JP3582252B2 - Door closer device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a door closer device.
[0002]
[Prior art]
Conventionally, as this type of door closer device, one disclosed in Japanese Utility Model Laid-Open No. 6-50044 is known. This includes a door-side latch that is engaged and disengaged from the body-side striker by rotation to create a door fully closed state and a door open state across the door half-closed state, a latch lever that rotates integrally with the latch, and a latch lever. A passive lever that is pressed in the direction to rotate the latch together with the latch lever from the half-closed state of the door to the fully closed state of the door, an active lever linked to the drive mechanism to operate the passive lever, and a passive lever and an active lever. And a cancel lever disposed between the active lever and the passive lever to transmit the operation of the active lever to the passive lever or to idle the active lever to the passive lever.
[0003]
Further, this conventional apparatus includes a rotating lever rotatably supported and engageable with the cancel lever, and the canceling is performed by the engagement between the cancel lever and the rotating lever by the rotating operation of the rotating lever. The lever was rotating.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional device, the cancel lever is rotatably supported by one of the active lever and the passive lever to transmit or release the operation from the active lever to the passive lever. Actuation of the lever and the passive lever changes the point of engagement with the rotating lever. For this reason, the rotation stroke of the cancel lever changes with respect to the rotation stroke of the rotation lever, and there is a risk of causing a poor cancellation. Further, in order to prevent this cancel failure, it is necessary to lengthen the rotation lever, and as a result, the degree of freedom of arrangement of the cancellation lever and the rotation lever is impaired.
[0005]
Therefore, an object of the present invention is to prevent a cancel failure without lengthening a lever.
[0006]
[Means for Solving the Problems]
The technical means taken in the present invention to solve the above technical problem has a moving lever for rotating the cancel lever, and first and second parallel levers for movably supporting the moving lever. That is.
[0007]
According to this technical means, the cancel lever is pressed by the moving lever by the moving operation of the moving lever by the action of the first and second parallel levers, and the moving lever rotates. Therefore, even if the engagement point between the moving lever and the cancel lever changes due to the operation of the active lever and the passive lever, the rotation stroke of the cancel lever relative to the moving stroke of the moving lever is always constant by the action of the first and second parallel levers. It becomes. Therefore, it is possible to prevent the cancel failure without lengthening the lever.
[0008]
More preferably, the moving lever has a rectangular hole provided with a wall for pressing the cancel lever by the moving operation.
[0009]
More preferably, the cancel lever is configured to include a pin that is inserted into the rectangular hole and can be engaged with the wall, and a passive lever, an active lever, the cancel lever, and the moving lever are stacked and arranged. good.
[0010]
More preferably, a rotatable pole that holds the latch to create a door half-closed or fully-closed state, and operation of the outside handle coaxial with the pole and associated with the pole and the outside handle. And a lift lever for rotating the pawl by rotating the first parallel lever coaxially with the pawl between the lift lever and the outside handle, and connected to the lift lever and the outside handle. Good to do.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
As shown in FIGS. 1 and 2, the door closer mechanism 7 is disposed inside the slide door 1 of the vehicle, and is engaged with and disengaged from the striker 3 fixed to the body 2 of the vehicle. The latch mechanism 4 and the latch 41 provided with the latch 41 that creates the fully closed state A (the dashed line in FIG. 1), the door half-closed state B (the dashed line in FIG. 1), and the door open state C (the solid line in FIG. The sliding door 1 includes a link mechanism 5 having a passive lever 51 for operating the door from a half-closed state to a fully closed state of the door, and a drive mechanism 6 having a motor 61 for operating the passive lever 51. The latch mechanism 4 is located on the upper front side of the base plate 8 (above the door shown in FIG. 1), the link mechanism 5 is located on the upper back side of the base plate 8 (above the door shown in FIG. 1), and the drive mechanism 6 is located below the base plate 8 (see FIG. The door closer mechanism 1 is unitized by the base plate 8 and is held in the slide door 1.
[0012]
As shown in FIG. 3, the latch mechanism 4 includes a latch 41, a pawl 42, and a housing 43.
[0013]
The housing 43 is fixed to the base plate 8 and houses the pawl 42 and the latch 41. The housing 43 has an insertion groove 43a through which the striker 3 enters and exits according to the opening and closing operation of the slide door 1.
[0014]
The pawl 42 and the latch 41 are rotatably supported by the housing 43 by pins 42a and 41a, respectively. On the outer peripheral surface of the latch 41, a U-shaped groove 41b for receiving the striker 3 that has entered the insertion groove 43a of the housing 43, and a first engagement claw 41c and a second engagement claw 41d capable of being disengaged from the pawl 42 are formed. Have been. The pawl 42 is adapted to engage with the first engaging claw 41c and the second engaging claw 41d of the latch 3 by its rotating operation. The pins 41a and 42a extend through the housing 43 and the base plate 8 to the rear side of the base plate 8 where the link mechanism 5 is arranged.
[0015]
In the thus configured pawl 42 and latch 41, with the striker 3 received in the U-shaped groove 41 b of the latch 41, the pawl 42 and the first engaging claw 41 c of the latch 41 engage and the latch 41 The door 8 is held in the door half-closed state B by the rotation of the pawl 42, and the pawl 42 engages with the second engaging claw 41d of the latch 41 to rotate the latch 41 by the pawl 42. By being regulated, the slide door 1 is held in the door completely closed state A. Further, the pawl 42 is rotated to release the engagement of the latch 41 with the first and second engaging claws 41c and 41d, and the slide door 1 is slid.
[0016]
As shown in FIGS. 2, 4, and 5, the link mechanism 5 includes a passive lever 51, an active lever 52, a latch lever 53, and a cancel lever 55.
[0017]
The passive lever 51 and the active lever 52 are disposed between the back side of the base plate 8 and a bracket 81 fixed to the base plate 8 so as to be substantially parallel to the base plate 8 and supported by the bracket 81 by pins 54a and 54b. ing. The passive lever 51 and the active lever 52 are formed with long holes 51a, 51b, 52a, and 52b through which pins 54a and 54b are inserted, respectively. Linear sliding is possible in the extending direction of 51b, 52a, 52b.
[0018]
A pin 41 a for supporting the latch 41 of the latch mechanism 4 is rotatably supported by the base plate 8 via a bush 44 so as to rotate integrally with the latch 41. The latch lever 53 includes the latch 41, the passive lever 51 and the active lever 51. It is arranged in parallel with the lever 52 and is fixed to the pin 41a, so that it rotates integrally with the latch 41. Thus, the linear sliding operation of the passive lever 51 and the active lever 52 is performed on a plane parallel to the rotation trajectory of the latch 41 and the latch lever 53. The passive lever 51 is formed with a pressing portion 51c which is bent so as to cross the surface on the rotation locus of the latch lever 53. The pressing portion 51c engages with the latch lever 53 by a linear sliding operation in one direction (left direction in FIG. 4) of the passive lever 51 to move the latch lever 53 in one direction (when the slide door 1 is moved from the door half-closed state B to the door). The latch 41 is placed against the latch lever 51 so as to press the latch 41 in the fully closed state A in the counterclockwise direction shown in FIG. The passive lever 51 and the active lever 52 are constantly urged in the other direction (right direction in FIG. 4) by springs 51e and 52f disposed between the base plate 8 and the bracket 81, respectively.
[0019]
The cancel lever 55 is disposed in parallel with the passive lever 51 and the active lever 52 so that the active lever 52 is sandwiched between the cancel lever 55 and the passive lever 51, and is rotatably supported by the passive lever 51 by a pin 51d. I have. The cancel lever 55 receives the urging force of a spring 55b which is disposed around the pin 51d and has one end fixed to the passive lever 51 and the other end locked to the cancel lever 55. Have been. Further, a pin 55a extending across the active lever 52 is fixed to the tip of the cancel lever 55. The active lever 52 has a notch 52c for receiving the pin 55a of the cancel lever 55. The notch 52c has a pair of walls 52d and 52e orthogonal to the direction of the linear sliding operation of the active lever 55. The walls 52d and 52e engage with the pin 55a by the linear sliding operation of the active lever 52. And is arranged with respect to the pin 55a. Further, between the wall portion 52d and the wall portion 52e, the pin 55a is opened by the spring 55b of the cancel lever 55 such that the pin 55a comes out of the notch 52c by the clockwise rotation operation shown in FIG. The length is set so that the pin 55a does not engage with the pin 55a when the pin 55a comes out of the notch 52c. The length of the wall portion 52d is set so as to always engage regardless of the positional relationship between the pin 55a and the notch 52c. Accordingly, the linear sliding operation in one direction and the other direction of the active lever 52 is transmitted to the passive lever 51 via the cancel lever 55 by the engagement between the pin 55a and the wall portions 52d and 52e, and the active lever 52 and the passive lever And 51 perform a linear sliding operation integrally in the same direction. In addition, by rotating the cancel lever 55 so that the pin 55a comes out of the notch 52c, the one-way linear sliding operation of the active lever 52 can be performed by engaging the pin 55a with the wall 52e. The active lever 52 and the passive lever 51 perform a linear sliding operation integrally in the same direction in the same direction. However, the linear sliding operation in the other direction of the active lever 52 is performed by the pin 55a and the wall 52e. Since it is not engaged, it is not transmitted to the passive lever 51, and only the active lever 52 slides linearly (the active lever 52 swings with respect to the passive lever 51).
[0020]
As shown in FIG. 2, the driving mechanism 6 includes a motor 61 and is held on the base plate 8 via a bracket 82. The motor 61 of the drive mechanism 6 is connected to a disc-shaped output cam 62 via a speed reduction mechanism (not shown) composed of a plurality of gears. The output cam 62 is connected to the active lever 52 of the link mechanism 5 via a transmission link 63. Accordingly, the transmission link 63 is pushed and pulled by the rotation of the output cam 62 by the operation of the motor 61, and the active lever 52 performs a linear sliding operation.
[0021]
As shown in FIGS. 2, 5, and 6, the lift lever 9 connected to the pawl 42 of the latch mechanism 4 is rotatably supported on the pin 42a. A first parallel lever 81 is rotatably supported by the pin 42a via a collar 84. A second parallel lever 82 is connected to the base plate 8 by the pin 82a substantially in parallel with the first parallel lever 81. It is rotatably supported. Further, a moving lever 83 is supported by the first parallel lever 81 and the second parallel lever 82 by pins 83a and 83b. The first parallel lever 81 is connected to the lift lever 9 so as to rotate the lift lever 9 by the rotation thereof, and is connected to the outside handle 11 (shown in FIG. 1) provided on the slide door 1. Have been. By operating the outside handle 11 to rotate the first parallel lever 81 clockwise as shown in FIG. 6, the movement lever 83 is moved by the action of the second parallel lever 82 to the position indicated by the solid line in FIG. , Without changing its posture, and the lift lever 9 rotates and the pole 42 rotates. The first parallel lever 81 and the second parallel lever 82 are constantly urged to rotate counterclockwise as shown in FIG. 6 by a spring 82b disposed around a pin 82a. The spring 81a disposed around the pin 42a always urges the lift lever 9 to rotate. The moving lever 83 has a rectangular hole 83c into which the pin 55a of the cancel lever 55 is inserted, and the moving operation of the moving lever 83 by the turning operation of the first and second parallel levers 81 and 82 causes the rectangular hole 83c to move. The wall 83d and the pin 55a are engaged with each other. As a result, the pin 55a is pressed by the wall 83d, and as a result, the cancel lever 55 rotates clockwise as shown in FIG. 4 so that the pin 55a comes out of the notch 52c.
[0022]
As shown in FIG. 4, an inclined contact wall 51f is formed in the pressing portion 51c of the passive lever 51. The latch lever 53 is disposed so as to be located on the movement trajectory of the tip of the contact wall 51f when the passive lever 51 linearly slides in the door open state C of the slide door 1, and in this state, the contact wall 51 f is configured to contact the latch lever 53.
[0023]
Next, the operation will be described.
[0024]
FIG. 4 shows the state of the link mechanism 5 in the door open state C, and this state is the initial position of each lever.
[0025]
In this state, when the slide door 1 is closed, the striker 7 and the latch 41 of the latch mechanism 4 are engaged, and the door is in the half-closed state B. At this time, since the latch 41 rotates, the latch lever 53 also rotates accordingly.
[0026]
When the sliding door 1 is in the door half-closed state B, and the state is detected by a sensor (not shown) such as a latch switch or a pole switch, the motor 61 is operated, and the output cam 62 is initialized by the operation of the motor 61. When the active lever 52 and the passive lever 51 are rotated by 180 ° from the position, the wall portion 52e of the active lever 52 pushes the pin 55a of the cancel lever 55 as described above, so that the active lever 52 and the passive lever 51 integrally move in the leftward direction in FIG. Performs linear slide operation. Thereby, as shown in FIG. 7, the pressing portion 51c of the passive lever 51 presses the latch lever 53, and the latch lever 53 rotates. As a result, the latch 41 also rotates with the rotation of the latch lever 53, and the slide door 1 enters the completely closed state C.
[0027]
After the slide door 1 is in the completely closed state C, the output cam 62 is further rotated by 180 ° to return to the initial position and returns to the initial position, and the active lever 52 and the passive lever 51 are also moved rightward as shown in FIG. It returns to the initial position by linear sliding operation. At this time, the passive lever 51 and the active lever 52 perform the return operation following the return operation of the output cam 62 mainly by the biasing force of the springs 51e and 52f, but do not function because the spring 51e and the spring 52f come off. Even in this state, the active lever 52 is reliably returned by being pushed by the transmission link 63 in the return operation of the output cam 62, and the passive lever 51 is configured such that the pin 55a of the cancel lever 55 is notched in the active lever 52. By being pressed by the wall portion 52d of 52c, the return operation of the active lever 52 is reliably performed following the return operation of the active lever 52.
[0028]
When the outside handle 11 is operated in the process of the slide door 1 moving from the door half closed state B to the door fully closed state C, the moving lever 83 moves and the cancel lever 55 rotates clockwise as shown in FIG. . As a result, the pin 55a of the cancel lever 55 comes out of the notch 52c of the active lever 52, and the engagement between the pin 55a and the wall 52e is released (the link between the active lever 52 and the passive lever 51 via the cancel lever 55 is disconnected. 7), only the active lever 52 continues the leftward linear sliding operation shown in FIG. 7, and the passive lever 51 stops the leftward linear sliding operation shown in FIG. As a result, the rotation operation of the latch lever 53 is stopped, and the operation of bringing the slide door 1 into the door completely closed state C is stopped. At this time, since the passive lever 51 is disconnected from the active lever 52, the biasing force of the spring 51e causes the passive lever 51 to linearly slide rightward in FIG. 7 and return to the initial position as shown in FIG. . When the outside handle 11 is operated, the lift lever 9 is also rotated to rotate the pawl 42 of the latch mechanism 4, so that the slide door 1 is brought into the door open state A by the rotation of the latch 41. At this time, the pressing portion 51c of the passive lever 51 is formed with an inclined contact wall 51f that can contact the latch lever 53 when the slide door 1 is in the open state, so that as shown in FIG. The latch lever 53 presses the pressing portion 51f by the rotation of the latch lever 53 accompanying the rotation of the latch 41 when the slide door 1 enters the door open state A. Thereby, the passive lever 51 reliably returns to the initial position regardless of the return operation by the spring 51f.
[0029]
In the arrangement of the link mechanism 4 in the door open state A of the slide door 1 shown in FIG. 4, the motor 61 operates and the active lever is activated even though the slide door 1 is in the door open state A due to erroneous detection of a sensor or the like. When the passive lever 52 and the passive lever 51 try to linearly slide in the left direction in FIG. 4, the contact wall 51f of the passive lever comes into contact with the latch lever 53 as shown in FIG. . As a result, the engagement of the passive lever 51 with the pressing portion 51c and the latch lever 53 is prevented. At this time, the pressing load due to the linear sliding operation of the passive lever 51 applied to the latch lever 53 from the contact wall 51c is directed to the pin 41a serving as the rotation center of the latch lever 53 from the inclination angle of the contact wall 51c with respect to the latch lever 53. become. Therefore, at this time, the latch lever 53 does not rotate due to the pressing load.
[0030]
【The invention's effect】
According to the present invention, the movable lever supported by the first and second parallel levers is provided, and the cancel lever is rotated by the moving operation of the movable lever. Therefore, the active lever and the passive lever are moved. Even if the engagement point between the moving lever and the cancel lever changes due to the operation, the rotation stroke of the cancel lever with respect to the moving stroke of the moving lever can be always constant by the action of the first and second parallel levers, Cancellation failure can be prevented without lengthening the lever.
[0031]
Further, according to the present invention, a pin is provided on the cancel lever, and a rectangular hole through which the pin is inserted is provided on the movable lever. Since the rotary operation is performed, the arrangement of each lever can be realized in the minimum space, the space efficiency is good, and the apparatus itself does not become large.
[0032]
Also, according to the present invention, the first parallel lever is arranged on the rotation axis of the pawl and connected to the lift lever and the outside handle, so that the operation of the pawl and the cancel lever can be performed simultaneously by the operation of the first parallel lever. Thus, the reliability of the cancel operation can be further improved. In addition, the number of parts can be minimized, and the cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a plan view of a slide door of a vehicle equipped with a door closer device according to the present invention.
FIG. 2 is an exploded perspective view of the door closer device according to the present invention.
FIG. 3 is a plan view showing a latch mechanism of the door closer device according to the present invention.
FIG. 4 is a plan view of the door closer device according to the present invention.
FIG. 5 is a sectional view taken along line DD of FIG. 4;
FIG. 6 is a plan view showing a cancellation structure of the door closer device according to the present invention.
FIG. 7 is a plan view corresponding to FIG. 3 and showing the operation of the door closer device according to the present invention.
FIG. 8 is a plan view, corresponding to FIG. 3, showing the operation of the door closer device according to the present invention.
FIG. 9 is a view for explaining the operation of the door closer device according to the present invention.
FIG. 10 is a diagram illustrating the operation of the door closer device according to the present invention.
[Explanation of symbols]
3 striker 6 drive mechanism 9 lift lever 11 outside handle 41 latch 42 pawl 53 latch lever 51 passive lever 52 active lever 55 cancel lever 81 first parallel lever 82 second parallel lever 83 moving lever 83c rectangular hole 83d wall

Claims (4)

A latch on the door side which is engaged with the striker on the body side by rotation to create a fully closed state and an open state of the door with the half closed state of the door interposed therebetween; a latch lever which rotates integrally with the latch; A passive lever for rotating the latch together with the latch lever so as to move the latch from the half-closed state of the door to the fully closed state of the door, an active lever linked to a driving mechanism to operate the passive lever, and the passive lever. And a cancel lever disposed between the active lever and transmitting the operation of the active lever to the passive lever as an operation of the passive lever by a pivoting operation or causing the active lever to swing with respect to the passive lever. In the door closer device having the Door closing device having a movable lever for operating, and first and second parallel levers movably supports the movable lever. The door closer device according to claim 1, wherein the moving lever has a rectangular hole provided with a wall portion that presses the cancel lever in the moving operation. 3. The cancel lever according to claim 2, wherein the cancel lever includes a pin inserted into the rectangular hole and engageable with the wall, and the passive lever, the active lever, the cancel lever, and the moving lever are stacked and arranged. Closer device. A rotatable pole that holds the latch to create the door half-closed state or the fully-closed state, and that is coaxial with the pole and is linked to the pawl and the outside handle to operate the outside handle. A lift lever for rotating the pawl, and the first parallel lever is disposed coaxially with the pawl between the lift lever and the outside handle and connected to the lift lever and the outside handle. The door closer device according to claim 1.

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