CN214474946U - Equal-scale reduction touch screen device capable of jumping, positioning and touching - Google Patents

Abstract

The utility model relates to a touch screen device with equal proportional reduction and capable of jumping and positioning touch; the shell is embedded with a touch screen and a physical confirmation button, a control panel is arranged in a cavity of the shell and is electrically connected with the touch screen and the physical confirmation button, and a touch module, a processing module and a communication module are arranged on the control panel; the touch control module is used for acquiring the click operation of a user on the touch control screen, and the processing module generates a touch control instruction at a corresponding position according to the click operation; the processing module is used for mapping coordinate point positions of the touch instruction into click coordinates of the mobile terminal touch screen in an equal proportion mode, and the communication module is used for sending the click coordinates to the mobile terminal; the physical confirmation button is used for obtaining a confirmation instruction pressed by a user, and the communication module sends the confirmation instruction to the mobile terminal; by first sending the click coordinates to form a fuzzy click on the moving end and then performing a confirmation operation through the physical confirmation button, a jump-type click operation can be realized to prevent a malfunction.

Description

Equal-scale reduction touch screen device capable of jumping, positioning and touching

Technical Field

The utility model relates to a remove the long-range touch-control technical field of end, especially relate to a but touch-control screen device is dwindled to equal proportion of location touch-control of beating.

Background

With the continuous development of mobile terminals, smart phones are necessities of life and are widely applied to activities of people such as life, work, leisure and the like; the electronic touch screen is a visual product for acquiring information and carrying out information interaction in the processes of production, work, leisure and the like; in practical applications, if a smart phone and an electronic touch screen are to be implemented in a human-computer interaction manner, the following methods are mainly used at present: firstly, the function operation is realized by touching a touch screen or other display screens of the mobile phone by fingers; the mode is intuitive in operation and rapid in man-machine interaction, but the inconvenience is that both hands of a user need to be occupied, the man-machine interaction can be realized only by holding the mobile phone all the time or through frequent finger operation, the use of both hands is limited, and a lot of inconvenience is brought to the user; in addition, because the fingers need to click the display screen, the distance between the mobile phone and the eyes is limited, and a series of health problems such as visual deterioration, head and neck muscle stiffness and the like are easily caused by long-time head lowering and short-distance use; secondly, the operation function can be realized by operating the mobile phone or the display screen through a Bluetooth mouse, including the existing small mouse or the small touch mouse which can be worn on fingers, but the method is to trigger a menu to perform functions and other operations after the cursor reaches a menu display unit in a cursor moving mode. The mouse is difficult to realize the feeling of the functional operation of the mobile phone due to the problems of the volume, the response sensitivity, the slow movement of the cursor and the like of the mouse, brings great inconvenience to a user, and cannot obtain the intuitive and quick operation experience of using a mobile phone touch screen. For the above problems, although a manner of performing touch operation on a mobile terminal by using another touch screen appears in the prior art, a reference point generated in the positioning process is not changed, that is, a remote touch screen in the prior art cannot perform jumping click, the mobile terminal cannot respond to jumping click of the remote touch screen, and only can perform operation during sliding, but the sliding type touch manner is obviously not suitable for a small screen, and cannot identify and accurately fine adjustment and confirmation commands; therefore, a method and a system for realizing jumping click touch on a remote touch screen are urgently needed, and a touch screen capable of performing click fine adjustment and confirmation conveniently is needed.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing technologies such as: the method can be realized only by sliding during remote touch control, and can not realize jumping click, so that the problems of error judgment of page jumping and the like easily occur in a fine adjustment mode; according to the scheme, the click coordinate is formed by obtaining each click operation, the target coordinate is generated by fine-tuning sliding operation, the confirmation command of the target coordinate is realized through the additional confirmation button, jump-type click is realized, and the formed annular structure is convenient for a user to click and confirm on a finger.

The device comprises a shell, wherein a touch screen and a physical confirmation button are embedded in the shell, a control panel is arranged in a cavity of the shell, the control panel is electrically connected with the touch screen and the physical confirmation button, and a touch module, a processing module and a communication module are arranged on the control panel; the touch screen of the touch screen corresponds to an external mobile end touch screen in equal proportion;

the touch control module is used for acquiring the click operation of a user on the touch control screen, and the processing module generates a touch control instruction at a corresponding position according to the click operation;

the processing module is used for mapping coordinate point positions of the touch instruction into click coordinates of the mobile terminal touch screen in an equal proportion mode, and the communication module is used for sending the click coordinates to the mobile terminal;

the physical confirmation button is used for obtaining a confirmation instruction pressed by a user, and the communication module sends the confirmation instruction to the mobile terminal.

Preferably, the processing module further comprises a fine-tuning unit, the fine-tuning unit is used for obtaining fine-tuning sliding operation, fine-tuning the click coordinate according to the fine-tuning sliding operation to obtain a target coordinate, and the communication module sends the target coordinate to the mobile terminal;

preferably, when the touch screen acquires a click operation of a user on the touch screen, the processing module generates a virtual cursor, and the touch screen correspondingly displays the virtual cursor.

Preferably, after the touch module obtains a first click operation and sends a target coordinate corresponding to the first click operation to the mobile terminal, if a second click operation is obtained again, a touch instruction is generated for the second click operation again, and a sliding start point of the fine-tuning sliding operation needs to be triggered close to a click coordinate of the second click operation.

Preferably, the touch module further includes a fine adjustment unit configured to trigger the fine adjustment sliding operation when the coordinate point of the touch instruction is taken as a starting point and the sliding distance or the sliding speed in the first threshold range is within the second threshold range.

Preferably, the housing is further provided with an indicator light for indicating different operation types.

In this embodiment, the casing sets up to annular structure, forms the through-hole that can supply the finger to pass, the touch screen gomphosis is in the casing is kept away from one side of through-hole, physics confirm button with the touch screen adjacent setting.

The utility model has the advantages that: compared with the prior art, the utility model provides a proportional scaling touch screen device capable of jumping and positioning touch, wherein the touch screen is provided with a touch screen which is scaled down in proportion to a mobile terminal touch screen; the touch screen and the physical confirmation button are embedded in the shell, a control panel is arranged in a cavity of the shell and is electrically connected with the touch screen and the physical confirmation button, and a touch module, a processing module and a communication module are arranged on the control panel; the touch screen of the touch screen corresponds to the external mobile terminal touch screen in equal proportion; the touch control module is used for acquiring the click operation of a user on the touch control screen, and the processing module generates a touch control instruction at a corresponding position according to the click operation; the processing module is used for mapping coordinate point positions of the touch instruction into click coordinates of the mobile terminal touch screen in an equal proportion mode, and the communication module is used for sending the click coordinates to the mobile terminal; the physical confirmation button is used for obtaining a confirmation instruction pressed by a user, and the communication module sends the confirmation instruction to the mobile terminal; by first sending the click coordinates to form a fuzzy click on the moving end and then performing a confirmation operation through the physical confirmation button, a jump-type click operation can be realized to prevent a malfunction.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a system architecture diagram of the present invention.

The main element symbols are as follows:

1. a touch module; 2. a processing module; 3. a communication module; 4. a physical confirmation button; 5. a housing; 6. a touch screen device; 7. an indicator light; a. a mobile terminal; b. provided is a touch screen device.

Detailed Description

In order to make the present invention clearer, the present invention will be further described with reference to the accompanying drawings.

In the prior art, a mode of controlling a mobile terminal through another touch screen often needs to perform mouse wake-up and positioning on a first click command on the touch screen, for example, a touch screen of a computer notebook, after waking up a mouse for the first time, a corresponding movement operation needs to be performed on the mouse by sliding, and the click command reconfirms the mouse for waking up the first time, so that jump-type click on the touch screen of the computer notebook cannot realize corresponding operation, and the operation sets an original point position of the mouse at the same position, and the wake-up mouse position is generated at the original point position no matter which position of the touch screen is clicked by a user; the further separated double-screen operation also adopts the logic, the click operation is only to confirm the locking on the mouse point position which is waken up for the first time, the coordinate of the jump click is not changed in response, the operation mode is also to drag the mouse point position by sliding, and therefore the operation experience of a user is greatly influenced; meanwhile, for the operation on the small screen, the first click position cannot be directly locked at the actual click position, so that fine adjustment operation is performed in the prior art, but a little bit is ignored, the sliding operation of the moving end is a page turning command, and the small screen with equal proportion can be mapped on the moving end after fine adjustment sliding to be a long-distance page turning command, so that the problem to be solved is solved. The mobile terminal in the scheme includes but is not limited to a mobile phone, a computer and a television with a touch screen. In order to solve the above problem, a scheme capable of realizing a jump click is proposed.

Specifically, referring to fig. 1-2, the isometric touch screen device includes an annular housing 5 having a through hole for a finger to pass through, and a touch screen 6 disposed on a side away from the through hole; a physical confirmation button 4 and an indicator light 7 are arranged adjacent to the touch screen. This kind of form can be convenient for the user to wear and use on finger or wrist, and what the physics affirmation button of adjacent setting was very convenient can be pressed by the user, experiences and feels strong.

Referring to fig. 3, the equal-scale touch screen device includes a touch module 1, a processing module 2, a communication module 3, and a physical confirmation button 4, which correspond to the mobile terminal touch screen in equal scale:

the touch control module 1 is used for acquiring the click operation of a user on the touch control screen, and the processing module 2 generates a touch control instruction at a corresponding position according to the click operation; the method comprises the steps that a touch screen acquires click operation of a user on the touch screen, and touch instructions are generated at corresponding positions according to the click operation; after each click operation, a touch instruction is generated at the corresponding position of the click operation, so that the jump experience can be generated corresponding to the jump click operation without fixing the mouse at an anchor point; since the touch screen and the touch screen of the mobile terminal are areas corresponding to each other in equal proportion, a user can directly click on the approximate position of the touch screen to identify the touch screen on the mobile terminal, and therefore the click jitter identification is the touch screen most suitable for being reduced in equal proportion.

After the processing module 2 maps coordinate point positions of the touch instruction into click coordinates of the mobile terminal touch screen in an equal proportion mode, the communication module 3 sends the click coordinates to the mobile terminal; because each click is not necessarily completely accurate, the click position needs to be finely adjusted in a sliding mode or a coordinate adsorption mode, and if the coordinate adsorption is that an application inlet is arranged in the adsorption range of the click coordinate distance, the click coordinate is directly adsorbed and adjusted to the coordinate of the application inlet

The touch control module 1 acquires a fine adjustment sliding operation of a user on a current click operation of a touch control screen, a fine adjustment unit of the processing module performs fine adjustment on a click coordinate according to the fine adjustment sliding operation to obtain a target coordinate, and the communication module sends the target coordinate to the mobile terminal a;

after the user confirms the coordinates, the position is confirmed through the physical keys, due to the fact that the size of the touch screen is small, if the position is confirmed through double-click or staying in the world, large-probability false touch is prone to occur, and through confirmation of the physical keys, a confirmation command of the target coordinates can be accurately achieved, and the confirmation command is sent to the mobile terminal.

In this embodiment, when the touch screen obtains a click operation of a user on the touch screen, the processing module generates a virtual cursor and sends the virtual cursor to the mobile terminal. The virtual cursor may act as a highlight to prompt the user to click on the location.

In this embodiment, after the first click operation is obtained and the target coordinate corresponding to the first click operation is sent to the mobile terminal, if the second click operation is obtained again, the touch instruction is generated for the second click operation again, and the sliding start point of the fine-tuning sliding operation needs to be triggered approximately to the coordinate point of the second click operation. Since the mode of identifying the click operation to generate the touch instruction is adopted, the jump-type click can be realized, so that the response is required to be on the last click coordinate in the fine adjustment sliding operation, the starting point position of the fine adjustment sliding operation is the coordinate point position of the last click operation, otherwise, the third reacquired click operation is easy to occur, and in order to prevent the situation, the starting point position of the fine adjustment sliding operation needs to be close to the corresponding coordinate point position.

In this embodiment, in the embodiment, when the touch screen acquires the coordinate point position of the touch instruction as the starting point and the distance of the sliding in the first threshold range or the sliding speed is in the second threshold range, the fine-tuning sliding operation is triggered. Whether the user slightly slides for fine adjustment or re-clicking of the coordinate point position is judged through the sliding distance or the sliding speed so as to accurately identify the instruction of the user.

In this embodiment, when the fine-tuning sliding operation is triggered, the sliding distance of the click coordinate is not mapped, because the size of the touch screen after the equal scaling is reduced is small, but the distance of the small sliding mapping at the moving end may be very large, so that the user can perform the fine-tuning sliding according to the actual distance of the moving end instead of obtaining the fine-tuning distance by calculation, and therefore the mapping is not performed, and the mode that the target coordinate is the strongest by taking the actual sliding distance obtained by the touch screen as the fine-tuning distance is adopted; and because the point position and the mobile end point position of the touch screen are kept at the equal-proportion corresponding positions, the most accurate click vision and experience can be provided for the user, and then after the fine-tuning sliding operation is finished and the target point position is sent to the mobile end, the touch screen performs callback on the clicked coordinate after sliding to the touch area before sliding. That is to say, after the fine tuning is finished, the point position presented on the touch screen is also the initial coordinate point position, not the position after sliding, so that it can be ensured that the unmapped sliding distance does not cause visual influence on the coordinate point position on the touch screen, and the proportional relationship is still relatively accurate.

The utility model has the advantages that:

1) liberating both hands: the user can not need to hold a mobile phone for a long time or operate an electronic touch screen in a close range, and by the reduced screen projection technology, the user only needs to wear the reduced screen projection product on fingers, and the operation on the reduced screen projection screen can realize the operation functions and the man-machine interaction of all touch screens or mice;

2) protecting eyesight and body health: because the user does not need to hold the mobile phone or operate the electronic touch screen in a short distance, the mobile phone or the electronic touch screen can be placed at a distance and a height which are beneficial to protecting eyesight and body health, and the operation is carried out in a wireless control mode;

3) when a user clicks or moves on the reduced screen, the operation position can be immediately positioned at the same or similar screen position of the mobile phone display screen or the electronic touch screen, the long-distance and large-range cursor movement of products such as a Bluetooth mouse or a wireless mouse is avoided, and good user experience of intuitive operation, quick positioning and the like similar to a mobile phone touch screen is realized;

4) the habit of most people is that the mobile phone is brushed at rest time at night, and the comfort of limbs and the body is poor when the user lies on a bed to play the mobile phone. In winter, the limbs of the exposed arms are greatly damaged. The equipment with large screen size is often controlled by two hands; after having adopted this scheme, can liberation both hands after, the lazy people's support fixed cell-phone of supplementary utilization cell-phone, the user only need wear the device product of this scheme on the finger, can remote control mobile phone equipment, and the user health also can relax naturally, and arm limbs do not expose, reduce the harmful effects to sleep and healthy.

The above disclosure is only for the specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be made by those skilled in the art should fall within the protection scope of the present invention.

Claims (7)

1. A touch screen device capable of jumping, positioning and touching and being reduced in equal proportion is characterized by comprising a shell, wherein a touch screen and a physical confirmation button are embedded in the shell, a control panel is arranged in a cavity of the shell, the control panel is electrically connected with the touch screen and the physical confirmation button, and a touch module, a processing module and a communication module which are electrically connected are arranged on the control panel; the touch screen of the touch screen corresponds to an external mobile end touch screen in equal proportion;

the touch control module is used for acquiring the click operation of a user on the touch control screen, and the processing module generates a touch control instruction at a corresponding position according to the click operation;

the processing module is used for mapping coordinate point positions of the touch instruction into click coordinates of the mobile terminal touch screen in an equal proportion mode, and the communication module is used for sending the click coordinates to the mobile terminal;

the physical confirmation button is used for obtaining a confirmation instruction pressed by a user, and the communication module sends the confirmation instruction to the mobile terminal.

2. The equal-scale touch screen device capable of realizing jumping positioning touch control according to claim 1, wherein the processing module further comprises a fine-tuning unit, the fine-tuning unit is used for obtaining fine-tuning sliding operation, fine-tuning the click coordinate according to the fine-tuning sliding operation to obtain a target coordinate, and the communication module sends the target coordinate to the mobile terminal.

3. The equal-scale touch screen device capable of jumping positioning touch according to claim 1, wherein the processing module generates a virtual cursor when the touch screen obtains a click operation of a user on the touch screen, and the touch screen is used for displaying the virtual cursor.

4. The equal-scale touch screen device capable of realizing jumping positioning touch control according to claim 2, wherein the touch module, after acquiring a first click operation and sending a target coordinate corresponding to the first click operation to the mobile terminal, re-generates a touch instruction for a second click operation if acquiring a second click operation again, and the sliding start point of the fine-tuning sliding operation needs to be triggered close to the click coordinate of the second click operation.

5. The equal-scale touch screen device capable of jumping positioning touch according to claim 4, wherein the touch module further comprises a fine-tuning unit for triggering the fine-tuning sliding operation when a coordinate point position of the touch instruction is taken as a starting point and a sliding distance or a sliding speed in a first threshold range is within a second threshold range.

6. The equal-scale touch screen device with jump location touch control according to claim 1, wherein the housing is further provided with an indicator light for indicating different operation types.

7. The equal-scale touch screen device capable of jumping, positioning and touching according to claim 1, wherein the housing is configured as an annular structure, a through hole for a finger to pass through is formed, the touch screen is embedded on a side of the housing away from the through hole, and the physical confirmation button is disposed adjacent to the touch screen.

Images