SU217222A1 - ICE CREW WITH VIBRATION - Google Patents

Description

Icebreaking vessels are known, in the extremities of which vibro-installations are placed, communicating oscillatory motion to hull-structure elements that destroy ice.

The proposed vessel is characterized in that its vibration installation is made in the form of a power cylinder with a freely moving mass, which, when reciprocating, creates inertial forces that excite oscillatory movements of a part of the cornea, and dynamic impacts transmitted through the bottom of the hull to the ice edge.

A vessel with such an installation has a high permeability in the ice due to the simultaneous swaying of the ice tulle caused by the vibration of the installation and the dynamic impact of hull elements on it as a result of mass impacts, the installation itself has less weight and size than the known ones.

The part of the bottom, through which inertial forces and dynamic shocks are transmitted, is advisable to be performed with reinforced elements that match the stem and are the foundation of the installation, which increases the local strength of the vessel. A variable-capacity hydraulic pump can be used as a source of energy for driving the mass (plunger), and a remote-controlled distributor in the form of a rotating spool with a rocking sleeve having channels of variable cross section, which reduces the power expended on the broken ice, serves to control its movement.

In order to reduce the installed power of the energy source that drives the mass, the distributor and the energy source are connected by channels to the energy accumulator.

Pa figs. 1 shows a schematic view of the bow (stem) of an icebreaking vessel with a vibration installation, side view; in fig. 2 - the same, top view.

In the bow end of the hull 1 of the vessel, on a reinforced element 2, a node is installed with a certain angle o, to the vertical the power cylinder consisting of two parts 3, 4 with channels L and B. The Wiutri cylinder freely moves the mass (incliner) 5 with the roll surface B.

The distributor is a spool 6 with a sleeve 7, mounted in the housing S. The jacks have profiled windows for the flow path of the channels. The actuator 9 of the spool interacts through the stem W and the roller / U with the surface of the plunger.

The batteries 14 have channels E, F, I for supplying and discharging the working fluid or gas.

The forces imparting oscillatory motion to the elements of the cornea, and dynamic impacts on the bottom of the hull, destroying the ice, are created by the forces of inertia reciprocating the movement of the mass (plunger), which is freely accelerated by the power cylinder.

For starting and switching off the vibratory installation, working fluid is supplied to the distributor, which displaces the sleeve 7.

The working fluid is iodine from the hydraulic pump through channel E to accumulator 14, where it accumulates under pressure PI maintained by the air line.

Then, through the channel D or D in the sleeve 7 and the distributor 6, the liquid is directed along the upper B or lower A channel into the cylinder, where it accelerates the mass (plunger) with a certain acceleration, and A or B drip at that time communicated with the replenishment tank (pa the drawing is not shown), i.e., the working fluid is drained (arrow //).

When the plunger reaches a certain middle position, one of the channels D or D of the spool is connected to the drain, while the other channel of the same group will start to overlap with the sleeve, and the explorer decelerates with some acceleration. This ensures installation fluctuations.

By turning the handle 13 in one direction or another, the sleeve is positioned relative to the position of the plunger, as a result of which it strikes the piston through the cylinder covers.

Above the minimum permissible rotational speed of the distributor spool and the smallest consumption of working liquid, the installation will develop the smallest force with the largest amplitude and lowest frequency of vibrations.

With the acceleration of rotation of the distributor spool and an increase in the flow rate of the working fluid, the inertial force and frequency of vibrations increase. Increased gear ratio

the ratio in the irivod of the distributor's gold with the oscillatory rotation of the sleeve 7 from the controlled feedback and the constant flow rate of the working fluid increases

the frequency of vibrations of settling and reduce its amplitude.

Measuring the profile of windows in the distributor sleeve 7, it is possible to change the nature (law) of vibrations and inertial forces.

Subject invention

1. An icebreaking vessel with a vibratory installation placed in the extremities of the vessel and communicating an oscillatory movement to the elements of its hull, characterized in that, in order to increase the ship's icebreaking capacity, as well as to reduce the weight and dimensions of the vibratory installation,

It is made in the form of a power cylinder with a free-for-all mass, which, by means of a reciprocating motion, creates inertial forces that excite the oscillatory movements of the vessel, and dynamic impacts transmitted through the bottom of the vessel and the ice edge.

2. A vessel of claim 1, characterized in that, in order to increase its local strength, the part of the bottom, through which inertial forces and dynamic impacts are transmitted, is made with reinforced elements of the set matched with the stem.

3. Vessel on PP. 1 and 2, characterized in that, in order to reduce the power expended in breaking the ice, a variable-capacity hydraulic pump is used as a source of energy for the power cylinder, and a remotely controlled distributor in

as a rotatable spool with an oscillating sleeve having channels with an alternating cross section.

4. Vessel on PP. 1-3, characterized in that, for the purpose of the installed power of the energy source, the distributor and the energy source are connected by channels to the energy accumulator.