RU2243430C1 - Tightening device - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: tightening device has spring-loaded rotatable double-arm lever provided with tightening rollers which are mounted for permitting rotation and tightening the flexible member. The tightening rollers are mounted on the arms of the rotatable lever at equal distances from the axis of its rotation. The end of one of the arms is provided with a spring which allows the lever to rotate for mounting the flexible member from the opposite sides of the tightening rollers.

EFFECT: expanded functional capabilities.

2 dwg

Description

The invention relates to the field of machine parts and can be used in cable, rope systems, belt, chain transmissions to change their tension. In particular, the proposed device can be used in the drive of the hand brake of rolling stock.

A device is known in the form of a tension roller (lenix) in a belt drive, freely mounted on an axis, mounted on the end of a lever that rotates around a fixed point under the action of a load. The tension roller presses the driven branch of the flexible element (belt, chain, rope, etc.), as a result of which the flexible element covers the driving and driven pulleys on a large arc and constant tension is created [1].

The disadvantages of this device are its limited use - for tensioning the driven branch of a continuously moving flexible element - and the inability to provide tension in conditions where the distance between the drive mechanism and the actuator changes during operation.

Known tensioning device of a flexible element (belt) in the camshaft drive of a car engine, adopted as a prototype, which contains a tension roller mounted on a bearing rotatably on a bracket made in the form of a spring-loaded swinging single-arm lever with the possibility of fixing it with bolts in a predetermined position. Using the tension roller, the flexible element is tensioned [2], [3].

The disadvantages of this device are the change (kink) of the line of movement of the belt (cable) due to the need for a greater circumference of the belt (cable) of the contact surface of the roller and the inability to ensure the tension of the flexible element in the drive of the actuator in conditions where the distance between the drive mechanism and the actuator changes during operation .

The technical result of the present invention is to expand the functionality of the device, namely, ensuring the tension of the flexible element in the drive of the actuator in conditions where the distance between the drive mechanism and the actuator changes during operation.

The specified technical result is achieved by the fact that in the tensioner containing a spring-loaded rotary two-arm lever with a tension roller mounted on it, which is able to rotate and tension the flexible element, the rotary lever is double-armed and equipped with a second tension roller, which is able to rotate, the tension rollers are mounted on the shoulders of the pivot arm at equal distances from the axis of the center of its rotation; at the end of one arm of the pivot arm, a spring is attached to ensure rotation th tensioning lever with rollers for possible installation of the device the flexible member with different sides of tension rollers through the center of rotation of a two-armed lever.

Figure 1 presents a diagram of a tensioning device, figure 2 is a diagram of the operation of the device.

The device (Fig. 1) contains a spring-loaded rotary two-arm lever 1, on the shoulders of which at equal distances a and from the axis 2 of the center of its rotation c, tension rollers 5 and 6 are mounted on axes 3 and 4, which can be rotated. At the end of one shoulder of the lever 1 at a horizontal distance b from the center of rotation c and at a distance e vertically from the center line of the tension rollers 5 and 6, a pin 7 is attached, to which a spring is attached 8. The coordinates of the finger 7 on the lever 1 relative to the axes 3 and 4 tension rollers 5 and 6 are selected so that when the lever 1 with the rollers 5 and 6 is rotated relative to its rotation axis 2, the force in the flexible element 9 is changed to a minimum. The axis 2 is installed in the bracket 10 located on the base 11, on which the bracket 12 is also located with the second end of the spring 8 fixed thereon.

A flexible element (cable) 9 is installed on different sides of the tension rollers 5 and 6 through the center c of rotation of the two shoulders of the lever 1, which coincides with the position of the axis 2. A flexible element (cable) 9 connects the drive mechanism of the device 13 and the actuator 14 (shown schematically). The second end of the spring 8 is attached to the pin 15 at a distance p from the center of the finger 7. The spring 8 and the tension rollers 5 and 6 provide tension to the flexible element 9 by turning the lever 1 with the tension rollers 5 and 6.

The tension device operates as follows.

In the absence of the action of the spring 8 on the lever 1, the flexible element (cable) 9 moves in a straight line without a break line (Fig. 1). The tension spring 8, acting on one shoulder of the lever 1, creates a torque (clockwise around the center c) on the shoulder h, under the influence of which the tension rollers 5 and 6 act on the flexible element 9, choosing the slack (sagging) of the flexible element.

When reducing the distance between the drive 13 and the actuator 14, the required length of the flexible element (cable) 9 decreases, as a result of which the tension device rotates clockwise by an angle α (Fig. 2). In this case, the force in the spring 8 of the tensioner will decrease due to the rapprochement of the fingers of its fastening 7 and 15, i.e. reducing the distance p to p ¹ .

However, when the lever 1 of the tensioning device is rotated, the shoulder h increases to h ¹ , on which the spring 8 creates a torque on the lever 1, which compensates for the decrease in the force in the spring 8. The distances b and e from the axis 7 of the mounting of the spring 8 on the lever 1 are selected so that in the range of possible movements of the actuator 14 relative to the base 11, the fluctuation of forces in the flexible element 9 was minimal.

The use of the claimed tensioning device is possible in systems with one active (leading) branch (to create a constant load), and in systems with two branches (master and slave).

The proposed device can be used in the drive of a hand brake of rolling stock, for example, a car, which is characterized in that the brake drive mechanism is mounted in the car body, and the actuator - the brake itself - on the trolley, which in the process of car movement changes its position relative to the body, due to which changes the distance between the drive and actuators and, accordingly, the required length of a flexible element (cable) that transfers force from the drive mechanism to the actuator.

Sources of information:

1. Polytechnical Dictionary / Ed. I.I. Artobolevsky. M .: "Soviet Encyclopedia", 1977, p. 310.

2. Demikhovsky S.F., Mashkara N.I. Cars VAZ: Device. Malfunctions. Service. Driving. M .: Patriot, 1997.247 s., P.27.

3. Cars VAZ 2104-2105. Repair manual and parts catalog. M.: Atlases of automobiles, 1998.240 p., Pp. 18-19.

Claims (1)

A tensioner comprising a spring-loaded swing arm with a tension roller mounted thereon, having the ability to rotate and stretch a flexible member, characterized in that the swing arm is double-armed and provided with a second tension roller that is rotatable, the tension rollers are mounted on equal weight on the arms of the swing arm distances from the axis of the center of its rotation, at the end of one shoulder of the rotary lever a spring is attached, which ensures the rotation of this lever with tension rollers for possible installation in the device of a flexible element from different sides of the tension rollers through the center of rotation of the two-shouldered lever.

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