RU2416780C1 - Target contact-type transducer - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed target contact-type transducer comprises load bearing case, sensitive element made up of outer envelopment arranged with clearance with respect to said case, two electric contacts that may be made in deformation of outer envelopment section facing the target by magnitude of aforesaid envelopment. Said two electric contact represent isolated conductors staying in contact between said outer envelopment and load bearing case to produce structure that define sensitivity zone.

EFFECT: higher reliability, simplified design, higher noise immunity and operating performances.

2 dwg

Description

The invention relates to the field of military equipment and is intended to issue a command to undermine any type of ammunition when it strikes for the purpose.

When using an electric blasting system in the munition, sensors of both inertial and reaction types are used as the contact sensor of the target, the contacts of which close the fuse response circuit when the munition strikes the target.

As inertial sensors, as a rule, inertial sensors of the threshold type are used (see, for example, Girfanov M.Z., Kuznetsov S.V., Priemsky D.G. Contact blasting of missile ammunition. - St. Petersburg: NII TM OJSC , 2003, p. 85-94). The disadvantages of inertial threshold-type sensors include the need to provide circuit or structural solutions for their resistance to trajectory loads, insufficient speed to issue a command to detonate cumulative warheads, and the complexity of their design, provided that the required sensitivity diagram for undermining ammunition is provided in a given range of meeting angles with the aim of.

The simplest and most reliable are contact sensors of the reaction type target (ibid., Pp. 94-98), made in the form of two isolated contacts. One of the contacts is made in the form of a central electrode rigidly connected to the supporting body, and the other is in the form of an outer shell placed relative to the central electrode with a gap. In this case, the outer shell is a sensitive element of the sensor. When an ammunition strikes with a target, the outer shell is deformed by the gap, due to which the sensor contacts are closed and a command is issued to undermine the ammunition.

It should be noted that reaction-type sensors reliably operate in a wide range of ammunition meeting speeds with a target, and their speed depends only on the speed of movement of the deformable section of the outer shell by the gap, which, as a rule, is approximately equal to the velocity of the munition strike with the target. To obtain maximum performance, such sensors are installed in the head of the munition, and the gap between their contacts is as small as possible.

When using contact sensors of a reaction type target in small-sized and small-caliber ammunition, structural elements of the ammunition, for example, a rocket head fairing, are used as one of the sensor contacts. The role of the other contact can be performed by both elements of the shell of the ammunition and individual parts mounted on the supporting body, which, when impacted, are deformed later. In this case, the contact has a developed surface facing the outer shell. In this case, the required diagram of the sensitivity of the sensor is provided for operation in a given range of angles of encounter of the ammunition for the purpose.

So, for example, a contact target sensor is known (see US patent No. 5157221, IPC 5 F42C 19/07, publ. 10/20/92), one of the contacts of which is made in the form of an element of the bearing housing, and the other in the form of an outer shell placed relative to the housing with a gap. At the same time, the head fairing of the rocket is used as the outer shell, which is also a sensitive element of the sensor. When the ammunition collides with the aim of deformation of the outer shell by the amount of clearance between it and the bearing body, it leads to the closure of the electrical circuit and the detonation of the warhead.

Contact target sensors having a similar design are also known from the descriptions of the patents of the Russian Federation: No. 2125228, IPC 6 F42B 12/00, publ. 01/20/99, and No. 2046281, IPC 6 F42B 12/10, publ. 10.20.95 g.

As a prototype, a contact target sensor described in the patent of the Russian Federation No. 2046281 was selected, since various examples of the sensor’s structural design are given in the description of this patent.

The disadvantages of analogues and prototype include the fact that as the electrical contacts are used elements of the shell of the ammunition, and especially its external elements. This reduces the noise immunity of the ammunition from external electromagnetic radiation due to pickups in the electric circuit of the fuse. Moreover, the need to isolate the contacts from each other requires the use of additional structural elements, which inevitably leads to a complication of the design of the sensor and the design of the ammunition as a whole.

To simplify the design of the sensor used in the munition according to the patent of the Russian Federation No. 2046281, the outer shell is made of plastic. In this case, to isolate the contacts from each other, no additional structural elements are required. To form an electrical contact, a conductive layer is applied to the inner surface of the outer shell. As the second contact, an element of the shell of the ammunition or a separate part mounted on the supporting case is used. The disadvantage of making the outer shell of plastic is a decrease in the reliability of contact closure, since during its deformation, especially at high impact speeds or at low temperatures, the conductive layer will be destroyed locally at the point in the shell where the contact closures should occur. Therefore, the contact closure can be either very short-term or even absent.

Due to the fact that the contacts have large areas of working surfaces, to ensure a gap of the required size between them, it is necessary to take a number of structural and technological measures. In addition, it is necessary to ensure the tightness of the volume between the electrical contacts, since the formation of condensate can lead to their closure, which will entail unauthorized detonation of the ammunition.

Since the surface area of the contacts is large and located with a gap relative to each other, it is necessary to take into account the additional electrical capacitance, which will be connected to the electric circuit of the fuse when the sensor is connected.

In the case when it is necessary to select the mode of detonation of ammunition depending on the zone of its collision with the target, the contact sensor of the target of the reaction type may have corresponding sensitivity zones, for the formation of which it is necessary to have several pairs of electrical contacts. For this, it will be necessary to introduce into the design of the sensor according to RF patent No. 2046281 an additional number of parts of electrical insulation material, the placement and fastening of which will lead to a significant complication of the sensor design. If, for the formation of several sensitivity zones, an outer shell of plastic is made and the required number of contact pads is applied to it, then when the munition strikes before the contacts are closed, premature destruction of both the contact pads and the contact currents can occur.

The objective of the invention is the creation of a contact target sensor that provides the issuance of a command to detonate the ammunition in a wide range of speeds and angles of encounter of the ammunition with the target.

The technical results achieved during the implementation of the invention are to increase the reliability of the contact closure of the sensor, simplify its design, increase the noise immunity, as well as expand the functionality of the sensor by forming predetermined sensitivity zones, allowing the selection of the mode of detonation of ammunition depending on the speed and angle of meeting ammunition with a view.

This is achieved by the fact that in the contact sensor of the target containing the supporting housing, a sensing element in the form of an outer shell placed with a gap relative to the housing, and at least one pair of electrical contacts configured to close when the portion of the outer shell facing of the goal, by the size of the gap, it is new that the electrical contacts are made in the form of contacting insulated conductors placed in the gap between the outer shell and the supporting body with the formation of structures Defining a predetermined sensitivity zone.

The implementation of electrical contacts in the form of insulated conductors located in the gap between the outer shell and the bearing body eliminates the need to apply voltage to the elements of the shell of the ammunition. In this case, the noise immunity of the contact sensor of the target is increased, and its design is greatly simplified, since the elements that isolate the contacts of the sensor and, accordingly, the elements of the shell of the ammunition from each other are not needed.

Insulated conductors placed in the gap between the bearing body and the outer shell will be closed when the insulating layer between them is destroyed both by deformation of the outer shell by the size of the gap, and in case of direct contact with the surface of the target itself after the outer shell is destroyed. Due to this, an increase in the reliability of the contact closure of the sensor is achieved.

Since there is an insulation layer between the contacting conductors, sealing of the volume between the outer shell and the supporting body is not necessary. This is especially important when you need to place the contact sensor of the target outside the sealed volume of ammunition.

Figure 1 shows an embodiment of a contact target sensor having several sensitivity zones when it is placed, for example, in the bow of the munition.

Figure 2 is the same, view A.

The contact sensor of the target contains a bearing housing 1, placed relative to it with a gap Δ outer shell 2, which is simultaneously

the head fairing of the ammunition, and electrical contacts made with the possibility of shorting during deformation of the portion of the outer shell facing the target by the size of the gap, in the form of five pairs of conductors 3 isolated from each other, located in the gap Δ between the housing 1 and the outer shell 2. When In this, structures are formed from the conductors 3 (by stacking them with a certain step), which determine the given sizes of the sensor sensitivity zones.

The sensor can have either one sensitivity zone or several, depending on the task to be solved with the use of ammunition. This example shows the possibility of implementing in one sensor various sensitivity zones, which are spaced both by belts (for example, B, C, see figure 1), and by sectors (for example, I, II, III, IV, see fig. .2). That is, in zone B there are respectively four sensitivity zones. This is due to a certain placement in the gap of the required number of pairs of conductors connected to the corresponding channels of the electrical circuit of the munition fuse (not shown).

The separation of the sensitivity zones by belts and sectors increases the functionality of the contact sensor of the target. So, if the collision of, for example, a cumulative warhead with a target occurs in zone B, then the charge is undermined with the formation of a cumulative jet, and if in zone B (at small angles of impact), then, due to the separation of the sensitivity zones by sectors, the charge is undermined so that the shock wave and fragments of the body are directed towards the target, thereby increasing the high-explosive and fragmentation effects of the ammunition.

In addition, the separation of the sensitivity zones along the belts makes it possible to obtain a sequential circuit of the conductors used to estimate the rate of impact of the ammunition for the purpose necessary, for example, to form a delay in undermining the main charge relative to the time of undermining the additional charge in the tandem type of ammunition.

The spacing of the sensitivity zones of the contact sensor of the target by sectors can be used to form a field of fragments both in the direction of the contact zone of the munition with the target and in the direction from the target, that is, in a predetermined direction relative to the target.

To provide the required protection against electromagnetic interference and reliable electrical contact during closure, it is advisable to carry out the outer shell and the bearing housing from metal, for example, aluminum, with a conductive coating of the Chem type. Oks. E (GOST 9 303-84). It is desirable that the volume in which the insulated conductors are placed is closed. This will minimize interference in the fuse circuit. In this case, the type of connection of the outer shell with the supporting body is determined depending on the layout of the structural elements of the munition and the convenience of its assembly.

The electrically conductive coating of the surfaces of the outer shell and the bearing housing facing the conductors will further improve the reliability of their closure, since the closure of the conductors will occur not only directly between each other, but also through adjacent surfaces.

As insulated conductors, it is advisable to use, for example, conductors of two-core shielded wires of the ITU type (TU 16-505.083-78), manufactured in series, in which the conductors are interchanged with a certain step, although any types of existing wires and conductors having different sectional shape - cylindrical, rectangular, etc. The main thing is to ensure the conditions under which they will be closed when the portion of the outer shell facing the target deforms by the amount of clearance when the munition strikes with the target.

Contacting conductors are placed in the gap so that a spatial structure is formed that overlaps the required part of the surface of the supporting body and, accordingly, the outer shell, thereby forming a predetermined sensitivity zone. At the same time, to ensure maximum speed, the gap between the bearing body and the outer shell is chosen equal to two thicknesses (diameters) of the conductors, taking into account the layer (s) of their insulation.

It is advisable to place the conductors on the outer surface of the supporting body, since here it is more convenient to place and attach them to form a spatial structure. Obviously, this arrangement of conductors simplifies the manufacturing process of the sensor.

The sensor operates as follows. When the munition strikes with a target in the corresponding sensitivity zone, the outer shell 2 is deformed by an amount equal to the gap between the bearing housing 1 and the outer shell 2. In this case, the insulation between the conductors 3 and / or between each conductor 3 and the surfaces of the bearing housing 1 and outer shell 2. Due to the destruction of the insulation, the conductors 3 are closed, and upon their closure, a command is issued to detonate the ammunition.

Claims (1)

A target contact sensor comprising a supporting housing, a sensing element in the form of an outer shell placed with a gap relative to the housing, a pair of electrical contacts configured to close when the portion of the outer shell facing the target is deformed by the amount of the gap, characterized in that the pair of electrical contacts made in the form of contacting insulated conductors placed in the gap between the outer shell and the bearing body with the formation of a structure defining a given sensitive area and.

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