JP4548751B2 - Shift switch device for vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicular shift switch device attached to an operation device of an automatic transmission capable of switching a gear ratio of a vehicle in both automatic and manual modes.
[0002]
[Prior art]
Conventionally, as this type of so-called sport mode AT shift switch, for example, there is a technique disclosed in Japanese Patent Laid-Open No. 9-196153. 2. Description of the Related Art Conventionally, an operation device for an automatic transmission with a manual switching mechanism includes a shift lever having a first shift path in an automatic transmission mode having a P, R, N, D range, etc. Three paths are moved: a shift path and a third shift path in a manual shift mode in which shift up / down is manually switched. The main body of the shift switch that detects each of these modes mainly has three switches. The first switch is a select switch that detects whether the shift lever is in the third shift path in the first shift path. The second switch is a shift-up switch that detects whether it has been operated to the upshift position (+), and the third switch is a downshift switch that detects whether it has been operated to the downshift position (−).
[0003]
[Problems to be solved by the invention]
However, the switch body of the above-described conventional shift switch has a select movable element projecting from the switch body in the vehicle width direction, so that it becomes larger in the lateral direction, and two upwards from the switch body to the vehicle. Since the shift movable element is arranged so as to protrude, there is a problem that the size is increased in the vertical direction, the entire switch is large, and the entire speed change operation device is enlarged.
[0004]
Further, the shift switch described above detects the position of the shift lever by always engaging the three movable elements of the shift switch with the shift arm and the select arm of the arm installed on the shift lever. It is a switch that opens and closes by the movement of each mover. For this reason, two arm members and three movers are required, which increases the number of parts and the number of assembling steps, resulting in an increase in cost.
[0005]
The arm, each mover, and the switch main body must be installed in the vicinity of the pivot shaft of the shift lever in order to shorten the size and reduce the size, and the movement distance of the arm and each mover must be shortened. Don't be. For this reason, although the switch body is installed on the base plate, there is a problem that the base plate becomes complicated.
[0006]
In addition, the main body of the shift switch described above consists of three switches, a select switch that operates by the movement of the select lever attached to the shift lever, a shift up switch, and a down shift switch, so there are many parts and assembly steps. , Which causes an increase in cost. Further, the main body of the shift switch has a problem that it occupies a large occupied space in the space between the indicator panel and the base plate and complicates the structure of that portion.
[0007]
An object of this invention is to provide the shift switch apparatus for vehicles of a thin and simple structure.
[0008]
[Means for Solving the Problems]
The present invention has been invented to achieve the above-mentioned object, and the invention of claim 1 is directed to an automatic transmission mode in which a gear ratio of a transmission operation device is automatically switched according to an operating state, and the transmission. In a vehicle shift switch device including a manual shift mode for manually switching a ratio, a shift lever for performing the gear ratio switching operation, and a shift switch device for detecting the position of the shift lever, the shift switch device includes: , A select switch for detecting whether the shift lever is in the automatic shift mode or the manual shift mode, and the shift lever is operated to the upshift position (+) or the downshift position (−) when the shift lever is in the manual shift mode. An up / down shift detection switch for detecting whether the selection switch and the up / down shift detection switch are provided. The switch has one operating rod that contacts or engages with a lever portion that swings together with the shift lever, and the select switch opens and closes when the operating rod moves linearly, and the up-down The shift detection switch is opened and closed by swinging the operation rod.
[0009]
According to a second aspect of the present invention, in the first aspect of the invention, the shift lever includes a first shift path for switching the automatic shift mode, a third shift path for switching the manual shift mode, and the third shift path. The shift path device has a case in which the operating rod protrudes from the third shift path that connects the shift path and the first shift path, and the case includes the third shift path. It is arranged near the shift path and below the indicator panel.
[0010]
According to a third aspect of the invention, in the invention of the second aspect, the operating rod is arranged to project from the case toward the first shift path along the second shift path from the third shift path side, and the tip An engaging groove that engages with the shift lever is formed in the portion, and the groove is disposed in the case so as to be able to move forward and backward.
[0011]
According to a fourth aspect of the invention, in the third aspect of the invention, the second shift path intersects at a D range position provided in the first shift path, and the operation lever moves the shift lever to the D range position. A long arm that strikes the shift lever when operated to a position, a short arm that does not contact the shift lever when the shift lever is operated to the D range position, and the long arm and short arm And the engaging groove formed between the two.
[0012]
According to a fifth aspect of the invention, in the invention of the fourth aspect, the operating rod is formed by chamfering the upper and lower surfaces of the edge of the engagement groove.
[0013]
The invention according to claim 6 is the invention according to claim 4 or 5, wherein the operating rod has a diameter of the lever portion of the shift lever t1, a length of the short arm t2, and a length of the long arm. Where t3 is the length t1, t2.
t1 <t2
And
t3> t2 + t1 / 2
Made up of
[0014]
The invention according to claim 7 is the invention according to claim 1, 2, 3, 4, 5, or 6, wherein the shift switch device is fixed when the operating rod moves linearly along the second shift path. A first movable plate having a first movable contact plate that contacts the contact; and a second movable contact plate for an up-downshift detection switch that contacts the fixed contact when the operating rod is pushed into the case and swings. And a second movable board provided with
[0015]
The invention of claim 8 is the invention of claim 7, wherein the first movable platen and the operating rod are integrally formed of a non-conductive material in a thick plate shape.
[0016]
The invention according to claim 9 is the invention according to claim 7 or 8, wherein the first movable plate is stored in a storage space formed in the second movable plate, and can be moved back and forth along the inner wall of the storage space. And in-house 2 A return spring is installed between the movable platen and the second movable plate rotates together with the first movable plate about a shaft portion provided in the case.
[0017]
According to a tenth aspect of the present invention, in the invention according to the ninth aspect, the second movable plate is provided in the case so as to overlap the first movable plate, and the case includes the first movable plate and the second movable plate. The movable plate is engaged with a sliding electrode plate.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
As shown in FIG. 1, the shift lever 1 is manually operated from the first shift path 2a formed in the automatic shift mode such as the P, R, N, and D ranges formed on the indicator panel 2 and the manual shift mode, for example, from the D range position. A substantially U-shaped path comprising a second shift path 2b that communicates with the shift mode and a third shift path 2c that forms a manual shift mode in which shifting up (+) and down (-) can be manually switched. Move as guided by.
[0019]
The shapes of the first to third shift paths 2a, 2b, 2c are not particularly limited. For example, the first shift path 2a may be non-linear other than a straight line or stepped.
[0020]
Under the indicator panel 2, as shown in FIG. 1, a cover 3, a shift switch device 4 for an operation device for an automatic transmission in a sports mode, and a block 5 are arranged.
[0021]
As shown in FIGS. 1 and 2, the shift lever 1 swings the first shift path 2a and the third shift path 2c in the longitudinal direction of the vehicle in the direction of arrows A, B, C, E with the first shaft 6 as a center. Move. The shift lever 1 swings the second shift path 2b in the lateral direction of arrows F and G about the second shaft 7. The shift lever 1 includes a grip 1c having a push button 1a at an upper portion and a lever portion 1d at a lower portion. As shown in FIG. 1, the lever portion 1 d has a detent pin 1 b that moves up and down together with the push button 1 a and is supported by the engaging portion 5 b of the detent plate 5 a of the block 5.
[0022]
In the shift switch device 4, a case 13 is disposed at a lower portion of the indicator panel 2 or the cover 3 along the back surface of the indicator panel 2, and the upper surface of the block 5 and the cover 3 are secured by screws 8 ′ shown in FIG. And is fixed to the back surface of the indicator panel 2 or the like. The shift switch device 4 includes a select switch S1 that detects whether the shift lever 1 is in the first shift path 2a or the third shift path 2c, and an up that detects shift up (+) / down (-). It consists of a downshift detection switch S2 and has two switch functions.
[0023]
The select switch S1 includes one operating rod 8 formed in the direction of the first shift path 2a and the third shift path 2c, a first movable plate 9 provided integrally with the operating rod 8, and the first switch It comprises a first contact spring 10 inserted in the movable platen 9, a first movable contact plate 11 biased by the first contact spring 10, a return spring 12, and fixed contacts 16a, 16b and 16c.
[0024]
The operation rod 8 is formed, for example, in a substantially J shape with a non-conductive resin. The operating rod 8 is disposed flat in a direction substantially orthogonal to the lever portion 1d of the shift lever 1. The operating rod 8 is directly engaged with an arbitrary position of the lever portion 1d of the shift lever 1 without any other member. The operating rod 8 is formed with an engaging groove 8a and arms 8b and 8c on one end side, protrudes from the opening 13a of the case 13, and has a first movable contact plate 11 locked on the other end side. 9 is integrally formed in the second movable platen 14 so as to be movable in the directions of arrows F and G.
[0025]
The operating rod 8 may be made of metal. In this case, the first movable platen 9 is insert-molded with a nonconductive material such as a resin.
[0026]
The first movable platen 9 has a blind hole 9a in which a return spring 12 is inserted in the front end surface, and a blind hole 9b in which a first contact spring 10 for urging the first movable contact plate 11 is inserted in the lower surface. And drilled. Further, the first movable platen 9 and the operating rod 8 may be formed as separate members and engaged so as to be interlocked.
[0027]
The operating rod 8 is urged toward the shift lever 1 by the return spring 12 as shown in FIGS. 5 and 8, etc., and the first movable plate 9 is pressed against the inner wall 13b of the case 13, and the engaging groove 8a. As shown in FIG. 3, the length L2 protrudes from the third shift path 2c in the manual shift mode.
[0028]
As shown in FIG. 5, the first movable platen 9 is accommodated in a storage space formed in the second movable platen 14, and a plurality of convex portions 9c engaging with guide grooves 14b formed in the inner wall 14a of the storage space are provided on the upper surface. It is formed and linearly moves in the second movable platen 14 in the directions of arrows H and I. The first movable board 9 and the operating rod 8 are held in a linearly movable manner by a second movable board 14 provided in the case 13 and a pole board 15 which also serves as a cover.
[0029]
The first movable platen 9 has a spherical sliding contact projection 9d that is slidably contacted with the inner wall 14a on the upper surface and a spherical sliding contact projection 9e that is slidably contacted with the platen surface 15a of the pole plate 15 on the lower surface. Form and slide smoothly.
[0030]
The engagement groove 8a is a groove with which the shift lever 1 is engaged, and is formed of a U-shaped groove formed between the long arm 8b and the short arm 8c. Chamfers 8d and 8e are formed on the upper and lower surfaces of the edge of the engaging groove 8a. As shown in FIG. 4, the engaging groove 8a is formed when the shift lever 1 is in the neutral position of the manual transmission mode M, when the shift lever 1 is operated to the shift-up position (+), and when the shift lever 1 is shifted. When the lever portion 1d is operated to the down position (−), the lever portion 1d always comes into contact with the vertical center portion of the engagement groove 8a. The contact portion of the engagement groove 8a with which the lever portion 1d that has been swung is contacted is not the upper and lower ends of the engagement groove 8a, but the center portion, so the first and second movable contact plates 11, 17 and the fixed contacts 16a to 16a. Setting of the contact position with 16f is easy.
[0031]
The operating rod 8 has a long arm 8b and a short arm 8c to smoothly engage the engaging groove 8a when the shift lever 1 is in the D range position. The arms 8b and 8c protrude in parallel with the second shift path 2b. The long arm 8b abuts when the shift lever 1 is operated to the D range position of the automatic shift mode of the first shift path 2a, and is long to guide when the shift lever 1 moves on the second shift path 2b. It has become. The engaging groove 8a engages the shift lever 1 and compresses the return spring 12 by a length L2 when the shift lever 1 moves from the D range position to the second shift path 2b to perform the manual shift mode M. To move in the direction of arrow H.
[0032]
The length relationship between the lengths t2 and t3 of the arms 8b and 8c of the operating rod 8 and the diameter t1 of the lever portion 1d is such that the diameter of the lever portion 1d of the shift lever 1 is t1, and the length of the short arm 8c is t2. When the length of the long arm 8b is t3, the lengths t1 and t2 are
t1 <t2
And
t3> t2 + t1 / 2
And
[0033]
The case 13 is formed in a substantially plate-like rectangular shape, and can be easily fixed to the block 5 with two screws 8 ′ at both ends. The case 13 includes a first movable plate 9 that is integrated with the operating rod 8 and includes a first contact spring 10 and a first movable contact plate 11, and a second movable contact that is movably engaged with the first movable plate 9. The plate 17, the second contact spring 18, the moderation spring 19, and the second movable plate 14 provided with the moderation body 20 are accommodated and closed by the pole plate 15.
[0034]
The operation rod 8 and the first movable plate 9 are in the upshift position (+) direction and the downshift position (−) when the moderation body 20 is pressed against the left and right slopes of the moderation groove 13d. When tilted in the direction, it automatically returns to the position on the center line O1-O1 of the original engagement groove 8a.
[0035]
As shown in FIG. 6, the second movable plate 14 has a blind hole 14 d through which a moderation spring 19 and a moderation body 20 are inserted in the upper surface. The second movable plate 14 is brought into contact with the slope of a moderation groove 13d formed in the inner ceiling surface 13c of the case 13 by the moderation body 20, so that the second movable plate 14 and the operating rod 8 are shown in FIG. The center line O1-O1 of the engagement groove 8a, the center lines O2-O2 of the engagement groove 8a when tilted, and the position of O3-O3 are held.
[0036]
The pole board 15 is configured by exposing a plurality of, for example, six conductive plates 16 in the board surface 15a and the connector portion 15b by insert molding or the like. The conductive plate 16 includes fixed contacts 16a, 16b, 16c, 16d, 16e, and 16f arranged flush with the board surface 15a, and terminals 16g, 16h, and 16i that are electrically connected to the fixed contacts 16a to 16f in the connector portion 15b. , 16j, 16k, 16l.
[0037]
The fixed contact 16a is a small rectangular contact plate as shown by a broken line in FIG. 7, and contacts the first movable contact plate 11 when the shift lever 1 as shown in FIG. 8 is in the automatic transmission mode. The fixed contact 16b is a large rectangular contact plate as indicated by a broken line in FIG. 7, and is always under the shaft 14c and is always in contact with the first movable contact plate 11. The fixed contact 16c is a fan-shaped contact plate as shown by a broken line in FIG. 7, and contacts the first movable contact plate 11 when the shift lever 1 as shown in FIGS.
[0038]
The fixed contact 16d is a large arc-shaped contact plate as shown in FIG. 7, and the second movable contact plate 17 is always in contact therewith. The fixed contact 16e is a small fan-shaped contact plate as shown in FIG. 7, and contacts the second movable contact plate 17 when the shift lever 1 is in the upshift position (+) of the manual transmission mode M as shown in FIG. To do. The fixed contact 16f is a small fan-shaped contact plate as shown in FIG. 7, and contacts the second movable contact plate 17 when the shift lever 1 is in the downshift position (−) of the manual transmission mode M as shown in FIG. To do.
[0039]
The fixed contacts 16a to 16f may be printed on the surface of the pole board 15, or may be crimped and fixed, and the installation means is not particularly limited. Further, the pole board 15 may be a printed board, and the connector portion 15b may be a board that is separate from the printed board and fixed to the printed board.
[0040]
The up / downshift detection switch S2 includes the second movable platen 14, a second movable contact plate 17 installed on the second movable platen 14 and biased by a second contact spring 18, and the second movable contact plate. The fixed contact 16d that 17 is always in contact with, a fixed contact 16e for upshifting (+), and a fixed contact 16f for downshifting (-).
[0041]
The present invention is configured as described above. Next, the operation will be described in detail with reference to the accompanying drawings. The operation rod 8 is in a state as shown in FIG. 8 when the shift lever 1 is operated to the D range position of the first shift path 2a. That is, the operating rod 8 is pressed by the return spring 12 and protrudes, the first movable contact plate 11 is in contact with the fixed contacts 16a and 16b, and the second movable contact plate 17 is fixed by contacting only the fixed contact 16d. The contacts 16e and 16f are in a non-contact state, and the select switch S1 can detect that the shift lever 1 is in the automatic transmission operation mode.
[0042]
When the shift lever 1 is in the D-range position, the operating rod 8 is such that the center line O1-O1 of the engagement groove 8a intersects the first shift path 2a and the second shift path 2b as shown in FIG. Therefore, the shift lever 1 can be swung in the direction of the second shift path 2b. The operating rod 8 is oriented in a direction perpendicular to the case 13.
[0043]
When the shift lever 1 is in the second shift path 2b, the operating rod 8 has the center line KK of the engagement groove 8a and the center line of the second shift path 2b on the same straight line as shown in FIG. It is in. As shown in FIG. 3, when the shift lever 1 is operated from the D range position of the first shift path 2a to the point i where the second shift path 2b is moved by a length L3 in the arrow G direction as shown in FIG. Hit the back end of 8a.
[0044]
Further, when the shift lever 1 is operated to the point h in the direction of the arrow G in the second shift path 2b, the operating rod 8 compresses the return spring 12 by the shift lever 1 pressing the engagement groove 8a, and the first movable The contact plate 11 comes into contact with the fixed contact 16b and the fixed contact 16c, and the select switch S1 is turned ON to detect that the shift lever 1 is in the neutral position of the third shift path 2c in the manual shift operation mode.
[0045]
Further, when the shift lever 1 is operated up to the point a intersecting the third shift path 2c in the direction of the arrow G in the second shift path 2b, the operating lever 8 causes the shift lever 1 to press the engagement groove 8a and return spring. 12 is further compressed, and the first movable contact plate 11 slides on the fixed contact 16b and the fixed contact 16c to maintain the ON state of the select switch S1. Then, the shift lever 1 moves on the third shift path 2c in the manual transmission mode M.
[0046]
When the shift lever 1 is in the upshift position (+), the operation rod 8 and the first movable board 9 are tilted in the direction of the upshift position (+). When the shift lever 1 is operated from the point a of the third shift path 2c to the point b of the upshift position (+) in the manual shift mode M, the operating rod 8 is in a state indicated by an imaginary line in FIG. The state shown in FIG. That is, the operating lever 8 is configured such that the shift lever 1 presses the short arm 8c in the direction of arrow C and rotates in the direction of arrow K about the shaft 14c, and the second movable contact plate 17 moves to the fixed contacts 16d and 16f. In contact, the up / down shift detection switch S2 detects that the shift lever 1 is at the upshift position (+) in the manual shift operation mode.
[0047]
At this time, the first movable contact plate 11 is kept in contact with the fixed contact 16b and the fixed contact 16c, together with the second movable contact plate 17, the second movable plate 14, and the first movable plate 9, and an arrow K about the shaft 14c. Rotate in the direction. When the hand is released from the shift lever 1, the shift lever 1 automatically returns to its original state because the moderator 20 is in pressure contact with the inclined surface of the moderation groove 13d.
[0048]
When the shift lever 1 is in the downshift position (−), the operating rod 8 and the first movable board 9 are inclined in the direction of the downshift position (−). When the shift lever 1 is operated from the point a of the third shift path 2c to the point c of the downshift position (−) of the manual shift mode M, the operating rod 8 is in a state indicated by an imaginary line in FIG. The state shown in FIG.
[0049]
That is, the operating lever 8 is configured such that the shift lever 1 presses the long arm 8b and presses in the arrow E direction, which is the rear direction of the vehicle body, and rotates in the arrow J direction around the shaft 14c. The plate 17 contacts the fixed contacts 16d and 16f, and the up / down shift detection switch S2 detects that the shift lever 1 is at the down shift position (−) in the manual shift operation mode.
[0050]
At this time, the first movable contact plate 11 is in contact with the fixed contact 16b and the fixed contact 16c, together with the second movable contact plate 17, the second movable plate 14, and the first movable plate 9, with an arrow J centered on the shaft 14c. Rotate in the direction. When the hand is released from the shift lever 1, the shift lever 1 automatically returns to the position of point a in the original manual transmission mode M because the moderator 20 is in pressure contact with the inclined surface of the moderation groove 13d.
[0051]
Further, when the shift lever 1 is operated from the manual shift mode M of the third shift path 2c to the position of the automatic shift mode of the first shift path 2a, the operating rod 8 is urged by the return spring 12 to return to the original position. Each member returns to the state shown by the solid line in FIG.
[0052]
【The invention's effect】
Since the present invention is configured as described above, it has the following effects.
According to the first aspect of the present invention, there is provided an automatic transmission mode in which a transmission gear ratio of a transmission operation device is automatically switched according to an operating state, a manual transmission mode in which the transmission gear ratio is switched manually, and a transmission operation of the transmission gear ratio. And a shift switch device for detecting the position of the shift lever, the shift switch device determines whether the shift lever is in an automatic shift mode or a manual shift mode. A select switch for detecting, and an up / down shift detection switch for detecting whether the shift lever is operated to the upshift position or the downshift position when the shift lever is in the manual shift mode, and the select switch and the up / downshift detection. The switch is in contact with or engaged with a lever portion that swings together with the shift lever. The selector switch opens and closes when the operating rod moves linearly, and the up / down shift detection switch opens and closes when the operating rod swings, thereby raising the select switch. The downshift detection switch can be integrated into a thin and compact shift switch device, and the operation lever is directly engaged with the shift lever, reducing the number of parts and assembly steps, and mounting work. Can be provided. Further, the shift switch device has a simple structure including a single operation rod, the entire switch is thin, the structure of the operation rod and the like is simple, and a low-cost small shift switch device can be provided.
[0053]
According to a second aspect of the present invention, in the first aspect of the invention, the shift lever includes a first shift path for switching the automatic shift mode, a third shift path for switching the manual shift mode, and the third shift path. The shift path device has a case in which the operating rod protrudes from the third shift path that connects the shift path and the first shift path, and the case includes the third shift path. By arranging it near the shift path and below the indicator panel, the shift switch device can be placed on the back side of the indicator panel away from the pivot axis of the shift lever, and it can be operated at the position where the shift lever swings greatly. Can be engaged. Thereby, the movable platen and the movable contact plate can be moved longer, and contact failure between the movable contact plate and the fixed contact can be prevented. In addition, the case can be aligned with the third path of the shift lever, and the operating rod can be arranged in a plane, thereby providing a compact shift switch device.
[0054]
According to a third aspect of the present invention, in the invention of the second aspect, the operating rod is disposed so as to protrude from the case toward the first shift path along the second shift path from the third shift path side. An engaging groove that engages with the shift lever is formed in a portion, and the groove is disposed so as to be able to move forward and backward and swing in the case, so that the shift lever can be installed in a block or the like without hindering movement. In addition, by installing the single operation rod so that it can be moved to the left and right and swingable, the number of parts and assembly man-hours can be reduced, the cost can be reduced, and the switch can be made thinner and smaller. it can.
[0055]
According to a fourth aspect of the invention, in the third aspect of the invention, the second shift path intersects at a D range position provided in the first shift path, and the operation lever moves the shift lever to the D range position. A long arm that strikes the shift lever when operated to a position, a short arm that does not contact the shift lever when the shift lever is operated to the D range position, and the long arm and short arm And the engaging groove formed between the lever portion and the lever portion smoothly engages with the engaging groove when the shift lever is operated from the first shift path to the second shift path. The movement can be transmitted to the shift switch device and the movement of the shift lever can be detected.
[0056]
According to a fifth aspect of the present invention, in the invention according to the fourth aspect, the operating rod is formed with chamfers on the upper and lower surfaces of the edge of the engaging groove, so that the shift lever is operated to swing. Even if the contact portion moves, the same horizontal plane portion of the operating rod always comes into contact with the lever portion of the shift lever, so that the contact can be easily positioned and the occurrence of contact failure can be prevented.
[0057]
The invention according to claim 6 is the invention according to claim 4 or 5, wherein the operating rod has a diameter of the lever portion of the shift lever t1, a length of the short arm t2, and a length of the long arm. When t3 is set to t3, the lengths t1 and t2 are set to t1 <t2 and t3> t2 + t1 / 2, so that when the shift lever is operated to the D range position, the lever portion smoothly enters the engagement groove. It is possible to prevent the lever portion from being detached from the engaging groove when engaged and when the shift lever is swung to the shift-up position and the shift-down position.
[0058]
According to a seventh aspect of the present invention, in the first, second, third, fourth, fifth or sixth aspect, the shift switch device is fixed when the operating rod moves linearly along the second shift path. A first movable plate having a first movable contact plate that contacts the contact; and a second movable contact plate for an up-downshift detection switch that contacts the fixed contact when the operating rod is pushed into the case and swings. With the second movable plate provided with the above, since the number of parts is small and each component does not take up an occupied space, the structure in the speed change operation device can be simplified.
[0059]
The invention of claim 8 is the invention of claim 7, wherein the first movable plate and the operation rod are integrally formed of a non-conductive material in a thick plate shape, thereby simplifying the shape and structure of the operation rod. And a low-cost shift switch device.
[0060]
The invention of claim 9 is the invention according to claim 7 or 8, wherein the first movable plate is installed so as to be movable forward and backward along an inner wall formed in the second movable plate. 2 A return spring is installed between the movable platen, and the second movable plate rotates together with the first movable plate around a shaft provided in the case, thereby providing a thin and compact shift switch device. be able to.
[0061]
According to a tenth aspect of the present invention, in the invention according to the ninth aspect, the second movable plate is provided in the case so as to overlap the first movable plate, and the case includes the first movable plate and the second movable plate. By engaging the pole plate on which the movable plate slides, the first movable plate and the second movable plate can be assembled to the case in a substantially planar manner, and the entire shift switch device can be thinned. Accordingly, the shift switch device can be easily attached to the lower part of the indicator panel or the cover, and can be installed on the block or the like without hindering the movement of the shift lever.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an attached state of a shift switch device, showing an embodiment of the present invention.
FIG. 2 is a perspective view showing an attached state of the shift switch device, showing the embodiment of the present invention.
FIG. 3 is an enlarged plan view of the shift switch device when the shift lever is operated to the D range position, showing the embodiment of the present invention.
FIG. 4 is an enlarged side view of the shift switch device when the shift lever is operated to the D range position, showing the embodiment of the present invention.
FIG. 5 is an enlarged cross-sectional view of a shift switch device, showing an embodiment of the present invention.
FIG. 6 is a view showing an embodiment of the present invention, and is an enlarged plan view of a shift switch device.
FIG. 7 is a diagram illustrating an embodiment of the present invention, and is an explanatory diagram illustrating a positional relationship of contacts.
FIG. 8 is a diagram showing an embodiment of the present invention, and is an enlarged bottom view of the shift switch device when the pole board is detached and in a neutral state.
FIG. 9 is an enlarged bottom view of the shift switch device in a state in which the pole board is detached and in the up mode in the drawing showing the embodiment of the present invention.
FIG. 10 is a diagram illustrating an embodiment of the present invention, and is an enlarged bottom view of the shift switch device in a state when the pole board is detached and in a down mode.
[Explanation of symbols]
1 Shift lever
1d Lever part
2a First shift path
2b Second shift path
2c Third shift path
4 Shift switch device
8 Operation
8a engaging groove
8b, 8c arms
8d, 8e chamfer
9 First movable platen
11 First movable contact plate
12 Return spring
13 cases
13g shaft
14 Second movable board
14a inner wall
15 poles
16a, 16b, 16c, 16d, 16e, 16f Fixed contact
17 Second movable contact plate
S1 Select switch
S2 Up / down shift detection switch

Claims (10)

An automatic transmission mode for automatically changing the transmission gear ratio according to the driving state, a manual transmission mode for manually changing the transmission gear ratio, and a shift lever (1) for changing the transmission gear ratio And a vehicle shift switch device including a shift switch device (4) for detecting the position of the shift lever (1),
The shift switch device (4) includes a select switch (S1) for detecting whether the shift lever (1) is in an automatic shift mode or a manual shift mode, and the shift lever (1) is in a manual shift mode. An up / down shift detection switch (S2) that detects whether the up-shift position (+) or the down-shift position (−) has been operated.
The select switch (S1) and the up / down shift detection switch (S2) have one operating rod (8) that contacts or engages a lever portion (1d) that swings together with the shift lever (1). With
The select switch (S1) opens and closes when the operating rod (8) moves linearly,
The up / down shift detection switch (S2) opens and closes as the operating rod (8) swings. In the invention of claim 1,
The shift lever (1) includes a first shift path (2a) for switching the automatic shift mode, a third shift path (2c) for switching the manual shift mode, and the third shift path (2c). The second shift path (2b) connecting the first shift path (2a) and the movement path,
The shift switch device (4) has a case (13) in which the operation rod (8) is disposed so as to protrude,
The case (13) is arranged in the vicinity of the third shift path (2c) and in a lower part of the indicator panel (2). In the invention of claim 2,
The operating rod (8) is disposed so as to protrude from the case (13) toward the first shift path (2a) along the second shift path (2b) from the third shift path (2c) side, The shift switch device for a vehicle is characterized in that an engagement groove (8a) that engages with the shift lever (1) is formed on the case (13) and that the case (13) can be moved back and forth and swingable. In the invention of claim 3,
The second shift path (2b) intersects at the D range position provided in the first shift path (2a), and
The operating rod (8) includes a long arm (8b) having a length that hits the shift lever (1) when the shift lever (1) is operated to the D range position, and the shift lever (1) is connected to the D range. The short arm (8c) having a length that does not contact the shift lever (1) when operated to the position, and the engagement groove (8a) formed between the long arm (8b) and the short arm (8c). And a vehicle shift switch device. In the invention of claim 4,
The vehicular shift switch device, wherein the operating rod (8) has chamfers (8d, 8e) formed on the upper and lower surfaces of the edge of the engaging groove (8a). In the invention according to claim 4 or 5,
In the operating rod (8), the diameter of the lever portion (1d) of the shift lever (1) is t1, the length of the short arm (8c) is t2, and the length of the long arm (8b) is t3. Sometimes, the lengths t1 and t2 are set to t1 <t2
And t3> t2 + t1 / 2
A shift switch device for a vehicle characterized by the above. The invention according to claim 1, 2, 3, 4, 5, or 6, wherein the shift switch device (4) is configured such that the operating rod (8) linearly moves along the second shift path (2b). A first movable platen (9) provided with a first movable contact plate (11) that contacts the fixed contacts (16a, 16b, 16c);
A second movable contact plate (17) for the up / down shift detection switch (S2) that contacts the fixed contact (16d, 16e, 16f) when the operating rod (8) is pushed into the case (13) and swings. A second movable plate (14) provided with
A shift switch device for a vehicle, comprising: In the invention of claim 7,
The shift switch device for a vehicle, wherein the first movable plate (9) and the operating rod (8) are integrally formed of a non-conductive material in a thick plate shape. In the invention according to claim 7 or 8, the first movable platen (9) is housed in a storage space formed in the second movable platen (14) and along the inner wall (14a) of the storage space. A return spring (12) is installed between the second movable plate ( 14 ) and the shaft (13g) provided on the case (13). A shift switch device for a vehicle that rotates together with the first movable platen (9) around the center. In the invention according to claim 9, the second movable plate (14) is provided in the case (13) so as to overlap the first movable plate (9), and the case (13) is provided with the first movable plate (9). movable platen (9) and a second movable plate (14) is a vehicle shift switch device characterized by engaging a switch board (15) to slide.

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