CN110071993B - Single-finger operation device and operation method for intelligent equipment - Google Patents

Abstract

The invention discloses a single-finger operating device and an operating method for intelligent equipment, wherein the device comprises a host, an operation control module preset on target intelligent equipment, and a first connecting piece, a second connecting piece and a third connecting piece which are sequentially connected; a first clamping ring is arranged at one end of the first connecting piece, which is far away from the second connecting piece; a second signal key is arranged at the joint of the first connecting piece and the second connecting piece; a second snap ring is arranged on the third connecting piece; one end of the third connecting piece, which is far away from the second connecting piece, is connected with the upper end of the shell; a fingerprint sensor, a first signal key and a displacement sensor are sequentially arranged in the shell from top to bottom; the host is internally provided with a main controller, a power module and a wireless communication module which are connected with the main controller. The wearable device does not affect daily use of a user hand, can be connected with the intelligent device in a wireless connection mode, and can be used for carrying out function control on the target intelligent device through a single finger, so that the operating environment of the intelligent device is widened.

Description

Single-finger operation device and operation method for intelligent equipment

Technical Field

The invention relates to the field of interaction, in particular to a single-finger operating device and an operating method for intelligent equipment.

Background

The conventional intelligent device is provided with a display screen, and a common portable intelligent device such as a mobile phone realizes the positioning of an operation point through the touch of a finger and operates the operation point or an operation page through touch clicking, long press touch, virtual keys or physical keys. Common non-portable intelligent equipment such as PC, it mainly carries out the operation through keyboard and mouse, but above operation mode all needs at least one whole hand, and when the hand was carrying out corresponding operation, can't carry out other operations, makes the utilization ratio of hand low.

The piezoelectric film has unique characteristics, and as a dynamic strain sensor, when a piece of piezoelectric polyvinylidene fluoride PVDF polymer film (piezoelectric film) is stretched or bent, an electric signal (charge or voltage) is generated between the upper electrode surface and the lower electrode surface of the piezoelectric film and is proportional to the stretching or bending deformation.

Disclosure of Invention

In order to overcome the defects in the prior art, the single-hand operation device and the operation method for the intelligent equipment provided by the invention can be used for carrying out conventional operation on the intelligent equipment by only one finger.

In order to achieve the purpose of the invention, the invention adopts the technical scheme that:

the single-finger operating device for the intelligent equipment comprises a host, an operation control module preset on target intelligent equipment, and a first connecting piece, a second connecting piece and a third connecting piece which are sequentially connected; a first clamping ring is arranged at one end of the first connecting piece, which is far away from the second connecting piece; a second signal key is arranged at the joint of the first connecting piece and the second connecting piece; a second snap ring is arranged on the third connecting piece; one end of the third connecting piece, which is far away from the second connecting piece, is connected with the upper end of the shell; a fingerprint sensor, a first signal key and a displacement sensor are sequentially arranged in the shell from top to bottom; the main machine is internally provided with a main controller, a power supply module and a wireless communication module which are connected with the main controller; the fingerprint sensor, the first signal key, the displacement sensor and the second signal key are respectively connected with the main controller through data lines;

a fingerprint sensor for acquiring data including a user's fingerprint;

a first signal key for generating at least one signal by being pressed by the fingerprint sensor;

a displacement sensor for acquiring data including a moving direction thereof;

the second signal key is used for generating at least two different signals along with the increase and decrease of the included angle between the first connecting piece and the second connecting piece;

the main controller is used for acquiring and preprocessing data from the fingerprint sensor, the first signal key, the displacement sensor and the second signal key and sending the preprocessed data of the first signal key, the displacement sensor and the second signal key to the wireless communication module;

the wireless communication module is used for carrying out wireless communication connection on the master controller and the target intelligent equipment;

the operation control module is used for acquiring data from the main controller; the display screen is used for generating a pointer on the display screen of the target intelligent device, moving the pointer according to the preprocessed data of the displacement sensor, and operating the position of the pointer according to the processed data of the first signal key and the second signal key.

Furthermore, the first connecting piece and the second connecting piece are connected through a bendable flexible material or a hinge; the second connecting piece is connected with the third connecting piece through a bendable flexible material or a hinge; bendable flexible materials include resins and textiles.

Further, the second signal key is a piezoelectric film sensor.

Furthermore, a loudspeaker connected with the main controller is further arranged on the side face of the shell, and a microphone connected with the main controller is further arranged at one end, far away from the second connecting piece, of the first connecting piece.

Further, the first signal key is a microswitch.

Further, the displacement sensor is a laser interference sensor.

Further, the wireless communication module includes at least one of a WiFi module, a 5G module, a 4G module, and a bluetooth module.

Furthermore, a display screen connected with the main controller is also arranged on the main computer;

and the display screen is used for displaying the information including the information from the target intelligent equipment and the state information of the power supply module.

Furthermore, a wrist strap is arranged on the host machine;

the wrist strap is used for fixing the main machine on the wrist of a user.

The single-finger operation method of the intelligent equipment comprises the following steps:

s1, appointing the operation functions of the first signal key and the second signal key through an operation control module preset on the target intelligent device, and establishing a cursor on the display of the target intelligent device; connecting the wireless communication module with target intelligent equipment;

s2, sequentially penetrating an operating finger into the first snap ring and the second snap ring to enable the fingertip to be connected with the fingerprint sensor, wherein the first snap ring is located at the proximal joint of the operating finger, and the second snap ring is located at the distal joint of the operating finger;

s3, judging whether a starting signal exists through the main controller, if so, judging whether the fingerprint data from the fingerprint sensor are legal data, if so, continuously acquiring and sending the first signal key, the displacement sensor and the second signal key to the target intelligent equipment, and entering the step S4; otherwise, the first signal key, the displacement sensor and the second signal key are not sent to the target intelligent equipment;

s4, pressing the fingerprint sensor by operating the finger to extrude the first signal key to generate a corresponding signal, moving the finger by operating to make the displacement sensor generate a corresponding signal, and bending the proximal interphalangeal joint of the finger by operating and stretching the finger to make the second signal key generate two different signals;

and S5, moving the cursor according to the data from the displacement sensor through the operation control module, and performing the specified operation according to the data from the first signal key and the second signal key through the operation control module.

The invention has the beneficial effects that:

1. the invention can carry out conventional operation on the target intelligent equipment by only using one finger, can indirectly control the target intelligent equipment in the environment that the intelligent equipment cannot be directly used, reduces the use limitation of the intelligent equipment (for example, the telephone can be switched off when driving, a mobile phone outside a bed can be controlled in the bed in winter, and the like), and improves the use working efficiency. The invention is tightly attached to the fingers, does not occupy the redundant space of the palm, and does not influence the palm to do other things when the device is mounted on the fingers.

2. The display screen can display information such as a notice from the target intelligent equipment, the power supply module and the like, can remind a user of charging the device, and can also acquire information received by the target intelligent equipment on the premise of not acquiring the target intelligent equipment, so that information omission is avoided.

3. The invention has simple structure, at least 3 signals generated by the first signal key and the second signal key can be controlled and customized by a user through the operation control module, so that the operation logic is determined by the user, the use difficulty of the device is reduced, the customized operation logic can also form a password for starting operation, and the unnecessary loss of the owner caused by the utilization of the device by other people is avoided.

4. The invention can make a call through the loudspeaker and the microphone on the premise of not holding the mobile phone, and can effectively avoid the loss caused by missed call.

Drawings

Fig. 1 is a schematic structural diagram of the single-finger operating device.

Wherein: 1. a fingerprint sensor; 2. a first signal key; 3. a displacement sensor; 4. a housing; 5. a third connecting member; 6. a second snap ring; 7. a second connecting member; 8. a second signal key; 9. a first connecting member; 10. a first snap ring; 11. a data line; 12. a host; 13. a microphone; 14. a loudspeaker.

Detailed Description

The following description of the embodiments of the present invention is provided to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and it will be apparent to those skilled in the art that various changes may be made without departing from the spirit and scope of the invention as defined and defined in the appended claims, and all matters produced by the invention using the inventive concept are protected.

As shown in fig. 1, the system comprises a host 12, an operation control module preset on a target intelligent device, and a first connecting piece 9, a second connecting piece 7 and a third connecting piece 5 which are connected in sequence; a first clamping ring 10 is arranged at one end of the first connecting piece 9 far away from the second connecting piece 7; a second signal key 8 is arranged at the joint of the first connecting piece 9 and the second connecting piece 7; a second snap ring 6 is arranged on the third connecting piece 5; one end of the third connecting piece 5 far away from the second connecting piece 7 is connected with the upper end of the shell 4; the fingerprint sensor 1, the first signal key 2 and the displacement sensor 3 are sequentially arranged in the shell 4 from top to bottom; the main machine 12 is internally provided with a main controller, a power supply module and a wireless communication module which are connected with the main controller; the fingerprint sensor 1, the first signal key 2, the displacement sensor 3 and the second signal key 8 are respectively connected with the main controller through data lines 11;

a fingerprint sensor 1 for acquiring data including a user's fingerprint;

a first signal key 2 for generating at least one signal by being pressed by the fingerprint sensor 1;

a displacement sensor 3 for acquiring data including a moving direction thereof;

the second signal key 8 is used for generating at least two different signals along with the increase and decrease of the included angle between the first connecting piece 9 and the second connecting piece 7;

the main controller is used for acquiring and preprocessing data from the fingerprint sensor 1, the first signal key 2, the displacement sensor 3 and the second signal key 8 and sending the preprocessed data of the first signal key 2, the displacement sensor 3 and the second signal key 8 to the wireless communication module;

the wireless communication module is used for carrying out wireless communication connection on the master controller and the target intelligent equipment;

the operation control module is used for acquiring data from the main controller; the intelligent device is used for generating a pointer on a display screen of the target intelligent device, moving the pointer according to the preprocessed data of the displacement sensor 3 and operating the position of the pointer according to the processed data of the first signal key 2 and the second signal key 8.

The first connecting piece 9 is connected with the second connecting piece 7 through a bendable flexible material or a hinge; the second connecting piece 7 is connected with the third connecting piece 5 through a bendable flexible material or a hinge; bendable flexible materials include resins and textiles.

The second signal key 8 is a piezoelectric film sensor. The side of the shell 4 is also provided with a loudspeaker 14 connected with the master controller, and one end of the first connecting piece 9 far away from the second connecting piece 7 is also provided with a microphone 13 connected with the master controller. The first signal key 2 is a microswitch. The displacement sensor 3 is a laser interference sensor. The wireless communication module comprises at least one of a WiFi module, a 5G module, a 4G module and a Bluetooth module.

The host 12 is further provided with a display screen connected to the master controller for displaying information from the target intelligent device and status information of the power module. The main body 12 is provided with a wrist band for fixing the main body 12 to the wrist of the user.

The intelligent equipment single-finger operation method comprises the following steps:

s1, appointing the operation functions of the first signal key 2 and the second signal key 8 through an operation control module preset on the target intelligent device, and establishing a cursor on the display of the target intelligent device; connecting the wireless communication module with target intelligent equipment;

s2, sequentially penetrating an operating finger into the first snap ring 10 and the second snap ring 6 to enable the fingertip to be connected with the fingerprint sensor 1, wherein the first snap ring 10 is located at the proximal joint of the operating finger, and the second snap ring 6 is located at the distal joint of the operating finger;

s3, judging whether a starting signal exists through the main controller, if so, judging whether the fingerprint data from the fingerprint sensor 1 are legal data, if so, continuously acquiring and sending the first signal key 2, the displacement sensor 3 and the second signal key 8 to the target intelligent equipment, and entering the step S4; otherwise, the first signal key 2, the displacement sensor 3 and the second signal key 8 are not sent to the target intelligent equipment;

s4, pressing the fingerprint sensor 1 by operating the finger to extrude the first signal key 2 to generate a corresponding signal, moving the operating finger to enable the displacement sensor 3 to generate a corresponding signal, and bending the proximal interphalangeal joint of the operating finger and stretching the operating finger to enable the second signal key 8 to generate two different signals;

s5, the operation control module moves the cursor according to the data from the displacement sensor 3, and the operation control module performs the designated operation according to the data from the first signal key 2 and the second signal key 8.

In an embodiment of the present invention, the first signal key 2 may be defined as a selection operation, one signal of the second signal key 8 may be defined as a return operation (e.g., a signal generated by straightening a finger from an initial state), and the second signal of the second signal key 8 may be defined as an attribute operation (e.g., a signal generated by further bending a proximal interphalangeal joint of a finger from an initial state). The device can make and receive calls in the target intelligent equipment through the loudspeaker 14 and the microphone 13 without acquiring the target intelligent equipment, and can effectively avoid loss caused by missed calls.

When information or a telephone enters a target intelligent device, the signal of the first signal key 2 and the signal of the second signal key 8 can be customized as follows: a view information function/answer phone function (a binding setting of the two), a hang-up phone function, and a mute-only ring function. When the user needs to input the text information, the user can customize the text input by the "first signal key 2+ displacement sensor 3" or the "second signal key 8+ displacement sensor 3", taking the first signal key 2+ displacement sensor 3 as an example, the specific scene can be as follows: the displacement sensor 3 is moved while the first signal key 2 is pressed, the operation control module continuously records the movement data of the displacement sensor 3 and enables the cursor to move synchronously, the moving route is drawn as a line, the moving route of the displacement sensor 3 is temporarily not drawn as a line but the cursor is moved synchronously while the first signal key 2 is released, and if the first signal key 2 is pressed within a certain time, the corresponding line is continuously added on the basis of the previous line; if the second signal key 8 is not pressed again within a certain time, the single line drawing is finished, the drawn line is matched with the characters by the operation control module, and the user selects the required characters from the given objects to be matched to finish the single input. The character input mode can replace the hand-written input of fingers on the touch screen, and similarly, the input can be completed by moving and selecting a cursor or selecting letters in a keyboard mode, namely, the character input mode can replace the virtual keyboard input on the touch screen.

The activation signal in step S3 may be defined as activating the first signal key 2 and/or the second signal key 8 any number of times in a certain sequence within a certain time. For example, the signal can be defined as "triggering the first signal key 2 twice within 0.5 seconds", "triggering the first signal key 2-triggering the extended signal of the second signal key 8 within 0.5 seconds", "triggering the extended signal of the second signal key 8-triggering the bent signal of the second signal key 8 within 0.5 seconds", and the like, and the start signal can prevent the device from misoperation on the target intelligent device during wearing.

In the specific implementation process, because the finger has a certain bending angle in a natural state (relaxed state), the state of the second signal key 8 (piezoelectric film sensor) at 100 ° -170 ° can be taken as an initial state according to the characteristics of the piezoelectric film, that is, a signal generated when the included angle between the first connecting piece 9 and the second connecting piece 7 is 100 ° -170 ° (when the bending angle of the second signal key 8 itself is 100 ° -170 °) is discarded as an unnecessary signal, a signal generated when the second signal key 8 is at 170 ° -180 ° is taken as a signal corresponding to the finger being straightened, and a signal generated when the second signal key 8 is at 0-100 ° is taken as a signal corresponding to the finger being bent.

In conclusion, the wearable device does not affect daily use of the user hand, can be connected with the intelligent device in a wireless connection mode, and can be used for carrying out function control on the target intelligent device through a single finger, so that the operating environment of the intelligent device is widened.

Claims (10)

1. The utility model provides an intelligent equipment list indicates operating means which characterized in that: the intelligent operation control system comprises a host (12), an operation control module preset on target intelligent equipment, and a first connecting piece (9), a second connecting piece (7) and a third connecting piece (5) which are sequentially connected; a first snap ring (10) is arranged at one end, far away from the second connecting piece (7), of the first connecting piece (9); a second signal key (8) is arranged at the joint of the first connecting piece (9) and the second connecting piece (7); a second snap ring (6) is arranged on the third connecting piece (5); one end of the third connecting piece (5) far away from the second connecting piece (7) is connected with the upper end of the shell (4); the fingerprint sensor (1), the first signal key (2) and the displacement sensor (3) are sequentially arranged in the shell (4) from top to bottom; the main machine (12) is internally provided with a main controller, a power supply module and a wireless communication module which are connected with the main controller; the fingerprint sensor (1), the first signal key (2), the displacement sensor (3) and the second signal key (8) are respectively connected with the main controller through data lines (11);

the fingerprint sensor (1) is used for acquiring data comprising a user fingerprint;

the first signal key (2) is used for generating at least one signal by being pressed by the fingerprint sensor (1);

the displacement sensor (3) is used for acquiring data comprising the moving direction of the displacement sensor;

the second signal key (8) is used for generating at least two different signals along with the increase and decrease of the included angle between the first connecting piece (9) and the second connecting piece (7);

the main controller is used for acquiring and preprocessing data from the fingerprint sensor (1), the first signal key (2), the displacement sensor (3) and the second signal key (8), and sending the preprocessed data of the first signal key (2), the displacement sensor (3) and the second signal key (8) to the wireless communication module;

the wireless communication module is used for carrying out wireless communication connection on the master controller and the target intelligent equipment;

the operation control module is used for acquiring data from the main controller; the intelligent device is used for generating a pointer on a display screen of the target intelligent device, moving the pointer according to the preprocessed data of the displacement sensor (3), and operating the position of the pointer according to the processed data of the first signal key (2) and the second signal key (8).

2. The single-finger operating device for intelligent equipment according to claim 1, wherein: the first connecting piece (9) is connected with the second connecting piece (7) through a bendable flexible material or a hinge; the second connecting piece (7) is connected with the third connecting piece (5) through a bendable flexible material or a hinge; the bendable flexible material comprises resin and textile.

3. The single-finger operating device for intelligent equipment according to claim 1, wherein: the second signal key (8) is a piezoelectric film sensor.

4. The single-finger operating device for intelligent equipment according to claim 1, wherein: the side of the shell (4) is also provided with a loudspeaker (14) connected with the master controller, and one end of the first connecting piece (9) far away from the second connecting piece (7) is also provided with a microphone (13) connected with the master controller.

5. The single-finger operating device for intelligent equipment according to claim 1, wherein: the first signal key (2) is a microswitch.

6. The single-finger operating device for intelligent equipment according to claim 1, wherein: the displacement sensor (3) is a laser interference sensor.

7. The single-finger operating device for intelligent equipment according to claim 1, wherein: the wireless communication module comprises at least one of a WiFi module, a 5G module, a 4G module and a Bluetooth module.

8. The single-finger operating device for intelligent equipment according to claim 1, wherein: the host (12) is also provided with a display screen connected with the master controller;

and the display screen is used for displaying information from the target intelligent equipment and state information of the power supply module.

9. The single-finger operating device for intelligent equipment according to claim 1, wherein: a wrist strap is arranged on the host (12);

the wrist strap is used for fixing the main machine (12) on the wrist of a user.

10. An intelligent device single-finger operation method based on the intelligent device single-finger operation device of any one of claims 1 to 9, characterized by comprising the following steps:

s1, the operation control module preset on the target intelligent device is used for appointing the operation functions of the first signal key (2) and the second signal key (8), and a cursor is established on the display of the target intelligent device; connecting the wireless communication module with target intelligent equipment;

s2, sequentially penetrating an operating finger into a first snap ring (10) and a second snap ring (6) to enable the fingertip to be connected with the fingerprint sensor (1), wherein the first snap ring (10) is located at the proximal joint of the operating finger, and the second snap ring (6) is located at the distal joint of the operating finger;

s3, judging whether a starting signal exists through the main controller, if so, judging whether the fingerprint data from the fingerprint sensor (1) are legal data, if so, continuously acquiring and sending the first signal key (2), the displacement sensor (3) and the second signal key (8) to target intelligent equipment, and entering a step S4; otherwise, the first signal key (2), the displacement sensor (3) and the second signal key (8) are not sent to the target intelligent equipment;

s4, pressing the fingerprint sensor (1) by operating a finger to extrude the first signal key (2) to generate a corresponding signal, moving the operating finger to enable the displacement sensor (3) to generate a corresponding signal, and bending the proximal interphalangeal joint of the operating finger and stretching the operating finger to enable the second signal key (8) to generate two different signals;

and S5, moving the cursor according to the data from the displacement sensor (3) through the operation control module, and performing specified operation according to the data from the first signal key (2) and the second signal key (8) through the operation control module.

Images