JP4056178B2 - Combustion device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a combustion apparatus provided with control means for controlling operation based on combustion control information.
[0002]
[Prior art]
In the combustion apparatus as described above, a plurality of setting switches for setting binary information are provided, and various information such as gas types for obtaining combustion control information can be obtained by appropriately changing the setting states of the plurality of setting switches. It is known to set and control operation by obtaining combustion control information from a plurality of binary information set by a plurality of setting switches.
In addition, in such a combustion apparatus, binary information such as ON / OFF is set by each of a plurality of setting switches, and information for combustion control is obtained from the setting states of the plurality of setting switches. The setting states of a plurality of setting switches are maintained as one storage state. That is, the current plurality of binary information set by the plurality of setting switches is directly used as various information such as the gas type. For example, when the gas type to be used is changed, it is set by the plurality of setting switches. A plurality of binary information is reset.
[0003]
[Problems to be solved by the invention]
However, in the conventional combustion apparatus, since a plurality of binary information set by a plurality of setting switches is directly used as various information such as a gas type and the information for combustion control is obtained from these information, If the setting switch is accidentally switched by accidental operation such as hitting a hand or an object, the binary information set by the setting switch is changed, and the incorrect binary information is erroneously changed. The control information for combustion is required, and there is a possibility that the operation is performed based on erroneous information.
[0004]
The present invention has been made paying attention to such a point, and an object thereof is to provide a combustion apparatus capable of preventing operation based on erroneous information.
[0005]
[Means for Solving the Problems]
In order to achieve this object, according to the first aspect of the present invention, in the combustion apparatus provided with the control means for controlling the operation based on the combustion control information, the combustion control information is obtained. A plurality of setting switches for setting a plurality of binary information are provided, and storage means for storing a plurality of binary information set by the plurality of setting switches is provided,
The control means obtains the combustion control information from a plurality of binary information stored in the storage means to control the operation, and a plurality of binary information set by the plurality of setting switches When a plurality of pieces of binary information stored in the storage means are different from each other, a check control for checking the operation is executed.
[0006]
That is, when an accidental operation such as a user's hand or object hitting the setting switch and an abnormality such as a missing bit in the storage means occur, a plurality of binary information set by the plurality of setting switches and the storage When the plurality of binary information stored in the storage unit is different from the plurality of binary information set by the plurality of setting switches and the plurality of binary information stored in the storage unit Even if an accident such as a user's hand or object hits a setting switch or an abnormality such as a bit missing in the storage means occurs by executing a restraint control that restrains driving, it is based on wrong information It is possible to prevent the operation from being controlled.
[0007]
In addition, in order to prevent the operation from being controlled based on erroneous information due to accidental operations such as the user's hand or object hitting the setting switch, multiple setting switches are used. It is conceivable to provide storage means for storing the binary information and control the operation by obtaining information for combustion control from a plurality of binary information stored in the storage means. In this case, the storage means When an abnormality such as missing bits occurs, a plurality of binary information stored in the storage means may become incorrect information, so there is still a possibility that the operation is controlled based on the incorrect information. However, as described above, by executing the check control, even if an accident such as a user's hand or object hits the setting switch and an abnormality such as a bit missing in the storage means occurs, It is possible to prevent the operation from being controlled on the basis of Tsu information.
[0008]
According to the second aspect of the present invention, the storage state switching means that can be switched to a plurality of types of storage states is provided, and the storage means is configured to use the storage state switching means for each of the plurality of types of storage states. The storage state to be set and a plurality of binary information set by the plurality of setting switches in the storage state are set as set information, and a plurality of set information is stored.
The control means includes a plurality of binary information set by the plurality of setting switches in the current storage state set by the storage state switching means, and the plurality of binary information stored in the storage means. It is configured to determine whether or not the set information corresponding to the current storage state set by the storage state switching means is different from the set information, and execute the check control.
[0009]
That is, binary information can be set by a plurality of setting switches in each of a plurality of types of storage states. Therefore, if the storage state can be switched between two states, each of the plurality of setting switches has 2 Value information can be set twice, and if the storage state can be switched to three states, the binary information can be set three times with each of a plurality of setting switches, and can be switched. Multiple binary information can be set to double, triple, or more with one setting switch according to the number of different storage states, reducing the number of setting switches for various information such as gas types Can be made.
Accordingly, the number of setting switches for various types of information such as gas types is reduced to reduce the cost, and the setting is made by a plurality of setting switches in the current storage state set by the storage state switching means. When the plurality of binary information and the set information corresponding to the current storage state set by the storage state switching means among the plurality of set information stored in the storage means are different, the driving is restrained. By performing the restraint control to be performed, it is possible to prevent the operation from being performed based on erroneous information.
[0010]
According to a third aspect of the present invention, the control means performs maintenance control for executing inspection operations for a plurality of control functions in each of the plurality of inspection steps based on a command from the mode switching instruction means. A mode and a normal control mode for executing a normal operation based on a plurality of control functions; and
In the normal control mode, the restraint control is executed, and in the maintenance control mode, rewrite control for rewriting information stored in the storage means is executed.
That is, for example, even if it is necessary to change a plurality of binary information for obtaining combustion control information in accordance with the change of the gas type to be used, the mode is switched to the maintenance control mode by the mode switching command means, It is only necessary to change and set a plurality of binary information with a plurality of setting switches. In a normal control mode in which a normal operation is executed, check control is executed.
Therefore, it is possible to easily cope with the necessity of changing a plurality of binary information, and it is possible to prevent the operation from being performed based on erroneous information.
[0011]
According to the invention of claim 4, the storage means includes a nonvolatile storage element, and a plurality of binary information set by the plurality of setting switches and the plurality of binary information are set in the nonvolatile storage element. It is configured to store operation control information for controlling the operation by obtaining the combustion control information from binary information,
The control means is configured to control the operation based on information stored in the storage means.
In other words, in the case where a storage means for storing the control information for operation is provided separately from the storage means for storing the plurality of binary information, a bit missing or the like is provided for the storage means for storing the plurality of binary information. While it is necessary to determine whether or not an abnormality has occurred, it is necessary to determine whether or not an abnormality such as a bit defect has occurred in the storage means storing the operation control information. Since the element stores not only a plurality of binary information but also operation control information, it is only necessary to determine whether or not an abnormality such as a missing bit has occurred in one storage means. It is possible to prevent the operation from being controlled based on the above.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
The example which applied the combustion apparatus concerning this invention to the hot-water supply apparatus is demonstrated based on drawing.
As shown in FIG. 1, this hot water supply apparatus includes a hot water supply section K that heats supplied water and supplies hot water to the tap tap 7, a control section H as a control means that controls the operation of the hot water supply section K, and this control section. The remote controller R is configured to instruct the operation information to H.
[0013]
The hot water supply section K is composed of a water heat exchanger 2 provided in the combustion chamber 1, a gas combustion burner 3 for heating the heat exchanger 2, and the like, and from the upstream side of the burner 3. There is also provided a fan 4 that allows the combustion air to be ventilated and the flow rate of which can be changed and adjusted, and a rotational speed sensor 4 a that detects the rotational speed of the fan 4.
[0014]
The heat exchanger 2 is connected with a water inlet 5 through which water is supplied from, for example, a household water supply, and a hot water outlet 6 through which hot water is heated to a manual hot water tap 7.
The water intake channel 5 is provided with a water flow rate sensor 8 for detecting the water flow rate to the heat exchanger 2 and a water temperature thermistor 9 for detecting the temperature of water supplied through the water intake channel 5. In addition, a tap temperature thermistor 10 that detects the temperature of hot water discharged from the tap tap 7 is provided in the tap channel 6.
[0015]
The fuel supply passage 11 for the burner 3 is provided with an electromagnetically operated intermittent valve 12 for intermittently supplying fuel, and an electromagnetically operated gas amount adjusting valve 13 for changing and adjusting the fuel supply amount (burning amount of the burner 3). In the vicinity of the burner 3, an igniter 14 for performing an ignition operation on the burner 3 and a frame rod 15 for detecting whether or not the burner 3 is ignited are provided.
[0016]
The remote controller R includes an operation switch 16 for instructing start / stop of operation of the hot water supply section K, a temperature setting switch 17 capable of changing and setting a target temperature for hot water, a display section for displaying a hot water temperature, a target temperature for hot water, and the like. 18, an operation lamp 19 for displaying the operation state, a combustion lamp 20 for displaying that the burner 3 is in the combustion state, and the like.
[0017]
As shown in FIG. 2, a plurality (for example, eight) of binary information setting switches 21 capable of setting ON / OFF binary information are provided, and one of the binary information setting switches 21 has two storage states. The remaining seven binary information setting switches 21 are configured as setting switches 23 for setting a plurality of binary information in each of the two storage states. Has been.
The control unit H includes a memory 101 having a nonvolatile memory element, a plurality of binary information set by a plurality of setting switches 23, and a plurality of binary information stored in the memory 101. A comparison unit 102 for determining whether or not the combustion is performed, a combustion control unit 103 for controlling the operation based on information stored in the memory 101, and the like.
[0018]
In addition, the control unit H is a maintenance control mode for executing inspection operations for a plurality of control functions in each of a plurality of inspection steps based on a command of a mode changeover switch 24 as a mode switching command means. And a normal control mode for executing a normal operation based on a plurality of control functions.
[0019]
The memory 101 uses, as set information, a storage state set by the storage state changeover switch 22 and a plurality of binary information set by the plurality of setting switches 23 in the storage state for each of a plurality of types of storage states. A plurality of sets of information are stored, and control information for operation for controlling the operation by obtaining combustion control information from a plurality of binary information set by the plurality of setting switches 23 is stored. Has been.
That is, in this embodiment, since the storage state changeover switch 22 can be switched between two storage states, the memory 101 is set with the storage state changeover switch 22 when various types of information such as gas types are set. ON storage state to be set, ON set information which is a plurality of binary information for ON set by the plurality of setting switches 23 in the ON storage state, and OFF storage state set by the storage state changeover switch 22 Two sets of information, that is, OFF set information that is a plurality of binary information for OFF set by a plurality of setting switches 23 in the OFF storage state, are stored, and a plurality of binary values that are various information such as gas types. An operation control program for obtaining combustion control information from the information and controlling the operation is stored.
[0020]
Therefore, in this embodiment, since the binary information can be set twice by each of the plurality of setting switches 23, the plurality of binary information can be set twice by the setting switch 23. The number of setting switches 23 for various types of information such as seeds can be reduced, and the cost can be reduced.
[0021]
The control unit H performs an operation for maintenance work as necessary in the maintenance control mode, and also executes rewrite control for rewriting information stored in the memory 101. In the normal control mode, the control unit H performs the rewrite control. A plurality of binary information set by the plurality of setting switches 23 in the current storage state set by the storage state change-over switch 22, When the set information corresponding to the current storage state set by the storage state change switch 22 is different from the two pieces of set information stored in the memory 101, the check control for checking the operation is executed. Yes.
[0022]
More specifically, when it becomes necessary to rewrite and set the information stored in the memory 101 due to the necessity of maintenance work such as inspection of the instrument or the change of the gas type to be used, the instrument is changed as necessary. In addition to performing maintenance work such as inspection, rewrite control for rewriting the storage state set by the storage state changeover switch 22 and the plurality of binary information set by the plurality of setting switches 23 in the storage state I am trying to do it. The rewritten information is stored as the mode changeover switch 24 switches from the maintenance control mode to the normal control mode.
[0023]
That is, in a maintenance operation such as inspection of an instrument, for example, an inspection process is performed for a plurality of control functions in a production process.
In the inspection of the ignition / extinguishing operation of the burner 3, the intermittent valve 12 and the gas amount adjusting valve 13 are opened, and the burner 3 is ignited by the igniter 14, or the intermittent valve 12 and the gas amount adjusting valve 13 are closed. Thus, the combustion of the burner 3 is stopped to check whether or not the ignition / extinguishing operation of the burner 3 is normally performed.
Further, in the incomplete combustion determination operation, whether the incomplete combustion determination operation is normally executed by detecting the CO concentration that temporarily increases when the burner 3 is ignited by a CO sensor or the like. I try to check whether or not.
[0024]
In the rewrite control, for each of a plurality of storage states, a storage state set by the storage state changeover switch 22 and a plurality of binary information set by the plurality of setting switches 23 in the storage state are combined. As information, a plurality of the set information is re-stored, and the operation control information is changed and stored again.
That is, for the set information, the ON storage state set by the storage state changeover switch 22 and the ON set information that is a plurality of binary information for ON set by the plurality of setting switches 23 in the ON storage state. Two sets of information, that is, an OFF storage state set by the storage state changeover switch 22 and OFF set information which is a plurality of binary information for OFF set by the plurality of setting switches 23 in the OFF storage state. The two sets of information that are set when the mode change switch 24 is set to the normal control mode are stored.
In addition, with respect to the operation control information, the operation control program is changed as the necessity for addition / change of the control operation occurs.
[0025]
In the combustion control, information such as the gas type and the number of the hot water supply device is read from a plurality of sets of information stored in the memory 101, information for combustion control suitable for the information is obtained, and the control information for operation is obtained. Based on this, the combustion state of the burner 3 is controlled.
That is, in the state in which the normal control mode is set by the mode changeover switch 24, the water flow rate sensor 8 is set in accordance with the opening operation of the hot-water tap 7 after the hot water discharge operation state is set with the ON operation of the operation switch 16. When the amount of water detected in step 1 exceeds the set amount of water, the ventilation operation by the fan 4 is started, and the intermittent valve 12 is opened and the gas amount adjustment valve 13 is adjusted to be the ignition gas amount. At the same time, the burner 3 is ignited by the igniter 14 and confirmed by the frame rod 15.
[0026]
Thereafter, the hot water supply temperature is set to the target temperature based on the detection information of the incoming water temperature thermistor 9, the outgoing water temperature thermistor 10, the water flow rate sensor 8, and the information on the target temperature set by the temperature setting switch 17. The combustion amount of the burner 3 necessary for the calculation is obtained by calculation. Then, the gas amount adjusting valve 13 is adjusted and controlled so that the amount of gas corresponding to the calculated amount of combustion is obtained, and the ventilation by the fan 4 is set so that the amount of ventilation of the fan 4 becomes an appropriate combustion state with respect to the adjusted amount of gas. Feedforward control for adjusting the amount is executed, and further feedback control for finely adjusting the opening of the fuel adjustment valve 13 is executed so that the detected temperature of the tapping temperature thermistor 10 becomes the target temperature.
In this way, hot water of the target temperature is discharged from the hot water tap 7.
[0027]
The restraint control is executed when the restraint control is executed, such as when a set time elapses after the power is turned on and the power reset operation or the previous restraint control is executed.
The check control is stored in the memory 101 as set information corresponding to the plurality of binary information currently set by the plurality of setting switches 23 and the storage state currently set by the storage state changeover switch 22. It is determined whether or not a plurality of binary information is different. When they are different, the combustion lamp 20 is flashed and a notification operation is performed so that the burner 3 is not burned thereafter.
[0028]
That is, when the storage state changeover switch 22 is currently set to the ON storage state, the current binary information set by the plurality of setting switches 23 and the ON set information stored in the memory 101 It is determined whether or not the plurality of binary binary information is different, and the restraint control is executed.
Further, when the storage state changeover switch 22 is currently set to the OFF storage state, the current binary information set by the plurality of setting switches and the OFF information stored in the memory 101 are turned OFF. It is determined whether or not the plurality of binary information is different, and the restraint control is executed.
[0029]
In this way, even if an accident such as a user's hand or object hits the setting switch 23 or an abnormality such as a bit missing occurs in the memory 101 by executing the above-described check control, incorrect information is generated. It is possible to prevent the operation from being controlled based on the above.
[0030]
The operation of the control unit H will be described based on the flowchart of FIG.
First, if the operation switch 16 is ON and the mode changeover switch 24 is set to the normal control mode, whether or not it is the timing for executing the control control such as the set time elapses after the previous control is executed. If it is determined that the control timing is the control control execution timing, the control control is executed (steps 1 to 3).
[0031]
That is, when the storage state changeover switch 22 is currently set to the ON storage state, the current binary information set by the plurality of setting switches 23 and the ON set information stored in the memory 101 On the plurality of binary information for ON, and when the storage state changeover switch 22 is currently set to the OFF storage state, the plurality of current binary information set by the plurality of setting switches and the memory A discrimination process for discriminating whether or not the plurality of binary information for OFF of the OFF information stored in 101 is different (step 4). When the two pieces of information to be compared are different, the combustion lamp 20 is blinked and a notification operation is performed, and thereafter, the burner 3 is abnormally stopped so as not to be burned (steps 5 to 7).
[0032]
When the two pieces of information to be compared are the same information, the control for operation is obtained by obtaining the combustion control information from the plurality of binary information set by the plurality of setting switches 23 stored in the memory 101. Based on the information, the combustion control of the burner 3 is executed.
That is, when the water flow rate detected by the water flow rate sensor 8 with the opening operation of the hot-water tap 7 exceeds the set water flow rate, the ventilation operation by the fan 4 is started, and the intermittent valve 12 is opened to set the gas amount. The adjustment valve 13 is adjusted to open so that the amount of ignition gas is the same, and the igniter 14 ignites the burner 3 and executes an ignition process to be confirmed by the frame rod 15 (steps 8 and 9). However, if the ignition of the burner 3 is not confirmed by the frame rod 15 and is not ignited, an error is displayed on the display unit 18, the intermittent valve 12 and the gas amount adjusting valve 13 are closed, and then the fan 4 is operated. An abnormal stop is performed to stop the operation.
[0033]
When the ignition process is executed and the burner 3 is ignited, the detection information of the incoming water temperature thermistor 9, the outgoing water temperature thermistor 10, the water flow rate sensor 8, and the target temperature set by the temperature setting switch 17. Based on this information, the combustion amount of the burner 3 necessary for setting the hot water supply temperature to the target temperature is obtained by calculation, and the gas amount adjustment valve 13 is adjusted so that the gas amount corresponding to the obtained combustion amount is obtained. In addition to control, feedforward control is performed to adjust the ventilation rate of the fan 4 so that the ventilation rate of the fan 4 is in an appropriate combustion state with respect to the adjusted gas amount, and the detected temperature of the tapping temperature thermistor 10 is set as a target. Feedback control is executed to finely adjust the opening of the gas amount adjusting valve 13 so as to reach the temperature (step 10).
[0034]
In this way, in the adjustment control of the gas amount and the air flow rate by the feedforward control and the feedback control, the water flow amount detected by the water flow rate sensor 8 with the closing operation of the hot water tap 7 is less than the set water amount, Or, it is executed until the operation switch 16 is turned off (steps 11 and 12). That is, when the water flow detected by the water flow sensor 8 becomes less than the set water flow or when the operation switch 16 is turned off, the intermittent valve 12 and the gas flow control valve 13 are closed, and the set time has elapsed. A combustion stop process for stopping the operation of the rear fan 4 to stop the combustion of the burner 3 is executed (step 13).
[0035]
Then, when the necessity of maintenance work such as inspection of the instrument or the need to rewrite and set the information stored in the memory 101 arises and the maintenance control mode is set by the mode changeover switch 24, as necessary Maintenance work and rewrite control are executed.
That is, when maintenance work is necessary, maintenance work such as inspection of the ignition / extinguishing operation and incomplete combustion determination operation of the burner 3 is performed (steps 2 and 14).
[0036]
As a maintenance operation, when inspecting the ignition / extinguishing operation of the burner 3, the intermittent valve 12 and the gas amount adjusting valve 13 are opened, and the burner 3 is ignited by the igniter 14, or the intermittent valve 12 and the gas amount adjusting valve 13 are ignited. Is closed to stop the combustion of the burner 3 to check whether the ignition / extinguishing operation of the burner 3 is normally performed.
Further, when the incomplete combustion determination operation is inspected, whether or not the incomplete combustion determination operation is normally executed by detecting a CO concentration that temporarily increases when the burner 3 is ignited by a CO sensor or the like. I try to inspect it.
[0037]
Then, in the above-described inspection process, in spite of the ignition operation to the burner 3, inspection abnormality such as ignition not being confirmed by the frame rod 15 or ignition operation to the burner 3 not being performed, or incomplete combustion When an inspection abnormality occurs such as being not discriminated, a notification operation is performed, and the inspection item in which an abnormality has occurred and the content of the abnormality are displayed on the display unit 18.
[0038]
When rewriting control is executed to rewrite information stored in the memory 101, the storage state set by the storage state changeover switch 22 and the plurality of storage states in the storage state are set for each of the plurality of types of storage states. When a plurality of binary information set by the setting switch 23 is set as set information, a plurality of set information is stored again, and the control information for operation is changed and stored again. The normal control mode is set by the changeover switch 24 so that the normal operation is executed (step 15). When the mode switch 24 is switched to the normal control mode, the changed information is stored in the memory 101.
[0039]
[Another embodiment]
(1) In the above embodiment, the storage state changeover switch 22 is provided, the storage state set in the memory 101 by the storage state changeover switch 22 and a plurality of binary values set by the plurality of setting switches 23 in the storage state. A plurality of pieces of group information are stored as information, but the storage state changeover switch 22 is not provided, and only a plurality of binary information set by the plurality of setting switches 23 is stored in the memory 101. You may make it make it.
[0040]
(2) In the above-described embodiment, it is possible to switch between the maintenance control mode and the normal control mode based on the command of the mode changeover switch 24. However, only the normal control mode is provided, and rewriting is performed in this normal control mode. You may make it perform control.
[0041]
(3) In the above embodiment, the driving control information is also stored in the memory 101. However, a dedicated memory for storing the driving control information may be provided.
[0042]
(4) In the above-described embodiment, a plurality of binary information currently set by the plurality of setting switches 23 and set information corresponding to the storage state set by the current storage state changeover switch 22 are stored in the memory 101. It is determined whether or not a plurality of stored binary information is different. When the two binary information are different, the combustion lamp 20 is blinked and a notification operation is performed. It may be displayed or operated with a notification buzzer.
[0043]
(5) In the above embodiment, the storage state switching means can be switched to two storage states by the binary information switch 21 capable of setting binary information. However, the storage state switching means is changed to three or more storage states. A switch separate from the switchable binary information switch 21 may be used.
In this case, binary information can be set by a plurality of setting switches 23 in each storage state. For example, when the storage state switching means can be switched to three storage states, a plurality of setting switches 23 are provided. The binary information can be set at a maximum of 3 times.
[0044]
(6) In the above embodiment, the memory 101 is configured to include a nonvolatile memory element, but may be configured to include a volatile memory element, and various types of memory elements are applicable.
[0045]
(7) In the above embodiment, an example in which the combustion apparatus according to the present invention is applied to a hot water supply apparatus is shown, but the present invention can be applied to other various apparatuses such as a heating apparatus.
[Brief description of the drawings]
FIG. 1 is an overall schematic configuration diagram of a hot water supply apparatus.
FIG. 2 is a control block diagram.
FIG. 3 is a flowchart showing a control operation.
[Explanation of symbols]
22 Memory state switching means
23 Setting switch
24 mode switching command means
101 Storage means
H Control means

Claims (4)

A combustion device provided with control means for controlling operation based on information for combustion control,
A plurality of setting switches for setting a plurality of binary information for obtaining the combustion control information;
Storage means for storing a plurality of binary information set by the plurality of setting switches is provided,
The control means obtains the combustion control information from a plurality of binary information stored in the storage means to control the operation, and a plurality of binary information set by the plurality of setting switches And a combustion apparatus configured to execute a restraint control for restraining operation when the binary information stored in the storage means is different. A storage state switching means capable of switching to a plurality of types of storage states is provided,
The storage means sets, for each of the plurality of types of storage states, a storage state set by the storage state switching means and a plurality of binary information set by the plurality of setting switches in the storage state Is configured to store a plurality of the set information,
The control means includes a plurality of binary information set by the plurality of setting switches in the current storage state set by the storage state switching means, and the plurality of binary information stored in the storage means. It is configured to determine whether or not the set information corresponding to the current storage state set by the storage state switching means among the set information is different, and execute the check control. The combustion apparatus according to 1. The control means is
In order to execute a maintenance control mode for executing inspection operations for a plurality of control functions in each of a plurality of inspection processes and a normal operation based on the plurality of control functions based on a command from the mode switching command means. Switchable to normal control mode, and
The combustion according to claim 1 or 2, wherein the control control is executed in the normal control mode, and rewrite control is executed to rewrite information stored in the storage means in the maintenance control mode. apparatus. The storage means includes a nonvolatile storage element, and the combustion control information is obtained from the plurality of binary information set by the plurality of setting switches and the plurality of binary information in the nonvolatile storage element. Is configured to store driving control information for controlling driving,
The combustion apparatus according to any one of claims 1 to 3, wherein the control means is configured to control operation based on information stored in the storage means.

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