SU1054198A1 - Icebreaker - Google Patents

Abstract

An ICEBOL, comprising a housing carrying a hydraulic icebreaking device having a barrel in communication with a source of water supply, characterized in that, in order to increase its ice potential, the source of water supply includes a measure of pulse pressure communicated through the shaft and channels with outboard water, and the same with the barrel, the upper part of which is located in a plane parallel to the diametrical plane of the icebreaker, at an angle to the plane of the waterline, and the said channels are located on the side opposite to the barrel y 2. The icebreaker according to claim 1, characterized in that the channels are angled to the center plane of the icebreaker. 3. The icebreaker according to claim 1, characterized in that the barrel, tongue and channels are provided with adjustable dampers. (L SP 4 CO oo

Description

The invention relates to icebreakers, in particular to icebreakers with devices for remotely destroying ice. A known icebreaker comprising a hull carrying a hydraulic ice-breaking device having a barrel in communication with a water supply source 1. A disadvantage of this icebreaker is the low rate of ice breaking. The purpose of the invention is to increase the ice breaker icebreaking capacity. The goal is achieved by the fact that in an icebreaker containing a hull carrying a hydraulic ice-breaking device having a barrel communicating with a water supply source, the latter includes a pulse pressure chamber communicated by means of a shaft and channels with seawater, as well as with a barrel in a plane parallel to the center plane of the icebreaker. at an angle to the plane of the waterline, and the said channels are located on the side opposite to the trunk. In addition, the channels are located at an angle to the center plane of the icebreaker. The barrel, shaft and channels are equipped with adjustable valves. FIG. 1 schematically shows an icebreaker, a longitudinal section; in fig. 2 - the same, top view. Icebreaker hydraulic destructive device contains a chamber 1 of it, equipped with exhaust 2 and inlet 3 check valves. In its roof there are 4 spark plugs. The lower part of the chamber is in communication with the barrel 5, in the upper part of which a rotary forming nozzle 6 is installed. Chamber 1 also has a fuel supply system with nozzles 7. In the lower part and the combustion chamber 1, a shaft 8 and channels 9 are connected, equipped with valves 10 and 11. Valve 12 is installed in the barrel 5. It is advisable to have several hydraulic ice-breaking devices with different pulse energies on the icebreaker. Some of them can be mounted in the rear to facilitate reversing. 1 98 Icebreaker works as follows. When approaching difficult-to-reach ices to the combustion chamber 1 of the powerful ice-breaking device, air is pumped through the valve 3 under overpressure with the fuel sprayed through the nozzles 7. The resulting mixture displaces water from the chamber. Next, the mixture is ignited by a candle 4. As a result of a sharp increase in pressure in chamber 1 with shutters 10 and I closed in channels 9 and drill 8, water is ejected from barrel 5. Water piston, a pad on the ice creates a system of radial and tangential cracks in it. After the methane of the water, they open the valve 2 and the flaps 10 and P. The Zabort water flows into the chamber, cooling it and expelling the combustion products 51 into the atmosphere. After the initial weakening of the ice by cracks, their propagation in the direction of motion is carried out by operating similarly less powerful ice creams, guiding portions of water to the zone of the end of the radial cracks. It is also possible that the ice pistons are predominantly ice, which reduces the dispersion of the missile mass. When the icebreaker operates in the icebreaker mode, the recoil impulse, the maximum with the mine 8 fully closed, is perceived by the bow of the hull, creating an additional effect on the ice. An additional decrease in the resistance of the environment, which increases the speed of the icebreaker in the ice, as well as reduces the load on the power plant, results from clearing the passage of jets of water from the outlets of channels 9 along the sides of the icebreaker. The device can work with open channels 9 and mine 8, allows you to reduce the impact on the body. By overlapping the valve 12, the barrel 5 with the valve 10 closed, it is possible to obtain a velocity increment in the direction of motion. An icebreaker with a hydraulic icebreaking device has an increased ice capacity in heavy ice of the Arctic and Antarctic basins.

//

/

 6

Fsh.g

Claims (3)

1 ICE-BREAKER, comprising a housing carrying a hydraulic ice breaking device having a barrel in communication with a water supply source, characterized in that, in order to increase its ice permeability, the water supply source includes a pulse pressure chamber communicated through a shaft and overboard water channels, and also with a barrel, the upper part of which is located in a plane parallel to the diametrical plane of the icebreaker, at an angle to the plane of the waterline, and the said channels are located on the side opposite to the barrel. 2. Icebreaker according to π. I, characterized in that the channels are located at an angle to the diametrical plane of the icebreaker. 3. Icebreaker according to π. 1 characterized in that 'the barrel, shaft and channels are equipped with adjustable flaps. FIG. 7