RU146516U1 - TOUCH PANEL DATA CONTROL SYSTEM - Google Patents

Abstract

1. The control system for the touch input of data of the touch panel, comprising: a touch panel for sensing pressure or electrical signals on the surface of the touch panel as a touch track for the image on the display screen, which is the track along the path of movement of pressure or electrical signals applied to the display screen, where the starting point of the movement path is in a specific area within the image; a touch circuit connected to the touch panel to receive touch track data from it, where e the sensor circuit includes a logic unit for generating control signals corresponding to the touch tracks so that the image on the display screen changes depending on the control signals; an video processor for receiving control signals from a logic unit of a sensor circuit for generating an image on a display screen based on control signals, characterized in that the logic unit is configured to divide an image on a display screen into two specific areas: an image moving area and an image resizing area so so that: when the starting point of the touch track is on the image moving area, the logic unit generates a control signal to move the image, this The control signal is sent to the video processor to move the image, and when the start point of the touch track is in the image resizing area, the logic unit generates a control signal to resize the image, while when the touch track vector passes from the external image area to the screen�

Description

This utility model relates to touch panels, in particular to a touch panel touch input control system.

Currently, due to the widespread use of touch panels, there are many operations that can be performed by electronic devices with displays, data entry for which is carried out using touch panels. Touch tracks on display screens cause the displayed images to change due to users performing specific touch operations.

When using touch panels, unwanted operations are often generated due to erroneous user actions. Currently, the touch recognition area extends to the entire area of the touch panel, so it is possible to accidentally touch the touch panel, which causes an incorrect image change on the display screen. Therefore, it is necessary to ensure high accuracy of determination in order to determine the touch track only in a certain area so as to reduce the likelihood of unwanted erroneous operations that lead to incorrect display or actions that are undesirable for the user. Moreover, it is desirable to be able to reduce the number of keys or buttons displayed on the display screen by software applications to reduce the number of unwanted icons on the screen.

The technical solution that is closest to the proposed utility model is known from the prior art, namely, a touch panel data input control system of a touch panel, which allows to slightly reduce the number of data input errors [JP 2009211244 A, 09.17.2009]. This system includes: a touch panel for sensing the touch track to resize the image on the display screen, where the starting point of the touch track is in a specific area within the image; a sensor circuit connected to the touch panel for receiving touch track data from it, where the sensor circuit includes a logic unit for generating control signals corresponding to the touch tracks so that the image on the display screen changes depending on the control signals; and a video processor for receiving control signals from a logic unit for resizing an image on a display screen based on control signals. However, this system allows minimizing unwanted operations due to erroneous user actions only for image enlargement and reduction operations.

The purpose of this utility model is to overcome the disadvantages of the prior art, and this utility model discloses a touch panel dividing the image on the display screen into two parts, so that it would not just cause an unwanted touch error. Moreover, in this utility model, various touch paths can be generated by definitions, which makes it possible to adjust the image on a smartphone, tablet or laptop for the desired viewing, finding or performing various operations with a minimum of errors.

The proposed touch panel data input control system of the touch panel includes: a touch panel for sensing pressure or electrical signals on the surface of the touch panel in the form of a touch track for the image on the display screen, which is the track along the path of pressure or electrical signals applied to the display screen, where the starting point of the travel path is in a specific area within the image; a sensor circuit connected to the touch panel for receiving touch track data from it, where the sensor circuit includes a logic unit for generating control signals corresponding to the touch tracks so that the image on the display screen changes depending on the control signals; and a video processor for receiving control signals from a logic unit of the sensor circuit for generating an image on a display screen based on control signals. What is new is that the logic unit is capable of dividing the image on the display screen into two specific areas: the image moving area and the image resizing area so that: when the starting point of the touch track is on the image moving area, the logical unit generates a control signal for moving image, this control signal is supplied to the video processor to move the image, and when the starting point of the touch track is in the area of resizing from In this case, the logic unit generates a control signal for resizing the image, while when the touch track vector passes from the external image area on the display screen to its internal area, the image will be reduced, and when the touch track vector passes from the internal image area on the display screen to external area, the image will be enlarged.

The image moving area may be an area near the center of the image surrounding it, in which case the other area outside the image moving area is the image resizing area.

The system may be configured to perform a single track operation when the touch track is a single track, and when the touch panel receives signals in the form of data from such a touch track, the logic unit generates corresponding control signals.

The touch panel may be made in the form of a resistive touch panel or capacitive touch panel, may be in the form of a transparent or opaque touch panel.

The touch panel can be installed directly on the display screen or separately from the display screen.

A brief description of the drawings:

FIG. 1 is a block diagram of a system according to a present utility model;

FIG. 2 is a block diagram of a system according to another embodiment of the present utility model;

FIG. 3 is an illustration of the separation of the image according to the present utility model;

FIG. 4 is an illustration of another embodiment of dividing an image according to the present utility model;

FIG. 5 is a schematic view illustrating one touch track according to the present utility model; and

FIG. 6 is a schematic view illustrating another touch track according to the present utility model.

In FIG. 1 illustrates a touch panel data input control system of a touch panel according to the present utility model. The inventive system is a single module of software and hardware, which includes the following elements.

The touch panel 10 senses pressure or electrical signals on the surface of the touch panel 10. The touch track for the image on the display screen is defined here as the track along the travel path of pressure or electrical signals applied to the display screen 40, and the start point of the travel path is within the image. The touch panel 10 may be a resistive touch panel or a capacitive touch panel or another type of touch panel. Also, the touch panel 10 can be both transparent and opaque. It is preferable to make the touch panel 10 transparent.

The sensor circuit 20 is connected to the touch panel 10 to receive touch track data from it. The sensor circuit 20 includes a logic unit 22 that generates various control signals corresponding to the touch tracks so that the image on the display screen 40 changes depending on the control signals.

In FIG. 2 it is illustrated that the touch panel 10 is mounted on top of the display screen 40 (for example, as on the display screen of a smartphone or tablet computer) or, as shown in the previous figure, can be performed separately from the display screen 40 (for example, as a laptop touch panel, etc. .P.).

The video processor 30 receives control signals from the logic unit 22 of the sensor circuit 20 to generate an image on the display screen 40 based on the control signals.

In this utility model, the logic unit 22 divides the image into two areas (see FIG. 3), one of which is the image moving area 41, and the other is the image resizing area 42 (in this example, the image is divided into two areas diagonally). When the touch track is close to a straight line and is in the area of movement of the image 41, the logic unit 22 generates a control signal to cause the image to move along the vector of the touch track. This control signal is transmitted to the video processor 30, which controls the image on the display screen 40 to move it along the touch track.

When the touch track is an almost linear vector and is located on the image resizing area 42, the image size can be increased or decreased. When the touch track vector extends from the outside of the image on the display screen 40 (close to the frame of the display screen 40) to its inside area (near the center of the display screen 40), the image will be reduced. Conversely, when the vector of the touch track passes from the inner region to the outer region, the image will be enlarged.

If the touch track starts on the moving area of the image 41, the image will move along the touch track.

As shown in FIG. 4, in one embodiment, the area of movement of the image 41 is defined as the area surrounding the center of the image. Another area outside the image moving area 41 is the image resizing area 42.

The utility model provides operations with various touch tracks.

Single track operation

The operation of a single track is defined as follows: the touch track is a single track, wherein when the touch panel 20 receives signals in the form of data from such a touch track, the logic unit 22 generates corresponding control signals. Further, such an operation is described in more detail.

In the operation of increasing the image size, the touch panel 20 receives a touch point track signal (for example, when a finger clicks at one point on the display screen 40), and if the image displayed on the display screen 40 is a simple image (i.e., without reference to page), the logic unit 22 generates a control signal to restore the image to its original size on the display screen 40. Then this control signal is transmitted to the video processor 30 so that the image on the screen splea 40 was restored to its original size. As shown in FIG. 5, when the touch track is round or arc-shaped, the logic unit 22 generates a control signal to rotate the image according to such a touch track. This control signal is then transmitted to the video processor 30, which rotates the image around the center of such a touch track in the corresponding direction. Double track operation

The double track operation means that there are two touch tracks generated in one operation, and the touch panel 20 receives the signals of two touch tracks at the same time.

Further, such an operation is described in more detail.

As shown in FIG. 6. When the touch tracks are two points on the image (for example, when two fingers click on the touch panel 10 at the same time), the logic unit 22 will generate a control signal to increase the size of the image, which is transmitted to the video processor 30, so that the video processor 30 enlarges the image until while there is contact with these two points on the image within the display screen 40. At this time, the operation of resizing the image occurs.

When the sensor circuit 20 receives the touch point track and the linear touch track signals initiated simultaneously (for example, when two fingers first touch the image and then one finger moves away from the image), then if the linear touch track is close to a straight line, the logic block 22 and video processor 30 will cause a reduction in image size when the linear touch track is directed toward the center of the image, or an increase in image size when the linear touch track is directed towards the edge of the image. When the touch track is close to the curved line, the logic unit 22 and the video processor 30 will cause the image to rotate in the direction of this curved line.

If the sensor circuit 20 senses two touch point tracks twice (that is, when one click on the image with two fingers at the same time, and then another same click), then the logic unit 22 will display the image pixel by pixel, which means that each pixel of the image is displayed on the display screen 40 in the form of a corresponding screen pixel (for example, if the image is saved in the format of 1024 × 512 pixels, then it will also be displayed on the screen of the display 40 on an area of 1024 × 512 pixels, i.e., each pixel on the display screen 40 corresponds to one pixel of the image file). Then this operation goes into image resizing mode. In this mode, when the sensor circuit 20 senses two touch point tracks twice, the displayed image will be restored to its original displayed size. After that, the operation exits the resize image mode.

Thus, the present utility model has been described in detail, and it should be understood that it can be modified in various ways. Such modifications are not considered a departure from the essence and scope of protection of this utility model, and all such modifications that are obvious to a specialist in this field of technology are considered to fall within the scope of legal protection defined by the attached formula.

Claims (6)

1. The control system for the touch input of data of the touch panel, comprising: a touch panel for sensing pressure or electrical signals on the surface of the touch panel as a touch track for the image on the display screen, which is the track along the path of movement of pressure or electrical signals applied to the display screen, where the starting point of the travel path is in a specific area within the image; a sensor circuit connected to the touch panel for receiving touch track data from it, where the sensor circuit includes a logic unit for generating control signals corresponding to the touch tracks so that the image on the display screen changes depending on the control signals; and a video processor for receiving control signals from a logic unit of a sensor circuit for generating an image on a display screen based on control signals, characterized in that the logic unit is configured to divide the image on the display screen into two specific areas: the area of movement of the image and the area of resizing the image so that: when the starting point of the touch track is on the image moving area, the logic unit generates a control signal for moving the image, this control signal is supplied to the video processor to move the image, and when the starting point of the touch track is on the image resizing area, the logic unit generates a control signal for resizing the image, while when the touch track vector passes from the outer area of the image on the display screen to its inner area, the image will be reduced, and when the track vector touch passes from the inner region of the image on the display screen to its outer region, the image will be enlarged. 2. The system according to claim 1, characterized in that the image moving area is an area near the center of the image covering it, and the other area outside the image moving area is the image resizing area. 3. The system according to claim 1, characterized in that it is configured to perform a single track operation when the touch track is a single track, while when the touch panel receives signals in the form of data from such a touch track, the logic unit generates corresponding control signals. 4. The system according to claim 1, characterized in that the touch panel is made in the form of a resistive touch panel or capacitive touch panel. 5. The system according to claim 1, characterized in that the touch panel is made in the form of a transparent or opaque touch panel. 6. The system according to claim 1, characterized in that the touch panel is installed on the display screen or separately from the display screen.

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