CN114670782A - Wearable automobile mobile control terminal equipment - Google Patents

Abstract

The application provides a wearing formula car mobile control terminal equipment belongs to car mobile control terminal technical field. The wearable automobile mobile control terminal device comprises a control terminal part and a wrist strap part. The control terminal part comprises a key shell, a magnetic component A and an NFC induction chip A. The wrist strap part comprises a watch case, two watchbands, a magnetic component B and an NFC induction chip B, wherein the two watchbands are respectively connected to two sides of the watch case and can tie the watch case to a wrist part, the magnetic component B and the NFC induction chip B are arranged in a cavity of the watch case, and the key case is adsorbed on the outer surface of the watch case through the matching of the magnetic component A and the magnetic component B. In this application, the intellectuality and the multifunctionalization of car key, control terminal part and wrist strap part are mutually supported, and the function complements each other. The experience of the customer is better, and the driving of the automobile is more convenient.

Description

Wearable automobile mobile control terminal equipment

Technical Field

The application relates to the field of automobile mobile control terminals, in particular to a wearable automobile mobile control terminal device.

Background

With the development of the times, the form of the automobile key is constantly changing. The traditional automobile key is common, generally comprises a key body, a key handle, a remote control key and an internal control device, and has a single structural function. It has become increasingly difficult for conventional automobile keys to meet the demands of the public. So that smart car keys are also coming up.

The above conventional automobile key has the following technical problems:

1. people often connect car keys with key strings, so that functional devices on the car keys, such as display screens, are easily damaged.

2. The function is single, and masses need more functions. For example, lost retrieval, keyless door opening, physical manipulation, change of essential functions of a car key can be used for a control instruction set of the internet of things device, and the like.

Disclosure of Invention

In order to solve the technical problems, the scheme provides a wearable automobile mobile control terminal device, and through the following structural design, the technical problems are well solved, and the technical effects of multiple functions, convenience and quickness are achieved.

The embodiment of the application provides a wearable automobile mobile control terminal device, which comprises a control terminal part and a wrist strap part.

Control terminal part includes key casing, magnetic component A and NFC response chip A, magnetic component A with NFC responds to chip A and places in the cavity of key casing.

The wrist strap part comprises a watch case, two watchbands, a magnetic component B and an NFC induction chip B, wherein the two watchbands are respectively connected to two sides of the watch case and can tie the watch case to a wrist part, the magnetic component B and the NFC induction chip B are arranged in a cavity of the watch case, and the key case is adsorbed on the outer surface of the watch case through the matching of the magnetic component A and the magnetic component B.

In the implementation process, the overall wearable automobile mobile control terminal equipment has the following advantages that:

1. the intellectualization and the multi-functionalization of the automobile key.

2. The control terminal portion and the wristband portion cooperate to complement each other in function. The experience of the customer is better, and the driving of the automobile is more convenient.

In a specific embodiment, the key housing is of an oval design, and the touch screen body is embedded on the upper surface of the key housing.

In the implementation process, the touch screen body is embedded above the key shell and is an outer-layer control module.

In a specific implementation scheme, be equipped with the button district on the key casing, the button district includes front end shortcut, rear end shortcut, left side button and right side button, front end shortcut and rear end shortcut inlay dress in key casing upper surface both sides, the left side button with the right side button inlay dress in two long sides of key casing.

In the above implementation, after the power is turned on, the left button 153 and the right button 154 are pressed at the same time to start the vehicle. After the vehicle is started, the vehicle can be controlled to enter the 'control mode' through a front-end shortcut key on the key shell, and the vehicle is controlled to exit the 'control mode' through a rear-end shortcut key, so that a user can control the vehicle through four buttons arranged on the key shell, namely the front button, the rear button, the left button, the right button and the left button, and the vehicle is controlled in a remote control physical mode.

In a specific implementation scheme, a control main board a and a power layer a are further accommodated in the cavity of the key housing, the power layer a is electrically connected to the control main board a, the power layer a includes a battery a and an NFC charging coil a, and the NFC charging coil a is electrically connected to the battery a.

In the implementation process, a battery A, NFC charging coil A is contained in the power layer A, the power layer A mainly supplies power for the whole device, and the main charging mode is NFC wireless charging; the control mainboard A is provided with a small GPS module, a Bluetooth module, a signal module, an eSIM module, a processor chip, a temperature sensor, a pressure sensor, a heart rate sensor, a loudspeaker and a microphone, so that the control mainboard A has the functions of signal receiving and sending, temperature sensing, heart rate testing, system operation, telephone communication and the like.

In a specific embodiment, the NFC sensing chip a is electrically connected to the control board a.

In the implementation process, the NFC induction chip A enables the key to be capable of starting the automobile through NFC induction during power-off.

In a specific embodiment, the upper surface of the watch case is embedded with a display screen body.

In the implementation process, the display screen body can be used for displaying information of the receiving control terminal part.

In a specific implementation scheme, a control mainboard B and a power layer B are further accommodated in the cavity of the watch case, the power layer B is electrically connected to the control mainboard B, the power layer B comprises a battery B and an NFC charging coil B, and the NFC charging coil B is electrically connected to the battery B.

In above-mentioned realization in-process, have the cavity that holds each device on the watchcase, integrated bluetooth module, wifi module, signal module on the control mainboard B, mainly used is connected with control terminal part to and retrieve intelligent key mobile terminal through the GPS module. The power layer B comprises a battery B and an NFC charging coil B, and the main charging mode is NFC wireless charging.

In a specific embodiment, the NFC sensing chip B is electrically connected to the control board B.

In the implementation process, the NFC induction chip B is used for identifying the intelligent key mobile terminal and the intelligent automobile, so that the automobile can be started through NFC induction during the key loss and power failure.

In a specific embodiment, the magnetic component a and the magnetic component B are magnets with their poles attracted to each other.

In the implementation process, the magnetic component A and the magnetic component B are matched to be convenient for fixing the key shell and the watch shell, the upper surface of the watch shell and the lower surface of the key shell are both designed in a smooth shape, and the smooth design of the contact surfaces of the watch shell and the key shell increases the adsorption effect of the magnetic component A and the magnetic component B.

In a specific implementation scheme, watchbands are communicated with watchband holes at equal intervals, clamping protrusions are mounted at the tail ends of the other watchbands and can be buckled in the watchband holes, and adjusting notches for the watchbands to penetrate through are formed in the other watchbands.

In the implementation process, one watchband penetrates through the adjusting notch in the other watchband, and then the comfort effect of wearing the two watchbands on the wrist can be adjusted by the cooperation of the clamping convex and the watchband hole.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a wearable automobile mobile control terminal device provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a control terminal portion according to an embodiment of the present disclosure;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2 according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of a wristband portion construction provided in an embodiment of the present application;

FIG. 5 is a schematic cross-sectional view taken along line B-B in FIG. 4 according to an embodiment of the present disclosure;

FIG. 6 is a schematic view of an open vehicle component provided by an embodiment of the present application;

FIG. 7 is a control schematic provided by an embodiment of the present application.

In the figure: 10-a control terminal part; 110-a key housing; 120-magnetic component a; 130-NFC induction chip A; 140-a touch screen body; 150-key area; 151-front end shortcut key; 152-back-end shortcut key; 153-left button; 154-right button; 160-control motherboard A; 170-power plane a; 20-a wristband portion; 210-a watch case; 220-watchband; 230-magnetic component B; 240-NFC induction chip B; 250-a display screen body; 260-control mainboard B; 270-power plane B.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1, the present application provides a wearable automobile mobile control terminal device, which includes a control terminal portion 10 and a wristband portion 20.

Wherein, control terminal part 10 belongs to car intelligent key part, and wrist strap part 20 belongs to intelligent wrist-watch part, and the two cooperate each other, and the function complements each other. The experience of the customer is better, and the driving of the automobile is more convenient.

Referring to fig. 1, 2 and 3, the control terminal portion 10 includes a key housing 110, a magnetic component a120 and an NFC sensing chip a130, and the magnetic component a120 and the NFC sensing chip a130 are disposed in a cavity of the key housing 110.

In the present embodiment, the key housing 110 has an oval shape, and the touch screen body 140 is embedded on the upper surface thereof. The touch screen body 140 is embedded above the key housing 110 and is an outer-layer control module.

In this embodiment, a key area 150 is disposed on the key housing 110, the key area 150 includes a front shortcut key 151, a rear shortcut key 152, a left button 153 and a right button 154, the front shortcut key 151 and the rear shortcut key 152 are embedded in two sides of the upper surface of the key housing 110, and the left button 153 and the right button 154 are embedded in two long sides of the key housing 110. When the power is turned on, the left button 153 and the right button 154 are pressed at the same time to start the vehicle. After the vehicle is started, the vehicle can be controlled to enter the 'control mode' through a front-end shortcut key on the key shell, and the vehicle is controlled to exit the 'control mode' through a rear-end shortcut key, so that a user can control the vehicle through four buttons arranged on the key shell, namely, the front button, the rear button, the left button, the right button and the left button respectively, and remote control physical control of the vehicle is realized.

In this embodiment, the cavity of the key housing 110 further contains a control main board a160 and a power layer a170, the power layer a170 is electrically connected to the control main board a160, the power layer a170 includes a battery a and an NFC charging coil a, and the NFC charging coil a is electrically connected to the battery a. The power layer A170 comprises a battery A, NFC charging coil A and a magnetic assembly A120, the power layer A170 mainly supplies power for the whole device, and the main charging mode is NFC wireless charging; the control main board A160 comprises a small GPS module, a Bluetooth module, a signal module, an eSIM module, a processor chip, a temperature sensor, a pressure sensor, a heart rate sensor, a loudspeaker and a microphone, so that the control main board A has the functions of signal receiving and sending, temperature sensing, heart rate testing, system operation, telephone communication and the like.

In the present embodiment, the NFC sensing chip a130 is electrically connected to the control board a 160. The NFC sensing chip a130 belongs to a short-range wireless communication technology in the prior art, and is not described herein again. The NFC sensing chip a130 enables the key to turn on the car by NFC sensing during power off.

Referring to fig. 1, 2, 4 and 5, the wristband portion 20 includes a case 210, two watchbands 220, a magnetic component B230 and an NFC sensor chip B240, the two watchbands 220 are respectively connected to two sides of the case 210 and can tie the case 210 to a wrist, the magnetic component B230 and the NFC sensor chip B240 are embedded in a cavity of the case 210, and the key housing 110 is attached to an outer surface of the case 210 through the cooperation of the magnetic component a120 and the magnetic component B230.

In this embodiment, a display screen body 250 is fitted to the upper surface of the wristwatch case 210. The display screen body 250 can be used to display the received information.

In this embodiment, a control motherboard B260 and a power layer B270 are further accommodated in the cavity of the watch case 210, the power layer B270 is electrically connected to the control motherboard B260, the power layer B270 includes a battery B and an NFC charging coil B, and the NFC charging coil B is electrically connected to the battery B. Wherein, have the cavity that holds each device on the watchcase 210, integrated bluetooth module, wifi module, signal module on the control mainboard B260, mainly used is connected with control terminal part 10 to and retrieve intelligent key mobile terminal through the GPS module. The power layer B270 includes a battery B and an NFC charging coil B, and the main charging mode is NFC wireless charging.

In the present embodiment, the NFC sensing chip B240 is electrically connected to the control board B260. The NFC sensing chip B240 is a short-range wireless communication technology, and allows the electronic device to perform point-to-point data transmission and exchange data within a distance of less than ten centimeters, and the specific structure and control principle thereof are not described herein again in the prior art. NFC response chip B240 is used for intelligent key mobile terminal and intelligent automobile discernment for the key is losing, during the outage, can open the car through the NFC response.

In the present embodiment, the magnetic element a120 and the magnetic element B230 are magnets with their poles attracted to each other. Meanwhile, the upper surface of the watch case 210 and the lower surface of the key case 110 are both smooth. The magnetic poles of the magnetic component a120 and the magnetic component B230 are opposite to each other, so that the watchcase 210 and the key case 110 are attracted to each other, the specific magnetic attraction principle is the prior art, and details are not repeated herein, and the smooth design of the contact surfaces of the watchcase 210 and the key case 110 increases the attraction effect of the magnetic component a120 and the magnetic component B230.

In this embodiment, a watchband hole is formed through one of the watchbands 220 at equal intervals, a clamping protrusion (not shown) is installed at the end of the other watchband 220, the clamping protrusion can be fastened in the watchband hole, and an adjusting notch for inserting one of the watchbands 220 is further formed in the other watchband 220. Wherein one of the bands is passed through the adjustment notch on the other band, and then the comfort effect of wearing two bands 220 on the wrist can be adjusted by the cooperation of the clip and the band hole.

This wearing formula car mobile control terminal equipment's theory of operation:

when the automobile key is worn, one of the watchbands penetrates through the adjusting notch in the other watchband, then the two watchbands 220 are worn on the wrist by the cooperation of the clamping protrusion and the watchband hole, the magnetic component A120 and the magnetic component B230 are magnetically adsorbed, so that the key shell 110 and the watchcase 210 can be firmly adsorbed together, the probability that the function structure of the automobile key is easily damaged by connecting the automobile key and the key string together in the past is indirectly reduced, the NFC induction chip A130 is designed in the cavity of the key shell 110, the NFC induction chip B240 is designed in the cavity of the watchcase 210, the automobile can be opened by induction under the condition that the automobile key is lost or is powered off due to the design of the NFC induction chip A130 and the NFC induction chip B240, and the practicability effect of the whole device is improved.

It should be noted that the specific model specifications of the magnetic component a120, the NFC sensing chip a130, the touch screen body 140, the control motherboard a160, the power layer a170, the magnetic component B230, the NFC sensing chip B240, the display screen body 250, the control motherboard B260, and the power layer B270 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, and therefore, detailed description is omitted.

The power supply and the principle of the magnetic component a120, the NFC sensing chip a130, the touch screen body 140, the control main board a160, the power layer a170, the magnetic component B230, the NFC sensing chip B240, the display screen body 250, the control main board B260 and the power layer B270 are clear to those skilled in the art and will not be described in detail herein.

The wearable mobile terminal equipment comprises the following control methods:

opening the vehicle includes an intelligent private car.

When a user needs to unlock the lock at the set position of the vehicle, the user can firstly send an instruction to the vehicle through a vehicle unlocking device such as a vehicle key or intelligent equipment, for example, by pressing a key corresponding to the vehicle key.

Wherein, the intelligent device.

The vehicle lock for setting the position of the vehicle comprises at least one of a door lock, a sunroof lock and a trunk lock.

After receiving the command of the user, the vehicle key or the intelligent device opens the corresponding door and window or starts the vehicle.

In a preferred embodiment, the car key or the intelligent device comprises an NFC module and a remote control module, and the car key or the intelligent device initiates an opening instruction to a car lock at a set position of the vehicle in an NFC manner, or sends a signal to wake up an intelligent private car through a data signal module of the car key, and sends a control instruction to control the whole vehicle.

When an opening instruction is initiated to a lock at a set position of a vehicle in a Near Field Communication (NFC) manner, the vehicle unlocking terminal and the corresponding lock are required to have an NFC function, and NFC modules are generally added at the lock positions corresponding to the vehicle respectively to realize the function.

The remote control module is used for starting a vehicle or starting vehicle components, and the remote control is realized by sending a signal to wake up the intelligent private car signal receiving module through the data signal module of the car key and sending a starting or other operation instruction at the same time.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. Wearable automobile mobile control terminal equipment, which is characterized by comprising

The control terminal part (10) comprises a key shell (110), a magnetic component A (120) and an NFC induction chip A (130), wherein the magnetic component A (120) and the NFC induction chip A (130) are arranged in a cavity of the key shell (110);

a wrist band portion (20), wherein the wrist band portion (20) comprises a watch case (210), two watch bands (220), a magnetic component B (230) and an NFC induction chip B (240), the two watch bands (220) are respectively connected to two sides of the watch case (210) and can tie the watch case (210) to a wrist, the magnetic component B (230) and the NFC induction chip B (240) are arranged in a cavity of the watch case (210), and the key case (110) is adsorbed on the outer surface of the watch case (210) through the matching of the magnetic component A (120) and the magnetic component B (230).

2. The wearable automobile mobile control terminal device according to claim 1, wherein the key housing (110) is oval shaped, and a touch screen body (140) is embedded on the upper surface of the key housing.

3. A wearable automobile mobile control terminal device according to claim 1, wherein a key area (150) is provided on the key housing (110), the key area (150) includes a front shortcut key (151), a rear shortcut key (152), a left button (153) and a right button (154), the front shortcut key (151) and the rear shortcut key (152) are embedded on two sides of the upper surface of the key housing (110), and the left button (153) and the right button (154) are embedded on two long sides of the key housing (110).

4. The wearable automobile mobile control terminal device according to claim 1, wherein a control main board a (160) and a power layer a (170) are further accommodated in the cavity of the key housing (110), the power layer a (170) is electrically connected to the control main board a (160), the power layer a (170) includes a battery a and an NFC charging coil a, and the NFC charging coil a is electrically connected to the battery a.

5. The wearable automobile mobile control terminal device according to claim 4, wherein the NFC sensing chip A (130) is electrically connected to the control motherboard A (160).

6. The wearable automobile mobile control terminal device according to claim 1, wherein a display screen body (250) is embedded in the upper surface of the watch case (210).

7. The wearable automobile mobile control terminal device according to claim 1, wherein a control motherboard B (260) and a power layer B (270) are further housed in the cavity of the watch case (210), the power layer B (270) is electrically connected to the control motherboard B (260), the power layer B (270) includes a battery B and an NFC charging coil B, and the NFC charging coil B is electrically connected to the battery B.

8. The wearable automobile mobile control terminal device of claim 7, wherein the NFC sensing chip B (240) is electrically connected to the control motherboard B (260).

9. The wearable automobile mobile control terminal device according to claim 1, wherein the magnetic component a (120) and the magnetic component B (230) are magnets with their magnetic poles attracting each other.

10. The wearable automobile mobile control terminal device according to claim 1, wherein a watchband (220) is provided with a watchband hole at equal intervals, a clamping protrusion is mounted at the tail end of the other watchband (220), the clamping protrusion can be buckled in the watchband hole, and an adjusting notch for inserting one watchband (220) is further formed in the other watchband (220).

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