CN115657868A - Glove type Bluetooth mouse and implementation method thereof - Google Patents

Abstract

The invention relates to a glove type Bluetooth mouse and an implementation method thereof, wherein the glove type Bluetooth mouse at least comprises a glove type wearing main body which can be worn on the hand of a user, a plurality of control modules are arranged on the glove type wearing main body according to a mode of sending out various control instructions, and the control modules are respectively arranged at different positions of the glove type wearing main body, so that the movement of different fingers can enable different control modules to make feedback under the condition that the user wears the glove type wearing main body, and further control instructions corresponding to the control modules are generated; the control module is set in a partition mode on different fingers and different knuckles, wherein the control module forms an electromagnetic induction loop in a mutual contact pairing mode so as to transmit different control instructions according to electric signals in the electromagnetic induction loop.

Description

Glove type Bluetooth mouse and implementation method thereof

Technical Field

The invention relates to the technical field of electronic information, in particular to a glove type Bluetooth mouse and an implementation method thereof.

Background

With the development of electronic information technology, the application of intelligent devices such as computers using a mouse is more and more extensive, and the application of notebook computers is also popularized. For example, people can carry a notebook computer to have a tour or take a bus when traveling on a business trip.

However, when people carry smart devices such as a notebook computer, the users may forget to bring the mouse or do not want to bring the mouse, and the user experience of the touch pad of the smart devices such as the notebook computer is poor, so that the user experience of the existing smart devices in the mouse function mode is poor. In addition, the mouse in the prior art must have a desktop with an area larger than the main structure, and the mouse is inconvenient to use for a smaller desktop. Finally, current mouse and based on intelligent wearing equipment of mouse model establishment all improve according to mouse have the form and trigger the mechanism of operation, to the user of long-time use, light activity can reduce its working strength in order to realize mouse function though, can make the user keep a stiff gesture for a long time in the use, this has increaseed the burden of user's health undoubtedly, long-time gesture is kept and the activity of low amount of exercise can cause user's muscle and skeleton to rigidify gradually. The existing wearable devices are evolved from existing mouse forms, the working mode and the formed trigger mechanism of the existing wearable devices generally follow the principle of the traditional mouse, especially most of the wearable mice still realize the mouse function by pressing a switch (clicking), and therefore, when a user uses the wearable mouse, the hand of the user cannot directly perform keyboard typing and other operations.

In summary, how to improve the user experience of the existing smart device in the way of implementing the mouse function and enhance the attention of the health status of the user in the using process is a relatively prominent problem in the field at present.

The patent document with publication number CN105807958B discloses a wearable mouse and a wearable mouse control method, the wearable mouse comprises a fingertip connector, a ring and a bluetooth component, the fingertip connector comprises a key and a photoelectric sensor, the key comprises a key cap and a base, the key cap is connected to the base in a manner of moving up and down, the key cap is connected to the fingertip of a forefinger, and the photoelectric sensor is arranged on the end surface of the base deviating from the key cap; the ring comprises an outer ring, an inner ring and an encoder, the inner ring is sleeved at the finger root of the index finger, the outer ring is rotatably sleeved on the inner ring, and the encoder is driven by the outer ring; the Bluetooth module is connected to the hand of a person and comprises a Bluetooth and a storage battery, wherein the Bluetooth is electrically connected with the photoelectric sensor, the keys and the encoder, and the storage battery is electrically connected with the Bluetooth, the photoelectric sensor, the keys and the encoder.

Patent document CN105824402B discloses a method for implementing a mouse function of a wearable device and the wearable device, wherein the method for implementing the mouse function of the wearable device includes: acquiring finger action information of a user, and acquiring corresponding operation information according to the finger action information of the user; and transmitting the operation information to mobile equipment connected with the wearable equipment so that the mobile equipment can perform corresponding mouse operation according to the operation information.

Although the function that wearing equipment can realize mouse possesses can be realized to a certain extent to above-mentioned patent, its mode still belongs to click to press and triggers control instruction for wearing equipment can only realize mouse's correlation function alone, and wearing equipment's hand just can not normally carry out other operations such as typewriting, makes wearing equipment restrict the multiple use of user's hand. Moreover, the existing wearable device is only used for simply integrating the key switches of the mouse, the function is single, and the operation and control actions of the hands are slight, so that the hands of a user need to keep a relatively fixed action for a longer time and cannot move freely, the limb burden of the user is increased undoubtedly, and the strain of the hands of the user is aggravated. Therefore, aiming at the defects of the prior art, the glove type bluetooth mouse can increase the freedom degree of the movement of the hand and the limbs while realizing the function of the mouse. Especially, the mouse that this application provided can carry out other motions and operation and can not produce unnecessary mistake and touch and wrong instruction under the condition that keeps wearing to mouse can carry out hand state monitoring according to its trigger mechanism, thereby carries out the analysis to the state of limbs, with the mode suggestion user of early warning suitably alternate the rest during work, in order to alleviate the work burden of limbs.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, as the inventor studies a lot of documents and patents while making the present invention, but the space is not detailed to list all the details and contents, however, this invention doesn't have these prior art features, but this invention has all the features of the prior art, and the applicant reserves the right to add related prior art in the background art.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme of the invention provides a glove type Bluetooth mouse which at least comprises a glove type wearing main body capable of being worn on the hand of a user, wherein the glove type wearing main body is provided with at least five control modules in a mode of sending out at least four control instructions, and the control modules are respectively arranged at different positions of the glove type wearing main body, so that under the condition of wearing the glove type wearing main body, the movement of different fingers of the user can enable different control modules to make feedback, and further control instructions corresponding to the control modules are generated; the control module is set in a partition mode on different fingers and different knuckles, wherein the control module forms an electromagnetic induction loop in a mutual contact pairing mode so as to transmit different control instructions according to electric signals in the electromagnetic induction loop. Its advantage lies in, this application can also help the user to accomplish the use of glove bluetooth mouse in order to more do benefit to the mode of carrying out the finger exercise through the function key and the shortcut key that define and dactylus correspond when breaking through traditional mouse's click working method for the user also can carry out the hand exercise in the course of the work synchronously, thereby promotes user's work health degree. In addition, the flexibility of the fingers is closely related to the activity of the brain, the glove type Bluetooth mouse can have the functions of a traditional mouse by strengthening the flexible movement of the fingers, more shortcut functions can be added in a user-defined mode, the Bluetooth mouse can be widely applied, the exercise on the activity of the brain can be enhanced in the using process, and the defects of decreased limb capacity and uncoordinated or delayed limbs of a single mental worker are overcome.

According to a preferred embodiment, the control module at least comprises a first electrode control unit and a second electrode control unit, wherein the first electrode control unit can be selectively connected with different second electrode control units, so that electromagnetic induction loops for transmitting different electric signals are formed according to different parameters of the magnetic induction coil, and different control instructions are generated. The mouse has the advantages that the two types of control units are defined, so that the wearing equipment realizes the specific function of the mouse by utilizing the mutual contact of different control units, the motion degree of fingers is enhanced, the working mechanism of the wearing equipment is changed, the possibility of mistaken touch is reduced, and the function limitation of the wearing equipment on hands is eliminated.

According to a preferred embodiment, the first electrode control unit is fitted over a designated surface area of the thumb in a manner corresponding to an area where the thumb comes into contact with at least one of the remaining fingers; the second electrode control units are distributed on the surfaces of the multi-section knuckles of the rest fingers, so that when the first electrode control unit is in contact with the second electrode control units corresponding to different knuckles, the first electrode control unit and the second electrode control units can directionally transmit electric signals in an electromagnetic induction mode, and the processing module sends different control instructions according to the electric signals.

According to a preferred embodiment, the electrical signals are matched and associated with different control instructions in advance, so that the processing module can obtain the control instructions actually required by the user according to the different electrical signals output by the control module and a preset matching relation or association table.

According to a preferred embodiment, the second electrode control unit selectively adjusts the position of the second electrode control unit in the glove type wearable main body according to the wearing condition of the user, so that the contact of the thumb of the user and the knuckles of four fingers can build up an electromagnetic induction loop of the first electrode control unit and the appointed second electrode control unit.

According to a preferred embodiment, the surface of the glove type wearing body facing the hand is further provided with a pressure-sensitive sensing module, so that the pressure-sensitive sensing module can transmit the pressure conditions of different areas of the hand of a user to the processing module, the motion condition and the posture maintaining condition of the hand are analyzed, and the fatigue of the muscle of the hand and the stiffness of the skeleton of the hand are further analyzed according to the interaction condition between fingers.

According to a preferred embodiment, the processing module can generate finger health indexes according to the working strength of different fingers, so that a user can perform finger movement according to the health indexes to relieve the working damage of the fingers; glove formula wearing main part still is connected with test sensing module, test sensing module can monitor the state of hand muscle to the form according to hand muscle comes analysis hand gesture, thereby carries out the analysis to the behavior of hand, and then warns to the user according to the analysis result, makes the user can carry out the hand activity according to the information of warning, in order to alleviate the pressure of hand muscle and skeleton.

According to a preferred embodiment, the open end of the glove type wearable main body is further connected with an electrocardio sensing module, the electrocardio sensing module can generate electrocardio data of a user by detecting electrocardio signals transmitted in an arm, so that the state change of continuous work of the user can be analyzed and predicted according to the change of the electrocardio data of the user, and an early warning prompt can be timely given when the working state of the user is abnormal.

The technical scheme of the invention also provides a method for realizing the glove type Bluetooth mouse, which at least comprises the following steps:

wearing the glove type wearing body provided with the control module on the hand of a user;

starting an internal power supply unit, and transmitting different electromagnetic induction signals in a mode that a thumb is in contact with knuckles of different fingers by moving the fingers;

obtaining a control instruction made by a user according to the transmitted electromagnetic induction signal and a preset matching relation or an association table;

and finishing the operation of simulating the mouse control according to the control instruction.

According to a preferred embodiment, the electromagnetic induction signal is matched in the processing module, and the processing module can further analyze the hand state and the body state of the user according to the multiple sensing monitoring data, so as to remind the user to take a rest regularly in an early warning manner.

Drawings

FIG. 1 is a topology diagram of a preferred glove-type Bluetooth mouse proposed by the present invention;

fig. 2 is a schematic diagram of a preferred working flow of the glove type bluetooth mouse provided by the present invention.

List of reference numerals

1: a glove-type wearing body; 2: a control module; 3: a processing module; 4: a pressure sensitive sensing module; 5: testing the sensing module; 6: an electrocardio sensing module; 21: a first electrode control unit; 22: a second electrode control unit.

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

Example 1

The application provides a glove type Bluetooth mouse, it includes that glove type dresses main part 1, control module 2, processing module 3, pressure sensitive sensing module 4, test sensing module 5 and electrocardio sensing module 6.

According to a specific embodiment shown in fig. 1 and 2, the glove type wearing body 1 in the shape of a glove can be effectively fitted over the hand of a user. The control module 2, the processing module 3, the pressure-sensitive sensing module 4, the testing sensing module 5 and the electrocardio sensing module 6 are all distributed in the glove type wearable main body 1 in a partitioned manner, and the pressure-sensitive sensing module 4, the testing sensing module 5 and the electrocardio sensing module 6 collect different sensing signals according to different positions. The control module 2, the processing module 3, the pressure-sensitive sensing module 4, the testing sensing module 5 and the electrocardio sensing module 6 are connected in a wired or wireless mode to realize signal transmission among the modules, and the modules are all arranged in different areas of the glove type wearing body 1. The control module 2 can transmit different electric signals to the processing module 3 according to different positions of the element which generates electromagnetic induction, so that the processing module 3 matches different control instructions according to the electric signals, the operation instructions are sent to the operation equipment, and the mouse function required by a user is realized on the operation equipment. The different elements of the control module 2 are activated according to the piezoelectric signal generated by the corresponding pressure-sensitive sensing module 4, and the processing module 3 can also verify the correct or incorrect operation of the element activated by the control module 2 according to the triggering condition of the pressure-sensitive sensing module 4. The processing module 3 can also analyze the state of the limb according to the pressure-sensitive sensing module 4, the test sensing module 5 and the electrocardio sensing module 6, so that the processing module 3 can remind a user of posture adjustment and limb rest in an early warning prompting mode under the condition that the limb keeps a working posture which is approximately unchanged continuously and for a long time.

Preferably, the glove donning body 1 is designed in a form similar to a glove. Preferably, the glove type wearing main body 1 can be a glove with a multilayer structure, so that the control module 2, the pressure-sensitive sensing module 4, the testing sensing module 5 and the electrocardio sensing module 6 can be arranged in different levels according to requirements, and different sensing data can be acquired. Preferably, the glove formed by the glove type wearing body 1 is provided with a plurality of limiting rings, so that the glove and the knuckle form a relatively fixed wearing form, and the control module 2, the pressure-sensitive sensing module 4, the test sensing module 5 and the electrocardio sensing module 6 arranged in the glove can correspond to the designated positions of fingers or arms. Preferably, the glove donning main body 1 may be provided in various sizes so that different users can select different sizes according to the hand size.

Glove dress main part 1 sets up five at least control module 2 according to the mode that can send four at least control command, and control module 2 lays respectively in glove dress main part 1 different positions to the user is under the condition of using glove dress main part 1, and the motion of different fingers can make different control module 2 make the feedback, and then generates the control command corresponding with control module 2. Preferably, the control module 2 is a magnetic induction coil and a kit capable of transmitting electric signals. Preferably, the surface of the glove-worn body 1 is provided with a plurality of control modules 2 in a partitioned manner. Preferably, the control module 2 is set in different areas on different fingers and different knuckles, wherein the control module 2 forms an electromagnetic induction loop in a mutual contact pairing manner to transmit different control instructions according to an electrical signal in the electromagnetic induction loop. Preferably, the area may be specifically divided according to different fingers and different knuckles of the fingers, so that different knuckles of each finger correspond to different control commands. Preferably, the trigger mechanisms of the control module 2 installed on different knuckles of the finger can be selectively adjusted, so that the trigger mechanisms of different knuckles are different, thereby the working mode of the control module 2 is more matched with the motion of the finger. Specifically, a single finger except the thumb has three sections of knuckles, wherein the distal end knuckle of the distal end has high flexibility and a large range of motion, and is easier to complete specific motion and form specific postures; the knuckle at the head end of the proximal end is connected with the palm, so that the moving range is small, the stability is high, and the positioning of the relative position is easier; the middle knuckle between the tail knuckle and the head knuckle is a bridge connecting the tail knuckle and the head knuckle, and can form relatively stable triangular contact with the thumb, namely, the area between the thumb and the rest fingers, which can be in abutting contact without bending of the fingers, is the middle knuckle.

The control module 2 comprises at least a first electrode control unit 21 and a second electrode control unit 22. Preferably, the first electrode control unit 21 can be selectively connected with different second electrode control units 22, so as to form electromagnetic induction loops for transmitting different electric signals according to different parameters of the magnetic induction coil, and further generate different control commands. Preferably, the first electrode control unit 21 is fitted over a designated surface area of the thumb, particularly, a front side end of the thumb, in a manner corresponding to an area where the thumb comes into contact with at least one of the remaining fingers, which is a core area where the thumb comes into contact with at least one of the remaining fingers. Preferably, the second electrode control units 22 are distributed on the surfaces of the segments of the remaining fingers, so that when the first electrode control unit 21 contacts with the second electrode control units 22 corresponding to different segments, the two electrode control units can directionally transmit electric signals in an electromagnetic induction manner, so that the processing module 3 sends out different control instructions according to the electric signals.

Preferably, the processing module 3 stores a parameter association table of association information between the related control command of the mouse and the electrical signal in advance, and the mutual corresponding relationship between the electrical signal in the parameter association table and the control command of the mouse can be adjusted according to the user requirement, so that the control command represented by the electrical signal transmitted by the second electrode control unit 22 corresponding to different knuckle positions can be adjusted according to the requirement. Under the condition that the definition of the association table data is completed, the first electrode control unit 21 can perform contact pairing with the second electrode control unit 22 according to the requirement of the user, so that the transmission of the electric signal is completed, and the processing module 3 calls the control instruction according to the transmitted electric signal.

Preferably, the electrical signals are matched and associated with different control commands in advance, so that the processing module 3 can obtain the control commands actually required by the user according to the different electrical signals output by the control module 2 and a preset matching relation or association table. The second electrode control unit 22 selectively adjusts its position in the glove type wearing body 1 according to the wearing condition of the user, so that the contact of the thumb of the user with the knuckle of at least one of the remaining fingers can build up the electromagnetic induction loop of the first electrode control unit 21 and the designated second electrode control unit 22. Specifically, the first electrode control unit 21 and the second electrode control unit 22 are movable within a set region of the glove wearable body 1, that is, the element area of the first electrode control unit 21 and the second electrode control unit 22 is smaller than the finger pad area of a single knuckle, and the first electrode control unit 21 and the second electrode control unit 22 are detachably positioned on the glove wearable body 1 by adhesion or the like, so that the first electrode control unit 21 and the second electrode control unit 22 can translate within a designated finger pad region so that the positions thereof are just in the central region where the thumb comes into contact with at least one of the remaining fingers, and thus the first electrode control unit 21 and the second electrode control unit 22 can more accurately perform contact interaction of the surface areas.

Preferably, the first electrode control unit 21 and the second electrode control unit 22 interact with each other by electromagnetic induction, so that the second electrode control unit 22 transmits an electrical signal to the first electrode control unit 21, and the second electrode control unit 22 can form a magnetic induction loop capable of transmitting the electrical signal to the first electrode control unit 21 under an external trigger condition or a pressing trigger condition of the first electrode control unit 21.

Preferably, the first electrode control unit 21 is mounted on the fingertip side of the thumb, and it is connected to the processing module 3 in a wired connection and transmits the electric signal generated by it to the processing module 3. Preferably, the processing module 3 may be a processor, a server or a back-end processing platform capable of processing specific data, converting heterogeneous data, entering and storing preset information, and analyzing sensed data, and a specific processing mechanism thereof may be programmed according to a user's requirement. The processing module 3 can call a corresponding control instruction according to the received electric signal, so that the control instruction is sent to the operating device in a wireless transmission mode. Preferably, the operating device can be a computer capable of performing page operations, a tablet and other devices capable of performing page display and page adjustment. In particular, the interaction between the first electrode control unit 21 and the second electrode control unit 22 may be realized by means of electromagnetic induction. For example, the index finger, the middle finger, the ring finger and the little finger of the same hand are respectively provided with the second electrode control units 22 on the finger pad surfaces of the three finger joints, and the plurality of second electrode control units 22 are connected with the micro mobile power supply in parallel. Preferably, a micro mobile power supply is also provided on the glove wearing body 1. Further preferably, the number of turns of the primary coil corresponding to each second electrode control unit 22 is different, and a resistance element capable of adjusting the magnitude of current/voltage is further disposed in each branch circuit, so that when different second electrode control units 22 form a conduction loop, the magnetic fluxes generated by the different second electrode control units are different, and further, the magnitudes of the electrical signals capable of being transmitted by the different second electrode control units are different. Preferably, the on/off state of the circuit between the second electrode control unit 22 and the power supply can be adjusted according to the pressure condition of the corresponding knuckle, that is, when a certain knuckle is in contact with the thumb and is subjected to the pressure provided by the thumb, the second electrode control unit 22 corresponding to the knuckle is communicated with the power supply, so that current is generated in the branch circuit, so that under the driving of the current, the primary coil of the second electrode control unit 22 can generate magnetic flux according to the current directionally flowing in the coil, and the magnetic flux synchronously passes through the secondary coil in the first electrode control unit 21 arranged on the surface of the thumb in contact with the knuckle, so that electromagnetic induction is generated between the primary coil and the secondary coil, and induction current is generated in the circuit communicated with the secondary coil, and the induction current is transmitted to the processing module 3 as an electric signal for transmitting control information.

Preferably, the first electrode control unit 21 and the second electrode control unit 22 generate a magnetic induction effect when the primary and secondary coils constructed by the two are approximately overlapped, so that the second electrode control unit 22 transmits a magnetic induction signal to the first electrode control unit 21.

Preferably, the working mechanism of the first electrode control unit 21 and the second electrode control unit 22 can also be that the electric circuit is always connected under the working condition, that is, the second electrode control unit 22 always keeps a standby state during the working of the user. In the above case, the second electrode control unit 22 and the first electrode control unit 21 are kept in the standby state immediately after the start of use, and only when the first electrode control unit 21 approaches and forms a substantially close facing position with the second electrode control unit 22, the electromagnetic induction is generated between the two. Specifically, only when the thumb of the first electrode control unit 21 is in contact with the knuckle of the second electrode control unit 22, and the primary coil and the secondary coil corresponding to the first electrode control unit 21 are substantially parallel to each other and both are located in the area range where the thumb is in contact with the knuckle, the second electrode control unit 22 corresponding to the knuckle transmits the magnetic induction signal to the first electrode control unit 21 through electromagnetic induction. In this case, although the thumb may have a small distance from the remaining knuckles of the same finger, the primary and secondary coils of the two fingers do not substantially overlap each other, and therefore, no magnetic induction effect is generated between the two fingers. Preferably, the control module 2 may set a key switch on its electrical circuit, so that the corresponding mouse function is triggered by the outside, and is started only when it is determined that a signal for starting the mouse function is received. Preferably, the activation of the bluetooth mouse may also be activated when the wearable mouse corresponds to the control module 2 of the finger while being in the rear designated area of the control device (device to be input). The starting of the Bluetooth mouse can be realized by setting a solid key switch, so that the starting and the closing are completed in a manual control mode under the condition of finishing the wearing of the Bluetooth mouse. Preferably, the manner in which the bluetooth mouse is triggered can be determined according to actual requirements, and the triggering mechanism can also be customized according to personal requirements and personal habits of the user.

Preferably, the bluetooth mouse is a wearable device worn on the hand of the user, and can make different feedback and driving instructions by defining the gesture of the user, and especially, the shortcut of the bluetooth mouse is constructed by defining the gesture, so that the user can complete more operations by using the worn bluetooth mouse by defining the gesture. Preferably, the bluetooth mouse includes a plurality of switches, corresponds to five fingers respectively, and when two wherein different switches contacted each other, information interaction such as magnetoelectric induction can take place for both to form a new signal of telecommunication return circuit, thereby processing module sends different swift instruction to its output terminal connected equipment according to the circuit formation condition of difference. In addition, the thumb can generate different control instructions through the motion generated after the thumb is contacted with other fingers, so that the motion of the mouse is converted into the joint motion of the fingers, and the finger exercise is facilitated.

Preferably, the finger pad surfaces of the finger knuckles respectively correspond to different functional units, so that different electric loops are formed when the thumb is in contact with the knuckles of different fingers, and the represented electric signals and the corresponding command signals are different according to the difference of the electric loops, so that a user can generate different control commands of the mouse by continuously contacting the finger knuckles with the thumb, and the hand exercise is improved while the mouse-like operation is completed. Preferably, for a bluetooth mouse worn by the right hand of the user, the contact of the knuckle of the index finger with the thumb may be a function representing the left button of the mouse; the contact of the knuckle of the ring finger with the thumb can be used for representing the function of a right button of the mouse; the contact of the knuckle of the middle finger with the thumb can represent the corresponding functions of the mouse wheel and the DPI key, and the contact of the knuckle of the little finger with the thumb can also represent the corresponding functions of the forward key and the backward key of the mouse. Further preferably, the mouse function and the shortcut key function that the multistage knuckle of different fingers specifically corresponds can be customized according to user's custom and demand for the user can utilize glove bluetooth mouse to accomplish work with the mode that is fit for self demand. Preferably, the function setting of the bluetooth mouse worn on the left hand of the user may be the same as the setting rule of the bluetooth mouse worn on the right hand. Through function key and the shortcut key that definition and dactylus correspond, can also help the user to accomplish glove formula bluetooth mouse's use with the mode that more does benefit to carry out the finger and take exercise when breaking through traditional mouse's click mode for the user also can carry out the hand exercise in the course of the work synchronously, thereby promotes user's work health degree. In addition, the flexibility of the fingers is closely related to the activity of the brain, the glove type Bluetooth mouse can have the functions of a traditional mouse by strengthening the flexible movement of the fingers, more rapid functions can be added in a self-defined mode, the Bluetooth mouse is enabled to have wider application, and the exercise on the activity of the brain can be enhanced in the using process, so that the defects of limb capability reduction and limb uncoordinated or delayed of a single brainworker for a long time are overcome.

Preferably, the plurality of second electrode control units 22 corresponding to different knuckles are connected in parallel, and the turns of the primary coils corresponding to different second electrode control units 22 are different from each other, so that the electromagnetic signals that the second electrode control units 22 can transmit to the first electrode control unit 21 are different, so that the first electrode control unit 21 generates different electrical signals according to the electromagnetic signals, and the processing module 3 distinguishes the knuckle corresponding to the point and the control instruction related to the knuckle according to the different electrical signals transmitted by the first electrode control unit 21.

Preferably, there are multiple parallel loops between the second electrode control units 22 located at different knuckles of the same finger or at corresponding areas of different knuckles of different fingers, i.e. several second electrode control units 22 are connected in parallel with each other. Preferably, the pressure-sensitive sensing module 4 in the corresponding area of each loop can generate an electric signal at the moment of being pressed, and the electric signal can be used as a trigger instruction to make the corresponding circuit conductive, so that the subcircuit can generate a magnetic induction current under the action of a specific device. Preferably, the magnetic induction current is changed according to the structure of the specific device and the parameters of the current adjusting element in the loop, so that the magnetic induction currents generated by different sub-circuits under the conduction condition are different from each other, and the magnetic induction current induced and received by another magnetic induction coil is also different. Specifically, the magnetic flux is uniform, the number of turns is proportional to the voltage and inversely proportional to the current, and the more turns of the secondary coil, the higher the voltage, and the lower the current. Preferably, the plurality of second electrode control units 22 and the corresponding pressure-sensitive sensing modules 4 are arranged, so that the work verification programs of the glove-type bluetooth mouse are more, the defect that a single verification generates wrong control instructions due to mistaken touch or misplaced touch and the like is overcome, especially, the dual-verification starting mode of the glove-type bluetooth mouse enables a user to complete keyboard input operation or other operations by using hands under the condition that the glove-type bluetooth mouse is worn, the corresponding mouse function instructions cannot be directly sent out due to extrusion instructions in the process, and the function limitation and the working environment limitation of the existing glove-type bluetooth mouse on limbs of the user are reduced.

Preferably, the bluetooth mouse also allows a user to use it when performing maintenance work, etc. of the outdoor display device, wherein the user generally needs to perform high-altitude maintenance work. Under such conditions, the user cannot independently complete the confirmation of the maintenance result, and the user is also inconvenient to carry a mouse, a keyboard and other equipment capable of performing page operation and information input to perform overhead work, and when the user is in an overhead environment, the user does not have an environment for placing and assisting the mouse to perform the page operation, and the user usually needs to fix the position of the user by using hands and feet together, so that the user can be positioned in the overhead environment. Consequently, to above-mentioned special operational environment, the bluetooth mouse that this application relates can be dressed at user's hand to the user only needs the one hand to carry out the relative motion between the finger, makes the thumb take place to press with the different dactyluses of remaining finger, can realize mouse correlation function. Preferably, the user can relax the hand while performing mouse function operation through the glove type wearing body 1, thereby relieving the fatigue feeling caused by the hand force application fixation. Preferably, the bluetooth mouse of the present application is provided with a double verification procedure, that is, the basis of the function feedback of the mouse is that the signal transmission can be realized under the condition that the pressure-sensitive sensing module 4 is pressed and the second electrode control unit 22 corresponding to the position is approximately overlapped with the magnetic sensing coil of the first electrode control unit 21, however, when the user holds the object to fix the position, although the pressure-sensitive sensing module 4 can be pressed, the second electrode control unit 22 corresponding to the pressure-sensitive sensing module 4 and the magnetic sensing coil of the first electrode control unit 21 cannot form an effective overlap, and the second electrode control unit 22 does not generate the magnetic sensing effect with the first electrode control unit 21. At this time, the first electrode control unit 21 cannot obtain the sensing signal from the second electrode control unit 22. Therefore, when the user performs high-altitude operation and other difficult actions, the invalid instruction cannot be sent out due to mistaken touch, and the glove type Bluetooth mouse can only realize induction signal transmission under the condition of completing double verification. Preferably, the fatigue degree and the working state of the muscle of the hand of a user can be acquired in the working process of the user through the test sensing module 5 and the electrocardio sensing module 6 in the glove type wearing main body 1, so that when the physiological index of the patient exceeds a standard range, the user is timely reminded to find a proper position or stop high-altitude operation for rest to relieve muscle or body fatigue, the occurrence of accidents caused by over-fatigue of the user in the high-altitude operation is reduced, and the possibility of injury to the user in the working process is reduced.

Preferably, the Bluetooth mouse related to the application also allows a user to use the Bluetooth mouse when certain specific operations are completed in a narrow environment. For example, when a user inspects a cable in a cable transmission channel, the space in the pipeline is narrow, and the activity space of the user is limited, so that the user cannot utilize a physical mouse and a keyboard to input information and edit pages, and particularly when the page display equipment possibly used by the user is virtual display equipment such as projection glasses, the physical function input equipment cannot meet the limitation condition of the environment.

Preferably, the glove type wearing body 1 is further provided with a pressure sensitive sensing module 4 on the surface facing the hand, so that the pressure sensitive sensing module 4 can transmit the pressure conditions of different areas of the hand of the user to the processing module 3, thereby analyzing the motion condition and the posture maintaining condition of the hand, and further analyzing the fatigue of the muscle of the hand and the stiffness of the skeleton of the hand according to the interaction condition between fingers.

Preferably, the pressure-sensitive sensing modules 4 are arranged in a one-to-one correspondence with the control modules 2, so that each pressure-sensitive sensing module 4 can also form a feedback instruction for the on/off of the control module 2. Therefore, the processing module 3 can control the connection condition of the circuits where the different second electrode control units 22 are located according to the feedback signal of the pressure-sensitive sensing module 4. Preferably, the pressure-sensitive sensing module 4 can also be used for collecting the working times of different fingers in a certain time period, so that the processing module 3 can generate the health index of the fingers according to the working strength of the different fingers, and then the user can perform finger movement according to the health index to relieve the working damage of the fingers. Preferably, glove type dress main part 1 still is connected with test sensing module 5, and pressure sensitive sensing module 4 can monitor the state of hand muscle to the form according to hand muscle comes the analysis hand gesture, thereby analyzes the behavior of hand, and then warns to the user according to the analysis result, makes the user can carry out the hand activity according to warning information, with the pressure and the fatigue degree of alleviating hand muscle and skeleton. Specifically, the pressure-sensitive sensing module 4 and the testing sensing module 5 jointly detect the amount of exercise and the state of hand muscles and bones, so that the terminal device wirelessly connected through a Bluetooth mouse can give an early warning prompt when strain exists in the muscles or the bones keep a posture for a long time to damage hands such as tenosynovitis and the like. Preferably, the pressure-sensitive sensing module 4 can collect the number of clicks of a knuckle within a certain set time, the test sensing module 5 monitors the strength and hardness of hand muscles associated with the corresponding knuckle, and the detection result of the test sensing module 5 can obtain the state information of the muscles, so as to confirm the fatigue of the muscles. Preferably, the test sensing module 5 can also perform muscle deformation measurements. Preferably, the pressure-sensitive sensing module 4 and the testing sensing module 5 analyze the real-time state of the hand of the user by recording the number of clicks and the state of muscles, respectively, so as to remind the user to perform rest relaxation of the hand or to alleviate injuries and muscle movements in a rigid state in an early warning manner when the muscles and bones of the hand are about to enter a critical state or a strain state. Preferably, the pressure sensitive sensing module 4 is a conventional piezoelectric sensing electrode. The testing and sensing module 5 is a muscle state testing and sensing module which is disclosed in the prior art and is distributed according to the distribution state of the muscle of the hand. Preferably, the pressure-sensitive sensing module 4 and the test sensing module 5 are both connected to the processing module 3 in a wireless or wired manner, so that the processing module 3 can analyze the hand state from the sensing data. Preferably, the open end of the glove type wearing body 1 is further connected with an electrocardiogram sensing module 6, the electrocardiogram sensing module 6 can generate electrocardiogram data of the user by detecting electrocardiogram signals transmitted in the arm, so that the state change of continuous work of the user can be analyzed and predicted according to the change of the electrocardiogram data of the user, and an early warning prompt can be timely sent out when the working state of the user is abnormal.

Example 2

The embodiment provides a novel wearable mouse input device, which comprises a glove type wearing main body 1 in a glove shape and a control module 2 capable of realizing a mouse function.

According to a specific embodiment, the five fingers of the glove-worn body 1 are respectively provided with a control module 2. Each control module 2 corresponds to a function key of the mouse, so that a user can realize different mouse functions by triggering different control modules 2.

Preferably, the control modules 2 are both two-position switches. Preferably, the two-position switch arranged on the forefinger corresponds to a left mouse button; the two-position switch arranged on the ring finger corresponds to a right mouse button; the two-position switch arranged in the middle finger corresponds to a middle mouse button; the two-position switch arranged on the thumb corresponds to a forward key of the mouse; the two-position switch arranged on the little finger corresponds to a back key of the mouse. Preferably, the two-position switches of the index finger and the middle finger are simultaneously turned on to indicate that the mouse wheel rolls upwards; and when the two-position switches of the ring finger and the middle finger are simultaneously opened, the mouse wheel is shown to roll downwards.

Preferably, a displacement member for detecting a signal of a change in the position of the palm is installed at the palm portion, and the member has a variable resistor which is mechanically moved and transmits the signal by a change in the position-affecting resistance; there is also a SONSER that detects displacement for an optical signal by transmitting the signal by detecting a difference in position data of the optical signal before and after the detection. Preferably, an ultra-small chip is used around the displacement component of the palm part to process palm displacement signals and key actions of fingers, the palm displacement signals and the key actions are transmitted through a high-efficiency low-power-consumption Bluetooth chip, and the ultra-small chip is connected with host equipment such as a computer, a mobile phone, a tablet, a smart television and the like through Bluetooth to perform input control operation. The wearable glove type Bluetooth mouse is provided with a rechargeable battery, an indicator light and a power switch at the wrist. When the battery electric quantity enters the alarm electric quantity, the indicating lamp reminds the user of charging in time. Preferably, the switch, a charging circuit of a matched battery, the Bluetooth communication chip, the MCU processing circuit and other components are connected through a flexible circuit. Preferably, the glove type wearing body 1 is suitable for flexible bending action of fingers of a glove, and is manufactured by technical means of covering a nano protective layer with silica gel and the like so as to meet the application requirements of water resistance and dust resistance.

Example 3

The application also provides a method for realizing the glove type Bluetooth mouse, which at least comprises the following steps:

a glove type wearing body 1 provided with a control module 2 is worn on the hand of a user;

starting an internal power supply unit, and transmitting different electromagnetic induction signals in a mode that a thumb is in contact with knuckles of different fingers by moving the fingers;

obtaining a control instruction made by a user according to the transmitted electromagnetic induction signal and a preset matching relation or an association table;

and finishing the operation of simulating the mouse control according to the control instruction.

Preferably, the electromagnetic induction signal is matched in the processing module 3, and the processing module 3 can further analyze the hand state and the body state of the user according to the multiple sensing monitoring data, so as to remind the user to rest regularly in an early warning manner.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not intended to be limiting on the claims. The scope of the invention is defined by the claims and their equivalents. Throughout this document, the features referred to as "preferably" are only optional and should not be understood as necessarily requiring that such applicant reserves the right to disclaim or delete any relevant preferred feature at any time.

Claims (10)

1. A glove type Bluetooth mouse at least comprises a glove type wearing main body (1) capable of being worn on the hand of a user,

the glove type wearing body is characterized in that at least five control modules (2) are arranged in the glove type wearing body (1) according to a mode of sending at least four control instructions, and the control modules (2) are respectively arranged at different positions of the glove type wearing body (1), so that under the condition of wearing the glove type wearing body (1), different control modules (2) can make feedback through the movement of different fingers of a user, and control instructions corresponding to the control modules (2) are generated;

the control module (2) is set on different fingers and different knuckles in a partition manner, wherein the control module (2) forms an electromagnetic induction loop in a mutual contact pairing manner so as to transmit different control instructions according to electric signals in the electromagnetic induction loop.

2. The glove Bluetooth mouse according to claim 1, wherein the control module (2) includes at least a first electrode control unit (21) and a second electrode control unit (22), wherein,

the first electrode control unit (21) can be selectively connected with different second electrode control units (22), so that electromagnetic induction loops for transmitting different electric signals are formed according to different parameters of the magnetic induction coil, and different control instructions are generated.

3. The glove bluetooth mouse as claimed in claim 2, wherein the first electrode control unit (21) is fitted over a designated surface area of the thumb in a manner corresponding to an area where the thumb comes into contact with at least one of the remaining fingers;

the second electrode control units (22) are distributed on the surfaces of the multi-section knuckles of the rest fingers, so that when the first electrode control unit (21) is in contact with the second electrode control units (22) corresponding to different knuckles, the first electrode control unit and the second electrode control units can directionally transmit electric signals in an electromagnetic induction mode, and the processing module (3) can send out different control instructions according to the electric signals.

4. The glove type bluetooth mouse as claimed in claim 3, wherein the electrical signal is matched and associated with different control commands in advance, so that the processing module (3) can obtain the control commands actually required by the user according to the different electrical signals output by the control module (2) and a preset matching relation or association table.

5. The glove type bluetooth mouse as claimed in claim 4, wherein the second electrode control unit (22) selectively adjusts its position within the glove type wearing body (1) according to the wearing condition of the user, so that the contact of the thumb of the user with the knuckles of four fingers can build up the electromagnetic induction loop of the first electrode control unit (21) and the designated second electrode control unit (22).

6. The glove type bluetooth mouse as claimed in claim 5, characterized in that the glove type wearing body (1) is further provided with a pressure sensitive sensing module (4) on the surface facing to the hand, so that the pressure sensitive sensing module (4) can transmit the compression conditions of different areas of the hand of the user to the processing module (3), thereby analyzing the motion condition and the posture maintaining condition of the hand, and further analyzing the fatigue of the muscle of the hand and the stiffness of the skeleton of the hand according to the interaction condition between fingers.

7. The glove type Bluetooth mouse as claimed in claim 6, wherein the processing module (3) can generate finger health indexes according to the working strength of different fingers, so that a user can perform finger movement according to the health indexes to relieve the working damage of the fingers;

glove formula wearing main part (1) still is connected with test sensing module (5), test sensing module (5) can monitor hand muscle's state to analysis hand gesture is come according to hand muscle's form, thereby analyzes the behavior to the hand, and then warns to the user according to the analysis result, makes the user can carry out the hand activity according to the information of warning, in order to alleviate the pressure of hand muscle and skeleton.

8. The glove type Bluetooth mouse as claimed in claim 7, wherein an electrocardiograph sensing module (6) is further connected to an open end of the glove type wearable body (1), and the electrocardiograph sensing module (6) can generate electrocardiograph data of a user by detecting electrocardiograph signals transmitted in an arm, so that the state change of continuous work of the user can be analyzed and predicted according to the change of the electrocardiograph data of the user, and an early warning prompt can be given in time when the working state of the user is abnormal.

9. A glove type Bluetooth mouse implementation method is characterized by at least comprising the following steps:

a glove type wearing body (1) provided with a control module (2) is worn on the hand of a user;

starting an internal power supply unit, and transmitting different electromagnetic induction signals in a mode that a thumb is in contact with knuckles of different fingers by moving the fingers;

obtaining a control instruction made by a user according to the transmitted electromagnetic induction signal and a preset matching relation or an association table;

and finishing the operation of simulating the mouse control according to the control instruction.

10. The glove type bluetooth mouse implementation method is characterized in that the electromagnetic induction signal is matched in the processing module (3), and the processing module (3) can also analyze the hand state and the body state of the user according to multiple sensing monitoring data, so as to remind the user to take a rest regularly in an early warning manner.

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