JP2002147586A - Position detector for change lever - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow the use of a conventional type detecting means (controller) in adopting a new system to a position detector for a change lever in a transmission operating mechanism. SOLUTION: A detected means (not shown in the figure) displaced according to the operation of the change lever 30 is provided, and detecting means 20-24 turned on when the detected means enters a reaction range are arranged one by one in positions on coordinates X-Y corresponding to the detected operating position of the change lever 30. A logical circuit 39 is provided for converting position signals on the X-Y coordinates of the detecting means 20-24 into a position signal on an X-axis and a position signal on a Y-axis.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a change lever position detecting device in a transmission operating mechanism.

[0002]

2. Description of the Related Art In an operation mechanism of a transmission, means for generating a position signal (shift instruction position signal) of a change lever based on a manual operation, an actuator for driving a gear shift mechanism of the transmission,
Means for controlling an actuator so as to gear-shift the transmission to a gear position corresponding to a position signal of a change lever.
-90027).

FIGS. 4 and 5 show a change lever position detecting device used in such an operation mechanism.
Is known. Reference numeral 1 denotes a slider movable in the X direction, and 2 denotes a slider movable in the Y direction. Change levers are provided in these elongated holes 1a and 2a (formed long in a direction perpendicular to the moving direction of the sliders 1 and 2). 5 is engaged at the lower end. The change lever 5 is provided with a fulcrum above an engagement portion with the sliders 1 and 2, and when operated in the X direction, moves the slider 1 in the X direction. On the other hand, when the slider 2 is operated in the Y direction, the slider 2 is moved in the Y direction (the slider 1 does not operate because the slot 1a allows the movement of the change lever 5).

[0004] Detection means 3, 4 (magnets) are arranged one by one on the side surface along the moving direction of the sliders 1, 2. Detection means 10 to 13 which are turned on when magnets 3 and 4 enter the reaction range.
(Sensors provided with magnetic detecting elements) are arranged one by one on the fixed side opposite to both ends of each movement range of the magnets 3 and 4.
FIG. 6 shows an operation area of the change lever 5 that can be detected by a combination of these outputs based on the sensors 12 and 13 arranged in the X direction and the sensors 10 and 11 arranged in the Y direction. The output states (output patterns of the terminals to) of the sensors 10 to 13 corresponding to the operation areas A to I are tabulated as shown in FIG. 1 is ON
A signal, 0 is an OFF signal.

In the h type (see FIG. 1) in which the operation pattern of the change lever 5 is simple, the UP (shift up) position is in the operation area A, and the DN (shift down) is in the operation area G.
Position, H (hold) position in operation area D, N (neutral) position in operation area F, R (reverse) in operation area I
Position is set. For example, the output of the sensor 10 arranged in the X direction is 1, the output of the sensor 11 similarly arranged is 0,
When the output of the sensor 12 arranged in the Y direction is 1 and the output of the sensor 13 arranged in the same direction is 0 (corresponding to the output pattern of the operation area A in FIG. 7), a controller (not shown) for shifting the transmission. The means for controlling the actuator) detects that the change lever is at the UP position by the combination of these outputs.

[0006]

In such a conventional device, since the slider 1 and the magnet 3 in the X direction and the slider 2 and the magnet 4 in the Y direction are incorporated, the lever operation is heavy (resistance is high). Becomes large), and it is difficult to secure a smooth movement, and it is difficult to reduce the size. Therefore, the number of the detection means (magnets) is reduced to one, and the detection means (sensor) which is turned on when the detection means enters the reaction range is changed to the XY corresponding to the operation position to be detected by the change lever. It is conceivable to arrange each one at a position on the coordinates.

If this is adopted for the h type shown in FIG. 1, sensors 20 to 24 are arranged one by one at the UP position, the DN position, the H position, the N position, and the R position. In the controller, the operation position of the change lever 30 indicates that the output is 1
(ON signal) is detected as a position on the XY coordinates corresponding to the sensors 20 to 24. In this system, as compared with the conventional apparatus shown in FIGS. 4 and 5, the operation positions (UP position, DN position, H position, N position, and R position) of the change lever 30 to be detected are the same regardless of the number of output terminals. The number of (sensors) increases by one. In the conventional controller, the position of the change lever 5 is detected by a combination of these outputs based on the sensors 12 and 13 arranged in the X direction and the sensors 10 and 11 arranged in the Y direction. Therefore, even if the number of output terminals (sensors) matches, they cannot be shared by the detection device of FIG. That is, if the change lever position detecting device is changed from the conventional system shown in FIGS. 4 and 5 to the new system shown in FIG. 1, the controller must be changed to a new system. The cost will increase greatly.

SUMMARY OF THE INVENTION The present invention has been made in view of such a problem, and in a change lever position detecting device, when a new method is adopted, a conventional method of detecting means (controller) is used. Things.

[0009]

According to a first aspect of the present invention, in a transmission operating mechanism, a detecting means which is displaced in accordance with an operation of a change lever is provided, and a detecting means which is turned on when the detecting means enters a reaction range. Are arranged one by one at positions on the XY coordinate corresponding to the operation position of the change lever to be detected, while the X
-A logic circuit for converting a position signal on the Y coordinate into a position signal on the X axis and a position signal on the Y axis is provided.

According to a second aspect of the present invention, in the first aspect, the detected means is set to a magnet, and the detecting means is set to a sensor having a magnetic detecting element.

In a third aspect of the present invention, in the first aspect, the logic circuit connects each detecting means in parallel with a terminal corresponding to a position on the X-axis and a terminal corresponding to a position on the Y-axis. And a diode for rectifying an electric signal between the wires.

[0012]

In the first to third inventions, the position signal on the XY coordinate of each detecting means is converted into the position signal on the X axis and the position signal on the Y axis by the logic circuit. Is done. Therefore, the detecting means is arranged one by one at the position on the XY coordinate corresponding to the operating position of the change lever to be detected. As a means for detecting the operating position of the change lever, a position signal on the X axis is used. And a conventional method of detecting by a combination of the position signal on the Y-axis and the position signal on the Y-axis. Also, by arranging the detecting means, which is turned on when the detected means enters the reaction range, at positions on the XY coordinates corresponding to the operation positions to be detected by the change lever, one detecting means is provided. Since only the change is required, it is easy to ensure smooth and good operability of the change lever.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a first embodiment. In a case where the operation pattern of the change lever 30 is a simple h-type, a detected means (FIG. 1) which is displaced in accordance with the operation of the change lever 30 is shown in FIG. (Not shown). 20-24
Is a detecting means which is turned on when the detected means enters the reaction range, and is disposed one at a time on the XY coordinate corresponding to the operating position of the change lever 30 to be detected. A magnet (sensor) and a sensor (switch) including a magnetic detecting element as the detecting means 20 to 24 are set as the means to be detected.

Are output terminals for conventional detection means (a controller for controlling an actuator so as to shift the transmission), and the position signals on the XY coordinates of the sensors 20 to 24 are converted into position signals on the X axis. And a logic circuit 39 for converting the signal into a position signal on the Y-axis. In this case, the logic circuit 39 connects the sensors 20 to 24 in parallel with the output terminal corresponding to the position on the X-axis and the output terminal corresponding to the position on the Y-axis.
0a to 40i, and diodes 41a to 41e for rectifying electric signals between wirings.

More specifically, the sensor 20 at the UP position (corresponding to the operation area A in FIGS. 6 and 7) includes the wirings 40a and 40a.
b, 40e, the output terminal corresponding to the position on the X axis, the wiring 40a, the output terminal corresponding to the position on the Y axis, and the DN position (corresponding to the operation area G in FIGS. 6 and 7). The sensor 21 includes wirings 40c, 40d, 40
an output terminal corresponding to a position on the X-axis via e
Output terminal corresponding to a position on the Y-axis via wiring 40c, H position (corresponding to operation area D in FIGS. 6 and 7)
Is an output terminal corresponding to the position on the X-axis via the wiring 40e, and the sensor 23 at the N position (corresponding to the operation area D in FIGS. 6 and 7) is on the X-axis via the wiring 40h. The sensor 24 at the R position (corresponding to the operation area I in FIGS. 6 and 7) corresponds to the output terminal corresponding to the position on the X axis via the wirings 40g, 40f, and 40h. Output terminals corresponding to positions on the Y-axis are connected via 40g, 40i, and 40c.

The output pattern of the terminals (1) to (4)
5), the diode 41c for preventing the ON signal of the sensor 22 from flowing from the wiring 40e to the wiring 40a via the wiring 40b, and the ON of the sensor 22.
A diode 41b for preventing a signal from flowing from the wiring 40e to the wiring 40c via the wiring 40d,
The N signal is transmitted from the wiring 40h to the wiring 40g via the wiring 40f.
41d to prevent the current from flowing to the wiring 40c and the ON signal of the sensor 21 from the wiring 40c to the wiring 40i via the wiring 40i.
g, a diode 41e that blocks the flow to g, and a wiring 40g
And ON of the sensor 22 flowing from the wiring 41i to the output terminal corresponding to the position on the Y axis via the wiring 40c.
A diode 4 for preventing a signal from flowing back through the wiring 40c
1a is provided.

The output of each of the sensors 21 to 24 (the position signal on the XY coordinates) is obtained by such a logic circuit 39.
Is converted into a position signal on the X-axis and a position signal on the Y-axis, and supplied to output terminals 1 to. Therefore, these sensors 21 to 24 are arranged one by one at positions on the XY coordinate corresponding to the operation position of the change lever 30 to be detected. 5), and the conventional detection means (detecting the operating position of the change lever by a combination of the position signal on the X axis and the position signal on the Y axis) can be used. That is, even if the position detection device of the change lever is changed from the conventional system to the new system, an effect is obtained that the conventional controller does not need to be changed to a new system. In this position detecting device, the sensors 20 to 24 that respond to the magnet are provided one by one at the positions on the XY coordinates corresponding to the operation positions to be detected by the change lever 30. (The displacement in accordance with the operation) is reduced to only one, so that the change lever can be operated more smoothly and favorably as compared with the conventional case (in the case of FIGS. 4 and 5) having two sets of sliders and magnets. It becomes easy to secure the property. The logic circuit 39 includes wirings 40a to 40
i and the diodes 41a to 41e can be constructed at low cost.

In the case where the operation pattern of the change lever is H type as shown in the figure, the position signals on the XY coordinates of the sensors 50 to 57 are converted into the position signal on the X axis and the position signal on the Y axis. Logic circuit 49 for converting to
Is provided, the output pattern of the output terminals can be set in the same manner as in the conventional case (FIGS. 4 and 5). Note that the sensors 50 to 57 correspond to the operation areas A to
D, F to I (except for E) are arranged one by one to detect the range position of the change lever 30. The configuration of the logic circuit 49 is not limited to the diode as shown in FIG.
An AND circuit, an OR circuit, or the like may be used.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram illustrating an embodiment of the present invention.

FIG. 2 is also a circuit configuration diagram.

FIG. 3 is a schematic configuration diagram illustrating another embodiment.

FIG. 4 is a schematic configuration diagram illustrating a conventional method.

FIG. 5 is a partially exploded perspective view of the same.

FIG. 6 is a diagram of an operation area that can be detected in the same manner.

FIG. 7 is an output pattern table of each operation area.

[Explanation of symbols]

 20-24, 50-57 Sensor 30 Change lever 39, 49 Logic circuit-Output terminal

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Tetsuhisa Hayashi 1-chome, 1-chome, Ageo-shi, Saitama F-term in Nissan Diesel Industry Co., Ltd. (reference) 3J552 MA01 NA01 PA65 PA67 QC06 VA62Z

Claims (3)

[Claims] An operation mechanism of a transmission,
A detection means which is displaced in accordance with the operation of the change lever is provided, and the detection means which is turned on when the detection means enters the reaction range is set at a position on the XY coordinate corresponding to the operation position to be detected by the change lever. While placing them one by one,
A position detecting device for a change lever, comprising a logic circuit for converting a position signal on the XY coordinates of the detecting means into a position signal on the X axis and a position signal on the Y axis. 2. The change lever position detecting device according to claim 1, wherein the detecting means is set to a magnet, and the detecting means is set to a sensor having a magnetic detecting element. 3. A logic circuit comprising: a wiring for connecting each detecting means in parallel with a terminal corresponding to a position on the X-axis and a terminal corresponding to a position on the Y-axis; The change lever position detecting device according to claim 1, comprising a rectifying diode.