CS209223B1 - Apparatus for control of back iron by the engine and by the spring at mashining of glass jewellery stones - Google Patents

Description

(54) Device for controlling flaps by motor and spring for machining glass jewelery stones

The present invention provides a device for controlling rotary flaps of grinders and polishers by motors and springs in machining glass jewelery stones.

The prior art devices are designed such that the flap mounted as a two-arm lever is pulled to the tool by a spring and lifted by a cam acting on the opposite lever arm. The disadvantage of all these devices is a decrease in the downforce force during grinding in connection with shortening of the spring, inadequately high specific thicknesses at the beginning of grinding and a considerably high spring load when lifting the flap. To a large extent, the stroke size of the flap is also a disadvantage, as the cam dimensions are limited by the space on the machine and the spring load must not exceed the permissible values.

The above-mentioned disadvantages are overcome by the device for operating the rotary flap by the motor and spring according to the invention, which is based on the caliper fixedly connected to the piston rod of the rotatably mounted lifting motor. The yoke is connected by a spring to a sleeve slidably mounted on the arm of the rotary flap and the yoke bears a stop, eg a pin.

By providing the flap thrust to the cut by the motor via a compression spring, it is achieved by regulating the piston speed of the thrust motor increasing as a function of the technological requirements. The fact that the spring arm increases with increasing grinding time is also beneficial. The result is an increased grinding performance of the machine by reducing waste to the machine, further increasing the service life of the apparatus and the possibility of raising the flaps to any replaceable position without stressing the springs excessively.

The figure shows one possible embodiment of the device according to the invention.

A caliper 1 is rigidly connected to a piston rod 6 of a rotatably mounted rectangular motor, e.g. a pneumatic cylinder. The caliper 1 carries a compression spring 3, which is pushed into one sleeve slidingly mounted on the arm of the swivel flap 7. a pin which, by engaging in the recesses 5 of the sleeve 2, forms a general kinematic pair between the yoke 1 and the sleeve 2.

The function of the device is as follows: in the first phase, the flap 7 is pressed against the tool 8. As the motor moves towards A, the flap 7 only starts to lift when the stop 4 engages in the recesses 5 of the sleeve 2. of the flap 7, the motor piston moves in the opposite direction to the direction A. The spring inserted into the sleeve 2 is compressed only to the value necessary to set the flap 7 in a rotary motion. After the flap 7 has come to rest on the tool 8, the piston continues to move, further compressing the spring 3 further and thereby increasing the contact force gradually. By adjusting the amount of piston stroke, it is then possible to provide the necessary technological amount of contact force.

The device can be equipped with ó control elements for adjusting the spring preload, the length of the flap arm ₍ and limiting the stroke of the motor. The engine can be

Claims (1)

SUBJECT A device for controlling flaps by a motor and spring in machining glass jewelery stones, characterized in that the piston rod (6) of the rotatably mounted rectilinear motor is connected to the flaps (7) by means of a yoke (1) firmly connected by a pneumatic or hydraulic cylinder. . The device according to the invention can be used in the jewelery industry for controlling the flaps of grinding and polishing machines, but also elsewhere where it is necessary to push the workpiece into the cut by a constant or increasing force. BACKGROUND OF THE INVENTION with a piston rod (6) and a stop (4) carrying a sleeve (2) slidable on the arm of the rotary flap (7), wherein the yoke (1) and sleeve (2-) are connected by a spring (3).