RU2552104C1 - Multi-purpose switching device - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: multi-purpose switching device includes the main unit and a bracelet fixed on a user's hand. With that, the main unit includes a bending display with a bending sensing element responding to touches, a housing made from flexible material with electrical components and an accumulator, which are arranged inside it. A bracelet fixed on the user's hand is made in the form of stiff and elastic elements that are connected together. With that, the inner surface of the stiff element is made individually to the user's hand, and the outer surface has a cylindrical shape. On the end surface of the bracelet, which faces to the user's palm, there are two projections having a bend towards the centre of the bracelet, in the stiff element of the bracelet there are at least three pulse sensors electrically connected to each other arranged, as well as an accumulator and an electronic board. Additionally, the main unit includes a module of extremely high frequency (EHF) radiation and is connected to the bracelet with a possibility of longitudinal movement by means of a longitudinal guide arranged in channels made in the housing of the main unit and the stiff element of the bracelet, on the reverse side of the main unit there are at least five touch-sensing platforms arranged, each of which includes at least two independent sensitive zones, as well as a radiating system of the EHF radiation module.

EFFECT: possible fixation of a telephone on a user's hand, which allows enlarging functionality of the device due to additional units built in the bracelet.

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Description

The invention relates to the field of mobile communications and telecommunications, namely to mobile phones.

Currently existing mobile phones are separate independent devices that the user carries in his hand, bag, pocket, etc., which entails both the risk of loss or damage to the device, and a certain health hazard, as a mobile phone, being a source of electromagnetic radiation, it is often placed near vital organs.

At the same time, attempts are being made to create such a design of a mobile phone that would allow the phone to be mounted directly on the human body. This problem became especially urgent after the appearance of curving displays on the market, which allows you to create a mobile phone of almost any shape.

A wrist mobile phone is known (international publication of application WO 2012/078077 A1, publication date 06/14/2012), comprising a case and a bracelet connected to it, while the bracelet is made elastically stretched with a spring connection of the links and worn on the arm with the ability to move around and along the wrist.

The disadvantages of the proposed solution is that a mobile phone of this design cannot be reliably positioned on the hand, as a result of which the usability is lost.

Flexible electronic devices are known (international application publication WO 201/048925 A3, publication date 04/04/2013) containing a bending display, a bending housing made of a flexible material, one or more internal bending components, and a bending power source.

The disadvantages of the known device is that despite its ability to change shape within certain limits, in essence it is a functionally complete analogue of traditional communication devices. Including the algorithm and ease of use, it is a familiar device that you need to hold in your hand, carry it in your hands or in your clothing pocket, bag, etc.

The closest technical solution to the proposed invention is the well-known hand-held user communication terminal (US patent US 2007/0246494 A1, publication date 10/25/2007), including the first main unit arranged on the bracelet opposite each other, configured for input-output data, and a second main unit, configured to input / output data. In this case, the first main unit is removable.

The disadvantages of the known device are the inability to clearly position on the user's hand, as a result of which the usability when reading information from the device’s display or when entering information is sharply reduced. In addition, this device has significant dimensions, which makes it difficult to use it if the user is wearing long-sleeved clothing.

The technical result of the invention is the creation of a convenient communication device (mobile phone) with enhanced functionality.

The technical result is achieved by the fact that a multifunctional communication device is proposed, comprising a main unit and a bracelet fixed on the user's hand, while the main unit contains a bending display with a bending touch element that responds to touch, a case made of flexible material with electrical components and an accumulator placed inside the bracelet fixed on the user's hand is made in the form of rigid and elastic elements joined together, while the inner the surface of the rigid element is individually made according to the user's hand, and the outer surface is cylindrical, on the end side of the bracelet facing the palm of the user, two protrusions are made having a bend towards the center of the bracelet, at least electrically interconnected at least in the hard element of the bracelet three heart rate sensors, as well as a battery and an electronic board, the main unit additionally contains an EHF-radiation module and is connected to the bracelet with the possibility of longitudinal movement in the middle By means of a longitudinal guide located in the channels made in the body of the main unit and the rigid element of the bracelet, at least five touch pads that are touch sensitive, each of which contains at least two independent sensitive zones, are also located on the back of the main unit EHF module system.

In the present invention, the guide may have an H-shaped profile and may be made of plastic.

In the present invention, the guide may have an H-shaped profile and may be made of metal.

In the present invention, the pulse sensors may be piezoelectric.

In the present invention, the main unit and the bracelet can be electrically connected by means of a flexible cable located in the channel of the longitudinal guide.

In the present invention, the main unit and the bracelet can be connected by means of wireless communication modules located respectively in the main unit body and the hard part of the bracelet.

In the proposed device, in addition to the traditional main unit, a bracelet is used, mounted on the user's hand. This allows you to reliably fix the device on the body, which eliminates the possibility of losing the device, as well as its damage in the event of a fall, as occurs when using a traditional mobile communication device. In this case, the bracelet is performed individually for each user, for example, through a 3D printer. In addition, the implementation of the bracelet individually according to the user's hand allows you to achieve a number of advantages, such as wearing comfort, because the size of the bracelet exactly matches the size of the user's hand of the device, and the presence of two protrusions having a bend towards the center of the bracelet allows you to fix the bracelet strictly a certain position, which will allow you to place the heart rate sensors in the most favorable position, which will affect the accuracy of the measurements. The external cylindrical shape of the rigid element of the bracelet makes it easy to place a bending main unit around it so that the device does not interfere with the user when not in use. In addition, this design allows you to use the main unit size significantly larger than traditional mobile phones, with a correspondingly increased screen size without loss of usability. The elastic element of the bracelet allows you to gently fix it on the hand of the user of the device, while providing additional ventilation and thus ensuring the comfort of wearing the device.

The bracelet of the proposed device contains at least three heart rate sensors, which allows you to get a complete diagnostic picture of the user's cardiovascular system, in addition, an electronic board and a battery are located in the bracelet to ensure the functioning of the heart rate sensors.

The main unit of the device additionally contains a module that provides the generation of extremely high frequency radiation (EHF) for the therapeutic effect on the device user. The positive effect of exposure to a living organism of electromagnetic radiation (EMR) of the millimeter range (1-10 mm) of extremely high frequency (30-300 GHz) of low intensity is known. Millimeter-wave electromagnetic waves have low penetration into biological tissue (0.2-0.8 mm), are almost completely absorbed by the surface layers of the skin (water molecules, hydrated proteins, collagen molecules, connective tissue cells), without providing thermal effects. The module is connected via microstrip lines and microelectromechanical switches to emitters located on the back side of the main unit of the device, and thus it is possible to influence the palm of the user, stimulating biologically active points (acupuncture points) in the position when the main block is extended and is above the palm of the user .

Using at least five touch pads, each of which contains at least two independent sensitive areas on the back of the main unit, allows you to control the device with one hand, by touching the fingers of the hand on which the device is fixed in the position when the main unit is extended to the palm. In this case, touching each independent zone of the sensor area can initiate the input of a symbol or a control command into the device.

The invention is illustrated by drawings.

In FIG. 1 shows the proposed multifunctional communication device in a position when the main unit is shifted to the bracelet and goes around it.

In FIG. 2 shows the proposed multifunctional communication device mounted on the user's hand, while showing the tabs of the bracelet, fixing it in a certain position. The main unit is shifted to the bracelet and goes around it. The screen remains available, you can read information from it and control the device.

In FIG. 3 shows the proposed multifunctional communication device from the back of the main unit in the position when the main unit is extended and straightened.

In FIG. 4 shows the proposed multifunctional communication device on the front side of the main unit in the position when the main unit is extended and straightened.

Depicted in FIG. 1, the proposed multifunctional communication device comprises a main unit including a bending body 1 and a screen 2, a bracelet consisting of a rigid element 3 and an elastic element 4, while on the front side of the hard element 3 of the bracelet there are protrusions 5 for fixing the bracelet on the device’s user’s hand in a certain position.

Depicted in FIG. 2, the proposed multifunctional communication device comprises a main unit, including a bending housing 1 and a screen 2, the projections 5 of the bracelet are also visible.

Depicted in FIG. 3, the proposed multifunctional communication device comprises a main unit, including a bending housing 1, on the back of which six touch pads 6 are made to realize the possibility of using the main unit with bracelets for both the right and left hands. The main unit is connected to the rigid element 3 of the bracelet by means of a longitudinal guide 7.

Depicted in FIG. 4, the proposed multifunctional communication device comprises a main unit including a bending housing 1 and a screen 2, which is connected via a longitudinal guide 7 to the rigid element 3 of the bracelet.

The proposed multifunctional communication device operates as follows. The device is fixed to the user's hand by means of a bracelet, while the hard element of the bracelet is made directly by the user's hand and does not cause discomfort when wearing and using the device. And the elastic element of the bracelet allows you to securely attach the device to your hand, at the same time without squeezing it. Thus, the proposed device becomes as if integrally with the user's hand. In standby mode, when the device is not used, the main unit is shifted to the bracelet and goes around it, at the same time, the device screen is available for reading information and various notifications. If you need to use the device, the main unit is shifted to the palm of the user and is above the palm, while the user straightens the main block to obtain a flat surface. In this position, the user can read information from the screen, control the device using both the main screen that responds to touch, and acting on touch pads on the back of the main unit, which in this position are opposite the fingers of the user's hand on which the device is attached, then there is in the proposed device the ability to control with one hand, while the second hand of the user remains free. Also, in this position of the device, an EHF-radiation unit can be involved, which, through emitters located on the back of the main unit, can carry out a therapeutic effect. At the same time, there is the possibility of real-time communication with a medical institution for processing data from the diagnostic part of the device with subsequent adjustment of the parameters of the therapeutic effect.

Pulse sensors carry out continuous pulse diagnostics of the state of the organism of the device user with the issuance of information on the screen and periodic, if necessary, data transfer to a medical institution. At the same time, the user may be given recommendations on the necessary actions, for example, on taking medication or conducting an EHF-therapy session.

Thus, the use of the proposed multifunctional communication device will significantly expand the functionality compared to well-known counterparts, as well as improve ease of use.

Claims (6)

1. A multifunctional communication device comprising a main unit and a bracelet fixed to the user's hand, characterized in that the main unit contains a curved display with a curving touch sensor that responds to touch, a housing made of flexible material with electrical components inside and a battery mounted on the bracelet of the user is made in the form of rigid and elastic elements joined together, while the inner surface of the rigid element is made individually on the user's hand, and the outer surface has a cylindrical shape, on the front side of the bracelet facing the palm of the user, there are two protrusions having a bend towards the center of the bracelet, at least three heart rate sensors are electrically connected to each other in the hard element of the bracelet, as well as a battery and an electronic board, the main unit additionally contains an EHF-radiation module and is connected to the bracelet with the possibility of longitudinal movement by means of a longitudinal guide placed In the channels made in the body of the main unit and the rigid element of the bracelet, at least five touch pads that are touch sensitive, each containing at least two independent sensitive zones, as well as the emitting system of the EHF module, are placed on the back of the main unit radiation. 2. A multifunctional communication device according to claim 1, characterized in that the longitudinal guide has an H-shaped profile and is made of plastic. 3. The multifunctional communication device according to claim 1, characterized in that the longitudinal guide has an H-shaped profile and is made of metal. 4. A multifunctional communication device according to claim 1, characterized in that piezoelectric pulse sensors are used. 5. The multifunctional communication device according to claim 1, characterized in that both the main unit and the bracelet are electrically connected by means of a flexible cable located in the channel of the longitudinal guide. 6. The multifunctional communication device according to claim 1, characterized in that the main unit and the bracelet are connected via wireless communication modules located respectively in the main unit body and the hard part of the bracelet.

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