DE10234095A1 - Curved pipe quality control method in which pipe supports also serve as testing elements for checking the dimensional stability or accuracy of the pipe - Google Patents

Abstract

Method for quality control of curved pipes in which an arrangement of pipe testing elements (10) also acts as the support points (12) for the curved pipe (14) that is defined within an X-Y-Z coordinate system (16). The testing elements are mounted on a base plate (18) according to the path of the pipe. The test elements are initially positioned using a prototype pipe. Once the pipe is positioned the test elements are used to check the dimensional stability of the pipe. The invention also relates to a corresponding device for method implementation.

Description

The invention relates to a Method and device for quality control of curved pipes according to the generic term of claim 1.

Curved pipes are and equipment manufacturing as well as in automotive engineering, e.g. For Petrol and oil lines, needed.

To check the dimensional accuracy and accuracy of fit of curved Tubes are used negative models, templates, gauges, etc. at curved This is relatively complex for pipes. On the other hand, a review is absolute necessary because the errors occur with multiple curvatures in the X-Y and Z-directions of a coordinate system so that the curved tube is ultimately unusable. To a certain fit of such a tube, especially in mass production to ensure, becomes the finished crumb Pipe e.g. checked in a negative model. Will a change required, must new negative model are manufactured. The same applies to a change the diameter of the curved pipe.

It is therefore the task of the present Invention, a method and an apparatus for quality control of curved To create pipes with which a quick and easy check of a curved Pipe enables becomes. In doing so, a change in dimensions a simple new adaptation of the device to the new pipe may be possible.

This task is claimed by the 1 and 6 marked invention solved, i.e. through a process for quality control of curved pipes, that is characterized by arranging pipe test elements, the support points for a curved Define a pipe in an X-Y-Z coordinate system on a base plate according to the curvature of the curved Pipe, alignment of the pipe test elements based on a prototype of the curved Pipe, arranging the curved Pipe on the pipe test elements and by checking the Support points of the curved Pipe on the pipe test elements to check the dimensional accuracy of the curved Tube.

The device for carrying out the The process is characterized by a base plate and by the base plate according to the curvature of the curved tube arranged pipe test elements, the support elements for the curved Define pipe.

With such a method or With such a device, a quick and easy, possibly even automatic quality control of a curved pipe reached.

Advantageous embodiments of the Invention result from the subclaims.

In a simple embodiment, that the support points are checked visually. In this case there can be one on each test element Light source can be arranged by means of the point of contact of the curved tube is checked on the pipe test element.

According to another advantageous embodiment the invention provides that the support points by means of push buttons be checked electronically. this makes possible an automatic check of the fitting accuracy and dimensional accuracy of the curved Tube.

Because the number of support points accordingly the tolerance range of dimensional accuracy the quality control can be determined according to the Adjusted requirements become.

According to a Another advantageous embodiment of the invention provided that a certain number of recorded support points a signal to determine the dimensional accuracy of the curved tube generated. This informs the operator of the device that that the curved Pipe meets the requirements. If the signal does not appear, it is on faulty pipe. It is also possible that the signal only is generated in the case of a defective tube.

The device also provides that the support elements support points in an X-Y-Z coordinate system for the curved Define tube, the support elements as fitting elements are designed to adapt to different pipe diameters.

Another embodiment of the invention provides before that the pipe test elements Holding elements for the fitting elements have and that the fitting elements height adjustable are trained. After all, should the holding elements are displaceable and / or rotatable and / or tiltable be arranged on the base plate. These measures ensure maximum flexibility of the device, so that they can be used on pipes with any curvature and radius can be.

Another embodiment of the invention provides before that the pipe test elements at its upper section or the fitting elements push buttons for electronic Have detection of the support points, further expediently for automation it is provided that a device for electronic Processing the recorded Support points and to generate a signal at a specific Number of support points recorded to determine the dimensional accuracy and accuracy of fit curved Tube is provided.

The device according to the invention can can also be used to support components to be bent, for example pipes, and to fix them, for example to fix additional components or end pieces to a bent part.

An embodiment of the invention is shown in the drawing and is described in more detail below. Show it:

1 a perspective view of the device and

2 a view of a fitting element.

In the 1 and 2 The device shown for carrying out the method for quality control of curved pipes comprises a base plate 18 , on the base plate 18 according to the curvature of the curved tube 14 arranged pipe test elements 10 , the support elements 22 for the curved tube 14 define. The support elements 22 can vary depending on the profile of the curved tube 14 be semicircular, oval or flat. In the area of the support elements, there are support points 12 in an XYZ coordinate system 16 Are defined.

As in 2 are shown, the support elements 22 as fitting elements 24 designed to adapt to different pipe diameters or cross sections or profiles. As in 1 shown are the fitting elements 24 on holding elements 26 arranged, which in turn on the base plate 18 are attached. The fit elements 24 are on the holding elements 26 height adjustable, for example by means of locking or clamping means. Next are the holding elements 26 on the base plate 18 slidably and / or rotatable and / or tiltable, for example by means of lockable ball joints and corresponding lockable guides.

As in 2 shown, the point of contact 12 on the fitting element 24 a push button 20 on. The touch switch generates a signal when touching a curved tube that a device 28 for electronic processing of the recorded support points 12 and to generate a signal at a certain number of the detected contact points 12 to determine the dimensional accuracy and accuracy of fit of the curved tube 14 is fed.

A prototype of the curved tube is used to set up the device 14 on the pipe test elements 10 placed and the pipe test elements 10 are attached to the curved pipe 14 adjusted and fixed on the base plate. Then the fitting elements 24 to the curved pipe 14 adjusted so that all pushbutton switches 20 generate a signal. The device is now on a certain curved pipe 14 set up and the quality control can be carried out. If the device is to be used for another curved tube, only a new adjustment is required. The device can thus be used universally for distance detection, for determining the contact width, the dimensional and fitting accuracy for curved tubes as part of a quality control.

The invention was based on a embodiment described, but understandable is that changes and amendments to fall within the scope of the claims.

Claims (13)

Process for quality control of curved pipes, characterized by arranging pipe test elements ( 10 ), the support points ( 12 ) for a curved pipe ( 14 ) in an XYZ coordinate system ( 16 ) define on a base plate ( 18 ) according to the curvature of the curved pipe ( 14 ), Alignment of the pipe test elements ( 10 ) based on a prototype of the curved pipe ( 14 ), Arranging the curved tube ( 14 ) on the pipe test elements ( 10 ) and by checking the support points ( 12 ) of the curved pipe ( 14 ) on the pipe test elements ( 10 ) to check the dimensional accuracy of the curved pipe ( 14 ). A method according to claim 1, characterized in that the support points ( 12 ) be checked visually. A method according to claim 1 or 2, characterized in that the support points ( 12 ) by means of push buttons ( 20 ) are checked electronically. Method according to one of claims 1 to 3, characterized in that the number of support points ( 12 ) are determined according to the tolerance range of dimensional accuracy. Method according to one of claims 1 to 4, characterized in that a certain number of detected support points ( 12 ) a signal to determine the dimensional accuracy of the curved pipe ( 14 ) generated. Device for carrying out the method according to one of claims 1 to 5, characterized by - a base plate ( 18 ) and through - on the base plate ( 18 ) according to the curvature of the curved pipe ( 14 ) arranged pipe test elements ( 10 ), the support elements ( 22 ) for the curved tube ( 14 ) define. Apparatus according to claim 6, characterized in that the support elements ( 22 ) Support points ( 12 ) in an XYZ coordinate system for the curved pipe ( 14 ) define. Apparatus according to claim 6 or 7, characterized in that the support elements ( 22 ) as fitting elements ( 24 ) are designed to adapt to different pipe diameters. Device according to one of claims 6 to 8, characterized in that the pipe test elements ( 10 ) Holding elements ( 26 ) for the fitting elements ( 24 ) exhibit. Device according to one of claims 6 to 9, characterized in that the fitting elements ( 24 ) are height adjustable. Device according to one of claims 6 to 10, characterized in that the holding elements ( 26 ) slidable and / or rotatable and / or tiltable on the base plate ( 18 ) are arranged. Device according to one of claims 6 to 10, characterized in that the pipe test elements ( 10 ) on its upper section or the fitting elements ( 24 ) Push button ( 20 ) for electronic recording of the support points ( 12 ) exhibit. Device according to one of claims 6 to 9, characterized in that a device ( 28 ) for electronic processing of the recorded support points ( 12 ) and to generate a signal at a certain number of detected contact points ( 12 ) to determine the dimensional accuracy and accuracy of fit of the curved tube ( 14 ) is provided.