阅读说明：本技术 一种防止瞌睡装置 (Anti-doze device ) 是由 李成 于 2020-10-19 设计创作，主要内容包括：本公开的实施例提供一种防止瞌睡装置,这种防止瞌睡装置,可以有效的制止瞌睡,防止瞌睡装置,包括电击装置,电击装置启动时,对使用者实施安全电击,令使用者清醒,以防止使用者精神疲劳,避免因瞌睡引发安全事故。(The embodiment of the disclosure provides an anti-drowsing device, which can effectively stop drowsing and comprises an electric shock device, wherein when the electric shock device is started, a safe electric shock is carried out on a user to enable the user to be awake so as to prevent mental fatigue of the user and avoid safety accidents caused by drowsing.)

1. An anti-drowsing device is characterized by comprising an electric shock device, wherein the electric shock device is started to safely shock a user so as to enable the user to be awake.

2. The anti-drowsing device according to claim 1, further comprising a shock button, wherein depression of said shock button activates the shock device.

3. The anti-drowsing device according to claim 1, wherein the electric shock device has a stimulation voltage level divided into several levels from light to heavy; the generated safe voltage level can be the default of the system or can be set by the user in a safe range.

4. The anti-drowsing device according to claim 1, wherein the electric shock device comprises a waist electric shock device and a leg electric shock device.

5. The anti-drowsing device according to claim 1, wherein the electric shock device further comprises an arm electric shock device.

6. The anti-drowsing device according to claim 1, wherein the electric shock device is provided with a communication module; for example, the communication module is a bluetooth module, a WIFI module, a mobile telecommunication communication module, or the like; when the communication module contains the mobile telecommunication communication module, the program arranged on the electric shock device can send the doze information of the user to a remote third party receiving end.

7. The anti-drowsing device according to claim 1, comprising a pre-electric shock reminder, such as a voice reminder, or a vibration reminder, or a low-voltage electric shock reminder, to achieve a pre-sleepiness-prevention reminder function.

8. The anti-drowsing device of claim 1, wherein the safety shock duration is between 0.1 and 3 seconds.

9. The anti-drowsing device according to claim 1, wherein the safety current limiting means automatically stops the electric shock by opening the circuit when the current exceeds 10 ma.

10. The anti-drowsing device according to claim 1, comprising a usb interface connectable to a mobile phone for assisting in calculations using hardware and software resources of the mobile phone, and further comprising a usb connection or a cigarette lighter connection for accessing a power supply.

Technical Field

Embodiments of the present disclosure relate to an anti-drowsing device.

Background

The work and the life pressure in modern life are large, and at present, a plurality of people live in overload life and are easy to cause doze. Some people can be relieved from rest and rest at once, but some people cannot be relieved from rest and rest at once, for example, the people who drive a car can not go to a rest service area or a parking area can not stop to rest at once. The overtime rush schedule can be drowsy, and people who replace work can be found to rest at once. And so on, are numerous and insufficient. Therefore, how to avoid drowsiness is a problem in overload life. Under the condition, the anti-drowsing device is invented. So as to prevent the dozing of the people who drive and work.

Disclosure of Invention

The embodiment of the disclosure provides an anti-drowsing device, which is provided for some people in overload life to temporarily relieve the drowsing condition so as to avoid unnecessary accidents.

According to the national standard safety voltage, the output voltage is not more than 33V, and the output current is not more than 10 mA. The anti-drowsing device also comprises a safe current limiting device, and when the current exceeds 10 milliamperes, the circuit is disconnected, and electric shock is stopped.

The anti-drowsing device also comprises a switch button, and the user can press the switch button to forcibly turn off the turned-on electric shock device when the user wants to terminate the electric shock.

The stimulation voltage intensity of the electric shock device is divided into a plurality of grades from light to heavy; the generated safe voltage level can be the default of the system or can be set by a user in a safe range. The electric shock device comprises one or more of a waist electric shock device, a leg electric shock device and an arm electric shock device, and the electric shock device at the head part and the heart part is forbidden for safety.

The electric shock device is provided with a communication module; for example, the communication module is a bluetooth module, a WIFI module, a mobile telecommunication communication module, or the like; when the communication module contains the mobile telecommunication communication module, the program arranged on the electric shock device can send the doze information of the user to a remote third party receiving end.

A doze-off prevention device comprises a pre-electric-shock reminding device, wherein the reminding device is a voice reminding device, a vibration reminding device or a low-voltage electric-shock reminding device, and realizes a reminding function before sleepy prevention electric shock.

The utility model provides an anti-doze device, still includes the usb interface, can be connected with the cell-phone, utilizes the hardware and software resource of cell-phone, assists the operation, still includes the usb connecting wire or cigar lighter connecting wire for take the power.

The anti-drowsing device has the advantages that: for example, the anti-drowsing device is actively started when the driver is drowsy or tired, and the electric shock device stimulates the driver to keep the driver awake, so as to avoid traffic accidents caused by fatigue driving. The doze-proof device is actively started when the overloaded user is sleepy or in a fatigue state, and the electric shock device stimulates the sleepy user to keep clear and continuous work so as to avoid work errors and industrial injuries caused by the doze. The anti-drowsing device can effectively and automatically stop drowsing and keep the drowsing in a waking state within a certain time.

Drawings

Fig. 1 is a schematic view of an anti-drowsing device according to an embodiment of the present disclosure.

1. The usb interface is used for the purpose of,

2. a usb connection cord or a cigarette lighter connection cord,

3. a setting button for the electric shock parameters is provided,

4. a safety current-limiting device for a vehicle,

5. a button is switched on and off, and the switch is connected with the switch,

6.3.7V rechargeable lithium battery,

7. a communication module for communicating with the communication module,

8. the third-party receiving end is connected with the third-party,

9. a shock button is arranged on the electric shock device,

10. an electric shock device.

Detailed Description

According to the national standard safety voltage, the output voltage is not more than 33V, and the output current is not more than 10 mA. The output voltage of the present embodiment is divided into five steps, for example, 20 volts at first, 23 volts at second, 27 volts at third, 30 volts at fourth, 33 volts at fifth, and 10 milliamperes at output current, and we adopt 3.7 volts to charge the lithium battery 6 for safety. The present embodiment also includes a safety current limiting device 4, which breaks the circuit and stops the shock when the applied current exceeds 10 ma. The safety current limiting device 4 may be a current safety device. Or the device can be built by a singlechip, detects the current in real time and disconnects the circuit when the current exceeds 10 milliamperes, so as to protect the safety of a user.

The electric shock device 10 comprises a 3.7-volt rechargeable lithium battery 6; in this embodiment, the electric stun device 10 requires battery power, and the electric stun device 10 has a communication module 7 therein for use by a third party.

Anti-drowsing device As described, the electric stun device 10 includes a switch button 5, and is used when the user turns on the electric stun device 10 or forcibly turns off the electric stun device 10.

The anti-drowsing device comprises an electric shock device 10, when a user sleeps, the electric shock device 10 is actively started to safely shock the user, so that the user is awake.

In some examples, the stun device 10 further includes a stun button 9, and depressing the stun button 9 activates the stun device 10. The electric shock device 10 comprises one or more of a waist electric shock device, a leg electric shock device and an arm electric shock device.

In the anti-drowsing device, the stimulation voltage intensity of the electric shock device 10 is divided into a plurality of levels from light to heavy. The voltage level generated can be the default of the system or can be set by the user in a safe range.

According to the national standard safety voltage, the output voltage is not more than 33V, and the output current is not more than 10 mA. The anti-drowsing device also comprises a safety current limiting device 4 which cuts off the circuit and stops electric shock when the current exceeds 10 milliamperes. The user can also force the switch 5 on the electric shock device 10 to turn off.

The anti-drowsing device comprises one or more of a waist electric shock device, a leg electric shock device and an arm electric shock device. The electric shock alarm device is characterized by further comprising an electric shock reminding device, wherein the reminding device is a voice reminding device, or a vibration reminding device, or a low-voltage electric shock reminding device, and the reminding function before the sleepiness prevention safety electric shock is realized.

In some examples, a voice alert is added before the shock.

In some examples, a small voltage suggestive shock is delivered to the user prior to the shock.

In some examples, the pre-shock shake alert alerts the user that a shock is imminent.

The stun device 10 has a communication module 7. For example, the communication module is a bluetooth module, a WIFI module, a mobile communication module, or the like. When the communication module contains a mobile telecommunication communication module, the program arranged on the anti-sleepy device can send the doze information of the user to the remote third party receiving end 8.

The anti-drowsing device has the electric shock duration of 0.1-3 seconds. More preferably the shock duration is between 1-2 seconds.

The delayed electric shock mode can make the user concentrate on the attention and keep the user awake.

The anti-drowsing device comprises a usb interface 1 which can be connected with a mobile phone and assists in operation by utilizing hardware and software resources of the mobile phone.

The anti-drowsing device further comprises a usb connecting wire 2 or a cigarette lighter connecting wire 2 for taking a power supply.

The anti-drowsing device has the working mode that when a user feels drowsiness, the user actively presses the electric shock button 9 of the electric shock device 10, electric shock does not occur immediately when the button is pressed, but a time delay is provided, the purpose is to enable the user to feel the necessity of electric shock, the time delay from the time when the electric shock button is pressed to the time when the electric shock occurs is random, and the random nature of the time delay enables the user to know how long the electric shock is implemented, so that the user is provided with a nervous mood, the time of electric shock is delayed, the attention of the user can be highly concentrated, the user can be kept awake for a long time after being shocked, the delay time is in the range of 0-120 seconds, and the more preferable range of the electric shock delay time is in the range of 2-30 seconds.

This delay time t is determined randomly by the system of the anti-drowsing device, i.e. can take any value within 0-120 seconds, e.g. t =5, t =6.3, etc., indefinitely.

Or the value of the delay time t is determined by existing values in the database of the anti-drowsing device, that is to say by limited values existing in the database, for example 20 values set in the database within 0-120 seconds, then t can only take one of these 20 values per time.

When the user adjusts the setting shock parameter setting button 3 for the time t, the delay time can be selected by himself. For example, the levorotatory t of the nursing girl becomes smaller gradually, and the dextrorotatory t becomes larger gradually.

Alternatively, the magnitude of the delay time t, which is completely default by the system, occurs randomly, the user feels the necessity of an electric shock, creating a nervous psychological atmosphere for the user, and then the electric shock causes the user to be thoroughly awake.

The electric stun device 10 further includes electrodes that may be placed on the lumbar stun device, the leg stun device, the arm stun device, to stun different body parts of the user, and to disable placement on the head or heart. The electric shock device comprises an electrode which is a metal component and is used for contacting the skin of the body and shocking in a safe voltage range.

Before electric shock, voice prompt can be added to avoid excessive fright. Or a small voltage shock can be used as a reminder before the shock. A vibration function reminder may also be used. The user is reminded, and after a delay, the electric shock device 10 gives an electric shock according to preset parameters such as voltage.

The user can set the electric shock duration through the electric shock parameter setting button 3, or the electric shock duration is completely random, and the electric shock duration can not exceed 3 seconds. Also, the user may set the shock voltage within a safe range, or the shock voltage level may be randomized entirely within the set safe range. The voltage in the safety range means that the maximum voltage value is not more than 33 volts.

The user can set up button 3 through the electric shock parameter, and electric shock parameter sets up button 3 can be adjusting knob or button, adjusts the size of shock voltage by oneself. The user can also adjust the electric shock duration by himself through the adjusting button. The knob for adjusting the voltage and the knob for adjusting the duration of the shock may be two different knobs, or may be the same knob. When both functions are the same knob, the shock voltage and duration become larger and smaller simultaneously. For example, with the knob left-handed, the shock voltage is reduced and the duration of the shock is reduced. And the right-handed rotation of the adjusting button is also set, so that the electric shock voltage and the electric shock duration are gradually increased. In some examples, several gears are set by using keys, each pressing is to gradually increase the shock time and the voltage, and the standby state is entered by pressing again to the last gear.

When the electric shock device 10 is used, the process is that the user firstly uses the electric shock parameter setting button 3 to complete the setting of parameters such as the electric shock voltage level, the electric shock time, the reminding mode and the like of the electric shock device 10. The user feels sleepy and actively turns on the electric shock device 10 and presses the electric shock button 9.

The method comprises the following steps:

in the first stage, the user feels sleepy and actively presses the shock button 9 by using the electric shock device 10 alone.

And a second stage, entering a reminding function mode, reminding by sound, and reminding by one or a plurality of mixed modes of low-voltage electric shock reminding or vibration reminding to remind a user that the electric shock device 10 is started.

And in the third stage, waiting for the parameters set by the shock parameter setting button 3 to implement the shock.

And in the fourth stage, when the safe electric shock is waited for, the user is in a state of tension, and the attention is highly concentrated.

And in the fifth stage, safe electric shock is implemented.

In the sixth stage, the shock is terminated.

In the embodiment, the anti-drowsing device actively turns on the electric shock device 10 when the user is drowsy, so as to safely shock the user and enable the user to be awake.

The technology utilizes electric shock stimulation to enable a user to be awake, creates a nervous psychological atmosphere for the user, and enables the user to concentrate attention before electric shock so as to enable the user to keep awake for a long time.

The intensity of the stimulation voltage of the electric shock device 10 is divided into several levels from light to heavy. The voltage level to be generated may be a default of the system or may be set by the user himself using the shock parameter setting button 3.

The electric shock device 10 comprises one or more of a waist electric shock device, a leg electric shock device and an arm electric shock device.

The device comprises a communication module 7 which transmits doze information of a user to a remote third-party receiving end 8.

In some examples, a voice prompt is added before the shock to alert the user that a shock is imminent.

In some examples, a small voltage suggestive shock is delivered to the user prior to the shock to alert the user that a shock is imminent.

In some examples, the pre-shock device shocks to alert the user that a shock is imminent.

When shocking, the duration of the shock is between 0.1 and 3 seconds, for example, the duration of the shock is 1 second.

The anti-trapping device comprises a usb interface 1 which can be connected with the mobile phone and assists in operation by utilizing hardware and software resources of the mobile phone.

In some examples, a usb connection or cigarette lighter connection 2 is also included to connect with the usb interface 1 for accessing power.

Under the mode of user's initiative electric shock, the user pushes the electric shock button 9 voluntarily, the user is in the awake state this moment, only find oneself sleepy, avoid sleepy initiative to use, push the electric shock button 9 voluntarily, start electric shock device 10, go into the warning function after starting, the purpose is to remind this product to start, under the mode of this user's initiative electric shock, there is a time delay to carry out the electric shock again, wait for a time, let the user feel the necessity of electric shock, because of the fear of people to the electricity, this wait time user can get into nervous state, when people are nervous it is the most concentrated attention, can not be stranded when nervous, prevent sleepy purpose just so.