JPWO2018109833A1 - Display device with touch panel, touch panel control device and control method - Google Patents

Abstract

  The display device (1) with a touch panel includes a capacitive touch panel (3) and a conductive contact portion (504a, 504b, 504c) that can rotate while being in contact with the touch panel (3). An operation information acquisition unit (7) for acquiring information on an operation on the touch panel (3) and an operation on the mechanical knob (5), and an operation information acquisition unit (7). Among the information related to the operation acquired by the operation, the operation invalidation unit (8) that invalidates the information related to the operation on the operation invalidation area (301) in the touch panel (3), and the operation information acquisition unit (7) Of the information related to the operation, an operation execution unit (9) that executes a function based on information that has not been invalidated by the operation invalidation unit (8), and an operation execution unit (9 Displaying the function execution screen by comprising a display (4).

Description

  The present invention relates to a display device with a touch panel to which a mechanical knob for operating a touch panel is fixed, a touch panel control device, and a touch panel control method.

Smartphones and tablets are rapidly spreading, and many of them employ a display with a capacitive touch panel. Hereinafter, the display with the capacitive touch panel is referred to as “display with touch panel”.
Similarly, in-vehicle products such as navigation devices, audio devices, and center displays, the demand for displays with capacitive touch panels is increasing.

  Since the display with a touch panel has no irregularities on the surface, the user needs to operate the touch panel while watching the display. Patent Document 1 proposes a configuration in which a mechanical knob is fixed on a display with a touch panel. The mechanical knob is provided with a conductive portion, and the conductive portion is detected by the touch panel when a user's finger contacts the conductive portion. By operating the mechanical knob, the user can perform an intuitive operation without looking at the display during driving.

JP 2013-178678 A

  However, since the mechanical knob is fixed on the capacitive touch panel, the user's finger operating the mechanical knob mistakenly touches the capacitive touch panel, resulting in erroneous operation detection. was there.

  The present invention has been made to solve the above-described problems, and aims to prevent erroneous detection of an operation in a configuration in which a mechanical knob is fixed on a capacitive touch panel. .

  The display device with a touch panel according to the present invention includes a capacitive touch panel, a conductive contact portion that can rotate while being in contact with the touch panel, a mechanical knob fixed on the touch panel, an operation on the touch panel, and An operation information acquisition unit that acquires information about an operation on the mechanical knob, and an operation invalidation unit that invalidates information about an operation on the peripheral area of the mechanical knob on the touch panel among the information about the operation acquired by the operation information acquisition unit And an operation execution unit that executes a function based on information that is not invalidated by the operation invalidation unit among information related to the operation acquired by the operation information acquisition unit, and a display that displays a function execution screen by the operation execution unit Are provided.

  According to the present invention, since the information related to the operation on the peripheral area of the mechanical knob on the touch panel is invalidated, erroneous detection of the operation can be prevented.

It is a block diagram which shows the structural example of the display apparatus with a touchscreen which concerns on Embodiment 1 of this invention. It is an external appearance perspective view which shows the structural example of the display apparatus with a touchscreen which concerns on Embodiment 1 of this invention. 3A and 3B are diagrams showing a hardware configuration example of the display device with a touch panel according to Embodiment 1 of the present invention. It is a disassembled perspective view which shows the structural example of the mechanical knob in Embodiment 1 of this invention. It is an external appearance perspective view which shows the structural example by the side of the back of the mechanical knob in Embodiment 1 of this invention. 6A and 6B are cross-sectional views of the mechanical knob according to Embodiment 1 of the present invention cut along the line AA in FIG. 5, and FIG. 6A shows a state before the mechanical knob is fixed to the touch panel. 6B shows the state after fixing. It is a flowchart which shows the operation example of the control apparatus which concerns on Embodiment 1 of this invention. It is an external appearance perspective view which shows the structural example of the back side of the mechanical knob in the display apparatus with a touchscreen which concerns on Embodiment 2 of this invention. It is a disassembled perspective view which shows the structural example of the mechanical knob in the display apparatus with a touchscreen which concerns on Embodiment 3 of this invention. It is an external appearance perspective view which shows the structural example by the side of the back of the mechanical knob in Embodiment 3 of this invention. 11A and 11B are cross-sectional views of the mechanical knob according to the third embodiment of the present invention cut along the CC line of FIG. 10, and FIG. 11A is a state before the mechanical knob is fixed to the touch panel. 11B shows the state after fixing.

Hereinafter, in order to explain the present invention in more detail, modes for carrying out the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration example of a display device 1 with a touch panel according to Embodiment 1 of the present invention. The display device 1 with a touch panel according to the first embodiment includes a display 2 with a touch panel and a control device 6 that controls the display 2 with a touch panel. The display 2 with a touch panel includes a capacitive touch panel 3, a display 4 integrated with the touch panel 3, and a mechanical knob 5 fixed on the touch panel 3. The control device 6 includes an operation information acquisition unit 7, an operation invalidation unit 8, and an operation execution unit 9.

  FIG. 2 is an external perspective view showing a configuration example of the display device 1 with a touch panel according to Embodiment 1 of the present invention. A mechanical knob 5 is disposed on the touch panel 3. The mechanical knob 5 is operated by a user's finger and rotates forward and backward in the direction indicated by the arrow. When a user operates the mechanical knob 5, if a finger accidentally contacts the touch panel 3 around the mechanical knob 5, the contact is erroneously detected as an operation. Therefore, in the first embodiment, in order to prevent erroneous detection of an operation, an area around the mechanical knob 5 on the touch panel 3 is set as an operation invalidation area 301, and finger contact with the operation invalidation area 301 is invalidated. . Although the radial width of the operation invalidation region 301 depends on the sensitivity of the touch panel 3, it is desirable that the width is at least equal to the width of one finger. Details of the invalidation will be described later.

  3A and 3B are diagrams showing a hardware configuration example of the display device 1 with a touch panel according to the first embodiment of the present invention. Each function of the operation information acquisition unit 7, the operation invalidation unit 8, and the operation execution unit 9 in the control device 6 that controls the display 2 with a touch panel is realized by a processing circuit. That is, the control device 6 includes a processing circuit for realizing the above functions. The processing circuit may be the processing circuit 10 as dedicated hardware, or may be the processor 11 that executes a program stored in the memory 12.

As shown in FIG. 3A, when the processing circuit is dedicated hardware, the processing circuit 10 includes, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, and an ASIC (Application Specific Integrated Circuit). , FPGA (Field Programmable Gate Array), or a combination thereof. The functions of the operation information acquisition unit 7, the operation invalidation unit 8, and the operation execution unit 9 may be realized by a plurality of processing circuits 10, or the functions of each unit may be realized by a single processing circuit 10.
The touch panel 3, the display 4, and the processing circuit 10 are connected by a bus or the like and can exchange information.

As shown in FIG. 3B, when the processing circuit is the processor 11, the functions of the operation information acquisition unit 7, the operation invalidation unit 8, and the operation execution unit 9 are realized by software, firmware, or a combination of software and firmware. Is done. Software or firmware is described as a program and stored in the memory 12. The processor 11 implements the functions of each unit by reading and executing the program stored in the memory 12. That is, the control device 6 includes a memory 12 for storing a program that, when executed by the processor 11, results in the steps shown in the flowchart of FIG. Further, it can be said that this program causes the computer to execute the procedure or method of the operation information acquisition unit 7, the operation invalidation unit 8, and the operation execution unit 9.
The touch panel 3, the display 4, the processor 11, and the memory 12 are connected by a bus or the like and can exchange information.

Here, the processor 11 is a CPU (Central Processing Unit), a processing device, an arithmetic device, a microprocessor, a microcomputer, or the like.
The memory 12 may be a RAM (Random Access Memory), a ROM (Read Only Memory), an EPROM (Erasable Programmable ROM), or a nonvolatile or volatile semiconductor memory such as a flash memory, a hard disk, a flexible disk, or the like. The magnetic disk may be an optical disk such as a CD (Compact Disc) or a DVD (Digital Versatile Disc).

  In addition, about each function of the operation information acquisition part 7, the operation invalidation part 8, and the operation execution part 9, you may make it implement | achieve partly with exclusive hardware and may implement | achieve part with software or firmware. As described above, the processing circuit in the control device 6 can realize the functions described above by hardware, software, firmware, or a combination thereof.

  FIG. 4 is an exploded perspective view showing a configuration example of the mechanical knob 5 according to Embodiment 1 of the present invention. FIG. 5 is an external perspective view showing a configuration example of the back side of the mechanical knob 5 according to Embodiment 1 of the present invention. The back side of the mechanical knob 5 is a surface facing the touch panel 3 side. 6A and 6B are cross-sectional views of the mechanical knob 5 according to the first embodiment of the present invention cut along the line AA in FIG. 5. FIG. 6A is a diagram before the mechanical knob 5 is fixed to the touch panel 3. State, FIG. 6B shows the state after fixing.

  The mechanical knob 5 includes a disk-shaped rotation operation portion 501, an annular conductive portion 502, an annular rotation support portion 503, and hemispherical conductive contact portions 504a, 504b, and 504c. The rotation operation unit 501 and the conductive unit 502 are made of a conductor. The rotation support portion 503 is made of an insulator. The conductive contact portions 504a, 504b, and 504c are made of a conductive elastic body. The conductive contact portions 504a, 504b, and 504c are, for example, conductive rubber. In order to elastically deform the conductive contact portions 504a, 504b, and 504c, an elastic body having low hardness may be selected, or a cavity may be provided in the elastic body to facilitate deformation. In the illustrated example, the conductive portion 502 and the conductive contact portions 504a, 504b, and 504c are individually configured, but may be configured integrally.

  The rotation support unit 503 is fixed on the touch panel 3 with an adhesive or a double-sided tape. The rotation support unit 503 supports the rotation operation unit 501 in a rotatable manner. A conductive portion 502 is housed and fixed on the touch panel 3 side of the rotation operation portion 501. Conductive contact portions 504a, 504b, and 504c are fixed to the conductive portion 502 on the touch panel 3 side. As shown in FIG. 6A, in a state before the mechanical knob 5 is fixed to the touch panel 3, the hemispherical portion of the conductive contact portion 504 a protrudes from the rotation support portion 503. 6B, when the mechanical knob 5 is fixed on the touch panel 3, the conductive contact portion 504a protruding from the rotation support portion 503 contacts the touch panel 3 and is elastically deformed. Similarly, the conductive contact portions 504b and 504c protruding from the rotation support portion 503 also come into contact with the touch panel 3 and elastically deform.

  When a user's finger contacts the rotation operation unit 501, a change in capacitance occurs between the conductive contact units 504a, 504b, and 504c and the touch panel 3 via the conductive unit 502 that is in contact with the rotation operation unit 501. The position where the change occurs is detected by the touch panel 3. When the rotation operation unit 501 is rotated by the user's finger, the conductive unit 502 and the conductive contact units 504a, 504b, and 504c fixed to the rotation operation unit 501 are also rotated together, and the conductive contact units 504a, 504b, The touch panel 3 detects the rotating position of 504c.

In order to prevent erroneous detection of the mechanical knob 5 other than the conductive contact portions 504a, 504b, and 504c, the conductive portion 502 detects the distance B between the conductive portion 502 and the touch panel 3 by the touch panel 3. The distance is not set. Since the distance B is affected by the sensitivity of the touch panel 3 and the like, it is desirable to determine the distance B by actual measurement. Thus, the touch panel 3 can detect only the conductive contact portions 504a, 504b, and 504c without detecting the conductive portion 502.
The rotation operation unit 501 is also a conductor. However, in the illustrated example, since the insulating rotation support unit 503 exists between the rotation operation unit 501 and the touch panel 3, the touch panel 3 erroneously detects the rotation operation unit 501. There is nothing. However, depending on the structure of the mechanical knob 5 or depending on the sensitivity of the touch panel 3, the rotation support portion 503 may be erroneously detected by the touch panel 3. In that case, the distance between the rotation operation unit 501 and the touch panel 3 may be set to a distance at which the rotation operation unit 501 is not detected by the touch panel 3.

  The touch panel 3 determines whether or not the user's finger is in contact with the rotation operation unit 501, the position of the conductive contact units 504a, 504b, and 504c when the user's finger is rotating the rotation operation unit 501, or the rotation. The rotation direction of the operation unit 501 is output as information related to the operation on the mechanical knob 5 (hereinafter referred to as “operation information on the mechanical knob 5”). Further, the touch panel 3 outputs the position where the user's finger is in contact as information related to the operation on the touch panel 3 (hereinafter referred to as “operation information on the touch panel 3”).

  Since the conductive contact portions 504a, 504b, and 504c are elastically deformed and are in contact with the touch panel 3, even if there is assembly variation of the mechanical knob 5 or assembly variation of the mechanical knob 5 and the touch panel 3, etc. The contact between 504a, 504b, and 504c and the touch panel 3 is stabilized. Therefore, the capacitance change between the conductive contact portions 504a, 504b, and 504c and the touch panel 3 is stabilized, and it is possible to prevent erroneous detection and undetectable operation.

FIG. 7 is a flowchart showing an operation example of the control device 6 of the display device with a touch panel 1 according to the first embodiment of the present invention.
In step ST <b> 1, the operation information acquisition unit 7 acquires operation information for the touch panel 3 and operation information for the mechanical knob 5 from the touch panel 3. The operation information acquisition unit 7 outputs the operation information acquired from the touch panel 3 to the operation invalidation unit 8.

  In step ST2, the operation invalidation unit 8 determines whether or not the operation information received from the operation information acquisition unit 7 is operation information for the operation invalidation region 301 of the touch panel 3 illustrated in FIG. More specifically, the operation invalidation unit 8 determines whether or not the operation invalidation area 301 includes a position touched by the user's finger based on operation information on the touch panel 3. If the operation information received from the operation information acquisition unit 7 is operation information for the operation invalidation area 301 (step ST2 “YES”), the operation invalidation unit 8 discards the operation information received from the operation information acquisition unit 7. As a result, the operation on the operation invalidation area 301 is invalidated. On the other hand, the operation invalidation unit 8 operates the operation information received from the operation information acquisition unit 7 when the operation information received from the operation information acquisition unit 7 is not operation information for the operation invalidation region 301 (step ST2 “NO”). It outputs to the execution part 9, and progresses to step ST3.

  In step ST <b> 3, the operation execution unit 9 executes a function based on the operation information received from the operation invalidation unit 8. That is, the operation execution unit 9 executes the function based on the operation information that has not been invalidated by the operation invalidation unit 8 among the operation information acquired by the operation information acquisition unit 7. The operation invalidation unit 8 outputs and displays the function execution screen on the display 4.

  It is assumed that the operation execution unit 9 has information on functions to be executed corresponding to the operation information in advance. Thereby, the user touches the map displayed on the display device 1 with a touch panel to set the destination of the car navigation device, adjusts the volume of the car audio device by rotating the mechanical knob 5, The temperature of the car air conditioner can be adjusted by rotating the knob 5. Therefore, when the display device with a touch panel 1 is applied to an in-vehicle product used in a situation where it is difficult for the user to operate the touch panel 3 while looking at the display 4, the user intuitively operates the mechanical knob 5. it can.

In the flowchart of FIG. 7, the operation for the operation invalidation area 301 is always invalidated. However, the present invention is not limited to this, and the operation for the operation invalidation area 301 may be invalidated only for a predetermined period.
For example, when the function being executed by the operation execution unit 9 corresponds to a predetermined invalidation target function, the operation invalidation unit 8 invalidates the operation on the operation invalidation area 301 during the function execution, and otherwise The operation for the operation invalidation area 301 is validated during the execution of the function. Further, for example, when the user's finger is in contact with the mechanical knob 5, the operation invalidation unit 8 invalidates the operation on the operation invalidation area 301 during the contact and the operation invalidation area 301 during the non-contact. Enable the operation.

As a specific example, when the user's finger touches the map while the map is displayed on the display 4, the operation execution unit 9 sets the contact position as the destination or sets the contact position to the screen center position of the display 4. A function such as changing the display range of the map is executed.
When the user touches the mechanical knob 5 in an attempt to operate the mechanical knob 5 and the finger touches the operation invalidation area 301 unintentionally, this touch is erroneously detected as an operation by the touch panel 3, The function is executed. Thus, while the display 4 is displaying a map, the operation invalidation unit 8 invalidates the operation on the operation invalidation area 301, thereby preventing erroneous detection of the operation.
Alternatively, when the user tries to operate the mechanical knob 5 and touches the mechanical knob 5 with his / her finger, the touch is erroneously detected as an operation by the touch panel 3 when the finger touches the operation invalidation region 301 unintentionally. As a result, the above function is executed. Therefore, when the user's finger is in contact with the mechanical knob 5, the operation invalidation unit 8 invalidates the operation on the operation invalidation region 301, thereby preventing erroneous detection of the operation.

  As described above, the display device with a touch panel 1 according to the first embodiment includes the capacitive touch panel 3 and the conductive contact portions 504a, 504b, and 504c that can rotate while being in contact with the touch panel 3. Among the information about the operation acquired by the mechanical knob 5 fixed on 3, the operation information acquisition unit 7 for acquiring information on the operation on the touch panel 3 and the operation on the mechanical knob 5, and the operation information acquisition unit 7 Among the information on the operation invalidation unit 8 for invalidating the information on the operation invalidation region 301 on the touch panel 3 and the operation information acquired by the operation information acquisition unit 7, the information was not invalidated by the operation invalidation unit 8. An operation execution unit 9 that executes a function based on information, and a display that displays a function execution screen by the operation execution unit 9 A structure and a ray 4. Since the information regarding the operation on the peripheral area of the mechanical knob 5 on the touch panel 3 is invalidated, erroneous detection of the operation can be prevented.

  In the first embodiment, the conductive contact portions 504a, 504b and 504c are conductive elastic bodies. As a result, the contact between the conductive contact portions 504a, 504b, and 504c and the touch panel 3 is stabilized, and it is possible to prevent erroneous detection and undetectable operation.

  The mechanical knob 5 according to the first embodiment includes the conductive contact portions 504a, 504b, and 504c, the conductive conductive portion 502 to which the conductive contact portions 504a, 504b, and 504c are fixed, and the conductive portion 502 inside. When housed and rotated, the conductive rotation unit 501 that rotates integrally with the conductive unit 502 and the conductive contact units 504a, 504b, and 504c, and the rotary operation unit 501 are fixed on the touch panel 3 and can rotate. It is a structure provided with the insulating rotation support part 503 to support. A distance B between the conductive portion 502 and the touch panel 3 is a distance at which the conductive portion 502 is not detected by the touch panel 3. Thereby, it can prevent that other than the conductive contact parts 504a, 504b, and 504c are erroneously detected.

  In addition, although the control apparatus 6 of Embodiment 1 was the structure which controls the touch panel 3 to which the mechanical knob 5 was fixed, and the display 4, the structure which controls only the touch panel 3 to which the mechanical knob 5 was fixed. It may be. In that case, the control device 6 of the touch panel 3 includes at least an operation information acquisition unit 7 that acquires information related to the operation on the touch panel 3 and the operation on the mechanical knob 5, and the information related to the operation acquired by the operation information acquisition unit 7. The operation invalidation unit 8 invalidates information related to the operation on the operation invalidation area 301 on the touch panel 3. With this configuration, it is possible to invalidate information related to the operation on the peripheral area of the mechanical knob 5 on the touch panel 3 and prevent erroneous detection of the operation.

  Further, the mechanical knob 5 fixed to the touch panel 3 is not limited to the configuration shown in FIG. 4 and the like, and the touch panel 3 can detect the contact and rotation operation of the user's finger with respect to the mechanical knob. Any configuration may be used. When the control device 6 controls the touch panel 3 to which the general-purpose mechanical knob is fixed, the capacitance of the control device 6 between the plurality of conductive contact portions of the general-purpose mechanical knob and the touch panel 3 has changed. The outer diameter of the mechanical knob is obtained based on the position, and the operation invalidation area 301 may be set. For example, when a general-purpose mechanical knob has three conductive contact portions, the control device 6 sets a circumscribed circle passing through the three conductive contact portions as an outer diameter of the mechanical knob. Or the information which shows the position of the operation invalidation area | region 301 may be given to the control apparatus 6 from the outside.

Embodiment 2. FIG.
FIG. 8 is an external perspective view showing a configuration example on the back side of the mechanical knob 5 in the display device 1 with a touch panel according to the second embodiment of the present invention. The configuration of the mechanical knob 5 is different between the display device with a touch panel 1 according to the second embodiment and the display device with a touch panel 1 according to the first embodiment. 8, parts that are the same as or correspond to those in FIG. 5 are given the same reference numerals, and descriptions thereof are omitted.

  As shown in FIG. 8, the conductive contact portions 510a, 510b, 510c are provided with R surfaces in the forward rotation direction and the reverse rotation direction indicated by arrows. Although illustration is omitted, it is not limited to the R surface, and may be an inclined surface or a C surface. Accordingly, the conductive contact portions 510a, 510b, and 510c can operate smoothly both in the forward rotation and the reverse rotation.

Embodiment 3 FIG.
FIG. 9 is an exploded perspective view showing a configuration example of the mechanical knob 5 in the display device 1 with a touch panel according to the third embodiment of the present invention. FIG. 10 is an external perspective view showing a configuration example on the back side of the mechanical knob 5 according to Embodiment 3 of the present invention. 11A and 11B are cross-sectional views of the mechanical knob 5 according to the third embodiment of the present invention cut along the CC line of FIG. 10, and FIG. 11A is a state before the mechanical knob 5 is fixed to the touch panel 3. State, FIG. 11B shows the state after fixing. The configuration of the mechanical knob 5 is different between the display device with a touch panel 1 according to the third embodiment and the display device with a touch panel 1 according to the first embodiment. 9, 10, 11 </ b> A, and 11 </ b> B, parts that are the same as or correspond to those in FIGS.

  As shown in FIG. 9, the mechanical knob 5 of Embodiment 3 includes spring support portions 521a, 521b, 521c and coil springs 523a-1, 523a-2, 523b-1, 523b-2, 523c-1, 523c- 2 is provided. A conductive contact portion 522a is provided on the touch panel 3 side of the spring support portion 521a. Two columnar projections are formed on the rotation operation portion 501 side of the spring support portion 521a, and coil springs 523a-1 and 523a-2 are attached to the respective projections. The spring support portion 521a to which the coil springs 523a-1 and 523a-2 are attached is housed and fixed in the spring structure housing portion 520a of the conductive portion 502. A hole is opened in the spring structure storage portion 520a, and the conductive contact portion 522a protrudes through the hole to the touch panel 3 side.

  Similarly, conductive contact portions 522b and 522c are provided on the touch panel 3 side of the spring support portions 521b and 521c. Two columnar projections are formed on the rotation operation unit 501 side of the spring support portions 521b and 521c, and coil springs 523b-1, 523b-2, 523c-1, and 523c-2 are attached to the projections. The spring support portions 521b and 521c to which the coil springs 523b-1, 523b-2, 523c-1, and 523c-2 are attached are housed and fixed in the spring structure housing portions 520b and 520c of the conductive portion 502. Holes are opened in the spring structure storage portions 520b and 520c, and the conductive contact portions 522b and 522c pass through the holes and protrude toward the touch panel 3 side.

  Note that the coil springs 523a-1, 523a-2, 523b-1, 523b-2, 523c-1, and 523c-2 are made of a conductor. The spring support portions 521a, 521b, 521c and the conductive contact portions 522a, 522b, 522c are made of a conductive elastic body or a conductive rigid body. In addition, the conductive contact portions 522a, 522b, and 522c in the illustrated example are hemispherical, but may be inclined surfaces, C surfaces, or R surfaces as in the second embodiment.

  As shown in FIG. 11A, the hemispherical conductive contact portion 522 a protrudes from the rotation support portion 503 before the mechanical knob 5 is fixed on the touch panel 3. 11B, when the mechanical knob 5 is fixed on the touch panel 3, the conductive contact portion 522a protruding from the rotation support portion 503 receives the urging force of the coil springs 523a-1 and 523a-2 and touches the touch panel. 3 is pressed. Similarly, the conductive contact portions 522b and 522c protruding from the rotation support portion 503 are pressed against the touch panel 3 by receiving the urging force of the coil springs 523b-1, 523b-2, 523c-1, and 523c-2.

  When the user's finger contacts the rotation operation unit 501, the coil springs 523a-1, 523a-2, 523b-1, 523b-2, 523c-1, 523c-2 and the spring support unit 521a that are in contact with the rotation operation unit 501 are contacted. , 521b, 521c, a capacitance change occurs in the conductive contact portions 522a, 522b, 522c, and the touch panel 3 detects the position where the change has occurred. When the rotation operation unit 501 is rotated by the user's finger, the conductive unit 502 and the conductive contact units 522a, 522b, and 522c fixed to the rotation operation unit 501 are also rotated together, and the conductive contact units 522a, 522b, The touch panel 3 detects the rotating position of 522c.

  As described above, in the third embodiment, the mechanical knob 5 includes the coil springs 523a-1, 523a-2, 523b-1, 523b-2, and 523c that bias the conductive contact portions 522a, 522b, and 522c toward the touch panel 3. -1, 523c-2. As a result, the contact between the conductive contact portions 522a, 522b, and 522c and the touch panel 3 is stabilized, and it is possible to prevent erroneous detection and undetectable operation.

In the illustrated example, two coil springs are used for one conductive contact portion in order to bias the conductive contact portions 522a, 522b, and 522c to the touch panel 3. However, the present invention is not limited to this. One or more coil springs may be used for one conductive contact portion. However, by using two or more coil springs, the mechanical knob 5 can be urged stably even when the mechanical knob 5 is rotating.
The elastic body that biases the conductive contact portions 522a, 522b, and 522c is not limited to the coil spring, and may be a leaf spring or the like.

  In the first to third embodiments, the configuration in which the mechanical knob has three conductive contact portions is illustrated. However, the number of the conductive contact portions is not limited to three. It is possible to detect a finger touch and rotation operation on the mechanical knob.

  In the present invention, within the scope of the invention, any combination of each embodiment, any component of each embodiment can be modified, or any component of each embodiment can be omitted.

  In the display device with a touch panel according to the present invention, the information regarding the operation on the peripheral area of the mechanical knob on the touch panel is invalidated to prevent erroneous detection of the operation, so that the user operates the touch panel while watching the display. It is suitable for in-vehicle display devices with touch panels used in difficult situations.

  DESCRIPTION OF SYMBOLS 1 Display apparatus with a touch panel, 2 Display with a touch panel, 3 Touch panel, 4 Display, 5 Mechanical knob, 6 Control apparatus, 7 Operation information acquisition part, 8 Operation invalidation part, 9 Operation execution part, 10 Processing circuit, 11 Processor, 12 memory, 301 operation invalidation area, 501 rotation operation section, 502 conductive section, 503 rotation support section, 504a, 504b, 504c, 510a, 510b, 510c, 522a, 522b, 522c conductive contact section, 520a, 520b, 520c spring Structure housing part, 521a, 521b, 521c Spring support part, 523a-1, 523a-2, 523b-1, 523b-2, 523c-1, 523c-2 Coil spring.

Claims (7)

A capacitive touch panel,
A mechanical knob fixed on the touch panel, having a conductive contact portion that can rotate in contact with the touch panel;
An operation information acquisition unit for acquiring information on an operation on the touch panel and an operation on the mechanical knob;
Of the information related to the operation acquired by the operation information acquisition unit, an operation invalidation unit that invalidates information related to the operation on the peripheral area of the mechanical knob on the touch panel;
Of the information about the operation acquired by the operation information acquisition unit, an operation execution unit that executes a function based on information that has not been invalidated by the operation invalidation unit;
A display device with a touch panel, comprising: a display that displays a function execution screen by the operation execution unit.   The display device with a touch panel according to claim 1, wherein the conductive contact portion is a conductive elastic body.   The display device with a touch panel according to claim 1, wherein the mechanical knob includes an elastic body that biases the conductive contact portion toward the touch panel.   The display device with a touch panel according to claim 1, wherein the conductive contact portion is provided with an inclined surface, a C surface, or an R surface in a forward rotation direction and a reverse rotation direction. The mechanical knob is
The conductive contact portion;
A conductive conductive part to which the conductive contact part is fixed;
The conductive portion is housed inside, and a conductive rotation operation portion that rotates integrally with the conductive portion and the conductive contact portion when rotated.
An insulating rotation support unit fixed on the touch panel and rotatably supporting the rotation operation unit;
The display device with a touch panel according to claim 1, wherein the distance between the conductive part and the touch panel is a distance at which the conductive part is not detected by the touch panel. A control device for the touch panel that detects an operation on a mechanical knob fixed on a capacitive touch panel,
An operation information acquisition unit for acquiring information on an operation on the touch panel and an operation on the mechanical knob;
A touch panel control device comprising: an operation invalidation unit that invalidates information related to an operation on a peripheral area of the mechanical knob in the touch panel among information related to an operation acquired by the operation information acquisition unit. A control method for the touch panel that detects an operation on a mechanical knob fixed on a capacitive touch panel,
An operation information obtaining unit obtaining information relating to an operation on the touch panel and an operation on the mechanical knob;
An operation invalidation unit comprises a step of invalidating information related to an operation on a peripheral area of the mechanical knob in the touch panel among information related to the operation acquired by the operation information acquisition unit. Control method.

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