JP2010144853A - Assisting device for shift lever - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an assisting device for a shift lever capable of preventing the operation abnormality of a torque sensor, deterioration of the connection workability of the torque sensor and a substrate, and the deterioration of a detection function of a selected position of a shift lever, even if it is composed by attaching the torque sensor and the substrate to a base. <P>SOLUTION: In the assisting device for a shift lever, a boss 25 is in a position higher than each brush 133a of the torque sensor 203. Then, in the attachment work of the substrate 204, when the substrate 204 is inserted into a second housing part 124 of the base 2, the boss 25 contacts sections other than the resistor 144 of the substrate 204 at positions higher than each brush 133a. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a shift lever assist device used for a shift lever of an automatic transmission of a vehicle.

  Conventionally, an assist device for a shift lever as described in Patent Document 1 is used for a shift lever provided in an automatic transmission of a vehicle. This assist device for a shift lever assists the operation when the occupant operates the shift lever to improve the operational feeling.

  FIG. 9 is an exploded perspective view of a conventional shift lever assist device 101. The shift lever assist device 101 includes a base 102, a torque sensor 103, a substrate 104, and two lids (not shown).

  A shaft holding part 120 is provided at the lower part of the base 102. The shaft holding part 120 is provided with a support hole 121. A connection opening 122 is provided at the center of the base 102. The connection opening 122 is for connecting the torque sensor 103 and the substrate 104 and is formed in an arc shape.

  Further, the base 102 is provided with a first accommodating portion 123 on one side of the support hole 121 (the back side in FIG. 9). A worm (not shown) is attached to the first housing portion 123. Further, a second accommodating portion 124 is provided on the other side (front side in FIG. 9) of the support hole 121. In the second housing portion 124, bosses 125 protrude from the four corners. The four bosses 125 determine the assembly position of the substrate 104. An assembly hole 125 a is provided on the upper surface of each boss 125.

  The torque sensor 103 includes a torque sensor main body 131, a shaft 132, and a worm wheel 133.

  The torque sensor main body 131 includes a substrate 131a for outputting a detection signal, and an output connector 131b is attached to the substrate 131a. The shaft 132 is provided through the inside of the torque sensor main body 131. The worm wheel 133 is attached to the outer periphery of the torque sensor main body 131. Four brushes 133 a are provided on the surface side of the worm wheel 133. Further, a tooth portion 133 b is provided on the outer peripheral surface of the worm wheel 133.

  Assembly holes 140 are provided at the four corners of the substrate 104. A circuit 141 is formed on the surface of the substrate 104. An input cable 142 and an output cable 143 are connected to the circuit 141. An input connector 142 a is attached to the distal end portion of the input cable 142. A control unit (not shown) is connected to the output cable 143.

  Further, four resistors 144 (carbon resistors) are provided on the back surface of the substrate 104 as shown in FIG. Each resistor 144 is used together with the four brushes 133a of the torque sensor 103 to detect the select position of the shift lever. Each resistor 144 is formed in an arc shape and is connected to the control unit via the output cable 143. The control unit is connected to a motor for assisting driving of the shift lever, various devices driven based on the position of the shift lever, and the like.

  Next, a method for assembling the shift lever assist device 101 configured as described above will be described.

  First, the operator puts the substrate 104 into the second housing portion 124 of the base 102 and attaches the substrate 104 to the four bosses 125 using the four screws 145 (see FIG. 9). As a result, the four resistors 144 on the back surface of the substrate 104 are exposed from the connection opening 122 of the base 102 to the first accommodating portion 123 side.

  Next, the operator puts the torque sensor 103 into the first housing portion 123 of the base 102 and assembles it while passing the shaft 132 of the torque sensor 103 through the support hole 121 of the base 102. Thereby, the worm wheel 133 and the worm attached to the first housing part 123 are engaged with each other. Further, each brush 133 a provided on the worm wheel 133 and each resistor 144 of the substrate 104 come into contact with each other through the connection opening 122 of the base 102. Thereby, each resistor 144 will be in the state arrange | positioned at circular arc shape centering | focusing on the axis | shaft 132 of the torque sensor 103. FIG.

  Next, the worker connects the input connector 142 a of the substrate 104 to the output connector 131 b of the torque sensor 103. Finally, the operator attaches lids to both housing portions 123 and 124 of the base 2 to close the torque sensor 103 and the substrate 104, thereby completing the shift lever assist device 101.

  In the shift lever assist device 101 assembled as described above, the output cable 143 is further connected to the control unit. The output shaft of the motor connected to the control unit is connected to the worm. Further, a shift lever (not shown) is connected to the input-side end 132a (see FIG. 9) of the shaft 132 of the torque sensor 103, and an automatic transmission (not shown) is connected to the output-side end 132b (see FIG. 9). Connected).

  Thus, in the shift lever assist device 101, when torque is input to the shaft 132 of the torque sensor 103 during operation of the shift lever, the torque sensor main body 131 detects the torque and sends a detection signal to the circuit 141 on the substrate 104. send. The detection signal sent to the circuit 141 on the substrate 104 is sent to the control unit after a predetermined control process is performed, and is further output to the motor after another control process is performed by the control unit, so that the motor is driven to rotate. . The rotational driving force of the motor is transmitted to the shaft 132 of the torque sensor 103 via the worm and the worm wheel 133 to assist the operation of the shift lever.

  Further, when the shaft 132 of the torque sensor 103 is rotated by the operation of the shift lever, each brush 133a of the torque sensor 103 is rubbed while maintaining contact with each resistor 144 of the substrate 104. As a result, a voltage for detecting the select position of the shift lever is output from the output cable 143 to the control unit. At this time, the resistance value changes as the contact position between each brush 133a and each resistor 144 changes, so the voltage for detecting the select position of the shift lever also changes. The control unit determines the select position of the shift lever from the change in voltage and outputs a control signal to various devices driven based on the selected position.

  However, in the shift lever assist device 101 described above, since the output connector 131b of the torque sensor 103 is very small, variations tend to occur at each production. Therefore, the contact resistance between the output connector 131b and the board 131a is deteriorated, and the operation of the torque sensor 103 may become abnormal. In that case, since the shift lever is not sufficiently driven to assist, the occupant cannot obtain a satisfactory operational feeling.

  In order to solve this problem, a shift lever assist device 201 as shown in FIG. 11 has been proposed. In this shift lever assist device 201, the same parts as those in the shift lever assist device 101 shown in FIG.

  The shift lever assist device 201 includes a base 102, a torque sensor 203, a substrate 204, and two lids (not shown). In the torque sensor 203, an output cable 231b is connected to a substrate 131a of the torque sensor main body 231 by soldering. An output connector 231c is attached to the distal end portion of the output cable 231b. On the other hand, only the input connector 242 is attached to the circuit 141 of the substrate 204.

  As described above, in the shift lever assist device 201, the output cable 231b is directly attached to the board 131a of the torque sensor 203. Therefore, the shift lever assist device 201 is in contact with the board 131a as compared with the case where the output connector 131b (see FIG. 9) is attached. The resistance does not deteriorate, and the operation of the torque sensor 103 can be prevented from becoming abnormal.

  On the other hand, when the operator assembles the shift lever assist device 201, as in the case of the shift lever assist device 101, when the substrate 204 is first assembled to the base 102, the substrate 204 and the connection opening are formed. Since the gap generated between the first and second terminals 122 is very narrow, the output cable 231b of the torque sensor 203 must be pulled out from the gap to the surface side of the substrate 204. Therefore, the workability of connecting the torque sensor 203 and the substrate 204 is deteriorated.

Therefore, the worker first assembles the torque sensor 203 into the first housing portion 123 of the base 102. At this time, the output cable 231b is pulled out from the connection opening 122 to the second housing portion 124 side. By doing so, the connection workability between the torque sensor 203 and the substrate 204 is prevented from being lowered.
JP 2006-153078 A

  However, the shift lever assist device 201 shown in FIG. 11 has the following problems when the substrate 204 is inserted into the second housing portion 124 of the base 102.

  As shown in FIG. 12, the resistor 144 on the back surface of the substrate 204 may be rubbed by the brush 133 a of the torque sensor 133 exposed from the connection opening 122. In that case, since the brush 133a is bent or the resistor 144 is damaged, the voltage for detecting the select position of the shift lever is not normally output from the resistor 144.

  As described above, the shift lever assist device 201 shown in FIG. 11 has an operation abnormality of the torque sensor and a reduction in workability of the connection between the torque sensor and the substrate as compared with the shift lever assist device 101 shown in FIG. Although this can be prevented, there is a problem that the detection function of the select position of the shift lever is lowered.

  The present invention has been made in view of such a conventional problem, and even when the torque sensor and the substrate are assembled to the base, the operation abnormality of the torque sensor and the connection workability of the torque sensor and the substrate are reduced. An object of the present invention is to provide an assist device for a shift lever that can prevent the lowering of the detection function of the select position of the shift lever.

  In order to solve the above-mentioned problems, in the assist device for a shift lever according to claim 1 of the present invention, a torque sensor that outputs a torque input to the shaft by operating the shift lever as a detection signal, and based on the detection signal A shift lever assist device comprising a substrate that outputs a drive signal to a motor that rotates a shaft of the torque sensor, the shift lever assist device further comprising a base, the base comprising a support hole, The first housing part is provided on one side of the support hole, and the second housing part is provided on the other side of the support hole, and the torque sensor is provided in the first housing part. The shaft is assembled from one side of the support hole, and the second housing portion is assembled with the substrate in a state where the torque sensor is assembled to the first housing portion, And a connection opening for connecting the output cable connected to the torque sensor and the substrate. The connection opening is connected to the torque sensor in the first housing portion. In the assembled state, the output cable can be pulled out to the second housing portion side, and a brush disposed on the outer peripheral side of the torque sensor shaft is exposed to the second housing portion side, The second accommodating portion is provided with an insertion guide portion, and the insertion guide portion outputs a voltage for detecting the select position of the shift lever from the substrate in a state where the substrate is assembled to the second accommodating portion. So that the contact between the resistor provided on the back surface of the substrate and the brush exposed at the connection opening is not obstructed, and the substrate is inserted into the second accommodating portion. As it is, the portion other than the resistance of the back surface of the substrate, is characterized in that it is configured to contact at a higher position than the brush.

  Also, in the shift lever assist device according to claim 2 of the present invention, in the shift lever assist device according to claim 1, the insertion guide portion is an assembly position of the substrate in the second accommodating portion of the base. It is characterized by being provided.

  Further, in the shift lever assist device according to claim 3 of the present invention, in the shift lever assist device according to claim 2, the substrate is provided with an assembly hole, while the insertion guide portion is Protruding from the bottom surface of the second accommodating portion of the base, contacting the portion of the back surface of the substrate other than the resistor on the top surface when inserting the substrate, and passing the assembly hole of the substrate through the assembly hole. 2 It is comprised so that it may position to an accommodating part.

  In the assist device for a shift lever according to claim 1 of the present invention, an insertion guide portion is provided in the second housing portion of the base, and this insertion guide portion is used when the board is inserted into the second housing portion. It was made to contact parts other than the resistor of the substrate at a position higher than the brush. This prevents the resistor from being rubbed with the brush of the torque sensor, so that the resistor is not damaged or the brush is not bent. Therefore, the shift lever assist device according to claim 1 prevents the abnormal operation of the torque sensor and the decrease in workability of the connection between the torque sensor and the substrate even if the torque sensor and the substrate are assembled to the base. Therefore, it is possible to prevent a decrease in the detection function of the shift lever select position.

  Further, in the shift lever assist device according to claim 2 of the present invention, the insertion guide portion is provided at the assembly position of the substrate in the second housing portion of the base. Therefore, since this insertion guide part becomes a positioning part of a board | substrate, it becomes possible to improve the assembly | attachment workability | operativity of a board | substrate. Therefore, the shift lever assist device according to claim 2 can improve the assembly workability in addition to the effect of the shift lever assist device according to claim 1.

  In the shift lever assist device according to claim 3 of the present invention, the substrate is positioned in the second accommodating portion of the base by passing the assembly hole of the substrate through the insertion guide portion. Therefore, it is possible to improve the workability of assembling the substrate without complicating the configuration of the insertion guide portion. Therefore, the shift lever assist device according to the third aspect can improve the assembly workability while suppressing the manufacturing cost in addition to the effect of the shift lever assist device according to the first aspect.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is an exploded perspective view of a shift lever assist device 1 according to an embodiment of the present invention. In the shift lever assist device 1 of the present embodiment, the same parts as those of the conventional shift lever assist devices 101 and 201 shown in FIG. 9 and FIG. explain.

  The shift lever assist device 1 of this embodiment includes a base 2, a torque sensor 203, a substrate 204, and two lids (not shown). As shown in FIG. 2, the second housing portion 124 of the base 2 is provided with bosses 25 (insertion guide portions) protruding from the four corners of the inner bottom surface 124 a. The four bosses 25 determine the assembly position of the substrate 204.

  FIG. 3A is a perspective view showing the boss 25 of the present embodiment, and FIG. 3B is a perspective view showing a conventional boss 125. As shown in FIG. 3, the boss 25 of the present embodiment is formed higher than the conventional boss 125 and is positioned higher than each brush 133 a of the torque sensor 203. Further, the boss 25 is formed in a two-stage shape and includes a base portion 251 and an assembly portion 252. The base 251 is formed in a disk shape similar to the conventional boss 125. The assembly part 252 is provided on the upper surface of the base part 251. The assembly portion 252 is formed in a cylindrical shape so as to protrude from the upper surface of the base portion 251, and is formed so as to pass the assembly hole 140 of the substrate 204. Further, an assembly hole 25 a is provided on the upper surface of the assembly portion 252.

Next, the assembly method of the shift lever assist device 1 configured as described above will be described.
(1) Assembly work of torque sensor 203 First, as shown in FIG. 4, the operator inserts the torque sensor 203 into the first housing portion 123 of the base 2 while inserting the shaft 132 of the torque sensor 203 into the support hole 121 of the base 2. Install in. At this time, as shown in FIG. 5, the operator pulls out the output cable 231 b of the torque sensor 203 from the connection opening 122 of the base 2 to the second housing portion 124 side.
When the torque sensor 203 is assembled in the first housing portion 123 in this way, the worm wheel 133 of the torque sensor 203 and the worm 105 (see FIG. 4) attached to the first housing portion 123 are engaged. Further, as shown in FIG. 5, the brush 133 a of the torque sensor 203 is exposed from the connection opening 122 to the second accommodating portion 124 side.

(2) Assembly Work of Substrate 204 Next, as shown in FIG. 6, the operator places the substrate 204 obliquely on the second accommodation portion 124 of the base 2 from the side opposite to the shaft holding portion 120. insert. More specifically, the operator inserts the tip of the board 204 on the upper surface of the assembly portion 252 of the two bosses 25 and 25 on the shaft holding portion 120 side (support hole 121 side) among the four bosses 25. The substrate 204 is inserted into the second accommodating portion 124 while contacting the portion (portion other than the resistor 144).
In this way, when the operator inserts the substrate 204 into the second accommodating portion 124 and arranges it at the assembly position, the assembly hole 140 of the substrate 204 is passed through the assembly portion 252 of the boss 25 and the peripheral portion 140a of the assembly hole 140 is removed. The substrate 204 is positioned on the base 251. Thereafter, the operator passes the screw 145 (see FIG. 9) through the assembly hole 140 of the substrate 204 and the assembly hole 25a of the boss 25 and fastens them.

(3) Connection Work of Torque Sensor 203 and Board 204 Next, as shown in FIG. 7, the operator connects the output connector 231c at the tip of the output cable 231b of the torque sensor 203 to the input connector 242 ( (See FIG. 1). After this, the substrate 204 may be fastened to the base 2 using screws 145. Finally, although not shown, the operator attaches lids to both housing parts 123 and 124 of the base 2 to close the torque sensor 203 and the substrate 204, thereby completing the shift lever assist device 1.

  In the shift lever assist device 1 of the present embodiment, the output cable 231b is directly attached to the substrate 131a of the torque sensor 203 as in the conventional shift lever assist device 201 shown in FIG. It is possible to prevent the operation of the torque sensor 203 from becoming abnormal.

  Further, since the connection opening 122 of the base 2 is formed so that the output cable 231b of the torque sensor 203 can be pulled out to the second housing portion 124 side, the connection workability between the torque sensor 203 and the substrate 204 is reduced. Can be prevented.

  Further, in the shift lever assist device 1 of the present embodiment, as shown in FIG. 3, a boss 25 higher than the conventional boss 125 is used, and the boss 25 is formed as shown in FIG. The torque sensor 203 is positioned higher than each brush 133a.

  Therefore, when the substrate 204 is inserted into the second accommodating portion 124 of the base 2 in the assembly operation of the substrate 204 described in (2) above, the boss 25 is positioned higher than each brush 133a. It contacts parts other than the resistor 144. Thereby, since the resistor 144 is not rubbed with each brush 133a of the torque sensor 203, the resistor 144 is not damaged or the brush 133a is not bent. Therefore, the voltage for detecting the select position of the shift lever is normally output from the resistor 144. Therefore, even if the shift lever assist device 1 of the present embodiment is configured by assembling the torque sensor 203 and the substrate 204 to the base 2, it can prevent the shift lever select position detection function from being deteriorated.

  Further, in the shift lever assist device 1 according to the present embodiment, the boss 25 constituting the insertion guide portion is provided at the assembly position of the substrate 204 in the second accommodating portion 124. Therefore, since the boss 25 serves as a positioning portion for the substrate 204, it is possible to improve the workability of assembling the substrate 204. Therefore, the assist device 1 for shift lever of this Embodiment can improve assembly workability | operativity in addition to said effect.

  Further, in the shift lever assist device 1 of the present embodiment, the board 204 is positioned in the second housing portion 124 by passing the assembly hole 140 of the board 204 through the boss 25. Therefore, the workability of assembling the substrate 204 can be improved by slightly changing the shape of the conventional boss 125, that is, without complicating the configuration of the insertion guide portion. Therefore, in addition to the above effects, the shift lever assist device 1 according to the present embodiment can reduce the manufacturing cost and improve the assembly workability.

  As mentioned above, although embodiment concerning this invention was illustrated, this embodiment does not limit the content of this invention. Various modifications can be made without departing from the scope of the claims of the present invention.

  For example, in the present embodiment, the insertion guide portion of the present invention is provided at the assembly position of the substrate 204 on the inner bottom surface 124a of the second accommodation portion 124. However, for example, the second accommodation portion 124 other than the assembly position is used. It may also be provided on the inner side surface 124b (see FIG. 2).

  In that case, when the substrate 204 is inserted, the insertion guide portion is in contact with a portion other than the resistor 144 at a position higher than the brush 133a of the torque sensor 203, and the assembly of the substrate 204 is completed. What is necessary is just to comprise so that contact with 133a and the resistor 144 may not be inhibited. By doing so, it is possible to prevent a decrease in the detection function of the select position of the shift lever, which is the most aimed object of the present invention.

  As described above, the shift lever assist device of the present invention prevents the torque sensor from malfunctioning and the connection between the torque sensor and the substrate from being deteriorated even when the torque sensor and the substrate are assembled to the base. Therefore, it is possible to prevent a decrease in the detection function of the shift lever select position. Therefore, the assist device for a shift lever of the present invention can be fully utilized in the technical field of the assist device for a shift lever.

It is a disassembled perspective view of the assist apparatus for shift levers which shows one embodiment of this invention. It is an enlarged view of the principal part of the base of the embodiment. (A) is a perspective view of the boss | hub of the embodiment, (b) is a perspective view of the conventional boss | hub. It is a figure which shows the assembly | attachment operation | work of a torque sensor in the embodiment. It is the figure which looked at the state where the torque sensor was assembled | attached to the base in the same embodiment from the assembly | attachment side of the board | substrate. It is a figure which shows the assembly | attachment operation | work of a board | substrate in the embodiment. It is a figure which shows the state which the connection of a board | substrate and a torque sensor was completed in the embodiment. It is sectional drawing which shows the state which inserts a board | substrate in a base in the embodiment. It is a disassembled perspective view of the conventional assist device for shift levers. It is a front view of the back surface of a board | substrate in FIG. It is a disassembled perspective view of another conventional assist device for shift levers. It is sectional drawing which shows the state which inserts a board | substrate in a base in the assist apparatus for shift levers of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Assist device for shift levers 2 Base 25 Boss 121 Support hole 122 Connection opening 123 1st accommodating part 124 2nd accommodating part 132 Torque sensor shaft 133a Brush 144 Resistor 203 Torque sensor 231b Output cable

Claims (3)

A shift lever comprising: a torque sensor that outputs a torque input to the shaft by operating the shift lever as a detection signal; and a substrate that outputs a drive signal to a motor that rotates the shaft of the torque sensor based on the detection signal. An assist device,
The assist device for a shift lever further includes a base. The base includes a support hole, a first storage portion provided on one side of the support hole, and a second storage provided on the other side of the support hole. The torque sensor is assembled to the first housing portion with its shaft passing from one side of the support hole, and the second housing portion has the torque on the first housing portion. The board is assembled with the sensor assembled,
The base is further provided with a connection opening for connecting the output cable connected to the torque sensor and the substrate, and the connection opening is provided in the first housing portion with the torque sensor. In the assembled state, the output cable can be pulled out to the second housing portion side, and the brush arranged on the outer peripheral side of the shaft of the torque sensor is exposed to the second housing portion side,
The second accommodating portion is provided with an insertion guide portion, and the insertion guide portion outputs a voltage for detecting the select position of the shift lever from the substrate in a state where the substrate is assembled to the second accommodating portion. As described above, the contact between the resistor provided on the back surface of the substrate and the brush exposed at the connection opening is not obstructed, and the substrate is inserted into the second accommodating portion. When this is done, the shift lever assist device is configured to come into contact with a portion other than the resistor on the back surface of the substrate at a position higher than the brush. The assist device for a shift lever according to claim 1,
The assist device for a shift lever, wherein the insertion guide portion is provided at the assembly position of the substrate in the second housing portion of the base. The assist device for a shift lever according to claim 2,
While the assembly hole is provided in the substrate, the insertion guide portion is provided so as to protrude from the bottom surface of the second accommodating portion of the base, and is inserted into a portion other than the resistor on the back surface of the substrate when the substrate is inserted. An assist device for a shift lever, which is configured to contact the upper surface and position the substrate in the second accommodating portion by passing through an assembly hole of the substrate.

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