RU2628413C1 - Device for ejecting products under water - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: invention discloses the construction of a device for ejecting products under water, which ensures ejecting an array of products apiece and in the predetermined sequence with feeding an electrical impulse to each product while ejecting it, which further ensures triggering the products with the formation of sonar signals with certain characteristics.

EFFECT: increasing the operation reliability of the means for generating sonar signals with certain characteristics.

7 cl, 4 dwg

Description

The invention relates to underwater technology and can be used as part of a device under high environmental pressure to eject products creating hydroacoustic signals with certain characteristics.

Known imitator of a submarine (p. RU No. 2014244, B63G 8/34, publ. 10/18/1994). The submarine simulator contains a housing with a propulsion unit, a control unit and sonar countermeasures, is equipped with at least one detachable self-propelled simulator, fastened by detachable connecting nodes to the simulator body and also made in the form of a housing with a mover, control unit and sonar counters. In this case, the control unit detachable self-propelled simulator and detachable connecting nodes are electrically connected to the control unit of the simulator submarine.

This simulator is a complex set of interconnected devices, while the operability of detachable self-propelled simulators depends on the operability of both the self-propelled simulator control unit and the submarine simulator control unit, which generally reduces the reliability of the means that create sonar signals.

The technical result consists in increasing the reliability of the means for creating hydroacoustic signals with certain characteristics, due to the ejection of a piece and in a given sequence of an array of products, with the supply of an electrical impulse to each product when it is emitted, which ensures further operation of the products with the formation of hydroacoustic signals. In the process of ejecting products, some may fail to operate, which generally does not affect the creation of sonar signals.

The technical result achieved is achieved by a device comprising a housing including a cup sealed to a flange on which a hardware compartment and a casing are fixed, on the inside of which guide strips are mounted, longitudinal channels are arranged between the casing and the cup, in each of which a pivoting device including an electromagnet mounted on a housing flange with a spring-loaded movable rod and a hermetically mounted coil electrically connected to the contacts of the printed circuit board, anovlennoy in the flange and is also electrically connected with the hardware control unit compartment; an arm with a rocking beam, one end of which is pivotally connected to the rod of the electromagnet; and a rotation unit, consisting of a housing with an axis mounted therein with the possibility of rotation, with a flat coil spring worn on the axis, and a spring device, there is a stopper at one end of the axis, and a ratchet having teeth on the end surfaces, the teeth being one the end surface is offset by a half step relative to the teeth of the opposite end surface and have the ability to alternately mesh with the beam; in each longitudinal channel on the axis between the existing spring device and the stopper, a package of alternating products of two modifications is installed, differing in the angular location of the existing slot in the product body interacting with the stopper; a second printed circuit board is installed on the bottom of the glass, electrically connected to the control unit of the hardware compartment and each device for switching an electric circuit, which is able to interact with the corresponding electrical contact on the product body. On the outer surface of the glass there are longitudinal ribs with inserts of dielectric material. Each product has two electrical contacts made in the form of plates located on the side that mates with the longitudinal edge of the glass and the insert, while the ribs and the insert are located between the plates. A device for switching an electric circuit is made in the form of two cantilever spring-loaded electrical contacts fixed to the bottom of the glass by means of an arm through a dielectric gasket. The coil with lead wires is located in the existing inner annular groove of the flange in communication with the cavity of the housing. The spring device is made in the form of a shaped coil spring, for example a telescopic spring, with support inserts at the ends. The products are made in the form of explosive devices that fire after a certain time after the electric pulse is applied to them and generate acoustic noise of a certain frequency response during the explosion.

The presence of longitudinal channels in the cavity between the casing and the glass, as well as the installation of a rotary device with a spring device on the flange for each longitudinal channel, allows a compact package of products of alternating modifications to be placed in each channel. The electrical connection of the device with the control unit of the hardware compartment allows for a given program to supply electrical pulses to the electromagnet coil of a particular channel and the corresponding spring-loaded electrical contacts. During the “on-off” cycle of the electromagnet, the axis of the rotation device under the action of a cocked spiral spring is rotated through an angle until the stopper is aligned with the slot of the product’s landing hole, after which the product moves off the axis due to the efforts of the spring device. The product following it rests against the stopper, since the slot in its landing hole does not coincide with the pin. When leaving the channel, the product contacts run onto the spring-loaded spring electrical contacts of the bracket mounted on the block, and an electrical impulse is supplied to the product. To eject the next product, the “on-off” cycle of the electromagnet follows again with the supply of an electrical impulse to the spring contacts of the bracket.

In FIG. 1 shows a general sectional view of a device for ejecting articles under water, FIG. 2 is a view A in FIG. 1, in FIG. 3 - element B in FIG. 1, in FIG. 4 - element B in FIG. one.

The device for ejecting products under water contains a metal case 1 with longitudinal channels “a” (the number of channels can be more than 20), including a glass 2, a flange 3 and a casing 4. On the glass 2 there are longitudinal ribs 5 and inserts 6 made of dielectric material, a passage connector 7 and block 8. The glass 2 is hermetically docked with the flange 3 using the sealing ring 9 and fasteners 10. On the casing 4 there are mounted longitudinal rails 11. On the flange 3 in each longitudinal channel “a” there are mounted rotary devices 12 and the plate 13. Flange 3 herme perfectly docked with the hardware compartment 14 using the sealing ring 15 and fasteners 16. The rotary device 12 consists of an electromagnet 17 with a spring-loaded movable rod 18, an arm 19 with a rocker arm 20, and a rotation unit 21 consisting of a housing 22 in which the bearings 23, an axis 24 is installed with a flat coil spring 25. A stopper 26 is installed at one end of the axis 24 and a ratchet 27 at the other. There are annular grooves on the electromagnet 17 housing, in which sealing elements 28 and 29 are located. Coil wires 30 elec the magnet 17 is connected to the contacts of the board 13, docked with the harness 31. A spring device 32 is installed on the axis 24. The block 8 consists of a disk 33, mounted on the disk 33 of the board 34 and brackets 35 having two spring electrical contacts 36. The contacts 36 are connected by wires 37 with the electrical contacts of the board 34. A harness 38 from the board 34 and a harness 39 connected to the control unit of the hardware compartment 14 are docked with the passage connector 7. Products 40 and 41 are installed on the axles 24.

The device for ejecting products under water as follows.

Each channel of the ejection device is equipped with articles 40 and 41 in the following order:

- cock a flat spiral spring 25 of the rotation device 12, turning the ratchet 27 axis 24 by 1.5 ... 2 turns;

- put the product 40 or 41 on the axis 24, depending on the angular arrangement of the stopper 26, while the lateral movement of the product in the channel “a” is limited by longitudinal ribs 5 with inserts 6 and straps 11. Moving the product along axis 24 behind the stopper 26, turn the axis on 90 °, while the angular position of the axis 24 is fixed by coupling the rocker arm 20 with the teeth of the ratchet 27;

- put on the axis 24 of the next product, the orientation of the slot of which differs by 90 ° from the orientation of the slot previously installed on the axis 24 of the product 40 or 41;

- completely fill the channel with products 40 and 41, while the spring device 32 is crimped to the maximum working load.

When the device is under water, the discharge of products 40 or 41 is carried out as follows:

1) from the hardware compartment 14 in accordance with the program according to the established algorithm, sequentially with a predetermined interval, an electrical impulse is supplied to the coils 30 of the electromagnets 17 through the harness 31 through the board 13. The rod 18 of the electromagnet 17 is pulled into the housing and rotates the rocker arm 20, while the ratchet 27 of the rotation device 12 is released and the axis 24 with the ratchet 27 is rotated by an angle of 45 °;

2) remove the electrical impulse from the coil 30 of the electromagnet 17. The rod 18 with the rocker 20 is returned to its original position, while the ratchet 27 is released and the axis 24 with the ratchet 27 is rotated by an angle of 45 °.

In one “on-off” cycle of the electromagnet 17, the rotary device 12 allows the axis 24 to rotate through an angle of 90 °, while the stopper 26 is installed opposite the slot in the landing hole of the product body 40 or 41. Under the action of the force of the spring device 32, the product is thrown out (one ) from the corresponding channel “a” of the ejection device;

3) in the process of output of the product 40 or 41 from the channel “a”, it rushes and slides along the spring electrical contacts 36, to which the wires 38, the harness 38, are supplied with an electrical impulse through a sealed passage connector 7 and the harness 39. An electrical pulse is applied to contacts 36 at the moment the product begins to exit the channel “a”, i.e. with a delay relative to the beginning of the supply of an electrical impulse to the electromagnet 17, which significantly reduces the possible erosion of contacts 36. When passing the product 40 or 41 of the spring electrical contacts 36, it is electrically activated for subsequent operation;

4) after a certain time, during which the product manages to move away from the ejection device by several meters, the product is triggered (undermined).

The sequential ejection of the entire array of products according to a given algorithm from the device and the subsequent operation of the products ensures the creation of hydroacoustic signals with certain characteristics.

A prototype of a device for ejecting products under water was made, which as part of the device successfully passed the test.

Claims (7)

1. A device for ejecting products under water, comprising a housing including a cup sealed to a flange on which a hardware compartment and a casing are fixed, on the inside of which guide rails are mounted, longitudinal channels are arranged between the casing and the cup, each of which has a rotation device including an electromagnet mounted on a housing flange with a spring-loaded movable rod and a hermetically mounted coil electrically connected to the contacts of a printed circuit board installed in the flange also electrically connected to the control unit of the hardware compartment, an arm with a rocker arm, one end of which is pivotally connected to the electromagnet rod, and a rotation unit consisting of a housing with an axis mounted therein with a rotary spiral spring worn on the axis and a spring device , at one end of the axis there is a stopper, and at the other end there is a ratchet having teeth on the end surfaces, the teeth of one end surface being shifted half a step relative to the teeth of the opposite end of the surface and have the possibility of alternating engagement with the beam, in each longitudinal channel on the axis between the existing spring device and the stopper there is a package of alternating products of two modifications, differing in the angular location of the existing slot in the product body interacting with the stopper, a second printed circuit board is installed on the bottom of the glass electrically connected to the control unit of the hardware compartment and each device for switching an electric circuit, having the ability to interact with the corresponding Leica Geosystems electrical contact, available on the unit. 2. The device according to p. 1, characterized in that on the outer surface of the glass there are longitudinal ribs with inserts of dielectric material. 3. The device according to p. 2, characterized in that each product has two electrical contacts made in the form of plates located on the side mating with the longitudinal edge of the glass and the insert, while the ribs and the insert are located between the plates. 4. The device according to p. 1, characterized in that the device for switching an electric circuit is made in the form of two cantilever spring electrical contacts, mounted on the bottom of the glass by means of an arm through a dielectric gasket. 5. The device according to p. 1, characterized in that the coil with output wires is located in the existing inner annular groove of the flange in communication with the cavity of the housing. 6. The device according to claim 1, characterized in that the spring device is made in the form of a shaped coil spring, for example a telescopic spring, with support inserts at the ends. 7. The device according to claim 1, characterized in that the products are made in the form of explosive devices that fire after a certain time after the electric pulse is applied to them and generate hydroacoustic signals of a certain frequency response during the explosion.

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