとから演算手段により演算した前回保守点検以降の累積データを累積データ表示部Ｃに表示する。
【００４３】
また、保守点検時の累積データの呼び出しスイッチを別に設定しておき、そのスイッチの操作により保守点検時における累積データの履歴を見ることができるようにすることもできる。
【００４４】
操作器３１の「予約設定」スイッチ４６を累積データ呼び出しスイッチ４６に設定し、モニタ番号表示部Ａと部品コード表示部Ｂに表示されたモニタ番号と部品コードに該当する累積データをスイッチ４６で表示させてもよい。又累積データ表示部を２つ並列して設け、一方の表示部に使用開始時からの累積データを表示させ、他方の表示部に部品コードと共に記憶した累積データを表示させて部品交換以降の累積データを知ることができるようにすることもできる。
【図面の簡単な説明】
【図１】本発明の加熱装置の一例を示す給湯装置のシステム構成図。
【図２】図１の給湯装置のコントローラ及び操作器のブロック構成図。
【図３】図２に示す操作器の一例を示す外観図。
【図４】図２に示す記憶装置の記憶データを説明するための図。
【符号の説明】
１，２，２８─通水路、３，４─燃焼部、５─給湯栓，７─ガスバーナ、８─燃焼ファン、１０，１１─ガス制御弁、１５，１７─水量センサ、１９，２３─湯温センサ、３０─コントローラ、３１─操作器（操作手段）、３３─制御回路部、３２─表示器、３５─記憶手段、３８─スイッチ部、３９─表示手段[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a so-called heating device such as a water heater, a heater, a cooking device, and the like, which relates to a storage device that stores useful maintenance information when a trader performs inspection and maintenance, and a heating device that includes a display device for the maintenance information.
[0002]
[Prior art]
Conventionally, in a heating device such as a water heater or a heater, accumulated data relating to the use history of the device such as the accumulated heating time or the number of times of use from the start of use is stored in a non-volatile storage unit, and the stored data is stored in a predetermined manner. There are known techniques for notifying the time of replacement of a specific component when the value becomes a value, disabling a heating device, and the like. For example, Japanese Patent Application Laid-Open No. 64-38542 discloses that a maintenance request indicator is turned on based on a stored value of an accumulated operation time of an air conditioner, a user performs maintenance such as replacement of predetermined parts, and A technique is disclosed in which a reset switch is operated to return an integrated value of the operation time to an initial value. In Japanese Patent Application Laid-Open No. 4-62318, it is known that the service life limit value is known from the cumulative burning time or the cumulative number of burning times of the combustion equipment. A technique for returning to the original is disclosed.
[0003]
Further, there is also known a device in which, when a main component of the heating device is replaced, a code or the like of the replaced component can be written from an external device into a storage means so as to contribute to subsequent maintenance. However, such a conventional technique is to notify a user of a heating device of the replacement time of the first and second parts and the like, and is insufficient as information to be utilized for maintenance. In the method of storing replacement part codes, etc., it is possible to recognize parts replaced in the past at the time of maintenance, but because there is no information on the cumulative use time of replacement parts, it is not possible to judge the next replacement time, and it is used effectively. I couldn't do that. It is also conceivable to measure and store the accumulated use time for each part, and to reset only the accumulated data of the part to the initial value when the part is replaced. Since a large number of components of the heating device are required, such a method requires a large amount of storage information and a large-capacity storage means, and also complicates measurement means and control means, which is not practical in terms of cost.
[0004]
[Problems to be solved by the invention]
In view of the inconvenience of the related art, the present invention provides a maintenance device that can be used effectively when a company performs inspection, maintenance, repair, etc. of a heating device. Provide a heating device equipped with a simple maintenance information processing device that can display the accumulated data indicating the usage history and the accumulated data indicating the usage history of the heating device after maintenance and inspection or repair so that they can be understood. The purpose is to do.
[0005]
[Means for Solving the Problems]
In the present invention, in order to achieve the above object, a measuring means for measuring cumulative data relating to a use history from the start of use of the device, a non-volatile storage means for updating and storing the cumulative data of the measuring means, In a heating device provided with a display unit for displaying accumulated data in a storage unit, when a component constituting the heating device is replaced, writing of information for specifying a replacement component, and the cumulative data at the time of the writing are replaced with the replacement component. Maintenance information including information for specifying the replacement part and information about the accumulated data after replacement of the replacement part together with the information for specifying the replacement part from the storage means and displaying the information on the display means. It has a processing device.
[0006]
According to the above configuration, in the heating device stored in the non-volatile storage unit while the accumulated data relating to the use history of the heating device from the start of use is updated, when the component is replaced, the replacement part is operated by the operating unit. Is stored in the storage means together with the information specifying the time of the exchange. At the time of the subsequent maintenance and inspection, the information for specifying the replacement part stored in the storage means by the operation means, the accumulated data at the time of replacement of the part, and the accumulated data from the start of use at the maintenance and inspection are used for each replacement part. The display device displays information on the accumulated data after the exchange. By comparing the accumulated data from the start of use with the accumulated data at the time of replacement based on the specific information of the replacement part, the accumulated data after replacement for each replacement part can be known. This makes it possible to provide a means for measuring the accumulated data relating to the use history of each component of the heating device, and to read the accumulated data from the display means without using a complicated system for storing and resetting the accumulated data each time it is exchanged. Therefore, it is possible to provide maintenance information that can be used effectively in the subsequent maintenance and inspection, such as performing appropriate maintenance and inspection of replacement parts and estimating the next replacement time for each replaced part. .
[0007]
Further, in the present invention, there is provided a calculating means for calculating the accumulated data, and the operating means is called together with information for specifying a replacement part from the storage means, and is displayed on a display means after the replacement of the replacement part. The information on the accumulated data of the replacement part after the replacement of the replacement part obtained by the calculation means from the cumulative data from the start of use at the time of the call and the cumulative data at the time of replacement stored together with the information specifying the replacement part Is accumulated data. According to this, the accumulated data after replacement for each replacement part is directly displayed on the display means.
[0008]
Further, in the present invention, the measuring means includes a plurality of measuring means for measuring different types of accumulated data, and the non-volatile storage means updates and stores each accumulated data by the plurality of measuring means. A switch for automatically storing, in the storage means, the plurality of accumulated data at the time of the writing, together with the information specifying the replacement part, when instructing writing of information for specifying the replacement part. It is characterized by having. According to the above configuration, different data relating to the use history such as the cumulative use time and the cumulative number of times of use of the main components of the heating device are stored in the storage means as a plurality of cumulative data, and the replacement part is provided using the operation means. When the information for specifying the replacement part is written in the storage means, a predetermined switch is operated to automatically store the plurality of accumulated data at the time of replacement together with the information for specifying the replacement part in the storage means. This simplifies the operation of storing a plurality of accumulated data in the storage means and stores the plurality of accumulated data together with the information for specifying the replacement part. The most suitable accumulated data can be selected and utilized according to the conditions.
[0009]
Further, according to the present invention, when the maintenance means performs the maintenance inspection or repair of the heating device, the operation means writes information specifying the maintenance inspection or repair, and specifies the maintenance inspection or repair based on the accumulated data at the time of the writing. The maintenance and inspection determined by the arithmetic means from the accumulated data at the time of writing and the accumulated data from the start of use at the time of display together with the information for specifying the maintenance and inspection or repair, together with the information for specifying the maintenance and inspection or repair. Alternatively, it is an operation means for displaying the accumulated data after the repair on the display means. According to this configuration, even when the parts are not replaced, the information of the maintenance inspection or the repair can be stored, and the accumulated data after the maintenance inspection or the repair is displayed together with the information specifying the maintenance inspection or the repair. be able to. Therefore, it is possible to know the accumulated data relating to the use history of the heating device since the last maintenance and inspection, and it can be used for maintenance and inspection.
[0010]
Further, in the present invention, the operating means includes an operating device for setting and instructing the use condition of the heating device, and a switch for switching between a mode for operating the maintenance information processing device and a mode for setting the use condition of the heating device. It is characterized by having. According to this, an operating device such as a so-called remote controller for setting and instructing the use condition of the heating device can be used also without using the operating device dedicated to the maintenance information processing device.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. FIG. 1 is a system configuration diagram showing a hot water supply device as an example of a combustion device to which the present invention can be applied, and FIG. 2 is a block configuration diagram of a control unit including a storage device and an operation unit. FIG. 3 is an external view showing an embodiment of the operation device, and FIG. 4 is a diagram for explaining the contents of storage information in a storage area of the maintenance information storage device.
[0012]
The combustion device of the present embodiment is a combined hot water supply device including a plurality of combustion units. In FIG. 1, 1 is a main hot water supply path, 2 is a sub hot water supply path for performing hot water supply to the bathtub A, 3 is a hot water supply combustion section, and 4 is a bathtub combustion section. Reference numeral 30 denotes a controller for controlling the operation of both the hot water supply and bath tub combustion units 3 and 4, and reference numeral 31 denotes an operating device for the user to set and instruct the controller 30 on various operation menus and the like of the water heater. Reference numeral 32 denotes a display for notifying the user of various operation information of the hot water supply device such as the set hot water temperature. As shown in FIG. 2, the maintenance information processing apparatus of the present invention includes a storage unit 35 provided in the controller 30, a control circuit unit 33, and an operation unit 31 functioning as an operation unit of the storage unit 35. .
[0013]
The main hot water supply path 1 has an upstream side connected to a water supply pipe, and a downstream end connected to a hot water tap 5 in a kitchen or a washroom. The hot water supply combustion unit 3 controls a hot water supply heat exchanger 6 provided in the middle of the main hot water supply path 1, a hot water supply gas burner 7 for heating it, a hot water supply combustion fan 8, a gas pipe 9 to the gas burner 7, and gas. A solenoid valve 10 and a gas proportional valve 11 are provided. Reference numeral 12 denotes a frame rod for detecting ignition and misfire of the gas burner 7, and 13 denotes a sparker for igniting the gas burner 7.
[0014]
Further, on the upstream side of the hot water supply heat exchanger 6 of the main hot water supply path 1, a first water amount sensor 17 for detecting the amount of water flowing through the main hot water supply path 1 is provided, and on the downstream side of the hot water supply heat exchanger 6, A hot water amount servo 18 for adjusting the hot water supply amount and a hot water temperature sensor 19 for detecting the temperature of hot water flowing out of the hot water supply heat exchanger 6 are provided. Reference numeral 20 denotes a bypass solenoid valve 20 provided in a bypass 21 connecting the upstream and downstream of the hot water supply heat exchanger 6 of the main hot water supply path 1. The auxiliary hot water supply path 2 branches off from the main hot water supply path 1 at the location of the tap water temperature sensor 19, and supplies hot water in the on-off valve 14, the second water quantity sensor 15, the hopper 22, the check valve 16, the three-way valve 26, and the bathtub A. It is connected to the bathtub A via a circulation path 28 for circulation.
[0015]
The circulation path 28 includes a forward path 28a and a return path 28b respectively derived from the three-way valve 26. The forward path 28a and the return path 28b are connected to a hot water supply port formed on the side wall of the bathtub A via a circulation fitting 29. I have. The bathtub combustion section 4 is provided at an intermediate position in the outward path 28a, and includes a bathtub heat exchanger 6 'so that water flowing through the circulation path 28 is heated by the bathtub heat exchanger 6'. I have. Although not shown, the bathtub combustion section 4 has the same configuration as the hot water supply combustion section 3 such as a gas burner, a combustion fan, a gas pipe, and a gas control valve. On the outward path 28a of the circulation path 28, between the three-way valve 26 and the bathtub heat exchanger 6 ', a circulation pump 27, a water flow switch 24 for detecting the passage of water through the circulation path 28, and a hot water temperature of the bathtub A are provided. A bath temperature sensor 23 for detecting a bathtub is provided. Further, a water level sensor 25 for detecting the water level of the bathtub A is provided on the return path 28b.
[0016]
FIG. 2 shows a block configuration of the controller 30 and the operating device 31. The controller 30 includes a control circuit unit 33 including a microcomputer including a CPU, a RAM, a ROM, and the like. The control circuit unit 33 includes the first water amount sensor 17, the tap water temperature sensor 19, the second water amount sensor 15, the water flow switch 24, the outputs of the bathtub hot water temperature sensor 23 and the water level sensor 25, and the setting instruction data by the operation device 31, etc. Is used as input data to control the gas control valves 10 and 11, the combustion fan 8, and the sparker 13 of the hot water supply section combustion section 3 and the bathtub combustion section 4 according to a program stored in the ROM, etc. 20, the operation of the on-off valve 14, the circulating pump 27, the display 32, etc., as well as various kinds of arithmetic processing, measurement of accumulated data relating to the use history of the hot water supply apparatus as described later, and writing of maintenance information of the maintenance information processing apparatus Controls display processing.
[0017]
The controller 30 further includes a rewritable nonvolatile storage unit (EEPROM) connected to the control circuit unit 33, and the storage unit 35 functions as a storage unit for the accumulated data and maintenance information. The operation device 31 functioning as a remote controller includes a communication circuit 36 connected to a communication circuit 34 of the controller 30, a CPU 37, a switch unit 38, and a display unit 39. It has a function of instructing the controller 30 to set various operation menus such as a set water level of the bathtub A and a reserved operation and a reserved time via the communication circuits 34 and 36, and also performs maintenance by a predetermined switch operation as described later. The use mode can be converted so that it can be used for writing data and calling data in the storage means 35 of the information processing apparatus.
[0018]
A plurality of such operating devices 31 are provided in one hot water supply apparatus, for example, one in a bathroom and one in a place where a hot water tap is provided in a kitchen or the like. However, the operating means used for writing the storage means 35 and calling the data and capable of converting the use mode may be provided only in the main operating device 31 and need not be provided in all operating devices.
[0019]
The display section 39 displays the set hot water temperature, the set water level of the bathtub A, and the set hot water temperature of the bathtub A. When the use mode is changed, the display of the write data when writing data to the storage means 35, the operation device A display means used for displaying the data of the storage means 35 called by the switch 31. The display 32 of the controller 30 may have substantially the same function.
[0020]
Next, the operation of the combined hot water supply apparatus of the present embodiment will be described. When the user opens the hot water tap 5 connected to the main hot water supply channel 1, it is recognized from the output of the first water quantity sensor 17 that the control circuit unit 33 has been opened. The control circuit unit 33 operates the hot water supply combustion unit 3 to heat the flowing water in the main hot water supply passage 1. At this time, the control circuit unit 33 controls the heating amount of the hot water supply combustion unit 3 based on the detection signals of the first water quantity sensor 17 and the hot water temperature sensor 19 so as to match the hot water temperature set by the operating device 31.
[0021]
Further, when the user instructs the automatic hot water operation of the bathtub by the operating device 31, the control circuit section 33 opens the opening / closing valve 14 of the sub-hot water supply path 2 based on the setting instruction and the main hot water supply path. From 1, the water supply to the auxiliary hot water supply path 2 is started, and the heating unit 3 is further operated to control the heating so that the water flowing to the auxiliary hot water supply path 2 becomes the set hot water temperature in the main hot water supply path 1. . Hot water flowing through the auxiliary hot water supply path 2 is supplied to the bathtub A via both the outward path 28a and the return path 28b of the circulation path 28. At this time, the control circuit unit 33 appropriately closes the on-off valve 14, monitors the water level in the bathtub A based on the output of the water level sensor 25, and detects the amount of hot water necessary for setting the water level in a stepwise manner. .
[0022]
Then, the on-off valve 14 is controlled so that the integrated value of the amount of hot water supplied to the bathtub A, which is grasped from the output of the second water amount sensor 15, becomes the required amount of hot water for the set water level.
[0023]
When the user instructs the automatic boiling operation using the operating device 31, the control circuit unit 33 activates the circulating pump 27 with the on-off valve 14 closed, based on the setting instruction, and activates the bathtub combustion. The section 4 is operated, and the hot water in the bathtub A is heated by the bathtub combustion section 4 while being circulated in the circulation path 28. In this case, the control circuit unit 33 controls the heating amount of the bathtub combustion unit 4 so that the hot water temperature in the bathtub A detected by the bathtub hot water sensor 23 becomes the hot water temperature set by the operation device 31. I do.
[0024]
Next, the maintenance information processing apparatus according to the present embodiment will be described. 2, the maintenance information processing apparatus includes a control circuit unit 33, a storage unit 35 connected to the control circuit unit 33, and an operation unit 31 for converting a use mode of the operation device 31 into a maintenance mode. The storage means 35 stores accumulated data relating to the use history such as the use time and the number of times of use of the main components of the hot water supply device since the start of use. In the hot water supply apparatus of the present embodiment, as shown in the following table, a plurality of accumulated data of the combustion time and the number of times of operation of each of the hot water supply combustion unit 3 and the bath tub combustion unit 4 is a code as information for specifying the accumulated data. The monitor number is set.
[0025]
[Table 1]

[0026]
The type of the accumulated data can be set as appropriate according to the necessity of the heating device provided with the maintenance information processing device. Also, the unit of data can be appropriately determined according to the capacity of the memory of the storage means, for example, setting 100 hours to 1.
[0027]
For the cumulative combustion time of the hot water supply combustion unit 3 and the bathtub combustion unit 4, a timer for setting a time interval for counting up the integrated value of the combustion time is provided in the control circuit unit 33 constituted by the microcomputer. Thus, it is detected that the combustion is being performed by the signal of the flame rod or the gas control valve, the combustion time is measured, and the accumulated value is stored in the storage means 35.
[0028]
The number of operations is recognized as one operation when the output of the first water quantity sensor 17 continues for a predetermined time for confirming that there is no erroneous operation by opening the hot water tap 5, and the number of operations is accumulated and stored. In the case of a bathtub, the number of times of operation can be similarly measured by the output of the second water amount sensor or the operation instruction signal of the operation device 31.
[0029]
Further, the storage means 35 is provided with a storage area for storing data which can constitute maintenance information as shown in FIG. 4 as predetermined package data.
[0030]
The operating means 31 for writing data to the storage means 35 or for instructing the display of data is usually used when the user uses the water heater, by setting the use mode of the operating device 31 to be used for setting the use conditions. Convert to maintenance mode and use.
[0031]
Needless to say, if necessary, an operator specialized in the maintenance and inspection of the hot water supply device may be connected to the controller 30 and used as the operating means by a specialist.
[0032]
FIG. 3 is an external view illustrating an example of the operation device 31. The operation device 31 includes a switch unit 38 and a display unit 39. The switch unit 38 includes two switches 41 and 42 for "warm" and "hot" used for setting hot water supply and tapping temperature of a bathtub, a "fully automatic" switch 43 for instructing a fully automatic operation, and an operation. A "driving" switch 44 for instructing, a "reserving driving" switch 45 for operating when instructing reserved driving, a "reserving setting" switch 46 for operating when setting a reserved time when instructing reserved driving, and when correcting the time. It has a “clock setting” switch 47 to be used, and further has “hour” and “minute” switches 48 and 49 used when setting time.
[0033]
The display unit 39 includes at least a hot water supply set temperature display unit A, a bathtub set temperature display unit B, and a set time display unit C. When a trader accesses the maintenance information processing apparatus by using the operation device 31, a hidden switch operation not normally used by a general user is set, and the operation device 31 is stored in the maintenance information storage device by the switch operation. The operation mode is switched to the maintenance mode in which access is possible, and the operation unit 31 is used.
[0034]
For example, by simultaneously pressing the two switches 44 and 41 of “operate” and “warm”, the operating device 31 is switched from the setting instruction mode of the controller 30 to the maintenance mode. By such an operation, each of the switches 41 to 49 of the switch unit 38 of the operation device 31 becomes a switch for displaying the write information of the storage means 35 or instructing the writing, and specifies the data for calling the data of the storage means 35. This is a switch for displaying information and instructing the display of data. The display unit 39 includes, for example, a monitor number display unit A for specifying the accumulated data by the hot water supply set temperature display unit A, a display unit B for a component code as information for specifying a replacement part, and a bathtub set temperature display unit B. The set time display section C is switched to the accumulated data display section C.
[0035]
In order to easily write a replacement part, a code is set as shown in the table below for a component of the water heater that may be replaced as information for specifying the component replaced when the water heater is repaired.
[0036]
[Table 2]

[0037]
The "hour" switch 48 for time setting is a component code display switch 48. Each time the switch 48 is pressed, the component code is sequentially displayed as 00, 01, 02, 03 on the component code display section B. If the supplier replaces the hot water supply fan motor when the hot water supply device is repaired, the code 01 is displayed on the component code display section B by the component code display switch 48. In this state, when the "clock setting" switch 47, which is a switch for confirmation, is pressed, the code 01 of the replacement part is stored in the storage area of the storage means 35, and the storage means 35 stores the code when the confirmation switch 47 is operated. All of the accumulated data from the start of use is stored in the storage means 35. When there are a large number of replacement parts and, for example, 30 part codes are set, the "minute" switch 49 for time setting is also used as the part code display switch 49, and each time the switch 49 is pressed, the number of the part code is changed. By displaying the parts in the reverse order of 30, 29, and 28 from the larger one, it is also possible to shorten the setting time of the part code.
[0038]
The part code 00 is a code for specifying maintenance and inspection / repair. When only maintenance and inspections and repairs are completed without replacing parts, 00 is displayed on the part code display section B and the confirmation switch 47 is pressed, and the use start at the time of the switch operation stored in the storage means 35 is started. Cumulative data from time is stored.
[0039]
Incidentally, as the accumulated data written when the part code is displayed and the decision switch 47 is operated, only the accumulated data relevant to the replacement part can be written. For example, the cumulative data written when the hot-water supply fan motor is replaced may be only the cumulative data of the monitor numbers 01, 02, and 04. Since the cumulative combustion time of the bathtub combustion section of the monitor number 03 is not directly related, this cumulative data Need not be stored. These can be set appropriately for each part to be replaced. As a result of the above-described writing operation by the operation unit 31, all data constituting the maintenance information shown in FIG. 4 is stored in the storage unit 35.
[0040]
At the time of maintenance and inspection, after the operator switches the operation device 31 to the maintenance mode and then presses the monitor switch 42 which is a monitor number display switch, the monitor number display section A specifies the cumulative combustion time of the hot water supply combustion section 3. The number is displayed as 01, and the cumulative combustion time from the start of use of the hot water supply combustion section corresponding to 01 is displayed in the cumulative data display section C. Each time the monitor number display switch 42 is pressed, the monitor number is sequentially changed to 02, 03, 04, 01, and the accumulated data from the start of use corresponding to the monitor number is sequentially displayed each time.
[0041]
When displaying the accumulated data from the start of use by the monitor number display switch 42, the component code display section B displays the component code written in the storage means 35. When there is no replacement part, 00 is displayed on the part code display section. If some parts have already been replaced, the numerical value of the cumulative data at the time of replacement is displayed on the part code display section B. Displays the smallest part code. In this state, when the trader presses the “reservation operation” switch 45 set in the part code calling switch, the accumulated data at the time of replacement of the replacement part specified by the monitor number displayed on the monitor number display part A is displayed. The accumulated data after the component replacement obtained by the arithmetic means of the control circuit unit 33 performing the arithmetic operation from the accumulated data from the start of use when the component code calling switch 45 is operated is displayed on the accumulated data display unit C.
[0042]
Further, each time the part code call switch 45 is pressed, the part code is called from the storage means 35 to the part code display section B in the order of the numerical value of the accumulated data at the time of replacement, that is, in the order in which the parts were replaced. At the same time, the accumulated data after the component replacement is displayed on the accumulated data display section C. When the accumulated data of the component code displayed by the component code call switch 45 is selected, the display of the monitor number display section A is changed by the monitor number display switch 42 in this state, so that the component replacement corresponding to the displayed monitor number is performed. The subsequent accumulated data can be displayed on the accumulated data display section C. When 00 is called to the part code display section B by the part code call switch 45, the cumulative data value at the time of maintenance and inspection is the largest, that is, the cumulative data at the last maintenance and inspection and the cumulative time from the start of use at the time of display. The accumulated data after the last maintenance and inspection calculated from the data by the arithmetic means is displayed on the accumulated data display section C.
[0043]
In addition, a switch for calling up the accumulated data at the time of the maintenance and inspection may be separately set, and the history of the accumulated data at the time of the maintenance and inspection may be viewed by operating the switch.
[0044]
The "reservation setting" switch 46 of the operation device 31 is set to the accumulated data calling switch 46, and the accumulated data corresponding to the monitor number and the part code displayed on the monitor number display part A and the part code display part B are displayed by the switch 46. You may let it. In addition, two cumulative data display sections are provided in parallel, and one display section displays the cumulative data from the start of use, and the other display section displays the cumulative data stored together with the component code, and displays the cumulative data after component replacement. You can also make data available.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a water heater showing an example of a heating device of the present invention.
FIG. 2 is a block diagram of a controller and an operating device of the hot water supply apparatus of FIG. 1;
FIG. 3 is an external view showing an example of the operation device shown in FIG. 2;
FIG. 4 is a view for explaining data stored in a storage device shown in FIG. 2;
[Explanation of symbols]
1,2,28─ water passage, 3,4─ combustion section, 5─ hot water tap, 7─ gas burner, 8─ combustion fan, 10,11─ gas control valve, 15,17─ water quantity sensor, 19,23─ hot water Temperature sensor, 30 controller, 31 operating device (operating means), 33 control circuit unit, 32 display unit, 35 storage unit, 38 switch unit, 39 display unit

Claims (5)

Measuring means for measuring cumulative data relating to the use history from the start of use of the device, nonvolatile storage means for updating and storing the cumulative data of the measuring means, and display means for displaying the cumulative data of the storage means. In the heating device provided, when a component configuring the heating device is replaced, writing of information for specifying the replacement component and storing the accumulated data at the time of the writing together with the information for specifying the replacement component in the storage unit. A heating information processing apparatus comprising: a maintenance information processing apparatus including operation means for calling information on the accumulated data after replacement of the replacement part together with information for specifying the replacement part from the storage means and displaying the information on the display means. . Computing means for calculating the cumulative data, the operating means, by the operating means is called together with information specifying a replacement part from the storage means, information on the cumulative data after replacement of the replacement part displayed on the display means, From the accumulated data from the start of use at the time of the calling and the accumulated data at the time of replacement stored together with the information specifying the replacement part, it is determined that the cumulative data after replacement of the replacement part obtained by the calculation means is obtained. The heating device according to claim 1, wherein: The measurement unit includes a plurality of measurement units that measure different types of accumulated data, the non-volatile storage unit includes a storage unit that updates and stores each accumulated data by the plurality of measurement units, and the operation unit includes: A switch for automatically storing the plurality of accumulated data at the time of writing when the information for specifying the replacement part is instructed in the storage unit together with the information for specifying the replacement part. The heating device according to claim 1, wherein The operation means, when maintenance or inspection or repair of the heating device is performed, writing of information for specifying maintenance or inspection and the cumulative data at the time of the writing together with information for specifying maintenance or inspection and the storage means. The cumulative data after the maintenance and inspection or repair determined by the arithmetic means from the cumulative data at the time of writing and the cumulative data from the start of use at the display time together with the information for specifying the maintenance and inspection or repair. 3. The heating device according to claim 2, wherein the operation unit is an operation unit that causes the display unit to display the following. The operating means includes an operating device for setting and instructing the use condition of the heating device, and has a switch for switching between a mode for operating the maintenance information processing device and a mode for setting the use condition of the heating device. The heating device according to claim 1.

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