SU855387A1 - Projection device for aligmment of drawing and specimen contours - Google Patents

Description

(54) PROJECTION DEVICE TO COMBINE DRAWING AND SAMPLE CONTOURS

one

 The invention relates to the machining of metals, namely to projection devices for aligning the contours of the drawing and the sample.

A device for determining installation angular parameters that process angle mills when machining shaped concave surfaces is known, comprising a base with an angled cheek and a vernier slider, on which a square with a curved and movable ruler is located, a plate with a vernier frame and a second angle with linear pegs installed in the vernier box 1.

. The known device makes it possible to determine the adjusting angle of the milling cutter for a given width of the width and depth of the shaped concave surface, but it has a low productivity.

The closest in technical essence and the achieved result to the proposed is a projection device for combining the contours of the drawing and the sample, containing a work table with vertical guides fixed on it, on which the carriage with the illuminator, sample holder and lens fixed on it, and gauges 2

The drawback of the device is that it does not allow determining the settings of the cutting tool.

The purpose of the invention is to determine the installation parameters of the cutting tool.

The goal is achieved by the fact that in a device containing a work table with vertical guides fixed on it, on which a cage is mounted with an illuminator, sample holder and lens, and gauges attached to it, the sample is made in the form of a dial cutter, and the holder is fixed on the carriage can be rotated around the 15th horizontal axis and is connected to the meter of the angle of rotation.

FIG. I shows a projection device; in fig. 2 - rotation angle meter.

The device consists of a desktop 1

A with fixed vertical guides 2 on which a carriage 3 is mounted. On the carriage 3, an illuminator 4, a condenser 5 and a lens 6 are fixed. Between

the condenser and the lens are the Holder 7 of the sample, made in the form of a simulator disk 8. The holder 7 is fixed on the carriage 3 with the possibility of rotation around the horizontal axis and connected with the measuring angle of rotation, made in the form of an angular scale 9 with a vernier slider 1.

The device works as follows.

When combining the zero values of the angular scale 9 and the Vernier iO on the surface of the desktop 1, the edge of the milling disc 8 of the cutter is projected. With the rotation of the discimmitator 8, the image of its projection turns into an ellipse shape. When moving the connus 10 to align with the number 90 ° on the angular scale 9, the projection of the changing ellipse turns into an image of a circular disk. By changing the position of the optical system by vertically moving it along the guides 2, the image of the disk-simulator 8 is adjusted to the diameter of the selected machining cutter. The drawing of the tool being manufactured is placed on the working surface of the table so that the vertical axes of the drawing are parallel to the axis of the holder. Then, the shadow projection of the ellipse is inscribed into the shape of the depression of the chip groove of the drawing, adjusting the magnitude of the shadow projection by rotating the disk so that it most closely coincides with the coirture of the groove. The angle of rotation of the Dksk-simulator, measured by the angle bar, corresponds to the required angular parameter of the cutter in the manufacture of the product (jj). Then, setting the nsanius zero position and having obtained on the projection an image of a disk edge corresponding to the major axis of the ellipse, an axis is drawn parallel to it through the center of the instrument drawing. Measuring the distance between the image of the edge of the disk and the axis of the drawing parallel to it, ohfdef the horizontal displacement of the machining cutter (S).,

When measuring the distance between parallel straight lines, one of which is tangent to the forming circle of the instrument drawing at the point of its intersection with the image of the disk edge, and the other tangent to the bottom of the depression, the vertical Frey offset parameter (f) is determined.

The invention makes it possible to accurately determine the angular as well as linear parameters of the displacement of the cutting tools.

Claims (2)

Invention Formula A projection device for aligning the outlines of a drawing and a sample, containing a work table with vertical guides fixed on it, on which a carriage is mounted with an illuminator, a sample holder and a lens fixed on it, and meters that determine the settings of the cutting a tool, such as a milling cutter, the sample is made in the form of a milling cutter disk, and the holder is attached to the carriage with the possibility of rotation around a horizontal axis and connected with a measuring angle of rotation. Sources of information (ats taken into account during the examination 1. USSR author's certificate - No. 446065, class G 01 G 1/06, 1971. 5 2. USSR author's certificate No. 426G41, cl. G 01 B 9/08, 1972.