SU1427170A1 - Device for measuring displacements in three coordinates - Google Patents

Abstract

The invention relates to a measuring technique and can be used to measure the dimensions of objects in the composition of coordinate measuring machines. The aim of the invention is to improve the measurement accuracy due to the implementation of the Abbe principle when measuring the dimensions of objects of complete shape. The invention is illustrated in the drawing, which shows the functional diagram of the device. When moving the platform 5 with the measuring tip over the surface of the measurement object, the interference displacement meters 3 determine the distances to the reflectors 6, which unambiguously determine the position of the platform 5 relative to the base frame 2, and hence the coordinates of the points of the measurement object. The connection of the reflectors 6 with the help of telescopic tubes 7 with gauges 3 ensures that the gauges 3 are guided to the reflectors 6 at all positions of the platform 5, and the line passing through the measuring tip and gauge 3 will always pass through 3 reflector 6, which ensures the implementation of the Abbe principle, and, consequently, higher measurement accuracy compared with known devices. 1 il. 3 4 cl 4 y 4j

Description

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The invention relates to a measuring technique and can be used to measure the size of objects in a coordinate measuring machine.

The purpose of the invention is to increase the measurement accuracy due to the implementation of the Abbe principle when measuring objects with a false form.

: The drawing shows a functional diagram of the device.

 The device comprises a base 1, a baffle frame 2, made in the form of pipes, filled with a vibration absorber, and fastened to the base 1, not changing three interferential displacement meters 3, fastened using hinges 4 with the base frame 2, platform 5 with a measuring tip installed on the basis of 1 C; OPPORTUNITIES of moving along three coordinate axes parallel to the center itself, reflectors 6, the number of which is equal to the number of meters 3, mounted on the platform 5 with the possibility of movement in its plane and optically connected with the corresponding meters 3, telescopes of the pipe 7 according to the number of reflectors, used; between the corresponding reflectors 6 and gauges 3, 4to one side of them fixed with the corresponding reflector 6, and the other side with the corresponding gauge 3.,

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j The measurement object (not shown) is installed on the base 1 and the measuring tip of the platform 5 is brought into contact with the monitored object.

The device works as follows.

When moving the platform 5 with the measuring tip over the surface of the measurement object, the interference displacement meters 3 determine the distances to the reflectors 6 which unambiguously determine the position of the platform 5 relative to the base frame 2j and, therefore, the coordinates of the measurement object points. Connect the reflectors 6 using the body

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Scopic pipes 7 with interference displacement meters 3 provide guidance of the meters 3 to the reflectors 6 at any positions of the platform 5.

The presence on the platform 5 of the measuring tip allows to determine the coordinates of points on objects having recesses and protrusions, while the line connecting the measuring tip and the meter will always pass through the reflector 6 and the Abbe principle will be observed, which ensures a higher accuracy of measurement by compared with known devices.

Making the base frame 2 in the form of pipes filled with a vibrating absorber increases the vibration isolation of the meters, which also leads to an increase in the measurement accuracy.

Claims (1)

Invention Formula A device for measuring displacements in three coordinates, comprising a base, a base frame fastened to the base, at least three interference displacement meters, mapHJfpHo fastened to the base frame, a platform with a measuring tip mounted on the base with movement on three axes, and a reflector installed on the platform, that is so that, in order to improve the measurement accuracy, it is equipped with so many additional reflectors that their total number is equal to the number of gauges mounted on the platform with the ability to move in its plane and optically connected with the corresponding gauges, telescopic tubes by the number of reflectors mounted between the respective reflectors and gauges so that one side of them is bonded with the corresponding reflector and the other - with an appropriate meter, and the base frame is made of pipes filled with a vibration absorber.