RU180204U1 - Installation for conducting hydrodynamic tests in the experimental pool - Google Patents

Abstract

The utility model relates to shipbuilding, in particular, to the design of facilities for nautical testing of self-propelled ship models, vessel elements, industrial fishing techniques and underwater equipment in the experimental pool. The unit for conducting hydrodynamic tests in the experimental pool is mounted on a self-propelled cart 1 (Fig. 1), which carries out movement on rails 2 above the test pool 3 and has in its design a rod 4 fixed in the bearing 5, with the tested model 6 fixed on one of its ends, and on the other the dynamometer 7, which is connected to the rod 8. In the embodiment No. 1, the rod 4, the dynamometer 7 and the rod 8 are fixed perpendicular to the direction of movement of the trolley (Fig. 1). In the embodiment No. 2, the rod 4, the dynamometer 7 and the rod 8 are fixed in the direction the movement of the trolley (Fig. 2). In the embodiment No. 3, the hinge 9 is mounted on the rod 4, to which the tested model 6 is attached with the gyroscope 10 installed (Fig. 3).

Description

The utility model relates to shipbuilding, in particular, to the design of facilities for nautical testing of self-propelled ship models, ship components, industrial fishing techniques and underwater equipment in the test basin.

At the current level of technical development, patent No. 243420 is known, where an installation for seaworthy testing of a model of a vessel in an experimental pool, in which the model is attached to a towing carriage, and the latter moves in guides in various modes

Also known patent No. 311805, where the installation for testing a self-propelled model of a vessel in an experimental pool contains a towing trolley, a gimbal that carries the model of the vessel, while the towing trolley is equipped with a software device, longitudinal and lateral stabilization mechanisms of the model, as well as speed, displacement and course sensors models.

The disadvantages of these designs of the installation for testing in the experimental pool is that they are not able to determine the hydrodynamic forces on models of industrial fishing techniques, such as spreader trawl boards, trawls and net webs, they do not allow to determine the hydrodynamic forces on models of underwater equipment, they are complex and not reliable design and low measurement accuracy.

The closest technical solution is patent No. 553514, where the installation for testing a self-propelled model of a vessel in an experimental pool contains a towing trolley, a gimbal that carries the model of the vessel, while the towing trolley is equipped with a software device, longitudinal and lateral stabilization mechanisms of the model, as well as speed sensors moving and heading model

However, the disadvantages of this design of the installation for testing in the experimental pool is also that it is not able to determine the hydrodynamic forces on models of industrial fishing techniques, such as spreader trawls, trawls and net webs, it does not allow to determine the hydrodynamic forces on models of underwater equipment, it is complex not a reliable design and low measurement accuracy.

The technical task of the claimed utility model is expressed in creating the design of a test facility in a test pool, capable of determining hydrodynamic forces on models of industrial fishing techniques, such as spreader trawl boards, trawls and net webs, as well as determining hydrodynamic forces on models of underwater equipment that is simple, reliability and high accuracy of measurement.

Installation for conducting hydrodynamic tests in the experimental pool is mounted on a self-propelled trolley 1 (Fig. 1), which carries out movement on rails 2 above the experimental pool 3, and has in its design a rod 4, mounted in the bearing 5, attached to one of its ends test model 6, and at the other end with a dynamometer 7, which is connected to the rod 8.

In the embodiment No. 1, the rod 4, the dynamometer 7 and the rod 8 are fixed perpendicular to the direction of movement of the trolley (Fig. 1).

In the embodiment No. 2, the rod 4, the dynamometer 7 and the rod 8 are fixed in the direction of movement of the trolley (Fig. 2).

In the embodiment No. 3, the hinge 9 is mounted on the rod 4, to which the tested model 6 is mounted with the gyroscope 10 installed (Fig. 3).

The principle of operation of the device is that when the trolley 1 moves along rails 2 above the test pool 3, it moves the installation mounted on it for conducting hydrodynamic tests with the test model 6 installed on it through the rod 4. The rod 4 is mounted on the bearing 5, thus that its mass is balanced and does not affect the accuracy of the experiment. In the embodiment No. 1 (Fig. 1), a dynamometer 7 is attached to the rod 4, connected to the rod 8 in such a way that they are perpendicular to the direction of movement of the trolley, which makes it possible to record the magnitude of the hydrodynamic force arising on model 6 in the perpendicular direction of its movement. In the embodiment No. 2 (Fig. 2), the rod 4, the dynamometer 7 and the rod 8 are fixed in the plane in the direction of movement of the trolley, which makes it possible to determine the drag of the tested model 6. In the embodiment No. 3 (Fig. 3), a hinge is mounted on the rod 4 9, to which the test model 6 is mounted with a gyroscope 10 installed, which allows you to determine the spatial position of the test model 6.

The installation for conducting hydrodynamic tests in the experimental pool is notable for its simplicity and reliability of design, as well as high accuracy of measurements; it allows conducting experiments both with models of vessels and their elements, and with models of industrial fishing techniques, such as models of spreader trawl boards, models of trawl and models net paintings, as well as underwater equipment models.

Claims (4)

1. Installation for conducting hydrodynamic tests in the experimental pool, characterized in that it contains a self-propelled cart (1), which carries out movement on rails (2) above the experimental pool (3) and has in its design a rod (4), mounted in a bearing ( 5), with the tested model (6) fixed on one of its ends, and on the other end by a dynamometer (7), which is connected to the rod (8). 2. Installation for conducting hydrodynamic tests in the experimental pool according to claim 1, characterized in that the rod (4), dynamometer (7) and rod (8) are fixed perpendicular to the direction of movement of the truck (1). 3. Installation for conducting hydrodynamic tests in the experimental pool according to claim 1, characterized in that the rod (4), dynamometer (7) and rod (8) are fixed in the direction of movement of the truck (1). 4. Installation for conducting hydrodynamic tests in an experimental pool according to claim 1, characterized in that a hinge (9) is mounted on the rod (4), to which the tested model (6) is mounted with a gyroscope (10) installed.

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