SU1097394A1 - Device for vibration cleaning of articles - Google Patents

Abstract

1. INSTALLATION FOR VIBRATION-EQUIPMENT cleaning of products, containing a washing chamber with a platform in it for products with guides its movement associated with a high-frequency oscillatory mechanism, and a low-frequency oscillatory mechanism, characterized in that, in order to intensify the cleaning process and reduce energy consumption, the washing chamber has two holes, made on its opposite walls parallel to the platform guides, and two V-shaped pipes, one end of each pipe is connected to the corresponding hole m chamber and the other end of the tube is provided with a corrugated hood being crimped caps are associated with low-frequency oscillation mechanism antiphase by kinematic units.

Description

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2. Installation under item 1, about tl and so that the chamber in the zone of each hole is provided with an annular guide with a cylindrical and conical sections, having holes in the conical section, and a hydrodynamic multi-nozzle, having from the outside cylindrical and conical plots, while the nozzle is installed in the annular guide with the possibility of longitudinal movement for periodic interaction of the conical sections of the nozzle and the annular guide.

The invention relates to vibration washers and is intended for use in repair shops, in particular, in specialized repair shops, and in repairs with engines, parts, components and assemblies of tractors and automobiles. Installations for the cleaning of products are known, comprising a bath in which a platform with an actuator is arranged to communicate a reciprocating movement 011 to it.; The disadvantage of these installations is inadequate cleaning of the products from contamination, since there is only a uniform low-frequency oscillation. A known installation for vibrating cleaning products, containing my Hyto camera with a plate placed therein for products with movement guides associated with a high-frequency oscillatory mechanism and a low-frequency oscillatory mechanism C2j. However, this installation is characterized by insufficient cleaning efficiency and high power consumption of the oscillating mechanism drive. The purpose of the invention is to intensify the cleaning process and reduce the energy capacity of the installation. This goal is achieved by the fact that in a device for vibration cleaning of products, containing a washing chamber with a platform for products with a direction of cadmium moving, connected to a high-frequency oscillatory mechanism, and a low-frequency oscillating mechanism, the washing chamber has two apertures made on its opposite walls parallel to the platform guides and two V-shaped tubes, one end of each tube connected to the corresponding opening of the chamber, and the other end of the tube provided with a corrugated a corrugated cap, the corrugated caps being connected to the low-frequency oscillatory mechanism by means of antiphase kinematic links. In addition, the chamber-B zone of each hole is provided with an annular guide with cylindrical and conical sections, having holes in the conical section, and a hydrodynamic multi-nozzle, having from the outside cylindrical and conical sections, with the nozzles mounted in the annular guide with the possibility longitudinal movement for the periodic interaction of the conical sections of the nozzle and the annular guide. FIG. 1 shows schematically the installation for the vibration cleaning of products f in FIG. 2 -, platform with drive; in fig. 3 - washing chamber, cross section. The device for vibratory cleaning of products consists of a washing chamber 1, which communicates with symmetrically arranged V-shaped hydrodynamic pipes 2, on one side of which there are elastic corrugated caps 3, guides 4, a low-frequency oscillating mechanism 5 with kinematic links 6, and on the other hand, at the entrance to the chamber, multi-nozzle movable nozzles 7, including conical sections 8, annular guides and stops 9, openings 10 located in conical sections 11 of the mesh container 12, platform org 13 with guides 14, high-frequency mechanism 15, sealing element 16 and cover 17 with a sopun 18. The installation is filled with cleaning solution 19 and placed on the supports 20 in the foundation 21. To carry out the washing process, remove the cover 17 of the washing chamber 1 in order to For better placement of the products, the mesh container 12 is raised above the level of the washing solution 19, loaded with products and then immersed into the washing solution with the help of a lifting mechanism.

High frequency 15 and low frequency 5 oscillatory mechanisms are switched on in series, i.e. platform 13 is brought into a high-frequency oscillatory motion, and washing medium 19 is brought into a low-frequency one.

In order to intensify the cleaning of products, a combination of these oscillations occurs in mutually perpendicular planes.

In order to stabilize the washing medium 19 in the chamber 1 in terms of the level, the corrugated caps 3 are driven in antiphase, i.e. if in one V-shaped hydrodynamic tube 2 the fluid is pressed out, in the other - to be sucked.

To increase the speed of submerged jets, the installation contains a multi-nozzle movable nozzle 7 in each hydrodynamic pipe 2 at the entrance to the chamber .1. In the compression stroke, the movable nozzle 7 under the action of the pressure of the washing medium 19 will advance forward against the conical section 11 of the pipe 2, blocking the hole 10 itself located in the conical sections 11, therefore the cleaning medium will pass only through narrowed nozzles, having an output high relative speed. When the crank is reversed, under the action of discharge, the nozzle moves back and the conical section 8 of the nozzle, separated from the conical section 11 of the pipe 2, opens the holes 10 for the free flow of the cleaning solution from the chamber 1 to the hydrodynamic pipe 2.

An increase in the area of the living section for the suction process is necessary in order to reduce the resistance of the fluid when flowing from the chamber into the V-shaped hydrodynamic tube, which eliminates the additional deformation of the corrugated shells. The washing medium is squeezed out of another V-shaped guide of the odonamic pipe, having a high relative speed, will pass through the mesh container 12, clearing the product from contamination. Thus, the alternation of compression and suction strokes occurs simultaneously, contributing to the intensive cleaning of products and facilitating the operation of the low-frequency mechanism.

0 To remove compensated

water vapor serves as a breather, which connects to the steam channels discharged into the atmosphere.

During operation, the container reciprocates by means of platform 13. The platform itself moves along horizontal horizon guides 14 (on slide bearings),

0 Intensification of cleaning products,

and a reduction in energy intensity is achieved as follows.

When low-frequency and high-frequency mech5 engines are turned on, the washing medium is driven into a low-frequency oscillatory movement with a large amplitude, and the platform with products - a high-frequency oscillation with a small amplitude (i.e.

0 is performed in a fluid medium oscillating with a low frequency). Fluid oscillation is equivalent to low-frequency oscillation of the product, since their parameters are the same. but

5, the power required for the oscillation of the washing liquid is much lower compared to the prototype (oscillations in the vertical plane) and dynamic loads arise slightly due to the replacement of the vibrations of the product itself by oscillation of the washing liquid. High-frequency oscillation of products in the horizontal plane opens up all 5 new and new surfaces for cleaning with low-frequency oscillations of liquids, which also increases the cleaning efficiency.

Claims (2)

1. INSTALLATION FOR VIBRATION - CLEANING PRODUCTS, containing a washing chamber with a platform for products with guides for its movement associated with a high-frequency oscillating mechanism, and a low-frequency oscillating mechanism, characterized in that, in order to intensify the cleaning process and reduce energy consumption, a washing the chamber has two holes made on its opposite walls parallel to the platform guides, and two V-shaped pipes, one end of each pipe is connected to the corresponding hole of the chamber ry, and the other end of the pipe is equipped with a corrugated cap, and the corrugated caps are connected to the low-frequency oscillatory mechanism by means of antiphase kinematic links. to 2fl a to © 2. Installation according to π. 1, with the fact that the camera in the area of each hole is equipped with an annular guide with cylindrical and conical sections, having holes in the conical section, and a hydrodynamic multi-nozzle nozzle having a cylindrical and conical outer side sections, with the nozzles installed in the annular guide with the possibility of longitudinal movement for periodic interaction of the conical sections of the nozzle and the annular guide.