SU1667947A1 - Washing installation - Google Patents

Abstract

The invention relates to a washing technique and can be used in mechanical engineering and other industries of the national household. The goal is to increase the efficiency of washing products. The installation has washing baths, each of which houses a perforated container for products rotatably driven by a rotation. Simultaneously with the rotation of the containers, jets of washing liquid flow through the feed nozzles under pressure, which excite oscillations in the resonating plate. There is a flow of cavities with a cavity, which are drawn into the vortex, funnel and penetrate the perforated container with the product. At the same time, the container oscillates with the product in the direction coinciding with the direction of its axis of rotation. 2 hp f-ly, 3 ill.

Description

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The invention relates to a washing technique and can be used in mechanical engineering and other industries of the national household.

The aim of the invention is to increase the washing efficiency.

FIG. 1 shows a general view of an installation for washing products; FIG. 2 - the same, top view; in fig. 3 - the same, a variant of the device in the case of the axis of the holder at an angle.

The unit for washing products has a housing 1, on the working table 2 of which radially mounted washing baths 3 with cleaning solution are installed. In each washing section 3, a perforated container 4 is disposed for placing the articles by a rotation drive 5.

The rotation drive is made in the form of a drive shaft b from the pulley 7 (the number of drive shafts 6 with pulleys 7 corresponds to the number of perforated containers 4 and the number of washing tubs 3.

The device (FIG. 2) contains five washing sections 3 connected by a belt drive 8 to the central pulley 9. Rotation to the central pulley 9 is transmitted through the clutch 10 from the electric motor 11.

The device is equipped with an oscillation resonator, made in the form of a thin plate 12 located under the perforated container 4, as well as a feed nozzle 13, focusing the jet leakage on the end of the thin plate 12 in the plane of its location. The supply of the cleaning solution in the feed nozzle 13 is carried out

about

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VI

is driven by pump 14 through conduit 15.

FIG. 2 shows the diametral arrangement of the feed nozzles 13 arranged in pairs in each washing section 3 in the plane of the thin plate. FIG. Figure 3 shows a variant of mounting the feed nozzle 13 and the thin plate 4 in the event that the axis of rotation of the perforated container deviates from the vertical axis by an angle of 10-45 °.

The device provides for the discharge of the incoming cleaning solution from the nozzles 13 through the pipe 16.

A thin plate 12 is mounted on a conical reflector 17, which directs the flow of jets from the feed nozzles 13 into the zone of interaction with the vortex funnel of the rotating perforated container 4.

The products to be cleaned 18 are inserted into the perforated containers 4 by means of a manipulator 19, fixed with the help of electromagnets 20 mounted on it,

The washing device has a housing 1 on top of the cover 21.

The device works as follows.

The uncleaned parts 18 are captured from the process stream by the electromagnets 20 of the manipulator 19 and last transferred to the loading position in the washing device. The manipulator 19 lowers the parts 18 to be cleaned into perforated containers 4 located in the washing sections 3 with the washing solution.

Then, the drive 5 of rotation of the perforated container 4 is actuated. The rotation from the electric motor 11 is transmitted through the clutch 10 to the central pulley 9, which is engaged by means of a belt transmission 8. with the pulleys 7 located on the drive shafts of the perforated containers 4.

During the rotation of the containers 4 with a sufficiently high angular velocity in each washing section 3, a vortex funnel occurs. In the vortex cleaning center, the funnel overlaps the perforated container 4, which is the source of its excitation. At the same time, jets of washing liquid flow out through pressure nozzles 13, which excite oscillations in a thin plate 12. Jets flow from a cavity, which are drawn into a vortex funnel of a rotating perforated container 4, emerge.

13 at the end of the thin plate 12, are directed to the cleaning center.

In the process of cleaning parts, the manipulator 19 with the products to be cleaned 18 oscillates in the direction coinciding with the direction of the axis of rotation of the perforated container 4, thereby ensuring movement of the part 18 to be cleaned relative to the paraboloid.

0 free surface of the vortex funnel. A complex picture of the flow of the washing liquid relative to the surface of the cleaned products 18 is created, which is characterized by the formation of cavities, the collapse of which on the surface of the cleaned products 18 causes contamination from the surface, resulting in an increase in the efficiency of washing the products and, accordingly, the quality of their cleaning.

0 In the case when the axis of rotation of the perforated containers is located at an angle of 10-45 ° to the vertical axis, an additional disturbance of the washing liquid occurs in the cleaning center when falling

5 particles of washing liquid from the top of the free surface of the vortex funnel in the direction of its bottom.

The washing liquid coming from the generator; in the washing sections 3, with overflow

0 g of the remaining ones is discharged through the pipe 16 and I will break it with the help of the pump 14 through the pipe 15 to the feed nozzles 13.

At the end of the cleaning process, the drive вращi of rotation is turned off, the supply of detergent

5 and the pump 14 is stopped, the unit 18 is transferred to the unloading area by the manipulator 19, and when the electromagnets 20 are disconnected, it is released. The cycle is over. Further operation of the device

The washing step is repeated as indicated. The use of the present invention allows to produce a high quality product, which is achieved using cleaning, including the complex-4 interaction of cavitation

5 currents in the vortex funnel relative to the surfaces of the products being cleaned. A high degree of turbulence in the flow of washing liquid, the collapse of cavities in the cleaning center provides an intensive effect of washing liquid on the surfaces and internal cavities of parts of any configuration without forming stagnant zones, as well as quick removal of contaminants. The rotation of the perforated conveyor around the vertical axis causes the formation of a vortex funnel under the action of centrifugal forces directed along the radius of the conveyor. The effect of the vortex funnel arising during the cleaning process increases in the case of a deviation of the axis of rotation and the perforated container from the vertical axis by an angle of 10-45 °. In this case, particles of the washing liquid, captured by the walls of the container during its rotation, at a certain point in time under the action of gravity are discharged in the direction of the bottom of the funnel, thereby increasing the turbulence of the washing liquid in the source of cleaning of the product.

The optimal range of the deflection angle of the axis of rotation of the perforated container relative to the vertical axis is in the range of 10-45 °. The lower limit of the angle, equal to 10 °, determines the occurrence of the described effect of dropping particles of the washing liquid in the direction of the bottom of the vortex funnel. The upper limit of 45 ° causes the maximum deflection angle, which, if exceeded, makes it difficult to form a paraboloid of the free surface of the vortex funnel. Therefore, the angular deviation of the axis of the perforated container from the vertical axis at an angle of more than 45 ° is impractical.

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Claims (3)

1. A device for washing products, containing a bath for washing liquid, a perforated container for placing products, driving the container about its axis and accommodating a liquid activator in the bath, characterized in that, in order to increase the efficiency of washing, the liquid activator contains located under the container and a fixed cantilever resonating plate and a nozzle built into the bath for supplying washing liquid, the output end of which is directed to the free end of the plate along the plane of its location. 2. The installation according to claim 1, characterized in that it has a conical reflector located under the container for directing the activating fluid to the washing zone, and the plates are located on the reflector. 3. Installation on PP. 1 and 2, characterized in that the container is located at an angle of 10-45 ° to the vertical axis. 13 Rig, 2