RU2539021C1 - Cutting device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to devices for cutting of steel bars, pipelines, electrical harnesses, etc. by means of linear-shaped charges (LSC) and can be used in space missile engineering. In the cutting device including an involvement assembly, a distributor and two linear-shaped charges, the distributor contains detonation rods. The involvement assembly and the linear-shaped charges are connected by the rods through blasting cartridges. Linear-shaped charges are located parallel relative to the axis of the device in the slots of the available insert. All the above elements are arranged in the housing on the base and fixed with a cover plate, and in the housing there is a hole for connection of the initiating device. The housing, the cover plate and the base are fixed with screws. Linear-shaped charges and the insert are bonded to each other. The insert is attached to the housing by means of a screw and fixed with the cover plate. The housing and the cover plate are made from tough impact-resistant steel 12X18H10T.

EFFECT: providing safe cutting of parts of products of space missile engineering due to the low impact-wave action and elimination of dispersion of fragments at its actuation.

5 cl, 1 dwg

Description

The invention relates to the field of military equipment, and in particular to devices for cutting steel rods, pipelines, electric harnesses, etc. using elongated cumulative charges (UKZ) and can be used in rocket and space technology.

A known method of cutting large products using UKZ with high energy intensity of destruction (RF patent No. 2013167; IPC B21D 26/08; published on 05/30/1994). In this method, cumulative explosive charges are set at the ends of the cut section of the pipeline, which undermine. The resulting shock wave acts on the ends of the cut section. At the same time, this section is cut on a plane located at an angle to the diametrical section. As a result, the removal of the cut-out area is simplified.

An explosive cutting device is known (RF patent No. 2424584; IPC F42B 1/02, G11B 33/00; published on July 20, 2011), including one or more elongated cumulative charges and an activation unit, the activation unit is common to all charges when used in the design of the device several charges and connected to one or more charges by detonation wiring, the input section of which is placed at an angle to the plane of the other sections of the wiring.

The disadvantages of analogues is that they cannot be used in a dense arrangement of rocket and space technology products to separate individual product elements without destroying other parts and components of the product surrounding the cutting device.

The closest analogue is an explosive cutting device (US patent No. 6609464, published 26.08.03), which is one or more elongated cumulative charges (UKZ) and an activation unit, the latter initiates one of the UKZ, and from this charge the detonation is transmitted to others in case of application of several UKZ in the design. UKZ can be arranged superimposed crosswise on one another or one below the other on the detonation transfer section, while detonation is transferred from one charge to another by means of a cumulative jet, charges can also have a common section serving for branching the detonation pulse (detonation splitter).

The disadvantages of this design are:

- an increase in the overall size at the intersections of the UKZ in the device with the application of one UKZ to another, while on the material being cut there are areas with a reduced depth of cut line, which reduces the efficiency of the device;

- a decrease in the reliability of knock transmission at the detonation branching sections in a device with detonation splitters, which affects the UKZ of a small diameter to a greater extent and, accordingly, limits the possibility of reducing the size of the device.

The problem to which the invention is directed is to create a device that operates in its own indestructible body and provides remote cutting of the elements of rocket and space technology products without destroying the structural elements of the product located next to the cut element. At the same time, product elements that are located next to the element to be cut, including the assembly unit of the product on which the cutting device itself is fixed, may contain explosive (BB).

The technical result of the claimed invention is the provision of safe cutting of elements of rocket and space technology products due to the small shock-wave impact and elimination of the expansion of fragments when it is triggered.

The technical result is achieved by the fact that in the cutting device, which includes the activation unit, the distributor and two elongated cumulative charges, the distributor contains detonation rods connecting the activation unit and the elongated cumulative charges through the checkers, the elongated cumulative charges are located parallel to the device axis in the grooves of the existing insert listed above the elements are placed in the housing on the base and fixed by a lid, a hole is made in the housing for docking the initiating devices. The body, cover and base are fastened with screws. The elongated cumulative charges and the liner are glued together. The liner is fixed to the housing with a screw and secured by a cover. The body and cover are made of ductile impact-resistant steel 12X18H10T.

Rugged housing with a cover is designed to accommodate parts and components of the cutting device and ensure safety when it is triggered.

To connect the electric detonator (ED) to the cutting device, a hole is made in its body. Prior to docking the ED, a technological plug is installed in the cutting device.

The distributor is designed to receive and transmit a detonation pulse from the ED to the UKZ.

To receive and transmit the detonation pulse from the ED to the UKZ, checkers are made in the distributor. The detonation pulse is transmitted from the distributor to the UKZ by a contact (gapless) method. The detonation pulse is transmitted from the ED to the distributor by the “liner” of the ED, that is, by throwing aluminum foil through the gap.

The insert is intended for installation and fastening of two straight UKZ tubes, the length of which is determined by the number of elements to be cut.

For guaranteed operation of the cutting device, it is necessary to provide a joint coaxial arrangement of the cumulative grooves of the UKZ tubes, which is ensured by installing the UKZ tubes at “two points” from the side of the cumulative groove along two parallel grooves of the insert. In the design of the liner, it is possible to adjust the protrusion of the UKZ tubes beyond the end of the liner using screws, which is necessary for guaranteed contact between the UKZ tubes and the transmitting checkers of the distributor. The size of the protrusion of the UKZ tubes is determined by dimensional calculation and is specified in the design documentation for the liner. The UKZ tubes are fastened in the liner by means of one-piece adhesive connection with additional pressing by specially made “legs” of the liner.

The insert is attached to the cutting device body by a screw with additional fixing of the cover.

The base is intended for fastening the cutting device to the product and reducing the shock wave effect on the product assembly on which the cutting device is installed.

The body, cover and base are fastened with screws.

Structurally, the cutting device is shown in the drawing, where: 1 - housing, 2 - cover, 3 - distributor, 4 - insert, 5 - base, 6 - elongated cumulative charge, 7 - pickup (engaging unit), 8 - detonation rods, 9 - transmitting checker, 10, 11 and 12 - screws, 13 - cut barrier, 14 - hole.

The cutter works as follows.

When the ED is triggered (not shown), the receiving checker 7 of the distributor 3 is triggered, which activates the detonation rods 8 of the distributor 3, thereby undermining its transmitting checkers 9 and initiating the UKZ 6. The triggering of the UKZ 6 provides for the cutting of the obstacle 13 located between the two UKZ 6 that form cumulative knives ”, aimed at the barrier 13 in the plane of the cut. In this case, the expansion of the explosion products of the distributor 3 and UKZ 6 is cut off by the housing 1, cover 2 and base 5, which retain their integrity when the cutting device is triggered.

An example of a specific implementation.

Case 1 and cover 2 are made of ductile impact-resistant steel 12X18H10T.

To connect the ED to the cutting device, hole 14 M12 is made in its housing 1. The distributor 3 is made of heat-resistant polycarbonate and equipped with a plastic explosive (PVV). To receive and transmit the detonation pulse from the ED to the UKZ 6 in the distributor 3, checkers 7 and 9 are made with a diameter of 4 mm and a thickness of 1.5 mm. The liner 4 is made of steel 12X18H10T. The ability to adjust the protrusion of the tubes UKZ 6 beyond the end of the liner 4 is carried out using screws 10.

The attachment of the insert 4 to the housing 1 of the cutting device is provided by a screw 11 with additional fixing of the cover 2. The housing 1, cover 2 and the base 5 are fastened with screws 12.

It was experimentally verified that when cutting the barrier 13, the cutting device retains its integrity.

The use of the invention provides a safe (due to the exclusion of the expansion of fragments of the UKZ and the distributor) cutting elements of the products of rocket and space technology.

Claims (5)

1. The cutting device, including the activation unit, a distributor and two elongated cumulative charges, characterized in that the distributor contains detonation rods connecting the activation unit and elongated cumulative charges through checkers, elongated cumulative charges are located parallel to the device axis in the grooves of the existing insert, the above elements placed in the housing on the base and secured by a cover; an opening for docking the initiating device is made in the housing. 2. The cutting device according to claim 1, characterized in that the housing, the cover and the base are fastened with screws. 3. The cutting device according to claim 1, characterized in that the elongated cumulative charges and the liner are glued together. 4. The cutting device according to claim 1, characterized in that the insert is fixed to the housing with a screw and is fixed by a cover. 5. The cutting device according to claim 1, characterized in that the housing and the cover are made of ductile impact-resistant steel 12X18H10T.