KR20180083573A - Seat belt reminder mat sensor for detecting passenger in center of rear seat - Google Patents

Abstract

The present invention relates to a seat belt reminder (SBR) MAT sensor for detecting a passenger in a center of a rear seat and more particularly, to an SBR MAT sensor having an improved structure for detecting whether a load sensed from a center of a rear seat is a passenger. The SBR MAT sensor is installed at a lower portion of a seat located at a center of a rear seat of a vehicle for detecting a passenger in the center of the rear seat. The SBR MAT sensor includes: a rear sensing cell provided behind the center of the rear seat for outputting a first resistance value (α) in accordance with a lateral pressure of a hip portion at the time of seating of a passenger; and a front sensing cell provided in front of the rear sensing cell for outputting a second resistance value (α+(β*γ)/( β+γ)) or a third resistance value (α+β). When the passenger is seated on the center of the rear seat, pressure is applied to the rear sensing cell to output the first resistance value (α) and no pressure is applied to the front sensing cell, thereby outputting the third resistance value (α+β). Therefore, the seating of the passenger is determined based on the first resistance value (α) to the third resistance value (α+β). According to the present invention, it is unnecessary to develop additional parts such as a seat back folding sensor for confirming a passenger when a load is applied and it can be applied to an existing vehicle because the structure is not greatly different from that of the existing MAT sensor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a SBR MAT sensor for detecting a passenger in a navigation center,

The present invention relates to an SBR MAT sensor for passenger detection in a navigation center, and more particularly, to an SBR MAT sensor for passenger detection in a navigation center having an improved structure for detecting whether a load sensed by a navigation center is a passenger.

In recent years, there has been a tendency to strengthen regulations regarding warning of a seat belt. In the Europe / Australia NCAP (New Car Assessment Program), when a passenger seats passengers, they will be awarded 1 / N points per seat (including 18 years, including centers), and the ECC (New car standard: from September to September, and existing car: from September to September), a passenger detection function is required to respond to customer complaints.

2. Description of the Related Art Generally, a passenger detecting device of a vehicle is a device for detecting a passenger on a seat. The passenger sensing device includes a method using a pressure sensor to sense the weight of a passenger and a pelvis pattern, and a method using a strain gauge sensor having a variable resistance to sense the weight of a passenger.

The passenger detection device can be used not only to detect the position and body of the passenger and to control the deployment of the airbag but also to warn the passenger of the wearing of the seat belt by confirming whether or not the passenger is on board and wearing the seat belt.

Here, in the passenger sensing device, a sensor for determining whether or not a passenger is boarded is referred to as an SBR sensor. The SBR sensor uses a thin film switch in consideration of simplicity of manufacture, durability, unit cost, / SPACE / PET.

In this connection, Korean Unexamined Patent Publication No. 10-2013-0007830 (passenger detection device for a car) is arranged in a seat, and based on the output of a thin film type SBR sensor and an SBR sensor for detecting whether a passenger is seated, Wherein the SBR sensor comprises: a sensing cell for sensing passenger seating; and at least one of silver (Ag) and graphite (Carbon), which is in electrical contact with the sensing cell, Discloses a passenger sensing device for a motor vehicle, which includes a conductive member formed in a pattern and connected to an electronic control unit.

However, in the conventional technique, the weight is recognized regardless of the position where the resistance value through the mass of the passenger is changed, and the passenger is recognized whether or not the passenger is seated from the weight. There is a problem in that it is difficult to detect whether or not the passenger is seated depending on the position of the load.

Korean Patent Publication No. 10-2013-0007830

SUMMARY OF THE INVENTION It is an object of the present invention to provide a seat belt reminder (SBR) sensor that senses whether or not a passenger is present according to a load applied to a seat.

In order to achieve the above object, the present invention provides a seat belt reminder (SBR) MAT sensor for detecting a passenger in a steering wheel center installed at a lower portion of a seat located at a central portion of a seatback of a vehicle, A rear sensing cell for outputting a first resistance value? According to left and right pressures of the hips; And a front sensing cell provided in front of the rear sensing cell and outputting a second resistance value? +?? /? +? Or a third resistance value? +? A third resistance value? +? Is output without applying pressure to the front sensing cell, so that a first resistance value? (?) Is output, and a second resistance value? ) To the third resistance value (? +?) To discriminate seating of a passenger. The SBR (Seat Belt Reminder)

Preferably, the rear sensing cell comprises: a first switch disposed at a left portion of the point where the buttock is seated; And a second switch provided at a right portion of a point where the buttocks are seated, wherein the first switch and the second switch are composed of two switches arranged in parallel, and when any one of the switches is turned on, And a first resistance value? May be output when the two first switches and the second switches are both turned on in series connection.

Preferably, the front sensing cell is installed in a portion of the occupant that is not affected by pressure at the time of seating, so as to output a third resistance value? +?.

Preferably, the forward sensing cell comprises: one fixed resistor (gamma); And a third switch connected in parallel with the fixed resistor and outputting a predetermined resistance value when switching on.

Preferably, the front sensing cell is configured in series with the rear sensing cell and outputs a third resistance value? +? When the third switch is on to determine whether the passive sensing object is a passive sensing object Can be distinguished.

According to the present invention having the above-described configuration, there is an advantage that it is unnecessary to develop additional parts such as a seat back folding sensor for confirming whether a load is applied to a passenger.

Further, the present invention has an advantage that it can be applied to an existing vehicle because the difference from the conventional MAT sensor is small.

Figure 1 shows a conventional sheet sensor.
2 shows a configuration of a SBR MAT sensor for passenger detection of a navigation center according to an embodiment of the present invention.
3 is a circuit diagram of a front sensing cell and a rear sensing cell according to an embodiment of the present invention.
4 is a circuit diagram of a front sensing cell and a rear sensing cell according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the exemplary embodiments. Like reference numerals in the drawings denote members performing substantially the same function.

The objects and effects of the present invention can be understood or clarified naturally by the following description, and the purpose and effect of the present invention are not limited by the following description. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Figure 1 shows a conventional sheet sensor. Referring to FIG. 1, when the conventional seat detection sensor is applied to a crutch center, it may cause a malfunction to be recognized as a passenger even when a load is not applied as in seat back folding. The seat is recognized as a passenger at the time of normal seating, but even if the seat back is folded as shown in (a) of FIG. 1 or a load is applied only to the front as shown in (b), it is recognized as a passenger.

2 shows a configuration of an SBR MAT sensor 1 for passenger detection of a navigation center according to an embodiment of the present invention. Referring to FIG. 2, the front sensing cell 30 and the rear sensing cell 10 are provided to recognize a passenger according to a load applied position.

The rear sensing cell 10 is installed behind the center of the seat and can output the first resistance value? According to the left and right pressures of the buttocks when the passenger is seated.

The front sensing cell 30 is installed in front of the rear sensing cell 10 as a part between the two legs, i.e., the thigh, when the passenger seated on the seat, and the second resistance value? + (? *? +?) or the third resistance value? +?, and can be installed in a place where a load can not be applied when a general passenger seats.

A third resistance value? +? Is output without applying pressure to the front sensing cell 30 by outputting a first resistance value? By applying pressure to the rear sensing cell 10 at the time of seating on the center of the seat, The seating of the passenger can be distinguished from the resistance value alpha to the third resistance value alpha + beta.

According to the embodiment of the present invention, it can be determined that the passenger is determined to be detected only in the rear sensing cell 10 and not in the front sensing cell 30. For example, in the case of 30 mm to 50 mm forward movement, it may be regarded as an abnormal seating. In this case, it can be determined that only the front sensing cell 30 is recognized.

In the seatback folding state or abnormal seating, a warning is not required as a load is applied in front of the seat cushion. Therefore, it can meet the passenger detection criteria required by the New Car Assessment Program (NCAP) and the Economic Commission of Europe (ECE).

3 shows a circuit diagram of the front sensing cell 30 and the rear sensing cell 10 according to the embodiment of the present invention. Referring to FIG. 3, the rear sensing cell 10 and the front sensing cell 30 are configured in series to output respective resistance values.

The rear sensing cell 10 includes a first switch 101 installed at a left portion of a position where the buttock is seated and outputting a predetermined resistance value according to switching on; And a second switch 102 installed at a right portion of a point where the buttock is seated and outputting a preset resistance value according to switching on.

The first switch 101 and the second switch 102 are composed of two switches arranged in parallel. When one of the switches is turned on, the first switch 101 and the second switch 102 output switching on, And the second switch 102 are all turned on, the first resistance value? May be output.

The front sensing cell 30 may be installed in a portion of the occupant that is not influenced by the seating pressure, so as to output the third resistance value? + ?. The front sensing cell 30 includes one fixed resistor (gamma) 301 inside; And a third switch 302 that is connected in parallel with the fixed resistor and outputs a predetermined resistance value when the switch is turned on.

The front sensing cell 30 is configured in series with the rear sensing cell 10 and outputs a third resistance value? +? When the third switch 302 is turned on to turn on / off can distinguish between passengers and loadable objects.

4 is a circuit diagram of the front sensing cell 30 and the rear sensing cell 10 according to an embodiment of the present invention. Referring to FIG. 4, (a) to (d) respectively calculate different resistance values.

[Table 1] shows the resistance value according to the case-by-case circuit diagram. Referring to Table 1, it can be recognized as a passenger only when the rear sensing cell 10 is detected and the front sensing cell 30 is not detected (a).

The first switch 101 and the second switch 102 of the rear sensing cell can output the first resistance value alpha and the third switch 302 of the forward sensing cell 30 can output the first resistance value [ It is possible to output the second resistance value in accordance with the on / off state of the second resistor. When the third switch? 302 is turned on, the second resistance value is? *? /? +?, And when the third switch? It is possible to output the third resistance value?.

The resistance can be expressed as shown in the resistance cell as shown in Table 1 as a whole and therefore the resistance value can be expressed as α + β when the rear sensing cell 10 is on and the third switch 302 of the front sensing cell 30 is off. And the passenger can be recognized on the basis of the resistance value by setting this section as a pass section.

In the present invention, the combination of the front sensing cell 30 or the rear sensing cell 10 is configured to recognize the applied load pressure as a resistance value. The combination of the number of sets of the sensing cells and the combination of serial and parallel .

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. will be. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by all changes or modifications derived from the scope of the appended claims and equivalents of the claims.

1: SBR MAT sensor
10: rear sensing cell 30: front sensing cell
101: first switch 102: second switch
301: fixed resistor (?) 302: third switch

Claims (4)

A Seat Belt Reminder (SBR) MAT sensor for passenger detection of a navigation center installed at a lower portion of a seat located at a central portion of a seat of a vehicle,
A rear sensing cell installed at the rear of the seat center to output a first resistance value? In accordance with left and right pressures of the seat back at the time of seating of the passenger; And
And a front sensing cell provided in front of the rear sensing cell and outputting a second resistance value? +?? /? +? Or a third resistance value? +? and,
And outputs the first resistance value (?) By applying pressure to the rear sensing cell when the seat is seated on the seat center portion, and the third resistance value (? +?) Is output without applying pressure to the front sensing cell, A Seat Belt Reminder (SBR) MAT sensor for passenger detection of a passenger seat distinguishing seating of the passenger from a resistance value (?) To a third resistance value (? +?).
The method according to claim 1,
The rear sensing cell includes:
A first switch provided at a left portion of a point where the buttock is seated; And
And a second switch provided at a right portion of a point where the buttock is seated,
Wherein the first switch and the second switch comprise:
And two switching units each of which is configured in parallel. When one of the switches is turned on, the switching unit outputs switching on,
Wherein the first resistance value (?) Is outputted when the first switch and the second switch are both turned on in series connection.
The method according to claim 1,
The front sensing cell includes:
And the second resistance value (? +?) Is provided in a portion of the passenger who is not influenced by the pressure when the passenger is seated and outputs the third resistance value (? +?).
The method according to claim 1,
The front sensing cell includes:
One fixed resistor (?) Inside; And
And a third switch connected in parallel with the fixed resistor and outputting a predetermined resistance value when the switch is turned on,
And when the third switch is turned on, outputs a third resistance value? +? To distinguish whether it is a passenger or a loaded object through on / off of the third switch. SBR MAT sensor for passenger detection at Bukkyo Center.

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