KR101526295B1 - Tire test device - Google Patents

Abstract

The present invention relates to a tire test device which allows a driver driving a vehicle to accurately adjust a location of a test tire mounted on a test vehicle while keeping his/her eyes forwards. The tire test device comprises: the test vehicle having the test tire mounted therein; the drive vehicle connected with the test vehicle to move the test vehicle; a comparative light emitting part installed in the drive vehicle to emit comparative light to the front of the vehicle; and a test light emitting part installed in the test vehicle to emit test light to the front of the test vehicle. The test location of the test tire may be adjusted by comparing the comparative light and the test light.

Description

Tire test device

The present invention relates to a tire testing apparatus, and more particularly, to a tire testing apparatus capable of precisely adjusting a position of a test tire mounted on a test vehicle while a tester operating the drive vehicle is looking forward.

In the actual vehicle test of tires and automobiles, the influence of the road surface, which is a test condition, greatly affects the result. Even if the road surface is constituted by the same material and method, the results may vary depending on the road surface in the case of traction and braking test. This type of testing can help improve the reliability of the test results if the tester knows exactly where the actual tire is being tested.

However, at present, there is no way to accurately know the position of the tire while the tester is operating, so that a line for the test is displayed on the road surface, and the tester observes the rear mirror on the basis of that, , And the tire position is adjusted by this.

Japan Special Open 07-035653

SUMMARY OF THE INVENTION An object of the present invention is to provide a tire testing apparatus capable of precisely adjusting a position of a test tire mounted on a test vehicle while keeping a frontal view of a tester driving a driven vehicle.

 In order to accomplish the above object, the present invention provides a test vehicle comprising: a test vehicle on which a test tire is mounted; A driving vehicle connected to the test vehicle to move the test vehicle; A comparative irradiator installed in the driven vehicle and irradiating a comparison light toward the front of the driven vehicle; And a test irradiator mounted on the test vehicle for irradiating a test light toward the front of the drive vehicle and comparing the test light with the comparison light to adjust a test position of the test tire mounted on the test vehicle Device.

Wherein the comparative irradiating unit comprises a fixed comparative irradiator provided on the driving vehicle for irradiating the comparison light, and the test irradiating unit comprises a fixed test irradiator provided on the test vehicle and irradiating the test light.

The comparative irradiating unit may include a fixed comparative irradiator provided on the driving vehicle and irradiating the comparative light and not changing its position, and a comparative irradiating unit that is movable relative to the fixed comparative irradiator in the width direction of the driven vehicle, And a comparative irradiator, wherein the test irradiator comprises: a fixed test irradiator provided on the test vehicle and irradiating the test light and not changing its position; and a comparative irradiator that is relatively movable in the width direction of the test vehicle, And a movement test irradiator for irradiating the light with the light.

In this case, the test irradiation unit may be provided with a tire width sensor for measuring the width of the test tire.

According to the present invention, in the case of the actual vehicle test in which the difference in the result value is large depending on the test position, the test position in the longitudinal direction (running direction) can be precisely checked and tested to improve the test reliability.

In particular, the tester can keep the line of sight in front of the test, improving the straight running ability and reducing the occurrence of accidents.

1 is a front view of a tire testing apparatus according to an embodiment of the present invention.
Fig. 2 is a plan view of the tire testing apparatus of Fig. 1;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 and 2, reference numeral 100 designates a tire testing apparatus according to an embodiment of the present invention.

The tire testing apparatus 100 basically includes a test vehicle 122 on which a test tire 10 is mounted, a drive vehicle 102 connected to the test vehicle 122 to move the test vehicle 122, A comparative irradiating part provided on the driving vehicle and irradiating a comparison light toward the front of the driving vehicle and a comparative examining part installed on the testing vehicle and irradiating test light toward the front of the driving vehicle And an inspection unit.

The driving vehicle 102 can use a known vehicle, and in particular, a control unit 116 is provided to store test results and to control the tire testing apparatus 100 as a whole.

The driving vehicle 102 and the test vehicle 122 are coupled to each other by connecting the connecting portion 118 and the link portion 120. The test vehicle 122 is connected to the connecting portion 118, (Not shown).

The comparative irradiating unit includes a fixed comparative irradiator 106 disposed on the driving vehicle 102 and irradiating the comparative light 14 with no change in position, And a movement comparative irradiator 104 which is relatively movable in the direction of the reference light 14 and irradiates the comparison light 14.

The movement comparative irradiator 104 is provided in the comparative irradiation frame 110 provided in the comparative irradiation frame 108 provided in the driving vehicle 102 and is provided with a comparative irradiation driving mechanism 110 for operating the comparative irradiation displacement mechanism 110, Relative displacement with respect to the fixed comparative irradiator 110 is possible. The fixed comparative irradiator 110 may be installed directly on the driving vehicle 102 or directly on the comparison irradiation frame 108.

The comparative irradiating driving mechanism 112 may use a feed screw, and in this case, the comparative irradiating driving mechanism 112 may use a motor. It is also possible to replace the comparative irradiation driving mechanism 112 and the comparison irradiation driving mechanism 112 with a linear motor.

As the moving comparative irradiator 104 and the fixed comparative irradiator 106, a laser device capable of irradiating a laser beam can be used. As shown in FIGS. 1 and 2, Laser spots or straight-line lasers can be used.

The moving test irradiator 124 is mounted on the test irradiation frame 130 installed on the test vehicle 122 and is provided with a test irradiation driving mechanism 130 for operating the test irradiation displacement mechanism 130, Relative displacement with respect to the fixed test irradiator 126 is possible. The fixed test irradiator 106 may be installed directly on the test vehicle 122 or directly on the test irradiation frame 128.

The test irradiation drive mechanism 130 may use a feed screw, and in this case, the test irradiation drive mechanism 132 may use a motor. It is also possible to replace the test irradiation drive mechanism 132 and the comparison irradiation drive mechanism 132 with a linear motor.

As the moving test irradiator 124 and the fixed test irradiator 126, a laser device capable of irradiating a laser beam can be used. As shown in FIGS. 1 and 2, Laser spots or straight-line lasers can be used.

Particularly, as shown in FIG. 1, the installation height of the moving test irradiator 124 and the fixed test irradiator 126 is set higher than the moving comparative irradiator 104 and the fixed comparative irradiator 106 It is preferable that the test light 16 can be irradiated to the comparison light 14 without interruption.

In addition, the test vehicle 122 may be provided with a tire width sensor 114 capable of measuring the width of the test tire 10. The tire width sensor 114 may use a sensor having a longer length in the width direction of the test tier 10 or a tire width sensor 114 may be mounted on the width sensor displacement mechanism 134 For example, a linear motor). Information about the width of the test tire 10 obtained by the tire width sensor 114 is input to the control unit 116.

The test irradiating unit and the comparative irradiating unit may include only the fixed test irradiator 126 and the fixed comparative irradiator 106. In this case, if two or more fixed test irradiators 126 and two fixed comparative irradiators 106 are provided, the accuracy can be further improved by installing one fixed test irradiator 126 and the fixed comparative irradiator 106.

The tire testing apparatus 100 according to the embodiment of the present invention is basically configured as described above. Hereinafter, an operation of the tire testing apparatus 100 will be described.

 First, when the test tire 10 is mounted on the test vehicle 122, the tire width sensor 114 measures the width of the test tire 10 and supplies the measured width to the control unit 116. At this time, the controller 116 moves the moving test irradiator 126 to the fixed test irradiator 126 by the width of the test tire 10 using the width information. That is, the fixed test irradiator 126 is always positioned at the innermost side of the test tire 10 in the tire width direction when the tire is installed.

Then, the controller 116 or the tester moves the moving comparative irradiator 104 by the width of the test tire 10. At this time, it is preferable that the fixed comparative irradiator 106 is always positioned at the innermost side of the test tire 10 in the tire width direction when the tire is installed.

The test light 16 and the test light 16 are transmitted to the front of the drive vehicle 102 by the moving comparative irradiator 104, the fixed comparative irradiator 106, the movement test irradiator 124 and the fixed test irradiator 126, The comparative light 14 is irradiated and the test is performed while the tester confirms the test position in the running direction. That is, the test light 16 and the comparison light 14 coincide with each other or are arranged parallel to each other.

Therefore, it is possible to test at the correct position when testing the tire, which improves the reliability of the test and reduces the occurrence of safety accidents by continuously observing the entire surface during operation.

Further, the reference line 12 is previously displayed on the road surface on which the test is performed so that the test person travels on the basis of the reference line 12 while keeping the test light 16 and the comparison light 14 coincident or parallel to each other. have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

10: Test tire 12: Reference line
14: Comparison light 16: Test light
100: Tire test apparatus 102: Driving vehicle
104: Moving comparative irradiator 106: Fixed comparative irradiator
108: comparison survey frame 110: comparison survey displacement mechanism
112: comparison irradiation drive mechanism 114: tire width sensor
116: control unit 118:
120: link unit 122: test vehicle
124: Moving test irradiator 126: Fixed test irradiator
128, 136: test frame 130: test probe displacement mechanism
132: test driving mechanism 134: width sensor displacement mechanism

Claims (4)

A test vehicle on which the test tire is mounted;
A driving vehicle connected to the test vehicle to move the test vehicle;
A comparative irradiator installed in the driven vehicle and irradiating a comparison light toward the front of the driven vehicle; And
And a test irradiator provided on the test vehicle for irradiating test light toward the front of the drive vehicle,
And a test position of the test tire mounted on the test vehicle can be adjusted by comparing the comparison light with the test light.
The method according to claim 1,
Wherein the comparison irradiating unit comprises a fixed comparative irradiator provided on the driving vehicle for irradiating a comparison light, and the test irradiating unit comprises a fixed test irradiator provided on a test vehicle for irradiating a test light.
The method according to claim 1,
The comparative irradiating unit includes a fixed comparative irradiator provided on the driving vehicle for irradiating a comparison and not changing its position and a movement comparative irradiator for moving relative to the fixed comparative irradiator in the width direction of the driven vehicle, and,
Wherein the test irradiator comprises: a fixed test irradiator provided on the test vehicle and irradiating the test light and not changing its position; and a moving test device that is movable relative to the fixed comparative irradiator in the width direction of the test vehicle, And an irradiator.
The method of claim 3,
Wherein the test irradiating unit is provided with a tire width sensor for measuring the width of the test tire.

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