SU1763339A1 - Pneumatic hoist - Google Patents

Abstract

The invention relates to hoisting equipment, in particular, to pneumatic actuators. The purpose of the invention is to increase the reliability and stabilization of the movement of the lift. The air lift includes trunks 1 and 2, cargo platforms 5 and 6, equipped with rolling rollers 7 and rollers 8. Platforms 5 and 6 are connected by a flexible casing 9 thrown over rollers 7 and passing through channel 13. The device is equipped with a pneumatic accumulator 23 as a blind barrel in which a hydraulic container is suspended by means of a tubular sheath. 1 Cpfla, 2 Il. VI About GJ GJ GJ CHE

Description

The invention relates to a lifting machinery, in particular to pneumatic lifts, and is intended primarily for the issuance of rock mass and other goods from deep quarries or underground mines.

The purpose of the invention is to reduce energy consumption.

FIG. 1 shows the air lift, general view; in fig. 2 - pneumatic accumulator design, general view.

A pneumatic elevator includes two shaft shafts 1 and 2, constructed with a section corresponding to the dimensions of the vessels being lifted, for example, containers 3 (or dump trucks), and connected at the bottom by channel 4, flooded with mine water. In the trunks there are two load-carrying platforms 5 and b, placed, for example, in grooved rails, respectively 7 and 8, made with desensitization in the walls of the trunks.

Between both platforms, a single elastic tubular sheath 9 is laid along both trunks, the ends of which are hermetically fastened with pressure rings 10 installed below the level of the lower working horizon. The shell 9 is adjacent to the walls of the barrel and is made in sliding interaction with the bottom of the platforms 5 and 6, and in the center the shell is collected by an overpressure into a bundle and in this form through the bypass blocks 11 and 12 is passed through a layer of fluid from one barrel to another. In a straightened position along the perimeter of the barrels, the shell closes all openings and leaks of the barrels, including openings by tools, which, at conjugations 13 and 14 with trunks 1, 2, are equipped with rotary cylinders 15, 16 with openings 17 for loading or unloading containers 3. In this way, cylinders 15 and 16 are made with the possibility of sectoral movement of their openings 17 prior to combining with or approaching workings. The lower part of the barrels are connected by suction ducting ducts 18 and 19, for example, to a two-stage pneumatic fan unit 20, in which the discharge air ducts 21 and 22 are also connected to the barrels 1 and 2. The pressure air ducts 21 and 22 are simultaneously connected to the pneumoaccumulator by a constant 23 by means of a control valve system 24 and 25.

Pneumoaccumulus tor23 is made in the form of a vertical development, for example, a blind shaft 26 equipped with an elastic tubular sheath 27. The shell is tightly fixed in the upper part of the trunk with the help of a pressure ring 28, and in the lower part - a ring 29. The intermediate section of the shell is thrown twice over two

annular rows of rollers rollers 30 and 31 mounted respectively on the upper edge and on the bottom part of the hydraulic tank 32 filled with a liquid, preferably water. Bottom rollers 31 are mounted freely in the narrow space between the ribs of the tank with the support on rigidly mounted rollers 33, and the upper rollers 30 are mounted on the wall of tank 32 using their axes

5 rotations

A well 34 was drilled in the domed part of the pneumoaccumulator production from a higher production or from the surface. A bore pipe 35 is installed with a submersible pump 36 in the well. To provide an intermediate accumulation of compressed air, a pneumatic accumulator 23 is placed, into which the pneumatic-pneumatic unit 20 pumps

5 excess compressed air from the barrel 1. When compressed air is pumped into the pneumatic accumulator, the tank 32 rises upwards with a bypass through the rollers 30 and 31 of the casing 27. At the same time, the shell passes

0 through a layer of water, thereby reliably sealing the lower lifting cavity from the capacity connected through the well 35 to the atmosphere.

When moving platforms 5 and 6 compressed

5, air with the same pressure is consumed through the open discharge channel, for example 22, covering its deficit during the operation of the pneumatic fan unit, since it sucks up a larger volume of less dense air than it pumps more dense into the other barrel, and this eliminates the difference in speeds platforms

Pump installation 36 provides

5 adjustment adjustment of air pressure under capacity 32 when switching to new modes, as well as pumping out excess water arriving in underground conditions as a droplet from the arched part of the blind

0 stem 26,

Claims (2)

Claim 1. Pneumatic lift containing two platforms installed in shaft shafts equipped with pneumatic injection 5 by a station connected to the trunks by means of a duct system and gates, characterized in that, in order to reduce energy consumption, the duct system is provided with a pneumocumulative capacity, made in the form of a blind shaft, equipped with an pneumocumulative capacity, made of a blind trunk, equipped with an elastic tubular sheath, hermetically fixed ends around the perimeter in the upper and lower parts of it, with the middle of the casing being thrown over two rows of rollers fixed along the perimeter to the filled fluid bone, hanging freely on the conductive shell, wherein One row of rollers is placed on the top valve of the tank, and the other is placed near its bottom, while the blind barrel is connected with the atmosphere. 2. A pneumatic elevator according to claim 1, that is, with the fact that the connection of the pneumatic sleeve to the atmosphere is performed by means of a well equipped with a pipeline with a submersible pump.