RU47320U1 - AUTOMATIC STARTING DEVICE FOR RESCUE EQUIPMENT - Google Patents

Abstract

An automatic starting device for a canister of rescue equipment comprises a housing with a striker and spring located in it and screwed onto the can, a starting device with holes for penetrating water and with elements for holding the spring in a compressed state, a spring and a sleeve made of paper, located in the starting device. The case, with a fitting and a lever with an element for manually actuating the can, and a starting device in the form of a cylindrical cover with a sleeve and an impact device are made as a single design and the starting device is screwed onto the body. Elements for holding the spring in a compressed state are made in the form of a hook installed in the cover and a rod screwed into a clamp located in the housing, on which one part of the spring of the percussion device is fixed, the other part of the spring is fixed to the support. A slot is made in the lower part of the sleeve, and holes for water penetration are made on the side surface. A slot and holes for water penetration are made in the lower part of the lid, and water penetration holes are located on the side surface, located above the water penetration holes in the sleeve.

Description

This utility model relates to rescue floating equipment, to devices for piercing gas-generating cartridges of inflatable equipment, and more precisely relates to an automatic launching device for a can of rescue equipment.

The utility model can be used to actuate a filling apparatus, for example, a small-sized spray can of rescue equipment, when triggered, the volume of aviation rescue equipment is filled with carbon dioxide using a manual or automatic drive when this aviation rescue equipment is immersed in water.

Known automatic starting device for spray cans of rescue equipment (GB 2194758, A), comprising a housing with a striker and a spring located therein and made with the possibility of screwing onto the can, a starting device with holes for penetration of water and with elements for holding the spring in a compressed state, a spring and a clutch made of paper located in the starting device, a lever with an element for manually actuating the can. A can of gas under pressure with a spring-loaded striker is driven by an L-shaped lever. In order to manually actuate the lever, pull the element for manually actuating the spray can — a wire or automatically when it is brought in by a trigger device attached to the spray can using a clamp. The starter consists of two cylinders inserted one into the other. A spring is inserted at the top of the larger cylinder, squeezing down the smaller (inner) cylinder. On the cylinders in their lower parts there is one spur - an element for holding the spring in a compressed state, on which a sleeve made of paper is put on - a paper reel holding one cylinder in the other and the spring in a compressed state. A plastic film cap is placed on the paper reel to protect it from moisture. In the cylinders at the top there are holes for water penetration, there are holes for water penetration and sideways between spurs. When the spring is compressed and the paper reel is put on the spurs, the holes for water penetration between the spurs are combined. The L-shaped lever abuts against the bottom of the inner cylinder. When splashed through water penetration holes at the top of the cylinders, water penetrates the paper spool. The paper is soaking

the spring pushes the inner cylinder, it presses on the lever. Spray works. To protect this device from splashes and rain, it must be placed in a pocket or under a valve, but allowing the starting device to trigger when it gets into the water. Thus, this device is not compact, bulky, as it consists of individual elements: a housing with a lever on which the can is screwed on, a launching device, which is a twin cylinder with a spring inside, made with a clamp to attach it to the can. Also, this device is not reliable enough, as it can work at any time due to the soaking of the paper sleeve in case of accidental splashes, raindrops or any other moisture.

The utility model is based on the task of creating an automatic launching device for a can of rescue equipment with such a design that would allow a more compact, convenient and reliable automatic starting device for a canister of rescue equipment to be created.

The problem is solved in that in the automatic starting device for the canister of the rescue equipment, comprising a housing, with the striker and spring located therein and made with the possibility of screwing onto the can, the starting device with holes for water penetration and with elements for holding the spring in a compressed state, a spring and a clutch made of paper located in the starting device, a lever with an element for manually actuating the can, according to a utility model, a housing, with a fitting and a lever agom with an element for manually actuating the cartridge, and a starting device in the form of a cylindrical cover with a sleeve and an impact device is made as a single structure and the starting device is screwed onto the housing, the elements for holding the spring in a compressed state are made in the form of a hook mounted in the cover, and the thrust of the percussion device, screwed into the clamp located on the housing, on which one part of the spring of the percussion device is fixed, the other part of the spring is fixed to the support, a slot is made in the lower part of the sleeve, and side surface provided with holes for the penetration of water into the bottom of the cover and a slot opening for the penetration of water, and the side surface provided with holes for the penetration of water located above the openings for the penetration of water into the sleeve.

It is possible that the hook is installed in the cover with a screw.

It is advisable that the slot in the lower part of the lid was made in the middle and had a square shape, and four holes for water penetration were located evenly on the surface of the lower part of the lid, and four holes for water penetration were made on the side surface of the lid.

Preferably, the liner was made in the form of a cylinder with three ribs, one of which is made in the middle, and on the lateral surface of the cylinder between the ribs were made two rows of holes for water penetration, four holes equally spaced in each row.

This utility model makes it possible to create an automatic launching device for a can of rescue equipment with such a constructive design that would make it possible to create a more compact, convenient and reliable automatic launching device for a canister. The utility model can be used to actuate a filling apparatus, for example, a small-sized spray can of rescue equipment, when triggered, the volume of aviation rescue equipment is filled with carbon dioxide using a manual or automatic drive when this aviation rescue equipment is immersed in water. The automatic launching device for the can of rescue equipment maintains operability from minus 30 ° С to plus 50 ° С, with relative humidity up to (95 ± 3)%, in case of accidental splashes and vibration.

In the future, the utility model is illustrated by a specific example of execution and the accompanying drawing, which shows a general view of an automatic launching device for a can of rescue equipment with a schematically presented can, a cross section according to the utility model.

The automatic launching device for the canister of the rescue equipment contains a housing 1 (accompanying drawing) with a sealing ring 2, with the striker 3 located therein with a sealing ring 4 and a spring 5. The housing 1 is made with the possibility of screwing onto a nut - an adapter 6 with a washer, in which barrel 7 with a membrane 8. In the housing 1 there is a fitting 9 and a lever 10 with an element 11 for manually actuating the barrel. The automatic starting device for the canister of rescue equipment also includes a starting device in the form of a cylindrical cover 12 with a sleeve 13 and an impact device. The housing 1 and the starting device of the automatic starting device for the can of rescue equipment are made as a single design and starting device

screwed onto the housing 1. In the cover 12 is placed the spring 14 of the percussion device and elements are installed to hold the spring 14 in a compressed state, made in the form of a hook 15 and a rod 16 of the percussion device, screwed into the clip 17 located in the housing 1, on which one part of the spring is fixed 14 of the shock device, another part of the spring 14 is fixed to the support 18 with the membrane 19. The automatic starting device for the canister of the rescue equipment also contains an axis 20 and a sleeve 21 made of paper located in the starting device. The hook 15 is installed in the cover 12 with a screw 22. The clutch 21, which holds the spring 14 in a compressed state, is made of specially selected paper that can withstand air humidity up to (95 ± 3)%, but gets wet and breaks when water gets under the cover 12 and the housing 1. On the lateral surface of the sleeve 13, openings 23 are made for water to enter the sleeve 21 at the time the automatic starting device for the canister of rescue equipment with aircraft rescue equipment is immersed in water. A slot 24 and holes 25 for water penetration are made in the lower part of the cover 12, and water penetration holes 26 are located on the side surface located above the water penetration holes in the sleeve 13. The openings 23, 25, 26 are made in such a way that they create channels for water flow to the coupling 21 at the time of immersion, but prevent accidental splashes, rain drops or any other moisture from entering the coupling 21 during operation of the product. The slot 24 in the lower part of the cover 12 is made in the middle and has a square shape. Four water penetration holes 25 are evenly spaced on the surface of the lower portion of the cover 12. Four evenly spaced water penetration holes 26 are formed on the side surface of the cover 12. The sleeve 13 is made in the form of a cylinder with three ribs, one of the ribs 27 is made in the middle, and on the lateral surface of the cylinder between the ribs there are two rows of holes 23 for water penetration, four holes 23 equally spaced in each row. The lever 10 is attached one end of the exhaust cord of the element 11 for manually actuating the cartridge 7, the other end of which is attached to the chip 28 of the element 11 for manually actuating the cartridge 7. In the accompanying drawing, arrow A shows in which direction the chip 28 should be moved when manual activation of the can 7. In the lower part of the sleeve 13 is made a slot 29.

Thus, this device is convenient, compact, not bulky, as it consists of a housing 1 and a starting device for an automatic starting device for a can of rescue equipment, which are made as a single

the design, while the starting device is screwed onto the housing 1. Also, this device is quite reliable, since it cannot actuate the can 7 at any unnecessary moment due to the soaking of the paper sleeve 21 in case of accidental splashes, rain drops or any other moisture.

This automatic starting device for the can of rescue equipment works as follows. On aircraft rescue equipment there are special devices to which the spray can 7 is attached with an automatic starting device for the can of rescue equipment. For manual activation of the canister 7, it is necessary to pull the chip 28 of the element 11 for manual actuation of the canister connected to the lever 10 in the direction of arrow A. The lever 10, turning around axis 20, presses on the hammer 3, hammer 3 pierces the membrane 8 can 7, carbon dioxide enters the launch head of the can 7, then the volume of aviation rescue equipment is filled with carbon dioxide. When the can is automatically actuated during an emergency immersion of an aircraft pilot with aviation rescue equipment in water, water enters the coupling 21 through the openings 23, 25, 26 in the cover 12 and the sleeve 13. The coupling 21 gets wet and its destruction. The spring 14 is unclenched and through the rod 16 acts on the firing pin 3, which, while moving, punctures the membrane 8 of the can 7. In this case, carbon dioxide from the can 7 enters the launch head of the can 7, and then the volume of aviation rescue equipment is filled with carbon dioxide when this aircraft is immersed rescue equipment in the water.

Thus, this utility model makes it possible to create an automatic launching device for a can of rescue equipment with such a constructive design that would make it possible to create a more compact, convenient and reliable automatic starting device for a canister. The utility model can be used to actuate a filling apparatus, for example, a small-sized spray can of rescue equipment, when triggered, the volume of aviation rescue equipment is filled with carbon dioxide using a manual or automatic drive when this aviation rescue equipment is immersed in water. The automatic launching device for the can of rescue equipment maintains operability from minus 30 ° С to plus 50 ° С, with relative humidity up to (95 ± 3)%, in case of accidental splashes and vibration.

Of course, various modifications and changes can be made that will be within the scope of this utility model. Although the utility model has been described in detail for a clear understanding of the essence of the proposed, it is obvious that some changes can be made within the particular cases of execution described in the description.

Claims (4)

1. Automatic starting device for the canister of rescue equipment, comprising a housing, with the striker and spring located therein and made with the possibility of screwing onto the can, a starting device with holes for penetrating water and with elements for holding the spring in a compressed state, a spring and a clutch made made of paper, located in the starting device, a lever with an element for manually actuating a can, characterized in that the housing with a fitting and a lever with an element for manually actuating a can the action of the can and the trigger device in the form of a cylindrical cover with a sleeve and a shock device are made as a single design, and the trigger device is screwed onto the housing, the elements for holding the spring in a compressed state are made in the form of a hook installed in the cover, and the thrust of the shock device screwed into in the case there is a clamp on which one part of the spring of the percussion device is fixed, the other part of the spring is fixed on the support, a slot is made in the lower part of the sleeve, and holes are made on the side surface for I penetration of water into the bottom of the cover and a slot opening for the penetration of water, and the side surface provided with holes for the penetration of water located above the openings for the penetration of water into the sleeve. 2. Automatic starting device for spray cans of rescue equipment according to claim 1, characterized in that the hook is installed in the lid with a screw. 3. The automatic launching device for the can of rescue equipment according to claim 1, characterized in that the slot in the lower part of the lid is made in the middle and has a square shape, and four holes for water penetration are located evenly on the surface of the lower part of the lid, and on the side surface of the lid Four evenly spaced openings for water penetration. 4. The automatic starting device for the can of rescue equipment according to claim 1, characterized in that the sleeve is made in the form of a cylinder with three ribs, one of which is made in the middle, and on the side of the cylinder between the ribs there are two rows of holes for water penetration, four holes evenly spaced in each row.