RU58097U1 - DEVICE FOR SELECTING A FLEXIBLE LONG TOWED ANTENNA - Google Patents

Abstract

The utility model relates to the field of hydroacoustics, in particular to hydroacoustic stations (HAS) with flexible extended towed antennas (HBA), and can be used to set the HBA in the working position and lift it on board the carrier object in the marching position. The technical result of the utility model is to provide for the launching and lowering of a gas-pressure generator containing an instrument part of constant diameter, an end body with an anchor-halyard, if they are directly connected to the object with a carrier or a deepener located on the marching deck of the carrier. To achieve the specified technical result in the device for the selection of GPAA, consisting of an instrument part of constant diameter, an end body with an anchor-halyard, directly mechanically connected to the carrier object or deepener, placed on the marching deck of the carrier, containing a flexible rod and a flexible rod connection device with GPAA, the device for connecting flexible traction with GPAA is made in the form of a cylindrical body of length I ₁ with a through hole of diameter D ₁ , consisting of two made with the possibility of rotation around the axes of the halves fixed in the assembled position by a locking bracket with a retaining halyard of length I _f attached to it, which is a flexible rod, five conical grooves are made on the inner surface of the passage opening, cutting through the half of the cylindrical body, the entry section of each groove has a width b, and the end the groove section is made with a diameter of d ₁ , while the following conditions are satisfied: I ₁ ≥2D, D ₁ > D, L <I _f ≤L + I, b> d, d ₁ <d where D is the diameter of the instrument part of the GPBA, L is the length GPBA instrument part, I - GPBA anchor-halyard length, d - anchor-halyard diameter but.

Description

The utility model relates to the field of hydroacoustics, in particular to hydroacoustic stations (HAS) with flexible extended towed antennas (HBA), and can be used to set the HBA in the working position and lift it on board the carrier object in the marching position.

Known GPA, consisting of the instrument part of a constant diameter, the end body with the anchor-halyard [1, 2].

A device for lowering and raising a GPAA consisting of an instrument part of a constant diameter, an end body with an anchor-halyard containing a flexible rod and a device for connecting it to a GPBA is used, a towing cable is used as a flexible rod, and a device for connecting a flexible rod with a GPBA serves as a mechanical interface with the GPBA tug cable. The known device provides a sequential selection of cable tug and GPBA [3].

A disadvantage of the known device is the difficulty of its use in the direct mechanical connection of the GPAA with a burrower placed on the marching deck of the carrier [4, 5], especially in the case of a significant mass and dimensions of the burrower. In this case, a special device is required to raise the depth of the device - a winch and manipulator. The problem of lowering and raising the GPBA with the direct connection of the GPBA with the carrier object (in the absence of flexible traction in the form of a cable tug) has not been solved.

The technical result of the utility model is to provide for the launching and lowering of a gas-pressure generator containing an instrument part of constant diameter, an end body with an anchor-halyard, if they are directly connected to the object with a carrier or a deepener located on the marching deck of the carrier.

To achieve the specified technical result in the device for the selection of GPAA, consisting of an instrument part of a constant diameter, an end body with an anchor-halyard, directly mechanically connected to the carrier object or a deepener, placed on the marching deck of the carrier, containing a flexible rod and a flexible rod connection device with GPBA introduced

new features, namely: the device for connecting flexible traction to the GPA is made in the form of a cylindrical body of length I ₁ with a through hole of diameter D ₁ , consisting of two halves rotatable around the axis, fixed in the assembled position by a locking bracket with a holding bracket attached to it a halyard of length I _f , which is a flexible rod, five conical grooves are made on the inner surface of the bore hole, cutting through the half of the cylindrical body, the entry section of each groove has a width b, and the final section of the groove is made with a diameter of d ₁ , while the conditions are satisfied: I ₁ ≥2D, D ₁ > D, L <I _f ≤L + I, b> d, d ₁ <d where D is the diameter of the instrument part of the GPAA , L is the length of the instrument part of the GPBA, I is the length of the anchor-halyard of the GPBA, d is the diameter of the anchor-halyard.

The essence of the utility model is illustrated in figure 1 and figure 2, which shows the design of the proposed device for sampling GPAA and the scheme of its operation, respectively.

The proposed device for sampling GPA consists of a cylindrical body 1, divided into two halves that rotate around the axis 2, the fixing of which in the assembled position is provided by a locking bracket 3, to which a holding halyard 4 is attached (Figure 1).

GPAA, for lifting which the intended device is intended, consists of the instrument part of a constant diameter 5, anchor-halyard 6, end body 7 (Figure 2).

The operation of the proposed device for sampling GPA is as follows (Figure 2).

In preparation for the launch of the GPAA, the cylindrical body 1 is installed on the instrument part 5 of the GPAA in the zone “a”, for which the locking bracket 3 with the holding halyard attached to the bracket 3 is preliminarily removed. The body 1 is installed with a shank in the direction of the deepener or the carrier object (by the object), and then locked with a bracket 3. The second end of the retaining halyard 4 is fixed to the carrier (not shown) and the GPA is lowered into the water using the holding halyard 4.

The cylindrical body 1, under the influence of an oncoming flow of water, moves along the instrument part of GPAA 5 and anchor halyard 6 until the retention halyard 4 is completely sampled, while moving body 1 along anchor halyard 6, the anchor halyard falls into one of the conical grooves cylindrical body 1.

When sampling HPA, the anchor-halyard 6 is clamped inside the conical groove, which allows you to sample HPBA using the holding halyard 4 on the carrier deck. After completing the process of selecting the HPBA on the carrier deck, the cylindrical body 1 can be removed from the GPBA, for which it is necessary to remove the locking bracket 3 and rotate the body halves around axis 2.

Thus, the proposed device ensures the achievement of the claimed result.

Information sources

1. A.A. Gurvich, N.M. Gusev, G.V. Yakovlev. Hydroacoustic systems with flexible long towed antennas. Shipbuilding abroad, 1984, No. 10, p. 37-41.

2. Yu.A. Koryakin, S.A. Smirnov, G.V. Yakovlev. Ship sonar equipment. Current status and current problems. St. Petersburg, Nauka, 2004, p. 191-197.

3. A.A. Gurvich, N.M. Gusev, G.V. Yakovlev. Hydroacoustic systems with flexible long towed antennas. Shipbuilding abroad, 1984, No. 10, p. 42-43.

4. German patent application No. 19719306.

5. Yu.A. Koryakin, S.A. Smirnov, G.V. Yakovlev. Ship sonar equipment. Current status and current problems. St. Petersburg, Nauka, 2004, p. 95.

Claims (1)

A device for selecting a flexible extended towed antenna (GPBA), consisting of an instrument part of a constant diameter, an end body with an anchor-halyard, directly mechanically connected to a carrier object or a deepener placed on the marching deck of the carrier, containing a flexible rod and a flexible rod connection device with GPAA, characterized in that the device for connecting flexible traction with GPBA is made in the form of a cylindrical body of length I ₁ with a through hole of diameter D ₁ , consisting of two, made with the possibility of rotation that around the axis of the halves, fixed in the assembled position by a locking bracket with a retaining halyard of length I _f attached to it, which is a flexible rod, five conical grooves are made on the inner surface of the bore hole, cutting through the half of the cylindrical body, the entry section of each groove has a width b, and the final section of the groove is made with a diameter of d ₁ , while the following conditions are satisfied: I ₁ ≥2D, D ₁ > D, L <I _f ≤L + I, b> d, d ₁ <d, where D is the diameter of the instrument part of the GPA, L is the length of the instrument part of the GPBA, I is the length of the anchor halyard of the GPBA, d is the diameter p-tether anchor.