The present invention relates to a vehicle door latch device, and particularly to a vehicle door latch device that prevents a door from opening if a door panel is deformed by a crash.
When a door panel is deformed by a crash, a conventional vehicle door latch device for preventing a door from opening is described in JP2016-505098A.
The vehicle door latch device in JP2016-505098A comprises a rotary catch that can engage with a striker; a pawl that can engage with the rotary catch; an opening lever for releasing the pawl; a rotatable inertial lever; a preventing lever that is rotatably supported to the inertial lever; and a safety lever that is contacted with a contour portion of the inertial lever by a force to apply resistance against a rotation of the inertial lever. When a door handle is operated manually, the preventing lever rotates together with the inertial lever around an axis of the inertial lever. When the opening lever rotates at an excessive high speed owing to a crash, the present lever rotates to a position where it can contact the safety lever, thereby preventing the ratchet from rotating and preventing the door from opening.
However, in the vehicle door latch device in JP2016-505098A, the safety lever is contacted with the contour portion of the inertial lever by a force to apply resistance against the rotation of the inertial lever. Thus, dust adhered into a gap between the contour portion of the inertial lever and the safety lever and a freeze of rain water cause excessive resistance that acts on the inertial lever. Even if the door handle is operated manually, the preventing lever rotates to a position for preventing the inertial lever from rotating thereby causing a problem that the door cannot be opened.
In view of the disadvantages, it is an object of the present invention to provide a vehicle door latch device in which a door can manually be opened securely, wherein the door is prevented securely from opening if a door panel is deformed by a crash.
One embodiment of the present invention will be described with the drawings.
The door latch device 1 in
On the exterior side of the door, there are provided a manually-locking/unlocking key cylinder (not shown) and an outside handle (not shown) that is door opening means for opening the door from the exterior of the vehicle, and on the interior side of the door, there are provided a manually locking/unlocking knob (not shown) and an inside handle (not shown) that is door opening means for opening the door from the interior of the vehicle.
The internal structure of the operating unit is known and does not directly relate to the present invention. So it is not shown in the drawings, and its description is limited within what can be understood by those skilled in the art.
The operating mechanism housing 3 of the operating unit is fixed to the engagement mechanism housing 2 to cover the front surface of the engagement mechanism housing 2. A key lever 31 connected to the key cylinder is pivotally attached on the outer upper part of the operating mechanism housing 3, and comprises in a internal space an electric motor (not shown) that can be driven through remote locking/unlocking control with a portable device which a driver carries, an inside lever (not shown) connected to the inside handle, and the locking mechanism (not shown) operated with the key lever 31 and the locking knob.
The locking mechanism comprises a locking lever (not shown) connected to the key lever 31 and the locking knob; and a lift lever connected to the locking lever and an outside lever (later described), and is driven with the key cylinder or the locking knob manually or through remote control by the portable device to rotate from a locked state to an unlocked state and vice versa.
The locking mechanism in this embodiment can be open the door by the inside handle even when the door is locked, which is called “one-motion manner”. Thus, the door can be opened by the outside handle or the inside handle in the unlocked state. In the locked state, the door can be opened by the inside handle, but cannot be opened by the outside handle. However, the locking mechanism is not limited to this embodiment, and may be constructed such that the door cannot be opened with the outside handle or the inside handle.
In
On a front face of the engagement-mechanism housing 2, there are disposed an opening lever 8 rotating with the latch 5, and an outside lever 9 connected to an outside handle. The engagement-mechanism housing 2 is fixed to an inner surface of the door with a plurality of bolts so that the cover member 4 faces the inner surface of the door.
In
The ratchet 6 is pivotally mounted in the engagement-mechanism housing 2 on a ratchet shaft 61 which extends along the length of the vehicle and is biased in an engaging direction or counterclockwise in
The opening lever 8 is pivotally mounted on the ratchet shaft 61 on a front surface of the engagement-mechanism housing 2 and is connected to the ratchet 6 with a connecting pin 81 to rotate with the ratchet 6.
In this embodiment, the ratchet 6 is separate from the opening lever 8. The ratchet 6 that always rotates together with the opening lever 8 may be formed integrally with the opening lever 8.
The outside lever 9 is pivotally mounted on a lower part of a front surface of the engagement-mechanism housing 2 on a shaft 91 which extends along a length of the vehicle and is connected to the outside handle. Thus, the outside lever 9 is rotated at a certain angle around the shaft 91 by the outside handle in a releasing direction or clockwise in
In an unlocking state of the locking mechanism, the outside handle is operated to open the door, and the lift lever 32 is moved via the outside lever 9. A releasing portion 32a of the lift lever 32 comes in contact with a released portion 8a of the opening lever 8 from below, and the opening lever 8 and the ratchet 6 rotate. The inside handle is operated to open the door, and the inside lever rotates. A part of the inside lever comes in contact with part close to the released portion 8a of the opening lever 8, so that the opening lever 8 and the ratchet 6 rotate, and the door can be opened.
In a locked state of the locking mechanism, when the outside handle is operated to open the door, even if the lift lever 32 is rotated by an opening action of the outside handle, the releasing portion 32a swings and misses with respect to the released portion 8a, so that the door cannot be opened. When the inside handle is operated to open the door, the ratchet 6 and the opening lever 8 are rotated as well as in the locking state, so that the door can be opened.
The preventing means 7 comprises a first lever 71 pivotally mounted on the first shaft 91 on which the outside lever 9 is also pivotally mounted under the ratchet 6 to the engagement-mechanism housing 2 corresponding to the base member of the present invention; a synthetic-resin second lever 73 pivotally mounted to an upper part of the first lever 71 on a second shaft 72 extending along the length of the vehicle; a first spring 74 that acts on the first lever 71; and a second spring 75 that acts on the second lever 73.
The first spring 74 engages at one end to the engagement-mechanism housing 2, and at the other end to the first lever 71 respectively and applies a clockwise biasing force to the first lever 71 around the first shaft 91 in
The second spring 75 engages at one end to the first lever 71 and at the other end to the second lever 73 respectively, and applies a counterclockwise biasing force to the second lever 73 around the second shaft 72 in
The first lever 71 is made of metal covered with synthetic resin and is held in an initial position in which the lower end comes in contact with a first-lever stopper 2a of the engagement-mechanism housing 2 clockwise by the biasing force of the first spring 74 in
In a sub-assembly state in which the second lever 73 and the second spring 75 are connected, the first lever 71 is formed such that the center of gravity is positioned at the center of rotation or an axis of the first shaft 91. Thus, even if an inertial force or acceleration acts from any directions at a crash, the first lever 71 in the sub-assembly state is held in the initial position without rotation.
When the first lever 1 is held in the initial position in
The gap L is set to be smaller than a distance corresponding to an engagement allowance of the pawl 6a of the ratchet 6 and the full-latch engagement portion or the half-latch engagement portion 5c of the latch 5.
In a state where the contact portion 6b of the ratchet 6 is in contact with the preventing portion 71a of the first lever 71, a line F of action on the preventing portion 71a deviates rightward of the center O of rotation of the first lever 71. Thus, when the contact portion 6b of the ratchet 6 comes in contact with the preventing portion 71a of the first lever 71, a force opposite a releasing direction or counterclockwise in
The second lever 73 is pivotally mounted on the second shaft 72 above the first lever 71 to rotate at a certain angle, and in the initial state, is held by the second spring 75 in the initial state where the left lower end near the interior of the vehicle is in contact with the upper end of the stopper 71b on the back of the first lever 71. Owing to deformation of the door panel caused by a crash, when a force for rotating the outside lever 9 in a releasing direction acts, a claw-like contact portion 8b of the opening lever 9 comes in contact with a contacted portion 73a at the right of the second lever 73 from the right, and the second lever 73 rotates against the second spring 75 around the second shaft 72 clockwise at a certain angle to a blocking position in
In a state where the second lever 73 is held in the initial position, in order to allow the first lever 71 to rotate in a releasing direction, the second lever 73 is held in a state in which the end 73a does not come in contact with a stationary stopper 2b of the engagement-mechanism housing 2 counterclockwise, a gap L1 smaller than the gap L is formed between the contacted portion 73a of the second lever 73 and the contact portion 8b of the opening lever 8 in
When the second lever 73 is at the blocking position, in order to prevent the first lever 71 from rotating counterclockwise in a releasing direction, the end 73b projects greatly upward from the upper edge of the first lever 71 to enable the second lever 73 to contact the stationary stopper 2b of the engagement-mechanism housing 2 counterclockwise.
Then, the engagement unit will be described as to function.
<When the door is closed>
In
When the first lever 71 is in the initial position, the gap L is formed between the preventing portion 71a of the first lever 71 and the edge of the contact portion 6b of the ratchet 6. The gap L1 smaller than the gap L is formed between the contact portion 8b of the opening lever 8 and the contacted portion 73a of the second lever 73. The gap L1 may be substantially zero.
<The outside handle or the inside handle is manually operated to open the door>
When the outside handle is manually operated to open the door in
On releasing the ratchet 6 and the opening lever 8, at the initial motion in
When the outside handle or the inside handle is operated manually to open the door or when the ratchet 6 is released at an ordinary speed, a biasing force of the second spring 75 that acts on the second lever 73 is greater than a biasing force of the second spring 74 that acts on the first lever 71, so that the second lever 73 does not rotate from the initial position to the blocking position clockwise against the biasing force of the second spring 75. Even if a force greater than the biasing force of the second spring 75 acts on the second lever 73 owing to any reason during a releasing motion of the first lever 71, an upper edge of the second lever 73 comes in contact with an arc-shaped portion 2c at lower part of the stationary stopper 2b of the engagement-mechanism housing 2 from below in
<When the door panel is deformed by a crash>
In
In view of the foregoing situation, even if the door panel is deformed, the ratchet 6 and the opening lever 8 are prevented from releasing, and the pawl 6a of the ratchet 6 can completely be prevented from disengaging from the full-latch engagement portion 5b of the latch 5.
In order to prevent the ratchet 6 and the opening lever 8 from releasing, there are a first case at a higher speed and a second case at a greatly higher speed than a releasing speed of the ratchet 6 and the opening lever 8 when the door is opened manually.
The first case will be described.
When a force for rotating the outside lever 9 in a releasing direction acts by deforming the door, the ratchet 6 and the opening lever 8 rotate at a high speed in a releasing direction from the engagement position in
When the ratchet 6 and the opening lever 8 rotate at the high speed in the releasing direction, the contact portion 8b of the opening lever 8 immediately comes in contact with the contacted portion 73a of the second lever 73 in
When the second lever 73 rotates to the blocking position, the front edge 73b of the second lever 73 becomes contactable with the stationary stopper 2b of the engagement-mechanism housing 2, and the first lever 71 is prevented from rotating in the releasing direction immediately. Thus, the ratchet 6 and the opening lever 8 slightly rotate in the releasing direction, but are prevented from rotating further in the releasing direction, so that the pawl 6a of the ratchet 6 does not disengage from the full-latch engagement portion 5b of the latch 5.
Then, the second case will be described.
Owing to deformation of the door panel, a force for rotating the outside lever 9 in the releasing direction acts and rotates the ratchet 6 and the opening lever 8 at a higher speed in the releasing direction than the first case from the engagement position in
In this case, because the speed that acts on the ratchet 6 and the opening lever 8 is very high, the ratchet 6 and the opening lever 8 rotate in the releasing direction by a distance corresponding to the gap L as above. The rotation makes the contact portion 8b of the opening lever 8 contact the contacted portion 73a of the second lever 73, which rotates to the blocking position immediately, but the first lever 71 does not rotate from the initial position.
When the ratchet 6 and the opening lever 8 rotate in the releasing direction by a distance corresponding to the gap L, the second lever 73 rotates to the blocking position in
Because the line F of action that acts on the preventing portion 71a of the first lever 71 is opposite to the releasing direction of the first lever 71, the first lever 71 does not rotate from the initial position in the releasing direction. Thus, the ratchet 6 is prevented from rotating in the releasing direction, and the pawl 6a of the ratchet 6 can be prevented from disengaging from the full-latch engagement portion 5b of the latch 5.
The foregoing relates to one embodiment of the present invention, and the following changes and variations may be made without departing from claims as below:
(a) The ratchet 6 and the opening lever 8 are integrally formed.
(b) The first lever 71 and the second lever 73 are changed in shape.