RU2497600C1 - Device for application of liquid composite on cylindrical article inner surface - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: device for application of fluid on inner surface of cylindrical articles may be used in various industries for making coatings on cylinder inner surface. Proposed device comprises feed union with cover, elastic limiting element fixed thereat and gage element spring loaded relative to feed union by rod and nut. Nut is secured with said rod by thread. Pins are fixed at nut edges. Feed union body has holes to receive free ends of the studs. Gage element is furnished with blind holes. High-pressure tube is communicated with feed union inner space to feed fluid to said device.

EFFECT: expanded range of fluid pressure adjustment, higher quality of spray.

3 dwg

Description

The technical solution relates to techniques for surface treatment of pipes, in particular to devices for applying liquid to the inner surface of cylindrical products, and can be used in various branches of engineering to create coatings on the inner surface of cylinders.

A device for coating on the inner surface of the pipe (AS USSR No. 1028381, publ. 07/15/83, bull. No. 26), which contains a nutrient fitting, sequentially fixed on it calibrating and restrictive elastic elements that form a cavity between themselves, communicating with the internal channel of the nutrient fitting through openings made in it between the areas of fastening elements. The calibrating element is made hollow of an elastic material with a blind end and is in communication with the internal channel of the nutrient fitting, and the elastic limiting element is made in the form of a sleeve adjacent the free end to the calibrating element.

As a prototype, a device for applying liquid to the inner surface of cylindrical products was selected (patent for invention RU No. 2192930, publ. November 20, 2002), which contains a nutrient fitting, calibrating and elastic restrictive elements sequentially fixed on it, forming a cavity communicating with each other the internal channel of the nutrient fitting through the holes made in it between the areas of fastening elements, and the elastic element is made in the form of a sleeve adjacent the free end to the calibrating ele entu. In this device, the calibrating element is made rigid, for example, from metal, in the form of a mandrel, the apex of which is fixed in the lower part of the feeding nozzle, and centering rollers are installed on the outer surface of the feeding nozzle at an angle of 120 ° from each other relative to the axis of symmetry of the device.

The disadvantages of the analogue and prototype include the fact that they lack a mechanism (and hence the possibility) of regulating the force of action of the calibrating element on the restrictive element. This significantly reduces the range of pressure regulation of the sprayed liquid. With increasing fluid pressure, there comes a time when the gap between the gauge and restrictive elements increases so that the quality of the liquid spray cannot meet the requirements. When applying liquid to the inner surface of cylinders of small diameter, for example, cases of hydraulic cylinders, it is envisaged to use various materials with a wide variety of their physicomechanical properties. Due to the inability to control the force exerted by the calibrating element on the restrictive element, the range of pressure control of the sprayed liquid of the prototype is limited and it is not able to provide the necessary spray quality of the applied material for these conditions.

The technical task of the proposed device is to create the ability to control the efforts of the calibrating element on the restrictive element and thereby expand the range of pressure regulation of the applied liquid composite material, as well as improving the quality of its spray.

The problem is solved due to the fact that in the device for applying a liquid composite material on the inner surface of cylindrical products containing a feeding fitting, rigid calibrating and elastic restrictive elements are successively fixed on it, forming a cavity between themselves, communicating with the inner channel of the feeding fitting through openings made in it between the areas of fixing the elements, and the elastic element is made in the form of a sleeve adjacent the free end to the calibrating element the tape, the following differences are provided: the calibrating element is equipped with a rod with a nut on the free end; by means of a rod with a nut, the calibrating element, by means of a compression spring, is spring-loaded with respect to the supply fitting towards the restrictive element; the nut is equipped with pins fixedly installed on its periphery, the free ends of which are placed in the holes of the nutrient fitting.

There is a causal relationship between the set of essential features of the claimed object and the achieved technical result, namely, due to the fact that the calibrating element is equipped with a rod with a nut at the free end, by means of which, with the help of a compression spring, it is spring-loaded relative to the feed choke towards the restrictive element, and due to the fact that the nut is equipped with pins fixedly installed on its periphery, the free ends of which are placed in the holes of the nutrient fitting, it is possible the ability to control the force exerted by the calibrating element on the restrictive element, which allowed to expand the range of pressure regulation of the applied liquid and to improve the quality of its spray.

The technical nature of the proposed technical solution is illustrated by drawings, in which:

figure 1 - General view of the device, a longitudinal section,

figure 2 - section aa PA figure 1,

figure 3 - view a in figure 1.

The proposed device for applying a liquid composite material to the inner surface of cylindrical products consists of a nutrient fitting 1 with a cover 2, a flexible limiting element 3 fixedly mounted on it and a calibrating element 4, spring-loaded relative to the nutrient fitting 1 using a spring 5 by means of a rod 6 and nut 7. The nut 7 is associated with the rod 6 by means of a thread. The pins 8 and 9 are fixedly mounted on the periphery of the nut. The housing of the supply fitting 1 is provided with holes 10 and 11, in which the free ends of the pins 8 and 9 are placed. The calibrating element 4 is provided with blind holes 12 and 13. The high-pressure pipe 14 communicates with the cavity of the supply connector 1 and serves to supply the applied fluid to the device. In addition, by means of tube 14, the device is connected to a feed mechanism (not shown) along the axis of the pipe being processed. During operation, the device is placed in the processed pipe 15.

The technical solution described above, a device for applying a liquid composite material to the inner surface of cylindrical products, is as follows.

In accordance with the applied liquid composite material, the rotation of the calibration element 4, using the pin key, through the holes 12 and 13, set the required compression value of the spring 5 (determined empirically). When the calibration element 4 is rotated, the rotation of the nut 7 is limited by pins 8 and 9, the free ends of which come into contact with the edges of the holes 10 and 11. Due to the forced movement of the nut 7 along the axis of the stem 6, the length of the spring 5 and, therefore, the force its impact through the rod 6 and the calibration element 4 on the restrictive element 3. After setting the desired mode of the spring 5 through the tube 14 pump the coating material. This creates excess pressure, causing deformation of the spring 5, as a result of which a gap is formed in the contact zone of the restrictive 3 and calibrating 4 elements, through which the coating material is sprayed. At the same time, the feed mechanism of the device along the axis of the pipe is activated. The sprayed material settles on the inner surface of the processed cylindrical product.

Feasibility study: in the proposed device, it is possible to control the force exerted by the calibrating element on the restrictive element, and thereby expand the range of pressure regulation of the applied liquid composite material and improve the quality of its spray.

Claims (1)

A device for applying a liquid composite material to the inner surface of cylindrical products, containing a nutrient fitting, rigidly calibrating and elastic restrictive elements sequentially fixed on it, forming a cavity between themselves, communicating with the internal channel of the nutrient fitting through openings made in it between the element fixing sections, and the elastic element is made in the form of a sleeve adjacent the free end to the calibrating element, characterized in that the calibrating element equipped with a rod with a nut at the free end, by means of which, with the help of a compression spring, it is spring-loaded relative to the nut in the direction of the restrictive element, and the nut is equipped with pins fixed at its periphery, the free ends of which are placed in the holes of the nut.

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