SU676863A1 - Non-rectilinearity measuring device - Google Patents

Description

one

The invention relates to a measurement technique, in particular, to the construction of devices for measuring linearity, for example, deep precise cylindrical holes.

A device for measuring linearity is known, comprising a laser forming a reference beam of light, a block of plane-parallel plates used for scanning the beam, and a photoelectric detector 1.

A photoelectric detector measures the change in beam intensity, and if the detector is on the beam axis, it records a symmetrical change in intensity at the angle of rotation of the block. When the detector leaves the beam axis, its output signal becomes asymmetric, and the asymmetry pattern is determined by the magnitude of the angular displacement of the detector carriage.

The drawback of the device is the complexity of the design and the small measurement range of non linearity.

The closest in technical essence to this device is a device for measuring linearity, containing a point source of light, a photoelectric sensor installed in the plane of the focused image of the source of light, an error amplifier connected by an input to an output of a sensor, a reversing tracking motor connected to an output misalignment amplifier, and the reference node 2.

When the image of a point light source does not coincide with the zero line of the photoelectric sensor signal, an error signal appears on the amplifier, which is sent to a reversing motor controlling an optical micrometer and a compensating plane-parallel plate to match the image of the point light source to the zero line synchronously with the plate

moves the reference node.

The known device has a small measuring range of non linearity, as well as restrictions on the shape of the objects to be monitored.

The purpose of the invention is to measure the non-linearity of objects of various shapes.

The goal is achieved due to the fact that the device is equipped with a meter

linear movements connected by an output to the input of the reference node and a carriage movable in a direction perpendicular to the base plane connected to the linear displacement sensor rod,

eccentric cam fixed

on the shaft of the reversing follow-up motor, and the photoelectric sensor is mounted on the movable carriage.

The drawing shows a structural diagram of the device.

A device for measuring hp linearity contains a point source of light 1, a housing 2 for accommodating the main components of the structure, a photoelectric sensor 3 placed on a carriage 4 connected with an eccentric cam 5 with a reversing tracking motor 6, and using a working protrusion with a rod a linear displacement meter 7, a misalignment amplifier 8 and a readout node, including a detector 9, an amplifier 10 and a recorder 11.

The operation of the device is as follows.

A point source of light 1, such as a gas laser, materializes the theoretical axis of the hole 12 with its beam. If the energy center of the beam does not coincide with the axis of the hole being measured, which means with the axis of the measuring node or the zero position of the photoelectric sensor 3, the error signal is output from the amplifier 8 which is fed to the reversing tracking motor 6 for moving the carriage 4 with the photoelectric sensor until the center of the sensor coincides with the energy center of the beam. The movement of the carriage causes the movement of the electric meter rod 7 of the linear movements, the signal from which is recorded by the reference unit.

Thus, the introduction of a linear displacement meter and a movable carriage equipped with a photoelectric sensor and interacting with the linear displacement meter rod and through a cam with a reversing tracking motor into the design of the device makes it possible to refuse the use of complex optical systems, check the linearity of objects of various shapes, and also to use standard recording equipment.

Claims (2)

1. The UK patent number 1261924, cl. G 01B 11/26, published. 1972. 2. USSR author's certificate number 200171, cl. G 01B 11/30, 1977. 2 “7 S