RU189151U1 - Tension device N.I. Habrata - Google Patents

Abstract

The utility model relates to mechanical engineering products and can be used to create and automatically maintain constant tension in flexible elements of conveyor belts, power lines in railway transport, in drives of mechanical transmissions with flexible coupling, etc. The tensioning device contains movable axes with a block on it, kinematically connected to a working element, and a bed stationary in bearing supports with stationary surfaces with different working diametral dimensions of a snare drum and a larger block kinematically connected to each other snare drum, and at the second end, hanging from a fixed block, fixed tension load. The technical result is the ability to create and reliably maintain constant tension in the working flexible elements with smaller dimensions of the fixed block and significantly reduced tension weights. 1 il.

Description

The utility model relates to the field of engineering, mainly to transporting machines with a flexible working body to create and automatically maintain constant tension in a flexible working element and can be used to tension power lines in railway transport, in drives of mechanical transmissions with flexible coupling, etc. .

Known technical solution containing two fixed axes in a vertical plane in the supports of the frame with installed on them blocks and envelopes their flexible body, kinematically connected at one end with a movable working body, the other with a tension load (Aleksandrov MP. Hoisting-and-transport machines. - M .: Higher School, 1972 pp. 403, Figure 233 b. Analog).

The main disadvantages of the analogue are the significant dimensions of the tensioning device and the large weights of the tension load.

A technical solution was adopted as a prototype containing a stationary axis in bearing supports with a small working diameter drum with a large working diameter of the block mounted on it and interconnected with one end fixed on the block with a certain number of turns wrapping it at one end, and on its other, hanging down end, a tension load is fixed, the second flexible body is wound onto the drum with several turns towards the first flexible body on the block, and at one end is fixed on it, and the second ontsom kinematically connected to the movable operating element (VV KRASNIKOV Hoisting machine in agriculture -. M .: Collier, 1973 -s.186, Figure 75 d prototype..).

The main disadvantage of this technical solution is that, in an effort to reduce the force of gravity of the tension load, the dimensions of the block increase in inverse proportion to the diametrical dimensions.

So, for example, wanting to reduce the force of gravity of the tension load 8 times in comparison with the total force in the branches of the transporting belt with a drum diameter equal to d, it is necessary to accept the diameter of the block increased 8 times. Reducing the diameter of the block to a rational size has to dramatically increase the force of gravity tension load.

Based on the above reasoning, it follows that the object of the invention is to design a tensioning device that provides for the creation and automatic maintenance of the constancy of tension in flexible organs of work elements with its significantly reduced dimensions and gravity of the tension load.

This is achieved by the fact that, in contrast to the known technical solution, the proposed design has a movable axis with a movable block on it, kinematically connected to the working element, and the flexible organ, bending around the movable block, is directed by one branch towards the working surface of the fixed block, the other branch of the flexible body is directed towards the working surface of the drum, and having wound on it with a certain number of turns towards its winding on the fixed block, is fixed on the drum motionless.

FIG. 1 is a sketch of the tensioner in side view.

The tensioning device contains an axis 1 movably mounted in the bearings 2, the frame 3 and the movable axis 4, with a movable unit 5 mounted on it, which through the axis 4 is kinematically connected by means of a flexible element 6 to a movable working element 7. On the axis 1 are placed stationary with different working diametral sizes snare drum 8 and a larger stationary block 9.

The flexible body 10 is fixed and wound by a certain number of turns on the drum 8, then it goes around the movable block 5, the fixed block 9 in the same direction as on the drum 8 and then vertically hangs with a branch 11, at the end of which the tension load 12 is fixed. a number of turns in the preliminary assembly of the tensioning device is determined by the length by which the working element 7 is displaced during the initial installation of the tensioning device and taking into account the additional displacement of the working element during its operation and.

Works tensioner as follows. When the tension load 12 is suspended, its force of gravity is transmitted to the flexible body 10, leading to the displacement of the movable block 5, the movable axis 4 and then through the flexible element 6 to the working element 7, creating tension in its flexible elements, for example, a conveyor belt.

In this case, the flexible organ is twisted from the movable block 9, longer than from the drum 8. In this case, for one revolution of the fixed block 9 and the drum 8, the displacement of the movable axis 4, and hence the working element 7, will be half the length of the branches of the flexible organ twisted from the fixed block 9 and drum 8.

During operation, in the case of displacement of the axis of the working element, the movable axis 4 is displaced, the load 12 is lowered and automatically maintains constant tension in the flexible element.

It has been established by calculation that, for example, with a decrease in gravity by 8 times as compared with the tension of a flexible element, the calculated diameter of the fixed block is only 1.33 times the calculated diameter of the drum. In the prototype, under the same conditions, the calculated diameter of the fixed block is increased 8 times.

The minimum diameter of the drum, as well as the movable block, is adopted depending on the diameter of the flexible body according to regulatory requirements.

The above comparative assessment of the tensioning device according to its dimensions and the gravity of the tension load in favor of the proposed design.

Claims (1)

Tensioning device containing a stationary axis in the bearing supports of the frame, on which a snare drum is stationary with different design diameters and wound on it and fixed to it by one end of a flexible member and a fixed block with a large working diameter, the working surface of which bends at a certain angle a flexible body hanging from it, on the end of which a tension load is fixed, characterized in that it is additionally equipped with a movable axis with a movable block on it, kinematically and connected to the working element, and the flexible body, having rounded the movable block, is directed by one of its branches to the working surface of the fixed block, and by the other branch, the flexible body is directed towards the working surface of the drum and wound on it with a certain number of turns, in the same direction as on a non-movable block, secured with a second end on it.

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