RU199499U1 - DEVICE FOR TESTING ELASTIC COUPLINGS - Google Patents

Abstract

The device for testing elastic couplings belongs to the field of testing technology and is used to determine the power characteristic and torsional stiffness of vibration damping couplings of drives. The device contains a fixed stand for fastening the driven flange of the tested coupling, a centering device, an applied force means - a lever is made of a stepped shape. The centering device is in the form of a trunnion, while the stepped lever is attached at one end to the leading - movable coupling flange, and at the other end is connected to the loading device. The height of the lever step is half the height of the clutch. The root part of the trunnion is installed in the holes of the driven - fixed flange of the coupling and the fixed post and is fixed with fasteners, and the free end - the stud of the trunnion enters the central axial hole of the driving flange of the coupling, which serves as a bearing support for the stud. The technical result is to simplify the design, reduce the weight and dimensions of the device

Description

The utility model relates to the field of testing technology and is used to determine the power characteristics and torsional stiffness of vibration-isolating drive couplings.

Devices for testing elastic couplings are known, for example, in the book by N. Belyakovsky "Constructive depreciation of mechanisms, instruments and equipment on ships" - P .: Sudostroenie, 1965, p. 435-438.) The closest technical solution is the "Device for testing elastic couplings" - patent for invention of the Russian Federation No. 2206880, taken as a prototype.

The device contains a clutch, a base, a movable and stationary rack with support paws, a centering device of a composite structure with a plurality of elements, an applied force means is made in the form of a composite forked mechanism containing two cheeks, a bracket.

The torque on the driving flange arises through the lug and the cheek, and the second cheek makes a free rotation around the journal, thereby providing only torsional deformation of the elastic elements of the coupling.

A significant disadvantage of the known device for testing elastic couplings is the complexity of the design, large weight and dimensions.

The technical result of the proposed device is to simplify the design and, as a result, reduce the weight and dimensions.

To achieve this goal, the proposed device contains a fixed stand for attaching the driven flange of the tested coupling, a centering device, a means for generating an applied force at a twisting moment is made in the form of a stepped lever, which is fixed at one end to the leading - movable coupling flange, and at the other end is connected to a loading device. The height of the lever step is half the height of the clutch, that is, the part of the lever on the side of the loading device is located symmetrically to the height of the clutch. The centering device is made in the form of a trunnion, the root part of which is installed in the holes of the slave - the fixed flange of the coupling and the stationary rack and is fixed with fasteners, and the free end-tenon enters the central axial hole of the driving flange of the coupling, which serves as a bearing support for the tenon.

Thus, the proposed device contains, one (instead of two for the prototype) fixed stand for fastening the driven flange of the tested coupling, a centering device in the form of a pivot, the means of applied force - a stepped lever (instead of a complex and composite forked mechanism), which greatly simplifies the design, reduces weight and dimensions.

The technical solution is illustrated by the drawings shown in FIG. 1-3. FIG. 1 shows a longitudinal section of the device, FIG. 2 is a view of the device from the side of the driving flange with a lever; FIG. 3 - general view of the device, where:

1 - clutch;

2 - leading movable coupling flange;

3 - driven fixed flange of the coupling;

4 - rack;

5 - support leg of the rack;

6 - fastening the support leg of the rack to the base;

7 - base;

8 - pin of the centering device;

9 - the root part of the trunnion;

10 - fastening threaded hole of the driven - fixed coupling flange;

11 - rack hole;

12 - fastening means;

13 - fastening threaded hole of the driving - movable coupling flange;

14 - pin spike;

15 - stepped lever - a mechanism for generating an applied force at a twisting moment;

16 - the root part of the stepped lever;

17 - end - stepped part of the lever;

18 - means for attaching the root part of the stepped lever to the leading movable coupling flange;

19 - lug in the end part of the lever - for connection with the loading device

20 - arrow;

21 - scale.

The device contains a tested coupling 1 with an elastic element, for example, made of a steel rope, driving 2 and driven 3 coupling flanges, a fixed post 4 with a support foot 5, fixed with fasteners 6 to the base 7 of the device, a pin 8 of a centering device with a support base 9 , fastening threaded hole 10 of the driven fixed flange, hole 11 of the rack, nut 12, fastening threaded hole 13 of the driving movable flange of the coupling, stud 14 of the trunnion, lever 15 with root 16 and nose - stepped 17 parts with fastening means 18 and lug 19, arrows 20 with a scale 21. The root part 9 of the trunnion is installed in the holes 10 of the driven - fixed flange 3 of the coupling and the fixed post 4 and fixed with fasteners 12, and the free end-tenon 14 enters the central axial hole 13 of the driving flange 2 of the coupling, which serves as spike bearing support 14.

The procedure for preparing and conducting static tests of the coupling is as follows.

1. Before testing the coupling 1, a test plan is drawn up, where the main initial data is the choice of the maximum torque of the coupling, let us assume 30 °. The twist angle is determined by the arrow 20 and the scale 21.

2. A loading device is selected (a testing machine, a dynamometer with a lanyard, a weight, etc.) - not shown in FIG, which is connected to the lug 19 of the lever 15.

3. Select the step of registering the torque by the twist angle, for example, after 5 °.

4. Begin loading by force (torque) at a rate of angular deformation in the range from 1 to 15 mm per minute, registering the value of the corresponding torque every 5 °. When loaded under the action of the stepped lever 15 through the root part 16 and the leading movable flange 2, an angular deformation of the elastic element 2 of the coupling occurs.

5. After reaching the selected (30 °) twist angle of the leading movable flange 2, start a slow unloading with a corresponding registration of the force (torque).

6. The result is a static load characteristic of the coupling 1 in the form of a hysteresis loop.

7. To stabilize the elastic damping characteristics, the coupling should be tested for at least three cycles.

8. By processing the load characteristics, the values of compliance (or static stiffness) are set in relation to the specific conditions of its operation, which may occur in operation and will be needed in the design assessment of shock-absorbing unsupported fasteners - couplings.

According to the obtained values, the ascending and descending branches of the "moment - angular deformation" curve are obtained, and since the data corresponding to the loading and unloading processes do not coincide, the graphic image is a closed curve - a hysteresis loop, which makes it possible to determine the stiffness, damping coefficient and other characteristics couplings.

Thus, the above-mentioned distinctive design features of the proposed device for testing elastic couplings in comparison with the prototype provide simplicity of design with minimum weight and overall dimensions.

Claims (1)

A device for testing elastic couplings, containing a fixed support for the driven flange of the tested coupling, a centering device, a means of applied force - a lever, characterized in that the lever is made of a stepped shape, and the centering device is in the form of a trunnion, while the stepped lever is attached to the leading - the movable flange of the coupling, and the other end is connected to the loading device, the height of the lever step is half the height of the coupling, the root part of the trunnion is installed in the holes of the slave - the fixed flange of the coupling and the fixed rack and is fixed fixedly with fasteners, and the free end-spike of the trunnion enters the central the axial bore of the coupling drive flange, which serves as a bearing support for the cleat.

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