RU141671U1 - PNEUMATIC LIFT - Google Patents

Abstract

1. A pneumatic hoist containing a power corrugated elastic shell with restrictive rings, hermetically fastened from below to the base plate through an annular support and an annular plate by a bolt connection and from above on a stop flange by a bolted connection and an annular plate telescopically telescoping sliding cylinders with annular protrusions mounted in ring protrusions mounted cavities of the power corrugated elastic shell, the upper of which is rigidly connected through the plug to the thrust flange by a bolt connection, and the lower cylinder, by means of a flange welded to it and a bolt connection, is rigidly connected to the base plate, intermediate cylinders, a compressed air supply pipe into the internal cavity of the corrugated elastic flexible shell with shut-off and control valves and a handle, track rollers, characterized in that the cylinders are made of welded sections sheet steel, rolled into a cylinder with a 6 mm gap along the length of the cylinder and the outer rings with an inner diameter equal to the outer diameter of the cylinder and an outer diameter equal to the actual diameter of the mating cylinder, and the inner rings with an outer diameter equal to the inner diameter of the cylinder, and with an inner diameter equal to the outer diameter of the mating cylinder. 2. The pneumatic hoist according to claim 1, characterized in that before assembling the device, the annular pads are pre-glued to the inner surface of the power corrugated elastic shell with universal adhesive.

Description

The utility model relates to lifting mechanisms, in particular to pneumatic elevators for use in garage facilities.

Known pneumatic hoist containing telescopically articulated cylinders made with outer and inner annular projections located at the ends, and longitudinal blind grooves are made on the inner surfaces of the enclosing cylinders, providing a quick set of speed for the relative movement of the mating cylinders in the initial stage and a smooth decrease in speed to zero in the final stage without impact of the inner annular protrusion of the female cylinder with the outer annular protrusion th cylinder. (RF patent No. 2098344)

IPC B66F 3/00 Pneumatic elevator /P.N. Kalmykov, A.V. Salnikov, G.P. Shlyapnikov (RF). Declared September 22, 1994, publ. 12/10/1997). The disadvantage of this device is its low carrying capacity and increased metal consumption in the manufacture of cylinders with outer and inner annular protrusions from solid pipes.

Another pneumatic elevator is known, comprising telescopically articulating sliding cylinders with annular protrusions and a piston mounted on a base plate, and in order to increase operational reliability and reduce the dimensions of the elevator, the sliding cylinders are provided with retaining rings integrated externally on at least several overlying sliding cylinders and interacting with the ends of the underlying sliding cylinders into which compressed air is supplied, and rollers located on the base plate are attached to the base plate on the opposite side of the handle and extending beyond the dimensions of the aforementioned plate, while on the sliding cylinders an elastic protective shell is worn. (USSR Patent No. 464990 IPC B66f 3/24, Pneumatic Hoist / Hans Moor (Switzerland) - No. 1645394 / 27-11; Declared 04/02/1971, Publish. 03/25/1975, Bull. No. 11). The disadvantage of this device is also not a high load capacity, limited by the diameter of the piston used and increased metal consumption in the manufacture of telescopically articulating sliding cylinders from solid pipes.

The closest set of essential features to the claimed utility model is a pneumatic hoist containing a corrugated elastic power shell fixed below on the base and above on the loading platform, telescopically articulated cylinders with outer and inner annular protrusions mounted in the inner cavity of the elastic shell, the upper of which is rigidly connected to the loading platform, and the bottom is rigidly fixed to the base, the pipeline for supplying working gas to the internal cavity of the corrugation flexible elastic shell, shut-off and control valves and a handle fixed to the base, and the handle is hollow for use as a working gas supply pipe. (RF patent for utility model) No. 65880, IPC B66F 3/24 Pneumatic lift. / R.V. Ginoian, G.E. Petrosyan, A.M. Kasabyan (RF) - No. 2007104805/22. Claim 02/27/2007. Publ. 08/27/2007. Bull. 24).

The disadvantage of this device is the rigid attachment of the upper cylinder to the loading platform, which reduces the pressure area of the working gas, and, therefore, reduces the carrying capacity of the device and increased metal consumption, in the manufacture of telescopically articulating sliding cylinders, from solid pipes.

The objective of the proposed utility model is to increase the carrying capacity and reduce material consumption in the manufacture of a pneumatic lift.

This problem is solved by the fact that the claimed utility model contains a power corrugated elastic shell with restrictive rings, hermetically sealed from below on a base plate through an annular support and an annular plate by a bolt connection and from above on a stop flange by a bolt connection and an annular plate, telescopically sliding sliding cylinders with ring protrusions installed in the inner cavity of the power corrugated elastic shell, the upper of which is rigidly connected through the plug with a persistent lance bolt connection, and the lower cylinder by means of a welded flange and bolt connection is rigidly connected to the base plate, intermediate cylinders, the compressed air supply pipe into the internal cavity of the corrugated elastic flexible shell with shut-off and control valves and handle, track rollers, and the cylinders are made welded from pieces of sheet steel, rolled into a cylinder with a 6 mm gap along the length of the cylinder and outer rings with an inner diameter equal to the outer diameter of the cylinder and the outer diameter rum equal to the inner diameter of the counter-cylinder and inner rings with an outer diameter equal to the inner diameter of the cylinder and having an inner diameter equal to the outer diameter of the counter-cylinder, to the same device prior to assembly ring laths glued previously with the inner surface of the corrugated elastic force universal sheath adhesive.

This design of the pneumatic lift allows you to increase the load capacity of the device by 10 ... 15%, depending on the ratio of the area of the annular section of the inner surface of the cargo platform and the cross-sectional area of the upper cylinder.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows in operational position a pneumatic elevator in section, in FIG. 2; 3 and 4 show remote sections of the individual elements of the lift.

The solution to this problem becomes possible because the pneumatic lifting device contains a corrugated elastic flexible shell 1 with restrictive rings 2, hermetically fastened from below to the base plate 3 through the ring support 4 and the ring plate 5 by bolt connection 6 and from above on the stop flange 7 by bolt connection 8 and an annular lining 5, telescopically articulating sliding cylinders 9, 10, 11 and 12 with annular protrusions installed in the inner cavity of the power corrugated elastic shell 1, the upper 12 of which is rigidly connected through the plug 13 to the stop flange 7 by a bolt connection 14, and the lower cylinder 9 is rigidly connected to the base plate 3 through the welded flange 15 and the bolt connection 16, intermediate cylinders 10 and 11, the compressed air supply pipe 17 the internal cavity of the power corrugated elastic shell 1 with shut-off and control valves and a handle, the track rollers 18, and the cylinders are welded from pieces of sheet steel, rolled into a cylinder with a 6 mm slot clearance along the length of the cylinder and the outer ruts 19 with an inner diameter equal to the outer diameter of the cylinder and an outer diameter equal to the inner diameter of the mating cylinder and the inner rings 20 with an outer diameter equal to the inner diameter of the cylinder and with an inner diameter equal to the outer diameter of the mating cylinder, moreover, before assembling the device, the annular linings 5 are pre-glued to the inner surface power corrugated elastic sheath 1 universal adhesive.

The pneumatic lift works as follows. The lift for the handle (not shown) is rolled up using rollers 18 to the place of lifting of the load, for example, a car and lowered to the ground or floor. Compressed air is supplied at a pressure of 0.5 ... 1.0 MPa through the nozzle 17 into the internal cavity of the corrugated elastic flexible shell 1, while compressed air fills the shell 1 and creates pressure on the area of the annular portion of the thrust flange 7 and through the slotted openings of the cylinders 9, 10, 11 and 12 fills the inner space of the upper cylinder 12 and creates additional pressure on that part of the area of the thrust flange 7, equal to the cross-sectional area of the upper cylinder 12 of the telescopically articulated cylinders, increasing the load capacity by 10-15%.

After lifting the cargo using shut-off and control valves, the supply of compressed air is stopped and the cargo is fixed at a given height. At the end of the repair work, a gradual release of air from the inner cavity of the power corrugated elastic shell 1 of the pneumatic lift into the atmosphere is performed, and the load is lowered to its original position.

Thus, the proposed utility model, combining simplicity with the reliability of the structure, provides an increase in the efficiency of the device by increasing the carrying capacity and reducing the metal consumption of the structure.

Claims (2)

1. A pneumatic hoist containing a power corrugated elastic shell with restrictive rings, hermetically fastened from below to the base plate through an annular support and an annular plate by a bolt connection and from above on a stop flange by a bolted connection and an annular plate telescopically telescoping sliding cylinders with annular protrusions mounted in ring protrusions mounted cavities of the power corrugated elastic shell, the upper of which is rigidly connected through the plug to the thrust flange by a bolt connection, and the lower cylinder, by means of a flange welded to it and a bolt connection, is rigidly connected to the base plate, intermediate cylinders, a compressed air supply pipe into the internal cavity of the corrugated elastic flexible shell with shut-off and control valves and a handle, track rollers, characterized in that the cylinders are made of welded sections sheet steel, rolled into a cylinder with a 6 mm gap along the length of the cylinder and the outer rings with an inner diameter equal to the outer diameter of the cylinder and an outer diameter equal to the actual diameter of the mating cylinder, and the inner rings with an outer diameter equal to the inner diameter of the cylinder, and with an inner diameter equal to the outer diameter of the mating cylinder. 2. The pneumatic hoist according to claim 1, characterized in that before assembling the device, the annular linings are pre-glued to the inner surface of the power corrugated elastic shell with universal adhesive.

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