SU1276616A1 - Hoisting arrangement - Google Patents

Abstract

This invention relates to lifting devices. The purpose of the invention is to increase work efficiency and reduce size. The elevator contains telescopic connecting rods of various minimum lengths, the lower ends are hinged on the axis of the movable element 22 of the drive, and the upper ends are connected to the lever 3 hinges distributed along the axis of the lever 3. 5 Il.

Description

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Claims (3)

O5 FIG. 2 The invention relates to lifting devices. The purpose of the invention is to increase work efficiency and reduce size. FIG. 1 shows the elevator in the folded state, general view; in fig. 2 - lift at the time of the beginning of the second pair of rods; in fig. 3 - elevator in raised condition; in fig. 4 - view A in FIG ,, 3; in fig. 5 is a section BB in FIG. 3. The lift consists of an upper cargo platform 1 and a fixed base 2, which are connected to each other by two pairs of levers 3 types of Nürberg scissors, one ends of which are harnessed in brackets 4 and 5, while others are installed in horizontal guides 6 and 7 s responsibly mobile base platform 1 2. Based on 2, drive 8 is horizontally mounted. acting on the levers 3 through a set of telescopically connecting rods consisting of extendable rods 9-16 and housings 17-20. The rods are hinged to the upper end of the pins 3, and the bodies are pivotally connected to the axes 21 of the movable element 22, moving on the rollers 23 along the guides 24. In turn 5, the movable element 22 is driven by the drive 8 by means of a gear 25, the nut 26, and the lengths of the housings 17-20 are selected so that the load n the screw 25 at the moment of the beginning of power action of any pair of the housings 17-20 does not exceed the initial one; the actions of each subsequent pair of buildings cos 18-20 coincides with the moment coh and each pair of previous housings 17-19 schatunov receives position perpendicular to the pair of arms spanning an schihs 3. The device operates as follows. The lifting of the movable platform 1 is performed by turning on the drive 8, and the screw 25, rotating, moves the nut 26 together with the carriage by the movable element 22 on the rollers 23 in the direction of the guide 24. At the same time, a pair of housings 17 (Fig. 1) pushes the levers 3 one ends of which rotate in the lugs 4 and 5, while others move in the guides 6 and 7, which ensures the synchronous lifting of the platform 1. At the same time, the housings 18-20 (figure 2) together with partially movable links in them MI 13-16 (Fig. 2 and 3) are rotated with the axes 21 of the movable element 22, moreover, movable 13-16 units gradually utaplivayuts housings 18-20. A pair of housings 18 (Fig. 2) at the moment of full entry into them of moving links 13 and 14 begins to take the load, releasing the housing 17, from which moving links 9-12 begin to move out under the action of levers 3, and moving links 15 and 16 continue to sink into housings 19 and 20 under the action of levers 3. Further, the load is perceived by a pair of housings 19, releasing a pair of links 18, and then a pair of links 20, releasing a pair of links 19, and to ensure the safety, the lengths of housings 17-20 are selected so that the load is removed from each previous pair before what it comes to vertical position. The lowering of the movable platform 1 occurs when the drive 8 8, inta 25 moves in the opposite direction. The nut 26 together with the movable element 22 moves backward on the rollers 23 along the guides 24, while the pairs of housings 17-20 alternately take the load from the levers 3 lower the platform 1. Formula of the invention Lift 5 containing the base and the movable plate py, interconnected between two pairs of levers forming a Nuremberg-type lever-hinged system and a lift drive, the movable element of which is mounted at the base with the possibility of horizontal stirring, parallel to the plane of rotation of the lever and kinematically coupled with one of the latter, characterized in that, in order povyieni efficiency and reduce the size, the kinematic linkage of the movable element with the actuator lever is in the form a set of telescopic arrays of various minimum lengths, the lower ends of the Moving element of the drive hinged on one axis, and the upper hinges connected to the lift bar are distributed along the centerline of the lever, and the minimum length of each subsequent telescopic connecting rod in the direction from the upper end of the connected It is larger than the minimum length of the predecessor. 18 131520 h Fi. FIG. five