SU1753238A1 - Device for determining distortion of internal surface of picture tube - Google Patents

Abstract

The invention relates to a measurement technique and can be used in the manufacture of kinescope screens for measuring their inner surface. The aim of the invention is to improve the measurement accuracy. For this, the device for measuring the shape deviation of the inner surface of the screen of the kinescope is equipped with positioning and calibration units, as well as the functionality of the base unit. 8 il.

Description

sl C

The invention relates to mechanical engineering and can be used in the manufacture of kinescope screens for measuring their inner surface.

Measuring installations are known for monitoring the inner surface of a kinescope screen, which are part of measuring machines. The measuring device comprises a housing, an oscillating rod connected with it to the measuring transducer hinged by it, a screen-based device in the form of a set of boards installed with the possibility of two-coordinate movement relative to the housing 1.

A disadvantage of the known measurement systems is the low accuracy and ease of measurement associated with the lack of positioning and calibration devices for the boom rod.

The technical essence and the achieved effect is closest to the present

The invention is a device for measuring the deviation of the shape of the inner surface of a kinescope screen, comprising a housing, a rod pivotally connected to it with a measuring transducer, a rod movement drive and a screen base assembly, made as a set of three parallel plates, one of which is rigidly connected to the housing, the second one is mounted for movement in a plane parallel to the first plate, and the third plate is mounted for movement in a plane perpendicular to the second plate, and the stop in installed on the third plate movable perpendicularly to it and intended for mounting the screen 2. A disadvantage of the known device is not sufficient measurement accuracy and convenience associated with the absence of the positioning device and the calibration ka

cl

CO N5 CO 00

There is a substantial auxiliary time for the preparation of the measurement process.

The aim of the invention is to improve the measurement accuracy.

The goal is achieved by the fact that a device for measuring the deviation of the inner surface of the kinescope screen, comprising a housing pivotally connected to it is a bar with a measuring transducer, a drive for moving the bar and a base of the screen, made in the form of a set of three parallel plates, one of which is rigidly connected with the body, the second one is mounted for movement in a plane parallel to the first plate, and the third plate is mounted for movement in a plane perpendicular to the second plate, and stops installed on the third plate with the ability to move perpendicular to it and designed to install the screen, according to the invention, is equipped with a rod positioning unit, made in the form of a false cross with stops designed for contacting with the outer and side surfaces of the screen, and a central bore for mounting the boom transducer to the initial position, and a calibration unit made in the form of an overhead bracket for mounting and into the housing and contact with the measuring transducer at the initial position of the rod, and each of the stops of the screen base assembly is made in the form of a rod and bushings mounted coaxially with a pointer on the side surface and a sphere placed on the end surface of the sleeve and intended to be mounted on it the screen, and the nuts with a scale interconnected with the hub pointer.

Fig. 1 shows a schematic diagram of a device for measuring the deviation of the shape of the inner surface of a kinescope screen; in fig

2-unit boom positioning; in fig.

3 - the same, top view; in fig. 4 - boom calibration unit; in fig. 5 is the same side view in FIG. 6 shows section A-A in FIG. five; in fig. 7 is a fragment of a screen-based node; in fig. 8 is a section BB in FIG. 7

A device for measuring the deviation of the shape of the inner surface of the kinescope screen comprises a housing 1, a rod 2 pivotally connected to it with a measuring transducer 3, a drive for moving the rod (not shown in FIG.), A screen base assembly made as a set of three parallel plates 4, one of which is rigidly connected by means of racks 5 to the housing 1. the second is mounted for movement in a plane parallel to the first plate, and the third is the plate

mounted in a plane perpendicular to the second plate, and lugs 6 mounted on the third plate can be moved perpendicular to it and intended for

0 screen setup. The spherical joint 7 allows the rod 2 to perform swing movements relative to the housing 1,

The device is equipped with a positioning unit of the rod 2 in the chapel of the consignment note cross 8 with stops 9 and 10 intended for contact with the outer and side surfaces of the screen. At the cross of the consignment cross 8 there is a central hole 11 designed to

0 installation of the measuring transducer rod 2 to the initial position.

The device is equipped with a calibration unit, made in the form of patch bracket 12, the plane of the base 13 of which

5 passes through the center of the spherical hinge 7 of the rod 2, the plane of the upper bar 14 coincides with the plane of the end face of the rod 15 of the measuring transducer at the initial position of the rod 2.

0 The device is equipped with / evil of the screen base, each of the stops 6 of which is made in the form of a rod 16 and sleeve 17 installed coaxially to it with a side surface indicator and sphere 18. spaced on the end surface of the sleeve 17 and the screen to be installed on it, and a nut 19 with scale interconnected with the pointer of the sleeve 17.

The device works as follows.

The shield is mounted on the base assembly and the rotation of the nut 19 provides the desired horizontal position of the shield base. Position

5 nuts 19 secures the lock nut 20. Offset plates 4 of the kit allows you to compensate for the error of the installation screen in the horizontal plane.

Then rod 2 using the drive

0, the electric motors (not shown in fig.) Are brought to the initial position, i.e. the rod 15 of the measuring converter 3 is brought to a position close to the highest point of the inner sphere of the screen.

5 For precise setting of the initial position of the rod 2, the positioning unit of the rod 2 is used in the form of a patch of the cross 8, which is superimposed on the outer surfaces of the screen by the stops 9 and 10. The central hole 11 of the cross 8

allows you to visually accurately place the bar on the center of symmetry of the screen on which the visually distinct mark is made.

To accurately determine and calibrate the radius R of the rod 2, the calibration unit is used as an overhead bracket 12, the base 13 of which is made in the form of a U-shaped plate, its base is installed in the same plane with the center of the spherical hinge 7. The lower plane of the upper bar 14 is superimposed on the end of the rod 15 of the measuring transducer at the initial position of the rod 2. The size R is a calibration one and the rod size with the measuring transducer 3 is set on it.

The presence of the nodes listed above makes it possible to increase the accuracy and convenience of measurements by reducing the auxiliary time for preparing the measurement process.

Claims (1)

Invention Formula A device for measuring the deviation of the shape of the inner surface of the kinescope screen, comprising a housing, a rod pivotally connected to it with a measuring transducer, a drive for moving the rod and a screen base assembly, performed as a set of three parallel (Puzf plates, one of which is rigidly connected to the housing, the second one is mounted for movement in a plane parallel to the first plate, and the third plate is mounted for moving in a plane perpendicular to the second plate and stops mounted on the third plate for movement perpendicularly it and intended to install the screen, characterized in that, in order to improve the accuracy of measurement, it is provided with a rod positioning unit, made in the form of a cross of the cross with stops designed for contact with the outer and lateral surfaces of the screen, and the central hole for mounting the boom transducer to the initial position, and the calibration unit, designed as an overhead bracket for mounting into the housing and contacting the transducer at the initial boom position, and Each of the stops of the base of the screen is made in the form of a rod and bushings mounted coaxially to it with a pointer on the side surface and a sphere placed on the end face second surface of the sleeve and intended for mounting the screen, and a nut with a scale interconnected with sleeve pointer. YSh8.2 Fa 2.3 FI.4  . / 14 1Z i i U 7 Aa FI.5 6 18 1B 17