RU2600520C1 - Device for checking of anticorrosion coating abrasion resistance - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building and can be used for checking anticorrosion coatings for abrasion resistance, for example for aspiration pipelines. Device includes housing, drive, loading device, tested samples and abrasion element, drum, wherein loading device is laboratory mill for construction materials grinding, in grinding zone of which tested samples in form of metal plates with anti-corrosion coating applied thereon are arranged on suspension, and abrasive element is quartz sand, located in grinding zone. Drum inner part has quartz sand sprayers in form of ribs, which pass through grinding zone. Cam type vibrator is connected to suspension and it is connected to housing with elastic element in form of spring.

EFFECT: higher reliability of abrasive element impact on tested samples.

1 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used to check the resistance of anti-corrosion coatings to abrasion, for example, for suction pipelines.

A device for checking materials for abrasion, comprising a housing, a drive, a loading device, test samples and an abrasion element, a drum (copyright certificate SU No. 151086, publ. 10.25.1962).

However, a disadvantage of the known device is the low reliability of the effect of the abrasive element on the test samples, since the test samples rotate together with the abrasion element (granular material).

The closest in technical essence and the achieved result is a device for checking the resistance of anti-corrosion coatings to abrasion, containing a housing, a drive, a loading device, test samples and an abrasive element, a drum, while a laboratory mill for grinding building materials is used as a loading device in the zone grinding of which the test samples are located on the suspension in the form of metal plates with an anti-corrosion coating applied to them, and as an abrasive element They use quartz sand located in the grinding zone, while the inner part of the drum has quartz sand sprayers in the form of ribs that pass through the grinding zone (RF Patent for Utility Model No. 153281, G01N 3/56, published July 10, 2015).

The disadvantage of this device is the low reliability of the impact of the abrasive element on the test samples.

The problem to which the invention is directed, is to increase the reliability of the effect of the abrasive element on the test samples.

The technical result achieved by the implementation of the claimed utility model coincides with the technical task.

The solution to this problem is achieved by the fact that in the proposed device for checking the resistance of anti-corrosion coatings to abrasion, comprising a housing, a drive, a loading device, test samples and an abrasive element, a drum, using a laboratory mill for grinding building materials as a loading device in the grinding zone which on the suspension are the test samples in the form of metal plates coated with an anti-corrosion coating, and as an abrasive element Artsev sand disposed in the grinding zone, the inner portion of the drum has a quartz sand dispensers in the form of ribs, which extend through the grinding zone, according to the invention is attached to the suspension of the cam type vibrator and it is connected with the housing an elastic element in the form of a spring.

The connection of the suspension with a cam type vibrator and its connection with the housing by an elastic element in the form of a spring provides a reliable uniform effect of the abrasive element on the test samples.

The invention is illustrated in the drawing, which shows a part of a General view of the device.

A device for checking the resistance of anti-corrosion coatings to abrasion, comprising a housing 1, a drive 2, a loading device, an abrasive element and a drum 3. As a loading device, a laboratory mill (of a known construction) is used for grinding building materials, in the grinding zone 4 of which are located on the suspension 5 the test samples in the form of metal plates 6 with an anti-corrosion coating applied to them, and quartz sand located in the grinding zone is used as an abrasion element. The inner part of the drum 3 has quartz sand sprays in the form of ribs 7, which pass through the grinding zone 4. A cam type vibrator 8 is attached to the suspension 5, which has a drive located behind the housing 1. The vibrator operation mode is established experimentally. The suspension 5 is connected with the housing 1 by an elastic element in the form of a spring 9, which provides constant contact of the suspension 5 with the vibrator 8.

A device for checking the resistance of anti-corrosion coatings to abrasion works as follows.

In a converted laboratory mill on a suspension 5 using metal wires placed metal plates 6 with a corrosion-resistant coating applied to them. Then include a laboratory mill and quartz sand produces an abrasive effect on the anti-corrosion coating. Due to the fact that the inner part of the drum has quartz sand sprays in the form of ribs 7 that pass through the grinding zone, there is a more intense effect of quartz sand on metal plates 6 with a corrosion-resistant coating due to the pouring of quartz sand onto metal plates 6 with a drum rotation speed 3. In addition, the cam-type vibrator 8 attached to the suspension 5 provides uniform distribution of quartz sand over the surface of the plates 6 by vigorous shaking. The elastic element in the form of a spring 9 ensures the operability of the vibrator 8 by creating a constant contact of the suspension 5 with the vibrator 8.

This increases the reliability of the effect of abrasive material on the test samples.

Before testing, silica sand with a concentration of 2000-3000 g / m ^{3 is} loaded into a laboratory mill. The rotation speed is kept constant throughout the entire test cycle, and its value is determined experimentally. The quantitative wear of the tested samples with an anti-corrosion coating is determined by the weighing method according to the known method, which increases the reliability of the test results.

Thus, the proposed device is reliable in operation due to the uniformity and reliability of the impact of the abrasive element on the test samples.

Claims (1)

A device for checking the resistance of anti-corrosion coatings to abrasion, comprising a housing, a drive, a loading device, test samples and an abrasive element, a drum, while a laboratory mill for grinding building materials is used as a loading device, in the grinding zone of which test samples are located on the suspension in the form metal plates coated with an anti-corrosion coating, and quartz sand located in the grinding zone is used as an abrasive element, while nnyaya drum part has nebulizers silica sand in the form of ribs, which extend through the grinding zone, characterized in that the suspension is attached to the cam-type vibrator and it is connected with the housing an elastic element in the form of a spring.

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