CS224746B1 - Induction reader of measuring instrument for grinding machine used for rotary parts grinding - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to an inductive sensor of a control gauge for a grinding machine on a rotating component, the control gauge being intended to continuously monitor the dimensions of the grinded articles and to control the grinding cycle.

Known prior art devices use inductive sensors with cores guided in plain bearings, roller bearings or flat springs. These sensors have a contact outside the sensor body which is pressed against the indicator part of the control gauge by a compression spring located inside the sensor body. Thus, the compression spring ensures the measuring force of the sensor. The disadvantages of these solutions are the high laboriousness of production of sensors, insufficient measuring range, operational unreliability and low lifetime. In sliding and rolling bearings, there is undesirable friction and wear of the contact surfaces. Contamination leads to accelerated wear of the contact surfaces and often to seizure of the core guide. When the core is mounted on flat springs, the sensor has a limited measuring range and due to moisture, the corrosion of flat springs, which are made of a weak foil, is rapidly continuing, thereby rapidly degrading function and shortening the life of the sensor.

The aforementioned drawbacks are eliminated by the inductive sensor of the control gauge for the rotary grinding machine according to the invention, which is based on the fact that the left-hand pin is firmly connected to the left-hand pin and has a threaded through hole in which the set screw is mounted. At the bottom of the shining bolt is located a locking nut that faces the face of the left pin. At the top of the set screw, in the form of a cylindrical shaft, is attached a sensor core that is loosely located in the opening of the sensor coil, the sensor coil being housed in the sensor body that has the outer shape of the cube body or cuboid. An electrical cable clip is formed on one side of the sensor body.

Inside the sensor body there is an asymmetrically placed sensor coil so that one side of the sensor body is thicker and a threaded hole is made in this wall by which the sensor body is fastened to the right holder by means of at least one spacer and connecting screw.

The novel and higher effect of the device according to the invention is to substantially simplify the construction by eliminating the core guide and the device for generating the measuring force of the sensor. This eliminates passive resistances as well as hysteresis and wear. The sensor has an unlimited lifetime, is not subject to changes in functional properties due to wear, and the axial displacement of the core in the coil including the free stroke is not limited by guidance.

The accompanying drawings show an exemplary embodiment of an inductive transducer according to the present invention, in which Fig. 1 shows a control gauge with a built-in inductive transducer in a side section; Fig. 3 is a cross-sectional view of the inductive transducer, and Fig. 4 is a top plan view of the inductive transducer, with a partial cross-section showing a threaded hole for mounting the transducer in the control meter.

The device according to the invention consists of a left holder 1, to which a left pin 2 is attached, which is provided with a threaded hole in which the set screw 3 is located. At the bottom of the set screw 2 there is a locking nut 4 which faces The upper part of the adjusting screw 2 is in the form of a cylindrical shaft on which the sensor core 2 is fixed, which is loosely located in the opening of the sensor coil 6. The outer shape of the sensor body J is a cube or a prism. On one side of the sensor body 2, a clip for the electric cable 8 is formed. The sensor coil 6 is positioned in the sensor body 2 of the asimeter, so that one side of the sensor body J is thicker and a threaded hole is made in this thicker wall. by means of at least one spacer 2 and a connecting screw 10 to the right holder 11. The lower part of the sensor body 2 is provided with a shoulder in which a lid 12 is placed which is fixed by the bent edges of the sensor body

The function of the device consists in the relative axial displacement of the sensor core 2 and the sensor coil 6 by the fact that the stylus, which attaches to the left guide 13 and the right guide 14, deflects the left stud 2 with the left holder 1 and the right stud 12 with the right holder 11. The tilt of the holders 1, 11 is made possible by the foil hinges 16. The positioning of the sensor core 2 in the sensor coil bore 6 is performed in three axes by adjusting screw 2 »of at least one spacer. through the hole in the right holder JI.

The device according to the invention was realized in a materialized state in the production of a prototype of an inverse control gauge for a rotary part grinder n. An alternative embodiment is to provide a cap 12 with a terminal block function to which ae attaches the electric cable 8.

Claims (2)

SUBJECT OF THE INVENTION An induction sensor of a control gauge for a grinding machine on a rotating part, with a left and a right holder on the foil hinges, characterized in that a left-hand pin (2), which is provided with a threaded through hole, is fixedly connected to the left holder (1). is provided with a set screw (3), on the bottom of which the locking nut (4) is screwed, which faces the flat of the left pin (2) and on the top of the set screw (3) in the shape of a cylindrical shaft 5) a sensor that is loosely located in the opening of the sensor coil (6), the sensor coil (6) being housed in a sensor body (7) having an outer surface in the shape of a cube body or cuboid and on one side of the sensor body (7) ) a clip for the electric cable (8) is formed and a sensor coil (6) is asymmetrically positioned inside the sensor body (7) so that one wall of the sensor body (7) is thicker and avt. A threaded bore is provided on this wall through which the sensor body (7) is fastened to the right holder (11) by means of at least one spacer (9) and a connecting screw (10). An inductive sensor according to claim 1, characterized in that the lower part of the sensor body (7) is provided with an internal shoulder in which a cap (12) is attached which is fixed by the bent edges of the sensor body (7).