JP6890526B2 - Cooker - Google Patents

Description

The present invention relates to a heating cooker provided with an operation unit for operating the heating unit.

Conventionally, a cooking cooker has been proposed in which an operation is confirmed by continuously inputting the same operation key a plurality of times (see, for example, Patent Document 1).

The heating cooker according to Patent Document 1 has a plate arranged on the upper surface of the main body on which the object to be heated is placed, a heating unit for heating a pot which is the object to be heated below the plate, and a heating unit provided on the plate. The control means includes an operation unit that sets the input of the heating conditions according to the change in capacitance and a control means that controls the heating unit according to the heating conditions set by the operation unit. The operation is confirmed by inputting the key multiple times in succession. In addition, Braille indicating the key name and the like is provided on the upper part of the touch key so that the visually impaired person can operate the touch key of the capacitive switch.

In Patent Document 1, the key operation is not fixed in the first operation, but the operation can be fixed by performing the same operation a plurality of times. Therefore, even if a visually impaired person touches a touch key when reading Braille, it is possible to prevent an unintended operation from being input, and the visually impaired person can use the capacitive switch safely and comfortably. can do.

Japanese Unexamined Patent Publication No. 2015-106461

However, since some visually impaired people cannot read Braille well, for such people, the heating cooker according to Patent Document 1 has a structure in which the names of operation keys and the like are shown in Braille. There was a problem that the operation unit of was not easy to use.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a cooking cooker capable of improving the usability of an operation unit for a visually impaired person.

The heating cooker according to the present invention has a plurality of operation keys composed of a heating unit for heating a cooking container, a contact detection unit for detecting contact, and a pressing detection unit for detecting pressing, and an operation of the heating unit. When the contact detection unit detects a contact with any of the operation keys in the plurality of operation keys, the notification unit is provided with an operation unit for performing the operation and a notification unit for guiding the operation and notifying the occurrence of an abnormality. The unit notifies what operation key the operation key is, and when the press detection unit detects a press, the input of the pressed operation key is accepted , and the contact detection unit receives the operation. When a contact with a key is detected, if the operation key is not an operable operation key, the notification unit is provided with a control device that does not notify what operation key the operation key is. ..

According to the heating cooker according to the present invention, when a contact with an operation key is detected, the notification unit notifies what operation key the operation key is, and the press detection unit detects the contact. When the press of is detected, the operation is accepted. Therefore, the user can input the operation key while knowing what the operation key is, and the usability of the operation unit can be improved for the visually impaired.

It is a perspective view of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 1st example of the structure of the operation part of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 2nd example of the structure of the operation part of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 3rd example of the structure of the operation part of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 4th example of the structure of the operation part of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 5th example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the sixth example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 7th example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the eighth example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the 9th example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the tenth example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the eleventh example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a schematic diagram which shows the twelfth example of the structure of the operation part of the heating cooker which concerns on Embodiment 1 of this invention. It is a block diagram which shows the electric structure of the cooking apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows an example of the operation at the time of operation of the heating cooker which concerns on Embodiment 1 of this invention. It is a flowchart which shows an example of the operation at the time of operation of the heating cooker which concerns on Embodiment 2 of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. The present invention is not limited to the embodiments described below. Further, in the drawings below, the relationship between the sizes of the constituent members may differ from the actual one. In the following, the vertical and horizontal directions and the front-back direction are assumed to be the directions when the cooking cooker is viewed from the front.

Embodiment 1.
FIG. 1 is a perspective view of a cooking device 100 according to a first embodiment of the present invention.
As shown in FIG. 1, the cooker 100 according to the first embodiment has an upper unit 10 having a top plate 11, an operation unit 30, and a display unit 19, and a lower portion having a housing 21 and a grill storage 22. It includes a unit 20 and.

The user can operate the operation unit 30 arranged on the front side of the upper surface of the heating cooker 100 to, for example, select a cooking menu and control the heating unit. The operation unit 30 will be described in detail later. Further, the display unit 19 displays the operating state of the cooking cooker 100, the input contents to the operating unit 30, and the like, and also displays the state of the cooking cooker 100 to the user.

The upper unit 10 has a heating unit (a left heating unit 26, a right heating unit 27, and a central heating unit 28, which will be described later) on the lower side of the top plate 11. The heating unit is, for example, an induction heating coil, and the induction heating coil is arranged on the lower surface side of the top plate 11. The upper end of the induction heating coil is close to the lower surface of the top plate 11 with a small interval, and serves as an induction heating source.

A cooking container mounting portion (left mounting portion 12, right mounting portion 13, central mounting portion 14) is provided at a position corresponding to the heating portion of the top plate 11. The user can place a cooking container on the placing portion and cook. An intake port 17 and an exhaust port 18 are provided behind the top plate 11, and a slit-shaped cover (not shown) is installed on the upper surface of the intake port 17 and the exhaust port 18.

The grill storage 22 of the lower unit 20 is provided inside the housing 21, and the wall surfaces on the upper, lower, left, right, and rear sides are formed by metal plates such as stainless steel and a rigid plate. Further, a pair of upper and lower radiant electric heating sources such as a Shih Tzu heater are installed near the upper ceiling and the bottom of the grill chamber 22 so as to spread substantially horizontally.

Next, the configuration of the operation unit 30 of the heating cooker 100 according to the first embodiment of the present invention will be described. The operation unit 30 has any of the configurations of the first example to the twelfth example described below. It may be.

FIG. 2 is a schematic view showing a first example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 2, the operation unit 30 includes a plurality of operation keys 31a, and the operation keys 31a are composed of a contact detection unit 32a, an operation board 33a, and a press detection unit 34a, respectively. .. Further, a protective cover 35a made of an insulator such as glass or escutcheon is provided on the upper part of each operation key 31a.

The contact detection unit 32a detects contact, and is, for example, a capacitance type touch switch composed of electrodes and whose capacitance changes when the user contacts the electrodes via the protective cover 35a. The contact detection unit 32a is located below the protective cover 35a and above the operation board 33a, and is provided in close contact with the protective cover 35a. Further, the operation board 33a is supported in close contact with the lower surface of the contact detection unit 32a.

The press detection unit 34a detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34a is provided below the operation board 33a. Further, the lower surface of the press detection unit 34a is fixed to the upper unit 10 side.

When the user presses the operation key 31a, the protective cover 35a is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31a, the deformation of the protective cover 35a is restored, and the electric circuit is de-energized by the restoring force that returns the tactile switch from on to off.

An operation circuit is mounted on the operation board 33a, and the operation board 33a is electrically connected to the contact detection unit 32a and the press detection unit 34a. Then, the detection signals of the contact detection unit 32a and the press detection unit 34a are sent to the control device 40 described later via the operation board 33a.

Further, since the detection range of the contact detection unit 32a and the detection range of the press detection unit 34a are the same for each operation key 31a, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 3 is a schematic view showing a second example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 3, the operation unit 30 includes a plurality of operation keys 31b. Each of the operation keys 31b is composed of a contact detection unit 32b provided for each operation key 31b, an operation board 33b common to all operation keys 31b, and a press detection unit 34b common to all operation keys 31b. ing. Further, a protective cover 35b made of an insulator such as glass or escutcheon is provided above each operation key 31b.

The contact detection unit 32b detects contact, and is, for example, a capacitance type touch switch composed of electrodes and whose capacitance changes when the user contacts the electrodes via the protective cover 35b. The contact detection unit 32b is located below the protective cover 35b and above the operation board 33b, and is provided in close contact with the protective cover 35b. Further, the operation board 33b is supported in close contact with the lower surface of the contact detection unit 32b.

The press detection unit 34b detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34b is provided below the operation board 33b. Further, the lower surface of the press detection unit 34b is fixed to the upper unit 10 side.

When the user presses the operation key 31b, the protective cover 35b is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31b, the deformation of the protective cover 35b is restored, and the electric circuit is de-energized by the restoring force that returns the tactile switch from on to off.

An operation circuit is mounted on the operation board 33b, and the operation board 33b is electrically connected to the contact detection unit 32b and the press detection unit 34b. Then, the detection signals of the contact detection unit 32b and the press detection unit 34b are sent to the control device 40 described later via the operation board 33b.

Further, since the detection range of the contact detection unit 32b and the detection range of the press detection unit 34b are the same for each operation key 31b, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 4 is a schematic view showing a third example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 4, the operation unit 30 includes a plurality of operation keys 31c. The operation key 31c is composed of a contact detection unit 32c, operation boards 33c1 and 33c2, and a press detection unit 34c, respectively. Further, a protective cover 35c made of an insulator such as glass or escutcheon is provided above each operation key 31c.

The contact detection unit 32c detects contact, and is, for example, a capacitance type touch switch composed of electrodes and whose capacitance changes when the user contacts the electrodes via the protective cover 35c. The contact detection unit 32c is located below the protective cover 35c and above the operation board 33c1 and is provided in close contact with the protective cover 35c. Further, the operation board 33c1 is closely supported on the lower surface of the contact detection unit 32c.

The press detection unit 34c detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34c is located below the protective cover 35c and above the operation board 33c2, and is provided adjacent to the contact detection unit 32c in the horizontal direction. Further, the lower surface of the pressing detection unit 34c is fixed to the upper surface of the operation board 33c2, and the lower surface of the operation board 33c2 is fixed to the upper unit 10 side.

When the user presses the operation key 31c, the protective cover 35c is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31c, the deformation of the protective cover 35c is restored, and the electric circuit is de-energized by the restoring force that returns from the on to the off of the tactile switch.

An operation circuit is mounted on the operation board 33c1, and the operation board 33c1 is electrically connected to the contact detection unit 32c. Then, the detection signal of the contact detection unit 32c is sent to the control device 40 described later via the operation board 33c1. Further, the operation board 33c2 is mounted with an operation circuit and is electrically connected to the press detection unit 34c. Then, the detection signal of the press detection unit 34c is sent to the control device 40 via the operation board 33c2.

Further, since the detection range of the contact detection unit 32b and the detection range of the press detection unit 34b are different from each operation key 31c, the contact and pressure are detected by the user touching and pressing at different positions.

FIG. 5 is a schematic view showing a fourth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 5, the operation unit 30 includes a plurality of operation keys 31d. Each of the operation keys 31d is composed of a contact detection unit 32d provided for each operation key 31d, an operation board 33d common to all the operation keys 31d, and a press detection unit 34d provided for each operation key 31d. ing. Further, a protective cover 35d made of an insulator such as glass or escutcheon is provided above each operation key 31d.

The contact detection unit 32d detects contact, and is, for example, a capacitance type touch switch that is composed of a spring and whose capacitance changes when the user contacts the spring via the protective cover 35d. The contact detection unit 32d is located below the protective cover 35d and above the operation board 33d, and is provided in close contact with the protective cover 35d. Further, the lower surface of the operation board 33d1 is fixed to the upper unit 10 side.

The press detection unit 34d detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The push detection unit 34d is located below the protective cover 35d and above the operation board 33d, and is provided inside the contact detection unit 32d, which is a spring. Further, the lower surface of the press detection unit 34d is fixed to the upper surface of the operation board 33d.

When the user presses the operation key 31d, the protective cover 35d is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31d, the deformation of the protective cover 35d is restored, and the electric circuit is de-energized by the restoring force that returns the tactile switch from on to off.

An operation circuit is mounted on the operation board 33d, and the operation board 33d is electrically connected to the contact detection unit 32d and the press detection unit 34d. Then, the detection signals of the contact detection unit 32d and the press detection unit 34d are sent to the control device 40 described later via the operation board 33d.

Further, since the detection range of the contact detection unit 32d and the detection range of the press detection unit 34d are the same for each operation key 31d, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 6 is a schematic view showing a fifth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 6, the operation unit 30 includes a plurality of operation keys 31e. Each of the operation keys 31e is composed of a contact detection unit 32e provided for each operation key 31e, an operation board 33e common to all operation keys 31e, and a press detection unit 34e common to all operation keys 31e. ing. Further, a protective cover 35e made of an insulator such as glass or escutcheon is provided above each operation key 31e.

The contact detection unit 32e detects contact, and is, for example, a capacitance type touch switch that is composed of a spring and whose capacitance changes when the user contacts the spring via the protective cover 35e. The contact detection unit 32e is located below the protective cover 35e and above the operation board 33e, and is provided in close contact with the protective cover 35e. Further, the operation board 33e is supported in close contact with the lower surface of the contact detection unit 32e.

The press detection unit 34e detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34e is provided below the operation board 33e. Further, the lower surface of the press detection unit 34e is fixed to the upper unit 10 side.

When the user presses the operation key 31e, the protective cover 35e is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31e, the deformation of the protective cover 35e is restored, and the electric circuit is de-energized by the restoring force that returns from the on to the off of the tactile switch.

An operation circuit is mounted on the operation board 33e, and the operation board 33e is electrically connected to the contact detection unit 32e and the press detection unit 34e. Then, the detection signals of the contact detection unit 32e and the press detection unit 34e are sent to the control device 40 described later via the operation board 33e.

Further, since the detection range of the contact detection unit 32e and the detection range of the press detection unit 34e are the same for each operation key 31e, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 7 is a schematic view showing a sixth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 7, the operation unit 30 includes a plurality of operation keys 31f. Each of the operation keys 31f is composed of a contact detection unit 32f provided for each operation key 31f, an operation board 33f common to all operation keys 31e, and a press detection unit 34f provided for each operation key 31f. ing. Further, a protective cover 35f made of an insulator such as glass or escutcheon is provided above each operation key 31f.

The contact detection unit 32f is a touch switch of a capacitance type that detects contact, for example, is composed of a spring, and the capacitance changes when the user contacts the spring via the protective cover 35f. The contact detection unit 32f is located below the protective cover 35f and above the operation board 33f, and is provided in close contact with the protective cover 35f.

The press detection unit 34f detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34f is located below the protective cover 35f and above the operation board 33f, and is provided adjacent to the contact detection unit 32f in the horizontal direction. Further, the lower surface of the pressing detection unit 34f is fixed to the upper surface of the operation board 33f, and the lower surface of the operation board 33f is fixed to the upper unit 10 side.

When the user presses the operation key 31f, the protective cover 35f is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31f, the deformation of the protective cover 35f is restored, and the electric circuit is de-energized by the restoring force that returns from the on to the off of the tactile switch.

An operation circuit is mounted on the operation board 33f, and the operation board 33f is electrically connected to the contact detection unit 32f and the press detection unit 34f. Then, the detection signals of the contact detection unit 32f and the press detection unit 34f are sent to the control device 40 described later via the operation board 33f.

Further, since the detection range of the contact detection unit 32b and the detection range of the press detection unit 34f are different from each operation key 31f, the contact and pressure are detected by the user touching and pressing at different positions.

FIG. 8 is a schematic view showing a seventh example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 8, the operation unit 30 includes a plurality of operation keys 31g. Each of the operation keys 31g is composed of a contact detection unit 32g provided for each operation key 31g, an operation board 33g common to all operation keys 31g, and a press detection unit 34g provided for each operation key 31g. ing. Further, a protective cover 35g made of an insulator such as glass or escutcheon is provided above each operation key 31g.

The contact detection unit 32g detects contact. For example, the contact detection unit 32g is composed of electrodes, and is of a capacitance type in which the capacitance changes when the user contacts the electrodes via the protective cover 35g and the pressing detection unit 34g. It is a touch switch. The contact detection unit 32g is located below the pressing detection unit 34g and above the operation board 33g, and is provided in close contact with the pressing detection unit 34g.

The pressing detection unit 34g detects the pressure due to pushing, for example, is composed of a strain gauge, and takes out the change in the pressure applied to the strain gauge when the user pushes it down as the change in the current value flowing through the strain gauge. .. The press detection unit 34g is located below the protective cover 35g and above the contact detection unit 32g, and is provided in close contact with the protection cover 35f. Further, the lower surface of the pressing detection unit 34g is fixed to the upper unit 10 side.

When the user presses down the operation key 31g, the protective cover 35g is elastically deformed and the strain gauge is pushed down to apply pressure, and the current value flowing through the strain gauge changes to detect that the operation key 31g is pushed down. On the other hand, when the user releases the operation key 31g, the deformation of the protective cover 35g is restored, the pressure applied to the strain gauge is released, and it is detected that the operation key 31g is no longer pressed down.

An operation circuit is mounted on the operation board 33g, and the operation board is electrically connected to the contact detection unit 32g and the pressing detection unit 34g. Then, the detection signals of the contact detection unit 32g and the pressing detection unit 34g are sent to the control device 40 described later via the operation board 33g.

Further, since the detection range of the contact detection unit 32g and the detection range of the press detection unit 34g are the same for each operation key 31g, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 9 is a schematic view showing an eighth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 9, the operation unit 30 includes a plurality of operation keys 31h. The operation key 31h is composed of a contact detection unit 32h, an operation board 33h, and a press detection unit 34h, respectively. Further, a protective cover 35h made of an insulator such as glass or escutcheon is provided above each operation key 31h.

The contact detection unit 32h detects contact, and is, for example, a capacitance type touch switch composed of electrodes and whose capacitance changes when the user comes into contact with the electrodes. The contact detection unit 32h is located below the protective cover 35h and above the operation board 33h, and is provided in close contact with the protective cover 35h.

The push detection unit 34h detects the pressure due to pushing, for example, is composed of a strain gauge, and takes out a change in the pressure applied to the strain gauge when the user pushes it down as a change in the current value flowing through the strain gauge. .. The press detection unit 34h is provided below the operation board 33h. Further, the lower surface of the press detection unit 34h is fixed to the upper unit 10 side.

When the user presses down the operation key 31h, the protective cover 35h is elastically deformed and the strain gauge is pushed down to apply pressure, and the current value flowing through the strain gauge changes to detect that the operation key 31h is pushed down. On the other hand, when the user releases the operation key 31h, the deformation of the protective cover 35h is restored, the pressure applied to the strain gauge is released, and it is detected that the operation key 31h is no longer pressed down.

An operation circuit is mounted on the operation board 33h, and the operation board 33h is electrically connected to the contact detection unit 32h and the press detection unit 34h. Then, the detection signals of the contact detection unit 32h and the press detection unit 34h are sent to the control device 40 described later via the operation board 33h.

Further, since the detection range of the contact detection unit 32h and the detection range of the press detection unit 34h are the same for each operation key 31h, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 10 is a schematic view showing a ninth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 10, the operation unit 30 includes a plurality of operation keys 31i. The operation key 31i is composed of a contact detection unit 32i, an operation board 33i, and a press detection unit 34i, respectively. Further, a protective cover 35i made of an insulator such as glass or escutcheon is provided above each operation key 31i, and light is transmitted to a position directly above the contact detection unit 32i of the protective cover 35i. A light guide unit 36i is provided.

The contact detection unit 32i detects contact, and is composed of, for example, an optical sensor including a light receiving unit and a light emitting unit. When a user comes into contact with a light guide unit 36i on the optical sensor, the light emitting unit of the optical sensor It detects a change in the amount of light input to the light receiving unit. The contact detection unit 32i is provided directly below the light guide unit 36i of the protective cover 35i and above the operation board 33i.

The push detection unit 34i detects the pressure due to pushing, and is composed of, for example, a strain gauge, and takes out a change in the pressure applied to the strain gauge when the user pushes it down as a change in the current value flowing through the strain gauge. The press detection unit 34i is located below the protective cover 35i and above the operation board 33i, and is provided adjacent to the contact detection unit 32i in the horizontal direction. Further, the lower surface of the operation board 33i is fixed to the upper unit 10 side.

When the user presses down the operation key 31i, the protective cover 35i is elastically deformed and the strain gauge is pushed down to apply pressure, and the current value flowing through the strain gauge changes to detect that the operation key 31i is pushed down. On the other hand, when the user releases the operation key 31i, the deformation of the protective cover 35i is restored, the pressure applied to the strain gauge is released, and it is detected that the operation key 31i is no longer pressed down.

An operation circuit is mounted on the operation board 33i, and the operation board 33i is electrically connected to the contact detection unit 32i and the press detection unit 34i. Then, the detection signals of the contact detection unit 32i and the press detection unit 34i are sent to the control device 40 described later via the operation board 33i.

Further, since the detection range of the contact detection unit 32i and the detection range of the press detection unit 34i are different from each operation key 31i, the contact and pressure are detected by the user touching and pressing at different positions.

FIG. 11 is a schematic view showing a tenth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 11, the operation unit 30 includes a plurality of operation keys 31j. The operation key 31j is composed of a contact detection unit 32j, an operation board 33j, and a press detection unit 34j, respectively. Further, a protective cover 35j made of an insulator such as glass or escutcheon is provided above each operation key 31j, and light is transmitted to a position directly above the contact detection unit 32j of the protective cover 35j. A light guide unit 36j is provided.

The contact detection unit 32j detects contact, and is composed of, for example, an optical sensor including a light receiving unit and a light emitting unit. When a user comes into contact with a light guide unit 36j on the optical sensor, the light emitting unit of the optical sensor It detects a change in the amount of light input to the light receiving unit. The contact detection unit 32j is provided directly below the light guide unit 36j of the protective cover 35j and above the operation board 33j.

The press detection unit 34j detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34i is located below the protective cover 35j and above the operation board 33j, and is provided adjacent to the contact detection unit 32j in the horizontal direction. Further, the lower surface of the operation board 33j is fixed to the upper unit 10 side.

When the user presses the operation key 31j, the protective cover 35j is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31j, the deformation of the protective cover 35j is restored, and the electric circuit is de-energized by the restoring force that returns from the on to the off of the tactile switch.

An operation circuit is mounted on the operation board 33j, and the operation board 33j is electrically connected to the contact detection unit 32j and the press detection unit 34j. Then, the detection signals of the contact detection unit 32j and the press detection unit 34j are sent to the control device 40 described later via the operation board 33j.

Further, since the detection range of the contact detection unit 32j and the detection range of the press detection unit 34j are different from each operation key 31j, the contact and pressure are detected by the user touching and pressing at different positions.

FIG. 12 is a schematic view showing an eleventh example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 12, the operation unit 30 includes a plurality of operation keys 31k. The operation key 31k is composed of a contact detection unit 32k, an operation board 33k, a press detection unit 34k, and a connection body 37k, respectively. Further, a protective cover 35k made of an insulator such as glass or escutcheon is provided above each operation key 31k, and light is transmitted to a position directly above the contact detection unit 32k of the protective cover 35k. A light guide unit 36k is provided.

The contact detection unit 32k detects contact, and is composed of, for example, an optical sensor including a light receiving unit and a light emitting unit. When a user contacts the light guide unit 36k on the optical sensor, the light emitting unit of the optical sensor It detects a change in the amount of light input to the light receiving unit. The contact detection unit 32k is provided directly below the light guide unit 36k of the protective cover 35k and above the operation board 33k.

The press detection unit 34k detects the pressure due to pressing, and is, for example, a tactile switch that energizes an electric circuit when a user presses a button. The press detection unit 34k is located below the protective cover 35k and above the operation board 33k, and is provided adjacent to the contact detection unit 32k in the horizontal direction. Further, the push detection unit 34k is connected to the light guide unit 36k by, for example, a plastic connecting body 37k. Further, the lower surface of the operation board 33k is fixed to the upper unit 10 side.

When the user presses down the operation key 31k, the protective cover 35k is elastically deformed, the button is pushed down via the connector 37k, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31k, the deformation of the protective cover 35k is restored, and the electric circuit is de-energized by the restoring force that returns the tactile switch from on to off.

An operation circuit is mounted on the operation board 33k, and the operation board 33k is electrically connected to the contact detection unit 32k and the press detection unit 34k. Then, the detection signals of the contact detection unit 32k and the press detection unit 34k are sent to the control device 40 described later via the operation board 33k.

Further, since the detection range of the contact detection unit 32k and the detection range of the press detection unit 34k are the same for each operation key 31k, the contact and pressure are detected by the user touching and pressing at the same position. ..

FIG. 13 is a schematic view showing a twelfth example of the configuration of the operation unit 30 of the cooking cooker 100 according to the first embodiment of the present invention.
As shown in FIG. 13, the operation unit 30 includes a plurality of operation keys 31l. The operation key 31l is composed of a contact detection unit 32l, an operation board 33l, and a press detection unit 34l, respectively. Further, a protective cover 35l made of an insulator such as glass or escutcheon is provided above each operation key 31l, and light is transmitted to a position directly above the pressing detection unit 34l of the protective cover 35l. A light guide unit 36 liter is provided.

The contact detection unit 32l detects contact, and is composed of, for example, an optical sensor having a separate light receiving unit and light emitting unit, respectively. Then, when the user comes into contact with the light guide unit 36l on the pressing detection unit 34l, the change in the amount of light input from the light emitting unit of the optical sensor to the light receiving unit is detected. The contact detection unit 32l is provided below the protective cover 35l and above the operation board 33l.

The press detection unit 34l is a tactile switch that detects the pressure due to pressing, and for example, a user presses a button to energize an electric circuit. The press detection unit 34l is located directly below the light guide unit 36l of the protective cover 35l and above the operation board 33l, and is provided between the light receiving unit and the light emitting unit of the contact detection unit 32l. Further, the lower surface of the operation board 33l is fixed to the upper unit 10 side.

When the user presses the operation key 31l, the protective cover 35l is elastically deformed, the button is pressed down, the tactile switch is turned on, and the electric circuit is energized. On the other hand, when the user releases the operation key 31l, the deformation of the protective cover 35l is restored, and the electric circuit is de-energized by the restoring force that returns from the on to the off of the tactile switch.

An operation circuit is mounted on the operation board 33l, and the operation board 33l is electrically connected to the contact detection unit 32l and the press detection unit 34l. Then, the detection signals of the contact detection unit 32l and the pressing detection unit 34l are sent to the control device 40 described later via the operation board 33l.

Further, since the detection range of the contact detection unit 32l and the detection range of the press detection unit 34l are the same for each operation key 31l, the contact and pressure are detected by the user touching and pressing at the same position. ..

In the following, the operation keys 31a to 31l will be collectively referred to as the operation key 31, the contact detection units 32a to 32l will be collectively referred to as the contact detection unit 32, and the operation boards 33a to 33l will be collectively referred to as the operation board 33. Further, the generic name of the pressing detection units 34a to 34l is referred to as the pressing detection unit 34, and the generic name of the protective covers 35a to 35l is referred to as the protective cover 35.

FIG. 14 is a block diagram showing an electrical configuration of the cooking cooker 100 according to the first embodiment of the present invention.

Next, the electrical configuration of the cooking cooker 100 will be described with reference to FIG.

The heating cooker 100 is supplied with electric power from an external AC power source 51 such as a commercial power source based on the operation of the power key (not shown) of the operation unit 30. The power supply circuit 44 supplies the electric power supplied from the AC power supply 51 to the control device 40 after performing voltage conversion or the like.

The control device 40 is composed of, for example, a microcomputer or the like, performs various data processing such as calculation, and controls the entire cooking apparatus 100.

The left heating unit control circuit 46, the right heating unit control circuit 47, and the central heating unit control circuit 48 are driven based on the instructions from the control device 40, convert the power from the AC power supply 51 into high frequency power, and heat the left side. It is a circuit (means) to supply to a section 26, a right heating section 27, and a central heating section 28, respectively.

The left heating unit 26, the right heating unit 27, and the central heating unit 28 generate an alternating magnetic field by supplying electric power, and heat a cooking container such as a pot placed on the mounting unit by electromagnetic induction. Here, the left heating unit control circuit 46, the right heating unit control circuit 47, and the central heating unit control circuit 48 are configured to be able to be driven independently of each other based on an instruction from the control device 40. ..

The grill storage heating unit control circuit 45 controls the power supply for heating the radiant electric heating source based on the instruction from the control device 40. The grill storage heating unit 25 heats the grill net (not shown) from above and below by supplying electric power.

The grill storage heating unit 25, the left heating unit 26, the right heating unit 27, and the central heating unit 28 correspond to the “heating unit” of the present invention.

The storage device 41 is composed of, for example, a memory or the like, and stores various information such as an operating state of each heating unit. The storage device 41 stores explanatory voice data corresponding to each operation key 31 of the operation unit 30. Further, the storage device 41 stores operation key input confirmation sound data and error sound data.

The notification unit 42 is composed of, for example, a speaker, performs a process of electronically creating and synthesizing voices and sounds related to operation guidance to the user, notification when an abnormality occurs, and the like, and generates the voices and sounds. is there.

The storage device 41 may be provided inside the control device 40 or outside the control device 40, and is provided in such a manner that it is electrically connected to the control device 40 and can communicate with each other. Just do it.

FIG. 15 is a flowchart showing an example of operation during operation of the cooking cooker 100 according to the first embodiment of the present invention.

Next, the operation of the heating cooker 100 according to the first embodiment during operation will be described with reference to FIG.

In a state where the power key (not shown) of the operation unit 30 is pressed and the power is turned on, the control device 40 has contact with any of the operation keys 31 based on the detection signal of the contact detection unit 32. Whether or not it is determined (step S101).

If the control device 40 determines in step S101 that there is contact with any of the operation keys 31 (YES in step S101), the process proceeds to step S102. On the other hand, when the control device 40 determines that there is no contact with any of the operation keys 31 (NO in step S101), the process of step S101 is performed again.

In step S102, the control device 40 determines the contacted operation key 31 based on the detection signal of the contact detection unit 32, and acquires explanatory voice data corresponding to the operation key 31 from the storage device 41. Then, the control device 40 generates a voice based on the acquired explanatory voice data by the notification unit 42, and proceeds to the process of step S103.

For example, when there is contact with the fried food key, the notification unit 42 generates a voice saying "It is a fried food key". In addition, you may be notified about the subsequent operation method such as "Please press this operation key to select" after the voice "It is a fried food key". In addition, after the voice "It is a fried food key", it may be notified about the surrounding key information such as "The right side is a preheating key".

In step S103, the control device 40 determines whether or not any of the operation keys 31 is pressed based on the detection signal of the press detection unit 34.

If the control device 40 determines in step S103 that any of the operation keys 31 is pressed (YES in step S103), the process proceeds to step S104. On the other hand, when the control device 40 determines that any of the operation keys 31 is not pressed (NO in step S103), the process proceeds to step S105.

In step S104, the control device 40 determines whether the pressed operation key 31 is the same as the last contacted operation key 31.

In step S104, when the control device 40 determines that the pressed operation key 31 is the same as the last contacted operation key 31 (YES in step S104), the control device 40 accepts the input of the pressed operation key 31. (Step S106), the process proceeds to step S107. On the other hand, when the control device 40 determines that the pressed operation key 31 is not the same as the last contacted operation key 31 (NO in step S104), the control device 40 does not accept the input of the pressed operation key 31. The process returns to the process of step S103.

For example, if there is contact with the fried food key at the end and there is contact with the preheating key before that, if the control device 40 determines that the pressed operation key 31 is the fried food key, it is pressed. Accepts the input of the operation key 31. On the other hand, when the control device 40 determines that the pressed operation key 31 is a preheating key, that is, it is not the fried food key that was last contacted, the process returns to step S103.

In step S105, the control device 40 determines whether or not there is contact with any of the operation keys 31 based on the detection signal of the contact detection unit 32.

When the control device 40 determines in step S105 that there is contact with any of the operation keys 31 (YES in step S105), the process returns to the process of step S102. On the other hand, when the control device 40 determines that there is no contact with any of the operation keys 31 (NO in step S105), the process returns to the process of step S103.

In step S107, the control device 40 acquires the operation key input confirmed sound data from the storage device 41, generates a sound based on the acquired operation key input confirmed sound data by the notification unit 42, and returns to the process of step S101. ..

If the operation key 31 is pressed during the generation of voice by the notification unit 42 in step S102, the processing after step S103 may be performed without waiting for the generation of voice to end.

In this way, by touching the operation key 31, the user can confirm by voice what operation key 31 the operation key 31 is by the notification unit 42. Further, since the operation key 31 can be input by pressing the confirmed operation key 31, the user can input the operation key 31 while knowing what the operation key 31 is. it can. Further, if the pressed operation key 31 is not the same as the last contacted operation key 31, the input of the pressed operation key 31 is not accepted. By doing so, erroneous operation can be suppressed. Further, since the input of the operation key 31 is received based on the detection signal of the press detection unit 34 instead of the contact detection unit 32, it is possible to suppress an erroneous operation due to blowout or the like. Further, since the user can input the operation key 31 by pressing the operation key 31 as it is after touching the operation key 31, the operation can be performed comfortably. As a result, the usability of the operation unit 30 can be improved for the visually impaired.

As described above, the heating cooker 100 according to the first embodiment includes a heating unit for heating the cooking container, a contact detection unit 32 for detecting contact by the user, and a pressing detection unit 34 for detecting pressing by the user. When the operation unit 30 which has a plurality of operation keys 31 and operates the heating unit, the notification unit 42 which emits at least a sound, and the contact detection unit 32 detects the contact with the operation key 31, the notification unit 42 The control device 40 is provided with a control device 40 that notifies what operation key 31 the operation key 31 is, and receives an operation when the press of the operation key 31 that has been detected by the press detection unit 34 is detected. Is.

According to the heating cooker 100 according to the first embodiment, when the contact with the operation key 31 is detected, the notification unit 42 notifies what operation key 31 the operation key 31 is, and the pressing is detected. When the operation key 31 that has detected the contact is detected by the unit 34, the operation is accepted. Therefore, the user can input the operation key 31 while knowing what operation key 31 is, and the usability of the operation unit 30 can be improved for the visually impaired person.

Embodiment 2.
Hereinafter, the second embodiment of the present invention will be described, but the description of the parts overlapping with the first embodiment will be omitted, and the same parts as those of the first embodiment or the corresponding parts will be designated by the same reference numerals.

The control device 40 of the heating cooker 100 according to the second embodiment is configured so as to accept only the input to the operable operation key 31 and not to accept the input to the inoperable (or no operation required) operation key 31. Has been done. For example, even if the grill start key is input while the grill menu is not set by the grill menu key, the control device 40 does not accept the input.

FIG. 16 is a flowchart showing an example of operation during operation of the cooking cooker 100 according to the second embodiment of the present invention.

Next, the operation of the heating cooker 100 according to the second embodiment during operation will be described with reference to FIG.

In a state where the power key (not shown) of the operation unit 30 is pressed and the power is turned on, the control device 40 has contact with any of the operation keys 31 based on the detection signal of the contact detection unit 32. Whether or not it is determined (step S201).

If the control device 40 determines in step S201 that there is contact with any of the operation keys 31 (YES in step S201), the process proceeds to step S202. On the other hand, when the control device 40 determines that there is no contact with any of the operation keys 31 (NO in step S201), the process of step S201 is performed again.

In step S202, the control device 40 determines the contacted operation key 31 based on the detection signal of the contact detection unit 32, and whether the contacted operation key 31 is an operable operation key 31. To judge.

In step S202, when the control device 40 determines that the operation key 31 with which the contact has been made is an operable operation key 31 (YES in step S202), the process proceeds to step S203. On the other hand, when the control device 40 determines that the contacted operation key 31 is not an operable operation key 31 (NO in step S202), the error sound data is acquired from the storage device 41. Then, the control device 40 generates a sound based on the acquired error sound data by the notification unit 42 (step S204), and returns to the process of step S201. Alternatively, the control device 40 returns to the process of step S201 without generating sound by the notification unit 42 (step S204), that is, without sound.

In step S203, the control device 40 acquires explanatory voice data corresponding to the contacted operation key 31 from the storage device 41. Then, the control device 40 generates a voice based on the acquired explanatory voice data by the notification unit 42, and proceeds to the process of step S205.

In step S205, the control device 40 determines whether or not the touched operation key 31 has been pressed based on the detection signal of the press detection unit 34.

If the control device 40 determines in step S205 that any of the operation keys 31 is pressed (YES in step S205), the process proceeds to step S206. On the other hand, when the control device 40 determines that any of the operation keys 31 is not pressed (NO in step S205), the process proceeds to step S207.

In step S206, the control device 40 determines whether the pressed operation key 31 is the same as the last contacted operation key 31.

In step S206, when the control device 40 determines that the pressed operation key 31 is the same as the last contacted operation key 31 (YES in step S206), the control device 40 accepts the input of the pressed operation key 31. (Step S208), the process proceeds to step S209. On the other hand, when the control device 40 determines that the pressed operation key 31 is not the same as the last contacted operation key 31 (NO in step S206), the control device 40 does not accept the input of the pressed operation key 31. The process returns to step S205.

In step S207, the control device 40 determines whether or not there is contact with any of the operation keys 31 based on the detection signal of the contact detection unit 32.

When the control device 40 determines in step S207 that there is contact with any of the operation keys 31 (YES in step S207), the process returns to the process of step S202. On the other hand, when the control device 40 determines that there is no contact with any of the operation keys 31 (NO in step S207), the process returns to the process of step S205.

In step S209, the control device 40 acquires the operation key input confirmed sound data from the storage device 41, generates a sound based on the acquired operation key input confirmed sound data by the notification unit 42, and returns to the process of step S201. ..

As described above, the control device 40 of the cooking cooker 100 according to the second embodiment is not an operation key 31 that can be operated when the contact detection unit 32 detects the contact with the operation key 31. In this case, the notification unit 42 does not notify what operation key 31 the operation key 31 is.

According to the heating cooker 100 according to the second embodiment, even if the user comes into contact with an inoperable (or no operation required) operation key 31, it is possible to suppress unnecessarily generating a sound. This makes it possible to improve the usability of the operation unit 30 for the visually impaired.

Further, the control device 40 of the cooking cooker 100 according to the second embodiment is not an operation key 31 that can be operated when the contact detection unit 32 detects the contact with the operation key 31. In this case, the notification unit 42 notifies the error.

According to the heating cooker 100 according to the second embodiment, when the user comes into contact with an inoperable (or no operation required) operation key 31, it is possible to notify the user with an error sound. , The usability of the operation unit 30 can be improved for the visually impaired.

10 Upper unit, 11 Top plate, 12 Left mounting part, 13 Right mounting part, 14 Central mounting part, 17 Intake port, 18 Exhaust port, 19 Display part, 20 Lower unit, 21 Housing, 22 Grill storage, 25 Grill storage heating unit, 26 left heating unit, 27 right heating unit, 28 central heating unit, 30 operation unit, 31 operation key, 31a to 31l operation key, 32 contact detection unit, 32a to 32l contact detection unit, 33 operation board , 33a to 33l operation board, 34 pressing detection unit, 34a to 34l pressing detection unit, 35 protective cover, 35a to 35l protective cover, 36i to 36l light guide unit, 37k connector, 40 control device, 41 storage device, 42 notification Unit, 44 power supply circuit, 45 grill storage heating unit control circuit, 46 left heating unit control circuit, 47 right heating unit control circuit, 48 central heating unit control circuit, 51 AC power supply, 100 heating cooker.

Claims (4)

A heating part that heats the cooking container,
A contact detection unit that detects contact, and a plurality of operation keys that are composed of a press detection unit that detects a press, and
An operation unit that operates the heating unit and
It is equipped with a notification unit that guides operations and notifies the occurrence of abnormalities.
When the contact detection unit detects a contact with any of the operation keys in the plurality of operation keys, the notification unit notifies what operation key the operation key is, and the press detection unit notifies the operation key. When a press is detected, the input of the pressed operation key is accepted .
When the contact detection unit detects contact with the operation key and the operation key is not an operable operation key, the notification unit does not notify what operation key the operation key is. A cooker characterized by being equipped with a device. A heating part that heats the cooking container,
A contact detection unit that detects contact, and a plurality of operation keys that are composed of a press detection unit that detects a press, and
An operation unit that operates the heating unit and
It is equipped with an operation guidance and a notification unit that notifies the occurrence of an abnormality.
When the contact detection unit detects a contact with any of the operation keys in the plurality of operation keys, the notification unit notifies what operation key the operation key is, and the press detection unit notifies the operation key. When a press is detected, the input of the pressed operation key is accepted.
A control device is provided that notifies an error by the notification unit when the contact detection unit detects contact with the operation key and the operation key is not an operable operation key.
A cooking cooker characterized by that. A heating part that heats the cooking container,
A contact detection unit that detects contact, and a plurality of operation keys that are composed of a press detection unit that detects a press, and
An operation unit for operating the heating unit is provided.
When the press detection unit detects the pressing of the operation key other than the operation key whose contact was last detected by the contact detection unit in the plurality of operation keys, the input of the pressed operation key is not accepted. A cooking device featuring. The notification unit generates voice, and the notification unit generates voice.
The heating cooker according to claim 1 or 2 , wherein the notification regarding the plurality of operation keys includes a voice for explaining the corresponding operation keys.

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