DE1798144A1 - Method and device for testing specimens, especially airwheels - Google Patents

Description

Procedure and device for testing test specimens0 in particular of pneumatic wheels The invention relates to a method and a device for Testing of test specimens under load and for measuring dyn. Characteristic values, in particular on pneumatic wheels.

To ensure a high level of usability, the constant Testing of products of the same quality is required, whereby the The methods used should produce a maximum of meaningful results.

The test on pneumatic tires, for example, thus has good transference or to simulate the loads on the propulsion system.

To simulate the load on preferably pneumatic vehicle tires facilities are known that are optionally combined as mechanical systems with weight plates pneumatic working cylinders metallic or non-metallic Spring elements as well as hydraulic working cylinders are equipped. The measurement the dyn. Spring force and damping takes place as a measurement of the parameters of a mechanical Schting-capable system1 where the test specimen serves as a spring element and after a analytical evaluation can be determined.

Although to achieve the lowest possible friction power transmission mainly hydraulic working cylinders have prevailed, they point as essential Defects too high coefficients of friction on sleeves of different materials are due.

The use of piston rings is also to be discarded, as it is often used material removal occurs at the same operating points. They are oscillating Movement not with loads in high control ranges, their ratio up to 1:10 can be, no high temporal constancy of a frictional resistance guaranteed.

The determination of the dyn. Spring force used as test equipment Coil springs have the disadvantage of increasing fatigue over time show, which have an effect on the calculations as a poorly detectable error size.

It is the purpose of this invention, a method and an apparatus for testing test specimens.

The production costs of the device should be low and.d e Design to a significant reduction of the currently still occurring wear of material and at the same time to increase the informability of the test results to lead. The test method according to the invention should also be applicable to large control ranges and qualitatively meaningful results with a significantly reduced scope of testing exhibit.

The object of the invention is to round, a method and a device with the help of which the required load is achieved and which at their use occurring frictional torques even in large control ranges at high temporal constancy appear minimal.

At the same time, the task is linked to the requirement, on the device dyn. To measure characteristic values or test specimens.

According to the invention, the object is achieved by a device one swing arm is attached to the pivot point on a sliding carriage, whereby an air spring is arranged between an abutment and the rocker arm, with which a control element, a pendulum mounted in the pivot point, a vibration sensor and a test body is connected.

For the test, the test body, in particular a pneumatic tire wheel, is on an air pressure that is preferably constant or can be changed according to the program acted upon air spring, which is attached to the slide via a rocker arm and acts between the abutment and the test surface and when the specimen dimensions change an adjustment of the rocker arm via a control element in the pivot point on the rocker arm attached pendulum to a consistent adjustment of the slide in the parallel displaced original position of the rocker arm and the air spring while adjusting their original cross-sectional areas leads.

The testing of preferably rotating test specimens for dyn. Characteristic values, in particular spring and / or damping constant, takes place by means of a one-time, forcibly caused vibration that is transmitted to the test specimen, the on a preferably rotating test surface by applying a force an air spring acting on the specimen axis presses. The test specimen loses its energy through self-damping, subtracting the known self-damping of the air spring, which is recorded in an evaluable manner by a transducer.

The use of this invention ensures little effort Material and manufacturing costs.

The service life of this device increases with respect to the mechanical acting parts significantly compared to devices that belong to the state of the art. The test accuracy to be achieved is a particular advantage this invention could not be achieved.

The invention is explained below using an execution example will. The accompanying drawings show: Fig. 1 - Front view of a rocker 1, its moment of inertia based on the pivot point 2 according to the requirements The test is set, is on the sliding in the line of action of the force Slide 3 attached 0 The air spring 4 is between the abutment 5 and the rocker 1 arranged. On this rocker 1, the test body 10 is attached, which is attached to the test surface 11 is supported.

Change the rocker arm 1 during the testing process by means of a control element 6, which is attached to the rocker arm 1 with the aid of the pivot point 7 Pendulum 8 is operated, the consequent adjustment of the carriage 3, so that the rocker arm 1 again assumes a parallel displaced position.

For the measurement of the dyn. The Fedder constant becomes the MeB value transducer 9 attached to the rocker arm 1. The test body is supported on the test surface 11.

A multiple of the device mentioned can also be used at the same time a single, preferably cylindrical, rotating test surface 11 act.

Claims (4)

Claims 1. Device for testing test specimens thereby characterized in that a rocker (1) in the pivot point (2) on a movable Slide (3) is attached, with an air spring (4) between the abutment (5) and the rocker (1) is arranged with which a control member (6), one in the fulcrum (7) mounted pendulum (8) a vibration sensor (9) and a test body (10), which rests on a test surface (11) are connected. 2. Apparatus according to claim 1, characterized in that a multiple the elements of the abutment (5), air spring (4), rocker (1) and the movable one The slide (3) is assigned to a single, in particular cylindrical, test surface (11) are. 3. Procedure for testing test specimens under load, thereby characterized in that the test body (10), in particular a pneumatic tire wheel, on one preferably with constant air pressure or air pressure that can be changed according to the program acted upon air spring (4) which is attached to the slide (3) via a rocker arm (1) is and between the abutment (5) and the test surface (11) acts and changes the specimen dimensions an adjustment of the rocker (1) via a control element (6) of the in the pivot point (7) on the rocker (1) attached pendulum (8) to a consistent one Adjustment of the slide (3) in the parallel displaced original position of the Swing arm (1) and the air end (4) while adjusting their original uschnittsfläche drives. 4. Procedure for testing preferably rotating test specimens on dyn. Characteristic values, characterized by a one-time, forcibly caused Vibration that is transmitted to the test specimen, which is preferably a rotating executed test surface (11) by applying a force to the specimen axis Acting air spring (4) pushes its energy through self-damping, with deduction the known self-damping of the air spring (4), loses and by means of a measurement transducer (9) is detected in an evaluable manner.