SU367043A1 - WINCH FOR ATTACHMENT PERFORATORAL LIFTS - Google Patents

Description

one

The invention relates to lifting means.

Known hoists for logging and rock boring elevators include a traction mechanism with drive rollers, a friction drive hopper and a cable stacker.

The purpose of the invention is to increase reliability, durability and simplify the design. This is achieved by the fact that the drum drive of the proposed winch is made with two overrunning clutches, the outer sleeves of which are made in the form of sprockets, creating tension on the cable between the drum and the traction mechanism, one of which only during lifting, and the other only during descent.

FIG. 1 depicts the described winch; in fig. 2 is a section L-L in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 is a view of B in FIG. one.

On the axis 1 of the drum 2 with the flanges 3 of the winch, the inner race 4 overrunning clutches 5 and 6 are freely mounted, the outer sleeves of which are made in the form of sprockets. The yoke 4 by means of spring-loaded pins 7 is connected to the drive disk 8 of the friction clutch 9. The stationary disk 10 of the clutch 9 is attached to the drum 2.

The clutch sprockets 5 and 6 are made of the same diameters, interacting with the yoke 4 by means of balls P and 12, spring-loaded springs 13 and 14, embedded in the yoke 4. The asterisks clutches 5 and 6 are connected respectively by chain links 15 and 16 with sprockets 17 and 18, rigidly mounted on the shaft 19 of the drive roller 20. The latter is kinematically connected with the gears 21 and with the driving gear 22 of the gearbox 23.

A second drive roller 25 is connected to gear 22 via gear 24, which is stored together with roller 20 by cable 26 passing through a turntable 27 and roller 28 of the carriage.

29 cable handler 30 to the reel 2. The other end of the cable 26 passes through the diverter roller 31 into the well. The gear 22 is also kinematically connected with the sensor 32 for the cable descent into the well and the tachogenerator 33 for measuring the speed and movement of the cable.

The winch works as follows. When lifting the cable 26 out of the well (winding the cable onto the drum) rollers 20 and 25

under the influence of gear 22 rotate counterclockwise and set in motion connection 15 and 16. The working chain connection of the lift is connection 16. In this direction of movement, the ball 12 with the spring 14 is closed on the holder 4 of the coupling 6, and the last on the disk 8 of the coupling 9, rotates the drum 2 with the cable.

Linear cable speeds in the first layer are greater than rollers 20 and 25, which is ensured by the choice of gear ratio in connection 16. But since drum 2 "is attached to rollers 2G and 25 by cable 26, then disk 10, therefore, drum 2 is lagging from disk 8 in relative rotation.

The forces of the pins 7 provide the necessary torque to create the required traction on the cable 26. When lifting, the cable 15 moves in one direction with connection 16, but with a certain lag. Thus, the yoke 4 rotates faster than the sprocket sprocket 5. The ball 11 and the spring 13 do not overtake this, which is ensured by the choice of the gear ratio in connection 15.

When the cable is launched into the well, the drum 2 and the rollers 20 and 25 rotate in the same direction (clockwise). The cable is removed from the drum as long as it passes through the rollers 20 and 25. Since the diameter of the peripheral layer of the cable is approximately the diameter of the drum cheeks, the drum rotates more slowly than the rollers 20 and 25. Therefore, the yoke 4 must "overtake the sprocket 5, but this The balls 11 and the spring 13 interfere. Therefore, both the sprocket and the holder 4 of the coupling 5 are forced to rotate together with the disk 8 of the coupling 9 with the same angular speed somewhat lower than the rotational speed of the drum, which is predetermined by the speed of rotation of the rollers 20 and 25, more precisely Twomey "missed cable.

Due to the difference in angular velocities, the disks 8 and 10 slip. When descending, the link 16 moves faster than the link 15, therefore the clutch 6 sprocket overtakes the yoke 4. In the event of a failure of one chain link, the winch works by means of another chain link.

Subject invention

A hoist for logging perforator hoists, containing a drive mechanism with drive rollers, a cushion drive with friction drive and cable stacker, characterized in that, in order to increase reliability, durability and simplify the design, the drive of the drum is made with two overrunning clutches, external clips which are made in the form of asterisks creating tension on the cable between the drum and the traction mechanism, and one of which is only during ascent, and the other only during descent.

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FIG. one