RU2070483C1 - Portable pyrotechnic shears - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: shears comprises pivotally interconnected top and bottom knives, spring-loaded plunger with slide and piston mounted inside the housing and interacting with knives by way of axles and shackles, cartridge chamber coupled with the above-piston space and interacting with hummer mechanism mounted inside the housing of the handle and having trigger with a spring- loaded pin, and striker and slide with a spring-loaded lock. Between the cartridge chamber and above-piston space is the chamber for preliminary combustion mounted together with the cartridge chamber inside the individual housing and provided with an orifice of a nozzle mounted at the inlet of the above-piston space. The above-piston space is provided with the second orifice of the second nozzle coupled with the atmosphere through a gas splitter. The spring-loaded plunger with the slide is provided with a stop that interacts with the bearing area of a damper after completion of a cutting. The damper is made up as ring conical springs. The slide of the spring-loaded plunger is provided with the bearing area made inside the housing and has ring grooves with radial openings coupled with the inner space made in the spring- loaded plunger and filled with a lubricant. The top and bottom knives interact with quick-detachable handle made up as a tube with a cramp having grooves and openings. The grooves are in a contact with the axle of the cutting knife. The handle is locked by way of a quick-detachable axle through the opening made in the axle of the pivot joint of the knives. The gas splitter is made up as a housing comprising two parts. Inside one of the part is cylindric surface connected with the second orifice of the second nozzle at the outlet of which a cone is mounted that belongs to the other part of the housing provided with a deflector and openings arranged downstream of the deflector. EFFECT: improved design. 5 cl, 9 dwg

Description

 The invention relates to the field of metal-cutting tools and can be used in emergency rescue operations, in an automobile inspection for dismembering the structure of a car that has crashed, to provide access to the injured, in fire departments to provide access to burning facilities, in other emergency situations; in addition, in procurement for cutting rods, cables.

 Portable scissors are known (1). These portable scissors consist of scissors proper, including pivotally rotary cutting knives articulated by an axis with a hydraulic mechanism with a piston and valves, connected by high pressure hoses to a compressor, which, in turn, is connected to an internal combustion engine or an electric motor.

 The main disadvantage of these portable scissors is their dependence on an external energy source (engine with compressor). An external energy source imposes great restrictions on the possibility of using these scissors in extreme situations. It takes a long time to deliver and prepare these scissors for work, the inability to transfer the scissors over long distances from the engine with the compressor due to the limited length of the hoses, which imposes restrictions on working with them in hard-to-reach places, in addition, these scissors cannot be cut manually from the muscular forces (without the use of an engine with compressor).

 Portable scissors are also known (2). These scissors consist of rotary cutting knives pivotally connected by an axis, a wedge gear transmission, a high pressure piston actuator, a low pressure piston actuator, a bypass valve system of both small and high pressure, a stationary handle and an integrated reservoir with hydraulic fluid.

 These portable scissors also contain drawbacks consisting in the high laboriousness of cutting and the significant time of one cutting cycle (compression - unclenching of the knives), due to the fact that it is necessary to pump hydraulic fluid on the principle of a jack, in addition, these scissors are very complex in design, what should be reflected in their reliability and, according to the authors, should have a large mass.

 The closest to the claimed portable pyrotechnic scissors (hereinafter referred to as scissors) in terms of technical nature and the achieved effect, according to the authors, is a cutting device (3), adopted by the authors as a prototype (according to the technical nature of this device is nothing more than portable pyrotechnic scissors).

 It contains a fixed and a movable knife, while the movable knife is made in the form of a slider mounted in the housing of the fixed knife and which is part of the spring-loaded pusher with a piston, in addition, there is an over-piston cavity with a chamber in front of the piston, interacting with the trigger mechanism located in the handle body and having a striker, a spring-loaded drummer. At the same time, the scissors are equipped with a bolt with a spring-loaded lock, connecting the chamber with the trigger mechanism.

This device eliminates a number of disadvantages belonging to the above counterparts. It is autonomous and independent of external energy sources. However, it also contains drawbacks consisting
the impossibility of cutting various structural designs of mechanical engineering;
the impossibility of regulating the cutting force with one variety of cartridges and a large vibration impact both at the initial moment of operation of the device and at the final;
uncertainty of the output of exhaust hot gases and a high noise level;
the need for complete disassembly of this device after each work for cleaning and lubrication;
the impossibility of manual (without cartridge) cutting (chopping) of the material;
the inability to re-engage the trigger mechanism without an additional platoon;
insufficient safety during work, transfer of a charged device;
insufficient shutter reliability.

 These disadvantages are due to the fact that the design of the fixed knife and the execution of the movable knife in the form of a slider allow you to cut (chop) only rods, pipes of a certain (small) diameter, and cutting knives are necessary for cutting engineering structures.

 This device operates on a specific cartridge. According to their characteristics, all cartridges at the initial moment of operation develop a large, but very short-term peak of pressure increase and which practically does not affect the cutting force developed by scissors. In these scissors, this pressure peak arises in the supra-piston cavity and chamber and interacts directly with the piston, which causes a large vibro-shock impact at the initial moment of cutting, which negatively affects the one working with this device. This device does not have the ability to adjust the cutting force and vibration. In addition, after completing the cutting stroke, the slider rests against a hard stop, while the device operating at the final cutting moment also experiences a large vibrational impact, and the fixed knife must be so strong as to absorb kinetic energy, dynamic and inertial loads of the slider, and at the same time absorb cutting force. This embodiment of the device requires additional structural mass and additional physical effort working with this device.

 When using this device, the exhaust hot gas through the gaps in the movable elements enters the atmosphere, polluting the entire mechanism with combustion products, and creates a high noise level, which imposes operational restrictions on the possibility of its use, in addition, after each work, it requires complete disassembly, cleaning, then lubrication and assembly in the reverse order, which is very time-consuming to operate and leads to corrosion of parts, their rapid wear.

 This device has the ability to work only from the cartridge, even if it is necessary to cut the part with minimal effort, in addition, in the case of misfire, a second, additional cocking of the trigger mechanism is necessary, which is inconvenient and requires additional time, while the cocked trigger mechanism requires mandatory descent, and this when equipped device requires mandatory operation or when the cocked trigger mechanism is necessary to remove the cartridge, which is not safe, both when working with scissors and when transferring them to emya operation in case of accidental pulling the trigger.

 The design of the shutter is very unreliable, both from the point of view of the power circuit, hook engagement is unreliable in explosive and dynamically operating devices, as well as operational, in case of careless movement it is possible to touch the spring-loaded shutter hook, while it can slip off the handle body, opening the latter, and if If this happens at the moment of operation, the cartridge case may fly out towards the working one.

 The basis of the invention is the solution to the problem of creating portable pyrotechnic scissors for cutting metal structures of mechanical engineering, metals and other materials and structures that work autonomously, both from an internal energy source with minimum time and labor costs, and manual operation, while ensuring safety in work, the ability to control the cutting force and vibration, both at the initial and final moments of cutting with the same cartridge, the ability to strictly determine bleeding of exhaust gases, while ensuring the minimum permissible noise, the possibility of partial disassembly of the scissors for cleaning and eliminating the need to lubricate their internal elements for the entire period of operation, the possibility of triggering the trigger mechanism when the trigger is pulled without cocking the trigger mechanism and providing protection against abnormal pricking of the capsule lively cartridge when the trigger mechanism is involuntarily triggered when operating or carrying curved scissors, improving the safety of the trigger mechanism for closing the chamber, and, moreover, increase the reliability and safety shutter.

 To solve this problem, in known portable pyrotechnic scissors containing upper and lower knives pivotally connected by an axis, a spring-loaded pusher with a slide and a piston, housed in the housing and interacting by means of axes and earrings with knives, a chamber connected to the over-piston cavity and interacting with the trigger mechanism, placed in the handle housing and having a trigger with a spring-loaded striker, a striker and a bolt with a spring-loaded lock, in them between the chamber and the piston cavity a pre-combustion chamber placed with a chamber in a separate housing and equipped with a calibrated nozzle hole installed at the entrance to the supra-piston cavity, while the supra-piston cavity is equipped with a second calibrated hole of the second nozzle connected through a gas divider with the atmosphere, and a spring-loaded pusher with a slider is equipped with a stop interacting after completing the cutting process with the supporting platform of the damper, made in the form of annular conical springs, the slider of the spring-loaded pusher is provided with n the support platform, which interacts after the cutting process with the counter support platform, made in the body, and has annular grooves with radial holes connected to the internal cavity made in the spring-loaded follower and filled with grease, in addition, the upper and lower knives interact with an easily removable handle, made in the form of a pipe with a bracket with grooves and holes, in contact with the grooves with the axis of the cutting knife and fixed easily removable axis through the hole made in the axis of articulation of the knives.

 At the same time, the difference between the proposed portable pyrotechnic scissors is that the gas divider is made in the form of a housing consisting of two parts, inside one part there is a cylindrical surface connecting to the second calibrated hole of the second nozzle, and at the outlet of which there is a cone belonging to the other part of the housing equipped with a reflector and holes located behind the reflector.

 In addition, the difference between the proposed portable pyrotechnic scissors is that the trigger of the trigger mechanism is spring-loaded and equipped with a rocker mounted on it and spring-loaded relative to it with a protrusion interacting with the reciprocal profile protrusion on the upper shoulder of the two-shouldered hammer, interacting with the striker, pivotally mounted together with a spring-loaded bracket in the handle body, and the lower shoulder of the hammer interacts on the one hand with the bracket, on the other hand with the trigger guard yuchko, while the bracket is equipped with protrusions that interact with curly grooves in the handle housing. In addition, the trigger mechanism is equipped with a fuse made in the form of a spring-loaded axis with a flag mounted in the handle housing with grooves in contact with the upper arm of the hammer and spring.

 Another difference of the proposed portable pyrotechnic scissors is that the shutter is made in the form of an axis installed in the openings in the handle housing and the chamber of the chamber and interacting with a bar pivotally mounted on the handle housing and spring-loaded relative to it by means of a spring placed in a button installed in the housing handles and tied rod with strap.

 The implementation of a pre-combustion chamber with a calibrated nozzle opening at the entrance to the supra-piston cavity between the chamber and the supra-piston cavity allowed the combustion of the powder of the cartridge in the pre-combustion chamber, eliminating the effect of the peak of pressure increase on the piston at the initial moment of operation and ensuring a smooth increase in pressure in the supra-piston cavity, and at the same time with the implementation in the nadporshne cavity of the second calibrated hole of the second calibrated nozzle connected through a gas divider with atmosphere, at a certain ratio of diameters of the calibrated nozzle hole installed at the entrance to the supra-piston cavity and the second calibrated hole of the second nozzle installed in the supra-piston cavity, it was possible to control the cutting force during cutting and vibration impact at the initial moment of cutting. A calibrated hole with a larger diameter nozzle installed in the combustion chamber at the entrance to the nadporson cavity increases the cutting force and shock, and a calibrated hole with a larger diameter nozzle installed in the nadporson cavity reduces the cutting force and vibration. Various combinations of diameters of calibrated holes of these nozzles allow you to choose the necessary cutting force and minimal vibration impact.

 The connection of the second calibrated nozzle orifice through a gas divider with the atmosphere made it possible to dissect the exhaust gas stream and provide a strictly defined exhaust gas discharge into the atmosphere.

 Placing the combustion chamber with the chamber in a separate housing made it possible to partially disassemble the scissors for cleaning, only by disconnecting the chamber of the chamber and removing the piston, which is not difficult and acceptable in operation.

 The implementation of a spring-loaded pusher with a slider with a stop interacting after the cutting process with the damper bearing pad made in the form of ring conical springs made it possible to extinguish the kinetic energy, dynamic and inertial loads of the movable scissor elements after the cutting process, since ring conical springs are the most energy-intensive damper, and generally significantly reduce vibration impact at the final moment of cutting.

 The supply of the slider of the spring-loaded pusher with a support platform, which interacts after the cutting process with a counter support platform made in the housing, made it possible to extinguish the remaining energy after the damper by means of a hard stop of the slide in the housing.

 The execution of the slider of the spring-loaded pusher with annular grooves with radial holes connected to the internal cavity made in the spring-loaded plunger and filled with grease made it possible to lubricate the friction parts of the part of the scissors that could not be disassembled during operation and thereby eliminate the need for lubrication of internal elements for the entire period of operation.

 The interaction of the upper and lower knives with an easily removable handle made in the form of a pipe with a bracket with grooves and holes, contacting the grooves with the axis of the cutting knife and fixed by means of an easily removable axis through a hole made in the axis of articulation of the knives, made it possible to manually cut various materials without a cartridge , sheet steel roof, car wings as ordinary scissors.

 The implementation of the gas divider in the form of a housing consisting of two parts, inside one part there is a cylindrical surface connecting to the second calibrated hole of the second nozzle, at the outlet of which there is a cone belonging to the other part of the housing, equipped with a reflector and holes located behind the reflector, allowed to isolate a stream of exhaust hot gases inside a cylindrical surface, dissect it with a cone and extinguish it, allow the gas to expand and turn it towards the first part with a reflector ti housing. There, the exhaust gas expands, unfolds from the wall of the first part of the body and into the openings of the second part of the body located behind the reflector, enters the atmosphere in the form of a light haze from the side of the person’s hands, eliminating the possibility of burns and increasing the safety of work, eliminating the possibility of ignition of flammable substances. In addition, the gas cutter acts as a silencer, absorbing noise to the minimum acceptable level and making the operation of portable pyrotechnic scissors almost noiseless.

 The execution of the trigger spring-loaded and the articulation of a spring-loaded rocker relative to it with a protrusion interacting with a mating protrusion made on the upper shoulder of a two-armed striker interacting with the striker and pivotally mounted together with a spring-loaded bracket in the handle body, and the lower shoulder of the striker interacts on one side with the bracket, and the other side with the trigger, while supplying the staples with protrusions interacting with curly grooves made in the handle housing allows I create samovzvodyaschiysya mechanism, ie does not require pre-platoon and eliminating the possibility of accidental impaling primer cartridge.

 The supply of the trigger mechanism with a fuse made in the form of an axis with a flag mounted in the handle body, with a groove in the place of contact with the upper arm of the hammer made it possible to create a fuse that excludes the cartridge from triggering when the trigger is pulled involuntarily, eliminating the need to remove the unused cartridge by placing the trigger mechanism on fuse, and ensure safety when equipping and discharging scissors.

 The execution of the shutter in the form of an axis installed in the holes in the handle body and the chamber body interacting with the bar, pivotally mounted on the handle body and spring-loaded relative to the body by means of a spring located in a button connected by a rod with the bar and placed in the handle body, made it possible to create a reliable shutter by means of an axis working on a cut in two planes, and to ensure its reliable automatic locking, eliminating the involuntary opening of the shutter and increasing safety during operation, but reapers.

In FIG. 1 shows a general view of portable pyrotechnic scissors;
in FIG. 2 the same, in a closed position;
in FIG. 3, section AA in FIG. 1 (preliminary combustion chamber with nozzles and a gas divider);
in FIG. 4 node I in FIG. 2 (a spring-loaded pusher with a slider with a stop and a support platform);
in FIG. 5, section BB in FIG. 2 (fastening of the easily removable handle);
in FIG. 6 node II in FIG. 1 (trigger mechanism with its elements);
in FIG. 7, section BB in FIG. 6 (drummer with a profile protrusion, a rocker with protrusions, a bracket with a protrusion and a body with curly grooves);
in FIG. 8 section GG in FIG. 6 (fuse with grooves and fuse);
in FIG. 9 section DD in FIG. 1 (shutter with its elements).

 The invention meets the criteria of an inventive step, since the existing distinguishing features of the invention from a known level have not been identified.

 Portable pyrotechnic scissors contain the upper 1 and lower 2 knives pivotally connected by an axis 3, a spring-loaded pusher 4 with a spring 5, a slider 6 with a support platform 7 and a piston 8, placed in the housing 9, an earring 10, connecting to the knives 1 by means of axes 11 and 12 and 2 a slider 6, a chamber 13, a supra-piston cavity 14, a pre-combustion chamber 15 with a calibrated opening 16 nozzles 17, placed with a chamber 13 in a separate housing 18, a supra-piston cavity 14 is provided with a second calibrated hole 19, made in the second nozzle 20 connected to the Sekatel gases 21 in the housing 22, the damper 9 is composed of the ring 23 and the conical spring having a support surface 24 which cooperates with abutment 25 belonging to the push rod 4; the slider 6 of the spring-loaded pusher 4 comprises an internal cavity 26, a support platform 7 interacting with the support platform 27, and is provided with annular grooves 28 with radial holes 29 connected to the internal cavity 26 filled with lubricant 30; the upper 1 and lower 2 knives interact with an easily removable handle 31, consisting of a pipe 32 with a bracket 33 with grooves 34, interacting with the axis 11 of the upper 1 knife and holes 35, interacting with the easily removable axis 36, installed in the hole 37, made in the axis 3 of the hinge connection of knives 1, 2; the gas divider 21 is made in the form of a housing 38 and consists of two parts, one part 39 contains a cylindrical surface 40, the other part 41 is a cone 42 located at the outlet of the cylindrical surface 40, and is equipped with a reflector 43 and holes 44 located behind the reflector 43; the chamber 13 is connected to the trigger mechanism 45 located in the handle housing 46, pivotally connected to the separate housing 18 of the chamber 13 and the lockable bolt 47. The trigger mechanism 45 comprises a spring 49, a trigger 49 mounted on it and a spring 50 relative to it 50 rocking chair 51 with the protrusion 52, the hammer 53, made in the form of a two-shouldered lever with a profile ledge 54 on the upper shoulder 55, interacting with the striker 56. The hammer 53 is pivotally mounted in the housing of the handle 46 together with the bracket 57, a spring-loaded dinner 58, the lower arm 59 of the firing pin 53 interacts with one side 60 with the bracket 57, the other side 61 with the trigger 49. The bracket 57 contains protrusions 62 located in the figured grooves 63 of the handle body 46. A spring-loaded fuse 64 is pivotally mounted in the handle body 46 65, consisting of an axis 66 with a flag 6 and having grooves 68, 69 at points of contact with the upper arm 55 of the hammer 53 and spring 65, respectively. A shutter 47 is installed in the handle housing 46, made in the form of an axis 70 located in the holes of the separate housing 18 and the handle housing 46. The axis 70 interacts with a bar 71 pivotally mounted on the handle housing 46. The shutter 47 also includes a button 72 located in the handle housing 46, connected with the rod 73 with the bar 71, and is spring-loaded with a spring 74 located in the button 72 on the rod 73. In addition, a profile protrusion 75 is made on the handle housing 46, interacting with the extractor 76, pivotally mounted on the housing 18 of the chamber 13. For carrying on the shoulder scissors are equipped with an easily removable and length-adjustable belt 78.

 Portable pyrotechnic scissors work as follows.

 Before starting the cutting, the worker presses the button 72 located in the handle body 46, and moving it, compresses the spring 74, and by means of the rod 73 connected with the button 72, turns the bar 71. In this case, the axis 70 leaves one hole in the handle body 46 and from the hole in the housing 18 of the chamber 13, after which the housing of the handle 46 is pivotally rotated relative to the housing 18, opening the chamber 13. The worker inserts the idle igniter 77 into the chamber 13 until it stops in the extractor 76, after which it returns the housing of the handle 46 to its original position, repeated m by pressing the button 72 brings the handle 46 to the stop in the housing 18 of the chamber 13 and releases the button 72. In this case, under the action of a spring 74 located on the rod 73 in the button 72, the axis 70 returns to the hole in the housing 18 of the chamber 13 and into one hole in the housing of the handle 46, while the shutter 47 locks the handle 46 and eliminates the loss of the squib 77. Then the fuse 64 for the flag 67 is rotated forward, while the groove 68 of the axis 66 rises in front of the upper arm 55 of the hammer 53, allowing the hammer 53 to interact smoothly 56 and removing the trigger mechanism 45 from the fuse 64. The spring 65 fixes the axis 66, interacting with the groove 69 (when installing the trigger mechanism 45 on the fuse 64, the axis 66 for the flag 67 turns in the opposite direction, while the groove 68 leaves the upper arm 55 of the firing pin 53 , protecting the striker 56 from interacting with the hammer 53, the spring 65 also fixes the axis 66, interacting with a stepped groove 69). After that, a cuttable structure is installed in the throat of knives 1 and 2 and the trigger 49 of the trigger mechanism 45 is spring-loaded with spring 48. The protrusion 52 pivotally mounted on the trigger 49 and the spring-loaded spring 50 of the rocker 51 interacts with the protrusion 54 of the hammer 53. Upper shoulder 55 the hammer 53 is retracted from the hammer 56, and the lower shoulder 59 with one side 60 retracts the bracket 57 by pulling the springs 58, the protrusion 52 of the rocker 51 rolls the profile protrusion 54 of the hammer 53 and jumps from it, and the spring 57 engaged by the springs 58, interacting the lower arm 59 of the striker 53, sharply turns the striker 53 in the opposite direction, the protrusions 62 of the bracket 57, moving in the curly grooves 63 of the handle body 46, stop abutting against the edges of the grooves 63, and the striker 53 continues its further inertia movement, strikes the striker 56, which pierces the capsule of the squib 77. The trigger 49 is released and, under the action of the spring 48, returns to its initial position, the protrusion 52 of the rocker 51, under the action of the spring 50, jumps over the profile protrusion 54 of the hammer 53, and the lower shoulder 59 of the hammer 53 abuts the other side 61 in Uskova hook 49, placing the hammer 53 from the pin 56 and eliminating prick capsule cutter 77 during recharging. The bracket 57 at the final moment does not interact with the lower shoulder 59 of the striker 53, since the protrusions 62 abut against the edges of the curly grooves 63 of the handle 46 and limit its movement. In this case, the trigger mechanism 45 is ready for re-operation. After the capsule is pierced, the powder in the igniter 77 ignites, burns and expands in the preliminary combustion chamber 15 and through the calibrated hole 16 in the nozzle 17 installed at the outlet of the preliminary combustion chamber 15 enters the supra-piston cavity 14. The pressure created by the hot gases acts on the piston 8. The piston 8 moves, interacting with the pusher 4, which also moves together with the slider 6, compressing the spring 5, and the slider 6 connected by the earring 10 through the axes 11, 12 with the upper knife 1, unfolds the last, p cutting the object placed in the throat of knives 1, 2. The pusher 4 at the end of the stroke with its emphasis 25 interacts with the supporting platform 24 of the ring conical springs 23 of the damper 22. The ring conical springs 23 interact with each other, are compressed, absorbing energy. The contact of the stop 25 with the support platform 24 begins after the cutting process. After a certain compression of the annular conical springs 23, if not all the energy is absorbed, the slider 6 interacts with the supporting platform 7 of the housing 9 with the supporting platform 27, stopping the movement of the pusher 4 with the slider 6, the piston 8 and the upper knife 1. Then the spring 5 returns the upper knife 1, the pusher 4 with the slider 6 and the piston 8 to its original position. During operation, the lubricant 30 located in the inner cavity 26 of the pusher 4 is squeezed out through inertia through the radial holes 29 and the annular grooves 28 in the slider 6, providing lubrication of the rubbing surfaces for the entire period of operation. At the moment of actuation, the hot gas located in the supra-piston cavity 14, through the second calibrated hole 19 of the second nozzle 20 installed in the supra-piston cavity 14, enters the gas divider 21, immediately after the nozzle the gas enters the cylindrical surface 40 of the first part 39 of the housing 38, then dissects about the cone 42 of the other part 41 of the housing 38, expands, turns around from the reflector 43 and moves to the wall of the first part 39, then turns around again and through the holes 44 of the other part 41 located behind the reflector 43, enters the atmosphere, while m the noise from the operation of the squib is absorbed, and the escape of sparks is excluded. The piston 8, the chamber 13, the preliminary combustion chamber 15, the nozzles 17, 20 are placed in a separate housing 18, while eliminating the need for a complete disassembly of portable pyrotechnic scissors for cleaning, it is enough to detach the housing 18 and remove the piston 8 and nozzles 17, 20. Repeated operation produced similarly to the first. In case it is necessary to cut thin material and does not require large cutting efforts, an easily removable handle 31 is mounted on portable pyrotechnic scissors, while the bracket 33 is put on the lower knife 2, the grooves 34 of the bracket 33 are inserted on the axis 11 of the connection of the upper knife 1 with the earring 10 and through the holes 35 in the bracket 33 and the holes 37 in the axis 3 are fixed with an easily removable axis 36 on portable pyrotechnic scissors, then, like ordinary scissors, pressing the pipe 32, the material is cut. The knives are unclenched under the action of the spring 5 and the pipe outlet 32. Having removed the easily removable axis 36, the easily removable handle 31 is easily removed, and the portable pyrotechnic scissors are ready for operation from the squib.

 Using the invention in comparison with the prototype allows you to create portable pyrotechnic scissors that provide work from both an internal energy source and manual work, capable of disassembling the engineering structure, while ensuring safety, noiselessness, reliability, the ability to control cutting forces and ease of use.

 These portable pyrotechnic scissors intend to acquire traffic police to provide picket posts and mobile vehicles, fire services and other organizations related to emergency situations, and they, according to the authors, will find wide application in emergency rescue operations.

Claims (5)

 1. Portable pyrotechnic scissors containing upper and lower knives, a spring-loaded pusher with a slider and a piston, placed in the housing and interacting with the axes with the knives, a chamber associated with the supra-piston cavity and interacting with the trigger mechanism located in the handle housing and having a trigger with spring-loaded striker, striker, and spring-loaded bolt, characterized in that the upper and lower knives are pivotally connected by an axis and interact through an earring with a spring slider and a piston m, and between the chamber and the over-piston cavity there is a preliminary combustion chamber placed with the chamber in a separate housing and provided with a calibrated nozzle hole installed at the inlet of the over-piston cavity, the over-piston cavity is provided with a second calibrated second nozzle hole connected through the gas divider to the atmosphere, and a spring-loaded the pusher with a slider is equipped with a stop, interacting after the cutting process with the supporting platform of the damper, made in the form of ring conical springs, When the slider is provided with a spring-loaded ram support platform interacting after the cutting process with a reciprocal support plate formed in the housing.  2. Scissors according to claim 1, characterized in that the gas divider is made in the form of a housing consisting of two parts, inside one part there is a cylindrical surface connected to the second calibrated hole of the second nozzle, and at the outlet of which there is a cone belonging to the other part housing equipped with a reflector and holes located behind the reflector.  3. Scissors according to claims 1 and 2, characterized in that the trigger of the trigger mechanism is spring-loaded and equipped with a rocker mounted pivotally mounted on it and spring-loaded relative to it, with a protrusion interacting with the reciprocal profile protrusion on the upper shoulder of the two-shouldered hammer interacting with the striker, articulated installed together with a spring-loaded bracket in the handle housing, and the lower shoulder of the hammer interacts on the one hand with the bracket, on the other hand with the trigger, while the bracket is made with protrusions interacting with curly grooves in the handle housing, in addition, the trigger mechanism is equipped with a fuse made in the form of a spring-loaded axis with a flag installed in the handle housing with grooves in contact with the upper arm of the hammer and spring.  4. Scissors according to claims 1 to 3, characterized in that the shutter is made in the form of an axis mounted in holes in the handle housing and the chamber of the chamber and interacting with a bar pivotally mounted on the handle housing and spring-loaded relative to it by means of a spring placed in a button installed in the handle housing and the associated rod with a bar.  5. Scissors according to claims 1 to 4, characterized in that the upper and lower knives interact with an easily removable handle made in the form of a pipe with a bracket with grooves and holes, contacting the grooves with the axis of the knife and fixed with an easily removable axis through a hole made in the axis of the hinge joint knives.

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