DE102012112589A1 - Testing facility for determining compressive rigidities at air intake vane of motor vehicle, has test specimen that is linked to coupling device and connecting point that is provided for connecting test specimen with testing instrument - Google Patents

Abstract

The testing facility (1) has a test specimen (4) which is linked to a coupling device (6). A connecting point (12) is provided for the connection of the test specimen with a testing instrument. The test specimen is covered with a piston ram (19) arranged transverse to coupling device. The piston ram is equipped with a bearing surface having a rubber support (20). A positioning disc (16) is firmly bonded with a coupling component (8).

Description

The invention relates to a test device for determining compressive stiffness, for example, on air inlet fins, with a test specimen.

From the German patent application DE 28 53 896 A1 a method for the compression testing of components is known in which one presses the part between the pressure plates of a test plate, wherein between each press plate of the press and the part is a uniformly thick plate of elastic material to compensate for the irregularities of the surface of the part. From the German Auslegeschrift DE 1 221 467 A hydraulic material testing device for alternating load tests is known with a pressure converter mounted in a pressurized lubricant cushion joint with spherical sliding surfaces. Different types of test equipment are from the American publications US 5,811,686 ; US 4,905,521 ; US Pat. No. 6,810,752 B1 and US 2006/0283261 A1 known.

The object of the invention is to simplify the determination of compressive stiffnesses on air inlet fins.

The object is achieved in a test device for determining compressive stiffness, for example, on air inlet fins, with a test specimen, characterized in that the test body is articulated to a coupling device having a connection point for connecting the test piece to a tester. The articulation of the test piece to the coupling device has proven to be advantageous during operation of the test device. The connection point allows a simple way to releasably attach the tester to the tester. In this context, releasable means repeatedly non-destructively separable. A preferred embodiment of the testing device is characterized in that the connection point comprises a threaded recess. The threaded recess provides the advantage that the test device with simple fasteners, such as screws, can be releasably attached to the tester.

A further preferred embodiment of the test device is characterized in that the threaded recess extends in a longitudinal extension direction of the coupling device. The threaded recess is designed for example as a threaded bore which runs parallel to a longitudinal axis of the coupling device.

A further preferred embodiment of the test device is characterized in that the test body comprises a plunger. Test forces can be applied to the air inlet blades to be tested via the pressure stamp.

A further preferred embodiment of the test device is characterized in that the plunger has a bearing surface with a rubber pad. This simplifies the positioning of the plunger on the air inlet fins.

A further preferred embodiment of the test device is characterized in that the plunger is arranged in extension of the coupling device. The plunger extends advantageously from one of the threaded recess facing away from the end of the coupling device in extension thereof.

A further preferred embodiment of the test device is characterized in that the plunger is arranged transversely to the coupling device. The plunger preferably extends from one of the threaded recess facing away from the end of the coupling device transversely to the same.

A further preferred embodiment of the test device is characterized in that the coupling device has at least one positioning surface. The positioning surface serves to position the test device with the coupling device relative to at least one of the air inlet lamellae to be tested. In this case, the coupling device with the positioning surface can advantageously be applied to an air inlet fin to be tested.

A further preferred embodiment of the test device is characterized in that the positioning surface is formed on a positioning element which is fixedly connected to the coupling device. As a result, the positioning of the test device to be tested air inlet fins considerably simplified.

A further preferred embodiment of the test device is characterized in that the positioning element is designed as a positioning plate, which is materially connected to a coupling element. In this case, the positioning plate is advantageously fastened between the threaded recess and a ball joint for connecting the test body to the coupling element. The cohesive connection can be designed, for example, as a welded connection.

Further advantages, features and details of the connection will become apparent from the following description, with reference to the Drawing two embodiments are described in detail. Show it:

1 a simplified representation of a test device according to the invention according to a first embodiment partially in section and

2 a similar representation as in 1 according to a second embodiment.

In 1 is a testing device 1 with a test specimen 4 shown partially cut. The test piece 4 is to a coupling device 6 hinged. The coupling device 6 comprises a coupling element 8th with a ball joint 10 , Through the ball joint 10 is the test piece 4 to the coupling device 6 hinged.

The ball joint 10 is at one end of the coupling element 8th designed so that the test specimen 4 perpendicular to the coupling element 8th extends. At one of the ball joint 10 opposite end of the coupling element 8th is a connection point 12 for connection of the test device 1 provided to a (not shown) tester.

The connection point 12 serves to the test facility 1 detachable, that is repeatedly non-destructively separable, to attach to the tester. The connection point 12 includes a threaded recess 14 extending in the longitudinal direction of the coupling element 8th extends.

The thread recess 14 is as a blind hole in the coupling element 8th executed. In the thread recess 14 a screw can be screwed in, with the help of which the test device 1 can be releasably attached to the tester.

At the coupling element 10 is furthermore a positioning element 16 attached. The positioning element 16 is designed as a positioning plate between the ball joint 10 and the connection point 12 to the coupling element 8th is welded.

The positioning element 16 has a positioning surface 18 on, which can be applied to an air inlet blade to be tested. This will cause the positioning of the test equipment 1 considerably simplified on an air inlet lamella. The test piece 4 is as a stamp 19 executed. At one of the ball joint 10 opposite end face is the test stamp 19 with a rubber pad 20 Mistake.

In 2 is a testing device 21 shown partially cut. The testing device 21 includes the same test piece 4 like the in 1 illustrated testing device 1 , However, the specimen is 4 with the stamp 19 and the rubber pad 20 in extension of a coupling element 28 a coupling device 26 arranged.

Through a ball joint 10 is the test piece 4 so to the coupling element 28 the in 2 shown testing device 21 hinged that a Prüfstempelschaft 11 the test stamp 19 in extension of the coupling element 28 extends.

In contrast, the Prüfstempelschaft extends 11 the test stamp 19 at the in 1 shown testing device 1 perpendicular to the coupling element 8th and parallel to the positioning element 16 ,

The coupling element 28 points to a ball joint 10 opposite end a connection point 32 for connection of the test device 21 to a tester (not shown). The connection point 32 points, as well as in the 1 illustrated embodiment, a threaded recess 34 on, which is designed as a blind hole.

The testing device 1 ; 21 serves to determine the compressive stiffness of air intake louvers of motor vehicles. For this purpose, the test facility 1 ; 21 with their connection point 12 ; 32 attached to a tester. Before or after the test facility 1 ; 21 , advantageously with the help of the positioning surface 18 on the positioning element 16 positioned relative to an air inlet fin. The test stamp 19 is with the rubber pad 20 placed on the air inlet blade to be tested.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2853896 A1 [0002]
• DE 1221467 [0002]
• US 5811686 [0002]
• US 4905521 [0002]
• US 6810752 B1 [0002]
• US 2006/0283261 A1 [0002]

Claims (10)

Test device for determining compressive stiffnesses, for example on air inlet fins, with a test specimen ( 4 ), characterized in that the test body ( 4 ) to a coupling device ( 6 ; 26 ), which is a connection point ( 12 ; 32 ) for connecting the test specimen ( 4 ) to a tester. Test device according to claim 1, characterized in that the connection point ( 12 ; 32 ) a threaded recess ( 14 ; 34 ). Test device according to claim 2, characterized in that the threaded recess ( 14 ; 34 ) in a longitudinal extension direction of the coupling device ( 6 ; 26 ). Test device according to one of the preceding claims, characterized in that the test body ( 4 ) a plunger ( 19 ). Test device according to one of the preceding claims, characterized in that the plunger ( 19 ) a bearing surface with a rubber pad ( 20 ) having. Test device according to claim 4 or 5, characterized in that the plunger ( 19 ) in extension of the coupling device ( 26 ) is arranged. Test device according to claim 4 or 5, characterized in that the plunger ( 19 ) transversely to the coupling device ( 6 ) is arranged. Test device according to one of the preceding claims, characterized in that the coupling device ( 6 ) at least one positioning surface ( 18 ) having. Test device according to claim 8, characterized in that the positioning surface ( 18 ) on a positioning element ( 16 ) is formed, which is fixed to the coupling device ( 6 ) connected is. Test device according to claim 9, characterized in that the positioning element ( 16 ) is designed as a positioning plate, the material fit with a coupling element ( 8th ) connected is.

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