KR102059803B1 - Secondary accident prevention system using silicon lighting - Google Patents

Abstract

The present invention provides a secondary accident prevention system capable of preventing a secondary accident by radiating silicon lighting toward the rear of a vehicle when an accident occurs and enabling a driver in the rear to recognize the accident as the radiated silicon lighting emits light. According to the present invention, the secondary accident prevention system includes: the silicon lighting enabling the driver in the rear to recognize the accident by emitting the light when being radiated toward the rear of the vehicle; a launch pad accommodating the silicon lighting and installed in the vehicle, wherein the launch pad radiates the light accommodated toward the rear of the vehicle; a sensing unit sensing impulse applied to the vehicle; and a control unit generating a radiation signal based on the sensed impulse applied to the vehicle or a request of the driver and driving the launch pad when the radiation signal is generated. Therefore, the secondary accident prevention system can prevent the secondary accident and guarantee the safety of the driver of the accident vehicle by enabling the vehicle in the rear to recognize the accident even if the driver of the accident vehicle does not install a tripod and perform a hand signal when the accident of the vehicle occurs.

Description

Secondary accident prevention system using silicon lighting

The present invention relates to a secondary accident prevention system using silicon lights, and more particularly, to cause the silicon lights to be fired toward the rear of the vehicle when an accident occurs, and the fired silicon lights emit light to recognize the accident of the driver behind the vehicle. A secondary accident prevention system is provided so that secondary accidents are prevented by doing so.

In general, a vehicle on the highway runs at a high speed of more than 100 km / h, so if an accident occurs ahead, the driver may not be aware of it, or may be late and may collide with a stopped accident vehicle. The likelihood of a car crash is very high.

In particular, since the fatality rate of the secondary collision accident is about six times higher than that of general accidents, serious damage occurs when the secondary collision accident occurs, so measures to prevent the secondary collision accident are required.

Conventional measures to prevent secondary collision accidents include a method in which a driver of an accident vehicle installs a tripod at the rear of the accident vehicle or the driver directly receives a signal to recognize the accident in the rear vehicle. In the process of installing a tripod and receiving a hand signal, there is a problem that the driver of the accident vehicle must take the risk of a second crash.

Therefore, research and development of a secondary accident prevention system that can recognize the accident fact to the vehicle behind while ensuring the safety of the driver of the accident vehicle is required.

Korean Registered Patent No. 10-1681525 "Emergency warning display device for vehicle using laser"

The present invention has been made to solve the above problems, an object of the present invention is to enable the driver of the accident vehicle to recognize the accident to the rear vehicle even if the driver of the accident vehicle does not install a tripod and receive a hand signal Therefore, to provide a secondary accident prevention system using silicon lighting to prevent secondary accidents while ensuring the safety of the driver of the accident vehicle.

In order to achieve the above object, the secondary accident prevention system according to an embodiment of the present invention includes a silicon light that emits light when fired toward the rear of the vehicle so that the driver of the rear recognizes the accident; A launch pad mounted to the vehicle to receive the silicon light and to drive the received light toward the rear of the vehicle when driven; A detector configured to detect an amount of impact applied to the vehicle; And a controller configured to generate a firing signal based on a driver's request or an amount of impact applied to the sensed vehicle, and to drive the launching table when the firing signal is generated.

At this time, the silicon illumination, a polyhedron-shaped body made of silicon; An impact sensor positioned inside the body to sense an impact applied to the silicon light; An LED module configured to be lit when a shock greater than or equal to a threshold value is detected from the shock sensor, and thus lit when the silicon light is fired and collides with the ground; And a battery supplying power to the LED module.

And the launch pad, the first housing to cover the top of the launch pad to be in a closed state; And a second housing coupled to the first housing in an open top and covered with an upper end, and fixed to the vehicle, wherein the first housing has a connection member and a first rotating shaft provided at one lower end of the connection member. Is coupled to an upper end of one side of the second housing by the first rotating shaft, and rotates with respect to the first rotating shaft in the closed state to be in an open state, and one side is in close contact with one side of the second housing. Together with the second housing may form a launch path of the silicon illumination.

The first housing may further include a first elastic member provided to surround the first rotation shaft, and configured to press the lower surface of the first housing and the upper surface of the second housing to be in the open state. The second housing may include a locking member configured to hold the upper surface of the first housing so that the closed state is maintained, and the control unit may release the locking member when the firing signal is generated. It can be left open.

The first housing further includes a protruding member provided to protrude from one side of the outer surface, and the second housing includes: an opening formed through a hole formed at one side of the first housing to be in contact with the protruding member; A first pressing member provided at a first state in which the one end is in close contact with one inner surface of the first housing in the closed state; A second pressing member fixed in a retracted state by being pressed in close contact with the other end of the first pressing member in the first state; And a second elastic member configured to press the second pressing member at the other end of the second pressing member, wherein the silicon light is accommodated in close contact with the retracted second pressing member in the first state. When the protruding member is in the open state, the protruding member presses the first pressing member so that one end of the first pressing member is in a second state spaced apart from an inner surface of the one side of the second housing. When the first pressing member is in the second state, the close contact with the second pressing member is released, and when the close contact with the first pressing member is released, the second pressing member is applied to the pressing of the second elastic member. The received silicon light can be fired by the force advanced by the.

The first pressing member may further include: a first vertical surface having a front surface in close contact with an inner surface of one side of the first housing in the first state; A first horizontal surface formed to protrude perpendicularly from the lower end of the rear surface of the first vertical surface to form a 'b' shape together with the first vertical surface; And a second rotating shaft formed at a lower end of the first vertical surface, wherein the second pressing member comprises: a second horizontal surface in which one end is in close contact with an end of the first horizontal surface in the first state; And a second shape formed to protrude perpendicularly from the other upper surface of the second horizontal surface to the second horizontal surface to form a 'b' shape together with the second horizontal surface, and the back surface being pressed by the second elastic member. And a second vertical surface, wherein the silicon light is received to be in close contact with the front surface of the second vertical surface in the first state, and the first vertical surface has an upper end of the front surface pressed against the protruding member. And rotates with respect to the second rotational axis so as to be spaced apart from an inner surface of one side of the second housing so as to be in the second state, and when the second horizontal state is in the second state, the end is rotated in the downward direction so that the second side is rotated. When the close contact with the horizontal surface is released, and the close contact with the first horizontal surface is released from the second vertical surface, the back surface is pressurized by the pressing of the second elastic member to advance the force. Wheat on the front as above The silicon can be such that one trillion people firing.

The launch pad may further include a cylindrical feed roller positioned at the launch paths of the first housing and the second housing to reduce friction of the silicon lighting to be launched.

The control unit may generate an abnormal signal when an impact amount of a predetermined value or more is detected from the sensing unit in an initial state, and determine an abnormal state of the vehicle when the abnormal signal is generated, and determine that the vehicle is not an abnormal state. When it is determined that the release signal is generated to return to the initial state, when it is determined that the vehicle is in an abnormal state, the launch signal may be driven by generating the firing signal.

The controller may determine that the vehicle is not in the abnormal state when the vehicle is operated within a preset time from the time when the abnormal signal is generated, but is in the abnormal state when the vehicle is not operated within the preset time. You can judge.

As a result, when an accident occurs, the driver of the accident vehicle can recognize the accident behind the vehicle without installing a tripod and receiving a hand signal, thereby preventing secondary accidents while ensuring safety of the driver of the accident vehicle. .

In addition, the silicon light is made of a soft material to prevent the rear vehicle from interfering with the driving of the rear vehicle or to damage the rear vehicle even when the rear vehicle is hit or the vehicle is stepped on.

In addition, it is possible to prevent the firing of the silicon light in a situation where the firing of the silicon light is not necessary, thereby preventing the meaningless consumption of the silicon light.

1 is a block diagram schematically illustrating a secondary accident prevention system using silicon lighting according to an embodiment of the present invention.
2 is a view illustrating in more detail the silicon lighting and the launch pad according to an embodiment of the present invention.
3 is a view illustrating a silicon lighting according to another embodiment of the present invention.
4 is a diagram illustrating the control unit according to an embodiment of the present invention in more detail.
5 is a view illustrating in more detail the silicon lighting according to an embodiment of the present invention.
6 is a view illustrating in more detail the launch pad according to an embodiment of the present invention.
FIG. 7 is a view illustrating a process of firing silicon light from a launch pad according to an embodiment of the present invention.
8 is a view illustrating a launch pad according to another embodiment of the present invention.
9 is a flowchart illustrating a process of generating a firing signal according to an embodiment of the present invention.
10 is a flowchart illustrating a generation process of a release signal in more detail according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in more detail with respect to the present invention. The embodiments introduced below are provided as an example to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The invention is not limited to the embodiments described below and may be embodied in other forms. Parts not related to the description are omitted in the drawings in order to clearly describe the present invention, in the drawings, the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals denote like elements throughout the specification.

FIG. 1 is a block diagram schematically illustrating a secondary accident prevention system using silicon lighting according to an embodiment of the present invention, and FIG. 2 is a launch pad of the silicon lighting 100 according to an embodiment of the present invention. Figure 200 is a view showing a state that is fired, Figure 3 is a view showing a state in which the silicon light 100 is launched from the launch pad 200 according to another embodiment of the present invention, Figure 4 is a view of the present invention FIG. 5 is a diagram illustrating the operation characteristics of the control unit 400 in more detail, and FIG. 5 is a diagram illustrating the silicon lighting 100 according to an embodiment of the present invention in more detail. to be.

Hereinafter, a secondary accident prevention system (hereinafter referred to as a 'secondary accident prevention system') using silicon lighting according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 5.

In the second accident prevention system according to an embodiment of the present invention, when the accident occurs, the driver of the accident vehicle can recognize the accident to the rear of the vehicle without the installation of the tripod and the hand signal, the driver of the accident vehicle It is designed to prevent secondary accidents while ensuring safety.

To this end, the secondary accident prevention system according to the present embodiment includes a silicon lighting 100, launch pad 200, the sensing unit 300 and the control unit 400.

The silicon light 100 is accommodated in the launch pad 200 and is fired toward the rear of the vehicle when an accident occurs, and is emitted to emit light when launched from the launch pad 200 so that the driver behind the vehicle recognizes the accident.

To this end, the silicon light 100 may include a body 110, an impact sensor 120, an LED module 130, and a battery 140.

The body 110 may configure an external shape of the silicon light 100 and accommodate the shock sensor 120, the LED module 130, and the battery 140 therein.

The body 110 may be made of silicon so that the rear vehicle may not be damaged even when the silicon light 100 collides with the vehicle in the rear or presses the launched silicon light 100 in the process of being fired at the rear of the vehicle. Damage to the silicon light 100 can also be prevented.

In addition, the body 110 is formed in the shape of a polyhedron can be seated without rolling even when launched on an inclined road.

The shock sensor 120 may be provided to detect a shock applied to the silicon light 100 and positioned inside the body 110, and the LED module 130 may critically detect a shock detected by the shock sensor 120. If the impact is over the value, it can be turned on and emit light.

The battery 140 may be connected to the LED module 130 in the body 110 to supply power to the LED module 130.

Specifically, when the silicon light 100 is launched from the launch pad 200, the impact sensor 120 is shocked by the pressure applied by the launch pad 200 or the impact generated by the collision with the ground after the launch. In this case, the LED module 130 may be turned on to emit light by the detected shock, and thus, the silicon light 100 may emit light only after being fired toward the rear of the vehicle.

In addition, the silicon light 100 may be provided with a speaker (not shown) inside the body 110 when the shock sensor 120 detects a shock of more than a threshold value to output an alarm sound.

The launch pad 200 is mounted to the vehicle and provided with the silicon light 100 to be accommodated therein, and is provided to launch the accommodated silicon light 100 toward the rear.

To this end, the launch pad 200 may include a first housing 210 and a second housing 220, and other detailed descriptions of the launch pad 200 will be described later with reference to FIGS. 6 to 7. .

The detection unit 300 is provided to detect an amount of impact applied to the vehicle on which the launch pad 200 is mounted, and the control unit 400 generates a firing signal based on the amount of impact applied to the detected vehicle, and when the firing signal is generated It is provided to control the launch pad 200 so that the launch pad 200 is driven, and other detailed description of the control unit 400 will be described later with reference to FIGS. 9 to 10.

In summary, the secondary accident prevention system according to an embodiment of the present invention, when an accident occurs in the vehicle, the sensing unit 300 detects an impact amount due to the accident, and the control unit 400 detects by the sensing unit 300. A launch signal is generated based on the amount of impact so that the launch pad 200 mounted on the vehicle is driven. When the launch pad 200 is driven, the silicon light 100 is fired toward the rear of the vehicle by the launch pad 200, and the LED module 130 of the silicon light is impacted by the impact of the launch or the impact of the ground after the launch. By turning on and emitting light, the driver of the vehicle behind the accident can recognize the accident.

As a result, the secondary accident prevention system according to the present embodiment can recognize the accident to the vehicle behind the vehicle even when the driver of the accident does not install the tripod and receive a hand signal when the accident occurs. To prevent secondary accidents.

As shown in FIG. 3, a plurality of silicon lights 100 are mounted and fired on a single launch pad 200 as needed, so that more silicon lights 100 are fired and scattered, thereby allowing the driver of the rear to further expand. You can easily recognize the accident.

And the launch pad 200 may be installed on the outside of the roof, the trunk upper surface, etc. of the vehicle, as shown in Figure 4 may be installed in the interior space of the trunk.

When the launch pad 200 is installed in the interior space of the trunk, the control unit 400 may allow the launch pad 200 to be driven after the trunk is opened when a launch signal is generated, whereby the launch pad 200 may be flooded. ), And even if the silicon light 100 is fired by a malfunction during driving, the fired silicon light 100 is fired into the interior of the trunk so as not to disturb the driving of the rear vehicle by the malfunction.

6 is a view showing a state in which the launch pad 200 is closed according to an embodiment of the present invention, Figure 7 is a launch pad 200 according to an embodiment of the present invention is opened, the silicon light 100 is launched It is a figure which shows the state to make.

Hereinafter, the launch pad 200 according to an embodiment of the present invention will be described in more detail with reference to FIGS. 6 to 7, and the process of launching the silicon light 100 from the launch pad 200 will be described.

Launch pad 200 according to an embodiment of the present invention is mounted on the vehicle as described above, so that the silicon light 100 is accommodated therein, the first housing for firing the received silicon light 100 toward the rear 210 and the second housing 220 may be included.

The first housing 210 is coupled to the second housing 220 and covers the upper surface of the second housing 220 so that the launch pad 200 is closed, or the upper surface of the second housing 220 is opened so that the launch pad ( 200 is provided to be in an open state.

To this end, the first housing 210 may include a connection member 211, a first elastic member 212 and a protruding member 213.

The connection member 211 is provided to protrude on one side lower end of the first housing 210 so that the first housing 210 is coupled to the second housing 220, and may be provided in pairs on both sides thereof. In addition, the first housing 210 is coupled to the second housing 220 by the first rotation shaft 211a so that the first housing 210 is rotated and opened based on the first rotation shaft 211a.

That is, the first housing 210 is coupled to the second housing 220 by the first rotation shaft 211a provided in the connection member 211 and the connection member 211, based on the first rotation shaft 211a It may be rotated to cover or open the top surface of the second housing 220.

In addition, when the first housing 210 is rotated with respect to the first rotation shaft 211a to be in an open state, one side of the first housing 210 may be in close contact with one side of the second housing 220 and the silicon housing together with the second housing 220. The launch path r from which the 100 is launched may be formed.

In detail, the inner upper surface of the first housing 210 and the inner lower surface of the second housing 220 in the closed state are connected in parallel to each other in an open state so that the firing path r of the silicon light 100 is fired. ) Can be formed.

The first elastic member 212 is provided to surround the first rotation shaft 211a, and presses a lower surface of one side of the first housing 210 and an upper surface of one side of the second housing 220 to be in an open state. Serves to add

The protruding member 213 is provided to protrude from an outer surface of one side of the first housing 210 and is provided to press the first pressing member 223 to be described later when the first housing 210 is opened.

The second housing 220 is provided so that the launch pad 200 is fixed to the vehicle, and when the launch pad 200 is driven, the silicon illuminator 100 is fired toward the rear of the vehicle by applying a force to the silicon illuminator 100.

To this end, the second housing 220 has a lower surface fixed to the vehicle, the upper end of which is coupled to the first housing 210 so that the upper end thereof is covered by the first housing 210, and the locking member 221. , An opening hole 222, a first pressing member 223, a second pressing member 224, and a second elastic member 225.

The locking member 221 is provided to determine whether the first housing 210 is open.

The catching member 221 is provided to catch the upper surface of the first housing 210 to maintain the closed state without opening the first housing 210 by the first elastic member 212, the control of the control unit 400 When driven by, the first housing 210 may be opened by the first elastic member 212 by releasing the latch.

In this case, although not shown in the drawing, the locking member 221 may be connected to a driving module (not shown) such as a motor to release the locking by driving the driving module (not shown) under the control of the controller 400.

The opening hole 222 is formed by being drilled on one side of the first housing 210 which is in contact with the protruding member 213 in the open state, so that one side of the first housing 210 and the second housing 220 in the open state. When one side of the close contact, the protruding member 213 may be inserted into the second housing 220 through the opening hole 222.

Here, the protruding member 213 may be formed to protrude longer than the thickness of the outer wall of one side of the second housing 220 to be inserted into the second housing 220 through the opening hole 222 in the open state. have.

The first pressing member 223 presses the second pressing member 224 in the closed state to maintain the first state in which the second pressing member 224 is retracted, and the second pressing member 224 in the open state. Is released to release the pressure, so that the second pressing member 224 is in a second state to enable advancement.

To this end, the first pressing member 223 may include a first vertical surface 223a, a first horizontal surface 223b, and a second rotation shaft 223c.

The first vertical surface 223a may have a surface having a length perpendicular to the ground in order to be pressed by the protruding member 213 in an open state.

The first horizontal surface 223b may be formed to protrude perpendicularly from the lower surface of the rear surface of the first vertical surface 223a to the first vertical surface 223a.

That is, the first vertical surface 223a and the first horizontal surface 223b are connected to each other to form a 'b' shape when viewed from the side.

The second rotating shaft 223c may be formed at a lower end of the first vertical surface 223a to allow the first pressing member 223 to rotate at a predetermined angle about the second rotating shaft 223c.

In the state in which the first housing 210 is closed, the first vertical surface 223a is in close contact with an inner surface of one side of the first housing 210, and the first horizontal surface 223b has an end of the second pressing member. By pressing in close contact with one end of the 224, the second pressing member 224 may maintain the first state to maintain the retracted state.

At this time, only the upper end of the front surface of the first vertical surface 223a is in close contact with one inner surface of the first housing 210 such that the lower end of the front surface is not caught by one inner surface of the first housing 210 when rotating in the lower direction. can do.

In addition, in the state in which the first housing 210 is opened, the first vertical surface 223a is pressed against the protruding member 213 through which the upper end of the front surface passes through the opening hole 222, based on the second rotation shaft 223c. The second pressing member is spaced apart from one inner surface of the second housing 220 by being rotated downward, and the connected first horizontal surface 223b is also rotated downward to be spaced apart from one end of the second pressing member 224. 224 may be in a second state such that pressurization to 224 is released.

The second pressing member 224 is pressed by the first pressing member 223 in the closed state of the first housing 210 to maintain the first state retracted, but the silicon stored in close contact with the received silicon light 100 In the state in which the lighting 100 is loaded and the first housing 210 is opened, the pressure by the first pressing member 223 is released and the second state is advanced by the pressing of the second elastic member 225. By doing so, it is provided to allow the received silicon light 100 to be fired through the forwarding force.

To this end, the second pressing member 224 may include a second horizontal surface 224a and a second vertical surface 224b.

The second horizontal surface 224a has a length surface in a direction parallel to the ground, and the second vertical surface 224b is formed to protrude perpendicularly from the other upper surface of the second horizontal surface 224a to the second horizontal surface 224a. The second horizontal surface 224a and the second vertical surface 224b are connected to each other to form a 'b' shape when viewed from the side.

Here, the first pressing member 223 and the second pressing member 224 may be positioned in a symmetrical shape where the ends of the respective transverse surfaces face each other.

The second elastic member 225 presses the second pressing member 224 on the rear surface of the second vertical surface 224b to apply a force such that the second pressing member 224 is advanced.

The second pressing member 224 has one end of the second horizontal surface 224a in close contact with the other end of the first horizontal surface 223b in the state where the first housing 210 is closed, thereby pressing the second vertical surface 224b. Even if the back surface of the) is pressed by the second elastic member 225, the retracted first state may be maintained without being advanced.

In addition, when the first housing 210 is opened, the second pressing member 224 releases the pressure from the first horizontal surface 223b applied to the second horizontal surface 224a to release the second elastic member ( 225 may be advanced by the second state.

In this case, in the process of changing from the first state to the second state, the silicon light 100 that is received to be in close contact with the second vertical surface 224b may be fired by the force that the second vertical surface 224b advances.

In order to return the second housing 220 back to the first state from the second state, the second housing 220 includes a locking member 221, an opening hole 222, a first pressing member 223, and a second pressing member 224. In addition to the second elastic member 225, a third elastic member (not shown) may be further provided.

The third elastic member (not shown) may be provided to press the lower surface of the first pressing member 223 to allow the first pressing member 223 to return from the second state to the first state.

When a third elastic member (not shown) is provided, the lower surface of one side of the second pressing member 224 presses the upper surface of the first pressing member 223 in the second state so that the first pressing member 223 is arbitrarily made. When the second pressing member 224 is retracted by an external force, the pressure against the first pressing member 223 is released and the third elastic member (not shown) is prevented from returning to the first state. 223 may be pressed upward to return from the second state to the first state.

When the process of firing the silicon light 100 is arranged, the silicon light 100 is received to be in close contact with the front surface of the second horizontal surface 224a in a state where the first housing 210 is closed. The housing 210 may maintain the closed state by catching the locking member 221 on the upper surface.

In addition, the first pressing member 223 has a front surface of the first vertical surface 223a provided at one side of the first pressing surface 223a in close contact with an inner surface of one side of the second housing 220, and an end of the first horizontal surface 223b provided at the other side thereof. By pressing one end of the second horizontal surface 224a, the second pressing member 224 may be maintained in a retracted state.

If a vehicle accident occurs and an impact is detected by the detector 300, the controller 400 may generate a firing signal based on the detected amount of shock and allow the launch pad 200 to be driven.

When the launch pad 200 is driven, the locking member 221 is driven to release the locking, and the first housing 210 is opened by a force applied from the first elastic member 212, so that the upper surface of the second housing 220 is opened. One side surface may be in close contact with one side surface of the second housing 220 in a state in which it is covered to be an open state in which the firing path r of the silicon light 100 is formed.

When the second housing 220 is in the open state, the protruding member 213 penetrates through the opening hole 222 to press the first horizontal surface 223b of the first pressing member 223, and the first pressing member ( The 223 is rotated downward based on the second rotation shaft 223c such that the force that presses one side of the second pressing member 224 is in a second state in which pressure is released.

When the pressurization from the first pressurizing member 223 is released, the second pressurizing member 224 is advanced by the second elastic member 225 pressed to the other side to be in a second state, and at this time, the second pressurizing member 224 As the force is applied to the silicon light 100 accommodated in close contact with the second pressing member 224 in the process of advancing, the silicon light 100 may be launched through the firing path r.

8 is a view illustrating a launch pad 200 according to another embodiment of the present invention.

Launch pad 200 according to another embodiment of the present invention is provided to reduce the friction in the process of firing the silicon light 100 so that the silicon light 100 is launched to a far distance.

To this end, the launch pad 200 according to another embodiment of the present invention may include a plurality of feed rollers in addition to the opening hole 222, the first housing 210, and the second housing 220.

The plurality of feed rollers are provided to be rotatable in a cylindrical shape, and are positioned in the firing paths r of the first housing 210 and the second housing 220, and the firing paths r when the silicon light 100 is launched. By reducing friction with the silicon light 100 can be fired to a farther distance.

9 is a flowchart illustrating a process of generating a firing signal according to an embodiment of the present invention, and FIG. 10 is a view illustrating in detail the process of generating a release signal according to an embodiment of the present invention. It is a flow chart.

Hereinafter, operation characteristics of the controller 400 according to an exemplary embodiment of the present invention will be described in more detail with reference to FIGS. 9 to 10.

The control unit 400 according to an embodiment of the present invention generates a firing signal based on the amount of impact applied to the detected vehicle as described above, and when the firing signal is generated, the launching unit 200 is driven by controlling the launching unit 200. It is prepared to ensure that.

The control unit 400 may generate the firing signal as soon as the impact amount of the predetermined value or more is detected from the sensing unit 300 so that the launch pad 200 may be driven. In preparation for situations where no launch is required, the vehicle may further check the condition of the vehicle and generate a launch signal.

The controller 400 may determine whether an impact of a predetermined value or more is detected from the detector 300 (S910).

If a shock of more than a predetermined value is not detected (S910-N), the controller 400 waits until a shock of more than a predetermined value is detected, and if a shock of more than a predetermined value is detected (S910-Y), the controller 400 generates an abnormal signal. It may be (S920).

When an abnormal signal is generated, the controller 400 determines whether the vehicle is in an abnormal state (S930), and when it is determined that the vehicle is not in an abnormal state (S930-N), generates a release signal (S940) before the impact is detected. You can return to the initial state.

If it is determined that the vehicle is in an abnormal state (S930-Y), the control unit 400 generates a firing signal (S950), so that the launch pad 200 is driven (S960) and the silicon lighting 100 launch pad 200. In order to be launched toward the rear of the vehicle by (S970).

In this case, the controller 400 may determine that the vehicle is not in an abnormal state when the vehicle is driven within a preset time from the time when the abnormal signal is generated, but may determine that the vehicle is in the abnormal state when the vehicle is not operated within the preset time. have.

Thereby, after the vehicle has a minor accident, it is possible to prevent the silicon lighting 100 from being fired in a situation where the driver's direct driving of the vehicle to move to a safe position from the secondary accident is meaningless.

On the other hand, the control unit 400 according to an embodiment of the present invention can prevent the silicon light 100 is not fired when the driver does not want to fire the silicon light (100).

To this end, the secondary accident prevention system according to an embodiment of the present invention is a release button (not shown) and the output unit (not shown) in addition to the silicon lighting 100, launch pad 200, the sensing unit 300 and the control unit 400 May further include).

The release button (not shown) may be positioned in the driver's seat and pressed by the driver, and may be connected to the controller 400 by wireless or wired.

In addition, the release button (not shown) may be provided separately, or may be replaced with a button basically provided in a vehicle such as an emergency light button.

In addition, the output unit (not shown) may be located in the driver's seat and output light or sound to the driver to recognize that an abnormal signal is generated, and may be separately provided or replaced by a speaker that is basically provided in the vehicle.

When a release button (not shown) is provided, the controller 400 determines whether an impact of a predetermined value or more is detected from the sensing unit 300 (S1010), and when an impact of a predetermined value or more is not detected (S1010-N). In step S1010-Y, if the shock is detected in the initial state and the predetermined value or more (S1010-Y), an abnormal signal can be generated (S1020).

In this case, when an output unit (not shown) is provided, the control unit 400 may output light or sound from the output unit to recognize the fact that an abnormal signal is generated.

When the abnormality signal is generated, the controller 400 determines whether the vehicle is in an abnormal state (S1030), and when it is determined that the vehicle is not in an abnormal state (S1030-N), generates a release signal (S1040) to return to the initial state, When it is determined that the vehicle is in an abnormal state (S1030-Y), an abnormal signal may be generated and it may be determined whether a release button (not shown) is pressed within a predetermined time (S1050).

If the release button (not shown) is pressed within a predetermined time (S1050-Y), the control unit 400 generates a release signal (S1040), to return to the initial state, generates an abnormal signal and within a predetermined time If the release button is not pressed (S1050-N), the control unit 400 generates a firing signal (S1060), by driving the launch pad 200 (S1070), the silicon light 100 by the launch pad 200 The vehicle may be fired toward the rear of the vehicle (S1080).

For example, the secondary accident prevention system according to an embodiment of the present invention is a silicon lighting 100, launch pad 200, the detection unit 300, the control unit 400, the release button (not shown) and the output unit ( In addition to the (not shown) may further include a launch button (not shown).

The launch button (not shown) may be provided in the driver's seat and connected to the controller 400 by wireless or wired to be pressed by the driver to allow the controller 400 to generate a firing signal.

That is, when the firing button (not shown) is pressed, the silicon light 100 may be fired even if the accident situation does not occur, and thus, the silicon light 100 moves the rear of the vehicle not only in the accident situation but also in the failure situation of the vehicle. Can be fired toward the camera.

In addition, the controller 400 may generate a firing signal so that the silicon light 100 is fired when an abnormal state of the vehicle is detected from the separately provided vehicle state sensing device.

Here, the abnormal state of the vehicle detected by the vehicle state detecting device means a state in which the vehicle cannot be driven.

Secondary accident prevention system according to an embodiment of the present invention, the release button (not shown) and the output unit (not shown) in addition to the silicon light 100, launch pad 200, the sensing unit 300 and the control unit 400. It may further include.

As described above, the secondary accident prevention system according to an embodiment of the present invention allows the driver of the accident vehicle to recognize the accident to the rear vehicle even when the driver of the accident vehicle does not install a tripod and receive a hand signal. This can prevent secondary accidents while ensuring the safety of the driver of the accident vehicle.

In addition, the secondary accident prevention system according to an embodiment of the present invention is made of a soft material of the silicon light 100 is impeded to the rear vehicle even when hitting the rear vehicle or stepped on the rear of the vehicle or damage to the rear vehicle You can prevent it.

In addition, the secondary accident prevention system according to an embodiment of the present invention can prevent the silicon light 100 is fired in a situation where the firing of the silicon light 100 is not necessary, meaningless of the silicon light 100 Consumption can be prevented.

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the entirety of the present invention.

100: silicon light 110: body
120: shock sensor 130: LED module
140: battery 200: launch pad
210: first housing 211: connecting member
211a: first rotating shaft 212: first elastic member
213: protrusion member 220: second housing
221: locking member 222: opening hole
223: first pressing member 223a: first longitudinal surface
223b: first horizontal plane 223c: second rotation axis
224: second pressing member 224a: second horizontal surface
224b: second vertical surface 225: second elastic member
230: feed roller 300: sensing unit
400: control unit

Claims (9)

A silicon light that emits light when fired toward the rear of the vehicle so that the driver behind the vehicle recognizes the accident;
A launch pad mounted to the vehicle to receive the silicon light and to drive the received light toward the rear of the vehicle when driven;
A detector configured to detect an amount of impact applied to the vehicle; And
And a controller configured to generate a firing signal based on a driver's request or an amount of impact applied to the sensed vehicle and to drive the launching table when the firing signal is generated.
The silicon lights,
Polyhedron-shaped body made of silicon;
An impact sensor positioned inside the body to sense an impact applied to the silicon light;
An LED module configured to be lit when a shock greater than or equal to a threshold value is detected from the shock sensor, and thus lit when the silicon light is fired and collides with the ground; And
And a battery for supplying power to the LED module.
The launch pad,
A first housing covering the top of the launch pad to be in a closed state; And
A second housing coupled to the first housing in an open top shape to cover the top and fixed to the vehicle,
The first housing,
A connection member and a first rotation shaft are provided at one lower end thereof, and the connection member is coupled to an upper end of one side of the second housing by the first rotation shaft.
When in the closed state is rotated with respect to the first rotation axis to the open state, one side is in close contact with one side of the second housing, characterized in that with the second housing to form a firing path of the silicon light. Secondary accident prevention system. delete delete The method of claim 1,
The first housing
A first elastic member provided to surround the first rotation shaft, the first elastic member being in the open state by pressing the lower surface of the first housing and the upper surface of the second housing;
The second housing,
And a locking member configured to hold the upper surface of the first housing to maintain the closed state.
The control unit,
When the firing signal is generated, the secondary accident prevention system, characterized in that the latching of the locking member to be released to be in the open state. The method of claim 4, wherein
The first housing,
Further comprising; a protruding member is provided to protrude on one outer surface,
The second housing,
An opening hole formed in one side of the first housing in contact with the protruding member in an open state of the first housing;
A first pressing member provided at a first state in which the one end is in close contact with one inner surface of the first housing in the closed state;
A second pressing member fixed in a retracted state by being pressed in close contact with the other end of the first pressing member in the first state; And
And a second elastic member configured to press the second pressing member at the other end of the second pressing member.
The silicon lights,
Housed to be in close contact with the retracted second pressing member in the first state,
The protruding member,
When the open state, the first pressing member is pressed so that one end of the first pressing member is in a second state spaced apart from one inner surface of the second housing,
The first pressing member,
When the second state is in close contact with the second pressing member is released,
The second pressing member,
When the close contact with the first pressing member is released, the secondary accident prevention system, characterized in that the stored silicon light is fired by a force advanced by the pressing of the second elastic member. The method of claim 5,
The first pressing member,
A first longitudinal surface in which the front surface is in close contact with an inner surface of one side of the first housing in the first state;
A first horizontal surface formed to protrude perpendicularly from the lower end of the rear surface of the first vertical surface to form a 'b' shape together with the first vertical surface; And
And a second rotation shaft formed at a lower end of the first vertical surface.
The second pressing member,
A second horizontal surface in which the one end is in close contact with the end of the first horizontal surface in the first state; And
A second shape formed to protrude perpendicularly from the other upper surface of the second horizontal surface to the second horizontal surface to form a 'b' shape together with the second horizontal surface, and a back surface of which is pressed by the second elastic member Including a vertical surface;
The silicon lights,
Housed in close contact with a front surface of the second vertical surface in the first state,
The first vertical surface is,
The upper end of the front surface is pressed by the protruding member and rotated with respect to the second rotational axis so as to be spaced apart from the inner surface of one side of the second housing to become the second state.
The first horizontal plane,
In the second state, the end is rotated downward to close the contact with the second horizontal surface.
The second vertical surface is,
When the second horizontal surface is in close contact with the first horizontal surface is released, the silicon illumination in close contact with the front surface is pressed by a force that is pushed back by the pressing of the second elastic member to advance. Secondary accident prevention system. The method of claim 6,
The launch pad,
And a cylindrical feed roller positioned on the firing paths of the first housing and the second housing to reduce the friction of the emitted silicon light. The method of claim 1,
The control unit,
In the initial state, when the shock amount is detected from the detection unit more than a predetermined value to generate an abnormal signal, if the abnormal signal is generated, determine the abnormal state of the vehicle,
When it is determined that the vehicle is not in an abnormal state to generate a release signal to return to the initial state, if it is determined that the vehicle is in an abnormal state generates a firing signal to drive the launch pad Accident prevention system. The method of claim 8,
The control unit,
If the vehicle is operated within a predetermined time from the time when the abnormal signal is generated, it is determined that the abnormal state is not, but if the vehicle does not operate within the predetermined time, characterized in that the abnormal state is determined. Second accident prevention system.

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