RU2012536C1 - Air hoist - Google Patents

Abstract

FIELD: hoisting devices. SUBSTANCE: air hoist has housing, source for pressure feed of working medium, distributing mechanism, main and additional tore-shaped enclosures made of resilient material, flexible tapes and load gripping mechanism. Housing is made in the form of cylindrical chamber and branch pipe secured on chamber bottom. Branch pipe is mounted coaxially with hole in chamber bottom. Main enclosure is mounted in inner space of chamber and additional enclosure in inner space of branch pipe. One end of each flexible tape is connected with load gripping mechanism and second end of each flexible tape is secured on chamber bottom. Each flexible tape is positioned in central hole of additional enclosure. Source for pressure feed of working medium communicates through distributing mechanism with upper and lower working spaces. EFFECT: improved efficiency. 1 dwg

Description

 The invention relates to hoisting and transport machinery, in particular to pneumatic lifts.

 Known elevator containing the drive and the cargo body, equipped with rollers and interacting with the outer surface of the elastic sleeve connected by the lower and upper ends to the pumping station. In the sleeve is mounted with the possibility of movement of the mover of the cargo body, containing an elastic shell in the form of a torus.

 Known lift containing a guide and an elastic shell in the form of a torus, the cavity of which is in communication with a source of compressed gas. In the central hole of the torus is placed a cargo rod covering the torus.

 A disadvantage of the known solutions is the low reliability of their work and the complexity of the design.

 The proposed pneumatic elevator solves the problem of improving reliability and simplifying the design and includes a housing, a source for supplying a working agent under pressure, a distribution mechanism, a toroidal shell made of elastic material and located in the Central hole of the toroidal shell and covering the last flexible tape, one end of each of which is connected to load gripping mechanisms. New is that the lift is equipped with an additional toroidal shell made of elastic material, and the body is made in the form of a cylindrical chamber with a hole in its bottom and a pipe fixed to the bottom of the cylindrical chamber, which is installed coaxially with the hole. In this case, the main toroidal shell and the additional toroidal shell are installed respectively in the inner cavity of the cylindrical chamber and in the inner cavity of the nozzle with the possibility of longitudinal movement and interaction of their outer side surfaces with the walls of the cylindrical chamber and the nozzle, respectively. Each flexible tape is located in the Central hole of the additional toroidal shell and its second end is fixed to the bottom of the cylindrical chamber. A source for supplying a working agent under pressure through a distribution mechanism is connected with the upper working cavity formed by the walls of the cylindrical chamber and the end surface of the main toroidal shell and with the end surfaces of the main and additional toroidal shells of the lower working chamber formed by the walls of the cylindrical chamber and the nozzle.

 The drawing shows a General view of the elevator in section.

 The lift consists of a cylindrical body 1 with a pipe 2 in its bottom. The housing 1 is in communication with the feed agent supply system 3. A toroidal shell 4 of elastic material filled with compressed fluid is installed in the housing 1. The shell 4 divides the housing 1 into two working chambers 5 and 6. An additional toroidal shell 7 of elastic material is installed in the pipe 2, which seals the lower chamber 6 at the exit point of the flexible tapes 8, which are passed through the central holes of the shells 4 and 7. Free the ends of the belts 8 are connected to load gripping mechanisms 9, and the ends 10 of the belts 8 are fixed to the housing 1.

 The lift works as follows.

 System 3 through the distribution mechanism serves a working agent, for example compressed air, into the chamber 6 of the housing 1. The toroidal shell 4, turning out, starts to move upward, squeezing the air inside it into the system 3. When the toroidal shell 4 moves upwards, the tapes 8 are located along the walls of the housing 1, while the load gripping mechanisms 9 rise up. The toroidal shell 7 in the nozzle 2 moves synchronously with the toroidal shell 4 and the belts 8, sealing the chamber 6. After lifting the load to the desired height, the distribution mechanism of the system 3 is switched to the supply of the working agent to the chamber 5, while the toroidal shell 4 is lowered to the initial position the medium from the chamber 6 to the system 3. The tapes 8 and the toroidal shell 7 synchronously with the shell 4 are moved down to their original position. (56) Copyright certificate of the USSR N 537923, cl. B 66 B 9/04, 1975.

 USSR author's certificate N 933597, cl. B 66 B 9/04, 1980.

Claims (1)

 PNEUMATIC LIFT, including a housing, a source for supplying a working agent under pressure, a distribution mechanism, a toroidal shell made of elastic material and located in the Central hole of the toroidal shell and covering the last flexible tape, one end of each of which is connected to the load gripping mechanism, characterized in that it equipped with an additional toroidal shell made of elastic material, and the body is made in the form of a cylindrical chamber with a hole in its bottom and a cylinder fixed to the bottom the chamber of the nozzle, which is installed coaxially with the hole in the bottom of the cylindrical chamber, while the main and additional toroidal shells are respectively installed in the internal cavities of the cylindrical chamber and the nozzle with the possibility of longitudinal movement and interaction of their outer side surfaces with the walls of the cylindrical chamber and the nozzle, respectively, and each the flexible tape is located in the Central hole of the additional toroidal shell and the second end is fixed to the bottom of the cylinder cal chamber, a source for supplying working fluid under pressure through a dispensing mechanism in communication with the cylindrical chamber formed by walls and an end face of the main toroidal shell and the upper working chamber formed with walls of the cylindrical chamber and the tube and the end surfaces of the main and additional lower toroidal shells working chamber.

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