SU914406A1 - Draught meter - Google Patents

Description

The invention relates to the technique of measuring the depths of liquids with variable density and, in particular, relates to instruments for measuring the draft of ships.

A precipitation gauge is known that contains a burial sensor, which includes a sensing element placed in a housing, the cavity of which is connected to seawater, indicating a buoy and a buoy corrector [1].

However, the known precipitation gauge does not provide the required accuracy for measuring the draft of the vessel in waters of different density.

The purpose of the invention is to improve the accuracy of measuring the draft of the vessel.

The goal is achieved by the fact that the precipitation gauge is additionally equipped with a water density sensor, made in the form of induction coils with an indicator installed on the body of the depth sensor, and the sensitive element of the depth sensor is made

2

in the form of a float carrying a rod with a magic device, placed in the cavity of induction coils.

The drawing shows the precipitation gauge, a general view.

^{5 The} precipitator contains a burial sensor 1, in the case 2 of which the sensitive element is placed, made in the form of a float 3 carrying

v prefix 4, and the rod 5 with a magnet, with the cavity of the housing 2 communicated by pipelines 6 and 7 with seawater, pipeline 8 with the indicating device 9 and pipeline 10 with the penetration corrector 11. The corrector 11 consists of two cylinders 12 and 13 mounted on a common base 14. Two bases of different bellows 15 and 16 are connected to the base 14 from opposite sides, the bottoms of which are interconnected by a rod 17 · The lower bellows is spring loaded 18. The top cylinder cap has inlet 19 and you ·

four

³ 91

Inlet valve 20, while the latter is connected to the pipeline 10.

The lower cylinder communicates with the outboard water pipe 21. The body 2 of the depth sensor 1 comprises a transparent graduated tube 22, on which the induction coils 23 of the water density sensor are mounted. Induction coils 23 are connected to a power source (not shown), and the other is connected to an indicator 24. Sensor 1 and corrector 11 are installed in the hull of the ship below its minimum draft. '

The precipitator operates as follows.

When a burial sensor 1 communicates with seawater, the sensor sets a pressure corresponding to a water column equal to the pressure from the seawater mirror to the water level in the sensor, which is transmitted pneumatically through pipeline 8 to the instrument 9- When changing the vessel's draft, the pressure in the sensor changes. 1. For example, when a vessel’s draft mass is received on board, the pressure in the sensor increases and device 9 shows a large draft, and vice versa. For a significant ₃₀ sediments and the required accuracy of the instrument readings corresponding to the actual draft of the vessel, the corrector 11 is turned on, which, when the pressure in the sensor 1 increases, holds the specified volumes occupied by air ³⁵ and water, the water level in the sensor is fixed / When the draft is increased, the hydraulic pressure on the cover of the lower bellows 15 increases, moving it upwards, as a result of which the air pressure in the cavity of the upper bellows 16 increases according to the draft, as well as in sensor 1, into which air flows from Lost corrector 11, ⁴⁵ prepyat- stvuya entry of seawater into the sensor 1, therefore, air pressure corresponds to the water column penetration transmitted to the instrument decreases precipitation 9If 'ship ⁵⁰ (when removed from his weight) the hydraulic pressure on the lower lid of the bellows 15 is compressed and it moves to a position corresponding to a decrease in the draft.

The described indications of the device will correspond to a true draft of a vessel at 5 density of water equal to G.

When sailing a ship in waters with different densities, an amendment should be made according to the water density indicator 24, which works as follows.

When the density of water is about 0.97 kg / dm ^, the rod 5 of the float 3 is below the water mirror in sensor 1 and removed from the induction coils 23, in which the current is zero. When the water density increases, the float 3, according to the water density, emerges and injects the rod 5 with a magnet into the field of the induction coils 23, inducing a current in the indicator circuit 24, i.e. showing water density. Under these conditions, the draft will be defined as the ratio of instrument value 9 to indicator value · 24.

Such a constructive implementation of the precipitation gauge improves the accuracy of the vessel draft measurement.

Claims (1)

Claim A precipitator containing a burial sensor, including a sensitive element placed in a housing, the cavity of which is connected to seawater, a indicating device and a burial corrector, characterized in that it is equipped with a water density sensor in the form of mounted on the body of the penetration sensor, the induction coils' with the indicator, and the sensitive element of the penetration sensor is made in the form of a float carrying a rod with a magnet placed in the cavity of the induction cable carcasses.