CS273799B1 - Control mechanism of tracing gauge's contact measuring system's moving part for active checking on machine tools - Google Patents

Abstract

The control mechanism of the movable part of the contact measuring system of the monitoring meter is used for controlling the system in small and also great measuring range, while keeping the same measuring conditions. The movable part (14) of the measuring system is suspended on the string (1) by means of the roller (2) with winding-up on the coil (3). The pressure spring (6) and the dog (4) lock the height of the measuring system. The roller (2) is rotationally attached to the longer arm of the two-armed lever (8). The draw spring (9) is attached to the second, shorter arm, and it balances the weight of the suspended system. The height can be adjusted by pushing away the controller and rotating it slightly. The non-working electromagnet (10) with the extended core (16) is in contact with the two-armed lever (8) in its upper position. The bottom position of the lever (8) with the roller (2) indicates the size of height adjustment of the movable part (14) of the measuring system in the small range.<IMAGE>

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an actuating mechanism of a movable part of a contact measuring system of a tracking meter for active control on machine tools, in particular surface grinding machines and rotary grinders.

It is a requirement of the industry, as regards monitoring gauges for active control on machine tools, in particular surface grinding machines and rotary grinders, that grinding workpieces that are machined in one piece or large series is rational. This has led to the development and use of absolutely digital measuring gauges.

The prior art tracking gauges for active control on surface grinders use a resistive gauge with a small measuring range (0.5 mm). The small measuring range causes complications when the gauge is zeroed relative to the base when eliminating the heat dyeing of the fixture.

The core of the measuring system coils is controlled by a swinging thumb with a touch, its axis being fixedly connected to the machine frame. Adjustment is possible after loosening the clamps of the tube holder.

A substantial improvement in the operation of the gauge is the control mechanism of the movable part of the tactile measuring system of the tracking gauge for active control on machine tools according to the invention, the principle being that the movable part of the measuring system is hung on a wire over a roll and a rack locking position of the metering system to the lid portion of the lid, wherein the roller is pivotally mounted on the longer arm of the two-arm lever to which the shorter arm is attached a tension spring. An elongated core of electromagnets adjoins the longer arm of the two-arm lever.

The solution allows to joint the joint mechanism to control the vertical movement of the moving part of the measuring system in a small range (of the order of 0.8 mm) and the movement of the measuring system over a large measuring range (0 to 100 mm). using an electromechanical mechanism and a remote control to use a small measuring range while maintaining a constant approach pressure and approach speed to the measuring surface.

The large measuring range is controlled manually by pushing and turning the hand dial.

The large measuring range of the gauge makes it possible to eliminate the thermal drilling of the fixture by checking the zero point of the fixture during grinding, as well as measuring deep groove grooves and various shapes. The large measuring range and movement of the measuring system allows the contacting gauge tip, when passing the cylindrical surface, external or internal, perpendicular to its axis of rotation to measure and represent the highest or lowest point of the body. The coordinates of the highest point of the surface are important for grinding another surface relative to the body axis or its surface. The large measuring range allows the measuring tip to be moved out of the moving range. with a ground part to prevent the operator.

The invention will be elucidated in more detail by way of example with reference to the accompanying drawing showing the manual control of a wide range of movement of a measuring system and the electromechanical control of movement of a small measuring range, suspension of the movable part of the measuring system at any height.

The movable part of the measuring system is hung on a cable 2 wound over the rotary roller 2 on a spool 3 arrested by the side teeth 2 formed on the spool 3 and the cover part of the lid 5, the pressure spring 5 exerting pressure in the axial axis after overcoming the pressure of the compression spring 6, the roller 2 is rotatably mounted on the longer arm of the two-arm lever 8, on the shorter arm there is a tension spring 2 overcoming the tension of the cable. Electromechanical actuation allows the longer arm of the two-arm lever 8 to be pushed out by the electromagnet 10 and the roll 2 reduced to a small extent. The movable part of the measuring system suspended from the roll 2 by means of a cable 2 over the roll 2 is lowered by the cog 2 after lowering the axis of rotation of the roll 2 decreases its position. The size of the deflected two-arm lever 6 is adjustable by two adjustable screw stops 11. The deflection of the two-arm lever 6 by the electromagnet 10 brakes on both sides

CS 273799 B1 oil-pneumatic damper 12. The solenoid 10 is controlled by a manual pushbutton or a parallel-connected timer and a proximity sensor. The elongated core 16 contacts the longer arm of the two-arm lever 8. The movable part of the measuring system 14 moves in the rolling guide. The control mechanism is supported on a fixed part of the housing 15.

If the operator uses a large measuring range, he pushes the actuator 4 by hand, compresses the compression spring 4, the lateral racks 4 are disengaged and the height of the movable part of the touch probe measuring system can be varied relative to the surface to be measured. The compression spring 4 overcomes the weight of the movable part of the measuring system 14 by means of a two-arm lever.

The small measuring range can be used after locking the teeth 4 and hanging the measuring system in any height range position after the electric current is applied to the electromagnet. The elongate core 16 of the electromagnet 10 overcomes the tension of the tension spring and lowers the longer arm of the two-arm lever 6 to the down position. The axis of rotation of the roller 2 decreases with it and the movable part of the measuring system. The prerequisite for the measurement is that, in the displacement range of the movable part of the measuring system, the surface to be measured is in comparison with the measuring tip provided by the system.

Claims (1)

A control mechanism of the movable part of the tactile measuring system of the tracking gauge for active control on machine tools, characterized in that the movable part of the measuring system (14) is suspended on a cable (1) via a rotating roller (2), wound on a coil ( 3), provided with a compression spring (6) with a spring-loaded actuator (7) and side teeth (4) of locking the position of the measuring system to the cover part of the lid (5), the rotating roller (2) being rotatably mounted on the longer arm of the two-arm lever (8); a tension spring (9) is attached to its shorter arm and an elongated core (16) of the electromagnet (10) adjoins the longer arm.