RU174834U1 - INSTALLATION FOR TESTING THE WEAR RESISTANCE OF FISHING FILM THREAD MATERIALS - Google Patents

Abstract

The utility model relates to devices for testing and evaluating the wear resistance of filamentary materials from which fishing trawls are made, and can be used in the production and evaluation of filamentary materials used both in fishing and in other industries. The installation comprises a housing, a drive, a movable platform mounted on the housing with the possibility of reciprocating movement horizontally, a device for wetting the studied threads, as well as devices for fixing the threads. The unit is additionally equipped with a counter of completed cycles, limit switches, start and emergency stop buttons, the upper surface of the moving platform is equipped with replaceable abrasive strips. A device for wetting the test thread is made in the form of a dropper mounted above the upper surface of the platforms. EFFECT: creation of a universal installation for obtaining reliable data on the abrasive wear resistance of fishing thread-like materials (for obtaining additional physical and mechanical parameters). 1 s.p. f-ly, 2 ill.

Description

The technical solution relates to devices for testing and evaluating the wear resistance of filamentary materials from which fishing trawls are made, and can be used in the production and evaluation of filamentary materials used both in fishing and in other industries.

The well-known "Stand for testing steel cargo ropes for endurance", patent of the Russian Federation for IZ No. 2440564, IPC G01N 3/56, decl. 08/31/2010, publ. 01/20/2012. The invention relates to devices for testing cargo steel ropes of a wide range of diameters for endurance and contains a bed, a drive, a reversible gearbox, a replaceable drum with a screw thread, a carriage with a replaceable pulley, a slider with guides, a hydraulic cylinder, a power and control unit equipped with a microprocessor. The tests are resource studies, during which steel ropes are subjected to the main type of loading: bending by 90 ° and extension of the sample. This type of loading serves as the only basis for determining and calculating the resource of a steel rope.

The disadvantages of this setup should, in our opinion, include the fact that such a parameter as a 90 ° bend with subsequent extension of the sample is not suitable for our purposes. We are interested in wear resistance, that is, the loss of strength of filamentous fishing materials during operation. At the same time, the bulkiness and increased metal consumption of the installation should be noted.

Also known is the "Method for the rapid study of the wear resistance of materials of conductive parts when wearing with a sliding thread and a device for its implementation", RF patent for IZ No. 2247356, IPC G01N 3/56, decl. 05/26/2005, publ. 02/27/2005.

A device for implementing the method comprises: a drive consisting of an electric motor, gearbox and crank mechanism, a base, racks for fixing threads, a movable platform (carriage) reciprocating, a device for wetting the test thread, made in the form of a bath with oil -abrasive solution, thread conductor mounted on a rack so that its lower part is placed in the bath. The thread conductor (thread-conducting part) is a metal part (for example, a needle) in contact with the threads, and essentially determine the degree of wear of this part, not the threads. In order to quickly determine the wear of the thread-conducting part with which the thread is in contact, the latter (thread) is saturated with an oil-abrasive solution and loaded with a weight of 0.5-1 kg.

This device is quite simple in design and can, in our opinion, serve as a prototype of the claimed installation.

The disadvantages of the known device include, in our opinion, the following: firstly, it is designed to study the wear resistance of thread-conducting parts, not the threads themselves, and secondly, the design provides for the presence of a bath with an oil-abrasive solution (a device for wetting the thread), which leads to an increase in the dimensions of the device, thirdly, both the design itself and the test conditions are far from real.

The authors of the new technical solution set themselves a different task: to create a universal installation for obtaining reliable data on the abrasion resistance of threadlike materials from which fishing trawls and nets are made, while creating conditions close to real ones. It should be taken into account that abrasive wear is the most significant factor in the loss of strength of fishing textile materials during their operation. In our case, abrasive wear means the gradual destruction of textile fishing materials, namely: ropes, ropes, cords, etc. due to their friction with other harder materials, resulting in multiple fiber breaks and, as a result, a significant loss of strength and tearing of the product.

The fact is that fishing trawls for various types of fishing vessels are up to 700 meters long and have a rather high cost: from 1 to 1.5 million rubles. Fishing gear (trawls) during operation are subject to interaction with the soil, the surfaces of the working bodies of fishing machines, rolls, guiding devices, which leads to significant wear and destruction. That is why the filamentary materials from which the trawls are made must have high wear resistance.

The purpose of the new technical solution is to create a universal installation for obtaining reliable data on the abrasive wear resistance of fishing thread-like materials (to obtain additional physical and mechanical parameters), to create a portable installation, the design of which provides the ability to simulate the abrasive friction process when moving fishing gears on the surface of slipways, rolls and working bodies of fishing machines. The associated goal is to increase reliability in work.

This goal is achieved by the fact that the installation is additionally equipped with a counter of completed cycles, limit switches, start and emergency stop buttons, the upper surface of the movable platform is equipped with replaceable abrasive strips, and the device for wetting the test thread is made in the form of a dropper mounted above the upper surface of the platform. The shape of the upper surface of the movable platform corresponds to the shape of the slips of most fishing vessels.

The presence of a counter of completed cycles is necessary to obtain reliable data on the wear resistance of each of the filamentary samples, in the case of complete wear of each of which the installation stops, and then the numerical value of the working surface movement cycles is taken. This value is an indicator of abrasion resistance. The presence of limit switches allows you to track the moment of complete wear of each of the filamentary samples, since in the event of their destruction, the circuit is opened and the movement stops.

The implementation of the upper surface of the movable platform in the form corresponding to the slip form of most fishing vessels, and equipping it with removable abrasive strips can also significantly increase the reliability of the readings, as well as the implementation of the device for wetting the studied threads in the form of a dropper that simulates splashes of sea water during operation .

The presence of the start and emergency stop buttons improves the reliability of the installation in operation.

The essence of the technical solution is presented in the drawings, where:

in FIG. 1 schematically depicts the inventive installation;

in FIG. 2 shows a photograph of the installation.

The installation includes: a housing 1, a drive including an electric motor 2, a gearbox 3, a flywheel with a crank mechanism 4, a guide lever 5, a movable platform (carriage) 6, which performs a horizontal reciprocating movement, on the upper surface of which removable abrasive strips are mounted 7. The installation also contains a counter 8 completed cycles, limit switches 9, a control panel 10 with start and emergency stop buttons, the studied threads 11, with weights 12, and also a device 13 for wetting the threads with salt water, Thoroe designed as a dropper 14 installed above the upper surface of the movable platform 6.

Replaceable abrasive strips 7 have different roughness in the range from 100 to 320 microns, which corresponds to the roughness of the slips of fishing vessels to recreate the actual working conditions of fishing gear. The shape of the upper surface of the movable platform 6 corresponds to the slip form of most fishing vessels, which allows you to simulate the descent and lifting of the trawl along the slip of the vessel. In addition, before testing the filamentary fishing materials to increase the reliability, the samples of the threads are soaked in salt water.

Counting the number of completed cycles is carried out by means of a counter 8 cycles; in order to reduce the time of experimental studies, the housing 1 of the installation is equipped with additional fasteners 15 with four limit switches 9, which allows the study of four filamentary samples simultaneously; in this case, in the case of complete wear of one of the samples, the installation stops, which allows fixing this fact.

The installation is as follows.

First, the selection and preparation of the filamentary test samples (from one to five) is carried out. Filamentous samples are fixed on the racks of the housing 1 by means of special fasteners 15 with hooks and limit switches 9. Preload (load) is applied to the second end of each sample, the value of which depends on the linear density of the sample. After preparing the filamentary samples, the surface of the movable surface (carriage) 6 is prepared, which consists in gluing abrasive strips 7 with a different degree of roughness onto it. The process of friction of thread-like samples 11 on the surface of strips 7 occurs similarly to the processes of friction when lifting and lowering fishing gears along a slip. In the case of complete wear of one of the samples, the installation stops, after which the numerical value of the cycles of movement of the working surface is taken. This value is an indicator of abrasion resistance. Then the installation is turned on, and the process of friction of the remaining samples continues until the destruction of the next sample.

With the help of this installation, it is possible to test both new filamentous materials and materials that were previously in operation as part of fishing tools.

Claims (2)

1. Installation for testing the wear resistance of fishing filamentary materials, comprising a housing, a drive, a movable platform mounted on the housing with the possibility of reciprocating movement horizontally, a device for wetting the studied threads, as well as devices for attaching threads, characterized in that the installation is additionally equipped counter of completed cycles, limit switches, start and emergency stop buttons, the upper surface of the moving platform is equipped with interchangeable abrasive polishes themselves, and the device for wetting the test thread is made in the form of a dropper mounted above the upper surface of the platform. 2. Installation according to claim 1, characterized in that the shape of the upper surface of the movable platform corresponds to the shape of the slips of most fishing vessels.

Images