JP2017101865A - Gas cooking stove - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a gas cooking stove in which a direct current obtained from a commercial power source is used for a power source of a control circuit in a state where no power failure occurs, a dry cell is used as a backup power source in the case of a power failure, the dry cell is prevented from being charged by the direct current obtained from the commercial power source even in the case where the power failure is cancelled and power is recovered, and an exchange frequency of the dry cell is reduced.SOLUTION: The gas cooking stove comprises: (a) stove burner; (b) a control circuit which uses DC power supply obtained from a commercial power source as a power source and controls the stove burner; (c) a backup power source 34 including a battery case 11 and dry cells 14a and 14b loaded in the battery case, and configured to supply power from the dry cells to the control circuit when a power failure occurs in the commercial power source; and (d) a switch part 20 which is disposed at an output side of the DC power source, brought into a conducted state when no dry cell is loaded in the battery case, and brought into an open state while the dry cells are loaded in the battery case.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a gas stove, and more specifically, includes a control circuit for a control burner that uses a DC power source obtained from a commercial power source as a power source, and a backup power source that supplies power from the dry battery to the control circuit when the commercial power source fails. Regarding gas stove.

In recent years, gas cookers have been required to have safety in use, good operability, automatic cooking functions, etc., and gas stoves equipped with a control circuit to enable these are widely provided Has been done.
A gas stove using a dry battery is known as a control circuit for a gas cooker and a drive power source for automatic cooking equipment.

  As this type of gas stove, as disclosed in, for example, Patent Document 1, two single dry batteries connected in series and used as a power source are widely used.

  When two single batteries are connected in series and used as a power source, the output voltage is a guide for battery replacement when the batteries are exhausted due to the use of equipment, that is, two exhausted single batteries are connected in series. The output voltage (end voltage) at is desirably about 2.1V. This is because integrated circuits (control circuits) that can be used at a power supply voltage of about 2V are widely used.

  By the way, when a dry cell is used as a power source of a control circuit of a gas stove, it becomes possible to reduce the frequency of battery replacement by suppressing the power consumption of the control circuit, but in general, the battery is about once a year. Replacement is necessary.

  On the other hand, it is sufficient to use a commercial power supply of AC 100V in order to eliminate the need for battery replacement. However, in this case, there is a problem that the control circuit cannot be used at the time of a power failure and the gas stove cannot be used.

  Here, as shown in FIG. 5, in a state where no power failure occurs, for example, a direct current of 3V voltage from the direct current power supply (DC power supply circuit) 103 using AC100V of the commercial power supply 101 is used as the power supply of the control circuit 102. It can be considered that the battery 104 is used as a power source (backup power source) at the time of power failure.

  When configured in this way, the control circuit 102 is driven by a direct current from a direct current power supply (DC power supply circuit) 103 obtained from the AC 100 V of the commercial power supply 101 during a normal time when no power failure occurs. The dry battery 104 is used as a backup power supply in place of the commercial power supply 101.

  In Japan, the frequency of power outages is low, and the dry battery 104 is used less frequently as a backup power supply in place of the direct current obtained from AC 100V. Therefore, in the above configuration, the consumption of the dry battery 104 used as the backup power supply can be kept low.

  As a result, the frequency of replacement of the battery can be kept extremely low compared with the case where only the dry battery is used as the power source of the control circuit without using the direct current obtained from AC100V as the power source of the control circuit. It becomes possible to provide a good gas stove.

  However, when a dry battery 104 is used as a backup power source at the time of a power failure, if the power failure is resolved and power is restored, the dry battery 104 used as the backup power source is a DC power source obtained from AC 100 V of the commercial power source 101. (DC power supply circuit) Charged by direct current from 103, there is a risk of gas generation, liquid leakage, and in some cases bursting.

  On the other hand, as shown in FIG. 6, it is conceivable to insert a backflow prevention diode 105 such as a silicon diode into the output of the backup power supply 103. In such a configuration, when the dry battery 104 is used as a backup power source in the event of a power failure, the dry battery 104 used as the backup power source is also a commercial power source (AC 100 V) even when the power failure is resolved and power is restored. It is possible to prevent the battery from being charged by the direct current obtained from 101.

However, when a backflow prevention diode is inserted into the output of the backup power supply, the DC voltage supplied to the control circuit is reduced due to a forward voltage drop when a current flows through the backflow prevention diode in the forward direction. Become.
When a silicon diode is used as a backflow prevention diode, the forward voltage drop of a general silicon diode is about 0.5V to 0.7V. Therefore, when two dry batteries 3 as a backup power source are connected in series. A voltage lower by about 0.5V to 0.7V than the output voltage is supplied to the control circuit.

  By the way, for example, assuming a case where two dry batteries are used in series as a backup power supply, the rated voltage of the backup power supply is 3.0 V, and the termination when two dry batteries used for the backup power supply are connected in series Considering that it is appropriate to set the voltage to about 2.1 V, the forward voltage drop of 0.5 V to 0.7 V described above is not a small value, and the usable time of the dry battery as a backup power source is shortened. Is a factor.

JP 2008-16185 A

  The present invention solves the above-mentioned problem, and in a state where a power failure has not occurred, a direct current obtained from a commercial power source is used as a power source for a control circuit. It is an object of the present invention to provide a gas stove in which a dry battery is not charged by a direct current obtained from a commercial power source even when the power is restored after being canceled, and the dry battery is not frequently replaced.

In order to achieve the above object, the gas stove of the present invention comprises:
(A) a stove burner;
(B) a control circuit for controlling the above-described burner using a DC power source obtained from a commercial power source as a power source;
(C) a battery case, and a backup power source configured to supply power from the dry battery to the control circuit when the commercial power source has a power failure, the battery having a dry battery loaded in the battery case;
(D) a switch unit that is disposed on the output side of the DC power supply and is in a conductive state when the battery case is not loaded with the battery case, and is open when the battery case is loaded with the battery case; It is characterized by having.

  In the gas stove according to the present invention, a part of the battery case is an opening, and the switch operating part that switches the switch part between the conductive state and the open state is located at a position facing the opening in the vicinity of the battery case. When the dry battery is not loaded in the battery case, the switch operation unit is not driven, the switch unit is maintained in a conductive state, and the dry battery is loaded in the battery case Preferably, the switch operation unit is driven by the dry battery facing the opening, and the switch unit is opened.

  Further, the battery case is configured such that a plurality of the dry batteries are electrically connected in series and loaded, and the opening of the battery case is configured such that any one of the plurality of dry batteries faces. Preferably it is.

The gas stove of the present invention is configured as described above, and includes a control circuit that uses a DC power source obtained from a commercial power source as a power source, and a dry battery mounted in a battery case serves as a backup power source. In a gas stove configured to supply power to the control circuit from the dry battery, when the battery case is not loaded on the output side of the DC power supply, the battery case is in a conductive state, and when the dry battery is loaded in the battery case Since a switch unit that is in an open state is provided in the power source, a direct current obtained from a commercial power source (for example, AC 100 V) is used as a power source for the control circuit in a state where no power failure occurs, and battery consumption is suppressed. .
On the other hand, when a dry battery is used as a backup power source in the event of a power failure, even if the power failure is resolved and power is restored, the dry battery used as the backup power source is charged by a direct current obtained from a commercial power source (for example, AC 100 V). You can prevent it from happening.

  In addition, according to the present invention, since the voltage drop between the dry battery as the backup power source and the control circuit is suppressed, it is possible to provide a gas stove excellent in usability by reducing the frequency of battery replacement. .

  In the gas stove according to the present invention, a part of the battery case is used as an opening, and a switch operation unit that switches the switch part between a conductive state and an open state is disposed at a position facing the opening in the vicinity of the battery case. When no dry battery is loaded, the switch operation unit is not driven and the switch unit is kept open. When a dry cell is loaded in the battery case, the switch operation unit is driven by the dry battery facing the opening. When the switch portion is configured to be in the open state, the above-described gas stove according to the present invention can be configured without requiring a complicated structure, which is significant.

  In addition, when the battery case is configured such that a plurality of dry batteries are electrically connected in series, and any one of the plurality of dry batteries faces the opening of the battery case, the battery case It is possible to reliably switch between the conduction state and the open state of the switch part without requiring a complicated configuration, by providing one opening part and one switch operation part driven by it. A gas stove can be realized, and the cost can be reduced.

  If the batteries are not connected in series, the backup power supply itself composed of a plurality of batteries will be in an open state. Therefore, it is not necessary to perform a switch operation to open the switch section, and the plurality of batteries are electrically connected. Therefore, when the batteries are connected in series, any one of the batteries will surely face the opening, and the battery facing the opening reliably drives the switch operation part to open the switch part. It will be in a state. Therefore, even when a plurality of dry batteries are connected in series and loaded into the battery case, the above-described gas stove according to the present invention can be configured without requiring a complicated structure.

It is a principal part side view in the state where the dry battery is not loaded in the battery case used for the gas stove concerning the embodiment of the present invention. It is a principal part side view in the state where the dry cell is loaded in the battery case used for the gas stove concerning the embodiment of the present invention. It is a circuit diagram which shows the power supply system | strain to the control circuit of the gas stove concerning embodiment of this invention. It is a perspective view of the gas stove concerning the embodiment of the present invention. It is a circuit diagram which shows the power supply system | strain to the control circuit assumed in the conventional gas stove. It is a circuit diagram which shows the power supply system | strain to the further another control circuit assumed in the conventional gas stove.

  Hereinafter, the embodiment of the present invention will be shown and the features thereof will be described in more detail.

[Embodiment]
As shown in FIG. 4, the gas stove 1 according to the first embodiment includes a top plate 30 that constitutes the top surface portion of the gas stove main body 10, and a stove unit having two stove burners 21 and 22 disposed on the top plate 30. It is a gas table stove provided with 2a and the grill 2b.

  The gas stove 1 includes a control circuit 32 that controls the above-described stove burners 21 and 22, and the control circuit 32 generates 3 V DC from a DC power supply (DC power supply circuit) 33 obtained from a commercial power supply (AC 100 V) 31. The power source is used (see FIG. 3).

  The front panel 12 constituting the front surface of the stove body 10 has a point-extinguishing button 41 (41a) for the left-side stove burner 21, a point-extinguishing button 41 (41b) for the right-side stove burner 22, and a point for the grill burner. A fire extinguishing button 41 (41c) is provided. Further, a battery accommodating portion 42 is disposed on the front panel 12.

  Further, the gas stove 1 includes a backup power source 34 when the commercial power source (AC 100 V) 31 fails. The backup power source 34 is controlled from the dry batteries 14a and 14b loaded in the battery case 11 (see FIG. 2). Is configured to supply power.

  In this embodiment, the backup power source 34 is configured by connecting two 1.5 V dry batteries 14 a and 14 b in series in the battery case 11.

  The gas stove 1 is turned on when the battery case 11 is not loaded with the dry batteries 14a and 14b, and the gas stove 1 is connected to the switch unit 20 that is opened when the battery case 11 is loaded with the dry batteries 14a and 14b. It is provided for the output of the power source 33.

  In this embodiment, as shown in FIGS. 1 and 2, the battery case 11 is provided with an opening 11a in a part of the battery case 11, and the switch operation unit 20a for switching the switch unit 20 between a conductive state and an open state. 11 when the battery case 11 is loaded with two dry batteries 14a and 14b, the dry battery 14a or 14b facing the opening 11a (in this embodiment, 14a). ) Is configured to drive the switch operation unit 20a to open the switch unit 20.

  More specifically, the battery case 11 is configured to be loaded with two (plural) dry batteries 14 a and 14 b electrically connected in series, and is rated against the control circuit 32. Is configured to output a voltage of 3V. On the other hand, the battery case 11 is formed with only an opening 11a corresponding to one dry battery (dry battery 14a in FIG. 2), and the switch operation part 20a of the switch part 20 is also provided only in this one dry battery 14a. It arrange | positions so as to oppose the corresponding opening part 11a.

  When the battery case 11 is loaded so that the two dry batteries 14a and 14b are electrically connected in series, one of the two dry batteries 14a and 14b (14a in FIG. 2) is the battery case. 11, the dry battery 14 a facing the opening 11 a pushes down the switch operation unit 20 a of the switch unit 20 to drive the switch operation unit 20 a so that the switch unit 20 is opened. .

  In this way, since the contact of the switch unit 20 is opened and opened, when the battery case 11 is loaded with the dry batteries 14a and 14b as the backup power source 34 at the time of a power failure, the power failure is eliminated and power is restored. In this case, it is possible to reliably avoid the dry batteries 14a and 14b used as the backup power supply 34 being charged by direct current from the direct current power supply (DC power supply circuit) 33 obtained from the commercial power supply (AC100V) 31.

  Further, when configured as described above, even when two dry batteries 14a and 14b are used, one opening 11a is provided in the battery case 11, and one switch operation unit 20a is provided at a position facing the opening 11a. It is possible to configure the gas stove 1 capable of surely switching between the conductive state and the open state of the switch unit 20 without requiring a complicated configuration.

  On the other hand, the gas stove according to the present invention can be configured such that two dry batteries are electrically connected in parallel and loaded into a battery case. In this case, each of the two dry batteries is used. Since an opening corresponding to the above and a switch operation unit are required, which leads to a complicated structure and an increase in cost, it is desirable to have the configuration of the above embodiment as much as possible.

  Further, as described above, the gas stove 1 of this embodiment is configured such that the opening 11a is provided in the battery case 11 and the switch operation unit 20a is driven by the dry battery facing the opening 11a. As shown in FIG. 1, when the battery case 11 is not loaded with the dry batteries 14a and 14b, the switch operation unit 20a of the switch unit 20 is not driven to be opened and the contact is closed. Therefore, the direct current from the direct-current power supply (DC power supply circuit) 33 obtained from the commercial power supply (AC100V) 31 is used as the power supply for the control circuit 32.

  On the other hand, as shown in FIG. 2, when the battery case 11 is loaded with the dry batteries 14 a and 14 b, the switch operation unit 20 a of the switch unit 20 faces the opening 11 a of the battery case 11 (in FIG. 2, the dry battery 14a) is driven to be in an open state, and is in an open state in which the contact is opened. Therefore, direct current from a direct current power source (DC power source circuit) 33 obtained from a commercial power source (AC 100V) 31 is used as a power source for the control circuit 32 It is never used.

  Therefore, according to the present invention, a part of the battery case 11 is used as the opening 11a, and the switch operating unit 20 that switches between the conductive state and the open state is disposed at a position facing the opening 11a in the vicinity of the battery case 11. The gas stove is configured to include the switch unit 20 that is in a conductive state when the battery case 11 is not loaded with a dry battery and is opened when the battery case 11 is loaded with the dry batteries 14a and 14b. Can do.

  As a result, in a state where no power failure has occurred, it is possible to improve the usability by using a commercial power supply as the power supply for the control circuit, suppressing the consumption of the dry battery used for the backup power supply, and reducing the frequency of battery replacement. .

  In addition, when a dry battery is used as a backup power source in the event of a power failure, when the power failure is resolved and power is restored, the dry battery used as the backup power source is charged by the direct current obtained from the commercial power source. It can be avoided reliably.

  The present invention is not limited to the above embodiment, and various modifications can be made within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Gas stove 2a Stove part 2b Grill part 10 Gas stove main body 11 Battery case 11a Opening part 12 Front panel 14a, 14b Dry battery 20 Switch part 20a Switch operation part 21,22 Combustor 30 Top plate 31 Commercial power supply (AC100V)
32 Control circuit 33 DC power supply (DC power supply circuit)
34 Backup power source 42 Battery compartment

Claims (3)

(A) a stove burner;
(B) a control circuit for controlling the above-described burner using a DC power source obtained from a commercial power source as a power source;
(C) a battery case, and a backup power source configured to supply power from the dry battery to the control circuit when the commercial power source has a power failure, the battery having a dry battery loaded in the battery case;
(D) a switch unit that is disposed on the output side of the DC power supply and is in a conductive state when the battery case is not loaded with the battery case, and is open when the battery case is loaded with the battery case; A gas stove characterized by comprising: A part of the battery case is used as an opening, and a switch operation unit that switches the switch unit between the conductive state and the open state is disposed at a position facing the opening in the vicinity of the battery case, When the dry battery is not loaded in the battery case, the switch operation unit is not driven, the switch unit is maintained in a conductive state, and when the dry battery is loaded in the battery case, the opening is opened. The gas stove according to claim 1, wherein the switch operation unit is driven by the dry battery facing the switch and the switch unit is opened.   The battery case is configured such that a plurality of the dry batteries are electrically connected in series and loaded, and one of the plurality of dry batteries faces the opening of the battery case. The gas stove according to claim 2 characterized by these.

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