RU2344860C1 - Stand-alone thermal starter - Google Patents

Abstract

FIELD: heating; mechanics.

SUBSTANCE: stand-alone thermal starter includes dual-action firing mechanism enclosed into the housing and spring-loaded rod with clip and actuator represented with thermal chemical source of current. Cylindrical bushing with two diametrically opposite slots arranged along generatrix is situated on the free end of the housing. The clip is represented with two levers being symmetrical regarding the longitudinal axis of the housing. Each lever is fixed in bushing slot as hinge connection by one of the ends. The opposite end sections of the levers are implemented so that they can be connected with each other by bracing element represented with discontinuous ring, which is made of material with thermo mechanical shape memory. The cylindrical surface of spring-loaded rod is grooved. At the same time projections are available on the each lever surfaces directing to spring-loaded rod and contacting with groove. There is a projection in the middle part of the lever and corresponding groove is available on the cylindrical part of the spring-loaded rod.

EFFECT: reliability of operation and starter fabricality.

7 cl, 3 dwg

Description

The invention relates to fire fighting equipment, and more particularly to automatic control devices for fire fighting equipment and means for signaling a fire situation, and can be used for fire protection of various objects, including remote and with limited access.

A fire extinguishing installation control device is known from the prior art, comprising a thermocouple made of a material having a shape memory effect and an electrical contact means interacting with a thermocouple, as well as a reflector made in the form of a gutter with a parabolic cross section having a transverse kink in the central part, a thermocouple made in the form of a wire placed in the focal plane of the gutter along its longitudinal axis, and the electrical contact means is equipped with a spring-loaded rod, with a thermocouple in the place of fracture of the gutter, while the electrical contact means is equipped with a latch interacting with the rod, see. SU, class A62C 17/00, No. 1621966, published 01/21/1991. The device has increased reliability and less inertia. A disadvantage of the known device is the need to calibrate the wire thermocouple directly on the specific device immediately after its installation, which requires the presence of a highly qualified specialist and the availability of special equipment at each installation site. This drawback creates inconvenience when using the device.

A self-contained heat starter containing a solid fuel gas generator and a thermal trigger mechanism is detachable, for example, threadedly connected to a piezoelectric generator, which is connected by conductors to an electric igniter capsule of the gas generator, and the shock surfaces of the piezoelectric generator and the hammer of the trigger mechanism are convex, cm ., pat. RU, cl. A62C 35/00, No. 2101059, published 1998.01.10. The invention allows to spread the starter and the actual fire installation in space. In the specified known device as a thermal fuse, a bracket made of heat-sensitive material is used, interacting with the striker of the trigger mechanism. At the same time, the conical shape of the striker shaft, together with the gradual uncleaning of the counterpart of the bracket, does not allow to exclude the preliminary displacement of the striker prior to the beginning of its working stroke. Such a forced idle stroke of the striker is useless, worsens the work of the spring, and for thermal starters equipped with an inductor, it is simply unacceptable.

A self-contained heat starter containing a solid fuel gas generator and trigger mechanism, made in the form of a spring-loaded needle placed in the guide sleeve, the end of which is made symmetrical to the diameter of the groove, and on the tapered neck of the needle there is a thermal fuse located in the groove of the guide sleeve, the other end which is detachably, for example, threaded, mounted on the body of the gas generator coaxially with the throttle, solid propellant charge and the igniter capsule of the gas generator, while the fuse is made of a material having the shape memory effect, in the form of a cut ring with flats, see, US Pat. RU, cl. A62C 35/00, No. 2098157, published 1997.12.10. The well-known thermal starter provides, with the simplicity of the device and the manufacturability of structural elements, high speed and an unlimited number of checks of the thermal fuse in various operating conditions of the starter separately from the gas generator itself, which does not lead to changes in thermophysical characteristics and destruction of elements, significantly increases the likelihood of failure-free operation. This well-known design decision was made as a prototype as the closest analogue in technical essence and achieved result.

The disadvantage of the prototype is the presence in its design of a thermal fuse of complex shape, which is made of a material having a shape memory effect, for example titanium nickelide, by deforming the workpiece by a broach through a calibration hole to give a “standby” shape. In fact, such a technology is unique and expensive, and the cost of a thermal fuse becomes commensurate with the cost of the entire starter. In addition, the prototype is also not without the drawback associated with the forced and useless idle stroke of a spring-loaded needle. These disadvantages of the prototype limit the scope of its effective application and do not allow use for the purposes of the present invention.

The present invention is aimed at achieving a technical result, which is expressed in the fact that in a stand-alone thermal starter, the spring-loaded rod is in a stationary state relative to the housing before the start of its working stroke, i.e. in the starter, the preliminary shift of the spring-loaded stem is completely eliminated. In addition, a tightening element made of material with a thermomechanical memory of the shape of the trigger release lock, which is a rupture ring made of tape with local thinning, is simple and affordable to manufacture, can be easily installed and dismantled at the end sections of the levers without calibration of special equipment and thermostating and selective assembly.

Ultimately, the technical result indicated makes it possible to use various types of actuators in the starter design, as well as provide interchangeability of its individual elements, which significantly expands the starter's applicability and improves its economic characteristics. In an autonomous thermal starter, all the positive properties of the prototype are maximally preserved, the most important of which are reliability and manufacturability.

A positive result is achieved by the fact that an autonomous thermal actuator containing an actuator and trigger mechanism with a spring-loaded rod located in the housing, one end of which is mounted on the actuator, and on the other end of the housing is located with the possibility of interaction with the spring-loaded rod, a latch with an element from a material with a thermomechanical shape memory, differs from the prototype in that it is equipped with a cylindrical sleeve with two diametrically opposite slots along generatrix, which is mounted on the free end of the housing coaxially with it. In this case, the trigger lock is made in the form of two levers arranged symmetrically with respect to the longitudinal axis of the housing, each lever with one of its end sections is pivotally fixed in the slot of the sleeve, and the opposite end sections of the levers are made with the possibility of connection with each other by means of a tightening element made of material with thermomechanical shape memory. A recess is made on the cylindrical surface of the spring-loaded rod, and corresponding protrusions in contact with the recess are made on the surfaces of each lever facing the spring-loaded rod. A protrusion is made in the middle part of each lever, and a recess corresponding to the protrusions is made on the cylindrical surface of the spring-loaded rod.

It is possible to perform a tightening element in the form of a breaking ring from a tape with local thinning. Most fully the purpose of the invention corresponds to the articulation of the end portion of each of the levers in the slot of the sleeve by means of an axis and the equipping of the end portions of each of the levers from the side of the pulling element facing towards each other and made with the possibility of contact stops. It is preferable to perform the actuator actuator in the form of a thermochemical current source with a pyrotechnic start. Alternatively, it is possible to make the actuator actuator in the form of a thermochemical current source with electric start, while an inductance coil is placed coaxially with the housing, the electrical terminals of which are connected to the actuator electric start circuit, and the spring-loaded rod is made of a ferromagnet and magnetized. In all versions of the autonomous heat starter, it is advisable to equip it with a locking element made in the form of a cotter pin, while a through hole is made in the housing and the spring-loaded stem with the possibility of installing cotter pins in it.

The main purpose of an autonomous heat starter is to activate fire extinguishing means and / or a warning signal device by creating a current source of an appropriate electric pulse when the temperature is raised to a threshold in the zone of location of the heat-sensitive element. In hard-to-reach, remote and rarely visited objects, it is advisable to equip them with durable and fully autonomous fire extinguishing systems with a reliable launch system. A solid-salt, non-separate current source in the form of a solid-state checker made of an electrochemical composition based on a lithium alloy and iron disulfide, mounted in a single shell with a weight of an initiating substance, maximally satisfies these conditions. This type of redundant constant current source is capable of maintaining its properties in maintenance-free mode for at least twenty years.

To ignite a sample of the initiating substance, an electrical or mechanical impulse is required. The most effective means of generating an electric or mechanical impulse from the point of view of reliability and autonomy is the trigger mechanism with a spring-loaded rod mounted with the possibility of translational movement, equipped with a permanent magnet with an inductor or a conical striker, respectively. Such a trigger mechanism needs the same reliable and self-contained lock, and in this sense, there is practically no alternative to clamps with an element made of a material with a thermomechanical shape memory. However, any element made of a material with a thermomechanical shape memory restores the given shape gradually, as a certain temperature is reached, while the release of the spring-loaded stem should be carried out instantly, without preliminary displacement. Especially unacceptable is the preliminary displacement of the spring-loaded rod in the circuit with a thermochemical current source with electric start, since the preliminary electric pulse can damage the entire start system.

The implementation of the latch in the form of two levers pivotally mounted in the slots of the sleeve, turns it into a fully autonomous unit, which can be manufactured and configured separately, and if necessary, dismantled or replaced. This property of the latch is enhanced by the presence of a locking element made in the form of a cotter pin, which, in addition to the safety functions, provides the possibility of mounting / dismounting the latch without separating the housing from the actuator. The lever mounting scheme, as well as their shape in combination with the shape of the protrusions and undercut, provides reliable fastening of the spring-loaded rod without bias and skew, as well as its instant release and free working stroke.

The connection of the opposite end sections of the levers with each other by means of a tightening element made of a material with thermomechanical shape memory also solves the problem of instantly releasing the levers. In accordance with the present invention, a rupture ring made of tape with local thinning tends to restore its shape in the event of a fire, i.e. to shrink. In fact, the size of the rupture ring does not decrease, but internal stresses increase in it, aimed at tightening the levers with even greater force, up to a rupture in the area of local thinning. In this case, due to the stops, the pulling force is not transmitted to the spring-loaded rod. Thus, the force with which the spring-loaded rod is held in the cocked position remains constant throughout the entire standby mode, regardless of natural fluctuations in the ambient temperature. Tearing the tape under the influence of increasing internal stresses occurs instantly. At the same time, providing the necessary conditions for the gap is achieved quite simply, by the usual strength calculation. This solution greatly simplifies the manufacturing technology of the thermosensitive element, since there is no need to provide the required temperature deformations with micron accuracy, and therefore, calibration and calibration. At the moment of rupture of the tape, both levers are fully and simultaneously released, while leverage does not require special effort, since they freely rotate in the slot of the sleeve around the special axis of the hinges.

An autonomous thermal starter in accordance with the present invention avoids the indicated disadvantages of the prototype and increases its advantages, and the proposed choice of two types of starting a thermochemical current source is capable of satisfying the most demanding requirements with a balanced approach. The constructive integration of interchangeable elements and assemblies in the device can significantly simplify the manufacturing and operation technology, increase reliability and durability in the conditions of many years of maintenance-free use. Thus, all the signs of an autonomous heat starter of a fire extinguishing system that are distinctive from the prototype are aimed at obtaining a technical result, namely, providing the possibility of using various types of actuators in the starter design, thereby increasing the interchangeability of its individual elements while significantly expanding the scope of application of the starter and improving its economic characteristics .

An autonomous thermal starter, characterized by the described set of essential features, is new, industrially applicable and has an inventive step.

The technical solution is illustrated by drawings.

Figure 1 shows a sectional view of a General view of an autonomous heat starter in a charged state with an actuator in the form of a thermochemical current source with a pyrotechnic start; figure 2 - section aa in figure 1 with an increase; figure 3 is a section of a General view of an autonomous heat starter after it is triggered with an actuator in the form of a thermochemical current source with electric start.

An autonomous thermal starter consists of a trigger mechanism and an actuator. The trigger mechanism includes a spring-loaded rod 1 located in a cylindrical body 2. The spring-loaded rod 1 is equipped with a translational movement drive, which is a compression spring 3 mounted coaxially on the spring-loaded rod 1 in its middle part. The end section of the spring-loaded rod 1 is arranged to protrude from the housing 2. The actuator is fixed by means of a threaded section on one of the ends of the housing 2. On the side of the opposite (free) end of the housing 2 there is a latch that interacts with the spring-loaded rod 1. In addition, on the free the end face of the housing 2 is aligned with the cylindrical sleeve 4 with two diametrically opposite slots 5 made therein along the generatrix. The latch is made in the form of two levers 6 of the same shape, arranged mirror and symmetrically with respect to the longitudinal axis of the housing 2. The levers 6 are pivotally mounted in the slots 5 of the sleeve 4 with one of their end sections. In the figures, the hinged connection of the levers 6 in the slots 5 of the sleeve 4 is presented in the form rotational axes 7 mounted in through holes made in levers 6 and sleeve 4. Thus, the opposite (free) end sections of levers 6 are able to be brought together and interconnected by means of a pulling element made of a material with a thermomechanical shape memory. In Fig. 1, the tightening element is presented in the form of a rupture ring 8 made of a tape on which there is a section with local thinning 9. A rupture ring 8 of flexible tape is put on the shoulders of the free end sections of the levers 6 with a preload and pulls them together. In addition, the free end sections of the levers 6 are provided with stops facing towards each other 10. In the cocked state (see figure 1), the stops 10 are in contact with each other. A recess 11 is made on the cylindrical surface of the spring-loaded rod 1. On the surfaces of each lever 6 facing the spring-loaded rod 1, protrusions 12 are made. The shape of the protrusions 12 corresponds to the shape of the recess 11. In the cocked state (see FIG. 1), the protrusions 12 are in contact with the recess 11. Additionally trigger mechanism of an autonomous heat starter is equipped with a locking element, which is made in the form of cotter pin 13. In the housing 2 and the spring-loaded stem 1, a through hole 14 is made with the possibility of installation in it cocked TATUS shplintovoy checks 13 (see FIG. 1).

The actuator, which is shown in the figures as a thermochemical current source 15, is a backup-type constant-readiness power device, which is a structure in an airtight shell 16 with a solid state checker 17 made of a solid-salt non-separate electrochemical composition based on lithium alloy and iron disulfide. The thermochemical current source 15 has electrical leads 18 that are electrically connected through a normally closed contact to a signal device and / or a fire extinguishing aerosol generator (not shown conditionally in the figures). The solid state checker 17 is in direct contact with the weighed portion of the initiating substance 19, which is also predominantly housed in an airtight shell 16.

Thermochemical current source 15 with a pyrotechnic start (see figure 1) is equipped with a pyro cartridge 20 capsule type. This type of current source corresponds to the trigger mechanism of the shock. In the lower part, the spring-loaded stem 1 of such a mechanism is equipped with a conical striker 21.

Thermochemical current source 15 with electric start (see figure 3) is equipped with an incandescent bridge 22 with electrical leads. This type of current source corresponds to an electric trigger. The lower part of the spring-loaded rod 1 of such a mechanism is made of a ferromagnet and magnetized (in the figures, the corresponding poles of the permanent magnet are denoted by the letters S and N). Coaxially in the housing 2 is placed an inductor 23, the electrical terminals of which are connected to the electrical terminals of the circuit of the incandescent bridge 22. The lower part of the spring-loaded rod 1 has the ability to move inside the central axial channel of the inductor 23.

Autonomous thermal starter fire extinguishing system operates as follows.

An autonomous thermal starter is effective when used in fire extinguishing systems, mainly at remote, inaccessible and rarely visited facilities. The main components of the starter are delivered to the object separately, assembled and in the cocked position are installed stationary in the place of the most likely fire. After installing the fire extinguishing system, all fuses are removed, including the cotter pin 13 from the spring-loaded rod 1, and it is put into standby mode.

When a fire occurs and the temperature rises in the area of the discontinuous ring 8 of the tightening element made of a material with thermomechanical shape memory, up to the response threshold (72 ° C), a martensitic transformation occurs in the material, accompanied by the restoration of the predefined shape of the breaking ring 8. Explosive ring 8 It is designed for tensile strength when a certain temperature of the tape material is reached. The pre-tensioning force of the tape necessary to keep the free end sections of the levers 6 and the stops 10 in the reduced state is approximately 4 Kg. The force arising in the tape at its break is tens of kgf. Tape rupture occurs in the area with local thinning 9 almost instantly. Thanks to the stops 10, the levers 6, and with them the spring-loaded rod 1, remain stationary until the tape ruptures. Only after the release of the free end sections of the levers 6 and simultaneously with the separation of the levers 6 with the release of the protrusions 12 from the recess 11, does the working translational movement downward of the spring-loaded rod 1 under the influence of the spring 3 begin. Together with the spring-loaded rod 1 its lower end section also moves.

When implementing a thermochemical current source circuit 15 with a pyrotechnic start, a spring-loaded rod 1 equipped with a conical striker 21 interacts with the squib 20. Conical striker 21 strikes the capsule of the squib 20, which ignites itself and, in turn, ignites the weighed portion of the initiating substance 19. During implementation Schemes of a thermochemical current source 15 with electric start The lower part of the spring-loaded rod 1, made of a ferromagnet and magnetized, moves inside the central axial channel of the coil in ductility 23 and at the same time it generates a current pulse, which is transmitted through the electrical terminals along the circuit of the incandescent bridge 22. The electric pulse required to ignite a portion of the initiating substance 19 is 0.5-1.0 A, and the duration is 1-10 ms. In both cases, upon ignition of a weighed portion of the initiating substance 19, the solid-salt electrochemical composition of the solid-state checker 17 melts in a short time, which puts the thermochemical current source 15 into a state of generating a current of a given value. Through the electrical terminals 18, a signaling device is supplied with power (not shown conditionally in the figures), which provides light and / or sound signals, a radio signal to a remote receiver, such as a remote control or emergency telephone and / or a subscriber’s mobile phone. Simultaneously or sequentially, the fire extinguishing aerosol generator is connected and started (also not shown conventionally in the figures) equipped with an electric trigger, for example, a squib cartridge for the fire extinguishing aerosol generator.

The above described example of the implementation of an autonomous heat starter fire extinguishing system is given only for the purpose of explaining the invention. Specialists in this field can improve the system diagram and / or implement alternative options within the essence of the present invention, reflected in the description and drawings.

Claims (7)

1. An autonomous thermal actuator containing an actuator and a trigger mechanism with a spring-loaded rod located in the housing, one end of which is fixed to the actuator, and on the other end of the housing is located with the possibility of interaction with the spring-loaded rod, a latch with an element made of material with thermomechanical shape memory, characterized in that it is equipped with a cylindrical sleeve with two diametrically opposite slots along the generatrix, which is mounted on the free end of the body the mustache is coaxial with it, the latch is made in the form of two levers arranged symmetrically with respect to the longitudinal axis of the housing, each lever being pivotally mounted in one of its end sections in the slot of the sleeve, and the opposite end sections of the levers are made to be connected to each other by means of a tightening element made from a material with thermomechanical shape memory, a recess is made on the cylindrical surface of the spring-loaded rod, and on the surfaces of each lever facing the spring rod corresponding protrusions formed in contact with the recess. 2. The stand-alone thermal starter according to claim 1, characterized in that the tightening element is made in the form of a rupture ring from a tape with local thinning. 3. The stand-alone thermal starter according to claim 2, characterized in that the end section of each of the levers is pivotally fixed in the slot of the sleeve by means of an axis. 4. Autonomous thermal starter according to claim 3, characterized in that in it the end sections from the side of the pulling element of each of the levers are provided facing towards each other and made with the possibility of contact stops. 5. The stand-alone thermal starter according to claim 4, characterized in that the actuator is made in the form of a thermochemical current source with a pyrotechnic start. 6. The self-contained thermal starter according to claim 4, characterized in that the actuator is made in the form of a thermochemical current source with electric start, while an inductance coil is placed coaxially with the housing, the electrical terminals of which are connected to the actuator electric start circuit, and the spring-loaded rod is made from ferromagnet and magnetized. 7. An autonomous thermal starter according to any one of claims 1 to 6, characterized in that it is equipped with a locking element made in the form of a cotter pin, while a through hole is made in the housing and the spring-loaded rod with the possibility of installing cotter pin in it.

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