SU1150220A1 - Telescopic hoist - Google Patents

Abstract

A TELESCOPIC LIFT, containing a vertically mounted power cylinder with a rod, connected to the telescopic sections, vertical and inclined grooves made on the surface of the intermediate telescopic section, located in the grooves of the copiers mounted on the outer telescopic section, and spring-loaded latches that interact with the inner telescopic section , characterized in that, in order to increase the reliability of work and increase the load capacity, the cylinder rod is equipped with spring-loaded pushers interacting with inclined guides mounted in diametrically arranged windows, made in the wall of the inner telescopic section, which is equipped with a movable ring, coaxially mounted cylinder rod and interacting with the rod stops, while on the upper ends of the outer and intermediate telescopic sections mounted on the axes stoppers with springs, interacting with spring-loaded latches, radially located in the walls of the respective sections, SL and the power cylinder mouth Installed inside the inner section coaxially with it.

Description

Is3 GhE

The invention relates to lifting and transporting devices, namely, lifts, mainly for lifting and lowering with the possibility of turning in terms of heavy bulky loads, in particular blocks and beams of bridge superstructures.

A telescopic elevator is known, comprising a vertically mounted power cylinder with a brush associated with telescopic sections, vertical and inclined grooves made on the surface of the intermediate telescopic section, grooves mounted in the grooves, mounted on the outer telescopic section, and spring-loaded latches interacting with the inner telescopic section 1.

However, the known telescopic lift cannot be used to lift and rotate heavy bulky loads to a height of 1-2 meters or more, since the load is lifted in one turn for the entire length of the rod, therefore when climbing to a height of 1-2 meters or more The scraper and the device as a whole have little stability and, therefore, are unreliable in operation.

The aim of the invention is to increase the reliability of work and increase the load capacity.

 The goal is achieved by the fact that in a telescopic lift containing a vertically mounted power cylinder with a brush, associated with telescopic sections, vertical and inclined grooves made on the surface of the intermediate telescopic section, located in the grooves of the copiers mounted on the outer telescopic section, and spring-loaded clamps interacting with the inner telescopic section, cylinder bristles equipped with spring-loaded followers interacting with inclined guides installed in diametrically arranged windows, made in the wall of the inner telescopic section, which is equipped with a movable ring, coaxially mounted cylinder rod and interacting with the stops of the brush, while on the upper ends of the outer and intermediate telescopic sections are mounted on the axes of the stoppers q springs that interact with spring-loaded clamps radially located in the walls of the respective sections,. and the power cylinder is installed inside the inner section coaxially with it.

FIG. 1 schematically shows a telescopic lift in the upper position, a general view; in fig. 2 - the same, top view; in fig. 3 - the same, in the lower position, front view; in fig. 4 - intermediate section, general view.

The telescopic lift contains a power cylinder 1 with a brush 2, in the head 3 of which spring-loaded pushers 4 are diametrically placed. Power cylinder 1

mounted on the bottom 5 of the outer telescopic section 6, on which the flange 7 is mounted for fastening the device to the mounting frame and stoppers 8 with springs 9 interacting with spring-loaded clamps 10 diametrically placed in the housing of the intermediate telescopic section 11. On the outer surface of the movable intermediate telescopic section . 11, vertical 12 and inclined grooves 13 are provided, interacting, if necessary, turning the load in plan, with spring-loaded copiers 14, the housings 15 of which are rigidly fixed to the end of the outer section 6. To ensure a smooth turn of the load between the head 3, on which the load platform

0 16, integrated into the housing of the movable inner telescopic section 17, and the supporting sub-bearing 18 is installed with the brush 2.

Lifting the load to the uppermost position is provided for the second working stroke of the rod 2 by engaging the spring-loaded pushers 4 with windows 19 located in the body of the internal telescopic section 17, and lowering the cargo by engaging the spring-loaded pushers 4 with the inclined fixed guide 20 and the movable ring 21. To fix the position of the inner telescopic section 17 after lifting the load in its case, spring-loaded clamps 10 are placed, which interact with spring-loaded stoppers 8 installed in but

The 5 ends of the intermediate telescopic section 11. In addition, the telescopic sections 11 and 17 have guides 22 located in the grooves of the adjacent sections, which ensures a strictly fixed position of the sections during their operation.

To connect the power cylinder 1, in the bottom 5 there are two openings in which fittings 23 are located connecting the pipeline with the lower cavity, and 24 - with the upper cavity of the power cylinder 5.

The lift works as follows.

When pumping oil through shtutser 23 into the lower cavity of the power cylinder 1, the brush 2 moves upwards, and with it

0, the internal telescopic section 17 rises with the cargo platform 16 against which the head 3 rests, resting through the supporting sub-holder 18 on the shields 2. At the end of the climb, mm to the end

g stroke spring-loaded clips 10, lift the spring-loaded stoppers 8, extend completely to the full, fixing the raised position of the inner telescopic section 17 with the cargo area 16. At the same time, the guides 22 of the movable inner telescopic section 17 abut against the end of the intermediate telescopic section 11. When pumping oil through the clamp 24 into the upper cavity of the power cylinder 1 of the brush 2 with the head 3 is lowered and, not reaching the lowest position by 30-80 mm, the spring-loaded pushers 4 located in the head 3 enter windows 19. When the chute 2 retraces upward, the spring-loaded pushers 4 transfer the force to the support surfaces of the window 19, raise the inner telescopic section 17 even higher, and with it the intermediate telescopic section 11. At the end of the lift 30-80 mm before the end of the stroke the latches 10, located in the casing of the movable intermediate telescopic section II, are pushed into the spring-loaded stoppers 8, mounted on the outer telescopic section 6, fully extended to the full extent, fixing the raised position of the intermediate telescope An optic section 11 with an internal telescopic section 17 located above it. The lowering of the load is carried out in the reverse order. Moreover, the extended position of the rod 2 is taken as the initial, when the spring-loaded pushers 4 abut against the supporting surfaces of the windows 19. Pre-raised into the loading platform 16 with a load of 30-80 mm, they lift the spring-loaded clamps 10, which are raised together with the intermediate telescopic section 11, while spring-loaded stoppers 8 are released and occupy their original position. When the stem 2 is moved downward, the intermediate telescopic section 11 is lowered together with spring-loaded clamps 10, which are sunk under the action of the stoppers 8, and the intermediate telescopic section 11 together with the internal telescopic section 17 is freely lowered all the way to the bottom 5. When further lowering the brush 2 with the head 3 (50-80 mm) spring-loaded pushers 4 under the action of inclined guides 20 are driven inside the movable ring 21 so that when the rod 2 is repeated upwardly, the spring-loaded pushers 4 are inside Moving ring 21 and moving together with it, windows 19 freely pass, after which they leave movable ring 21, which, falling down, occupies the initial position. With further upward movement, the head 3 rests in the cargo area 16 raises the inner telescopic section 17 by 30-80 mm, the spring-loaded clamps 10 release the spring-loaded stoppers 8, which occupy the initial position, so that when the stem 2 goes down, the internal telescopic section 17 freely lowers to the initial position, as under the action of the stoppers 8 located on the intermediate telescopic section 11, the spring-loaded latches 10 are driven into their sockets. To provide simultaneous rotation of the cargo platform 16 with a load when lifting or lowering the spring-loaded copiers 14, the housings 15 of which are located at the end of the outer telescopic section 6, are turned into inclined grooves 13 located on the outer surface of the intermediate telescopic section 11, the U-turn is greatly facilitated by installing between rods 2 and the head 3 of the support bearing 18. The application of the invention improves the reliability of operation and increases the load capacity of the telescopic elevator.

/ 7

1

12

Fy

Claims (1)

TELESCOPIC LIFT, comprising a vertically mounted power cylinder with a rod connected to telescopic sections, vertical and inclined grooves made on the surface of the intermediate telescopic section, copiers located in the grooves mounted on the outer telescopic section, and spring-loaded clamps interacting with the internal telescopic section , characterized in that, in order to increase reliability and increase load capacity, the cylinder rod is equipped with spring-loaded pushers, interacting with inclined guides installed in diametrically located windows made in the wall of the inner telescopic section, which is equipped with a movable ring, coaxially mounted to the cylinder rod and interacting with the rod stops, while on the upper ends of the outer and intermediate telescopic sections mounted on the axes of the stopper with springs, interacting with spring-loaded clamps radially located g in the walls of the respective sections, and the power cylinder is installed inside / the inner section is aligned with it. *>