CS220103B1 - A device for adjusting the position of the measuring arm of the control gauge for the hole grinder - Google Patents

Abstract

The essence of the invention is that the slider is connected to the holder with a prismatic guide and between these parts there is a moving screw, which rotates in a smooth seat in the holder and is axially secured by a washer in the middle of the length of the moving screw. In the slider there is a semicircular hole with a thread for the moving screw. A measuring arm is attached to the slider with a connecting screw. From the hole for the connecting screw to the semicircular hole with a thread, a narrow groove is made in the slider, to which a hole is made perpendicularly, in which there is a clamping screw

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for adjusting the position of the measuring arms of a control gauge for grinding machines for openings intended for active control during grinding and for controlling the working cycle of grinders. The invention solves the construction of the sensing part of the head of the control meter, with prlsmatic guide and movement screw for adjusting the position of the measuring arms.

The current devices for adjusting the position of the measuring arms of the control gauges are designed in such a way that the holder of the gauging head is fastened to the pin of the gauging head, on which the movement screw is fixed and axially secured by sliding bearings. A slider is displaceably disposed on the support in the prismatic guide, provided with a nut or threaded segment in contact with the threads of the movement screw. A narrow groove is provided perpendicular to the prismatic guide of the rider, which is terminated by a cylindrical bore. The clamping screw secures the adjusted position of the slider against the holder. These solutions are complex, laborious and dimensionally unsuitable for use on small hole control gauges.

The above drawbacks are overcome by a device for adjusting the position of the measuring arms of an operating gauge for hole grinders according to the invention, which is characterized in that the holder is provided with a cylindrical bore in which a pin is inserted which is connected to the inner device of the head body. Perpendicular to the cylindrical bore in the holder is an off-axis stepped bore whose smaller diameter is threaded for the clamping screw and a larger diameter is provided with a sliding sleeve provided with a flat on its circumference, which is in contact with the circumference of the pin. On the front of the holder there is a prismatic guide with a semicircular smooth seat for the movement screw. Perpendicular to the prismatic guide of the holder is a groove in which a shim is located, which is inserted by the front part in a recess provided in the middle of the length of the movement screw, which is provided with an internal hexagon at both ends. The motion bolt is half the circumference of the circumferential surface of the thread of the semicircular bore in the slider provided with a prismatic guide slidingly in contact with the prismatic guide of the holder. A measuring arm is fastened to the tapered front of the slider, and there is a narrow groove in the slider from the connection bolt hole to the semicircular threaded hole, perpendicular to which the borehole is located.

A new and higher effect of the device according to the invention consists in simplifying the construction in that the connection of the holder, the shim, the movement bolt and the slider is made by assembling one another without the use of connecting parts. The movement screw is housed in a semicircular bore and is axially secured by a shim, eliminating the thrust bearings. The clamping screw is secured against unintentional loosening. The drive bolt has in the middle the plugs for the shim and at both ends hexagon holes for the key. At the same time, these solutions allowed miniaturization of the design and use of the gauge also for openings from 3 mm. By performing a slot in the slider, from the semicircular threaded hole to the hole for the clamping screw, the slot ending hole has been eliminated and the locking of the clamping screw has been solved by clamping the head and shaft.

The device according to the invention is shown in the drawings. Giant. 1 is an elevational view of the overall embodiment of the apparatus, showing the embodiment of the bracket-pin connection and the bracket-slider connection, including the location of the motion screw. Giant. 2 is a side view of the device showing the axial securing of the movement screw. Fig. 3 shows a holder indicating the half of the threaded hole for a motion screw with a groove ending in a hole with a recess for the connecting screw. Fig. 4 shows the shape of the shim. Fig. 5 shows a slider with a semicircular smooth hole for the motion screw. FIG. 6 shows an embodiment of the clamping insert, with an indication of the contact surface for the pin.

The device according to the invention consists of a holder 1 provided with a cylindrical bore in which a pin 2 is inserted, which is connected to the inner device of the head body 3. Perpendicular to the cylindrical bore in the holder 1 is an off-axis stepped bore. and in the smooth larger part of the hole there is a slidingly placed clamping insert 5, provided with a circumference on the periphery of the pin 2. The front part of the holder 1 is provided with a prismatic guide with a semicircular smooth hole for positioning the movement screw 6. a groove in which the shim 7 is located is provided with a semicircular hole in contact with the recess of the movement screw 6. A slider 8 having a semicircular threaded hole for the movement screw 6 is slidably mounted on the prismatic guide of the carrier 1. A measuring arm 9 is located in the mounted front part of the slider 8 Between the hole for the connection screw 10 with the semicircular threaded hole, there is a narrow groove, on which a hole is perpendicularly made, in which the clamping screw 11 is located.

The function of the device according to the invention consists in connecting the holder 1, the shim 7, the movement screw 6 and the slider 8 by simply folding, without the use of connecting parts. The shim 7, which has the same shape as the prismatic guide of the holder 1, is secured against unwanted ejection by the prismatic guide of the slider 8.

The semicircular aperture of the shim 7 is in accordance with the groove radius of the movement screw 6. When adjusting the position of the measuring arm 9, the movement screw 6 provided with the hexagon socket is rotated. The movement screw 6 rotates in the smooth semicircular hole of the holder 1 and is axially secured by a shim 7. The movement screw 11 is in contact with the semicircular threaded hole in the slider 8 by its circumference. This is accomplished by means of a clamping screw 11 which grips the slotted end of the slider 8 in a two-part groove, thereby increasing the friction in the prismatic guide as well as the threaded connection of the movement screw 6. At the same time The connection of the holder 1 to the pin 2 is carried out by a clamping insert 5, which is pressed tangentially on the circumference of the pin 2 by the clamping screw 4.

The device according to the invention was realized in the production of a prototype control gauge for grinding machines for holes from 3 mm. The alternative application consists of two devices of identical design and identical function, according to the description of the invention, on one body of the head 3. The holders 1 are fixed on the pins 2 in different positions 180 degrees to each other.

Claims (3)

Apparatus for adjusting the position of the measuring arms of a control gauge for aperture grinding machines, with prismatic guidance and a motion screw in a design for small aperture grinding machines, characterized in that it consists of a holder (1) having a cylindrical bore in which, a pin (2) is inserted, which is connected to the inner device of the head body (3), the perpendicular to the cylindrical bore of the holder [11] being an off-axis stepped bore whose smaller diameter is threaded for the clamping screw (4); a clamping insert (5) is provided, provided with a flat surface tangentially in contact with the circumference of the pin (2) and a prismatic guide with a semicircular smooth seat for the movement screw (6) and perpendicular to the prismatic guide is formed on the front part of the holder (1) holder (lj is a groove in which a shim (7) is located, which is inserted in a recess provided in the means of the invention The screw (6) is in contact with the thread of the semicircular hole in the slider (8), which is provided with a prismatic guide, which is slidingly in contact with the prismatic guide of the holder. (1) and a tapered arm (9) is fastened to the tapered front of the slider (8) by a connecting screw (10), and there is a narrow groove in the slider (8) from the connecting screw hole (10) to the semicircular threaded hole a hole is perpendicular to the clamping screw (11). Device for adjusting the position of the measuring arms according to claim 1, characterized in that the shim (7) is circumferentially coincident with the prismatic guide of the holder (1) and is provided with a semicircular groove in contact with the recess of the movement screw (6). 3 sheets of drawings