CS262180B1 - Force measuring device - Google Patents

Abstract

The solution relates to the field of measurement technology and its subject is a device for measuring force usable for determining the measuring force, derived by measuring instruments used in particular in the bearing industry. The device consists of a lever mounted rotatably on the frame of the device, the longer part of which is provided with a contact at the end and further with an indicator reaching the scale. The essence of the solution lies in the fact that the shorter end of the lever is provided with a screw on which a freely rotatable sleeve is mounted, in which the ends of two opposing springs are suspended, the other ends of which are suspended on swing arms, adjustable by adjusting screws. Parallel to the indicator, a carrier is arranged on the lever adjacent to an auxiliary indicator, rotating around the pin of the friction clutch, pretensioned relative to the cover of the device by a flexible washer.

Description

The present invention relates to the field of measuring technology and relates to a force measuring device.

A number of gauges are used in the bearing and other mechanical engineering industries, for which proper measuring force must be measured and set for proper operation. At present, force gauges are mostly based on the principle of transferring the deformation of a suitable element to a pointer by means of a gear. This achieves a relatively high measurement accuracy, but the meter is expensive to manufacture and complicated and difficult to operate and maintain.

The above-mentioned deficiencies are eliminated to the highest known extent by a force measuring device comprising a lever mounted rotatably to the frame and provided on one side of the pivot point with an indicator extending into the scale plane oriented parallel to the lever movement direction and further contacted at its end according to the invention. SUMMARY OF THE INVENTION The second end of the lever is provided with a screw adjustable in the direction of its longitudinal axis, on which a sleeve connected to at least one pair of opposing springs, whose longitudinal axes lie in a straight line perpendicular to the longitudinal axis of the lever and at the same time in the plane determined by its movement. The end of each spring is articulated to an arm rotatably mounted on the frame and adjacent to the adjusting screw adjustable relative to the frame. The lever, on the opposite side of its pivot point, is provided with a gripper, preferably perpendicular to the plane of movement and adjacent to the auxiliary indicator, rotatably mounted on the friction clutch pin, aligned in line with the lever rotation axis and .

The advantage of the device according to the invention lies

Claims (3)

SUBJECT A force measuring device consisting of a lever mounted rotatably to the frame and provided, on one side of the point of rotation, with an indicator extending into the scale plane oriented parallel to the direction of movement of the lever and longer by the contact formed at its end; a screw (10) adjustable in the direction of its longitudinal axis, on which a sleeve (14) is freely rotatably connected to at least one pair of opposing springs (11) whose longitudinal axes are perpendicular to each other at zero deflection of the lever (2) the longitudinal axis of the lever (2) and the grip 80 particularly in its manufacturing simplicity and ease of operation. The device enables easy and fast force measurement with accuracy matching the intended use for calibration of measuring force. The force measuring device according to the invention is shown schematically in the accompanying drawing, in which Fig. 1 is a plan view of a main part thereof; 2 shows a cross section through this part. A longer part of the lever 2 is in the form of a measuring contact at the end, while the opposite end of the lever 2 is provided with an adjustable screw 10 on which the sleeve 14 for pivoting the pre-tensioned springs 11 arranged in one is mounted. in a straight line mirror opposite each other. The ends of the springs 11 are attached to the swinging arms 12 mounted on the frame 1 with the possibility of positioning by means of adjusting screws 13. A pointer 3 terminated in the plane of the scale 9 and a carrier 4 adjacent to the auxiliary pointer 5 rotatably mounted on the friction pin are firmly connected to the lever 2. the couplings 7 biased with respect to the cover 6 by a spring washer 8. When adjusting the device, the pointer is set to zero by means of the set screws 13 3. The dependence between the measured force exerted, for example, by the weight with the deflection of the lever 2 is adjusted by turning the screw 10 so that the rotation of the lever 2 corresponds to the selected change of the measuring contact load. The measuring force is measured by the movement of the lever 2 relative to the scale 9 during the actual measurement, the maximum deflection of the lever 2 during the measurement always being recorded by the position of the auxiliary indicator 5. It is advantageous to use the device according to the invention for the quick and simple measurement of force, for example in the bearing industry, when adjusting the measuring force of a roller bearing gauge. The end of each spring (11) is articulated to an arm (12) rotatably mounted on the frame (1) and adjacent to the adjusting screw (13) adjustable relative to the frame (1) and the lever (2) being on the opposite side with respect to its pivot point, provided with a gripper (4) oriented perpendicular to its plane of movement and adjacent to the auxiliary indicator (5) rotatably mounted on the friction clutch pin (7) arranged in line with the axis of rotation of the lever (2) and provided with a flexible washer (8) adjacent the housing (6) of the device.