RU2228514C2 - Fuse - Google Patents

Abstract

FIELD: safety devices. SUBSTANCE: the fuse has a spring-loaded safety mechanism, spring-loaded firing pin, spring-loaded locking mechanism with a rod, and an initiating charge with an additional charge located in the body with two longitudinal parallel holes in the same axis with the firing pin in one of the parallel holes of the body. The longitudinal parallel of the body are separated by a wall with a duct, in which a locking ball is installed. The locking mechanism is positioned in another parallel hole of the body that is installed in a sleeve. The firing pin is located in a guide made in the form of a hollow cylinder with a cross duct for the locking ball. The guide is enveloped by a spring-loaded bush of the safety mechanism. Besides, the given bush envelopes an additional bush containing an initiating charge and an additional charge and having a gap with the sleeve bottom, the rod of the locking mechanism projects from the body and has a groove for engagement with the locking ball. Annular grooves are made on the bush, one of them faces the guide for engagement with the locking ball, and the other faces the body wall for engagement with the locking ball. EFFECT: enhanced safety of the device and reduced overall dimensions. 1 dwg

Description

The invention relates to safety devices designed to issue a detonation pulse, and in particular to non-inertia fuses triggered by external influences, and can be used in mining, oil and gas industries, in explosive devices for their activation.

Known shock fuse, comprising a housing, a spring-loaded striker located therein, a safety mechanism in the form of pulled pins and a locking mechanism in the form of two pairs of locking balls [1].

This device has small dimensions, simple design and provides safety during operation due to the inertia of the mechanism.

However, the device does not provide safety in emergency situations, for example in case of fire, as shock may trigger the shock capsule.

Closest to the claimed device is a propellant igniter containing a spring-loaded safety mechanism located in a housing with two longitudinal parallel holes, a spring-loaded striker, a spring-loaded locking mechanism with a rod and an initiating charge with an additional charge, which are placed on the same axis as the striker in one of the parallel holes housing, and the longitudinal parallel holes of the housing are separated by a wall with a channel in which a blocking ball is installed. The locking mechanism is located in the transverse channel of the housing perpendicular to the safety mechanism [2].

This device has a simple design and can be used to ignite explosive materials. For the operation of this igniter, acceleration is not required, because its activation is due to the stored energy of the spring.

However, the safety mechanism is designed so that it only works during acceleration, i.e. The device must have a sensitivity axis. And also it is possible that the device will be triggered in emergency situations, for example, in case of fire, as in a shock fuse.

The problem solved by this invention is to increase the safety of the device during operation and reduce the size.

The essence of the invention lies in the fact that the fuse, comprising a spring-loaded safety mechanism, a spring-loaded striker, a spring-loaded locking mechanism with a rod and an initiating charge with an additional charge located in a housing with two longitudinal parallel holes, are placed on the same axis as the hammer in one of the parallel holes of the housing moreover, the longitudinal parallel holes of the housing are separated by a wall with a channel in which a blocking ball is installed, and according to the invention a block The guiding mechanism is placed in another parallel opening of the housing, which is installed in the glass, the hammer is located in the form of a hollow cylinder with a transverse channel under the locking ball of the guide, which is covered by a spring-loaded sleeve of the safety mechanism, while the sleeve covers an additional sleeve installed with a gap with the bottom of the glass , in which the initiating and additional charges are placed, the rod of the blocking mechanism protruding beyond the housing and has a groove for interacting with the blocking ball, and on the sleeve are made annular grooves, one of which faces the guide to engage with a locking ball, and the other facing the wall of the housing for engagement with the blocking ball.

In our available sources of information, no technical solutions have been found that together contain features similar to the distinguishing features of the claimed invention. Therefore, the invention meets the criterion of "inventive step".

The problem is solved due to the fact that:

- the safety mechanism is installed with a gap δ from the bottom of the glass;

- the safety mechanism is made in the form of two bushings inserted into each other;

- the safety mechanism is combined with the hammer;

- An additional charge is located close to the drummer.

The presence of these new significant features, together with the well-known and common with the prototype, allowed us to create a new technical solution - a fuse that has small dimensions and a high degree of protection, which provides a high degree of safety during operation (especially in emergency situations).

The drawing shows a General diagram of the proposed device.

The fuse contains a cylindrical body 1 located in the blind hole of the glass 2. In the body 1 there are two longitudinal parallel holes 3, 4, separated by a wall 5 with a channel 6 in which a blocking ball 7 is installed. In the hole 3 there is a safety mechanism made in the form of two bushings 8 and 9 inserted into each other. The sleeve 9 covers the sleeve 8. The safety mechanism comprises a guide 10 in the form of a hollow cylinder with a blind bottom 11 and a shoulder 12 at the upper end. The guide 10 is placed in the sleeve 9. The spring 13 is located between the end of the sleeve 9 and the shoulder 12.

In the guide 10, a striker 14 is installed in the form of a hollow cylinder with a conical protrusion turning into a rectangular one and having a sting 15.

The spring 16 is located in the drummer 14. In the guide 10 there is a transverse channel 17 in which the locking ball 18 is mounted. The locking ball 18 is mounted so that it engages with the conical surface of the hammer 14. In the sleeve 9, annular grooves 19 and 20 are made. Ring groove 19 is directed to the guide with the possibility of interaction with the locking ball 18. The annular groove 20 faces the wall 5 with the possibility of interaction with the blocking ball 7.

The safety mechanism is held in the housing with a gap δ from the bottom of the cup 2 due to the annular groove 20 in the sleeve 9 and the locking ball 7.

The sleeve 8 contains an initiating charge 21, an additional charge 22 and a flame divider, consisting of a ring 23 and a pin 24. The initiating charge 21, an additional charge 22, a flame divider and a hammer 14 are located coaxially in the safety mechanism.

The housing 1 also contains a locking mechanism mounted in the longitudinal hole 4 parallel to the safety mechanism.

The blocking mechanism comprises a spring 25 and a cylindrical rod 26 abutting against the sleeve 27. The rod 26 extends beyond the housing 1 and is provided with an annular groove 28 for interaction with the blocking ball 7.

The spring 25 is located in the hole 4 between the bottom of the cup 2 and the surface of the rod 26.

The locking mechanism is designed to mechanically fix the sleeve 27 in all operating conditions and emergency situations.

The housing 1 is fixed in the glass 2 with a nut 29. The internal volume of the fuse is sealed with a ring 30 and a gasket 31. Near the bottom of the glass 2 there is a receiving plate 32 of a pyrotechnic or explosive device.

The fuse works as follows.

When a force P is applied to the rod 26, it moves, overcoming the force from the spring 25 to the stop in the bottom of the cup 2. In this case, the groove 28 on the rod 26 is installed opposite the channel 6 for rolling out the blocking ball 7. The sleeve 9, pushing the blocking ball with the conical surface of the annular groove 20 7, moves under the action of the spring 13 until it stops at the bottom of the cup 2. This eliminates the break in the fire chain between the additional charge 22 and the bottom of the cup 2. The annular groove 19 of the sleeve 9 is installed opposite the transverse channel 17 for rolling the ball a 18. The tip 15, pushing the locking ball 18 with its conical surface, moves under the action of the spring 16 and, accelerating, activates the initiating charge 21. The force of the flame from the initiating charge 21, passing through the ring 23 and the pin 24 of the divider, activates an additional charge 22, which through the bottom of the glass 2 gives a detonation pulse to the receiving checker of a pyrotechnic or explosive device.

Thus, the location of the additional charge close to the firing pin led to a decrease in the dimensions of the device, and the presence of a gap between the additional charge and the bottom of the cup made it possible to significantly increase the safety of the fuse.

Sources of information

1. French patent No. 2199862, cl. F 42 C 15/00, 1974

2. German application No. 4127023, cl. F 42 C 15/20, 1991

Claims (1)

A fuse comprising a spring-loaded safety mechanism located in a housing with two longitudinal parallel openings, a spring-loaded striker, a spring-loaded locking mechanism with a rod and an initiating charge with an additional charge, which are placed on the same axis as the hammer in one of the parallel openings of the housing, the longitudinal parallel openings of the housing being divided a wall with a channel in which a blocking ball is installed, characterized in that the blocking mechanism is placed in another parallel hole With the housing installed in the glass, the hammer is located in a guide made in the form of a hollow cylinder with a transverse channel, which is covered by a spring-loaded sleeve of the safety mechanism, while the sleeve covers an additional sleeve installed with a gap with the bottom of the glass and in which the initiator is placed and additional charges, moreover, the rod of the locking mechanism extends beyond the housing and has a groove for interaction with the locking ball, and annular grooves are made on the sleeve and, one of which is facing the rail with the possibility of interaction with the locking ball, and the other is facing the wall of the housing with the possibility of interaction with the blocking ball.