KR100802939B1 - Tester for Steering Column - Google Patents

Abstract

The present invention is to repeat the evaluation of the parts reliability and durability of the tilting motor and telescoping motor of the steering column having an IMS (Integrated Memory System) function and each of the position sensor and limit sensor in the assembled state in the steering column Provide test equipment for steering columns.

Description

TEST DEVICE OF STEERING COLUMN

1 is an overall configuration diagram of a test device for a steering column according to an embodiment of the present invention.

Figure 2 is a perspective view of the configuration of the test actuator applied to the embodiment of the present invention.

3 is a partially enlarged perspective view of FIG. 2.

Figure 4 is a perspective view of the configuration seen from the other direction of the test actuator applied to the embodiment of the present invention.

5 is a partially enlarged perspective view of FIG. 4.

The present invention relates to a test device for a steering column, and more particularly, to the tilting motor and telescoping motor of a steering column having an integrated memory system (IMS) function, and to the reliability and durability of parts of each position sensor and limit sensor. A test apparatus for a steering column for evaluation.

In general, IMS is a system that integrates and controls the positions of seats, steering columns, and outside mirrors so that they can be operated according to the driver's body shape, and then automatically plays back to the position suitable for the driver.

As IMS demands increase and convenience functions expand, these IMSs are increasingly interoperable with systems such as air conditioning and audio.

The steering column with IMS function also adjusts the steering wheel to the position appropriate for each body type by each driver to adjust the tilting structure and the front and rear height of the steering wheel so that steering can be performed in the most comfortable posture. Telescoping structure is applied.

The steering column having the IMS function is composed of a tilting motor, a telescoping motor, and respective position sensors and limit sensors. These motors and sensors evaluate the reliability and durability of components through tests. And it is repeated test in each unit state such as sensor and the like, and only the result is judged whether performance is satisfied.

However, the conventional single-state test has a disadvantage in that it is not possible to grasp various problems that may occur in the overall steering column assembly state.

Therefore, the present invention was created to solve the above disadvantages, and an object of the present invention is a tilting motor and a telescoping motor of a steering column having an integrated memory system (IMS) function, and respective position sensors and limit sensors. It is to provide a test device for the steering column for the repeated test in the state of assembly of the steering column to evaluate the reliability and durability of parts.

Test device for a steering column of the present invention for achieving the above object is equipped with a steering column to be tested, the tilting and telescopic operation of the memory steering column in the plurality of position detection sensors through the tilting measuring platform and telescopic measuring table A test operation unit for sensing and outputting the signal; An input / output signal generation unit which controls to store and reproduce the operation of the steering column by outputting the same signal as the actual waveform of the vehicle so that the steering column operates as in the actual vehicle; The tilting and telescopic regeneration signals of the steering column are applied to the input / output signal generation unit, and during the tilting and telescopic regeneration operation of the steering column, the tilting and telescopic operating speed of the steering column and the telescopic operating speed of the steering column A simulation unit for receiving input signals of each position sensor and limit sensor to compare and determine the accuracy of each signal, and between the simulation unit and the input / output signal generator, a signal output from the simulation unit and a signal of the input / output signal generator; Characterized in that it further comprises a signal driver for converting and transmitting.

The test operation unit is a measurement base configured in the lower portion; A measuring plate block configured at one side of the measuring base; A sensor block configured on the other side of the measurement base corresponding to the measurement plate block; A measuring plate installed to slide upward and downward through a roller along an inner surface of the measuring plate block corresponding to the sensor block; A column holder configured under the measurement plate of the measurement plate block and fastened to one side of a mounting bracket of the steering column to fix the steering column; A plurality of position sensing means formed on the inner surface of the sensor block corresponding to the measuring plate block in a vertical direction and configured along one side of the sensing groove; A tilting measuring table configured between the measuring plate block and the sensor block to behave according to a tilting operation of the steering column; And a telescopic measuring table configured under the tilting measuring table between the measuring plate block and the sensor block to behave according to the telescopic operation of the steering column.

Here, the position detecting means is a pressing plate which is installed through the spring along one side of the sensing groove of the sensor block; And a position detecting sensor installed on one side of the sensing groove in response to the back of the pressing plate to output a detection signal by the pressing operation of the pressing plate, wherein the tilting measuring table is disposed between the measuring plate block and the sensor block. In one end is contacted to the measuring plate through the contact roller, the other end is inserted into the sensing groove of the sensor block so as to be sensed by the position sensing means is installed to be movable, one side of the tilting operation part of the steering column It is characterized in that the connection.

The telescopic measuring table is fixed to the measuring plate at one end of the lower part of the tilting measuring table between the measuring plate block and the sensor block, and the other end of the telescopic measuring table is inserted into the sensing groove of the sensor block to be moved. Is installed, one side is characterized in that connected to one side of the telescopic operation of the steering column.

The input / output signal generator may be electrically connected to the tilting motor and the telescoping motor of the steering column to supply power, and to tilt the same signal as the actual waveform of the vehicle so that the steering column operates as in a real vehicle. It outputs to the motor and the telescoping motor for storing and reproducing the operation of the steering column.

Hereinafter, with reference to the accompanying drawings the mounting unit for a steering column according to a preferred embodiment of the present invention will be described in detail.

1 is an overall configuration diagram of a test device for a steering column according to an embodiment of the present invention, Figure 2 and Figure 4 is a perspective view of the configuration of the test operation unit applied to the embodiment of the present invention.

As shown in FIG. 1, the test apparatus for a steering column according to an exemplary embodiment of the present invention includes a test operation unit 1, an input / output signal generation unit 3, a simulation unit 5, and a signal driving unit 7. It is composed of

First, the test operation unit 1 is mounted with the steering column 9 to be tested, and the tilting and telescopic operation of the memorized steering column 9 is measured as shown in FIG. Through the table 11 and the telescopic measuring table 13, the plurality of position detection sensors 15 as shown in Figure 5 is configured to output the signal.

In the specific configuration of this test operation unit 1, as shown in Fig. 2 and 4, the measurement base 21 is provided at the bottom.

The measuring plate block 23 is configured at one side of the measuring base 21, and the sensor block 25 is configured at the other side of the measuring base 21 corresponding to the measuring plate block 23.

And along the inner surface of the measuring plate block 23 corresponding to the sensor block 25, as shown in Figure 3, by forming a roller 29 at both ends, the measuring plate ( 27) is configured.

The lower side of the measuring plate 27 of the measuring plate block 23 is coupled to one side of the mounting bracket of the steering column 9 to form a column holder 31 for fixing the steering column 9.

As shown in FIG. 5, a sensing groove 33 is formed in a vertical direction on an inner side surface of the sensor block 25 corresponding to the measuring plate block 23, and one side surface of the sensing groove 33 is formed. Thus, a plurality of position sensing means 35 is configured.

Here, the position detecting means 35 is provided with a pressing plate 19 through the spring 17 along one side of the sensing groove 33 of the sensor block 25, the pressing operation of the pressing plate 19 Each of the position detection sensors 15 is configured on one side of the sensing groove 33 to correspond to the rear surface of the pressing plate 19 to output a detection signal.

In addition, the tilting measuring table 11 is formed at an upper portion of the measuring plate block 23 and the sensor block 25, and the telescopic measuring table 13 is formed at a lower portion thereof.

One end of the tilting measuring table 11 is brought into contact with the measuring plate 27 through the contact roller 37, and the other end thereof is pressed by the pressing plate 19 of the position detecting means 35. 15 is inserted into the sensing groove 33 of the sensor block 25 so as to detect this, and is movably installed, one side of which is connected to one side of the tilting operation unit P1 of the steering column 9.

In addition, one end of the telescopic measuring table 13 is integrally fixed to the measuring plate 27, and the other end of the telescopic measuring table 13 presses the pressing plate 19 of the position detecting means 35 so that the position detecting sensor 15 It is inserted into the sensing groove 33 of the sensor block 25 so as to detect this and is installed to be movable. One side thereof is connected to one side of the telescopic operation unit P2 of the steering column 9.

The steering column 9 mounted to the test operation unit 1 having such a configuration is electrically connected to the input / output signal generation unit 3, and the input / output signal generation unit 3 is for tilting the steering column 9. While being electrically connected to and supplying power to the motor 41 and the telescoping motor 43, the steering column 9 is output by outputting the same signal as the actual waveform of the vehicle so that the steering column 9 operates as in a real vehicle. Control to store and reproduce.

In addition, the simulation unit 5 applies a tilting and telescopic operation regeneration signal of the steering column 9 to the input / output signal generation unit 3, and during the tilting and telescopic reproduction operation of the steering column 9, a test operation. Receive tilting and telescopic operating speed of the steering column 9, input signals of each position sensor (not shown) and limit sensor (not shown) of the steering column 9 from each position detecting sensor 15 of the unit 1. The accuracy of each signal is compared and judged.

In addition, the signal driver 7 serves as a gateway for converting and transmitting the signal output from the simulation unit 5 and the signal of the input / output signal generator 3.

Therefore, the test apparatus for the steering column having the configuration as described above, first convert the tilting and telescopic operation reproduction signal of the steering column (9) through the signal driver (7) in the simulation unit (5) to the input and output signal generation unit It is applied to (3).

Then, the input / output signal generator 3 applies a regeneration signal to the tilting motor 41 and the telescoping motor 43 of the steering column 9 so that the steering column 9 reproduces the tilting and telescopic operation. To control.

At this time, the test operation unit 1 amplifies the tilting and telescopic operation of the steering column 9 through the tilting measuring platform 11 and the telescopic measuring platform 13, and the tilting measuring platform 11 and the telescopic The plurality of position detection sensors 15 sensing the end of the measuring table 13 applies the detection signal to the simulation unit 5.

At the same time, each position sensor (not shown) and limit sensor (not shown) of the steering column 1 also detect the tilting and telescopic operation of the steering column 9 and apply the signal to the simulation unit 5.

Then, the simulation unit 5 compares and judges each input signal, and during the tilting and telescopic regeneration operation of the steering column 9, the movement speeds of the motors 41 and 43 and the values of the position sensors (not shown). By determining the normal output of the limit sensor (not shown), it is determined whether the steering column 9 operates normally.

According to the test device for a steering column of the present invention as described above, to evaluate the component reliability and durability of the tilting motor and telescoping motor of the steering column having an IMS (Integrated Memory System) function, and the respective position sensors and limit sensors It is possible to repeat the test in the state of the unit assembled on the steering column, which improves the reliability of the test result of the steering column and shortens the test time compared to the unit test.

Claims (7)

A measurement base configured to detect tilting and telescopic operation of the memorized steering column in a plurality of position sensing sensors through a tilting measuring platform and a telescopic measuring table and outputting a signal with the steering column to be tested, wherein A measurement plate block configured on one side of the measurement base, a sensor block configured on the other side of the measurement base corresponding to the measurement plate block, and slide up and down through a roller along an inner surface of the measurement plate block corresponding to the sensor block. A measurement plate which is installed to be possible, a column holder which is formed under the measurement plate of the measurement plate block and is fastened to one side of the mounting bracket of the steering column to fix the steering column, and is perpendicular to the inner surface of the sensor block corresponding to the measurement plate block. Forming a sensing groove, a plurality of configured along one side of the sensing groove A position measuring means, a tilting measuring table configured between the measuring plate block and the sensor block and behaving according to a tilting operation of the steering column, and configured at a lower portion of the tilting measuring table between the measuring plate block and the sensor block, A test operation unit configured as a telescopic measuring station that behaves according to telescopic operation; An input / output signal generation unit which controls to store and reproduce the operation of the steering column by outputting the same signal as the actual waveform of the vehicle so that the steering column operates as in the actual vehicle; The tilting and telescopic regeneration signals of the steering column are applied to the input / output signal generation unit, and during the tilting and telescopic regeneration operation of the steering column, the tilting and telescopic operating speed of the steering column and the telescopic operating speed of the steering column Receiving an input signal of each position sensor and the limit sensor, the test device for a steering column including a simulation unit for comparing and determining the accuracy of each signal. The method of claim 1, And a signal driver for converting the signal output from the simulation unit and the signal of the input / output signal generation unit to each other between the simulation unit and the input / output signal generation unit. delete The method of claim 1, The position sensing means A pressing plate installed through a spring along one side of the sensing groove of the sensor block; And a position detecting sensor installed on one side of the sensing groove in response to the back surface of the pressing plate to output a detection signal by the pressing operation of the pressing plate. The method of claim 1, The tilting measuring table is mounted between the measuring plate block and the sensor block in a rolling contact with the measuring plate through a contact roller, and the other end is inserted into the sensing groove of the sensor block so as to be detected by the position detecting means. Test device for a steering column, characterized in that one side is connected to one side of the tilting operation of the steering column. The method of claim 1, The telescopic measuring table has one end fixed to the measuring plate integrally at the lower part of the tilting measuring table between the measuring plate block and the sensor block, and the other end is inserted into the sensing groove of the sensor block so as to be detected by the position detecting means. Is installed, one side of the test device for a steering column, characterized in that connected to one side of the telescopic operation of the steering column. The method of claim 1, The input / output signal generator is electrically connected to the tilting motor and the telescoping motor of the steering column to supply power, and at the same time, the tilting motor outputs a signal identical to the actual waveform of the vehicle so that the steering column operates as in a real vehicle. And a steering column tester, which outputs to a telescoping motor to store and regenerate the operation of the steering column.

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