RU2767496C2 - Rescue module and method for progressing the module toward the bottom hole - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining works, to shelter chambers in mines for rescuing personnel in the mines from damaging factors. The rescue module for rescuing personnel in mines from damaging factors: mine collapse, explosion, shock wave, dust pollution, gas pollution, fire, or mudflow, consists of a body, a frame, inner and outer lining. The mofule is quipped with a life support system and an airlock chamber. Oxygen cylinders are installed in the module. For the purpose of quick evacuation into the module from the bottom hole by regular manual progressing of the module in confined conditions toward the bottom hole and long-term protection of miners therein, said module is made in the form of an elongated hollow dome-shaped body supported by the bottom in the form of an elongated hyperellipse. The rescue module is manufactured from composite materials. The bottom with vertical recesses into the body accommodating the wheels is made in the form of a rolling platform whereon the rescue module is installed. The rescue module is configured to be placed and move in a recess cut in the side of the roadway of the mine, and move along the tracks arranged in the roadway of the mine. Also claimed is a method for using the claimed rescue module.

EFFECT: creation of a light-weight, compact, small-sized, mobile rescue module providing evacuation.

6 cl, 7 dwg

Description

The invention relates to mining operations, to shelter chambers in mines for saving personnel in mines from damaging factors: collapse of a mine working, explosion, dust, gas contamination, fire, mudflow.

The largest number of accidents in mines and, as a result, high injuries occur in the face zone. Many accidents occur so quickly that the miners do not have time to reach the safe zone or shelters.

On a significant section of the mine workings from the face and beyond, there are many machines, these are a tunneling machine, a loader, a roof-laying machine, a drilling rig, a concrete-laying complex and others, in addition, they build temporary and permanent lining, working ways, mount communications, store materials, so the existing shelters have at a considerable distance.

Known asylum camera according to patent RU 2416723 IPC E21F 11/00, publ. bul. 11, 04/20/2011 in the form of a steel, rectangular movable body for storing and moving a tent with a life support system, including a pneumoelectric gas cleaner, a cooling system and a tent deployed into an expanded state, inflated with air, and part of the tent is a gateway. The refuge chamber is moved by a loader. The disadvantage of the well-known refuge chamber is as follows: the refuge chamber cannot be installed where the loader is not located, next to the face, since a complex of machines works here, as well as in bremsbergs parallel to human walkers; installation at a considerable distance from the face prevents the rapid evacuation of miners from the face, the outer surface of the tent has low strength, from the damaging factors it provides only a protected atmosphere; during the deployment of the tent, the miners are not protected; deployment can be hindered by vehicles that are on the tracks at the time of the accident, the lock chamber is constantly in the expanded state, rolls up simultaneously with the tent, occupies the inner area of the tent, and worsens the compactness of the refuge chamber.

Closest to the invention is an easily movable modular shelter and a method for its construction according to patent RU 2529991 IPC E21F 11/00, publ. bul. 28, 10.10.2014. The shelter consists of steel rectangular modules, which are telescopically moved apart in a sliding manner and fastened with a flange connection. The roof and walls of the modules have a slight outward bend to increase strength. The shelter is equipped with a life support system, which includes, among other things, oxygen tanks, a non-separable airlock built into the front module. The disadvantages of a modular shelter, which prevent quick evacuation from the face to the module and long-term protection in it, are as follows: the modules are made of steel, which for the accepted shape of the walls of the modules entails a heavy steel structure that cannot be moved manually, in addition, the walls bend outward during collapse soil from above does not increase the strength of the walls, but rather reduces, since eccentric compression leads to loss of stability; No high temperature protection during work on extension to the extended state, evacuation and rescue is impossible for a long time, since the extension of modules, multiple fastening with bolts with a hermetic seal in cramped conditions requires a significant investment of time; the modular shelter cannot be installed by a loader next to the face where the complex of machines operates, since the loader is constantly nearby during the assembly of modules and slows down the operation of the mine for a long time; Therefore, a modular shelter is installed at a considerable distance from the face, which prevents the quick evacuation of miners from the face, complicates their rescue, while the face zone is removed from 22 to 34 meters per day; there are no devices for accelerated transportation and evacuation to the modular shelter for injured miners; in case of mine collapses, do not extend the modules; short-term operation of the life support system, since there is no charging of batteries and manual drives of mechanisms in case of failure of pneumatic or electric ones, the lock chamber is constantly located inside the module and continuously occupies the internal area of the latter, worsening life support, or increases the dimensions of the module, worsening the possibility of movement. There is no emergency supply of oxygen outside.

The purpose of the invention is the rapid evacuation of miners from the slaughter area to the rescue module and long-term protection in it.

The technical result is a lightweight, without compromising strength, compact, small-sized, mobile, rescue module that provides quick, including forced, evacuation of miners in mine workings from the face to the module by regularly approaching the module manually without lifting equipment in cramped conditions to the face, long protection in it for miners, providing rescue by continuous readiness to receive miners in the event of an accident, including during movement and installation.

The achievement of the specified technical result is ensured by the fact that the rescue module is made in the form of an elongated hollow dome-shaped body, preferably in the form of a set of conjugated elements of paraboloid surfaces resting on the bottom in the form of a hyperellipse elongated along one of the axes, the rescue module, its mechanisms, oxygen cylinders are made of composite materials, the bottom is made with vertical recesses inside the body, in which the wheels are placed, in the form of a rolling platform on which the rescue module is installed, the rescue module is made with the possibility of placing and moving in a niche cut in the side of the mine working and moving along the tracks arranged in the working mines.

The rescue module is equipped with seats, while opposite one of the seats there is a mechanism for charging batteries with a foot drive. The airlock is unfolded from a non-deployed state to a deployed one and from a deployed to a non-deployed one inside the module case. The rescue module is equipped with a rescue winch with a heat-resistant rope and skids, a ramp with emergency oxygen cylinders is installed outside, all electric and pneumatic drives: a dry closet fan, a siren, an air lock pump, an air regeneration device, a jack, a drill, a rescue winch are duplicated by a manual drive. The module is protected by a heat-insulating sheathing for a short time up to 1500 degrees.

In workings where there are no railway tracks, the rescue module moves to the bottom along temporary tracks without using wheels, or on wheels along arranged tracks on the soil.

The rescue module is made with the possibility of installation on the platform of the mine transport, and moving towards the approach to the face

Quick evacuation is ensured by manually approaching the rescue module directly to the face. The short distance in a transient accident allows miners to quickly reach protection in the rescue module. The regular approach of the module to the bottomhole manually is provided with ease unattainable for other spatial structures. With equal strength, the dome shape of the hull resting on a hyperellipse bottom is two to three times lighter than a rectangular shape, a module made of composite materials with equal strength is more than three times lighter than steel, and an oxygen-cylinder ramp made of metal composite materials three to four times lighter. In addition, the regular approach of the module to the bottom in cramped conditions, in bremsbergs, narrow parallel human walkers, is also ensured by the compact, not to the detriment of strength, narrow form of the module, which is a combination of an elongated dome shape and a narrow bottom in the form of an elongated hyperellipse, and a niche in the shaft wall for the installation of the module is shallow, which simplifies the implementation of several niches near the bottom at short distances in which the rescue modules are installed, provides an approach to the bottom.

Rapid evacuation is ensured by the continuous readiness of the module for evacuation and protection of miners, including during movement and installation, since no assembly and preparation of the module is performed, except for possible connections to mine communications and an emergency ramp.

The regular approach of the module to the face, the proximity to the face made it possible to use a rescue winch with a heat-resistant rope and a skid mounted on the hull for quick, including forced evacuation of miners from the face. This type of evacuation is especially relevant if there are blockages or mudflows on the way.

Long-term protection of miners in the module during a continuous series of accidents is ensured primarily by the strength of the module, which is unattainable for other options for spatial structures. The bottom, preferably in the form of a hyperellipse, additionally increases the strength of the module, since the load during the collapse of the soil from above is distributed more evenly along the contour.

Long-term protection is provided by a compact, comfortable layout and the device of life support systems for people inside a module elongated along one of the axes. In accordance with the accepted dimensions of the section of the shaft, the permissible height of the rescue module is not more than 1.8 meters. Wheels for movement occupy a significant part in height, length or width, worsening life support in the module. At the same time, the execution of the platform bottom with vertical recesses inside the body, in which the wheels are located, increases the internal space of the module in height, improves the life support system and thereby ensures a long stay and protection of people in the module, and the bottom of the platform with the wheels removed, used as an option when moving along temporary paths, performed a small height, also does not reduce the internal space of the module. For the same purpose, all electric and pneumatic drives are duplicated by a manual drive in case of failure of the first, and batteries are equipped with a foot-operated charging mechanism to extend the power supply. Hand and foot drives keep the miners in shape in the cramped conditions of the module, therefore they are the most important elements of the life support duration.

The lock chamber, which is unfolded from the non-deployed state into the deployed inside the module body, and also folded inside into the non-deployed state, does not increase the size of the module, ensures the compactness of the rescue module when approaching the face in cramped conditions, is not subject to destruction during a fire or blockage, does not reduce the habitable interior module space improves the life support systems and thus ensures long-term protection of people in the module.

Oxygen ramp 39 with an emergency supply of oxygen, installed outside the rescue module, makes it possible to lighten the module for the possibility of approaching the face manually, to extend the duration of the protection of miners in the module with a significant delay in assistance for evacuation from the module to a safe area.

In FIG. 1 shows the rescue module.

In FIG. 2 - a remote element of the body with a skin.

In FIG. 3 - plan for the placement of miners and life support systems.

In FIG. 4 - lock chamber deployed inside the body.

In FIG. 5 - section along B-B.

In FIG. 6 is a plan of a mine with a single-track railway.

In FIG. 7 - fastening the sled to the rope.

The dome-shaped rescue module is made of composite materials and consists of a body 1, see Fig. 2, preferably with a frame 2, inner and outer heat-insulating lining 3, preferably made using space technology and withstanding a short-term temperature increase up to 1500 degrees, bottom 4, see Fig. 1. The casing 3 is held inside and out, preferably with a heat-resistant fabric, painted in a reflective color and marked with an arrow indicating the direction of movement to the next rescue module. The module also has an entrance hatch 5 with a porthole, protected by a visor 6 from deformation during a collapse; escape hatch 7, preferably opening inwards; block 8, which contains: a signal lamp, a siren, outputs of temperature sensors and a gas analyzer, an intercom with an external subscriber, and the sensors are duplicated on the reverse side of the module; porthole 9; block 10 for connection to the rescue module of intra-mine communications: communication, signaling, electric cable if available, air, including hose 41, see Fig. 6, from the ramp with an emergency supply of oxygen; brackets 11 to hold the module when moving manually; brackets 12 for the rescue winch, which can preferably be mounted on three sides of the module. The bottom 4 is made in the form of a platform with vertical recesses 13 inside the module, in which the wheels 14 are placed. Inside the module, see FIG. 3, installed: seats for miners 15, each seat is equipped with a dry closet of a special design for the module, preferably using space technology and a ventilation system for the dry closet; oxygen ramp 16 with cylinders made of metal composite materials and oxygen supply for 15 days or more; water container 17; control units 18, including an air regeneration device, a recharging point for self-rescuers, a device for various connections and switches, for example, inflating the inflatable frame of an airlock, supplying and cleaning air from a mine, etc.; a cooling system 19, including preferably reagent containers located on opposite walls of the module, as well as behind the seats; self-rescuers 20 are located in a convenient place, for example, suspended on a partition to the oxygen ramp 16; bracket 21 for fastening a manual winch; platform 22 for setting the stop of the jack when squeezing the entrance hatch out; lock chamber 23 in the collapsed state, and in the expanded state includes an inflatable frame 24, shutters 25 and zippers 26; battery pack 27, see FIG. five; toolbox 28, which contains an emergency hose for connection to the ramp 39, see Fig. 6, with emergency oxygen cylinders in case of failure of the main hose, two folding stools, tools for digging out blockage, a winch and a jack for opening hatches in case of their deformation and jamming, a drill for drilling out the module shell, a manual air pump, and all the tools made of composite materials, and in the presence of a drive, the latter is duplicated by a manual drive; box 29, which contains: nutrition, preferably in the form of space-based pastes, medicines and equipment for resuscitation, communication devices, a log for monitoring the health of systems and the state of the rescued, players, flash memory with records, several books, wet towels and other hygiene products; box 30, in which respirators are placed, designed for 4 hours of protection, or fire suits, preferably made of ferromagnetic fabric, designed for protection from temperatures up to 800 degrees; the mechanism for charging batteries 31 with a foot drive, serves, among other things, to maintain the physical shape of the miners; lighting 32; ventilation device 33; wedges 34 for fixing the module in the niche of the mine working, a rescue winch 35 is hung on the brackets 12 outside the rescue module, see Fig. 6, with a heat-resistant rope 36 to which sleds 38 are attached by carabiners 37, a spare rope is located on the module body in case of damage to the stretched rope, the winch drive is pneumoelectric and is duplicated by a manual drive; at some distance from the rescue module there is a ramp 39 with emergency oxygen supply cylinders, the latter is protected from damaging factors similarly to the module body and is connected to the module by a hose 41 located in a trench together with mine communications, the ramp is equipped with a pair of wheels.

The rescue module is prepared for operation as follows: the module is placed in a niche cut in the wall of the mine working, fixed with wedges 34, internal mine communications are connected to the block 10 and their functioning is checked, the oxygen ramp 39 is rolled up and installed at some distance, connected to the module with a hose 41 , hang the winch 35 and lay a heat-resistant rope 36 with a sled 38 in the face area, deploy the lock chamber 23, pumping air into the inflatable frame 24, check the availability of a spare rope to the rescue winch and a spare hose to the oxygen ramp, appoint a senior for managing the module and the rescue winch 35 report to the surface the readiness and coordinates of the placement of the module. Before descending into the mine, the miners conduct constant training in managing the module and evacuating into it.

The rescue module works as follows. When alerting about an accident or its beginning, miners, including injured ones, are attached to the rope 36 with carabiners 37 and are quickly evacuated by a rescue winch 35 from the face towards the rescue module. The sound of the signal coming from the module differs depending on what type of accident occurs and how you should evacuate: to the module or to a safe area. If necessary, use a manual winch drive. The immovables are evacuated on skids, which are also attached to the rope. If necessary, a lock chamber 23 is used, which is constantly deployed inside the module when ready. In addition, the lock chamber is used to exit the module and connect the emergency hose to the ramp with emergency oxygen supply cylinders in case of failure of the main hose. The entrance hatch is closed 5. The operation of the life support systems is checked, and after the air regeneration in the module, air is released from the airlock frame, rolling it up, and the self-rescuers are removed. If necessary, put on fire suits from box 30. If the mine communications connected through block 10 are destroyed, then the module is transferred to autonomous operation. If necessary, they carry out resuscitation measures, while some of the miners are transplanted onto folding stools. The evacuation of miners to the module is also possible in the process of moving the module and placing it in a niche, in this case they are also connected to the mine communications, if they are in good order. An integrated team of miners works mainly along the length of the mine up to 100 meters from the face. Part of the brigade works in the face, the other one lays the tracks, installs temporary lining, performs other work, the third one installs permanent lining. Therefore, after a distance of 30-40 meters, it is preferable to install several rescue modules.

The first way to use the rescue module, which includes approaching the rescue module to the bottom with the wheels removed, or on the wheels manually, is as follows: cut a new niche closer to the bottom in the side of the working, as the bottom zone has moved forward, raise the front edge of the module installed in the used niche, and lead under the bottom temporary tracks from any profile in the form of channels, pipes, wooden bars perpendicular to the axis of the mine, on temporary tracks under the bottom of the module, pipe trimmings are laid, the module is manually moved from the niche along them, while the wheels do not touch the working soil, then they roll on wheels or roller pipes along the arranged tracks in the working, among the arranged tracks there may also be railway tracks, if there are no tracks, they lay a temporary track along the axis of the working and on the pipes laid on the temporary track they roll to a niche, again cut down in the side of the mine working, similarly moved to a niche. In bremsbergs, the module is supported by a winch from spontaneous rolling. Following the module, a ramp with an emergency supply of oxygen is advanced.

The second way to use the rescue module is carried out with the help of two manual hoists, and the lugs for slinging the module are located at the level of the center of gravity and shifted from the axis of symmetry to the side, towards the front wall of the module. When lifting, the module turns on its side, by 90 degrees, while the height clearance is reduced and becomes equal to the width of the module. The hoist paths are carried out at a permissible height, mainly 1.8 meters.

The third method of approaching the rescue module to the face manually is carried out by niches, freed from the trolleys' warm-up, moving along temporary tracks laid from the niches to the tracks arranged in the mine working.

Other methods of approaching the face are carried out by installing the rescue module on the platform of the mine transport and then moving in the bottomhole space and in the mine working towards the approach to the face.

Known methods for providing rescue shelters, including cutting niches in the mine specifically for shelters, installing shelters in them and, as the face progresses, extracting from the niche and moving to the next carved niche with a loader, patent RU 2416723 IPC E21F 11/00, publ. bul. 11, 20.04.2011 and patent RU 2529991 IPC E21F 11/00, publ. bul. 28, 10.10.2014. The disadvantage of this method is the impossibility of the loader to work close to the face and, accordingly, the impossibility of installing the module next to the face, the need for each movement to cut down a significant niche for the shelter.

In the proposed method, there is no need to cut niches to accommodate the rescue module, the method is implemented primarily by the lightness of the rescue module, made of an elongated dome shape from composite materials and an elongated bottom in the form of a hyperellipse. The dimensions of the elongated module are close to the shape of a trolley. The lightness of the module allows you to move it manually, use the niches freed from the trolleys, and temporary tracks.

As the face 40 advances by 30-40 meters, a niche 42 is being prepared for the warm-up of the trolleys 43, temporary tracks 44 with rollers 45 in the form of pipes are laid. The turnout of the trolleys is transferred from niche 46 to niche 42, and niche 46 remains free. The rescue module is installed by the platform of the module on the roller tubes 45 of the temporary tracks 44, and the wheels do not touch the soil, rolls out along the temporary tracks from the niche 47, moves to the tracks arranged in the working, rolls down on the tracks, moves on the wheels 14 in the direction of approaching the face to the niche 46 and rolls into a niche along temporary paths.

The next rescue module located further along the mine working, if any, is installed in the niche 47 in the same way. Preferably, the module further away from the niche 47 moves into the niche 46 first.

Claims (6)

1. Rescue module for saving personnel in mines from damaging factors: mine collapse, explosion, shock wave, dust, gas contamination, fire, mudflow, consisting of a body, frame, inner and outer skin, equipped with a life support system and an airlock, the module is equipped with oxygen cylinders, characterized in that, for the purpose of quick evacuation to the module from the face by regularly approaching the module manually in cramped conditions to the face and long-term protection of miners in it, it is made in the form of an elongated hollow dome-shaped body resting on the bottom in the form of an elongated hyperellipse, the rescue module is made of composite materials; along the paths arranged in the development of the mine. 2. Rescue module according to claim. 1, characterized in that it is equipped with seats, while opposite one of the seats there is a mechanism for charging batteries with a foot drive. 3. Rescue module according to claim 1, characterized in that the lock chamber is decomposed from the non-deployed state to the deployed one and from the deployed to the non-deployed one inside the module case. 4. Rescue module according to claim. 1, characterized in that it is equipped with a rescue winch with a rope and a skid. 5. Rescue module according to claim 1, characterized in that a ramp with emergency oxygen supply cylinders is installed outside. 6. The method of using the rescue module according to claim 1, including the approach of the rescue module to the bottom, characterized in that the module on the erratic platform of the module, with the wheels installed, rolls out manually along temporary tracks from a niche in the side of the mine working, moves to the tracks arranged in working, rolls down from the temporary paths on the working paths, moves on the wheels of the module platform along the working paths in the direction of approaching the face to the next niche, and rolls into the niche along similar temporary paths.

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