RU2383703C1 - Method for construction of sports skating and downhill skiing complex and device for its realisation (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to system for construction of sports skating and downhill skiing complex and to devices for its realisation. Method for construction of sports downhill skiing and skating complex includes creation of ski jumps, which consist of start pads, ski-jump hill, jumping table, landing hill, stop pad, and organisation of contests and competitions in special tracks for cross-country skiing, ski flights, biathlon, descent from hills along special tracks - slalom, giant slalom, speed descent, including length of track, proper width of gates, distance between them, height differences between start and finish. Removal of rocky stones, boulders, cliffs with sharp ledges, and leveling of slope surfaces on ski tracks and ski jump, and sites for natural and manmade skating race or skating rink, and construction of vertical shafts and horizontal tunnels is carried out with the help of a set of plasma generators or plasma drilling strings by means of rocks melting, filling of pits, grooves, indents with melted mass of rocks, imparting specified smoothened even inclined surface to surface of ski tracks at various angles of inclination, and arrangement of ski jump with controlled height of jumping table. Near areas of tunnel and shafts construction, stone panel walls are manufactured, as well as partitions, slabs and other objects for construction of a house, directly near areas of their erection, by means of rocks melting by an aggregate of plasma drilling strings and manufacturing of these objects from their mass, development of pit and casting of large-panel walls, partitions, slabs is combined and is carried out simultaneously on massif of rocks from mountain top by means of their melting with the help of plasma generators or plasma drilling strings, collection and displacement of melted liquid mass from bottomhole to casting conveyor are carried out with the help of pump, foundry ladle, hoists of gantry crane telpher. Pit contains built large-panel or monolithic circular house, inside curb of walls, partitions, slabs there is a carcass of rod and wire reinforcement, curbs are connected to each other into a section, are arranged in the form of communicating vessels and are equipped with water jackets with the possibility to pour liquid melt mass of rocks into cavities of curb and movement in communicating vessels by gravity flow with cooling of their mass, curbs are connected into a section, curb of external walls has relief of sculptural art images for imprinting of cast items, powder of mineral dyes and titanium and zirconium hydrides are introduced into melt mass of rocks for their decomposition and release of hydrogen for foaming of mass and development of cellular structure and proper heat insulation, fixation by means of cooling and imparting beauty, nice colour and proper heat insulation to cast items. In areas of shaft and tunnels construction, hydrogen, oxygen, nitrogen are produced, hydrogen and oxygen are produced by means of electrolysis or water splitting in vacuum, nitrogen is produced by means of air burning with hydrogen and oxygen, at the same time hydrogen and oxygen are burned, releasing vapors of water, they are condensed with the help of condenser and change from gaseous into liquid condition and are separated from nitrogen, nitrogen, hydrogen and air are supplied into helical channels of discharge chamber of plasma generators for their transformation into plasma vortex for melting of rocks and application in combustion chambers of steam boiler section, and oxygen, air and some hydrogen are supplied into one of combustion chambers of steam boiler for conversion of heat energy into mechanical energy with the help of turbine, then mechanical energy is converted into electric energy with the help of generator. Also versions of devices are described, which comprise snow hill with ski jump and ski tracks.

EFFECT: improved efficiency in process of complex construction, development of waste-free production, reduced labour intensiveness, energy savings, reduction of transport costs for construction of residential buildings, lower pollution of environment, broader technological resources.

6 cl, 32 dwg

Description

The invention relates to a construction system for a sports ski complex.

Ski complexes are known, including ski jumps - sports facilities for increasing the path of an athlete’s body when skiing with stands for spectators, in the form of an artificial or natural mountain, in the form of a raised board with or without springs, consisting of launching pads, acceleration mountains with a height of 20 -80 m, 60-110 m long, 3-4 m wide, tilt angle 27-38 degrees, separation table 4-6 m wide, 1-4 m high, landing mountains 15-20 m wide and stopping area. The total height from the launch pad to the stop exceeds the calculated length by 1.5 times. Trampolines are divided into training up to 20 m, small 20-50 m, medium 50-70 m, large 70-90 m, for skiing - over 120 m. Trampolines are equipped with lifting devices, elevators, a cableway (Big Soviet Encyclopedia. Third ed., computer disk).

Known for skiing including skiing, ski jumping, biathlon (racing and jumping), descent from the mountain on special slalom tracks, giant slalom and downhill skiing, biathlon (racing with rifle shooting), skiing (ski jumping (Great Soviet Encyclopedia, third edition. Computer disk).

Known for skiing - downhill skiing on special tracks: Slalom - downhill track - length of the track 450-500 m, gates marked: gate width 3.5-4 m, the distance between them 0.7 to 15 m, drop heights between start and finish are 60-150 m, skiers develop speeds of up to 40 km per hour on the slopes. Giant slalom - height differences of 200-500 m, route length 800-2000 m, gate width up to 8 m, the distance between them is 15-20 m, the speed on such routes reaches up to 65 km per hour.

Downhill - the length of the track is 2000-4000 m, elevation differences between start and finish are 500-1000 m, speed reaches 90-100 km per hour (Great Soviet Encyclopedia. Third edition. Computer disk).

The disadvantage is the high complexity of the construction of a sports ski complex, low productivity, high energy consumption for the construction of the complex. There is a large distance between the sports complex and the athletes' places of residence, there is insufficient combination between sports and the conditions of entertainment and relaxation. There are not enough comfortable conditions for attracting masses of youth to sports.

The aim of the invention is the approximation of training sessions of competitions, competitions of speed skating to the places of residence of athletes, approaching sports to places of entertainment, creating optimal conditions for convenience, comfort, entertainment, increasing productivity during the construction of the complex, creating waste-free production, reducing labor costs, saving energy, reduction of transport costs for housing, for athletes and maintenance staff of the speed skating and skiing complex ksa, reducing environmental pollution, expanding technological capabilities, conducting observations and control of athletes in different, difficult situations, on different backgrounds of ski runs, in difficult and different weather conditions, at different times, improving power and speed endurance, mastering ski equipment moves, ascents, descents, turns, braking depending on age, profile of the terrain, sliding conditions, improvement of safety measures, provides versatile physical development, improves metabolism TV in the cardio-vascular and respiratory systems, strengthens the nervous system, develops the muscles, the body establishes, develops strength, speed, stamina, agility and volitional qualities.

This goal is achieved in a way where the removal of rocky rocks, boulders, cliffs with sharp ledges, overgrown forests, leveling the surface of the slopes, the creation of special ski slopes and jumps with different heights of the level of the separation table or the regulated height of the level of the separation table of the springboard and the creation of pits for the amphitheater, natural and artificial skating tracks, springboards, amphitheater for spectators, underground houses of dugouts and the construction of vertical and horizontal tunnels are carried out using mplekta plasma drilling projectiles or plasma drilling generators by melting of rocks and combustion overgrown forests, filling holes, recesses, troughs molten mass, imparting a predetermined smooth, smooth, inclined surface surface pistes different angles inclined, and jumping to adjust the height of the separation section. The creation of non-waste production at the tunnel and mine construction sites is carried out in-line production of stone panel walls, partitions and ceilings and other products for the construction of a house-hotel, directly at the tunnel or mine construction sites by melting rocks and making these products from their mass, where foundation pit and continuous casting of monolithic walls, partitions, ceilings are combined and performed simultaneously on a rock mass from the top of the mountain by melting them using plasma generators ators or plasma drill bits, the collection and transfer of molten rock mass from the bottom to the formwork of monolithic walls or container molds is carried out using a pump, casting ladle, hoist hoists, gantry crane. The pit of the quarry can be built up in a panel, or monolithic, or combined way. Inside a steel collapsible portable formwork of walls, partitions of floors, a frame of steel and wire reinforcement is contained. The cavities of the formwork are interconnected into a section, made in the form of communicating vessels, configured to fill in the formwork cavity with a molten mass of rocks and moving the molten mass through communicating vessels by gravity, the formwork are interconnected into a section. On the formwork of the external walls there is a relief of sculptural and artistic images to give a cast impression. Powder of mineral dyes is injected into the molten mass of rocks to give a pleasant color and titanium and zirconium hydrides to decay and release hydrogen to foam the mass and form a cellular structure and good thermal insulation and fixation by cooling and giving the molded products beauty, a pleasant color and good thermal insulation. At the construction sites of tunnels and mines, hydrogen, oxygen and nitrogen are produced. Hydrogen and oxygen are obtained by electrolysis or decomposition of water in a vacuum. Nitrogen is obtained by burning air with hydrogen and oxygen, while hydrogen and oxygen are burned to form water vapor, they condense and transfer from a gaseous state to a liquid state and are separated from nitrogen. Nitrogen, hydrogen, oxygen and air are fed into the spiral channels of the discharge chamber of the plasma generators to convert them into a plasma vortex, blowing air through the arc column, and oxygen, part of the hydrogen and air are fed into one of the combustion chambers of the steam boiler to convert thermal energy into mechanical energy when using a turbine, then converting mechanical energy into electrical energy using an electric generator.

The goal is achieved by the device for implementing the method, the springboard separation table is rotatable, contains hinges and is equipped with a hydraulic, or pneumatic, or screw lifting device, is configured to rotate and adjust the height level of the separation table. The device for delivering athletes to the top of the mountain is made in the form of vertical shafts connected to radial and horizontal tunnels located at different levels, equipped with a road connected to the sea coast and an underground electric road connected to the ends of the ski slopes. The vertical shaft is equipped with an elevator for moving athletes to the top of the mountain. At the top of the mountain there is a multi-storey building, in which there is a hotel, windows and loggias of the house are located towards the ski slopes with an overview of the panorama and view of the sports complex, recreation areas of the sea coast, water park and forest mountain ranges, and underground garages for cars are installed at the bottom of the mine .

The goal is achieved by the second version of the device, differs from the first option in that a pit is installed on the top of the mountain, in which there is a multi-storey, endless house, made in the shape of a ring, in cross section the house has the shape of a circle or oval, rectangle or square, in the underground part houses the inner perimeter of the house is made of steel, stone and glass, the outer perimeter of the walls of the house is equipped with waterproofing, is tightly connected to the mountain massif, is made with the possibility of improving protection from strong winds and low temperatures and comfort and amenities for athletes, approaching sports and competitions to the places of residence of athletes. The house contains hotel rooms, restaurants, bars, cinemas, theaters, gyms, swimming pools with artificial water heating, under the translucent surface of the area between the houses there are greenhouses with hydroponic growing of plants. In the basement of the house there are garages for cars. The devices for delivering athletes to the top of the mountain are made in the form of vertical elevators connected to a vertical shaft using radial, horizontal tunnels located at different levels, equipped with an underground electric road and a highway road connected to a ground road located on the coast of the sea or the foot the mountains.

This goal is achieved by the third device, characterized in that along the longitudinal axis of the mountain tops are vertical elevator shafts that are installed at an appropriate distance from each other, are interconnected with underground houses, the rooms of which are located on the opposite side of the ski slopes at different levels, and are connected between themselves and the mine with the help of tunnel passages, the window openings of the rooms are equipped with natural light, having an overview of the panorama of the sea and forest mountain slopes.

The device can be performed in the fourth embodiment. The fourth option, the same as the first option, differs from it in that the in-line delivery of athletes to the top of the mountain can be made in the form of a cableway, electric heating elements with a temperature regulator are mounted in the chairs of the carts. The cable car is connected to all ends of the ski runs along the shortest path, the arc ski runs are located on rough terrain, have lifts, descents, turns, are made with the ability to give athletes power and speed endurance, mastery of skiing techniques on ascents, descents, corners, braking and the ability to use them on depending on the terrain profile and sliding conditions. Television cameras are installed at the appropriate points on the ski slopes and on the springboard, connected by cable to the television screens installed in the showrooms of the hotel. Made with the possibility of monitoring and monitoring the condition of athletes in different critical conditions.

The device can be implemented in the fifth embodiment, the fifth option is the same as the 1st option, differs from it in that it contains pits for a natural or artificial skating track or rink with an amphitheater for spectators. Pipes for brine are installed in the pit for the artificial track or ice rink, which are connected to the evaporator using an electric pump. They are made with the possibility of circulation and movement of a coolant with a low temperature for crystallization and the transition of water from liquid to solid state - to ice at positive ambient temperatures. A coil is located in the evaporator, which is connected to the condenser by means of a pipeline, a compressor and a valve; the coolant circulates through the pipeline. Water is supplied and removed to the condenser using an electric pump and piping. In the seats of the amphitheater, electric heating elements with a temperature controller are mounted.

The novelty of the claimed technical solution in comparison with the known ones is due to the fact that due to the assembly of plasma generators, a pump, a casting ladle, complex mechanization of the main and auxiliary works is provided, the process is simplified, productivity is increased, labor intensity is reduced, energy is saved, waste-free production is created, large-sized castings are created, standardized unified iron-stone products, stone blocks, prefabricated buildings, staircases, floors, partitions Alcon and other products on a conveyor belt in the foundry casting container forms.

Through the use of cameras installed in appropriate points and television receivers, it is possible to control athletes in various difficult situations, on different backgrounds of ski slopes, in difficult weather conditions, at different periods of time, to control and impart skills of power and speed endurance, mastery of ski equipment moves, ascents, descents, turns, braking depending on the terrain profile and sliding conditions.

By using a plasma generator and a plasma drill, the plasma temperature in the nozzle exit is obtained depending on the type and mode of operation of the electric arc plasma generator within 3000-25000 K.

Due to the manufacture of panel walls, partitions, ceilings directly at the places of construction of tunnels and a mine or pit, the cost of their manufacture and delivery is reduced.

Due to the use of sculptural and artistic images in the formwork of the relief, an imprint of these images is provided on the castings of the exterior walls of the building, which add beauty and grace to the walls of the building.

The underground houses provide protection from strong winds and low temperatures and create an optimal microclimate. The houses will be warm in winter, cool in summer, and natural lighting.

By introducing a powder of mineral dyes and zirconium hydride, and titanium hydride and others, it is possible to give the walls of the house a combination of qualities, a pleasant color, to give the walls a material of a cellular structure and good thermal insulation.

By installing a conveyor foundry technological line in the pit of the pit, the convenience of the process is ensured, the distance between the production of molten mass and the casting of the products is reduced, and the area is saved and rationally used.

Due to the electrolyzer and a device for splitting water, a vacuum cylinder, vacuum pumps and a vacuum regulator, hydrogen and oxygen are produced in a mobile installation in the places of construction of mines, a mine pit for powering plasma generator units, and drilling rigs, and a pore boiler of power equipment .

Due to the use of molten rock mass as a building material, there is no need to buy cement, deliver sand, gravel, water, mix components, improve the quality mix, improve the strength of the material, improve thermal insulation and create a nice color.

By using oxygen and hydrogen as energy, environmental pollution is eliminated and renewable fuels are created.

Due to the application of obtaining different energy options, the expansion of technological processes is provided.

Through the use of cameras, a monitor and remote control buttons, an increase in productivity, a decrease in labor intensity, an improvement in safety measures and an improvement in the quality of control and process control are provided.

Due to the use of electric heating elements and temperature regulators mounted in the stone seats of the amphitheater and chairs of the cable car trolleys, the thermal comfort of athletes and spectators is provided when moving or watching competitions and competitions.

Through skating and skiing, diversified development of athletes is ensured, metabolism in the activity of the cardiovascular and respiratory systems improves, the nervous system is strengthened, muscles are developed, the body is tempered, strength, speed, endurance, dexterity and volitional qualities are developed.

In a patent study of the claimed technical solution for patent, scientific and scientific-technical materials, such a combination of features was not found that allows us to judge the novelty of the essential features.

The invention is illustrated by drawings, where

Figure 1 shows the arrangement of vertical shafts in the form of a hemisphere drill string.

Figure 2 - the same with a conical arrangement of the drill.

Figure 3 is the same, top view.

Figure 4 shows a diagram of the device of a plasma generator.

Figure 5 is a cross section of a sports ski complex, the first option.

In Fig.6 - the same in the second embodiment is made in the form of a circle.

In Fig.7 - the same, made in the form of a square.

On Fig - the same, is made in the third embodiment.

In Fig.9 - the same, made in the fourth embodiment.

Figure 10 - the same, is made in the fifth embodiment.

11 shows an electrical diagram of the splitting of water into hydrogen and oxygen.

In Fig.12 - the same in the second embodiment.

On Fig shows the device of a steam boiler.

On Fig shows the device of a plasma projectile.

On Fig depicts a device of an explosive gas burner.

On Fig shows the rink with an amphitheater for spectators.

On Fig depicts a springboard with an adjustable level table separation.

On Fig shows a diagram of the state of water in the process of splitting.

On Fig depicts an electrical circuit for splitting water.

On Fig shows a diagram of the device of the foundry container.

On Fig-24 shows the device of a casting conveyor.

On Fig depicts a device for the construction of horizontal tunnels, side view.

On Fig is the same, front view.

On Fig - the same, a top view.

In Fig.28 shows the device assembly of plasma drill located in the form of a half cylinder.

On Fig is the same, a view in the form of a wedge.

On Fig - the same, made in the form of a cone.

On Fig shows the unit in the form of a wedge with sliding walls.

On Fig - the same, made in the form of a trihedral pyramid.

The device 1 consists of plasma drill 3 in cross section, made in the form of a rectangle, or circle, or oval, or square, in cross section made in the form of a circle or cone, interconnected in one unit 4 using the frame of the frame, located on the entire area of the mine with the possibility of uniform melting of rocks. Each drill 3 consists of a housing, an electric motor 5, the rotor of which is connected to the neck 6 of the drill bit 7. On the drill bit 7 is a plasma generator 8 and a guide roller 9. The plasma generator 8 contains a hollow water-cooling cathode 10, anode 11, solenoid 12 and a discharge chamber 13 containing spiral channels (not shown in the drawing). Rotatable drill bits 7 with plasma generators 8 around the circumference of the drill 1 provide overlapping and melting by plasma jets of the entire area of capture of rocks by a drill. Each drill 1 is connected to the gas pipelines of hydrogen 14, nitrogen 15 and air 16 and contains ball bearings 17 and an oil seal 18. Each drill is connected to a capacity 19 of the electrolyzer 20 and a device for splitting water 21 by means of a gas pipe 14, a compressor 22, a storage tank 23, vacuum cylinders 24, vacuum pumps 25 and are connected to the combustion chamber 26 of the steam boiler 27 using a compressor 22 and a gas line 15. The mobile electrical installation includes a steam boiler 27, several combustion chambers 26 and steam shirts 28, burners 29 and 30. Steam shirts 2 8 are located around the perimeter of the steam boiler 27 in the form of a spiral or shuttle. The steam shirts 28 are connected to the steam turbine 31 using a steam line 32, configured to convert thermal energy into mechanical energy. The steam jacket 31 is connected to the electric generator 33 using the shaft 34. It is made with the possibility of converting mechanical energy into electrical energy. The burners 29 of the steam boiler 27 are designed to burn explosive gas, they contain two pipes 35 and 36, located coaxially from each other. Oxygen is supplied to the central tube 35 through a gas pipeline 37, and hydrogen is supplied to a tube 26 through a gas pipeline 14. Valves 38 are located on all gas pipelines. The burner 30 is made in the form of a plasma torch, contains a water-cooling cathode 10, anode 11, solenoid 12, and a discharge chamber 13. Mobile the installation is equipped with a water electrolyzer 20 or a device 21 for splitting water. The cell 20 contains a capacitance 19. In the capacitance 19, the electrodes anode 39 and cathode 40 are located, connected to a current source by an electric generator 33 through a rectifier 41. They are configured to convert alternating current to direct current. The device 21 for producing hydrogen and oxygen can be performed in the second embodiment. The second option, the same as the first, differs from it in that it contains a device 21 for splitting water, where the odd electrodes are connected to an alternating current source - to an electric generator 33 using a rectifier diode 42 and a step-down transformer 43. electric current to direct current using a diode 42 and converting the voltage parameters into a weak electric current into milliamps using a step-down transformer 43.

Even unipolar electrodes are connected to the alternating current source by an electric generator 33 using a rectifier 41, a step-up transformer 44, an electric pulse generator 45, a resonator 46, an inductor 47, a voltage regulator 48, a pulse duration regulator 49, a step finder 50. The alternating current is adapted to be converted. to direct current using a rectifier 41.

Convert voltage parameters to tens of thousands of volts with transformer 44.

The creation of electrical pulses with the generator 45 of electrical pulses in resonance mode using a resonator 46 with a inductor 47 with the possibility of regulating the electrical voltage using the voltage regulator 48 and regulating the duration of the pulses using the regulator 49 and creating a combination of pulsating and direct current with different parameters of the voltage of the electric current with the use of a step finder 50 and an automatic chopper 51 and a software switch 52, step-up transformer 44 and straight ator 41 produce lifting of electric current to a high degree. The external inductance forms an oscillating circuit on the electrodes. Transformer 44, rectifier 41, and electrical pulse generator 45 are grounded.

The device comprises a vehicle 53, a forklift 54, a water tank 55, a tank 56 for distilled water, a tank 57 for kerosene. The steam turbine 31 is connected to the condenser 58 by means of a steam line 32. The capacity of the condenser 58 has double walls. The interstitial space 59 and the coil 60 of the condenser 58 are connected to the radiator 61 by means of a water supply pipe 62 and an electric pump 63. They are designed to circulate water in the system, supply chilled water to the coil 60 and the interstitial space, and hot water to the radiator 61 for cooling. The radiator 61 is equipped with an electric fan 64. Made with the possibility of removal and removal of heat from the surface of the radiator 61 and cooling the water. The condenser 58 is connected to the distilled water tank 56 by means of a siphon 65. The tank 19 and the tank 56 contain a liquid level regulator 66, a float chamber 67, a float 68. Permanent magnet plates 69 are attached to the float 68 and interact with reed switches 70 and 71 by magnetic field. Reed switch 70 is designed to open the electrical circuit. Reed switch 71 is designed to close the electric circuit supplying the electric pump 63. The drill assembly is equipped with an electric pump 72. The burners 29 are equipped with a coil 73 and a spark plug 74. Using an electric circuit, an electric generator 33 is connected to the battery 75. The mobile electrical installation 76 comprises a steam boiler 27, a steam turbine 31, an electric generator 33, an oxygen storage tank 77, a nitrogen storage tank 78, a hydrogen storage tank 23, a condenser 58 , a radiator 61, an electrolyzer 20, or a device for splitting water into hydrogen and oxygen. A casting bucket 79 is located in the cavity of the shaft. A water-cooling vertical shaper 80 of the shafts is located in the upper base of the shaft, it is suspended on a fixed support 81 and contains a water jacket 82 and a watering can 83. The foundry conveyor 84 is a container located on a conveyor belt 85 made in the form troughs containing side walls 86 made by swivels and provided with hinges 87 and grooves-guides 88. The container also contains end walls 89. End walls 89 are rigidly fixed to frame 90. Construction device 2 and the tunnel contains a tunnel shield 91, a tractor 92, a movable platform 93, a grader 94, sections 95, jacks 96, an electric pump 63, a casting conveyor 84 and a mobile power plant 76 are interconnected into one technological line with the possibility of complex mechanization and creation of waste-free production iron products on a casting conveyor 84.

The tunnel shield 91 combines the function of the shaper of the reinforced stone walls of the tunnel and contains several sections 95. Each section 95, with the help of jacks 96, is mounted and fixed on the movable platform 93 with the possibility of overlapping each other and contains water shirts 82, doors and latches (not shown in the drawings) . Made with the possibility of alternating movement of the sections of the horizontal shaper 95 by the jacks to tightly crimp the formwork 100 of the reinforcement, to properly bond the rocks, to create monolithic tunnel walls and to add reliability and durability, followed by separation of the formwork sections after crystallization and moving the platform 93 with the equipment to a new position at help of the tractor 92. In the head part of the technological line there is a complex of plasma generators 8 or a complex of plasma shells 3 on the surface of the pivot cone 101 or hemisphere 102, they are rigidly fixed on the shaft 34 and are equipped with a geared electric motor 103. The shaft 34 is pivotally mounted on the movable platform 93, between the platform 93 and the tractor 92 metal rods 104 are movably fixed at different levels in the holes 105 of the platform frame racks and several elastic compression springs 106 with helical rings. Made with the possibility of melting rocks using plasma drill 3, plasma generators 8 (plasma temperature at the nozzle exit is 3000-25000 K); suspension and retention of the frames 107 are rigidly connected to the tractor 92. The spring 106 softens the shocks of the cone or hemisphere 102 when moving the tractor 92 with the platform 93 from position to position and brings the discharge chambers 13 of the plasma generators 8 to the rocks. At the lower base of platform 3, a blade 108 of a grader 109 is installed, made possible to guard against spreading and accumulation of molten rock mass using tubing 110 and a tubing stacker 110, planning and leveling half-molten rocks, profiling and giving the roadway 111 a smooth, even surface with slopes in side. Leveling of the roadway is carried out using a laser optical-mechanical or hydrostatic level. A guide roller 112 is mounted on the plasma generator 8. On the surface of the rotary cone 101 or hemisphere 102, plasma generators 8 or plasma drill 3 are mounted and rigidly connected to each other in a set. Mobile power plant contains several tanks 19 of electrolytic cells 20 or several tanks 19 of devices 21 for splitting water. The sports ski complex includes amphitheaters containing seats 113, in which electric heating elements 114 with temperature regulators 115 are mounted. The sports ski complex contains a training, small, medium, large springboard for organizing classes, competitions, competitions, consisting of launch sites 116, Acceleration mountains 117, lift-off tables 118, touchdown mountains 119, stopping areas 120, organization of competitions on special tracks for skiing, skiing 121, biotlon 122 (g APIS shooting a rifle), descent with hot-on special tracks 123 slalom, giant slalom 124 expressway descent 125 comprising a length of track 126, with the appropriate gate width and the distance between them and the height difference between start and finish. The springboard is created with the adjustable height of the lift-off table 118, equipped with a hydraulic or screw lift, made with the possibility of change - regulation of the height of the ski jump. The removal of rocky rocks, boulders, cliffs with sharp ledges, overgrown forests, smoothing and leveling the surface of slopes on special mountain tracks and a springboard and the construction of vertical shafts and horizontal tunnels is carried out using a set of plasma drill shells or plasma generators by melting rocks and burning overgrown forests, filling holes, depressions, depressions with molten rock mass, giving the surface of the ski slopes a given smooth, flat, inclined surface under different scrap inclined. Television cameras 127 are installed at appropriate points on the ski slopes, on the ski jump and in the ice rink. They are connected by television sets 128 with a cable installed in the showrooms and are designed to allow spectators to watch competitions and competitions.

The springboard contains a tear-off rotary table 118, equipped with hinges, and equipped with a screw or hydraulic lift 129, configured to rotate and adjust the height of the tear-off table 118. The device for delivering athletes to the top of the mountain 130 is made in the form of vertical shafts 131, radial horizontal tunnels 132. The vertical shaft is equipped with a movable elevator 133, and the horizontal tunnel is equipped with an underground electric road connected to a vertical shaft 131, equipped with a road connected to a car stably track, located on the coast of the sea, and underground electric road connected to the ends of the ski slopes. The vertical shaft 131 is equipped with an elevator 133, is configured to move athletes from the end of the ski slopes to the top of the mountain 130.

At the top of the mountain 130 (Fig. 5) there is a multi-storey building 135, in which there is a hotel, the windows and loggias of the house are located towards the ski slopes with an overview of the panorama and view of the outlines of the sports complex and forest and mountain distances. In the lower base of mine 131, underground garages for cars are installed. At the launch pad 116, at the detachment table 118, touchdown mountains 119, at the touchdown pad 119 and the stopping platform of the springboard 120 and along special tracks 121 for skiing at biathlon 122, on special slalom routes 123, giant slalom 124, downhill 125 at appropriate points are television cameras 127 that are connected to television receivers 128 by cable. 128 television sets are installed in the showroom at the hotel.

The device can be performed in the second embodiment. The second option (Fig.6) is the same as the first, differs from it in that along the longitudinal axis of the top of the mountain chain there is an artificial foundation pit, in which there is an endless underground multi-storey building 135, made in the shape of a ring. In the cross section of the circular multi-story underground building 135 has the shape of a circle, or an oval, or a rectangle, or a square. The multi-storey building 135 is located underground, to contain part of the rooms for hotels, part for apartments, part for cinemas, theaters, gyms, saunas, pools, restaurants, cafes, bars. The house has a water supply, gas pipeline, electricity line. The inner perimeter of house 135 is made of glass and steel, made with the possibility of providing natural lighting for all apartments and protecting residents from strong winds and from cold. The outer walls of the perimeter of the house 135 are equipped with waterproofing and heat insulation, tightly connected to the massif of rocks of the mountain 130. The basement of the house 135 contains underground garages for cars, roads and highways. The device for delivering athletes to the top of the mountain 130 is made in the form of vertical elevators 133 connected to the top of the mountain 133, on which the ski runs begin, the ends of the ski runs are connected to the vertical shaft 131 by means of radial, horizontal tunnels 132 located at different levels and equipped with an underground 134 electric road and highway, located on the coast of the sea or at the foot of the mountain.

The device can be made in the third embodiment. The third option (Fig. 8) is the same as the first and second options, differs from them in that along the longitudinal axis of the chain of the top of the mountain 130 there are vertical shafts 131 equipped with elevators 133, they are installed in a row through an appropriate distance from each other, connected between themselves and underground dugout houses 136 using underground tunnel passages, rooms of house 136 are located on several levels on the mountain slopes on the opposite side of the ski slopes, the window openings of the rooms are equipped with natural light and have underground passages and p panoramas of the sea and forest mountain slopes and panoramas of ski slopes, and are equipped with water, gas, sewers, ventilation and electric energy. All parts and components of the drill 3, the electric pump 72 and the casting bucket 79, the plasma generator 8 are made in heat-resistant performance of molybdenum or tungsten.

The device can be performed in the fourth embodiment. The fourth option (Fig. 9) is the same as the first option, differs from it in that the delivery of athletes to the top of the mountain 130 can be made in the form of a cableway 137, in the seats 138 of the carts of which electric heating elements 114 are mounted with thermostats 115 connected with all ends of the ski slopes, on the shortest path. Arc ski slopes are located on rough terrain, have ascents, descents, turns, are made with the possibility of giving athletes power and speed endurance, mastery of skiing techniques on ascents, descents, turns, braking and the ability to use them depending on the terrain profile and sliding conditions, and moving them in chairs 138 from the bottom up to the top of the mountain 130 in a short period of time. At the appropriate points on the ski slopes and the ski jump, 127 cameras are installed, connected by cable to the screens of the 128 TVs installed in the hotel’s showroom. Made with the ability to monitor and control the state of the performing athletes who are in different critical conditions.

The device can be performed in the fifth embodiment. The fifth option (Fig. 16 and 10) is the same as option 1, differs from it in that it contains pits for natural and artificial 139 speed skating tracks or skating rinks. In the pit for an artificial track or ice rink with an amphitheater for spectators, a brine pipe 140 is installed, which is connected to the evaporator 141 by means of an electric pump 142, made with the possibility of circulation and heat transfer from a cold source to a warmer coolant with a low temperature, which ensures crystallization and transition of water in the foundation pit, from liquid to solid, to ice at positive ambient temperatures. In the evaporator 141, a coil 143 is located, which is connected to the condenser 144 via the pipeline 140 of the compressor 145 and the valve 38. Water is supplied and removed to the condenser 144 by the electric pump 142. Electric heating elements 114 with thermostat 115 are mounted in the seat 138 of the amphitheater.

The device operates as follows. Pre-conduct geotechnical surveys of the area. Take an analysis of the soil, rocks. They analyze the results of the survey, draw up a plan for linking the project to the area. Allocate a site. Make markings for the location of the training center, small medium, large springboard, consisting of launch pads 116, acceleration mountain 117, breakaway table 118, touchdown mountain 119 - stopping area 120, special tracks 121 for skiing, skiing, biotlon 122 ( racing with rifle shooting), descent from the mountains on special slalom routes 123, slalom, giant 124, downhill 125, including the length of route 126 with the proper gate width, distance between them, elevation differences between start and finish.

At the top of Mount 130, helicopters deliver, move machines, components, and parts to a given area using helicopters. Install all the equipment. The water tank 55, the tank 56 for distilled water and the tank 57 for kerosene 57 are filled to an appropriate level. Tanks 23, 77, and 78 have a supply of hydrogen, oxygen, and nitrogen. We open valves 38 on gas pipelines 37, 14, 15 and 16. We level the platforms by melting rocks and pouring molten mass of rocks of all pits, depressions, depressions, lowlands, level and level, we give the site a predetermined smooth, horizontal surface. A container casting conveyor 84 is placed on this site. We lower the aggregate of plasma drill bits 4, made in the form of a hemisphere 102, or a turning cone 101, or a wedge, or a half cylinder, onto the rock surface, in cross section they can be made in the form of a rectangle or a circle, made with the possibility of rotation of the plasma generators 8 around the circumference of the drill 3 overlapping and melting rocks with plasma jets of the entire area of capture and melting of rocks and removal of molten liquid mass with face into the casting bucket 79, followed by moving the molten rock mass from the bottom to the casting conveyor container 84 and pouring it into casting molds for casting metal products, moving the gantry crane hoist 148 to the proper depth with winches 147. The technological process is controlled by the operator from the workplace using the remote control buttons (not shown in the drawing), television cameras 127, television receiver 128. Non-waste technology is used, the entire mass of rocks is melted and used for the manufacture of large-panel products (walls, partitions, floors and other products). Rock melting is carried out using a drill 3 assembly 4, where the plasma temperature at the nozzle exit is 3000-25000 K, made in the form of a hemisphere 102, or a rotary cone 101, or a wedge, or a half cylinder. The molten mass of rocks flows down from the walls of the quarry and, using an electric pump 72, the liquid mass is transferred to the casting bucket 79. After filling, the bucket 79 is moved from bottom to top using a hoist crane hoist 147 148 from bottom to top. Zirconium hydrate powder or titanium hydrate is introduced into the molten rock mass. As a result of high temperature, titanium decays, zirconium releases hydrogen, hydrogen foams the liquid mass of rocks, forming a cell structure, which is fixed by rapid cooling. The property of the foam material depends on the amount of absorbed gas and the properties of the starting material. The cell structure provides good thermal insulation, gives lightness to walls and ceilings (Great Soviet Encyclopedia, third edition. Computer disk).

In the production of casting large-panel wall facade walls of a building, a powder of mineral dyes is introduced into the molten rock mass, which is made to give molded products a pleasant color. Iron-stone products are casted in container molds and the products are cooled with cold water through water jackets 82 using an electric pump 63. Inside the formwork 100 (partitions), there is a frame of steel bar and wire reinforcement. The formwork 100 is interconnected into a section, made in the form of communicating vessels with the possibility of filling the cavities of the formwork 100 with a molten mass of rocks and moving by gravity through communicating vessels. On the formwork of 100 walls there is a relief of sculptural and artistic images, made with the possibility of giving prints of cast products of artistic images.

At the construction sites of mines 131 and tunnels 132, hydrogen, oxygen, and nitrogen are produced. Hydrogen and oxygen are obtained by electrolysis or breakdown of water. Nitrogen is obtained by burning air with hydrogen and oxygen. At the same time, hydrogen and oxygen burn, forming water vapor, they condense and pass from a gaseous state to a liquid state and are separated from nitrogen. Nitrogen, hydrogen and air are fed into the spiral channels of the discharge chamber 13 of the plasma generators 8 to convert them into a plasma vortex, blowing air through the arc column, and oxygen, air and part of the hydrogen are fed into one of the combustion chambers 26 of the steam boiler 27 to convert thermal energy into mechanical using a steam turbine 31, then converting mechanical energy into electrical energy using an electric generator. 33. After the construction of the vertical shaft 131, horizontal tunnels 132 are constructed, connecting the roads located on the coast of the sea or at the foot of the mountain with the ends of the ski runs to the motorway. Then, vertical elevators 133 are installed in the shaft 131, and the underground railways 134 are laid in the tunnels. A large-panel multi-storey building 135 is constructed from large-panel iron-stone products above the mountain shaft 130 above the vertical shaft 130. The windows and loggias of the house are located in the direction of the ski slopes 121 with an overview of the panorama of the sea coast, the water park, the view of the sports complex and the panorama of the outlines of the remote forested mountain slopes.

The device can work in the second embodiment. The second option is the same as the first, differs from it in that along the longitudinal axis of the mountain chain 130 there is an artificial pit, which is built up by a multi-storey endless house 135, made in the shape of a ring, in the cross section in the form of a circle, either an oval, or a rectangle or square. In the underground part, the inner perimeter of house 135 is made of glass, steel and cast stone structures, made with the possibility of protection from strong winds and low temperatures, all rooms of the house have natural and artificial lighting. The outer perimeter of the walls of the house 135 is equipped with waterproofing and thermal insulation, tightly connected to the rock mass.

The house can be made in another embodiment. This option, the same as the second option, differs from it in that the house is located underground, and the other house is on the mountain, both houses are interconnected and interconnected and have one vertical elevator, windows and loggias of the house located above the mountain, in different directions made with the possibility of reviewing the ski slopes of the sports complex, and the state of calm, azure, rough, gloomy, stormy seas, recreation areas on the coast, water park and the outlines of the sea away from the sea and the distant outlines of forest mountains. House 135 contains hotel rooms, servants' apartments, canteens, restaurants, bars, gyms, showrooms, cinemas, theaters, circus and other entertainment facilities. Athletes are transported to the top of the mountain 130 and to apartments using vertical elevators 133, from the ends of the ski slopes using the underground electric railway 134, and from the highway (located off the coast of the sea) by car. Cars are stored in underground garages in the basement. Each apartment or hotel room is equipped with plumbing, gas, electricity, garbage, sewage.

The device can work in the third embodiment. The third option, the same as the first option, differs from it in that along the longitudinal axis of the top of the mountain chain there are vertical shafts 131, which are installed at an appropriate distance from each other, connected to each other and underground dugout houses 146 using tunnel passages. The rooms of the dugout houses 146 are located on several levels on the mountain slopes on the opposite slope of the ski slopes, the window openings of the rooms are equipped with natural light and have a panoramic view of the sea, ski mountain slopes. Each apartment is equipped with a water supply system, a gas pipeline, a sewage system, a garbage chute, and electric energy.

The device can work in the fourth embodiment. The fourth option, the same as the first option, differs from it in that the athletes can be delivered to the top of the mountain on a cableway 137, electric heating elements 114 with a temperature regulator 115 are mounted in the seats 138 of the seats. Cableway 137 is connected to all ends of the arc ski tracks along the shortest path, where ski tracks 121 are located on rough terrain, have lifts, descents, turns, are made with the possibility of giving athletes power and speed endurance, possession of t hnikoy ski moves on gradients, cornering, braking, the ability to use them, depending on the profile of the terrain and conditions, and in-line sliding movement of athletes at the top of the mountain from the bottom up in a chair 138 in a short period of time. Television cameras 127 are installed at the appropriate points on the ski runs 121 and the springboard, which simultaneously transmit information from all ski runs 121 and the ski jump via cable to the television screens 128 installed in the hotel’s showroom, allowing all athletes in different critical areas to be watched, tracked and monitored conditions, and give them an objective assessment in competitions and competitions.

The device can work in the fifth embodiment. The fifth option, the same as the first option, differs from it in that cooling pipelines 140 are located on artificial skating tracks, under ice, in a layer of stone coating. In them, an electric pump 142 delivers a brine temperature of -20 degrees from the evaporator tank 141. Dissolved salt in water or potassium chloride makes the freezing temperature of the brine lower than that of water, cooling the stone monolith, taking heat from it, the brine is heated and returned to the evaporator tank 141, where the coil 143 is placed. The evaporator 141 is filled with liquid ammonia. Here, the brine cools, gives its heat to ammonia, which boils at a low temperature. Then the brine returns to the cooling batteries - the cycle repeats.

Compressor 145 draws ammonia vapor from the evaporator and compresses them to 10 atm. The vapor heated during compression enters the condenser 144, where it is cooled with ordinary water, and again converted into a liquid. From the condenser 144, liquid ammonia enters the evaporator 141, passing through a small hole in the control valve. 38. At the same time, its pressure drops sharply to 1-2 atm. As a result, it begins to boil again at low temperature. The refrigerant - ammonia makes an endless movement in a vicious circle: the evaporator 141 - compressor 145 - condenser 144 - control valve 38 - and again the evaporator 141. It takes heat from the brine, and gives water to the condenser. Ammonia serves as cooling agents, it boils at a temperature of -33.4 degrees and Freon - 12 - it boils at a temperature of -29.8 degrees. In the seat of the amphitheater 113 mounted electric heating elements 114 with thermostat 115.

A method of constructing a sports ski and ice-skating complex includes the creation of a training, small, medium, large springboard, consisting of launch sites 116, acceleration mountain 117, breakaway table 118, touchdown mountain 119, stopping area 120, organizing competitions, competitions on special tracks 121 for skiing, skiing, biathlon 122 (racing with rifle), descent from the mountains on special slalom routes 123, giant slalom 124, downhill 125, including the length of the track 126, the proper width of the goal, distance The charm between them and the difference in height between start and finish. Removal of rocky rocks, boulders, cliffs with sharp ledges, forest undergrowth, leveling the surface of slopes from ski slopes and the construction of a springboard, amphitheater for spectators and a platform for a natural 161 and artificial 162 speed skating track for skating rinks, a springboard, an amphitheater for spectators, underground dugout houses The construction of vertical shafts 131 and horizontal tunnels 132 is carried out using a set of aggregate 4 of plasma drill 3 or plasma generators 8 by melting rocks with plasma. Burning overgrowth of the forest, filling holes, recesses, hollows with molten mass, giving the surface of the ski slopes a predetermined, smooth, even, inclined surface at different angles of inclination, and a springboard with an adjustable height of the level of the separation table. At the places of construction of the tunnel 132 and mine 131, large-panel products (walls, partitions, ceilings and other products) are made for the construction of a house, directly at the places of construction of the tunnel or mine by melting rocks and making these products from their mass, creating a foundation pit and in-line the casting of large-panel walls 99, partitions, ceilings is combined and is carried out simultaneously on the rock mass from the top of the mountain chain 130 by melting them using plasma generators 8 and plasma level projectiles 3. The collection and transfer of molten rock mass from the bottom to the container molds is carried out using a pump 63, a casting bucket 79, hoists 147, a gantry crane hoist 148. The excavation pit is built up with a multi-storey monolithic, or panel, or combined house 135. Inside formwork of 100 walls, partitions, ceilings contains the frame of the rod and wire reinforcement. The formwork 100 is interconnected into a section, made in the form of communicating vessels, configured to fill the cavity of the formwork 100 with liquid molten mass of rocks and to move by gravity through the communicating vessels, the formwork 100 is connected to the section. On the formwork of 100 exterior walls there is a relief of sculptural and artistic images to give impressions of cast products. Powder of mineral dyes and titanium and zirconium hydrate are introduced into the molten mass of rocks for their decay and hydrogen evolution for foaming the mass and the formation of a cellular structure and good thermal insulation, fixation by cooling with cold water using water jackets 82 and giving the cast products beauty, a pleasant color and good thermal insulation. At the construction sites of mines 131, tunnels 132, hydrogen, oxygen, and nitrogen are produced. Hydrogen and oxygen are obtained by electrolysis using an electrolyzer 20 or splitting water using a device 21 for splitting water in a vacuum. Nitrogen is obtained by burning air with hydrogen and oxygen in the combustion chamber 26 of the steam boiler 27, while hydrogen and oxygen are burned to form water vapor, they condense using a condenser 58, go from a gaseous state to a liquid state and are separated from nitrogen. Nitrogen, hydrogen and air are fed into the spiral channels of the discharge chamber 13 of the plasma generator 8 of the drill 3 and the burner 30 of the plasma generator, one of the combustion chambers 26 of the steam boiler 27 to convert them into a plasma vortex, blowing air through the arc column, and oxygen, air and part hydrogen is fed into the burner 29 of one of the combustion chambers 26 of the steam boiler 27 for converting thermal energy into mechanical energy using a steam turbine 31, and then mechanical energy into electrical energy using an electric generator 33.

Claims (6)

1. A method of constructing a sports ski and skating complex, including the creation of ski jumps consisting of launching sites, an acceleration mountain, a breakaway table, a touchdown mountain, a stopping platform and organizing competitions and competitions on special tracks for skiing, skiing, biathlon, descent mountains on special slalom, giant slalom slopes, downhill, including the length of the track, the proper width of the goal, the distance between them, elevation differences between start and finish, characterized in that removing the ska of true rocks, boulders, cliffs with sharp ledges, and leveling the surface of slopes from ski slopes and a springboard, and sites for natural and artificial skating paths or skating rinks and the construction of vertical shafts and horizontal tunnels is carried out using a set of plasma generators or plasma drill bits by melting rocks, filling holes, depressions, troughs with a molten mass of rocks, giving the surface of the ski slopes a predetermined smooth, inclined surface under different slope scrap, and a springboard with a controlled separation table height, at the places of construction of the tunnel and mines, stone panels, partitions, ceilings and other products for building a house are made directly at their construction sites by melting rocks with an aggregate of plasma drill shells and their masses of these products, the creation of a pit and the casting of large-panel walls, partitions, ceilings are combined and performed simultaneously on an array of rocks from the top of the mountain by melting them with cabins for plasma generators or plasma drill bits, the collection and transfer of molten rock mass from the bottom to the casting conveyor is carried out using a pump, casting ladle, gantry crane hoist winches, the pit is built up with a large-panel or monolithic ring house, inside the formwork of walls, partitions, ceilings the frame of the rod and wire reinforcement, the formwork are interconnected into a section, made in the form of interconnected vessels and equipped with water jackets with the possibility of pouring liquid ra molten rock mass in the formwork cavity and gravity flow through communicating vessels with cooling of their mass, the formwork is connected to the section, the relief of sculptural artwork is on the outer wall formwork to give an impression to the foundry products, mineral dye powder and titanium hydride are introduced into the molten rock mass and zirconium for their decay and hydrogen evolution for foaming mass and the formation of a cellular structure and good thermal insulation, fixation by cooling and giving molded products pits of beauty, pleasant color and good thermal insulation, hydrogen, oxygen, nitrogen, hydrogen and oxygen are obtained at the construction sites of the mine and tunnels by electrolysis or by splitting water in a vacuum, nitrogen is produced by burning air with hydrogen and oxygen, while hydrogen and oxygen are burned forming water vapor, they condense with a condenser and pass from a gaseous to a liquid state and are separated from nitrogen, nitrogen, hydrogen and air are fed into the spiral channels of the discharge chamber of plasma generators for conversion they are fed into a plasma vortex for melting rocks and using sections of the steam boiler in the combustion chambers, and oxygen, air and part of the hydrogen are fed into one of the combustion chambers of the steam boiler to convert thermal energy into mechanical energy using a turbine, then they convert mechanical energy into electric with a generator. 2. A device containing a snow slide with a springboard and special ski runs of the proper length, gates of the proper width, elevation differences between the start and finish and devices for delivering athletes to its top, characterized in that the ski-off table is rotatable, contains hinges and is equipped with a hydraulic or pneumatic or screw hoist, made with the ability to rotate and adjust the height of the level of the table of the separation of the springboard, in addition there are jumps containing a springboard with a launch pad , a mountain of dispersal, a breakaway table, a mountain of landing, a stopping platform, and special tracks for skiing, skiing, biathlon, downhill slalom, giant slalom, downhill, artificial and natural speed skating tracks, a device for delivering athletes to the top of the mountain is made in the form of a connected vertical shaft with horizontal tunnels located at different levels, equipped with a highway that is connected to a highway located on the coast of the sea or at the foot of the mountain and a subway By means of railways connected to the ends of the ski runs, the vertical shaft is equipped with an elevator, it is capable of moving a large flow of athletes and everyone, on the top of the mountain above the elevator there is a multi-storey building, in which the hotel and apartments, shops, restaurants, canteens, bars are located, sports halls, windows and loggias of the house are located on the side of the ski slopes and the sea with an overview of the panorama of the sports complex, forest mountain ranges, underground garages for cars are installed in the lower base of the mine, in proper points are located cameras connected via cables to television receivers installed in the showroom. 3. A device containing a snow slide with a springboard and special ski slopes and a device for delivering athletes to the top of the mountain, characterized in that along the longitudinal axis of the mountain chain there is a foundation pit in which a multi-storey building is made in the shape of a ring, in cross section having the shape of a circle , or an oval, or a square, or a rectangle, in the underground part of the house the entire inner perimeter of the house is made of steel and glass, the outer perimeter of the house is waterproofed and tightly connected to the mountain range rod, made with the possibility of creating comfort and convenience, approaching athletes to places of residence and entertainment, providing all apartments and hotel rooms with natural light and good protection from wind and low temperatures, the ends of the ski slopes are connected to the top of the mountain using horizontal tunnels equipped with the railway and the vertical shaft, equipped with an elevator, the tunnel is equipped with a highway connected to the highway, located off the coast of the sea or at the foot of the mountain. 4. A device containing a snow mountain with a springboard, and special ski slopes and a device for delivering athletes to the top of the mountain, characterized in that along the longitudinal axis of the top of the mountain chain are several vertical shafts that are installed at an appropriate distance from each other, connected between themselves and the tunnels that are located on several levels, and underground dugout houses, which are located on several levels on the mountain slopes on the opposite side of the ski slopes, the window openings of the room The houses are equipped with natural light and have a panorama view with an overview of forest and sea distances, recreational areas and a water park. 5. The device comprises a snow mountain with special ski runs and a device for delivering athletes to the top of the mountain, characterized in that the device for delivering athletes to the top of the mountain is made in the form of a cableway connected to all ends of the arc ski runs along the shortest path, arc ski the tracks are located on rough terrain at different levels, have ascents, descents, turns, are made with the possibility of imparting power and speed endurance to athletes, owning ski equipment ascents, descents, turns, braking and the ability to use them depending on the profile of the terrain and sliding conditions, television cameras are installed at the appropriate points on the ski slopes and on the springboard, connected by cable to the television screens installed in the showrooms and made with the possibility of observation and monitoring for the state of competitions and competitions of athletes in different critical situations and giving an objective assessment of their results. 6. The device according to claim 1, characterized in that it contains a platform for an artificial skating track or roller, a brine pipe is installed on the site for an artificial track or roller, connected to the evaporator using an electric pump, and is configured to move the heat carrier from the cold a source to a warmer one for crystallization and the transition of water from liquid - to solid - to ice at a positive ambient temperature, a coil is located in the evaporator, which is connected to a condenser and with the help of a pipeline, a compressor and a valve, the condenser is connected to the water supply through which water is supplied using an electric pump.

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