RU180388U1 - RING DRILL FOR FORMING A LARGE DIAMETER RING grooves - Google Patents

Abstract

The invention relates to the field of cutting tools, in particular to ring drills for ring drilling, and can find application in the formation of an annular groove of large diameter over 400 mm in the elements of steel structures of nuclear engineering. The objective and technical result of the utility model is to create an annular drill with increased stability of the blades equipped with interchangeable cutters. The technical result is achieved by the fact that the annular drill contains a tubular body connected to the shank, made slotted with petals provided with cutters at the end, and slots tapering to the shank and rounded in the upper part, while the slots are made in the form of a rectangular trapezoid, and at the end of the tubular body ratio of the width of the petal to the width of the slot is (2 ÷ 5): 1, and the cutters are installed in rectangular grooves made at the ends of the petals, and are fixed by a plate pressed against the cutter with a screw. 1 of FIG.

Description

The invention relates to the field of cutting tools, in particular to ring drills for ring drilling, and can find application in the formation of an annular groove of large diameter over 400 mm in the elements of steel structures of nuclear engineering.

The closest in technical essence is a core drill containing a tubular body made of a slotted in the form of petals with cutters (cutting teeth) at the end and connected by soldering with a shank, and at the end of the body the slots of a trapezoidal shape are wider than the width of the petals installed on them cutters, and the slots taper to the shank, and the cutters are made in the form of trapezoidal plates. During the cutting process, the elastic lobes are deformed, and the cutters deviate in the opposite direction to the rotation of the drill (RU 2460613, B23B 51/04, publ. 09/10/2013).

The design of the known annular drill is designed to drill holes of relatively small diameter and does not allow the formation of high-quality annular grooves with a diameter of more than 400 mm due to the low stability of the elastic petals in their end part, as well as the inability to change the cutters if it is necessary to form annular grooves of a different width or when changing the incisors of their service characteristics.

The objective and technical result of the utility model is to create an annular drill with increased stability of the blades equipped with interchangeable cutters.

The technical result is achieved by the fact that the annular drill contains a tubular body connected to the shank, made slotted with petals provided with cutters at the end, and slots tapering to the shank and rounded in the upper part, while the slots are made in the form of a rectangular trapezoid, and at the end of the tubular body ratio of the width of the petal to the width of the slot is (2 ÷ 5): 1, and the cutters are installed in rectangular grooves made at the ends of the petals, and are fixed by a plate pressed against the cutter with a screw.

The technical result is also achieved by the fact that the rectangular grooves are provided in the end part with additional rectangular cutouts for accommodating the cutter shanks, the annular drill is made with two petals equipped with cutters, and one cutter is made with a cutting edge width exceeding the thickness of the tubular body, and the second cutter with the width of the cutting edge is less than the thickness of the tubular body.

The utility model may be illustrated by an example using FIG. 1 where

1 - tubular body;

2 - shank;

3 - petal;

4 - slot;

5 - cutter;

6 - a rectangular groove;

7 - plate;

8 - screw;

9 - rectangular cut;

10 - pin.

According to a utility model, the tubular body 1 of a core drill is connected to a shank 2 by a releasable connection using screws (not shown). Performing in the tubular body 1 slotted with the formation of slots 4 in the form of rectangular trapezoid, tapering to the shank and rounded in the upper part, will allow you to get the petals 3, in which the vertical wall and end surface are located at right angles. This made it possible to make rectangular grooves 6 at the ends of the petals 3, in the area of their vertical wall and the end surface, for securely fastening the cutters 5, which are installed in the grooves 6 and fixed with the plate 7 using the screw 8. Additionally, the plate 7 can be fixed with a pin 10 located in the body of the petal 3 and the plate 7 (not shown). For a more reliable fastening of the cutters 5, rectangular grooves are made in the end part with additional rectangular cutouts 9 in which the shanks of the cutters 5 are placed.

The fastening of the cutters 5 allows their replacement if necessary, the formation of annular grooves of a different width, or when changing the cutters of their service characteristics, or using cutters 3 of different widths of the cutting edge. For example, practice has shown the high efficiency of using an annular drill to form an annular groove with an external diameter of 480 mm, made with two petals equipped with incisors, one incisor being made with a cutting edge width exceeding the thickness of the tubular body, and the second incisor with a cutting edge width less than the thickness of the tubular body.

To increase the stability of the lobes 3 and improve the quality of the annular seam, it is optimal to perform the annular drill according to the invention, when at the end of the tubular body the ratio of the width of the lobe to the width of the slot is (2 ÷ 5): 1.

Claims (3)

 1. An annular drill comprising a tubular body connected to the shank, made slotted with petals, at the end of which cutters are installed, and slots tapering to the shank and rounded at the top, characterized in that rectangular grooves are made at the ends of the petals, the slots are made in the form rectangular trapezoid from the condition that at the end of the tubular body the ratio of the width of the petal to the width of the slot is (2 ÷ 5): 1, while the cutters are installed in the rectangular grooves of the petals and fixed by a plate pressed against the cut tsu with the screw. 2. The annular drill according to claim 1, characterized in that in the end part of the rectangular grooves are made additional rectangular cutouts for accommodating the shanks of the cutter. 3. The annular drill according to claim 1, characterized in that it is made with two petals, while one of the cutters installed in the petals is made with a cutting edge width exceeding the thickness of the tubular body, and the second cutter with a cutting edge width less than the thickness tubular body.

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