CS255167B1 - Apparatus for measuring length of degree of softening - Google Patents

Abstract

The solution concerns the field of leather tanning machines and equipment for tanneries. The problem of measuring the degree of softening intensity while increasing the accuracy of the measured values is solved. The essence of the solution lies in the fact that a two-arm lever is rotatably mounted on a fixed beam of the machine, one arm of which is connected by a rod to the upper softening tool, which is used to adjust the softening intensity, and the other arm is provided with a toothed segment that engages in a pinion with a rotary sensor. The rotary sensor serves to transmit information about the position of the upper softening tool. The solution can be used in the leather tanning field.

Description

The invention relates to a device for remote measurement of the degree of softening intensity.

The present vibration softening machine for leather softening has an upper and a lower row of plate softening tools. The softening tools have protrusions and are configured such that the protrusions of the lower softening tool extend into the gaps of the upper softening tool. In operation, the softened leather passes between the flexible conveyor belts through a working space consisting of vibrating lower softening tools and stationary upper softening tools, while the protrusions of the lower softening tools push the leather and conveyors into the gaps of the upper softening tools, thereby expanding the leather, leather is softened. Softening intensity is important for softening machines. It is given by the projection of the lower and upper softening tools and is given in mm as the degree of softening intensity. The softening intensity of vibratory softening machines can be varied such that the upper softening tools can be individually or together adjusted vertically relative to the lower softening tools before or during work.

Several methods for remote measurement of softening intensity levels are known. As an example, remote measurement using a cable. One end of the cable is attached to the upper softening tool. With the help of pulleys the cable is guided outside the working area of the machine. There the other end of the cable is fixed to the slider with the pointer below which is the scale. The tension of the cable is ensured by a spring attached between the beam and the slider. Eyes move the upper softening tool up or down as the softening intensity changes, the pointer slider moves as much as possible, and the softening intensity degree can be determined on the scale. When the upper softening tool is reversed, the spring keeps the cable in tension.

The disadvantage of this method is the inaccuracy due to the elongation of the cable and the imperfect winding of the cable on the pulley diameter, the vibration of the cable and thus the creation of an undesirable sound source. It is also known to utilize a screw and a nut attached to a beam to move the upper softening tool when changing its position. A protruding worm screw engages a toothed worm wheel on which a rotary potentiometer is connected to electrically indicate the position of the upper softening tool. The disadvantage of this method is that the movement of the upper softening tool is derived only from the screw. Due to the play between the worm screw and the nut, there are inaccuracies, which distorts the actual position of the upper softening tool. For example, if the worm screw is rotated to use only the play in the nut, the worm gear will react with the potentiometer without moving the upper softening tool.

The above-mentioned disadvantages are eliminated by the device according to the invention, characterized in that a two-arm lever is rotatably mounted on a rigid machine support, one arm of which is connected by a rod to the upper softening tool and the other arm is provided with a toothed segment or gear. rotary sensor. The rotary encoder is used to transmit the position of the upper softening tool to an unwritten device by means of which the softening intensity indicator can be controlled at a suitable location.

The progress achieved by the invention is that, without any auxiliary elements, the movement of the upper softening tool is immediately transmitted to the rod, the two-arm lever and the rotary sensor. The clearance between the screw and the nut in the drive part of the upper softening tool does not affect the accuracy of the measurement of the degree of softening intensity. Progress is also that the individual degrees of softening intensity, which in fact differ from each other by 1 mm, are multiplied by the lever arm ratio so that at the rotary sensor the distances of each degree of softening intensity are suitably spaced apart so that the pointer in the unwritten device appropriately measured the degree of softening intensity.

The attached drawing shows the device according to the invention, in which Fig. 1 is a cross-sectional view of a softening machine beam;

A two-arm lever 6 is rotatably mounted on a rigid machine support 15 by means of a pin 10. The shorter arm of the two-arm lever 6 is connected by means of a rod 8 and pins 2 to the upper softening tool 1, adjustable by a screw 13 and a nut 14 in the guide 15 relative to the lower softening tool 2 over which the flexible conveyors 2 ^{8 are} softened leather 2 provided with a gear segment 10 or a gear whose center is identical to the pivot point of the two lever arm 6255167 6. The pinion 11 engages the pinion 11, which is connected to the pivot sensor 12.

The device operates, as follows, The device (not shown) rotates the screw 13 which engages in the nut 14 and presses on the guide 15. ' thereby lowering the position of the upper softening tool 2 ^and adjusting a certain degree of softening intensity. This moves the linkage 2 connected to the upper softening tool 2 and the two-arm lever 6 is rotated around the pin 7 with the toothed segment 10. The pinion 11 is also rotated and with it the rotary sensor 12, which is connected to the pinion 11. The rotary sensor 12 transmits the positioning information of the upper softening tool 2 ^{to an} unwritten device and a softening intensity indicator.

Claims (1)

A device for remote measurement of the degree of softening intensity in a vibratory softening machine, characterized in that a two-arm lever (6) is rotatably mounted on a fixed machine support (5), one arm of which is connected by a rod (8) to the upper softening tool (1); the arm is provided with a gear segment (10) or a gear engaging a pinion (11) connected to a rotary sensor (12).