KR102061980B1 - Apparatus for sensing if a driver drives a car safely - Google Patents

Abstract

The present invention relates to a system for securing driver safety and preventing an accident during driving of a vehicle, and more specifically, to a system for securing driver safety and preventing an accident during driving of a vehicle, wherein a driver driving a vehicle displays the physical condition of the driver on the display device of the vehicle through a health checking device mounted on a steering wheel and a driver′s status is shared in real time by sending data to medical institutions and mobile devices. The system for securing driver safety and preventing an accident includes: a detection unit (100) mounted on a vehicle steering wheel and detecting a pulse signal; a controller (200) which receives the pulse signal and determines whether a driver is abnormal; and a transmitter (300) for transmitting a warning signal when the driver is abnormal.

Description

Driver safety and accident prevention system while driving a vehicle {APPARATUS FOR SENSING IF A DRIVER DRIVES A CAR SAFELY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driver safety and accident prevention system while driving a vehicle. In particular, a driver who drives a vehicle displays a driver's body state on a display device of a vehicle through a health checker mounted on a steering wheel, and transmits data to medical institutions and mobile devices. The present invention relates to a driver safety and accident prevention system while driving a vehicle, characterized by transmitting and sharing a driver's state in real time.

Recently, in order to obtain data for judging the situation at the time of a vehicle accident and the fault between the parties, research and development of a vehicle black box that records driving information such as vehicle speed has been actively conducted. In particular, the vehicle accident recorder, which has a camera in the vehicle and records the external situation at the time of the accident as image information, can identify the cause of the accident by using external image information before and after the accident as well as various driving information, have.

However, the vehicle driving recorder and the vehicle accident recorder using the image information and the driving information before and after the accident can be mounted on the vehicle to determine the cause of the accident, but such a device is only useful after the vehicle accident.

It would be very beneficial if a system could be used to prevent accidents using the data derived from these devices, or to provide a system to guide the driver in safe driving. In particular, heavy traffic accidents involving human injury are often caused by speeding, and the driver may sometimes drive without realizing that he or she is driving too fast. The utility of the system to derive

In addition, devices for analyzing pulse, blood pressure, or body composition, which generally measure physical condition, have been used independently as a fixed method. In the present invention, by measuring the physical state of the driver in a range that does not affect the driving in the natural driving state to determine the driver's health state to help the driver's safe driving.

Directly performing a pulse on the basis of oriental medical criteria determines the pulse of the examinee based solely on the subject's subjective sensation and experience, which may lower the reliability of diagnosis.

As a solution to this, the technical foundation for collecting objective pulse diagnosis results by using sensors that can search for signals that are more accurate than human senses, detecting accurate pulse information, and displaying them on an output device in three dimensions is provided. Can be evaluated

However, a visit to a hospital is essential in the case of an existing pulse diagnosis device or pulse wave inspection device. In particular, a hospital must be visited in order to diagnose or determine an adult condition such as blood vessel or stress by measuring and analyzing the pulse information. However, if you do not have time and mental room by living a busy life like a modern man, there is a problem that it delays the hospital room and eventually brings fatal consequences.

Accordingly, Korean Laid-Open Patent Publication No. 10-2011-0030159 discloses an apparatus and system for displaying a detected body signal on a vehicle display device through signal processing using an electrode device for detecting a body signal mounted on an automobile steering wheel. However, the system disclosed in the patent has a problem that is difficult to manage according to the limitation of the type of the body size of the driver and the detection result.

Korean Laid-Open Patent Publication No. 10-2011-0033582

The present invention provides an environment capable of measuring the physical condition within a safe range from the driving state of the driver.

In the present invention, as a driver's health diagnosis system including a driver's pulse rate, immunity index, stress index, autonomic dysfunction degree, provides a safe driving.

The present invention does not end only with a medical examination, and provides a driver's health care service by providing a danger notice to a driver as an alarm occurs when an abnormality occurs and transmitting it to a mobile device module and a medical server.

As a means for achieving the above object,

The present invention is mounted on the vehicle steering wheel, the detection unit 100 for detecting a pulse signal; A control unit 200 which receives the pulse signal and determines whether a driver is abnormal; A transmitter 300 which transmits the warning signal when an abnormality occurs to the driver; A receiver 500 for receiving an abnormal signal transmitted from the transmitter 300; A dust measuring means (1000) installed at one end of the handle of the vehicle to measure dust and outputting an alarm signal if the reference value is higher than the reference value; It is characterized in that it comprises an alarm signal output unit 2000 is electrically connected to the dust measuring means and outputs an alarm signal to the outside according to the control signal of the dust measuring means.

In addition, the dust measuring means, the infrared transmitting means (A) for emitting infrared rays, and is positioned to face the infrared transmitting means and receives the light emitted from the infrared transmitting means and the dust inflow according to the degree of the received amount Infrared receiving means (B) for judging and the dust measuring control unit (C) for controlling the input voltage of the infrared transmitting means (A) to increase if the output voltage of the infrared receiving means (B) is less than a set value ), Including; The infrared transmitting means (A) comprises: a concave lens group mounted with a plurality of concave lenses to limit the output of the infrared; An infrared transmitting element proximate to the concave lens group and outputting infrared rays; Is installed on one side of the concave lens group to flow the concave lens group to adjust the infrared output, if the ambient temperature is high according to the change in temperature flows the concave lens group to the left to pass infrared light through the lens with a low depression angle A shape memory spring for controlling the output to be high and controlling the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle; Located at the right end of the shape memory spring is characterized in that it comprises a fixing portion for supporting the movement of the shape memory spring.

In addition, the infrared transmitting means (A), the housing for receiving the shape memory spring and the fixing portion; It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means for inducing this force to be raised; It is installed on the inside of the housing, but installed on the other side of the shape memory spring to transfer the cooling heat to force the shape memory spring to contract to move the concave lens group to the right, thereby allowing the lens and the infrared with a high depression angle to pass through A thermoelectric element for inducing an infrared output to be forcibly lowered; It is electrically connected to the heat generating means and the thermoelectric element, and if there is a lot of dust control to operate to increase the infrared output, and if there is less dust to control the operation to lower the infrared output by operating the thermoelectric element; It is characterized by configuration.

In addition, the fixing part is provided in the housing (5) while being installed in the inside of the case to provide a resilience in both directions up and down, and the resilient spring is pushed up and down by the resilient spring is installed at the end of the resilient spring It is characterized by including a sliding ball (4b) that is temporarily fixed.

The driver warning system according to the present invention has the following effects.

According to the present invention, a health diagnostic device for detecting a body signal may be mounted on an automobile steering wheel to check a state during driving without disturbing driving by additional manipulation.

According to the present invention, when the body signal is out of the normal value, a warning is generated in the vehicle internal display to help safe driving.

The present invention can manage the driver's health state by transmitting the driver's body state to the mobile device module and the medical institution server module.

1 is a block diagram showing a driver health diagnosis system according to an embodiment of the present invention.
2 is a flowchart illustrating a state warning method of a driver medical diagnosis according to an embodiment of the present invention.
Figure 3 is an exemplary view showing the interior of the vehicle equipped with a driver health diagnostic device.
Figure 4 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.
5 is a conceptual diagram of an infrared ray transmitting means and an infrared ray receiving means constituting the dust measuring means of the present invention.
6 is a conceptual diagram of measuring dust using the infrared transmitting means and infrared receiving means of the present invention.
Figure 7 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.
Figure 8 is a second embodiment having a heat generating means, a thermoelectric element and a shape memory spring in the present invention.
Figure 9 is an embodiment of the fixing part in the present invention.
10 is a concave lens configuration applied to the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

In addition, preferred embodiments of the present invention to be carried out below are already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components already used in the prior art among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to appropriately modify the terms so that those skilled in the art to clearly understand the technical features of the present invention to effectively understand, but the present invention It is by no means limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following embodiments are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It's just

1 is a block diagram showing a driver health diagnosis system according to an embodiment of the present invention.

2 is a flowchart illustrating a state warning method of a driver medical diagnosis according to an embodiment of the present invention.

Figure 3 is an exemplary view showing the interior of the vehicle equipped with a driver health diagnostic device.

Figure 4 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.

5 is a conceptual diagram of an infrared ray transmitting means and an infrared ray receiving means constituting the dust measuring means of the present invention.

6 is a conceptual diagram of measuring dust using the infrared transmitting means and infrared receiving means of the present invention.

Figure 7 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.

Figure 8 is a second embodiment having a heat generating means, a thermoelectric element and a shape memory spring in the present invention.

Figure 9 is an embodiment of the fixing part in the present invention.

10 is a concave lens configuration diagram applied to the present invention,

Referring to FIG. 1, a detection unit 100 mounted on an automobile steering wheel, a detection unit 100 for detecting a pulse signal, a control unit 200 determining whether an error of a driver is received by receiving the pulse signal, and the warning signal when an error occurs in the driver Transmitting unit 300 for transmitting, the warning unit 400 for displaying the warning signal when the driver is abnormal, the receiving unit 500 for receiving the driver's status signal is a mobile device module 510 and the medical institution server module ( 520 may be formed.

The control unit 200 determines that the pulse rate is 60 to 100 times per minute or less in the normal range, and calculates the immunity index, the stress index, the degree of autonomic dysfunction.

The transmission unit 300 is a communication method between the mobile device module 510 and the control unit 200 module and the medical institution server module 520 is a short-range communication method (for example, Bluetooth, WiFi, NFC, RF, infrared, etc.) and long-distance communication method (Eg, 3G, 4G, LTE, etc.) at least one or more.

The warning unit 400 includes a display device that displays the warning signal when an error occurs in the driver.

The receiver 500 receives and stores the information calculated by the controller 200 and transmits the information to the mobile device module 510 and the medical institution server 520. In this case, the mobile device module 510 outputs a driver's status signal. Accordingly, the driver can check his or her physical condition in real time.

In addition, the medical institution through the server 520 may determine the state of the driver in the medical institution, and may transmit a notice.

2 is a flowchart illustrating a state warning method of a driver health diagnosis according to an embodiment of the present invention.

As shown in FIG. 2, a body signal of a driver is sensed and information is displayed through an in-vehicle display.

In case of abnormality is detected and an alarm is detected, an alarm is also displayed on the display. Anomalies are based on the driver's pulse rate ranging from 60 to 100 beats per minute. The stress index calculated by the controller 200 and the degree of autonomic dysfunction may be further included.

In addition, the mobile device module 510 and the medical institution server 520 through the communication network to check in real time.

3 is an example of the inside of a vehicle on which the driver medical diagnosis device is mounted.

It is a display device 700 for mounting inside a vehicle that measures the pulse signal from a body signal detector mounted on the handle 600 and is used for a purpose such as DMB or navigation.

On the other hand, the present invention further installs the dust measuring means 1000 at one end of the handle, and if it is determined that there is more than the standard dust as a result of the measurement of the dust measuring means 1000 through the alarm signal output unit 2000 As the fine dust inside the vehicle is above the standard value, the driver opens the window or induces the dust to be properly removed.

The dust measuring means 1000 of the present invention is positioned to face the infrared transmitting means (A) for emitting infrared rays and the infrared transmitting means, and receives the light emitted from the infrared transmitting means and according to the degree of the received amount An infrared receiver (B) for determining dust inflow and a dust measurement controller for controlling the input voltage of the infrared transmitter (A) to increase when the output voltage of the infrared receiver (B) is smaller than a set value (C) is made.

Then, the infrared ray transmitting means (A) receives the infrared ray transmission control signal from the dust measurement control unit (C) to determine the infrared ray amount and outputs the changed infrared ray amount.

That is, when the resultant value of the infrared receiver B is transmitted to the dust measurement controller C, the dust measurement controller C predicts the dust generation amount based on the data of the infrared receiver B, and according to the dust generation amount. By outputting a control signal to the infrared transmitting means (A) to control the amount of infrared transmission to guide the output.

That is, the dust measurement control unit reads the light quantity data output from the infrared receiving means, and automatically controls the light quantity of the infrared light emitting means based on this, so that the sensitivity control is automatically kept constant so that dust detection is optimal even in a contamination situation caused by dust. It is to keep the sensitivity and measure.

In other words, the dust measurement control unit C determines that the pollution degree is high when the amount of received light from the infrared receiver B is weak, and outputs a control signal to increase the amount of light from the infrared transmitter A for more accurate dust measurement. And, if the received light amount of the infrared receiver means (C) is too high, since there is no contamination or it is difficult to precisely measure, the control signal is output to lower the amount of light from the infrared transmitter (A). In other words, it is necessary to maintain the amount of infrared ray transmitting light in an appropriate state. Only then, the amount of infrared radiation measured by the infrared receiver can be accurate, so that dust generation can be predicted more precisely. Therefore, the dust amount data measured by the dust measurement control unit of the present invention can output a dust measurement result of high reliability.

The present invention includes a concave lens group (1) mounted with a plurality of concave lenses to limit the output of the infrared;

An infrared transmitting element (2) which is close to the concave lens group and outputs infrared rays;

Is installed on one side of the concave lens group to flow the concave lens group to adjust the infrared output, if the ambient temperature is high according to the change in temperature flows the concave lens group to the left to pass infrared light through the lens with a low depression angle A shape memory spring 3 which controls the output to be high and controls the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle;

Located at the right end of the shape memory spring is configured to include a fixing portion (4) for supporting the movement of the shape memory spring.

And, the housing (5) for receiving the spring and the fixing portion;

It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means 6 for inducing this force to be raised;

It is installed inside the housing but is installed on the other side of the shape memory spring (3) to transfer the cooling heat to force the shape memory spring (3) to shrink to move the concave lens group to the right, accordingly the lens with a high depression angle And a thermoelectric element 7 for inducing infrared rays to pass through to induce the infrared output to be forcibly lowered.

The transmission control unit 8 is electrically connected to the heat generating means and the thermoelectric element, and controls to increase the infrared output by operating the heat generating means when there is a lot of dust, and to reduce the infrared output by operating the thermoelectric element when there is little dust. Consists of including.

In addition, a plurality of holes 5a and 5b 5c are formed at the edge of the housing in which the fixing part 4 is positioned, and the magnet 9 is inserted into and coupled to the hole to set the position of the fixing part 4. Is done.

That is, the fixing part 4 is made of metal, and the magnet 9 is inserted into the hole to temporarily fix the fixing part. Accordingly, the area with low temperature is set by placing the magnet in the center hole 5b or the left hole 5a, and the area with high temperature is set by placing the magnet 9 in the center hole 5b or the right 5c. do.

Then, the position of the first transmission element 2 is located at the center of the concave lens group 1, and then expands and contracts according to the temperature change so that the concentration of dust can be accurately determined.

In addition, the fixing part 4 of the present invention can be configured to be coupled by one touch bar bar springs (4a) is installed in the inside of the fixing case, and the sliding ball (4b) is provided at the end of the ball springs It is configured to install, and configured to be coupled while clicking on the housing (5).

That is, holes are formed in the housing 5 at predetermined intervals, and the sliding balls 5b are temporarily coupled to the holes while moving the fixing part, and the sliding balls are unfolded from side to side by the action of the spring spring 4a. It is to maintain a fixed state.

Accordingly, it is possible to allow the user to freely adjust the position of the fixing portion.

According to the present invention, the output of the transmitting element 2 is automatically adjusted according to the change of temperature. The shape memory spring 3 is set to a basic temperature. The light is reduced and output, and when the temperature decreases, the shape memory spring 3 is reduced and the light of the transmitting element 2 is lowered and output.

That is, since the dust is distributed in the gas, the movement becomes active when the temperature rises, so that it is possible to check the dust concentration more precisely than when the output of the transmitting element 2 is lowered, and when the temperature decreases, the movement becomes dull. You can check the dust concentration more precisely than when you increased the output of 2).

Accordingly, the present invention allows the concave lens group 1 to flow to reflect the temperature change so that the dust concentration can be more accurately understood.

Referring to the actual operation, first, light of the transmitting element is output through the third concave lens 1c installed at the center of the concave lens group 1.

When the ambient temperature rises, the shape memory spring expands and is positioned on the right side of the third concave lens 1c, and at the same time, the second concave lens 1b having a recessed angle lower than that of the third concave lens 1c is located at the position of the transmitting element. Accordingly, the light output of the transmitting element 2 is lowered and output. When the ambient temperature decreases, the shape memory spring 3 contracts and is positioned on the left side of the third concave lens 1c, and at the same time, the fourth concave lens 1d having a depression angle higher than that of the third concave lens 1c is transmitted. At the position of the device 2, the light output of the transmission device 2 is increased, thereby outputting.

As described above, the present invention facilitates the change of the amount of light according to the movement of the dust by automatically expanding and contracting the shape memory spring 3 in response to the ambient temperature, so that the dust concentration can be detected more precisely, and the alarm output is more accurate. This is done.

On the other hand, the present invention is configured so that the transmission control unit 8 can determine the most accurate dust concentration by forcibly moving the concave lens group 1 in accordance with the dust concentration, even if there is no temperature change, the amount of light of the transmission element according to the dust concentration By adjusting, it is possible to determine the exact dust concentration.

That is, in the present invention, when the dust measurement control unit C outputs a control signal in order to facilitate the change of the amount of light of the infrared transmission means, the transmission control unit 8 recognizes this and drives the heat generating means 6 and the thermoelectric element 7. The most appropriate infrared transmission was made.

First, the infrared light is output through the third concave lens 1c basically installed at the center of the concave lens group 1, and when the infrared light needs to be reduced a little, the transmission control unit 8 generates the heating means 6. 2) concave lens group 1 is moved but the second concave lens is installed on the right side of the third concave lens 1c because the shape memory spring is expanded and the transmitting element 2 is fixed. As the lens 1b moves to the position of the transmitting element 2, the output light of the transmitting element is output through the second concave lens.

When the infrared light needs to be reduced and outputted more, the transmission control unit 8 operates the heat generating means 6 to generate more heat so that the shape memory spring 3 expands more, and thus the concave lens group 1 ) Moves, but the first concave lens (1a) is heated to move to the position of the transmitting element (2), thereby outputting the light of the transmitting element (2) through the first concave lens (1a).

When the infrared light is to be raised and output, the transmission control unit 8 drives the thermoelectric element 7 to generate cooling heat so that the shape memory spring 3 is contracted, and thus the concave lens group 1 is moved. The fourth concave lens 1d, on which the left side of the third concave lens 1c is provided, is positioned in the transmitting element, and thus the light of the transmitting element 2 is output through the fourth concave lens 1d.

In addition, when the infrared light needs to be higher and output, the transmission control unit 8 drives the thermoelectric element 7 to generate more cooling heat, thereby causing the shape memory spring 3 to contract more. ) Is moved but the fifth concave lens 1e is moved to the position of the transmitting element 2, whereby the light of the transmitting element 2 outputs light through the fifth concave lens 1e.

In addition, the concave lens group is designed to vary the degree of output of the infrared light according to the depression angle of the center portion, the third concave lens (1c) is basically installed at the center of the operating rod to form a depression angle of 25 degrees.

The second concave lens 1b is used when the infrared light needs to be slightly reduced and output. The second concave lens 1b is provided on the right side of the third concave lens 1c to form a depression angle of 15 degrees.

In addition, the first concave lens 1a is used when the infrared light is to be reduced and output more, and is installed on the right side of the second concave lens 1b to form a depression angle of 5 degrees.

In addition, the fourth concave lens 1d is used in the case where the infrared light is to be further raised and output, and the fourth concave lens 1d is installed on the left side of the third concave lens 1c to form a depression angle of 35 degrees.

In addition, the fifth concave lens 1e is used in the case where the infrared light needs to be increased to output more, and is installed on the left side of the fourth concave lens 1d to form a depression angle of 45 degrees.

100: detector
200: control unit
300: transmitter
400: warning unit
500: receiver
510: mobile device module
520: medical institution server module

Claims (4)

A detection unit 100 mounted on an automobile steering wheel and configured to detect a pulse signal;
A control unit 200 which receives the pulse signal and determines whether a driver is abnormal;
A transmitter 300 which transmits the warning signal when an abnormality occurs to the driver;
A receiver 500 for receiving an abnormal signal transmitted from the transmitter 300;
A dust measuring means (1000) installed at one end of the handle of the vehicle to measure dust and outputting an alarm signal if the reference value is higher than the reference value;
An alarm signal output unit 2000 electrically connected to the dust measuring means and outputting an alarm signal to the outside according to a control signal of the dust measuring means;

The dust measuring means,
An infrared ray transmitting means (A) for emitting infrared rays, and an infrared ray receiving means for facing the infrared ray transmitting means and receiving the light emitted from the infrared ray transmitting means and determining the inflow of dust according to the amount of the received amount (B) and a dust measuring control unit (C) for controlling the input voltage of the infrared transmitting unit (A) to increase when the output voltage of the infrared receiving unit (B) is smaller than a set value;
The infrared transmitting means (A),
A concave lens group in which a plurality of concave lenses are mounted to limit the output of infrared rays;
An infrared transmitting element proximate to the concave lens group and outputting infrared rays;
It is installed on one side of the concave lens group to flow the concave lens group to adjust the infrared output, but if the ambient temperature is high according to the change in temperature, the concave lens group flows to the left to allow infrared light to pass through the lens with a low depression angle A shape memory spring for controlling the output to be high and controlling the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle;
Located at the right end of the shape memory spring comprises a fixing portion for supporting the movement of the shape memory spring;

The infrared transmitting means (A),
A housing accommodating the shape memory spring and the fixing part;
It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means for inducing this force to be raised;
It is installed on the inside of the housing, but installed on the other side of the shape memory spring to transfer the cooling heat to force the shape memory spring to contract to move the concave lens group to the right, thereby allowing the lens and the infrared with a high depression angle to pass through A thermoelectric element for inducing an infrared output to be forcibly lowered;
It is electrically connected to the heat generating means and the thermoelectric element, and if there is a lot of dust control to operate to increase the infrared output, and if there is less dust to control the operation to lower the infrared output by operating the thermoelectric element; Construct;

The fixing portion,
An elastic spring 4a installed inside the case to provide elasticity in both up and down directions, and a sliding ball temporarily installed in the housing 5 while being pushed upward and downward by the elastic spring to be installed at an end of the elastic spring ( Driver safety and accident prevention system while driving a vehicle, characterized in that it comprises a 4b). delete delete delete

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