RU195613U1 - ACTIVITY MEANS - Google Patents

Abstract

The utility model relates to pyrotechnic devices of an automation system. The activation means comprises a housing, a locking mechanism, a safety mechanism, and a percussion mechanism located on the same axis as the detonator. The safety mechanism is configured to unlock the shock mechanism. The locking mechanism consists of a spring-loaded element and a locking ball, which is installed with the possibility of fixing the safety mechanism. A through hole is made in the housing to accommodate the blocking ball. A spring-loaded element is made in the form of a sleeve mounted on the housing with the possibility of movement in the axial direction. In addition, on the inner surface of the sleeve there is a groove corresponding to the size of the blocking ball and an emphasis for the spring, which is installed in such a way that its compressive force is applied to the sleeve and directed towards the object of engagement, and an annular protrusion is made at the end of the outer part of the sleeve. A nut is installed at the end of the case, through a ring interacting with the end of the external sleeve. The technical result consists in increasing the resistance to broadband random vibrations due to the relative position of the mechanisms relative to each other. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to pyrotechnic devices of an automation system.

Known fuse [p. RF №2228514, IPC ⁷ F42C 15/20, published May 10, 2004], comprising a housing, a locking mechanism, a safety mechanism and a shock mechanism located on the same axis as the detonator, while the safety mechanism is configured to unlock the shock mechanism, and The locking mechanism consists of a spring-loaded element and a locking ball, which is installed with the possibility of fixing the safety mechanism. The housing is equipped with two longitudinal parallel holes, separated by a wall with a channel in which a blocking ball is installed. The locking mechanism and the spring-loaded safety mechanism are located in different holes in the housing. On the spring-loaded sleeve of the safety mechanism, annular grooves are made, 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.

The advantage of the known device is that it is equipped with a firing chain of a safety type, triggering when a follower rod is moved a certain amount and initiating a receiving checker of the firing circuit.

However, the known device has the following disadvantages: low resistance to broadband random vibration and significant overall mass characteristics.

This device is taken as a prototype, as the closest in technical essence to the claimed utility model.

The task to which the claimed utility model is directed is to create a means of activation providing increased resistance to mechanical stress and reducing overall characteristics.

The technical result, which is achieved by the claimed utility model, is to increase the resistance to broadband random vibrations due to the relative position of the mechanisms relative to each other.

The specified technical result is achieved in that the actuation means comprises a housing, a locking mechanism, a safety mechanism and a percussion mechanism located on the same axis as the detonator, while the safety mechanism is configured to unlock the percussion mechanism, and the blocking mechanism consists of a spring-loaded element and a blocking ball, which is installed with the possibility of fixing the safety mechanism, according to a utility model, a through hole is made in the housing to accommodate a locking ball, and the spring-loaded element is made in the form of a sleeve mounted on the housing with the possibility of movement in the axial direction, in addition, on the inner surface of the sleeve there is a groove corresponding to the size of the locking ball and an emphasis for the spring, which is installed so that its compressive force is applied to the sleeve and directed towards the object of activation, and at the end of the outer part of the sleeve is made an annular protrusion.

In addition, in order to protect the means of activation from accidental influences that can cause the detonator to be triggered, a nut is installed in the end of the housing, interacting through the ring with the end of the external sleeve.

The presence in the claimed utility model of features that distinguish it from the prototype allows us to consider it appropriate to the condition of "novelty."

The utility model is illustrated in the drawing, in FIG. 1 is a longitudinal section through an actuator in its initial state.

The activation means comprises a housing 1, a locking mechanism, a safety mechanism, and a percussion mechanism located on the same axis as the detonator.

The impact mechanism consists of a striker 5, made in the form of a hollow cylinder with a conical protrusion, turning into a rectangular and ending with a sting, a rod 2 with an annular protrusion at one end and springs 3 and 4. In the inner cavity of the striker 5, a rod 2 is installed, passing through the spring 3 mounted inside the spring 4. One of the ends of each spring 3 and 4 abuts against the protrusion of the rod 2.

The safety mechanism consists of a sleeve 6, covering the impact mechanism, the ball 7, the sleeve 8 and the spring 9. The sleeve 6 has a blind end with an annular protrusion and a through hole in the side surface. The ball 7 is installed in the through hole of the sleeve 6, covered by the sleeve 8 and the spring 9. The inner surface of the sleeve 8 is equipped with a groove 10 for interaction with the ball 7, and the outer one has a conical protrusion. Spring 9 through a set of gaskets abuts against the protrusion of the sleeve 6, and the second end into the end face of the sleeve 8.

The housing 1 is made in the form of a hollow cylinder covering the safety mechanism. An annular protrusion is made at one end of the housing 1, and a through hole is made in the lateral surface. A plug 11 is installed in the internal cavity of the housing 1. A nut 12 is screwed into the end of the housing 1 with a protrusion through a ring interacting with a blocking mechanism.

The locking mechanism consists of an external sleeve 13, a locking ball 14 and a compression spring 15. The external sleeve 13 covers the housing 1 and has a groove on the inner surface 16 and a protrusion on the outer surface, while an annular protrusion 17 is made on the end of the external sleeve 17. The locking ball 14 installed with the possibility of interaction with the groove 16 of the outer sleeve 13. The compression spring 15 is installed in the inner cavity of the outer sleeve 13 with an emphasis in its protrusion, covering the housing 1.

The detonator is made in the form of a detonator capsule 18 installed in the blind hole of the equipped sleeve 19. The blind end of the equipped sleeve 19 is equipped with an annular protrusion.

The shock mechanism is installed in the inner cavity of the sleeve 6 of the safety mechanism with the springs 3 and 4 resting on the blind end of the sleeve 6. The ball 7 of the safety mechanism is installed in the through hole of the sleeve 6 with the possibility of unlocking the striker 5 of the shock mechanism when the groove 10 of the sleeve 8 is aligned with the through hole of the sleeve 6 . On the same axis with the striker 5 of the percussion mechanism in the inner cavity of the sleeve 8 of the safety mechanism mounted curb sleeve 19 of the detonator with the emphasis of the protrusion of the curb sleeve 19 at the end of the sleeve 8. Will protect The integral mechanism is installed in the internal cavity of the housing 1 and rests against the plug 11 with the deaf end of the sleeve 6. The blocking ball 14 of the locking mechanism is installed in the through hole of the housing 1 with the possibility of fixing the safety mechanism due to the conical protrusion of the sleeve 8. The compression spring 15 of the locking mechanism abuts against the free end into the protrusion of the housing 1, excluding unauthorized operation of the locking mechanism. A transition nut 20 is screwed onto the free end of the housing 1, abutting against the end of the outer sleeve 13. The indicated arrangement of the mechanisms relative to each other allows to increase resistance to broadband random vibrations and reduce the overall mass characteristics.

The device operates as follows

The actuating means is installed in the application object (not shown), the controlled element of which engages with the protrusion 17 of the external sleeve 13 of the locking mechanism, and the initiation object is joined through the external thread of the transition nut 20. After installing the actuating means, the nut 12 with the ring is removed from the housing 1.

When removing the cover from the application (not shown), the controlled element moves, pulling the external sleeve 13 along it, compressing the compression spring 15.

As a result, the outer sleeve 13 aligns the groove 16 with the through hole of the housing 1. Under the action of the spring force 9, the sleeve 8 pushes the blocking ball 14 into the groove 16 with a tapered surface. Continuing the movement, the sleeve 8 aligns the groove 10 with the through hole of the sleeve 6 and abuts the end surface in initiation object. Under the action of the springs 3 and 4 of the strikers 5, the ball 7 pushes the ball 7 out of the through hole of the sleeve 6 into the groove 10. Once released, the striker 5 accelerates under the action of the springs 3 and 4 and initiates the detonator capsule 18 from the composition of the equipped sleeve 19.

As a result, the means of engagement initiates the fire chain, the initial link of which it is.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed utility model:

• a tool that embodies the claimed utility model in its implementation, is intended for pyrotechnic devices of the automation system;

• for the claimed device in the form as described in the independent paragraph of the utility model formula, the possibility of its implementation is confirmed;

• a tool that embodies the claimed utility model in the implementation, is able to provide the creation of a means of activation providing increased resistance to mechanical stress and reducing overall characteristics.

Therefore, the claimed utility model meets the condition of "industrial applicability".

Claims (2)

1. The means of activation, comprising a housing, a locking mechanism, a safety mechanism and a percussion mechanism located on the same axis as the detonator, while the safety mechanism is configured to unlock the percussion mechanism, and the locking mechanism consists of a spring-loaded element and a locking ball, which is installed with the possibility fixing the safety mechanism, characterized in that a through hole is made in the housing to accommodate the locking ball, and the spring-loaded element is made n in the form of a sleeve mounted on the housing with the possibility of movement in the axial direction, in addition, on the inner surface of the sleeve there is a groove corresponding to the size of the blocking ball, and an emphasis for the spring, which is installed so that its compressive force is applied to the sleeve and directed towards the object of activation, and at the end of the outer part of the sleeve an annular protrusion is made. 2. The means of activation according to claim 1, characterized in that a nut is installed in the end of the housing, interacting with the end of the outer sleeve through the ring.

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