JP5812951B2 - Refrigerator and operation device - Google Patents

Description

  The present invention relates to a refrigerator having an operation device, and an operation device.

  As a conventional refrigerator, as an operation device that receives operation inputs for operating various functions such as adjusting the temperature of the storage room and quick freezing, a touch that detects a change in the capacitance value of the electrode when the operator touches it The thing provided with the switch is proposed (for example, refer patent document 1). The refrigerator described in Patent Document 1 detects a change in capacitance value of an electrode via a “sensitivity setting circuit”, and a capacitor connected in parallel or in series to this “sensitivity setting circuit” is deleted. The sensitivity of the touch switch is adjusted depending on whether or not to do so.

  Moreover, as shown in the cited document 2, the heating cooker which has the operating device provided with the touch switch which detects the change of an electrostatic capacitance value is also proposed. In the touch switch described in the cited document 2, an operator can set a threshold for detecting a change in capacitance value by a special operation such as operation of a dedicated operation switch or simultaneous pressing of a normal operation switch. It is configured.

Japanese Patent Laying-Open No. 2011-58688 (pages 5 to 7, FIGS. 7 and 8) JP 2005-300030 A (page 4)

According to Patent Documents 1 and 2 described above, it is possible to adjust individual differences in touch switch sensitivity that may occur depending on the physique of the operator, how to touch, the installation environment of the operating device, and the like.
However, in the configuration described in Patent Document 1, in order to adjust the sensitivity, a serviceman has to bother to remove the operation device board from the device and replace electronic components (capacitors, etc.). Thus, since the complicated operation | work which removes an operating device from a refrigerator is accompanied, the work burden for sensitivity adjustment was large and there existed a subject that it was difficult to respond quickly.

  Further, the configuration described in Patent Document 2 has a problem in that the operator has to adjust the sensitivity himself, which causes the operator to take time. In addition, if sensitivity adjustment is performed according to one operator, even if the sensitivity of the touch switch is good for the operator, the sensitivity of the touch switch is not necessarily good for the other operator. There is also sex.

  The present invention has been made against the background of the above problems, and adjusts the sensitivity of the touch switch without removing the operation device from the main body of a device such as a refrigerator and without causing the operator to perform a special operation. An operating device that can be used, and a refrigerator provided with the operating device. Also provided are an operating device capable of suppressing the sensitivity adjustment of the touch switch from being biased to a thing suitable for a specific operator in an environment operated by a plurality of operators, and a refrigerator provided with the operating device. Is.

The refrigerator of the present invention includes a storage room, and an operation device that receives an operation from an operator related to setting of an operation state of the storage room, the operation device including a touch switch that detects a capacitance value, and the touch Based on the detection value when the finger is not close to or in contact with the switch, whether or not the touch switch is operated based on whether or not the amount of change in the detection value when touched with the finger exceeds the touch determination value Touch determination means for determining whether or not, storage means for storing a change amount of a detection value when the touch switch has been touched in the past as change amount information, at least once, and a finger approaching or touching the touch switch the basis of the detection value when not, the change amount of the detection value of when touched with a finger exceeds the set correction necessity determining value as the touch determination value following values, the Those having a touch determination value correction means for correcting the touch determination value based on the change amount information stored in the variation amount and the storage means of the detection value exceeds a positive necessity determination value.

  According to the present invention, the touch determination value for determining whether or not an operation input is made to the touch switch is corrected based on the change amount of the capacitance value detected by the touch switch. For this reason, it is possible to adjust the sensitivity of the touch switch without requiring the operator or the like to replace parts for adjusting the sensitivity of the touch switch or to perform a special operation. In addition, regardless of whether or not the touch determination value is exceeded, the touch determination value is corrected based on the amount of change in the capacitance value exceeding the correction necessity determination value that is a value equal to or less than the touch determination value. Even in an environment where a plurality of operators are used, it is possible to suppress the sensitivity adjustment of the touch switch from being biased to a type suitable for a specific operator.

2 is a schematic front view of the refrigerator according to Embodiment 1. FIG. FIG. 3 is a diagram for explaining an operating device according to the first embodiment. 4 is a schematic cross-sectional view illustrating the structure of a touch switch of the operating device according to Embodiment 1. FIG. 3 is a functional block diagram of a main part of the operating device according to Embodiment 1. FIG. 6 is a diagram for explaining a change in capacitance value when an operator touches the touch switch according to Embodiment 1. FIG. It is a figure explaining the change of an electrostatic capacitance value when a different operator touches the touch switch which concerns on Embodiment 1. FIG. 4 is an operation flowchart of the refrigerator operating device according to the first embodiment. FIG. 6 is a diagram for explaining an operating device according to a second embodiment. FIG. 10 is a functional block diagram of a main part of an operating device according to a second embodiment. 6 is an operation flowchart of the refrigerator operating device according to the second embodiment.

  Hereinafter, embodiments of a refrigerator and an operation device according to the present invention will be described with reference to the drawings. In addition, this invention is not limited by the form of drawing shown below.

Embodiment 1 FIG.
1 is a schematic front view of a refrigerator according to Embodiment 1. FIG. The refrigerator 1 includes a refrigerator compartment 2 provided at the top as storage rooms for storing foods, an ice making chamber 3 and a switching chamber 4 provided side by side on the lower side of the refrigerator compartment 2, an ice making chamber 3 and It has a freezing room 5 provided below the switching room 4 and a vegetable room 6 provided below the freezing room 5. The front opening of the refrigerating room 2 is covered with a refrigerating room door 2a and a refrigerating room door 2b that are rotatably attached by upper and lower hinges. The ice making chamber 3 has an ice making device that automatically makes ice from water in a water supply tank (not shown) provided in the refrigerator compartment 2, and the ice that is made by this ice making device can be stored in an ice storage case. It is a room. The switching chamber 4 is a storage chamber capable of switching the set temperature from the freezing temperature zone to the refrigeration temperature zone. An operating device 10 is provided on the front surface of the refrigerator compartment door 2a.

  FIG. 2 is a diagram illustrating the operating device according to the first embodiment. The operating device 10 includes touch switches 11a, 11b, 11c, and 11d (hereinafter sometimes collectively referred to as the touch switch 11) and a display panel 30. The touch switch 11 receives an operation input for performing settings related to the operation state of the storage room such as the temperature of each storage room and the execution / release of the function of each storage room. In the example shown in FIG. 2, a touch switch 11 a for selecting a storage room to be set such as temperature and function execution / cancellation, a touch switch 11 b for adjusting the temperature of the selected storage room, A touch switch 11c for setting execution / cancellation of a rapid cooling function for performing cooling and a touch switch 11d for switching an ice making operation are provided.

  The display panel 30 displays information such as an operation input result to the touch switch 11 and an operation state of the refrigerator 1. In the first embodiment, the display panel 30 is divided into a plurality of display areas called display areas 301a, 301b, 301c, 301d, and 301e (hereinafter sometimes collectively referred to as display areas 301). ˜301e are provided with display elements such as characters and figures for displaying information according to the setting contents and the operation state. FIG. 2 shows a diagram in which all display elements constituting the display panel 30 are in a display state. Each display element of the display panel 30 is in a display state (display / non-display, continuous display / flashing, lighting color). Etc.), and display elements indicating the result of operation input to the touch switch 11 and the operating state of the refrigerator 1 are displayed separately from other display elements.

  In the first embodiment, characters, graphics, and the like are printed on the back surface of the casing 12 constituting the surface of the refrigerator compartment door 2a in correspondence with each display element of the display panel 30. The display element of each display area 301 is displayed by illuminating from the back side of the body 12 with a lighting device such as a light emitting diode. Then, display / non-display of each display panel 30 is switched by switching on / off of the lighting device. In addition to such a configuration, the display panel 30 may be configured by, for example, a liquid crystal device, and the specific configuration of the display panel 30 is not limited. In the first embodiment, the touch switches 11 and the display areas 301 corresponding to the touch switches 11 are arranged one above the other so that the correspondence between the touch switches 11 and the display areas 301 can be easily understood. The arrangement of the touch switch 11 and the display area 301 is not limited to the illustrated one.

  FIG. 3 is a schematic cross-sectional view illustrating the structure of the touch switch of the operating device according to the first embodiment. In FIG. 3, the front side of the refrigerator compartment door 2a, that is, the side facing the operator is illustrated on the upper side of the drawing. As shown in FIG. 3, each touch switch 11 of the operation device 10 according to the first embodiment includes a housing 12, a lighting device 13, and a touch electrode 16 formed on a substrate 15 as main components. . The most front side of the touch switch 11 includes a housing 12 that forms the surface of the refrigerator compartment door 2a. A first print layer 12a for expressing the basic color and pattern of the operation device 10 is provided on the most front side of the housing 12, and the arrangement of the touch switches 11 (operator) is provided inside the first print layer 12a. The second printing layer 12b is provided to represent characters, symbols, and the like indicating information such as the location where the touch switch 11 is to be touched and the setting content of the touch switch 11. The first print layer 12a and the second print layer 12b are integrated with a transparent panel 12c made of a transparent synthetic resin having transparency. In addition, the material of the transparent panel 12c of the housing | casing 12 should just have transparency, Glass, an acryl, etc. may be sufficient as it.

  On the back side of the housing 12, an illumination device 13 is provided so as to face the second print layer 12 b corresponding to each touch switch 11, and to irradiate light to the second print layer 12 b and the vicinity thereof. In the first embodiment, the illuminating device 13 includes a light emitting diode 13a and a light guide plate 13b that guides light from the light emitting diode 13a to the housing 12 side. When the lighting device 13 is turned off, the second printing layer 12b is hidden by the first printing layer 12a for expressing the basic color and pattern of the housing 12, and the operator on the front side of the housing 12 is the first. The display of characters, figures, and the like corresponding to the touch switch 11 expressed by the two print layers 12b cannot be seen. On the other hand, when the lighting device 13 is in a lighting state, the second printing layer 12b is irradiated by the lighting device 13, and characters, figures, and the like expressed by the second printing layer 12b are highlighted. As described above, in the first embodiment, the housing 12 and the illumination device 13 constitute a display unit that displays information corresponding to the touch switch 11 using characters, graphics, or the like.

  A shielding wall 14 is provided between the lighting devices 13. The shielding wall 14 is for preventing the light of each lighting device 13 from affecting the irradiation area of the other lighting devices 13. Since the irradiation area of each lighting device 13 is partitioned by the shielding wall 14, the display and non-display states of the second print layer 12b representing characters and symbols corresponding to the touch switch 11 can be individually switched.

The display unit that displays information corresponding to the touch switch 11 is not limited to that illustrated in FIG. 3, and information such as characters and graphics corresponding to the touch switch 11 may be realized by printing that is always visible. Good. Moreover, the specific structure of the above-mentioned illuminating device 13 is not limited, either, The arbitrary illuminating device which can control a lighting state separately can be used.
Although not shown, the display elements provided in the display areas 301 of the display panel 30 can also be realized with the casing 12, the illumination device 13, and the shielding wall 14 shown in FIG. 3 as main components.

  In FIG. 3, a substrate 15 is disposed on the back side of the second print layer 12 b such as characters corresponding to each touch switch 11. A touch electrode 16 is formed on the substrate 15 by a copper foil pattern. The touch electrode 16 is used to detect the proximity or contact of the operator's hand or finger to the surface of the housing 12 corresponding to each touch switch 11 (hereinafter, proximity or contact may be simply referred to as touch). Is.

  FIG. 4 is a functional block diagram of the main part of the operating device according to the first embodiment. In the first embodiment, the touch switch 11 is a capacitance type touch switch that detects a touch by an operator based on a capacitance detection value of the touch electrode 16 formed on the substrate 15. Each of the touch electrodes 16 is provided with a circuit (not shown) that converts the capacitance of the touch electrode 16 into an electric signal and outputs it as a detected value of the capacitance value. The touch electrode 16 is connected to the touch determination unit 20, and an output from the touch electrode 16 is input to the touch determination unit 20.

  The touch determination unit 20 determines whether or not the operator touches the touch switch 11 based on the detected capacitance value (capacitance value) output from the touch electrode 16 and a preset touch determination value. Determine whether. The touch determination unit 20 is connected to the control device 21, and the determination result output from the touch determination unit 20 is input to the control device 21.

  The control device 21 performs processing related to sensitivity adjustment of the touch switch 11 (described later) based on the touch determination result output from the touch determination unit 20. The control device 21 performs display control of the display panel 30 and lighting control of the lighting device 13. Further, the control device 21 sets a touch determination value 221 used for touch determination to the touch determination unit 20.

  The touch determination unit 20 and the control device 21 can be configured by hardware such as a circuit device that realizes the function, an arithmetic device such as a microcomputer or a CPU, and software executed on the arithmetic device. Can also be configured.

  The operation device 10 also stores a touch determination value 221 used by the touch determination unit 20 for touch determination, a correction necessity determination value 222 used when correcting the touch determination value 221, and change amount information 223. A device 22 is provided. The control device 21 can read information stored in the storage device 22 and write information to the storage device 22.

Here, the change in the capacitance value when the finger of the operator who operates the touch switch 11 is touched will be described.
FIG. 5 is a diagram for explaining a change in capacitance value when an operator touches the touch switch according to the first embodiment. As shown in FIG. 5, when the operator's finger is not touching the touch switch 11, the touch electrode 16 causes the touch electrode 16 to change the capacitance value existing via the ground pattern and the casing 12 around the touch electrode 16. Detected. When an operator's finger approaches the surface of the housing 12 corresponding to the touch switch 11 of the operating device 10, electrostatic capacity is also generated between the touch electrode 16 and the finger via the housing 12 and the light guide plate 13b. The touch electrode 16 detects a capacitance value obtained by adding the capacitance and the capacitance when the finger is not touching. The touch determination in which the amount of change in the capacitance value detected by the touch electrode 16 is determined with respect to the touch determination unit 20 based on the capacitance value when the finger is not close to or in contact with the touch switch 11. When the value 221 is exceeded, the touch determination unit 20 determines that the touch switch 11 has been operated.

Next, an example of change in capacitance value when different operators A and B touch the touch switch 11 will be described.
FIG. 6 is a diagram illustrating a change in capacitance value when a different operator touches the touch switch according to the first embodiment. FIG. 6 illustrates an example in which the amount of change in the capacitance value when the operator B touches the touch switch 11 is smaller than when the operator A touches the touch switch 11. As shown in FIG. 6, the touch determination value 221 is a value between a change amount of the capacitance value when the operator A touches and a change amount of the capacitance value when the operator B touches. In some cases, the operator A can detect that the touch switch 11 has been touched, but cannot detect that the operator B has touched the touch switch 11.

  Therefore, the operation device 10 according to the first embodiment determines whether or not an operation input has been performed on the touch switch 11 so that the operator B can detect that the touch switch 11 has been touched. Processing for correcting the touch determination value 221 is performed. Hereinafter, the operation of the controller device 10 will be described.

  FIG. 7 is an operation flowchart of the refrigerator operating device according to the first embodiment. As illustrated in FIG. 7, the touch determination unit 20 determines whether the amount of change in the capacitance value detected by the touch electrode 16 of the touch switch 11 exceeds the touch determination value 221 stored in the storage device 22. (S1).

  When the change amount of the capacitance value exceeds the touch determination value 221 (S1; Yes), the touch determination unit 20 determines that the touch switch 11 is touched (operation input) by the operator (S2). On the other hand, when the change amount of the capacitance value does not exceed the touch determination value 221 (S1; No), the touch determination unit 20 does not determine that the touch switch 11 has been touched, and proceeds to step S3.

Next, the control device 21 determines whether or not the change amount of the capacitance value detected by the touch electrode 16 of the touch switch 11 exceeds the correction necessity determination value 222 stored in the storage device 22 ( S3).
If the change amount of the capacitance value does not exceed the correction necessity determination value 222 (S3; No), the process ends, and if the change amount of the capacitance value exceeds the correction necessity determination value 222, (S3; Yes), the change amount information 223 stored in the storage device 22 is updated (S4). More specifically, in the first embodiment, as the change amount information 223, an average change amount that is an average value of the change amount of the capacitance value detected by the touch switch 11 is used. In step S <b> 4, the control device 21 calculates a new average value between the average change amount n−1 until the previous time stored in the storage device 22 and the change amount of the capacitance value detected by the touch switch 11 this time. The average change amount n is calculated. Then, the control device 21 stores the newly calculated average change amount n in the storage device 22 as change amount information 223.

  Next, the control device 21 calculates a new touch determination value 221 by multiplying the average change amount n which is the change amount information 223 by the correction coefficient (S5). In the first embodiment, the correction coefficient is set to 70%, and the new touch determination value 221 is set to 70% of the average change amount n. As described above, in the first embodiment, the control device 21 functions as a touch determination value correcting unit that corrects the touch determination value 221 based on the change amount information 223.

  Next, the control device 21 compares the touch determination value 221 calculated in step S5 with the correction necessity determination value 222 stored in the storage device 22 (S6), and the touch determination value 221 calculated in step S5. Is smaller than the correction necessity determination value 222 (S6; Yes), the touch determination value 221 is set to the same value as the correction necessity determination value 222, and a new touch determination value 221 (the same value as the correction necessity determination value 222) is set. ) Is stored in the storage device 22 (S7), and the process is terminated. If the touch determination value 221 calculated in step S5 is greater than or equal to the correction necessity determination value 222 (S6; No), the control device 21 stores the touch determination value 221 calculated in step S5 in the storage device 22. To finish the process.

  Here, the capacitance value detected by the touch switch 11 may change due to, for example, disturbance noise depending on the installation environment. Therefore, it is preferable to set a value larger than the amount of change in the capacitance value due to disturbance noise or the like as the correction necessity determination value 222. By doing so, the corrected touch determination value 221 does not become a value smaller than the change amount of the capacitance value due to the disturbance noise. Therefore, it is possible to suppress erroneous determination that an operation input has been performed on the touch switch 11 due to the influence of disturbance noise even though the operator does not touch the touch switch 11.

  As described above, in the operating device 10 according to the first embodiment, the amount of change in the capacitance value when it is determined that the touch switch 11 is touched and the correction required for the touch switch 11 that is not determined as touched. The touch determination value 221 is corrected based on both the change amount of the capacitance value when it is determined that the determination value is larger than the rejection determination value 222. Therefore, for example, even when it is not determined that the touch switch 11 is touched when the finger of the operator B shown in FIG. If the change amount is larger than the correction necessity determination value 222, the change amount of the capacitance value at that time is reflected in the correction of the touch determination value 221. Therefore, the corrected touch determination value 221 approaches a value that can be determined as “touched” when the operator B touches the touch switch 11, and the operation device 10 is touched by the operator B. It becomes possible to detect that the switch 11 has been touched.

  In step S4 in FIG. 7, the average change amount n, which is a simple average value of the average change amount n-1 up to the previous time and the current change amount, is used as the change amount information 223. The specific content of the change amount information 223 is not limited to this as long as it is information indicating the tendency of the change amount of the detected value. For example, instead of storing the average change amount n, the past change amount of capacitance detected by the touch switch 11 is stored in the storage device 22 as change amount information 223, and the step In S4, the average change amount n may be calculated based on the change amount information 223. Further, instead of using a simple average, a moving average or a weighted average of a change amount of a plurality of capacitance values stored in the storage device 22 may be calculated and used as the change amount information 223. For example, by using a moving average, even if the amount of change in the current capacitance value is far from the amount of change before that, the value of the change amount information 223 and the touch determination value calculated based on this value Since 221 does not change abruptly, it is possible to maintain the touch determination value 221 according to the tendency of the operator who uses the refrigerator 1.

  Further, in step S5 of FIG. 7, the value of 70% is exemplified as the correction coefficient, but the specific value of the correction coefficient is not limited to this, and may be larger or smaller than 70%. If the correction coefficient is less than 50%, the capacitance value detected by the touch switch 11 exceeds the touch determination value 221 before the operator's hand or finger contacts the touch switch 11, which is erroneous. Increased chance of triggering a decision. For this reason, the value of the correction coefficient is preferably about 50% to 90%.

  As described above, in the first embodiment, when the change amount of the capacitance value is detected by the touch switch 11, the touch for determining the presence or absence of the touch based on the change amount of the capacitance value. The determination value 221 is corrected. For this reason, the operation device 10 can automatically correct the touch determination value 221 without requiring a special operation for correcting the touch determination value 221 from the operator or the like.

In the correction of the touch determination value 221, the change amount of the capacitance value when it is determined that the touch switch 11 is touched and the correction necessity determination value 222 which is not determined that the touch switch 11 is touched. Both of the change amount of the capacitance value when exceeding the value are used.
Since correction is made based on the amount of change in the capacitance value caused by the proximity or contact of the finger of the operator who uses the operation device 10 in this way, touch determination according to the actual operator or the installation environment of the operation device 10 A value 221 can be obtained. Therefore, the sensitivity of the touch switch 11 of the operating device 10 is adjusted to a state according to the actual operator or the installation environment of the operating device 10, and the operator can comfortably operate the touch switch 11 of the operating device 10. .
Further, regardless of whether or not the touch determination value 221 has been exceeded, the touch determination value 221 is corrected based on the past change amount of the capacitance value that has exceeded the correction necessity determination value 222. Therefore, for example, even when it is determined that the operating device 10 has not been touched even though a certain operator has touched the touch switch 11, the touch determination value 221 used for determining whether there is a touch after the next time is the operator. Can approach a value suitable for. Accordingly, in an environment where a plurality of operators are used, the sensitivity of the touch switch 11 can be adjusted to reflect the characteristics of the plurality of operators, and the sensitivity adjustment of the touch switch 11 is adapted to a specific operator. Therefore, it is possible to provide a comfortable operation feeling to a plurality of operators by suppressing the bias to the above.

  Further, as a value for determining whether or not to correct the touch determination value 221, a correction necessity determination value 222 that is smaller than the touch determination value 221 is provided, and the amount of change in the electrostatic capacitance value is determined as necessity of correction. When the determination value is smaller than 222, the touch determination value 221 is not corrected. For this reason, for example, when the touch electrode 16 of the touch switch 11 detects some change in the capacitance value due to disturbance noise or the like, the touch determination value 221 is not corrected, and thus the touch determination value 221 becomes an extreme value. Can be suppressed.

  Further, in the correction of the touch determination value 221, the touch determination value 221 is set to a value equal to or greater than the correction necessity determination value 222. For this reason, the correction necessity determination value 222 is set to a value larger than the change amount of the capacitance value detected by the disturbance noise or the like, so that even when the disturbance noise occurs, the touch switch 11 is touched. It is possible to suppress erroneous determination as having been performed.

Embodiment 2. FIG.
In the second embodiment, the difference from the first embodiment will be mainly described. In the second embodiment, the same or corresponding components as those in the first embodiment are denoted by the same reference numerals.
FIG. 8 is a diagram for explaining the operating device according to the second embodiment. FIG. 8 shows a diagram in which all display elements constituting the controller device 10 are in a display state. The operation device 10 according to the second embodiment shown in FIG. 8 includes a lighting start touch switch 11e as one of the touch switches 11 in addition to the configuration shown in the first embodiment. In the following description, for convenience of description, when the “touch switch 11” is simply referred to, it means the touch switches 11a to 11d excluding the lighting start touch switch 11e.

  The lighting start touch switch 11e is an operation input unit for bringing the touch switch 11 provided in the operation device 10 into a display state. In the touch switch 11 according to the second embodiment, when a predetermined time has elapsed since the last input to any one of the touch switches 11, the lighting device 13 of each touch switch 11 is turned off and each touch switch 11 is turned off. It is configured to be in a display state. Further, the non-display state touch switch 11 is in a state where it does not accept an operation input from the operator. When an operation input is made to the lighting start touch switch 11e while the touch switch 11 is in a non-display state, the touch switch 11 is in a display state, and the touch switch 11 is in a state where it can accept an operation input from an operator. .

  The lighting start touch switch 11e is configured to be visible to the operator at all times. For example, in the housing 12 corresponding to the lighting start touch switch 11e, characters or designs indicating the lighting start touch switch 11e (characters “start” in the second embodiment) are displayed on the lighting device 13 (FIG. 3)) is printed so as to be visible regardless of the presence or absence of illumination. Therefore, in the lighting start touch switch 11e, the lighting device 13 shown in FIG. 3 may not be provided, or the lighting device 13 may be provided and always lighted. Further, the lighting start touch switch 11e is configured so that it can always accept an operation input from the operator.

  FIG. 9 is a functional block diagram of the main part of the operating device according to the second embodiment. In addition to the configuration shown in the first embodiment, the operation device 10 according to the second embodiment corresponds to the storage device 22 with a plurality of types of touch determination values 221a and 221b and the plurality of types of touch determination values 221a and 221b. The change amount information 223a and 223b is stored. In the second embodiment, the touch determination value 221a is larger than the touch determination value 221b (221a> 221b).

  FIG. 10 is an operation flowchart of the refrigerator operating device according to the second embodiment. In the second embodiment, if the touch switch 11 is not touched (operation input) for a predetermined time after the last operation input is performed, the control device 21 determines that the operation device 10 is not used. The lighting device 13 of the touch switch 11 is turned off. Accordingly, in the initial state of FIG. 10, the touch switches 11 other than the lighting start touch switch 11e are in a non-display state. In this state, when the change amount of the capacitance value detected by the touch electrode 16 of the lighting start touch switch 11e exceeds a predetermined touch determination value X (S10), the control device 21 lights the lighting device 13. The touch switch 11 is displayed (S11). Here, the touch determination value X for determining whether or not the lighting start touch switch 11e has been touched is also a value (touch determination value 221a or touch determination value 221b) used by the touch determination unit 20 for the previous touch determination. It may be a fixed value set in advance.

  In conjunction with the lighting of the lighting device 13, the control device 21 performs a plurality of touch determinations in which the change amount of the capacitance value detected by the touch electrode 16 of the lighting start touch switch 11 e in step S <b> 10 is stored in the storage device 22. It is determined whether or not the touch determination value 221a which is the largest value among the values is exceeded (S12).

  When the amount of change in the capacitance value detected by the touch electrode 16 of the lighting start touch switch 11e exceeds the touch determination value 221a (S12; Yes), the control device 21 thereafter determines that the touch determination unit 20 The touch determination value 221a is selected as a touch determination value that is a threshold for determining whether or not an operation input has been made to the touch switch 11 (S13). As described above, the control device 21 functions as a touch determination value selection unit that selects one touch determination value 221a from among a plurality of touch determination value candidates of the touch determination values 221a and 221b.

  Thereafter, an operation input from the operator to the touch switch 11 is performed.

  And the touch determination means 20 determines whether the variation | change_quantity of the electrostatic capacitance value detected by the touch electrode 16 of the touch switch 11 exceeded the touch determination value 221a memorize | stored in the memory | storage device 22 (S14).

  When the change amount of the capacitance value exceeds the touch determination value 221a (S14; Yes), the touch determination unit 20 determines that the touch switch 11 is touched (operation input) by the operator (S15). On the other hand, when the amount of change in the capacitance value does not exceed the touch determination value 221a (S14; No), the touch determination unit 20 does not determine that the touch switch 11 has been touched, and proceeds to step S16.

Next, the control device 21 determines whether or not the change amount of the capacitance value detected by the touch electrode 16 of the touch switch 11 exceeds the correction necessity determination value 222 stored in the storage device 22 ( S16).
If the change amount of the capacitance value does not exceed the correction necessity determination value 222 (S16; No), the process returns to step S14, and if the change amount of the capacitance value exceeds the correction necessity determination value 222, (S16; Yes), the change amount information 223a stored in the storage device 22 is updated (S17). More specifically, in the second embodiment, as in the first embodiment, an average change amount that is an average value of the change amount of the capacitance value detected by the touch switch 11 is used as the change amount information 223a. doing. In step S <b> 17, the control device 21 obtains a new average value between the average change amount n−1 until the previous time stored in the storage device 22 and the change amount of the capacitance value detected by the touch switch 11 this time. The average change amount n is calculated. Then, the control device 21 stores the newly calculated average change amount n in the storage device 22 as change amount information 223a.

  Next, the control device 21 calculates a new touch determination value 221a by multiplying the average change amount n, which is the change amount information 223a, by a correction coefficient (S18). In the second embodiment, the correction coefficient is set to 70%, and the new touch determination value 221a is set to 70% of the average change amount n. As described above, in the second embodiment, the control device 21 functions as a touch determination value correction unit that corrects the touch determination value 221a based on the change amount information 223a.

  Next, the control device 21 compares the touch determination value 221a calculated in step S18 with the correction necessity determination value 222 stored in the storage device 22 (S19), and the touch determination value 221a calculated in step S18. Is smaller than the correction necessity determination value 222 (S19; Yes), the touch determination value 221a is set to the same value as the correction necessity determination value 222, and a new touch determination value 221a (the same value as the correction necessity determination value 222) is set. ) Is stored in the storage device 22 (S20), and the process returns to step S14 to wait for the next change in capacitance value to be detected. If the touch determination value 221a calculated in step S18 is greater than or equal to the correction necessity determination value 222 (S19; No), the control device 21 stores the touch determination value 221a calculated in step S18 in the storage device 22. Then, the process returns to step S14.

  In step S12, when the change amount of the capacitance value detected by the touch electrode 16 of the lighting start touch switch 11e does not exceed the touch determination value 221a (S12; No), the control device 21 Thereafter, the touch determination value 221b is selected as a touch determination value that is a threshold for determining whether or not an operation input has been made to the touch switch 11 (S21). As described above, the control device 21 functions as a touch determination value selection unit that selects one touch determination value 221b from a plurality of touch determination value candidates of the touch determination values 221a and 221b.

  Thereafter, an operation input from the operator to the touch switch 11 is performed.

  And the touch determination means 20 determines whether the variation | change_quantity of the electrostatic capacitance value detected by the touch electrode 16 of the touch switch 11 exceeded the touch determination value 221b memorize | stored in the memory | storage device 22 (S22).

  When the change amount of the capacitance value exceeds the touch determination value 221b (S22; Yes), the touch determination unit 20 determines that the touch switch 11 is touched (operation input) by the operator (S23). On the other hand, when the amount of change in the capacitance value does not exceed the touch determination value 221b (S22; No), the touch determination unit 20 does not determine that the touch switch 11 has been touched, and proceeds to step S24.

Next, the control device 21 determines whether or not the change amount of the capacitance value detected by the touch electrode 16 of the touch switch 11 exceeds the correction necessity determination value 222 stored in the storage device 22 ( S24).
If the change amount of the capacitance value does not exceed the correction necessity determination value 222 (S24; No), the process returns to step S22, and if the change amount of the capacitance value exceeds the correction necessity determination value 222, (S24; Yes), the change amount information 223b stored in the storage device 22 is updated (S25). More specifically, in step S25, an average value between the average change amount n-1 until the previous time stored in the storage device 22 and the change amount of the capacitance value detected by the touch switch 11 this time is newly set. The average change amount n is calculated. Then, the control device 21 stores the newly calculated average change amount n in the storage device 22 as change amount information 223b.

  Next, the control device 21 calculates a new touch determination value 221b by multiplying the average change amount n, which is the change amount information 223b, by a correction coefficient (S26). In the second embodiment, the correction coefficient is set to 70%, and the new touch determination value 221b is set to a value that is 70% of the average change amount n. As described above, in the second embodiment, the control device 21 functions as a touch determination value correction unit that corrects the touch determination value 221b based on the change amount information 223b.

  Next, the control device 21 compares the touch determination value 221b calculated in step S26 with the correction necessity determination value 222 stored in the storage device 22 (S27), and the touch determination value 221b calculated in step S26. Is smaller than the correction necessity determination value 222 (S27; Yes), the touch determination value 221b is set to the same value as the correction necessity determination value 222, and a new touch determination value 221b (the same value as the correction necessity determination value 222) is set. ) Is stored in the storage device 22 (S28), and the process returns to step S22 to wait for the next change in capacitance value to be detected. If the touch determination value 221b calculated in step S26 is greater than or equal to the correction necessity determination value 222 (S27; No), the control device 21 stores the touch determination value 221b calculated in step S26 in the storage device 22. Then, the process returns to step S22.

  Although not shown, the control device 21 measures the elapsed time after determining that the touch switch 11 has been touched in step S15 or step S23 using a timer. Then, when a predetermined time has elapsed since it was determined that the touch was last made, the control device 21 turns off the lighting device 13 and does not accept an operation input to the touch switch 11 except the lighting start touch switch 11e, The process of FIG. 10 is terminated.

  As described above, in the second embodiment, a plurality of types of touch determination values 221a and 221b are provided, and based on the change amount of the capacitance value detected by the lighting start touch switch 11e of the operation device 10, Thereafter, a touch determination value for determining whether or not an operation input has been made to the touch switch 11 is selected from a plurality of touch determination values 221a and 221b. That is, the lighting start touch switch 11e that is first operated when the operator starts operating the operation device 10 is used as a determination value selection touch switch, and the capacitance value detected by the determination value selection touch switch. Based on the amount of change, a touch determination value for determining the presence or absence of a touch after that is selected. For this reason, even in an environment where a plurality of operators use the same operating device 10, a touch determination value more suitable for the operator can be obtained without requiring the operator to perform a special operation for correcting the touch determination value. The device 10 can be selected automatically.

  Further, the touch determination value selected from the plurality of touch determination value candidates is changed in the capacitance value when it is determined that the touch switch 11 is touched, as in the first embodiment, and the touch switch 11. Although it was not determined that the button was touched, correction was made based on the amount of change in the capacitance value when the correction necessity determination value 222 was exceeded. For this reason, as in the first embodiment, the sensitivity of the touch switch 11 can be adjusted to a state corresponding to the actual operator or the installation environment of the operation device 10, and the operator can adjust the touch switch 11 of the operation device 10. Can be operated comfortably.

  In the second embodiment, an example in which two types of touch determination values 221a and 221b and a corresponding number of change amount information 223a and 223b are provided is shown. However, the number of touch determination values and change amount information is as follows. It is not limited to this, and three or more types may be used. In this case, it is preferable that ranges of values that can be taken by the touch determination values do not overlap each other. By increasing the number of touch determination values and change amount information, it is possible to adjust touch sensitivity in correspondence with many operators.

  Further, in the second embodiment, the example in which the lighting start touch switch 11e is provided as the dedicated touch switch for starting the lighting of the lighting device 13 of the touch switch 11 is shown, but the dedicated touch switch is not provided. May be. For example, when an operation input is performed on the touch switches 11a to 11d in a state where the illumination device 13 is turned off, the illumination device 13 is turned on and the amount of change in the capacitance value when it is determined that the operation input has been received. Based on, a touch determination value to be used thereafter is selected. As described above, even if the touch switches 11a to 11d are configured to function as the lighting start touch switch 11e, the same effects as those of the second embodiment can be obtained. In this case, it is preferable that the characters and designs of the second print layer 12b corresponding to the touch switch 11 are visible even when the illumination device 13 is turned off.

  Moreover, in the said description, the example which applied the operating device which concerns on this invention to the operating device 10 of the refrigerator 1 was shown. However, the operation device according to the present invention is, for example, a cooking appliance such as a heating cooker, a rice cooker, or an electric pot that heats an object to be heated placed on the top plate by an induction heating coil or an electric heater in the housing, The present invention can also be applied to any device that accepts an operation input by an operator's proximity or contact, such as a display used in a production line.

  1 refrigerator, 2 refrigerator compartment, 2a, 2b refrigerator compartment door, 3 ice making room, 4 switching room, 5 freezer compartment, 6 vegetable compartment, 10 operation device, 11 touch switch, 11a-11d touch switch, 11e lighting start touch switch, 12 housing, 12a first printed layer, 12b second printed layer, 12c transparent panel, 13 lighting device, 13a light emitting diode, 13b light guide plate, 14 shielding wall, 15 substrate, 16 touch electrode, 20 touch determination means, 21 control Device, 22 storage device, 30 display panel, 301a to 301e display area, 221 touch determination value, 221a touch determination value, 221b touch determination value, 222 correction necessity determination value, 223 change amount information, 223a change amount information, 223b change Quantity information.

Claims (6)

A storage room;
An operation device that receives an operation from an operator related to the setting of the operation state of the storage room,
The operating device is:
A touch switch for detecting a capacitance value;
Based on the detection value when a finger is not approaching or touching the touch switch, the operation input is made to the touch switch depending on whether or not the change amount of the detection value when touching with the finger exceeds the touch determination value. Touch determination means for determining whether or not
Storage means for storing a change amount of a detection value when the touch switch is touched in the past as change amount information at least once;
Based on a detection value when a finger is not approaching or in contact with the touch switch, a correction necessity determination value in which a change amount of the detection value when touched with the finger is set to a value equal to or less than the touch determination value is set. A touch determination value correction unit that corrects the touch determination value based on the change amount of the detected value that exceeds the correction necessity determination value and the change amount information stored in the storage unit. A refrigerator characterized by. The operating device is:
A plurality of the touch switches;
A judgment value selection touch switch provided as a part of the plurality of touch switches;
Based on the detected value when the finger is not approaching or touching the determination value selection touch switch, the touch determining means determines the next operation input based on the amount of change in the detected value when the finger is touched. Touch determination value selection means for selecting the touch determination value used when performing the touch determination from a plurality of touch determination value candidates,
The touch determination means is based on a detection value when a finger is not approaching or touching the touch switch, and a change amount of the detection value when touched with the finger is selected by the touch determination value selection means. It is determined whether or not an operation input has been performed on the touch switch according to whether or not the touch determination value is exceeded,
The storage means stores the change amount information in association with the touch determination value selected by the touch determination value selection means,
The touch determination value correction unit is based on a detection value when a finger is not approaching or touching the touch switch, and a change amount of the detection value when touched with the finger exceeds the correction necessity determination value. The touch determination value selected by the touch determination value selection unit is corrected based on the amount of change stored in the storage unit in association with the touch determination value. refrigerator. It is possible to display information corresponding to the touch switch, and includes a display unit that is in a non-display state when a state where no operation input to the touch switch is performed for a predetermined time,
The refrigerator according to claim 2, wherein the determination value selection touch switch receives an operation input for setting the display unit in a non-display state to a display state. The correction necessity determining value before Symbol the basis of the detection value when the finger touch switch does not close or in contact, is larger than the amount of change in detection values may be caused by disturbance noise,
The touch determination value correction unit corrects the touch determination value so that the touch determination value is equal to or greater than the correction necessity determination value. Refrigerator. A touch switch for detecting a capacitance value;
Based on the detection value when a finger is not approaching or touching the touch switch, the operation input is made to the touch switch depending on whether or not the change amount of the detection value when touching with the finger exceeds the touch determination value. Touch determination means for determining whether or not
Storage means for storing a change amount of a detection value when the touch switch is touched in the past as change amount information at least once;
Based on a detection value when a finger is not approaching or in contact with the touch switch, a correction necessity determination value in which a change amount of the detection value when touched with the finger is set to a value equal to or less than the touch determination value is set. A touch determination value correction unit that corrects the touch determination value based on the change amount of the detected value that exceeds the correction necessity determination value and the change amount information stored in the storage unit. An operation device characterized by. A plurality of the touch switches;
A judgment value selection touch switch provided as a part of the plurality of touch switches;
Based on the detected value when the finger is not approaching or touching the determination value selection touch switch, the touch determining means determines the next operation input based on the amount of change in the detected value when the finger is touched. Touch determination value selection means for selecting the touch determination value used when performing the touch determination from a plurality of touch determination value candidates,
The touch determination means is based on a detection value when a finger is not approaching or touching the touch switch, and a change amount of the detection value when touched with the finger is selected by the touch determination value selection means. It is determined whether or not an operation input has been performed on the touch switch according to whether or not the touch determination value is exceeded,
The storage means stores the change amount information in association with the touch determination value selected by the touch determination value selection means,
The touch determination value correction unit is based on a detection value when a finger is not approaching or touching the touch switch, and a change amount of the detection value when touched with the finger exceeds the correction necessity determination value. 6. The touch determination value selected by the touch determination value selection means is corrected based on the amount of change stored in the storage means in association with the touch determination value. Operating device.

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