DE134846C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the case of the work knives that have become known so far, they are in pairs in one and the same Coiled springs arranged on a plane, the arrangement of the springs in a pair is made in such a way that that one spring is wound in the opposite direction to that of the other. By such an arrangement will limit the number of spring coils to less than two and the size of the suspension itself can only be assumed to be relatively small. In addition, with each pair of springs, one spring is on tension and the other spring is on Pressure and buckling are stressed, which affects the accuracy of the measurements becomes because the spring stressed on bending, i.e. buckling, increases with increasing Force produces counter-pressures which are in no proportion to that of the drawn spring.

The present innovation relates to a work knife, in which the listed Defects were avoided by the fact that the individual springs lying in different planes are wound in the same direction, i.e., since they are only subjected to tension, result in angles of rotation between the shaft and the disk that are directly proportional to the force. The points of application of the individual springs have also been shifted diametrically to bring about an adjustment of their center of gravity to the axis of rotation.

In the accompanying drawing, FIG. 1 shows a longitudinal section and FIG. 2 shows a cross section along line AB of the working knife.

3 to 5 show the transfer of the adjustment of the pulley to the eccentric on a larger scale.

The working knife is composed of the pulley respectively. the housing a, which is rotatably arranged on the spring hub b . The pulley α is connected to the spring hub b by means of two or more spiral springs cc ¹ , which thus form an elastic intermediate link between the pulley α and the spring hub b . The two springs cc ¹ are equal to each other in width, strength, length and weight and are attached to the outer rim of the pulley α at dd ¹ by 180 ° opposite each other. Since the springs cc ^{1 are of the} same length, the attachment to the hub at ee ^{1 is} also diametrical. In this way it is achieved that the positions of the center of gravity of the springs cc ¹ always balance each other out relative to the axis of rotation, which is absolutely necessary when the working knife is rotating at high speeds. The spring hub b is attached to the transmission f to be measured or to the drive shaft of the machine to be measured.

The working knife works as follows:

The drive belt rotates the pulley a in the direction of the arrow (Fig. 2), the pulley α being adjusted to the spring hub b. The greater the power consumption, the more the pulley α and the spring hub b respectively. Adjust the transmission shaft f to each other because the spiral springs cc ^{1 are} then stretched more.

If the power consumption remains constant, the adjustment of the pulley α to the hub b remains the same; If the power consumption decreases, the pulley α will move back a little, so that the angle of adjustment between pulley α and hub b is smaller because the spiral springs cc ¹ decrease in accordance with the force used. To the consumed power respectively. To be able to read off the magnitude of the adjustment, the adjustment of the pulley α to the hub b is transferred in a known manner to the eccentric h by means of a curve g, which is attached to the pulley α , which is located on the eccentric connected to the hub b i adjusted (Fig. 3 to 5). In the nut k there is a roller which transfers the eccentric movement of the eccentric h to a lever and a counter moving back and forth. The transmission of the adjustment of the pulley a to the hub b can also take place in any other way, but is otherwise not the subject of the present invention. The apparatus can also be used in such a way that the shaft / is not used as a transmission shaft, but as the drive shaft of the apparatus. In this case, a special Antriebsriemscheibe f is attached to the shaft that f the shaft is in rotation. Since the hub b is also connected to the shaft f , the springs cc ^{1 are driven} from the hub b and pull the pulley a with them. From the pulley α a belt is BEZW after the transmission to be measured. Machine headed. The greater the power consumption of the machine to be measured, the greater the elongation of the springs cc ¹ and the greater the adjustment of the hub b to the pulley a.

If the springs cc ¹ are fastened in this arrangement exactly as indicated in the drawing, the rotation of the shaft must, however, take place in the opposite direction of the arrow.

Claims (1)

Patent claim:
Working knife with several spiral springs arranged diametrically between the force-measuring parts, characterized in that these spiral springs (cc ¹ ) in rectified turns on the pulley and / or. are attached to a special housing (a) and the working shaft ff) , for the purpose of stressing the springs only in tension and balancing their center of gravity with respect to the axis of rotation. 1 sheet of drawings.