RU2008986C1 - Long-size article cleaning plant - Google Patents

Abstract

FIELD: cleaning equipment. SUBSTANCE: plant has a working chamber, a system for feeding a working agent to the article, the system has nozzles. Hollow cylinders are coaxially fixed by hollow supports. The cavity of one of the cylinders on one end communicates with the hollow support. The support is made with circumferential holes on its side surface to which a working agent feed pipeline is adjacent by a movable joint. The inner diameter of the pipeline exceeds the distance between the peripheries of adjacent holes on the hollow support. The cavity of one of the cylinders on the other end communicates with the cavity of another cylinder by pipelines, each of a pipeline pair has nozzles. The nozzles are positioned on the end surface of the cylinders at an angle to its axis and are displaced one relative to another along the axis of rotation. EFFECT: improved structure. 3 dwg

Description

 The invention relates to the cleaning of long products, such as wire, rods, etc., from technological pollution and can be used in various industries.

 A known installation for cleaning long products containing a bath, placed in it collectors and mounted above them reflectors of jets of washing liquid.

 The known installation is cumbersome and does not provide sufficient cleaning quality.

 Also known installation for cleaning products containing a working chamber, a system for supplying a working agent to a part having nozzle nozzles. The known installation also does not provide sufficient cleaning quality.

 The aim of the invention is to improve the cleaning quality of long products. This goal is achieved in that the installation containing the working chamber, the system for supplying the working agent to the product having nozzle nozzles, is provided with hollow cylinders coaxially and rigidly mounted by means of hollow supports, the cavity of one of which is connected from one end to the hollow support made with holes through the circumference of its lateral surface, which is adjacent by means of a movable connection, the supply line of the working agent, the inner diameter of which exceeds the distance between the peripheries of adjacent holes by the support, and from the other end it communicates with the cavity of the other cylinder through pipelines, each pair of which is equipped with nozzles directed in the opposite direction and parallel to the nozzles of the diametrically located pipeline, and nozzle nozzles for supplying the working agent to the product are placed on the end surfaces of the cylinders inclined to the axis and offset relative to each other along their axis of rotation.

 A comparative analysis of the proposed technical solution with the prototype shows that the claimed installation differs from the known one in that it is equipped with hollow cylinders coaxially and rigidly mounted by means of hollow supports, the cavity of one of which communicates from one end with a hollow support made with holes around the circumference of its side surface adjacent to which, by means of a movable connection, is a supply line for a working agent, the inner diameter of which exceeds the distance between the peripheries of adjacent holes hollow support, and from the other end communicates with the cavity of the other cylinder through pipelines, each pair of which is equipped with nozzles directed in the opposite direction and parallel to the nozzles of the diametrically located pipeline, and nozzle nozzles for supplying the working agent to the product are placed on the end surfaces of the cylinders inclined to the axis and offset relative to each other along their axis of rotation.

 This embodiment of the installation provides surface treatment of a long product rotating around it and inclined to it by the jets of the working agent without using a rotation drive. This provides multiple impacts on the surface of the moving product portions of the working agent emerging from nozzle nozzles displaced along the axis of rotation, which enhances the destructive effect of the jets, and also helps to clean the nozzle holes from contamination.

 Thus, the claimed technical solution meets the criteria of the invention of "Novelty."

 Comparison of the proposed solution with other technical solutions in this technical field did not allow us to identify in them the features that distinguish the claimed technical solution from the prototype, which allows us to conclude that the criterion of "Significant differences".

 In FIG. 1 shows a general view of the installation; in FIG. 2 is a view AA in FIG. 1; in FIG. 3 is a view of BB in FIG. 1.

 The installation contains a working chamber 1 of a cylindrical shape. The hollow supports 2 and 3 are mounted coaxially and rotatably at the ends of the chamber. The hollow cylinder 4 is rigidly mounted on the hollow support 2, the cavity of which is connected to the cavity of the hollow support 2 from one end and is connected to the cavity of the cylinder 5 through pipelines 6 from the other end. Cylinder 5 rigidly fixed to the hollow support 3 using brackets 7. The hollow support 2 is made with holes 8 around the circumference of its lateral surface, which adjoins by means of a radially detachable movable joint 9, the working agent supply pipe 10, internal whose diameter exceeds the distance between the peripheries of adjacent holes 8. Each of the pair of pipelines 6 is equipped with nozzles 11 directed in the opposite direction and parallel to the nozzles of the diametrically opposite pipeline. The hollow cylinders 4 and 5 are equipped with nozzle nozzles 12 for supplying the working agent to the surface of the workpiece 13, mounted on their end surfaces obliquely to the axis and offset relative to each other along their axis of rotation in the direction of movement of the product 13, and gaskets 14 made with axial holes for product 13. Hollow supports 2 and 3 are equipped with oil seals 15 with axial holes for the product 13. The chamber 1 is equipped with nozzles 16 for removal of the spent working agent.

 Installation works as follows.

 The working agent, for example, the steam-water mixture is fed through a pipeline 10, which through the openings 8 of the hollow support 2 enters the cavity of the cylinder 4, from where it is distributed through the pipelines 6 to the nozzles 11 and the cavity of the cylinder 5, and from the cavities of both cylinders to the nozzle nozzles 12. Under the influence of the working agent emerging from the nozzles 11, rotational movement is given to the hollow cylinders 4 and 5. The hollow support 2, turning, periodically partially blocks the working agent supply pipe 10 by surfaces between the peripheries of adjacent openings s 8 that ensures the formation of discontinuous jets of working fluid causes the hydraulic shock in the conduit and is accompanied by a pulsed pressure increases. As a result of water hammer, the working agent leaves nozzle nozzles 12 with increased impact force. The repeated impact of the portions of the working agent emerging from the nozzle nozzles 12 displaced relative to one another causes vibration of the product 13, which is moved through the axial holes of the glands 15 of the hollow supports 2 and 3 and the glands 14 of the hollow cylinders 4 and 5, enhances the destructive effect of the working agent jets, and also self-cleaning nozzle holes 12 from contamination. The spent working agent is discharged through the nozzles 15.

 The proposed installation provides improved quality and productivity of cleaning the surface of long products from technological and other contaminants due to the impact of the jets of the working agent, offset from each other and rotating around the vibrated product without using a rotation drive. (56) Copyright certificate of the USSR N 1276379, cl. B 08 B 3/02, 1984.

Claims (1)

 INSTALLATION FOR CLEANING LONG-LINE PRODUCTS, containing a working chamber, a system for supplying a working agent to a product having nozzle nozzles, characterized in that it is provided with hollow cylinders coaxially and rigidly installed by means of hollow supports, the cavity of one of which communicates from one end with a hollow support made with holes around the circumference of its lateral surface, which adjoins by means of a movable connection the working agent supply pipe, the inner diameter of which exceeds the distance between the periphery adjacent holes on the hollow support, and from the other end communicates with the cavity of the other cylinder through pipelines, each pair of which is equipped with nozzles directed in the opposite direction and parallel to the nozzles of the diametrically located pipeline, and nozzle nozzles for supplying the working agent to the product are placed obliquely on the end surfaces of the cylinders to the axis and are offset one relative to the other along their axis of rotation.

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