RU69433U1 - TOOL SETTING DEVICE - Google Patents

Abstract

The tool tuning device comprises a housing 1 made mainly of non-magnetic material with base elements 2 placed on it and made in the form of a prism. The base elements have openings 3 in which magnets 4 are placed. Also, an indicator 5 is mounted in the housing, secured with fasteners 6. The magnets 4 are mounted to ensure the opposite polarity of their ends. Holes 7 are made in the housing 1, in which a closure element 8 is made, made of a magnetically conductive material and in contact with the magnets 4. The technical task to which the utility model is aimed is to increase the reliability of the device by providing it with a better clamp to the tool body. 3 ill. The device has high reliability, provided by its best clamp to the tool body. 4 ill.

Description

The utility model relates to mechanical engineering and can be used to adjust the cutting tool to a size, mainly of cutting elements of boring bars and cutter heads.

A device for adjusting a tool is known, selected as the closest analogue, comprising a housing made mainly of non-magnetic material, with base elements made in it in the form of a prism, magnets placed in the holes of the base elements, an indicator placed on the body and fixed with fastening parts (Frumin Yu.L. Integrated design of tooling. - M.: Mechanical Engineering, 1987, pp. 330-331).

The device is used to adjust the boring bars and tool heads on the machine. The device is installed on the cylindrical surface of the tool body by means of a prism, and using the indicator, the cutting elements are set to size. Magnets placed in the holes of the prism provide a clamping device to the tool body.

The disadvantages of this device include its weak pressure on the tool body, caused by the dispersion of the magnetic flux in the air and not rational use of magnets. The use of stronger magnets does not always solve the problem. This leads to a decrease in the reliability of the device.

The technical problem, which the utility model is aimed at, is to increase the reliability of the device by providing its best clamp to the tool body.

This problem is solved in that in the device for tuning the tool, comprising a housing made mainly of

non-magnetic material, with basing elements made in it in the form of a prism, magnets placed in the holes of the basing elements, an indicator placed on the body and fixed with fastening parts, magnets are placed to ensure the opposite polarity of their ends, and the body is made with holes in which a locking element is made made of a magnetically conductive material and in contact with the magnets.

The placement of magnets in the holes of the base elements with the opposite polarity of their ends, in combination with the placement in the holes of the body of the closing element in contact with the magnets, will allow the passage of magnetic flux through the body of the adjustable tool and the closing element. In turn, this will allow more efficient use of magnets by eliminating the dispersion of the magnetic flux passing through the air, which occurs when they are placed with the same polarity.

The applicant does not know the devices for tuning the instrument with the specified set of essential features and the claimed set of essential features does not follow explicitly from the current level of technology, which confirms the compliance of the claimed technical solution with the condition of "novelty".

The claimed technical solution is illustrated by drawings, where:

figure 1 - a device for tuning the tool (General view);

figure 2 - view a in figure 1;

figure 3 - diagram of the passage of magnetic flux with the same polarity;

4 is a diagram of the passage of magnetic flux with opposite polarity.

The tool tuning device comprises a housing 1 made mainly of non-magnetic material with base elements 2 placed on it and made in the form of a prism. The base elements have openings 3 in which magnets 4 are placed. Also, an indicator 5 is mounted in the housing, secured with fasteners 6. The magnets 4 are mounted to ensure the opposite polarity of their ends. In the housing 1, holes 7 are made, in which a closure element 8 is made, made of a magnetically conductive material and in contact with the magnets 4.

The tool tuning tool works as follows. The device, by means of the base elements 2, is mounted on the tool body. In this case, the magnets 4, placed in the holes 3 of the base elements with the opposite polarity of their ends located on the surfaces of the base elements, provide it with pressure against the tool body. After that, the indicator 5 is set to “zero” by means of a reference surface on the tool body. Next, bring the indicator probe to the cutting edge of the cutting element and set the latter to the required size. After fixing the cutting element, a second control is carried out, after which the device is removed.

The adaptation of the claimed design with the placement of magnets with the opposite polarity of their ends in relation to each other has high reliability, which is ensured by its best clamping to the tool body due to the passage of magnetic flux through the body of the tuned tool and the closing element and eliminating the dispersion of the magnetic flux passing through the air.

The device for adjusting the tool can be performed on standard equipment using modern materials and technologies.

Claims (1)

A device for tuning the tool, comprising a housing made mainly of non-magnetic material, with base elements made in it in the form of a prism, magnets placed in the holes of the base elements, an indicator mounted on the housing using fastening parts, characterized in that the magnets are placed with the opposite polarity of their ends, while in the housing there are holes in which a closure element made of magnetically conductive material and contacting with magnets is placed ent.