CN105334965B - Head-wearing device, tongue set, facial remote control and facial remote control method - Google Patents

Abstract

The invention discloses a kind of head-wearing device, tongue set, facial remote control and facial remote control method, the face remote control includes head-wearing device and tongue set；Wherein, the head-wearing device includes fixing piece and the sliding induction mask on the fixing piece；Signal transmission module and processing chip module are installed in the head-wearing device；Pressure sensor and displacement sensor are installed on the sliding induction mask；Wherein, the signal transmission module, pressure sensor and displacement sensor are connect with the processing chip module communication；The tongue set includes the magnet that tongue covers ontology and is installed on tongue set ontology；Wherein, there is magnetic force induction between the magnet and institute's displacement sensors.Beneficial effects of the present invention are：The face remote control can adapt to the various unsuitable usage scenarios using hand operation mouse, and improve the precision of control, reduce the difficulty for not accommodating tool manufacture of user.

Description

Head-mounted device, tongue cover, face remote control device and face remote control method

Technical Field

The invention relates to the technical field of input devices of control equipment, in particular to a head-mounted device, a tongue cover, a face remote control device and a face remote control method.

Background

A mouse is a very common computer input device, which can position a cursor on a current screen and operate a screen element at a position where the cursor passes through by a key and a roller device. The nose ancestor of the mouse appeared in 1968, and the first mouse was made in california by the american scientist Douglas Englebart (Douglas Englebart).

At present, devices such as a PC, an industrial personal computer and a mobile terminal are mostly required to be controlled by a mouse, and mainstream electronic devices such as a touch display screen and wearable devices are mostly controlled by adopting a touch screen mode. These control methods depend to a large extent on the human hand.

Currently, medical pressure sensors are specialized medical pressure sensors. I.e. sensors that sense pressure and convert it into a usable output signal, which are used for specialized medical purposes (also because the pressure sensors that are usually used are mainly manufactured by using the piezoelectric effect, they can be called piezoelectric sensors).

The displacement sensor is also called as a linear sensor, and is a metal-induced linear device, and the sensor is used for converting various measured physical quantities into electric quantities. In the production process, the measurement of displacement is generally divided into measurement of physical size and mechanical displacement. The displacement sensor can be divided into an analog type and a digital type according to the conversion form of the measured variable. The analog type can be classified into physical type and structural type. The common displacement sensors are mostly of analog structure type, and include potentiometer type displacement sensors, inductive type displacement sensors, synchro machines, capacitive type displacement sensors, eddy current type displacement sensors, hall type displacement sensors, and the like.

In order to solve the problems faced by special environments and users, people develop various novel mice which do not need to be operated by the hands of human bodies. For example, a mouse implemented using imaging technology, a mouse implemented using a robotic roller for tongue control in the mouth, and so on.

However, several of the above solutions have some problems, as follows:

1. the limit of the use environment is large, and the LED lamp is basically unavailable under the condition of insufficient light;

2. the sensitivity is lower, and in addition, because the mouse body is directly placed in the mouth of a user, great discomfort and fatigue are caused.

Disclosure of Invention

In order to overcome the technical defects that a mouse in the prior art is greatly limited by a use environment, the sensitivity is low, and a user has great discomfort and fatigue, the invention provides a head-mounted device, a tongue cover, a face remote control device and a face remote control method.

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

a head-wearing device comprises a fixing piece and a sliding induction mask arranged on the fixing piece; a signal transmission module and a processing chip module are installed in the head-mounted device; the sliding induction port cover is provided with a pressure sensor and a displacement sensor; the signal transmission module, the pressure sensor and the displacement sensor are all in communication connection with the processing chip module.

Preferably, the fixing member is a housing. The signal transmission module can be a wired signal transmission module or a wireless signal transmission module. Preferably, the signal transmission module is a bluetooth module. The pressure sensors are one and are arranged on one side of the sliding induction mask or the pressure sensors are two and are respectively arranged on two sides of the sliding induction mask. The displacement sensor is arranged in the middle of the sliding induction mask.

The head-mounted device can be matched with the tongue sleeve to form a face remote control device, and the face remote control device can convert muscle contraction movement of a cheek of a user into mouse left and right click signals through the pressure sensor; the sliding of the tongue of the user in the oral cavity is converted into a displacement signal of the mouse through the magnet and the displacement sensor on the tongue sleeve, so that the aim of controlling corresponding control equipment by the face remote control device is fulfilled. The mouse can adapt to various use scenes which are not suitable for using the hand to operate the mouse, the control precision is improved, and the discomfort of a user and the difficulty of tool manufacturing are reduced.

Preferably, a battery module is further installed in the housing. The headset may be wired or wireless. The wireless head-mounted device needs to be provided with a battery module in the shell for power supply.

Preferably, the shell is rotatably connected with the sliding induction mask. The angle can be adjusted through rotating the sliding induction mask, and the requirements of different users are met.

Preferably, the sliding induction mask comprises an adjusting belt and two rotating arms which are respectively and fixedly connected to two ends of the adjusting belt and symmetrically arranged. The user can reach the purpose of control signal sensitivity through the length of adjusting the regulation band, can satisfy different users' demand. The pressure sensor is arranged on the rotating arm, and the displacement sensor is arranged on the adjusting belt.

Preferably, the pressure sensor is a MEMS pressure sensor. The displacement sensor is a Hall displacement sensor.

A tongue cover comprises a tongue cover body and a magnet arranged on the tongue cover body. Magnetic induction is provided between the magnet and the displacement sensor.

Preferably, the tongue sheath body is made of medical silica gel. The tongue sheath body is made of sterile and non-irritant medical silica gel, so that the comfort of a user in long-term use can be met.

A facial remote control device comprising a headgear of any one of the above and a tongue sleeve; and magnetic induction is performed between the magnet and the displacement sensor.

The facial remote control device can convert the muscle contraction movement of the cheek of a user into mouse left and right click signals through the pressure sensor; the sliding of the tongue of the user in the oral cavity is converted into a displacement signal of the mouse through the magnet and the displacement sensor on the tongue sleeve, so that the aim of controlling corresponding control equipment by the face remote control device is fulfilled. The mouse can adapt to various use scenes which are not suitable for using the hand to operate the mouse, the control precision is improved, and the discomfort of a user and the difficulty of tool manufacturing are reduced.

A face remote control method based on the face remote control device comprises the following steps: 1) receiving a facial muscle contraction signal of a user, and converting the facial muscle contraction signal into a click signal; 2) receiving a sliding signal of a magnet at the tongue tip of a user, and converting the sliding signal of the magnet into a displacement signal; 3) integrating the click signal and the displacement signal; 4) and sending the integrated click signal and displacement signal.

The invention has the beneficial effects that: the facial remote control device can convert the muscle contraction movement of the cheek of a user into mouse left and right click signals through the pressure sensor; the sliding of the tongue of the user in the oral cavity is converted into a displacement signal of the mouse through the magnet and the displacement sensor on the tongue sleeve, so that the aim of controlling corresponding control equipment through the face remote control device is fulfilled. The mouse can adapt to various use scenes which are not suitable for using the hand to operate the mouse, the control precision is improved, and the discomfort of a user and the difficulty of tool manufacturing are reduced.

Drawings

Fig. 1 is a side view of a helmet according to an embodiment of the present invention;

fig. 2 is a front view of a helmet according to an embodiment of the present invention;

fig. 3 is a schematic view illustrating a rotation process of a sliding sensing mask of a helmet according to an embodiment of the present invention;

fig. 4 is a schematic view illustrating a process of extending and retracting an adjustment strap of a sliding induction mask of a helmet according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a tongue cover according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of signal transmission relationship of a face remote control mouse according to an embodiment of the present invention;

fig. 7 is a schematic view of a face remote control method of a face remote control mouse according to an embodiment of the present invention.

In the figure, the position of the upper end of the main shaft,

1. a helmet; 11. a housing; 111. a Bluetooth module; 112. a processing chip module; 12. a sliding induction mask; 121. an adjustment belt; 122. a rotating arm; 123. a pressure sensor; 124. a displacement sensor; 2. a tongue cover; 21. a tongue sheath body; 22. and a magnet.

Detailed Description

The structure of the present invention will be explained in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the head-mounted device provided by the present invention may be a helmet 1, where the helmet 1 includes an outer shell 11 and a sliding sensing mask 12 mounted on the outer shell 11.

A bluetooth module 111 and a processing chip module 112 are installed in the housing 11. The bluetooth module 111 and the processing chip module 112 may also be installed in the sliding induction mask 12.

Pressure sensor 123 is all installed to the left and right both sides of slip response gauze mask 12, displacement sensor 124 is installed to the front end of gauze mask.

The bluetooth module 111, the pressure sensor 123 and the displacement sensor 124 are all in communication connection with the processing chip module 112.

And a battery module is also arranged in the shell 11.

As shown in fig. 5, the tongue cover 2 provided by the present invention includes a tongue cover body 21 and a magnet 22 installed in the middle of the tongue cover body 21; wherein, magnetic induction exists between the magnet 22 and the displacement sensor 124.

The invention provides a face remote control device, which can be a face remote control mouse and comprises a helmet 1 and a tongue cover 2; wherein, magnetic induction exists between the magnet 22 and the displacement sensor 124. Shell 11 with slip response gauze mask 12 rotates to be connected, can angle regulation through rotating slip response gauze mask 12, satisfies different users' demand, and shell 11 with can realize through modes such as close-fitting between the slip response gauze mask 12 the position of slip response gauze mask 12 at a certain concrete position stops.

In the facial remote control mouse provided by the invention, the sliding induction mask 12 comprises an adjusting belt 121 and two rotating arms 122 which are respectively and fixedly connected to two ends of the adjusting belt 121 and are symmetrically arranged. The user can be through the length of adjusting band 121 (the adjusting band 121 structure of this patent is more nimble, can be similar to the band of knapsack etc. length-adjustable structure can), reaches the purpose of control signal sensitivity, can satisfy different users' demand. The pressure sensor 123 is mounted on the rotating arm 122, and the displacement sensor 124 is mounted on the adjusting belt 121.

In the facial remote control mouse provided by the invention, the pressure sensor 123 is an MEMS pressure sensor. The displacement sensor 124 is a hall type displacement sensor.

According to the face remote control mouse provided by the invention, the tongue sheath body 21 is made of sterile and non-irritant medical silica gel, so that the comfortable sensation of a user in long-term use can be met.

According to the face remote control mouse, before a user uses the face remote control mouse for the first time, the user needs to initialize the muscle signals of the face of the user. The specific operation process is as follows: after the user fixes the helmet 1, the user respectively contracts muscles of the left cheek and the right cheek and adjusts the pressure sensing signals received by the software, wherein the contraction of the muscle of the left cheek is determined as a click signal of a left button of the mouse, and the contraction of the muscle of the right cheek is determined as a click signal of a right button of the mouse. Meanwhile, after the user wears the tongue cover 2, the relative displacement is recognized by the displacement sensor 124 when the magnet 22 of the tongue tip slides inside the oral cavity. The sensitivity of the signal is adjusted by an adjustment band 121 in the lower jaw. If the sensitivity of the signal is reduced, the length of the adjusting belt 121 is adjusted; conversely, if the sensitivity of the signal is to be improved, the adjustment band 121 is simply shortened.

The communication connection means that the bluetooth module 111, the pressure sensor 123 and the displacement sensor 124 all have a signal transmission relationship with the processing chip module 112. As shown in fig. 6, in the working process of the facial remote control mouse of the present invention, the processing chip module 112 obtains signals from the MEMS pressure sensor and the hall type displacement sensor, integrates the obtained signals, and sends the integrated signals to the bluetooth module 111, and the bluetooth module 111 sends the received signals to the control devices such as a computer and a mobile phone.

As shown in fig. 7, the method for remotely controlling a face based on the mouse for remotely controlling a face provided by the invention comprises the following steps: 1) receiving a facial muscle contraction signal of a user, and converting the facial muscle contraction signal into a click signal; 2) receiving a sliding signal of a magnet at the tongue tip of a user, and converting the sliding signal of the magnet into a displacement signal; 3) integrating the click signal and the displacement signal; 4) and sending the integrated click signal and displacement signal.

When the user uses the face remote control mouse, the magnet 22 on the tongue sleeve 2 continuously slides in the oral cavity corresponding to the cheek, the displacement sensor 124 converts the magnetic signal into a moving signal and transmits the moving signal back to a control device such as a computer through the Bluetooth module 111, and when the muscle of the cheek contracts, the pressure sensor 123 converts the pressure into a click signal, so that the whole control operation of the traditional mouse is simulated.

The invention is not limited to the above preferred embodiments, but includes all modifications, equivalents, and simplifications that may be made by those skilled in the art without departing from the spirit of the invention.

Claims (11)

1. A facial remote control device, comprising a head-mounted device and a tongue cover (2); wherein,

the head-wearing device comprises a fixing piece and a sliding induction mask (12) arranged on the fixing piece; a signal transmission module and a processing chip module (112) are installed in the head-mounted device; a pressure sensor (123) and a displacement sensor (124) are arranged on the sliding sensing mask (12); the signal transmission module, the pressure sensor (123) and the displacement sensor (124) are all in communication connection with the processing chip module (112);

the tongue sleeve (2) comprises a tongue sleeve body (21) and a magnet (22) arranged on the tongue sleeve body (21); the magnet (22) and the displacement sensor (124) have magnetic induction;

the pressure sensor (123) is used for converting pressure into click signals, and the displacement sensor (124) is used for converting sliding of the magnet (22) into movement signals.

2. A facial remote control device according to claim 1, characterized in that the head-mounted device is a helmet (1).

3. A facial remote control device as claimed in claim 1, characterized in that the holder is a housing (11).

4. A facial remote control device as claimed in claim 1, characterized in that the pressure sensor (123) is one, mounted on one side of the sliding sensing mask (12) or the pressure sensors (123) are two, mounted on both sides of the sliding sensing mask (12) respectively.

5. A facial remote control device as claimed in claim 1, characterized in that the displacement sensor (124) is mounted in the middle of the sliding sensing mask (12).

6. A facial remote control device as claimed in claim 3, characterized in that a battery module is also mounted in the housing (11).

7. A facial remote control device according to claim 3, characterized in that the housing (11) is rotatably connected to the sliding induction mask (12).

8. A facial remote control device as claimed in claim 1, wherein the sliding sensing mask (12) comprises an adjusting belt (121) and two rotating arms (122) symmetrically fixed at two ends of the adjusting belt (121).

9. A facial remote control device according to claim 8, characterized in that the pressure sensor (123) is mounted on the swivel arm (122) and the displacement sensor (124) is mounted on the adjustment strap (121).

10. The facial remote control device according to claim 1, wherein the tongue sheath body (21) is made of medical silica gel.

11. A face remote control method based on the face remote control apparatus according to any one of claims 1 to 10, characterized by comprising the steps of:

1) receiving a facial muscle contraction signal of a user, and converting the facial muscle contraction signal into a click signal;

2) receiving a sliding signal of a magnet at the tongue tip of a user, and converting the sliding signal of the magnet into a displacement signal;

3) integrating the click signal and the displacement signal;

4) and sending the integrated click signal and displacement signal.