SU1079315A1 - Apparatus for washing-out sediment in containers - Google Patents

Abstract

A DEVICE FOR DRAINING DRAINAGE IN CAPACITIES, including a chassis housing, supply pipe, connection of the case to the supply pipe, ensuring that the case can rotate the side of the supply pipe, and a side conjoining installed in the case at an angle to its working end, which is equipped with a separate pipe, which is installed in the case at an angle to its working end, which is equipped with a supporting pipe, which is installed in the case at an angle to its working end, which is equipped with a supporting pipe, which is installed in the case at an angle to its working end, which is equipped with a separate pipe, which is installed in the case at an angle to its working end, which is equipped with a separate pipe, which is installed in the case at an angle to its working end, which is equipped with a separate pipe, which is installed in the case at an angle to its working end that differs from that pipe. that, in order to increase cleaning efficiency, it has additional nozzles made in the working end of the body and magnets built into the body to hold the body on the surface being cleaned , With sideways con lo installed in the housing so that the projection of its longitudinal axis on a plane perpendicular to the vertical axis of the housing is offset relative to the vertical axis of the housing, and uzep for connecting the housing to the inlet duct is formed in the (L-form of a spherical joint.

Description

The invention relates to mechanical engineering, in particular, to devices dp of cleaning containers, for example, hyarabags of building machines, from settled soils. The device is known dp erosion osac- 5

in tanks, including a tsipindrichesky case, supplying pipeline, unit dp connecting the case to the supplying pipeline with the possibility of rotation relative to the supplying pipeline and the bo-o new joint, installed in the case at an acute angle to its working end 11 The fact that it provides high-quality cleaning of the bottom of the tank is only in the immediate vicinity of itself. Remote areas remain uncleaned. In addition, it has large dimensions, which makes it difficult to insert it through the hatch of the tank. Installing this device into this capacity is 20.

the bone, as a hydraulic tank, divided by partitions into several compartments, is impractical.

The purpose of the invention is to increase the efficiency of tanks. 25

The goal is achieved by the fact that the device has additional nozzles made in the working end of the body and magnets embedded in the body and holding the body on the surface of the container, and the side nozzle is installed in the body so that the projection of its longitudinal axis Hia is perpendicular to the vertical axis housing is offset relative to the vertical axis of the housing, and the assembly for connecting the housing to the supply pipeline is in the form of a spherical hinge. The drawing shows the proposed device.4 The device consists of a ball joint 1 with a pipe fixed in a cylindrical steel case 2 by means of a flange 3. The case has an annular groove in which the sectors of the permanent magnets 4 are located, a nozzle with interchangeable inserts 5, an axis which is displaced from the vertical axis of the device and directed under the plate to the lower part of the body, and several small nozzles b, directed downwards. The gap between the magnets 4 and the bottom 7 of the container is changed by means of gaskets 8 made of diamagnetic material, and the magnets are fixed in the groove by screws 9. The liquid is supplied through a flexible pipe 10 fixed on the spherical hinge nozzle 1. The device operates as follows.

Fluid through the flexible pipe line Yu and the ball joint 1. With the pipe enters the cytdrich body 2, from where it is directed through the joint with the insert 5 with

a certain angle, washing away the deposited contaminants. The reaction P of the jet of liquid escaping from the nozzle can be decomposed into two components: the normal force P, directed to the axis of the device, and the relative force P, perpendicular to R. The force P | causes the device to move along the bottom 7 of the tank, and the force P rotates around its axis. When the device is moved, the angle of inclination of the ball joint 1 is changed, and the flexible pipe, bending, allows the device to move.

From turning over, the device holds the force of attraction of the magnets to the steel bottom 7 of the container. The number, size of magnets, as well as the gap between the line and the bottom is established experimentally, depending on the nozzle inserts used, the size of the device, the size of the working pressure of the liquid, the type of liquid, the amount of settled soils, etc.

Small nozzles 6, directed downward, create a liquid cushion between high speed to the bottom 7 of the tank, under the tank, and the bottom of the tank, which facilitates the movement and rotation of the device, and contributes to a more efficient erosion of settled soils. The diameters of the small nozzles are smaller than the lateral diameter and are 0.5-2.0 mm. Zapopla inserts 5 can be changed by the presumability of the inclination of the jet of fluid to the bottom of the tank, the ratio of the component forces P and P, the shape and speed of the jet of fluid. Using the insert with a vertical slit hole, you can wash the walls of the tank. The device can operate both in the flooded state and in case of a small liquid layer at the bottom of the tank. In order for the elasticity of the inlet pipe to provide less resistance to the movement of the device, it is possible to place another ball joint at a certain distance from the device at the point of rupture of the flexible pipe, which allows the flexible pipe to be broken. The device provides a high erosion efficiency of the sediment in the tanks, as the peg itself moves along the bottom, erodes the sediment in all hard-to-reach places and, krsade, the nozzle of the device is as close as possible to the washed parts of the tank.

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Claims (1)

DEVICE FOR WASTE SEDIMENT IN CAPACITIES, including a cylindrical body, a supply pipe, a unit for connecting the body to a supply pipe, allowing the housing to rotate relative to the supply pipe, and a side nozzle mounted in the housing at an acute angle to its working end, characterized in that that, with a chain for improving cleaning efficiency, it has additional nozzles made in the working end of the housing, and magnets built into the housing to hold the housing on the surface to be cleaned and, moreover, the lateral nozzle is installed in the housing so that the projection of its longitudinal axis on a plane perpendicular to the vertical axis of the housing is offset relative to the vertical axis of the housing, and the assembly for connecting the housing to the supply pipe is made in the form of a spherical-hinge. SU ... 1079315