KR20060012068A - Apparatus and method for moving the seat to the rear - Google Patents

Abstract

The present invention relates to a device and a method for rearwardly moving a seat, and more particularly to a method for forcibly moving a seat backward when an infant or a woman having a small body sits on a passenger seat. A passenger detection sensor 100 for detecting a passenger's body type; A seat position sensor 200 for detecting a position of the seat 20; An airbag deployment control unit 300 for controlling the deployment strength of the airbag in consideration of the passenger's body type detected by the passenger sensor 100 and the position of the seat 20 detected by the seat position sensor 200; When it is determined that the passenger's body type detected by the passenger sensor 100 is less than or equal to the reference value, the seat movement control unit 400 operates the seat movement motor 410 to move the seat 20 backward. As the passenger seat is forcibly moved to the rear, even if the airbag installed in the passenger seat is deployed, the injury value of the human body is reduced.

Passenger detection sensor, seat position sensor, piezoelectric sensor, pressure sensor, airbag deployment control unit

Description

Apparatus and method for moving the seat to the rear}             

1 is a view showing a passenger detection system using a piezoelectric sensor,

2 is a view showing a passenger detection system using a pressure sensor;

3 is a view showing a passenger detection system using a seat position sensor;

4 is a block diagram showing one embodiment of the rearward movement device of the seat of the present invention;

Figure 5 is a flow chart showing one embodiment of a method for moving back the seat of the present invention.

<Explanation of symbols for the main parts of the drawings>

20: seat 100: passenger detection sensor

200: seat position sensor 300: air bag deployment control unit

400: seat movement control unit 410: seat movement motor

420: sheet operation switch

TECHNICAL FIELD The present invention relates to a rearward moving apparatus and method for seats, and more particularly, to a rearward moving apparatus and method for forcing a seat to be moved backward when an infant or a small female sits on a passenger seat.

Recently, in North America, improved airbag systems have been developed and widely applied to vehicles in order to comply with newly defined crash safety laws.

The reason why such an improved airbag system is applied to a vehicle is to prevent injuries of the occupants due to the deployment pressure of the airbag.

The reason why the passenger is injured by the air bag is because the infant or small woman is sitting close to the crash pad by sitting on the seat or leaning on the crash pad. to be.

In order to remedy this problem, the improved airbag system stipulates to prevent the airbag from being deployed or to lower the airbag deployment pressure in the case of infants or small females.

The improved airbag system requires technical methods to detect the body shape and seating position of the passenger sitting on the seat. There are three methods currently used: a piezoelectric sensor mounted on the seat pad area and a pressure sensor mounted on the seat frame. Method, and a method of mounting the seat position sensor on the seat.

FIG. 1 is a diagram illustrating a passenger sensing system using a piezoelectric sensor, wherein a piezoelectric sensor 3 is mounted between a seat pad 1 and a seat cloth 2, and a passenger is detected by the piezoelectric sensor 3. The detection control unit 4 determines the condition of the passenger and transmits it to the airbag control unit 5 to show that the airbag control unit 5 controls the deployment degree of the airbag according to the condition of the passenger.

At this time, according to the pressure and the area pressed by the piezoelectric sensor (3) it is possible to distinguish the passengers into various types.

Further, since the seat shape is different according to the vehicle type and the vehicle body condition of the vehicle is also different, the piezoelectric sensor 3 should be tuned according to the vehicle type in consideration of these various conditions.

FIG. 2 is a diagram illustrating a passenger sensing system using a pressure sensor, in which a plurality of pressure sensors 7 are mounted on the seat frame 6, and a value input to each pressure sensor 7 is input to the passenger sensing control unit 8. ), The final weight of the occupant is calculated by combining the pressure input from the passenger detection control unit 8 to determine the passenger's body shape, and the airbag control unit 9 controls the deployment degree of the airbag.

3 is a view illustrating a passenger detection system using a seat position sensor, wherein the seat position sensor 11 is mounted on the bottom of the seat cushion 10 and the seat position is sensed to detect whether the seat is moved forward or backward. By doing so, the passenger detection control unit 12 grasps the position of the passenger and controls the deployment degree of the airbag through the airbag control unit 13.

The operation principle of the seat position sensor 11 is to use a hall effect, and to use a switching function generated when a magnet is placed on a semiconductor device. If the mechanical configuration is made to pass through, a switching phenomenon occurs and the position of the sheet can be measured by detecting it.

Although it varies depending on the type of vehicle, in most cases, a magnet is installed at a part where the seat is 750 mm, and when it passes through the part, it is determined whether the seat has moved to the front part from there, and in this case, a small woman is judged to have burned.

This method is set in consideration of the habit of a small woman pulling the seat to the front of the vehicle.

However, even if the airbag is deployed after detecting the passenger's body type and position using a conventional passenger detection system, there is still a problem that may occur, and the reason is as follows.

First, if a small-sized woman or an infant under 6 years old is on board, if the airbag is deployed with the occupant's face close to the passenger's seat crashpad, the injury cannot be avoided even if the airbag is weakly deployed. .

Second, the airbag should not be deployed when the infant is under 3 years old, but the posture specified by the law is limited, and if it is out of the designated position, it cannot be guaranteed how the airbag will be deployed.

Third, there is always a possibility of malfunction of the airbag deployment system.

The present invention is to solve the above-mentioned shortcomings, in particular, when the infant or small female seated on the passenger seat seat forcibly moving the seat backwards to prevent the injuries due to the air bag deployment by the rear movement device and To provide a method.

The rear movement device of the seat of the present invention, the passenger sensor for sensing the passenger's body type; A seat position sensor for detecting a position of the seat; An airbag deployment control unit configured to control the deployment strength of the airbag in consideration of the body shape of the passenger sensed by the passenger detection sensor and the position of the seat detected by the seat position sensor; When it is determined that the body shape of the passenger sensed by the passenger sensor is equal to or less than the reference value, it is achieved by configuring a seat movement control unit for moving the seat backward by operating the seat movement motor.

In addition, the rearward movement method of the seat of the present invention, the step of detecting the passenger's body type and the position of the seat using the passenger sensor and the seat position sensor; An airbag transmission step of transmitting a passenger's body shape and seat position detected in the detection step to an airbag deployment control unit; Passenger discrimination step of determining whether the detected passenger's body type is less than the reference value; A seat rearward movement step of moving the seat rearward when it is determined that the passenger's body size is less than a reference value through the passenger discrimination step; A switch operation detecting step of detecting whether the passenger's seat operation switch is operated; A seat stopping step of stopping the sheet moving backwards when it is detected that the sheet operation switch is operated in the switch operation detecting step; A sheet rearward movement step of moving the sheet to the rearmost position when it is detected that the sheet operation switch is not operated in the switch operation detection step; A seat position determining step of determining whether the seat is located within a critical threshold range through the seat position sensor; If it is determined in the seat position determining step that the seat is located within the critical threshold range, it is achieved by configuring the sheet forced movement step for forcibly moving the sheet out of the critical threshold range.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a block diagram showing an embodiment of a rearward movement device of the seat of the present invention, and a passenger sensor 100 for detecting a passenger's body shape; A seat position sensor 200 for detecting a position of the seat 20; An airbag deployment control unit 300 for controlling the deployment strength of the airbag in consideration of the passenger's body type detected by the passenger sensor 100 and the position of the seat 20 detected by the seat position sensor 200; When it is determined that the passenger's body shape detected by the passenger sensor 100 is less than or equal to the reference value, the seat movement control unit 400 operates the seat movement motor 410 to move the seat 20 backward. It is characterized by the technical features.

On the other hand, the sheet movement control unit 400 stops the operation of the sheet movement motor 410 when the operation of the sheet operation switch 420 is detected, the sheet movement motor by the operation of the sheet operation switch (420) 410 is characterized by re-operation.

In addition, when the seat movement control unit 400 detects that the seat 20 is located within a critical threshold range by the seat position sensor 200, the seat movement motor 410 operates the seat 20. It is a preferred embodiment to move the out of the critical threshold.

5 is a flowchart illustrating an embodiment of a method for rearwardly moving a seat of the present invention, comprising: a sensing step S10 of detecting a passenger's body shape and a seat position using a passenger sensor and a seat position sensor; An airbag transmission step (S20) of transmitting a passenger's body shape and a seat position detected in the detection step (S10) to an airbag deployment control unit; Passenger determination step (S30) for determining whether the detected passenger's body type is less than the reference value; A seat rearward movement step (S40) for moving the seat rearward when it is determined that the passenger's body size is less than or equal to the reference value through the passenger discrimination step (S30); A switch operation detecting step (S50) of detecting whether the passenger's seat operation switch is operated; A seat stopping step (S60) of stopping the sheet moving backwards when it is detected that the sheet manipulation switch is operated in the switch operation detecting step (S50); A sheet rearward movement step (S70) for moving the sheet to the rearmost position when it is detected that the sheet operation switch is not operated in the switch operation detection step (S50); A seat position determining step (S80) of determining whether the seat is located within a critical threshold range through the seat position sensor; When the sheet position determination step (S80) is determined that the sheet is located within the critical threshold range, it is characterized in that the technical configuration of the sheet forced movement step (S90) forcing the sheet to move out of the critical threshold range.

Hereinafter, the operation and effects of the present invention will be described with reference to FIGS. 4 to 5.

Passenger detection sensor 100 detects the passenger's body shape, and the seat position sensor 200 to detect the position of the seat 20 (S10), the passenger detection sensor 100 is a piezoelectric sensor (3) in the seat pad area 1) or a pressure sensor (see Fig. 2) on the seat frame, and the seat position sensor 200 may be a seat position sensor 11 below the seat cushion. 3) can be implemented by a mounting method.

Information about the body type of the passenger detected by the passenger sensor 100 and the position of the seat 20 detected by the seat position sensor 200 is transmitted to the airbag deployment control unit 300 (S20), the airbag The deployment control unit 300 controls the deployment strength of the airbag in consideration of the passenger's body shape and the position of the seat 20.

In addition, the seat movement control unit 400 receiving the passenger body information from the passenger sensor 100 determines whether the detected passenger body type is less than or equal to the reference value (S30), wherein the reference value is the body type information of the person with a smaller body type. For example, the body shape (range of 3kg to 23kg body weight) or the body shape of a woman weighing 45kg or less may be cited as an example.

If it is determined that the passenger's body shape is less than or equal to the reference value, the seat movement control unit 400 operates the seat movement motor 410 to forcibly move the seat 20 backward (S40).

At this time, the passenger may feel uncomfortable to move the seat 20 to the rear, so as to operate the seat operation switch 420 installed on the side of the seat 20 to stop the seat moved to the rear and again Have the option to move forward.

The seat movement control unit 400 detects an operation of the seat manipulation switch 420 (S50) and stops the seat 20 moving backward by stopping the operation of the seat movement motor 410 (S60). .

However, if the operation of the sheet operation switch 420 is not detected, the sheet movement control unit 400 moves the sheet to the rearmost (S70).

That is, the sheet movement controller 400 controls the sheet movement motor 410 in consideration of whether the sheet manipulation switch 420 is operated first.

As described above, the passenger stops the rear movement of the seat 20 and moves the seat operation switch 420 to move forward, but the seat moved forward may be located within a critical range.

At this time, the critical critical range means the position range of the seat which may be injured by the deployment of the air bag when the seat is pulled forward.

When the seat movement control unit 400 determines that the seat moves within the critical threshold range (S80), the seat movement motor 410 operates to forcibly move the seat backward beyond the critical threshold range (S90).

The rear movement apparatus and method of the seat of the present invention can be applied only to a vehicle model equipped with a motorized seat operated by a motor. In the case of a motorized seat having a memory seat function, a memory received from the seat operation switch 320 is input. The seat movement motor 310 is operated by a seat unit to move the position of the seat 20 back and forth through a rotary gear, and when there is no memory seat function, the seat movement motor is directly connected to the seat manipulation switch 320. The difference is that it controls 310.

The present invention as described above is an invention having the effect of preventing an injury due to the deployment of the airbag by forcibly moving the seat rearward when the infant or a small female sitting on the passenger seat.

Claims (4)

A passenger sensor for sensing a passenger's body type; A seat position sensor for detecting a position of the seat; An airbag deployment control unit configured to control the deployment strength of the airbag in consideration of the body shape of the passenger sensed by the passenger detection sensor and the position of the seat detected by the seat position sensor; And a seat movement control unit configured to move the seat to the rear by operating a seat movement motor when it is determined that the body shape of the passenger sensed by the passenger sensor is equal to or less than a reference value. The passenger of claim 1, wherein the seat movement control unit stops the operation of the seat movement motor when an operation of the seat operation switch is detected, and restarts the seat movement motor by the operation of the seat operation switch. Backward movement device of seat using detection system. The method of claim 1, wherein the seat movement control unit moves the seat out of the danger threshold range by operating the seat movement motor when the seat position sensor detects that the seat is located within a danger threshold range. Seat back movement device using a passenger detection system. In the method of moving the seat backward by using the backward movement device of the seat of claim 1, Detecting the body shape of the passenger and the position of the seat using the passenger sensor and the seat position sensor; An airbag transmission step of transmitting a passenger's body shape and seat position detected in the detection step to an airbag deployment control unit; Passenger discrimination step of determining whether the detected passenger's body type is less than the reference value; A seat rearward movement step of moving the seat rearward when it is determined that the passenger's body size is less than a reference value through the passenger discrimination step; A switch operation detecting step of detecting whether the passenger's seat operation switch is operated; A seat stopping step of stopping the sheet moving backwards when it is detected that the sheet operation switch is operated in the switch operation detecting step; A sheet rearward movement step of moving the sheet to the rearmost position when it is detected that the sheet operation switch is not operated in the switch operation detection step; A seat position determining step of determining whether the seat is located within a critical threshold range through the seat position sensor; And a seat compulsory movement step of forcibly moving the seat out of the danger threshold range if it is determined that the seat is located within the danger threshold range in the seat position determining step.

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