JP2006030046A - Tire curbstone run-over testing method and device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tire curbstone run-over testing method and device that can dispense with a plurality of test vehicles, facilitate the maintenance, and prevent a damage in a measuring apparatus. <P>SOLUTION: The tire curbstone run-over testing device comprises a trailer 2 for mounting a test tire 1, a projection 4 for a curbstone installed on a road surface 3, and a towing means 6 for towing the trailer 2. The test tire 1 is mounted to the trailer 2, and the trailer 2 is towed and made to travel by the towing means 6 so that the test tire 1 runs over the projection 4 for the curbstone. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  TECHNICAL FIELD The present invention relates to a tire curb ride over test method and apparatus, and more particularly, a tire curb ride over test method and apparatus that eliminates the need for a plurality of test vehicles, facilitates maintenance, and prevents damage to measuring equipment. About.

  In the tire curb ride over test, an actual vehicle test is carried out in which a commercially available vehicle is used as a test vehicle, a test tire is mounted on the test vehicle, and the curb projections installed on the road surface are passed over.

  Therefore, it is necessary to prepare a plurality of test cars according to the type of test tire, and the test car is often damaged by a large impact when getting over the curb projection, and the maintenance of the test car is complicated. was there. Furthermore, since the impact on the measuring device mounted on the test vehicle is large, there is a problem that the measuring device is damaged.

Conventionally, a technique has been proposed in which a test for a curb stone is performed in a laboratory test instead of an actual vehicle test (see, for example, Patent Document 1). However, it is difficult to perform under the same conditions as the actual vehicle test such as the load condition, and it cannot be a substitute test for the actual vehicle test.
Utility Kaihei 7-36038

  An object of the present invention is to provide a tire curb ride-over test method and apparatus that can eliminate the need for a plurality of test vehicles, facilitate maintenance, and prevent damage to measuring equipment.

  In the tire curb overpass test method of the present invention that achieves the above object, a test tire is mounted on a trailer, and the trailer is pulled by a traction means so that the test tire rides over a curb protrusion installed on a road surface. It is characterized by.

  The tire curb ride over test apparatus of the present invention comprises a trailer for mounting a test tire, a curb protrusion installed on a road surface, and a traction means for pulling the trailer so that the test tire passes over the curb protrusion. It is characterized by.

  According to the present invention described above, the conventional test vehicle is divided into the trailer for attaching the test tire and the traction means for towing the trailer, and the trailer is caused to travel by the traction means. It becomes possible to get over the curb projections with only the attached trailer installed on the road surface. Therefore, damage to the traction means can be avoided, and maintenance is facilitated.

  In addition, since the measuring device can be installed on the traction means side, damage to the measuring device can be prevented. Furthermore, since the trailer for attaching the test tire can be attached to any type of test tire without being restricted by the type of the test tire as in the conventional test vehicle using a general vehicle, The trailer and the traction means can be used to test over the curb of each test tire.

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

  FIG. 1 shows an embodiment of a tire curb crossing test apparatus according to the present invention. The tire curb crossing test apparatus guides a trailer 2 to which a test tire 1 is mounted, a curb protrusion 4 and a trailer 2 installed on a road surface 3. A guide rail (guide portion) 5 is provided, and an automobile (traction means) 6 that pulls the trailer 2 so that the test tire 1 gets over the curb protrusion 4 is provided.

  The trailer 2 has a frame-like trailer body 7 and a single axle 8 rotatably supported on the lower side of the trailer body 7, and a test tire attached to a wheel (not shown) at one end of the axle 8. 1 is attached. The trailer body 7 can be mounted with a load-loading member (not shown) on the trailer body 7. By loading a predetermined number of load-loading members on the trailer body 7, the trailer body 7 can be tested under the same load conditions as a conventional actual vehicle test. To be able to.

  The axle 8 is preferably attached to the trailer body 7 via a suspension device 9 mounted on a general vehicle, and can be made closer to the state of a conventional actual vehicle test. The suspension device 9 is preferably provided with an air spring type shock absorber mechanism, and the air spring type can increase the vertical damping force of the trailer 2 as compared with the spring type. Further, the occurrence of running disturbance after the trailer 2 gets over the curb protrusion 4 can be reduced. Further, in the case of the oil type, the surroundings are soiled by oil leakage when it is damaged by impact, but such a problem is not caused.

  The trailer body 7 is provided with two pairs of guide rollers 10 that engage with guide rails 5 that extend linearly. The two pairs of guide rollers 10 are rotatably supported at the tips of the rods 12 of the air cylinders 11 installed on the trailer body 7, and engage with the guide rails 5 so as to sandwich the guide rails 5 from both sides. Can be moved while being guided along the guide rail 5.

  A load cell 13 is provided on the axle 8 on the side where the test tire 1 is attached, and the impact force applied to the axle 8 when the test tire 1 gets over the curb protrusion 4 by the load cell 13 can be measured.

  A connecting portion 14 projects from the rear end of the automobile 6 and a connecting portion 15 projecting from the front end of the trailer body 7 is detachably connected to the connecting portion 14. By connecting the trailer 2 to the connecting portion 14 arranged on one side, the test tire 1 of the trailer 2 is offset to the outside in the width direction in front view with respect to the tire 16 on one side of the automobile 6. The tire 16 of the automobile 6 does not interfere with the curb protrusion 4 disposed on the side and over which the test tire 1 rides, so that it does not get over.

  As shown in FIG. 2, the automobile 6 is equipped with a calculation device 17 that calculates the impact force detected by the load cell 13, a recording device 18 that records the calculated impact force, and an output device 19 that outputs the recorded impact force. Has been. A computing device 17 is connected to the load cell 13 of the tire shaft (axle 8) via a load cell amplifier / filter 20 installed in the trailer body 7, and an output device 19 is connected to the computing device 17 via a recording device 18. .

  Hereinafter, the tire curb ride over test method of the present invention will be described using the above-described test apparatus of FIG.

  First, the test tire 1 is attached to one of the axles 8 of the trailer 2, while a predetermined number of load members are attached to the trailer body 7. Next, the two pairs of guide rollers 10 are engaged with the guide rails 5 so as to sandwich the guide rails 5 from both sides.

  In this state, the automobile 6 is driven. The traveling speed is about 40 km / h for a general test tire and about 50 km / h for a test tire for rally.

  The trailer 2 connected to the automobile 6 is pulled by the automobile 6 while being guided by the guide rail 5, and the test tire 1 passes over the curb protrusion 4. The impact force at this time is detected by the load cell 13, and the value of the detection signal is calculated by the arithmetic unit 17. The calculated value is recorded in the recording device 18 and then output by the output device 19.

  According to the present invention described above, the test tire 1 is attached to the trailer 2, and the trailer 2 is pulled by the automobile 6, so that only the trailer 2 gets over the curb protrusion 4 installed on the road surface 3. Can do. Therefore, damage to the automobile 6 can be avoided, and maintenance becomes easy.

  Moreover, even if measuring devices such as the arithmetic device 17, the recording device 18, and the output device 19 are loaded on the automobile 6, they are not damaged. In addition, the trailer 2 can be attached to any type of test tire without being restricted by the type of test tire as in the case of a test vehicle using a conventional general vehicle. One vehicle 6 that pulls the vehicle is sufficient, and there is no need to prepare a plurality of test vehicles.

  In addition, by moving the trailer 2 while being guided by the guide rail 5, the test tire 1 can always get over the curb protrusion 4 arranged obliquely with respect to the traveling direction at the same entry angle. Therefore, conventionally, the approach angle depending on the skill of the driver can always be kept constant, and the accuracy of the tire curb ride over test can be improved.

  Furthermore, since the automobile 6 does not pass over the curb projection 4 and the trailer 2 is pulled while being guided by the guide rail 5 after overriding the curb projection 4, the test evaluation on a stable running line without line disturbance Is possible.

  Further, by measuring the impact force with the load cell 13, the breakage of the test tire 1 can be captured in relation to the damage energy, and the information contributes to the design of a new tire.

  In the present invention, the towing means for towing the trailer 2 may be a track vehicle that travels on a track instead of the automobile 6, or has a structure in which the trailer 2 is towed by a rope wound around the winding means. It may be present and is not limited to the automobile 6 described above.

  The arithmetic device 17, the recording device 18, and the output device 19 are installed in the automobile 6 in the above embodiment. However, if a structure capable of wirelessly transmitting the signal detected by the load cell 13 is employed, the road surface in the vicinity of the curb protrusion 4 is used. You may install in 3 side. In addition, the phrase “equipped with an arithmetic device and a recording device on the traction means side” in the scope of the claims means that it is provided other than the trailer 2 and includes the case where it is installed on the road surface 3 side.

  When the test tire 1 of the trailer 2 is offset in the width direction in front view with respect to the tire 16 of the automobile 6, the width of the trailer 2 including the axle 8 is made sufficiently wider than the automobile 6 instead of the above-described configuration. The connecting portion 15 may be connected to the center of the rear end of the automobile 6.

  Instead of the air cylinder 11, the mechanism for engaging the guide roll 10 with the guide rail 5 engages the guide roll 10 with the guide rail 5 by a biasing force of a spring, or guides the guide roll 10 with a wire. The rail 5 may be drawn and engaged with the rail 5 side.

  The guide portion that guides the trailer 2 may be a guide groove that extends in a straight line instead of the guide rail 5. In this case, the guide roller 10 is engaged with the wall surface of the guide groove.

It is a plane explanatory view showing one embodiment of the tire curb ride over test device of the present invention. It is a block diagram of the system which measures an impact force.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Test tire 2 Trailer 3 Road surface 4 Projection for curbstone 5 Guide rail (guide part)
6 Automobile (traction means)
7 Trailer body 8 Axle 9 Suspension device 10 Guide roller 13 Load cell 16 Tire 17 Computing device 18 Recording device 19 Output device

Claims (11)

  A tire curb ride-over test method in which a test tire is attached to a trailer and the trailer is pulled by a pulling means so that the test tire rides over a curb protrusion installed on a road surface.   A tire curb ride-over test device comprising a trailer for attaching a test tire, a curb protrusion installed on a road surface, and a traction means for pulling the trailer so that the test tire passes over the curb protrusion.   The tire curb ride-over test device according to claim 2, wherein a guide portion extending linearly is provided on a road surface, and the trailer is configured to be movable while being guided by the guide portion.   The tire curb ride-over test device according to claim 3, wherein the guide portion is a guide rail, and the trailer has a rotatable guide roller that engages with the guide rail.   The tire curb ride-over test device according to claim 2, 3 or 4, wherein the trailer includes a trailer body to which a load-loading member can be attached, and an axle on which the trailer body is rotatably supported and on which the test tire is mounted.   The tire curb ride over test device according to claim 5, wherein the axle is attached to the trailer body via a suspension device.   The tire curb ride over test device according to claim 6, wherein the suspension device includes an air spring type shock absorber mechanism.   The tire curb overpass test device according to claim 5, 6 or 7, wherein the trailer includes a load cell capable of measuring an impact force with respect to the axle.   The tire curb ride-over test device according to claim 8, further comprising an arithmetic device that calculates an impact force detected by the load cell and a recording device that records the calculated impact force on the traction means side.   The tire curb ride over test device according to any one of claims 2 to 9, wherein the traction means is an automobile. The tire curb ride over test device according to claim 10, wherein the trailer is connected to the automobile so that the test tire of the trailer is offset in a width direction in front view with respect to the tire of the automobile.

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