RU188160U1 - Device for applying a polymer coating to the inner surface of heat transfer tubes - Google Patents

Abstract

The invention relates to the field of corrosion protection and, in particular, to the repair technique of heat exchangers for heat exchangers. The technical result of the invention is the expansion of functionality that allows the device to work with light-curing compounds applied to the inner surface of heat transfer tubes. The device contains a means for translational movement polymer material, including a metal rod 1 and supporting washers 2, 3 and 4 attached to it. Elastic screw 5 captured on the rod 1 and is equipped with supporting washers 6 and 7. To the screw 5 with the help of the sleeve 8 and the clamping screw 9 is attached a source of 10 UV radiation with an autonomous power supply unit 11. At the end of the rod 5 is fixed a flexible cable 13, designed to interface with the drive, providing translational-rotational movement of the device in the heat exchange tube 14. 1 ill.

Description

Technical field

The utility model relates to the field of corrosion protection and, in particular, to the technique of restoration repair of heat exchangers of heaters.

State of the art

A device for applying a polymer coating on the inner surface of the heat exchanger tubes of the heaters, comprising means for translational movement of the polymer material, made in the form of a metal rod with support washers, an elastic screw, made with the possibility of translational-rotational movement, and a cable mounted on the end of the metal rod [ RU 2182233].

This device is selected as a prototype.

The disadvantage of the prototype is the limited functionality that does not allow the use of a device for coating based on rapidly cured by ultraviolet radiation (light-cured) polymer compounds. Due to this drawback (the inability to use light-curing compounds), the curing time of the coatings applied by the prototype is at least 1.5 days at a temperature of 20-25 ° C or 1-2 hours at a temperature of 50-100 ° C.

Utility Model Essence

The technical result of the utility model is the expansion of functionality that allows the device to work with light-cured compounds applied to the inner surface of the heat exchange tubes.

The subject of a utility model is a device for applying a polymer coating to the inner surface of heat exchanging tubes of heaters, comprising means for translational movement of polymer material made in the form of a metal rod with support washers, an elastic screw made with the possibility of translational-rotational movement, and a cable at the end of the metal rod characterized in that an ultraviolet radiation source is introduced with an autonomous power supply unit attached to an elastic auger.

This allows you to get the above technical result.

Utility Model Implementation

The figure shows a drawing of the proposed device located inside the heat exchange tube 14.

The means for translational movement of the polymeric material includes a metal rod 1 and supporting washers 2, 3, and 4 fixed thereon. An elastic screw 5 is mounted on the rod 1 and provided with supporting washers 6 and 7. A source is attached to the screw 5 using a sleeve 8 and a clamping screw 9 10 ultraviolet (UV) radiation, equipped with a block 11 of an autonomous power supply.

The source 10 is made in the form of an extended UV emitter supported by a support washer 12. Block 11 can be made on the basis of the battery.

Washers can be made of metals or of polymeric materials, for example fluoroplastic, i.e. from materials with a low coefficient of friction on the inner surface of the heat transfer tube. The screw 5 is made of elastic rubber.

At the end of the rod 1 is fixed a flexible cable 13, designed to interface with the drive, providing translational-rotational movement of the device in the heat transfer tube 14.

To assemble the device, the cable 13 is pulled through the heat exchange tube 14 and attached to the end of the rod 1 at the outlet. Then the assembled device is pulled by the cable 13 into the tube 14. After the washer 3 enters the tube 14, a loading chamber 15 begins to form, into which until the inlet of the tube 14 of the washer 2 is loaded (for example, using a funnel) light-cured polymer compound. When the device is further pulled into the tube 14, it includes a screw 5 with washers 6, 7 and a UV radiation source 10 with a block 11 and a washer 12. Next, a drive is turned on with which the device is advanced through the entire tube 14.

In the process of moving the device through the tube 14, the polymer compound loaded into the chamber 15 between the washers 2 and 3 is moved along the tube 14 and pre-distributed on its inner surface. Part of the loaded compound through the gaps around the washers 2 and 7 enters the elastic screw 5, which, rotating, evenly distributes the polymer material on the inner surface of the tube 14, while ensuring the filling of corrosion ulcers and through defects.

Following the screw 5, the source 10 moves in the tube 14. Under the influence of its UV radiation, the light-curing coating compound deposited by the screw 5 is cured directly during the movement of the device along the tube 14 (at a speed of 1-2 m / min) and is firmly fixed on its inner surface. The required duration of the UV illumination of the compound is set by the length of the extended source 10 and the speed of the translational movement of the device.

As a light-curing compound, for example, domestic polymer materials based on AKROKOR UV, manufactured according to TU 2316-019-50003914-2012, or UV-cured resins manufactured by Synthopol Chemie (Germany) can be used.

Thus, the introduction of an ultraviolet radiation source with an autonomous power supply unit attached to an elastic screw has expanded the functionality of the inventive device, supplementing them with the possibility of accelerated coating formation on the inner surfaces of heat transfer tubes using UV-cured compounds.

Claims (1)

A device for applying a polymer coating on the inner surface of the heat exchanger tubes of the heaters, comprising means for translational movement of the polymer material made in the form of a metal rod with support washers, an elastic screw made with the possibility of translational-rotational movement, and a cable at the end of the metal rod, characterized in that an ultraviolet radiation source with an autonomous power supply unit attached to an elastic screw is introduced.

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