CZ9936U1 - Floating rescue apparatus - Google Patents

Abstract

A floating rescue apparatus includes a pressure vessel with pressure medium, said pressure vessel installed on a holder equipped with a lever mechanism for opening the pressure vessel and with a passing channel for passing pressure medium from the pressure vessel into an airtight bag, whereas a connecting tube (36) and a distribution valve (40) with check valves (42, 43) are arranged between the passing channel (35) of the holder (30) firmly connected with a hollow case (1) of firm shape and the airtight bag (21) directed to chambers (24, 25) of the airtight bag (21), the chambers (24, 25) separated among each other by a partition (23) whereas the hollow case (1) provided with a lid (4) connected by a triggering rope (50) with a lever (33) of the lever mechanism (32). According to advantageous executions the distribution valve (40) with the check valves (42, 43) is arranged inside the bag (21), the bag (21) in its inflated state has the shape of an arc provided with loose ends (26, 27) of adjustable length, equipped with connecting buckles (28, 29) or the lid (4) is equipped from its external side by a catching handle (6) for grasping or by a control rope (50).

Description

Technical field

The invention relates to a life-saving rescue apparatus comprising a pressure vessel with a pressure medium mounted on a holder provided with a lever mechanism for opening the pressure vessel and a bypass channel for transferring the pressure medium from the pressure vessel to an airtight bag.

BACKGROUND OF THE INVENTION

Technical solutions are known in the art of rescue equipment with a variety of basic element arrangements, such as a pressure vessel with a pressure medium, an inflatable airtight bag and a device for opening the vessel and transferring the pressure medium from the pressure vessel to an airtight bag. U.S. Pat. No. 4,968,277 discloses a diving rescue apparatus comprising a hollow housing in which a pressure vessel is mounted and a lever mechanism for opening the pressure vessel is provided. The lever mechanism consists of a single-arm lever, whose arm is moved by an electric pulse measuring device of reached depth of the diver and after actuation it moves through the tip of the pressure vessel closing cap. The released pressure medium fills the entire interior of the hollow housing and fills the inflatable bag, which is airtightly mounted on the free end of the hollow housing. The rescue apparatus has a special purpose and is not adapted for easy reuse. After the inflatable bag has been filled, the inflatable bag must be removed from the hollow housing so that the pressure vessel can be replaced at all and the inflatable bag must be reattached to the hollow housing. Possible leaks between the hollow sleeve and the inflatable bag and possible leakage of the inflatable bag itself lead to leakage of gaseous medium, which substantially compromises the safe functioning of the device. Due to the type of connection of the hollow sleeve to the inflatable airtight bag, the single-chamber bag is not reliable enough. In addition, the pressure vessel cannot be securely attached and fastened for replacement. From US Patent No. 5,374,212, a bracelet-shaped buoyancy rescue apparatus is known. The pressure vessel is formed in one piece by a first part of the hollow sleeve itself, in the second part of the hollow sleeve a space for receiving an inflatable airtight bag is formed and a transfer channel with a slide is formed between the first part of the sleeve and the inflatable airtight bag. The hollow housing is closed by a rotatably mounted cap operating said rotary slide which, in one rotational position, closes the transfer passage and in the second position releases the transfer passage for the passage of pressure medium from the first part of the hollow enclosure to the inflation bag. After using the rescue device, it is necessary to fill the chamber of the hollow bushing with pressure medium and close, which is an operation only possible using a special device. The pressure vessel is therefore not easily replaceable35, the operation and activation of the device is difficult and does not guarantee safe operation. Neither the device nor the air bag is secured against leakage due to leaks or damage to the air bag, so the air bag is not sufficiently safe. The device is technologically demanding and does not allow replacement of individual components without special aids and devices. WO 97/19847 discloses a buoyancy rescue apparatus comprising a pressure vessel having a pressure medium mounted on a holder provided with a lever mechanism for opening the pressure vessel and a through channel for transferring the pressure medium from the pressure vessel to an airtight bag mounted on said holder. Said life-saving rescue apparatus is stored loosely in a cloth case. The disadvantage of this technical solution is the unreliable mounting of the holder and the airtight bag in the housing and especially the fact that the airtight bag is stored and firmly connected to the holder and the pressure vessel, so that the pressure vessel and the holder remain connected with it. and does not allow the airtight bag to be freely disposed of after filling. The activation of the rescue device is not particularly reliable because the lever-type bracket is loosely housed in a non-rigid housing, so that when pulling on the activation cord,

- 1 GB 9936 U1 the bracket, lever mechanism or airtight bag are jammed. The aim of the technical solution is to eliminate the shortcomings of the prior art and to provide a simple, small, easily portable and technologically easy-to-use life buoy with reliable operation of filling and inflating the air bag, with easy and reliable replacement of the pressure vessel after use and that would allow the other person to put on and attach to the body.

The essence of the technical solution

The drawbacks of the prior art are substantially eliminated and the aim of the invention is achieved by a buoyancy rescue apparatus comprising a pressure vessel with a pressure medium mounted on a holder provided with a lever mechanism for opening the pressure vessel and a bypass channel for transferring the pressure medium from the pressure vessel to an airtight bag. characterized in that a connection tube and a distributor valve with non-return valves opening into the airtight bag chambers separated from each other by a septum are provided between the transfer passage of the holder firmly connected to the hollow casing of the solid shape and the airtight bag; with the lever of the lever. Preferably, the distributor valve with non-return valves is arranged inside the bag. The bag may preferably be in the filled state in the form of an arch of free length with adjustable lengths provided with connecting clips. Preferably, the lid may be provided with a gripping means for gripping or a trigger cord from the outside. The lifebuoy according to the invention has a reliable control and lowering system by utilizing a well-known and proven lever mechanism which, when pulled by the cord, reliably breaks through the throat sealing cap of the pressure vessel fitted into the holder into the holder and opens the pressure vessel for inflation pressure medium. Inserting the neck of the pressure vessel into the bracket and accommodating the lever mechanism in the bracket that is rigidly connected to the hollow shell of a rigid shape allow for accurate guiding of the tip as it moves into the center of the lid of the pressure vessel. The rigid mounting of the holder in the hollow sleeve allows for easy insertion of the pressure vessel and securing the neck of the pressure vessel in the neck of the holder, as well as easy replacement of the used pressure vessel and insertion of a new pressure vessel. The holder, which combines several functions, can be attached to different locations of the hollow sleeve, for example to the bottom or wall of the hollow sleeve. The pressure in the air bag is maintained after the pressure medium has been filled with non-return valves. After the inflatable bag has been filled, the connection pipes between the outlet port of the transfer port of the holder and the inlet port of the non-return valve are not pressurized due to the return valves and any possible damage or separation will not cause leakage of pressure medium from the inflatable bag. If necessary, for example in the event of an undesirable leakage of gaseous medium from the airtight bag, the gaseous medium may be added to the airtight bag from another source, which may be a hand pump or other pressure vessel directly attached to the inlet port of the manifold. The orifice of the non-return valves into multiple chambers of the air bag allows independent filling of the individual chambers and further increases the safety of the air bag after it is filled. The design of the multi-chamber air bag in the shape of an arch allows easy placement of the air bag around the body and easy clamping of the securing clips as well as possible attaching of the air bag around the rescued body by another rescue person. The life-saving rescue device according to the invention is small and technologically easy to manufacture. Thanks to the advantageous separation of the individual members from each other and the mounting of the holder in a fixed housing, the life-saving life-saving apparatus according to the technical solution is also very reliable.

Overview of the drawings

The life-saving rescue apparatus according to the invention is illustrated in greater detail by means of the drawings, in which Fig. 1 shows a longitudinal section of the life-saving rescue apparatus in the standby state, Fig. 2 shows a longitudinal section of the life-saving rescue apparatus in activated state after filling the airtight bag.

-2GB 9936 U1

Example of technical solution

According to FIG. 1, the life-saving rescue apparatus consists of a hollow housing 1 of a solid, for example cylindrical shape, with a bottom 2 and an opening 3 facing the bottom 2. The hollow housing 1 has a fixed shape, preferably a hollow cylinder shape. material. The elasticity of the material, however, must be sufficient to maintain the hollow bushing 1 in a stable shape even under possible external compression by normal physical force. The aperture 3 is closed by a lid 4 mounted on the hollow housing 1. The lid 4 is provided with a peripheral projection 8 which, when the lid 4 is placed on the hollow housing 1, engages in the peripheral recess 7 and ensures firm fit of the lid 4 on the hollow housing 1. 1 is a bolt 38 fastened with a neck 30 with a neck 31 in which a pressure vessel 11 is inserted or screwed in by its neck 12. The pressure tank 11 is provided with a closure baffle 13 in its neck 12. The bracket 30 further comprises a transfer channel 35 connected on one side. with a neck 31 and on the other end leading to one end of the connecting tube 36. In the holder 30 there is further provided a lever mechanism 32 consisting of a lever 33 mounted on a pin 34 and provided with a tip 39 for piercing the closure baffle 13 of the pressure vessel 11. an opening 45 formed in the wall of the airtight bag 21 and is connected to a distribution valve The valve 40 is provided with two non-return valves 42, 43 opening into the interior of the airtight bag 21. In the closed state of the hollow housing 1, the airtight bag 21 is folded in the interior of the hollow housing 1 between the pressure vessel 11 and the wall A hollow sleeve 50 is provided between the lever 33 and the lid 4 to connect them. To operate the cap 4 and detach it from the hollow housing 1, the cap 4 is provided with a control cord 51. According to FIG. 2, the airtight bag 21 is filled with gaseous medium after activation. Upon actuation by pulling the control line 51, the cap 4 is torn off from the hollow housing 1 as a result of tensioning the trigger line 50 attached from one side to the lever 33 and the other through the opening 9 in the cap 4 to the retaining means 6 and The gaseous medium released from the pressure vessel 11 was transferred through a transfer passage 35, a connecting tube 36, a distribution valve 40 and a check valve 42, 43 to the partition 23 of the separated compartments 24, 25 of the airtight bag 21. The airtight bag 21 is In its free ends 26, 27 it is provided with clips 28, 29 which are displaceably mounted on the free ends 26, 27 and their position can be adjusted appropriately. The connection between the holder 30 of the pressure vessel 11 and the airtight bag 21 is provided by means of a connecting tube 36 which is attached to the holder 30 and the airtight bag 21 by means of adapters 37 and 44.

Claims (4)

A buoyancy rescue apparatus comprising a pressure vessel with a pressurized medium mounted on a holder provided with a lever mechanism for opening the pressure vessel and a bypass channel for transferring the pressurized medium from the pressure vessel to an airtight bag, characterized in that between the bypass channel (35) of the holder (30) 1) a connecting tube (36) and a distributor valve (40) with non-return valves (42, 43) opening into the chambers (24, 25) of the airtight bag (21) are rigidly connected to the hollow housing (1) of solid shape and airtight bag (21) ) separated by a partition (23), the hollow housing (1) being provided with a lid (4) connected by a trigger line (50) to the lever (33) of the lever mechanism (32). A life buoy according to claim 1, characterized in that the distribution valve (40) with non-return valves (42, 43) is arranged inside the bag (21). A life buoy according to claim 2, characterized in that the bag (21) is in the filled state in the form of an arc with free ends (26, 27) of adjustable length, provided with connecting clips (28, 29). -3 GB 9936 U1 A life buoy according to claim 1, characterized in that the lid (4) is provided on the outside with a gripping means (6) or a control line (51). 2 drawings