JP5434875B2 - Power supply system for sliding door - Google Patents

Description

  The present invention relates to a sliding door energization system that performs electrical connection between a body side and a sliding door side of a vehicle.

As an energization system for a sliding door of a vehicle, for example, there is a system including a junction switch having a plurality of junction terminals in which a body side terminal and a sliding door side terminal are paired (see Patent Document 1).
In this sliding door energization system, for example, when the sliding door is closed and is in a half-door state, the body side terminal and the sliding door side terminal of each junction terminal of the junction switch come into contact, and the junction switch is connected. As a result, an electrical connection is made between the body side and the slide door side.

As a result, the junction switch ON signal is input to the power supply control unit disposed on the body side, the power supply relay of the power supply control unit is activated, and power supply is started from the body side to the easy closer control unit on the slide door side. . Then, the full lock motor of the slide door is activated by the control signal from the easy closer control unit that is in the power supply state, and the slide door is completely closed from the half door state.
Thus, the sliding door energization system detects the connection state of the junction switch on the body side via the junction terminal of the junction switch.

JP-A-9-156376

  For example, in the sliding door energization system configured as described above, when an attempt is made to add a function (vehicle speed auto-locking function) that automatically detects the vehicle speed and automatically locks the sliding door, the sliding door is locked or unlocked. It is necessary to arrange a door lock switch that is turned on / off by the sliding door side, and to obtain an on / off signal of the door lock switch on the body side to detect the lock state of the slide door.

  Therefore, a separate junction terminal is required to send an on / off signal of the door lock switch from the sliding door side to the body side. However, a commercial vehicle or the like is designed with a limited number of junction terminals, and there is no space in the junction terminals, and it is difficult to newly add a junction terminal. Therefore, a system that detects the locked state of the sliding door on the body side, such as a vehicle speed auto-locking function, cannot be easily and inexpensively added.

  The present invention has been made in view of such problems, and provides an inexpensive sliding door energization system that can appropriately detect the connection state of the junction switch and the detection of the locked state of the sliding door on the body side. It is something to try.

The present invention has a plurality of junction terminals each having a pair of a body side terminal and a slide door side terminal, and the body side terminal and the slide door side terminal of each junction terminal are brought into contact with each other so that the body side and the slide door are brought into contact with each other. A sliding door energization system with a junction switch for electrical connection with the side,
A junction connection detection circuit for detecting the connection state of the junction switch on the body side and a door lock detection circuit for detecting the lock state of the slide door on the body side are respectively connected via the junction switch. It is formed between the body side and the sliding door side,
The junction connection detection circuit has a door opening / closing switch that is turned on when the sliding door is in an open state and turned off when the sliding door is in a closed state on the slide door side, and the connection state of the junction switch on the body side It is connected to the junction connection detector that detects
The door lock detection circuit includes a door lock switch which is turned on when the slide door is unlocked and turned off when the slide door is locked on the slide door side, and locks the slide door on the body side. It is connected to the door lock detector that detects the condition,
The junction connection detection circuit and the door lock detection circuit have a shared circuit portion that shares one junction terminal in the junction switch, and the door opening / closing switch and the door lock switch are In the sliding door energization system, the sliding doors are connected in parallel to each other (claim 1).

  In the sliding door energization system of the present invention, the junction connection detection circuit having the door opening / closing switch and the door lock detection circuit having the door lock switch are formed via the junction switch, respectively. The junction connection detection circuit and the door lock detection circuit have a shared circuit portion that shares one junction terminal in the junction switch, and the door opening / closing switch and the door lock switch are The slide doors are connected in parallel to each other.

  That is, the sliding door energization system is configured to output a combined signal of the on / off signal of the door opening / closing switch and the on / off signal of the door lock switch to one junction terminal in the junction switch of the shared circuit unit. Thus, it can be obtained at the junction connection detection unit and the door lock detection unit on the body side. The composite signal here is the ON signal when the respective switch is ON and OFF, OFF and ON, ON and ON because the door opening / closing switch and the door lock switch are connected in parallel with each other, When it is off and off, it is an off signal.

  Then, by using the specification of the door opening / closing switch that is turned on when the sliding door is in the open state and turned off when the sliding door is in the closed state, only the information of the one composite signal from the sliding door side is used. The detection of the connection state of the junction switch that is required when the door is in a half-door state and the detection of the locked state of the sliding door that is required after the sliding door is completely closed are performed on the body side. The junction connection detection unit and the door lock detection unit can be appropriately performed at the necessary timing.

Specifically, when the sliding door is closed to a half-door state and the junction switch is connected, the sliding door is not completely closed and is open, so the door opening / closing switch is Is on. That is, the door opening / closing switch is always on until the sliding door is completely closed, so that the composite signal when the junction switch is connected is on regardless of whether the door lock switch is on or off. Signal.
Therefore, the junction connection detection unit disposed on the body side can detect that the junction switch is connected when the ON signal of the composite signal is input.

When the sliding door is completely closed and closed, the door opening / closing switch is turned off. The combined signal after the slide door is closed becomes an on signal / off signal according to the on / off state of the door lock switch as long as the slide door is closed.
Accordingly, the door lock detection unit disposed on the body side detects whether the slide door is unlocked or locked by receiving an ON signal / off signal of the composite signal. can do.

Thereby, the said electricity supply system for slide doors can perform appropriately the detection of the connection state of the said junction switch, and the detection of the locked state of the said slide door in the said body side.
In addition, since the sliding door energization system can perform both detections through one junction terminal in the junction switch, for example, one of the above-described conventional methods used to detect the connection state of the junction switch. It can be set as the structure which performs both detection via a junction terminal. That is, it is possible to detect the lock state of the slide door with an easy and inexpensive configuration without increasing the number of the junction terminals. Therefore, the body side detects the locked state of the sliding door such as a vehicle speed auto-locking function even in a commercial vehicle or the like where the junction terminal is empty and it is difficult to add a new junction terminal. Systems can be added easily and inexpensively.

  Thus, according to the present invention, it is possible to provide an inexpensive sliding door energization system that can appropriately detect the connection state of the junction switch and the detection of the locked state of the sliding door on the body side.

The schematic block diagram of the electricity supply system for sliding doors in an Example. The time chart which shows the operation | movement of the electricity supply system for sliding doors in an Example.

In the present invention, the open state of the slide door refers to a state in which the slide door is open, including a half door state. That is, it means a state where the sliding door is not completely closed.
The closed state of the slide door means a state where the slide door is completely closed (fully closed state).

Further, on the slide door side, a closer control means for controlling the operation of the closer mechanism for closing the slide door from the half door state and a door lock mechanism for locking the slide door are provided. The body side includes power supply control means for controlling power supply to the closer control means based on detection of a connection state of the junction switch in the junction connection detection part, and the slide in the door lock detection part. Preferably, door lock control means for controlling the operation of the door lock mechanism based on detection of the door lock state is provided.
In this case, when the junction connection detection unit detects that the junction switch is connected, power supply from the power supply control unit to the closer control unit is started, and the closer control unit further includes the closer control unit. The mechanism can be operated so that the sliding door can be brought into a completely closed state, that is, a closed state from a half door state. Further, when the door lock detection unit detects that the slide door is in the unlocked state, the door lock control means operates the door lock mechanism to change the slide door from the unlocked state to the locked state. Can be configured.

An energization system for a sliding door according to an embodiment of the present invention will be described with reference to FIG.
The energization system 1 for the sliding door of the present example includes a plurality of junction terminals 21a to 21e in which a body side terminal 211 and a sliding door side terminal 212 are paired. A junction switch 2 is provided for making electrical connection between the body side and the sliding door side by contacting the door side terminal 212.

In the sliding door energization system 1, on the body side, a power supply control unit (power supply control means) 3 that controls power supply to a closer control unit (closer control means) 5 described later, and a door lock motor (door lock mechanism) described later. A door lock control unit (door lock control means) 4 for controlling the operation of 61) is provided.
The power supply control unit 3 includes a junction connection detection unit 31 that detects the connection state of the junction switch 2 and a power supply relay 32 that supplies power from the body side to the slide door side.

The junction connection detection unit 31 is connected to the junction connection detection circuit 11 that is formed between the body side and the slide door side via the junction terminal 21e of the junction switch 2 and detects the connection state of the junction switch 2. ing.
The power supply relay 32 is connected to a power supply circuit 12 that is formed between the body side and the slide door side via a junction terminal 21d of the junction switch 2 and supplies power from the slide door side to the body side.
The junction connection detection unit 31 and the power supply relay 32 are connected to each other in the power supply control unit 3, and the power supply relay 32 is configured to operate according to a control signal from the junction connection detection unit 31.

The door lock control unit 4 includes a door lock detection unit 41 that detects the locked state of the slide door.
Connected to the door lock detection unit 41 is a door lock detection circuit 14 which is formed between the body side and the slide door side via the junction terminals 21c and 21e of the junction switch 2 and detects the lock state of the slide door. Has been.

Further, the door lock control unit 4 is formed between the body side and the slide door side via the junction terminals 21a and 21b of the junction switch 2, and is provided in the door lock portion 6 in the slide door. A door lock output circuit 13 for outputting a control signal to the motor 61 is connected.
The door lock control unit 4 outputs a control signal to the door lock motor 61 when the door lock detection unit 41 detects the unlocked state of the slide door when the vehicle speed is equal to or higher than the predetermined speed. The door lock motor 61 is operated to lock the slide door.

On the other hand, a closer control unit 5 for controlling the operation of a closer motor (closer mechanism) 71 for closing the slide door from the half door state to the closed state is disposed on the slide door side.
The closer control unit 5 is connected to the power supply relay 32 of the power supply control unit 3 via the power supply circuit 12. The closer control unit 5 is connected to a closer output circuit 15 for outputting a control signal to a closer motor 71 disposed in the closer portion 7 in the slide door.

  Further, as described above, the junction connection detection circuit 11 is connected to the junction connection detection unit 31 of the power supply control unit 3 on the body side. Further, the slide door side includes a door opening / closing switch 111 which is turned on when the slide door is in an open state and turned off when the slide door is in a closed state. The door opening / closing switch 111 is disposed in the closer portion 7 in the slide door.

  Further, as described above, the door lock detection circuit 14 is connected to the door lock detection unit 41 of the door lock control unit 4 on the body side. Further, the slide door side has a door lock switch 141 which is turned on when the slide door is unlocked and turned off when the slide door is locked. The door lock switch 141 is disposed in the door lock portion 6 in the slide door.

Moreover, the junction connection detection circuit 11 and the door lock detection circuit 14 have the shared circuit part 10 which shares one junction terminal 21e in the junction switch 2 between the body side and the slide door side.
The junction connection detection unit 31 of the power supply control unit 3 and the door lock detection unit 41 of the door lock control unit 4 are separately connected to the shared circuit unit 10 on the body side. The door opening / closing switch 111 and the door lock switch 141 are connected in parallel to each other on the sliding door side.

  Thus, in the junction connection detection circuit 11, the junction connection detection unit 31 on the body side is connected to the door opening / closing switch 111 of the closer unit 7 on the slide door side via the shared circuit unit 10 and the junction terminal 21 e of the junction switch 2. Has been. The door opening / closing switch 111 is connected to the ground 81 on the slide door side.

  In the door lock detection circuit 14, the door lock detection unit 41 on the body side is connected to the door lock switch 141 of the door lock unit 6 on the slide door side via the shared circuit unit 10 and the junction terminal 21 e of the junction switch 2. Has been. The door lock switch 141 is connected to the ground 82 on the body side via the junction terminal 21 c of the junction switch 2.

Next, the operation of the sliding door energization system 1 configured as described above will be described with reference to the timing chart of FIG.
When the sliding door is closed and is in a half-door state (t1 in FIG. 2), the body side terminal 211 and the sliding door side terminal 212 of the junction terminals 21a to 21e of the junction switch 2 come into contact with each other. Thereby, the electrical connection between the body side and the slide door side is performed.

At this time, since the slide door is not completely closed and is in an open state, the door opening / closing switch 111 is on. Further, since the slide door is in the open state, the slide door is in the unlocked state, and the door lock switch 141 is on. Therefore, the combined signal S of the door opening / closing switch 111 and the door lock switch 141 is an ON signal.
Actually, since the door opening / closing switch 111 is always on until the sliding door is completely closed, the composite signal S is an on signal regardless of whether the door lock switch 141 is on or off (T1 in FIG. 2). ).

The ON signal of the composite signal S is input to the junction connection detection unit 31 of the power supply control unit 3 on the body side via the shared circuit unit 10 and the junction terminal 21e of the junction switch 2.
Thereby, the junction connection detection part 31 of the electric power feeding control unit 3 detects that the junction switch 2 was connected.

Next, on the basis of the ON signal of the composite signal S, a control signal is output from the junction connection detection unit 31 of the power supply control unit 3 to the power supply relay 32, the power supply relay 32 is activated, and the closer control unit is connected via the power supply circuit 12. Power supply to 5 is started.
Thereby, the closer control unit 5 is supplied with the battery voltage and is in a power supply state. Then, a control signal is output from the closer control unit 5 to the closer motor 71 of the closer portion 7 via the closer output circuit 15, the closer motor 71 is activated, and the sliding door is completely closed from the half-door state (closed). State). After the sliding door is closed, the power supply is automatically stopped when a predetermined time elapses.

Next, when the slide door is completely closed and closed (t2 in FIG. 2), the door opening / closing switch 111 is turned off. The combined signal S after the sliding door is closed is turned on / off according to the on / off state of the door lock switch 141 as long as the sliding door is in the closed state (as long as the door opening / closing switch 111 is off). Signal (T2 in FIG. 2).
Thereafter, when the vehicle speed becomes equal to or higher than the predetermined speed, when the door lock detection unit 41 of the door lock control unit 4 detects the unlocked state of the slide door, that is, the ON signal of the composite signal S is input to the door lock detection unit 41. Then, a control signal is output from the door lock control unit 4 to the door lock motor 61 via the door lock output circuit 13, and the door lock motor 61 is activated to change the slide door from the unlocked state to the locked state.

Next, the effect in the electricity supply system 1 for slide doors of this example is demonstrated.
In the sliding door energization system 1 of this example, a junction connection detection circuit 11 having a door opening / closing switch 111 and a door lock detection circuit 14 having a door lock switch 141 are formed via the junction switch 2. The junction connection detection circuit 11 and the door lock detection circuit 14 have a shared circuit unit 10 that shares one junction terminal 21 (21e) in the junction switch 2, and the door opening / closing switch 111 and the door lock. The switch 141 is connected in parallel to each other on the slide door side.

  That is, the sliding door energization system 1 uses the combined signal S of the on / off signal of the door opening / closing switch 111 and the on / off signal of the door lock switch 141 as one junction terminal 21 in the junction switch 2 of the shared circuit unit 10. (21e), the body-side junction connection detection unit 31 and the door lock detection unit 41 are configured to be able to obtain them.

  Then, by using the specification of the door opening / closing switch 111 that is turned on when the sliding door is in an open state and turned off when the sliding door is in a closed state, the sliding door is a half-door only by the information of one composite signal S from the sliding door side. The detection of the connection state of the junction switch 2 required when the state becomes the state, and the detection of the lock state of the slide door required after the sliding door is completely closed, In the door lock detection part 41, it can carry out appropriately at the required timing.

Specifically, as described above, when the sliding door is closed to a half-door state and the junction switch 2 is connected (t1 in FIG. 2), the sliding door is not completely closed and is open. Therefore, the door opening / closing switch 111 is on. That is, since the door opening / closing switch 111 is always on until the sliding door is completely closed, the composite signal S when the junction switch 2 is connected is an on signal regardless of whether the door lock switch 141 is on or off. (T1 in FIG. 2).
Therefore, the junction connection detection unit 31 disposed on the body side can detect that the junction switch 2 is connected when the ON signal of the composite signal S is input.

When the sliding door is completely closed and closed (T2 in FIG. 2), the door opening / closing switch 111 is turned off. Then, the combined signal S after the sliding door is in the closed state becomes an on signal / off signal in accordance with the on / off of the door lock switch 141 as long as the sliding door is in the closed state (T2 in FIG. 2).
Therefore, the door lock detection unit 41 disposed on the body side detects whether the slide door is unlocked or locked by receiving the ON signal / OFF signal of the composite signal S. Can do.

Thereby, the electricity supply system 1 for slide doors can appropriately detect the connection state of the junction switch 2 and the lock state of the slide door on the body side.
In addition, since the sliding door energization system 1 can perform both detections through one junction terminal 21 (21e) in the junction switch 2, for example, it has been conventionally used to detect the connection state of the junction switch 2. Both detections can be made through one junction terminal 21. That is, the sliding door lock state can be detected with an easy and inexpensive configuration without increasing the number of junction terminals 21. Therefore, a system that detects the locked state of the sliding door, such as a vehicle speed auto-lock function, on the body side even in a commercial vehicle or the like where the junction terminal 21 is not available and it is difficult to add a new junction terminal 21. It can be added easily and inexpensively.

  In this example, on the slide door side, the closer control unit 5 for controlling the operation of the closer motor 71 for closing the slide door from the half door state to the closed state, and the door lock motor 61 for locking the slide door. The body side includes a power supply control unit 3 that controls power supply to the closer control unit 5 based on detection of the connection state of the junction switch 2 in the junction connection detection unit 31, and a door lock detection unit. A door lock control unit 4 that controls the operation of the door lock motor 61 based on detection of the lock state of the slide door at 41 is provided.

  Therefore, when the junction connection detection unit 31 detects that the junction switch 2 is connected, power supply from the power supply control unit 3 to the closer control unit 5 is started, and the closer control unit 5 operates the closer motor 71. Thus, the sliding door can be configured to be in a completely closed state from the half-door state, that is, a closed state. Further, as in this example, when the door speed detecting unit 41 detects that the sliding door is unlocked when the vehicle speed becomes equal to or higher than a predetermined speed, the door lock control unit 4 activates the door lock motor 61. The sliding door can be configured to be activated and to be locked from the unlocked state.

  Thus, according to this example, it is possible to provide an inexpensive sliding door energization system 1 that can appropriately detect the connection state of the junction switch 2 and the detection of the sliding door lock state on the body side. it can.

DESCRIPTION OF SYMBOLS 1 Sliding door energization system 10 Shared circuit part 11 Junction connection detection circuit 111 Door opening / closing switch 14 Door lock detection circuit 141 Door lock switch 2 Junction switch 21 Junction terminal 31 Junction connection detection part 41 Door lock detection part

Claims (2)

A plurality of junction terminals having a pair of a body side terminal and a slide door side terminal are provided, and the body side terminal and the slide door side terminal of each junction terminal are brought into contact with each other between the body side and the slide door side. A sliding door energization system equipped with a junction switch for electrical connection of
A junction connection detection circuit for detecting the connection state of the junction switch on the body side and a door lock detection circuit for detecting the lock state of the slide door on the body side are respectively connected via the junction switch. It is formed between the body side and the sliding door side,
The junction connection detection circuit has a door opening / closing switch that is turned on when the sliding door is in an open state and turned off when the sliding door is in a closed state on the slide door side, and the connection state of the junction switch on the body side It is connected to the junction connection detector that detects
The door lock detection circuit includes a door lock switch which is turned on when the slide door is unlocked and turned off when the slide door is locked on the slide door side, and locks the slide door on the body side. It is connected to the door lock detector that detects the condition,
The junction connection detection circuit and the door lock detection circuit have a shared circuit portion that shares one junction terminal in the junction switch, and the door opening / closing switch and the door lock switch are A sliding door energization system, wherein the sliding doors are connected in parallel to each other.   The energization system for a sliding door according to claim 1, wherein a closing control means for controlling an operation of a closing mechanism for closing the sliding door from a half door state to a closing state, and the sliding door are provided on the sliding door side. A door lock mechanism for locking, and on the body side, a power supply control for controlling power supply to the closer control means based on detection of a connection state of the junction switch in the junction connection detection unit And a door lock control means for controlling the operation of the door lock mechanism based on detection of the lock state of the slide door in the door lock detector. .

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