RU84247U1 - ATTRACTION - Google Patents

Abstract

An attraction containing a supporting structure placed on the foundation, equipped with means for moving visitors above the surface of the supporting structure and means for introducing visitors to the working area of the attraction, characterized in that the supporting structure is shaped like a hollow ball, while in the cavity of the supporting structure is placed, preferably with the possibility rotation around the vertical axis is an internal structure, the outer surface of which is given a spherical shape, the axis of rotation of which coincides with the vertical axis the structure, while the internal structure is equipped with means of information-visual impact on visitors, and the supporting and internal structures are waterproof, the gap between them is filled with water, while hard capsules are used as means of moving visitors over the surface of the supporting structure, preferably spacesuits, equipped with autonomous propulsors and air sources, while the means of input-output of visitors into the working area of the attraction are made in the form of lock chambers, located in the foundation part of the attraction, in addition, the surface of the internal structure is made with the possibility of using it as a screen for projecting onto it from inside the internal cavity of the corresponding information fragments, the totality of which is a means of information-visual impact, in addition, the stationary relative to foundation, vertically oriented shaft, equipped with elevator lifts, in communication with the upper section of the bearing con

Description

The utility model relates to the entertainment industry.

A known attraction made with the possibility of moving a passenger and at the same time applying to him a changing information-visual impact (see GB N 2295098).

It is known an entertainment device made with the possibility of complex movement of a passenger in mutually perpendicular planes (see PCT WO 92/05848).

A ride is known, comprising a frame fixed to the base, a drive, articulated intermediate links made in the form of concentrically arranged outer, intermediate and inner rings, the intermediate and inner rings are rotatably mounted on mutually perpendicular axes, the inner ring encircles the capsule cabin equipped with seats and connected to the drive, the attraction is equipped with a control system having a control panel both inside the capsule cabin and a feedback unit connected to it Check the control panel on the operator’s platform, (see US 5060932).

A common drawback of the known attractions is the uniformity of the sensations received by the passenger, where not all of the human senses, perceiving these or those sensations, are mainly involved.

An attraction is also known (see RU 2142841), containing a supporting structure placed on the foundation, equipped with means for moving visitors above the surface of the supporting structure and means for introducing visitors to the working area of the attraction. The disadvantages of this solution are: a low degree of entertainment due to small functionality, as well as the lack of the ability to simulate movements in outer space above the surface of an asteroid (planet).

The problem the claimed utility model aims to solve is to increase the degree of entertainment by expanding the functionality of the attraction, including due to the ability to simulate movements in outer space above the surface of an asteroid (planet).

The technical result obtained when solving the problem is expressed in expanding the functionality of the attraction, including by providing the ability to simulate movements in outer space above the surface of an asteroid (planet).

To solve the problem, an attraction containing a supporting structure placed on the foundation, equipped with means for moving visitors above the surface of the supporting structure and means for introducing visitors to the working area of the attraction, is characterized in that the supporting structure is shaped like a hollow ball, while in the cavity of the supporting structure preferably, rotatable around the vertical axis, an internal structure is arranged, the outer surface of which is given a spherical shape, the axis of rotation of which is falls into the vertical axis of the supporting structure, while the internal structure is equipped with means of visual-visual impact on visitors, the supporting and internal structures being made waterproof, the gap between them is filled with water, while hard capsules are used as means of moving visitors over the surface of the supporting structure , preferably spacesuits equipped with autonomous propulsors and air sources, while the means of input-output of visitors to the working area of the attraction in made in the form of lock chambers located in the foundation of the attraction, in addition, the surface of the internal structure is made with the possibility of using it as a screen for projecting on it from the inside of the internal cavity of the corresponding information fragments, the totality of which is a means of information-visual impact, in addition, cavities of the internal structure placed motionless relative to the foundation, vertically oriented shaft, equipped with elevator lifts, communicated with the upper part of the supporting structure provided with a transparent, preferably cylindrical or domed coating, in addition, a balcony is made around the perimeter of the supporting structure, preferably rotatable around the latter, while the balcony is supported by at least two, preferably vertical, support legs equipped with elevator lifts, in addition, hard capsules, made with the possibility of maintaining their total buoyancy taking into account the weight of the visitor from zero to positive, in addition, at the traction is equipped with a centralized management tool for autonomous hard capsule propulsion devices and telemetric visitor health monitoring systems.

A comparison of the features of the claimed solution with the features of analogues and prototype indicates its compliance with the criterion of "novelty."

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The search results showed that the claimed utility model does not derive explicitly from the prior art for the specialist, since the influence of the claimed technical solutions, provided for by the essential features, is not revealed from the prior art, which provides a positive reaction to solving the technical problem - increasing the degree of entertainment for due to the expansion of the functional capabilities of the attraction, including due to the possibility of simulating movements in outer space above overhnostyu asteroid (planet).

Figure 1 presents a section of the device; figure 2 schematically shows a view of the visitor in a hard suit.

Figure 1 is presented taking into account the symmetry of the structure.

The drawings show the supporting structure 1, placed on the foundation 2, in which the lock chambers 3 are located, equipped with an entrance hatch 4 and an exit hatch 5. The supporting structure 1 is shaped like a hollow ball, while its side 6 facing outward is provided with an external coating ( not shown), made in a known manner using known materials, with the possibility of ensuring the strength and thermal characteristics of the structure in accordance with the requirements of the relevant building codes. Side 7 of the supporting structure 1 facing inward is provided with an inner coating sealed and made of stainless steel or titanium alloys. The thickness of the coating and the dimensions of the elements of the power frame are variable - from a maximum in the lower part of the supporting structure to a minimum in the upper one, with the expectation of loads from a water column, which in the lower part of the structure can reach a height of the volume filled with water (for example, 15 atmospheres at supporting structure height 150 m).

In the cavity of the supporting structure 1 is placed rotatably around a vertical axis of the inner structure 8, the outer surface of which is also given a spherical shape, the axis of rotation of which coincides with the vertical axis of the supporting structure 1. The requirements for the strength and tightness of the internal structure 8 are exactly the same as for the bearing design 1, only its outer coating is made of transparent or translucent materials, preferably synthetic (providing image transmission by projection method. ying coating the inner structure 8 of stainless steel or titanium alloy, the coating surface facing the support structure 1 shall be provided with a projection panels.

The upper and lower sections of the internal structure 8 are equipped with bearing units 9 and 10, made according to the type of known bearing units used in heavy rotating structures. In this case, the lower bearing assembly 9 is made as a support bearing assembly, sealed in a known manner and its fixed part is rigidly fixed on the foundation 2, and the upper bearing assembly 10 is placed above the water level and made as a rotation bearing assembly. At the same time, its fixed part is rigidly fixed on the corresponding section of the frame in the upper part of the supporting structure 1. The rotation drive 11 of the internal structure 8 is made according to a known scheme, for example, in the form of a planetary mechanism including a drive gear installed with the possibility of interaction with the ring gear facing it mounted on the inner surface of the internal structure 8. The cavity of the internal structure 8 is equipped with appropriate ventilation means of known design System openable-closable ventilation openings (not shown). In addition, the internal structure 8 is equipped with means 12 for visual-visual impact on the visitor, for example, projection, audio, etc., preferably placed in the cavity of the internal structure 8.

The attraction is equipped with a pumping system and a cleaning system (not shown in the drawings), made with the possibility of maintaining water exchange in the water mass located in the gap between the internal structure 8 and the supporting structure 1

The design of the lock chamber 3 does not differ from the known ones, i.e. it is a sealed structure, equipped with a sealed access hatch 4 for entry into the chamber from the air side and a sealed exit hatch 5 for access to the aquatic environment. The camera is designed to receive 10-15 people and accommodate the same number of hard suits 13. It is possible to use capsules made as self-propelled underwater vehicles designed for several passengers to move visitors (in this case, the design of the exit hatch 5 changes accordingly), but since when using spacesuits for visitors more comfortable and impressive conditions are created, further the operation of the attraction will be explained on the example of a rigid spacesuit. The operation of the mechanisms and components of the lock chamber 3 is carried out from a computerized console 14 of the center 15 of the attraction control. The entrance to the chamber is made above its floor, so that the distance from the edge of the threshold to the chamber floor exceeds the height of the spacesuits.

Autonomous propulsion device of a rigid spacesuit includes a rotary helical column 16, a drive 17 made on the basis of an electric motor powered by a battery 18. The spacesuit is equipped with a communication system with an attraction control center 15 (not shown in the drawings) and an air or oxygen source 19. The control panel of the spacesuit is made with the possibility of controlling it from the space of the spacesuit.

In addition, the processors of the computerized remote control 14 of the attraction control center 15, for example, are connected via a radio channel to each spacesuit, and are configured to remotely control its movement, and are also equipped with telemetric visitor health monitoring systems (not shown in the drawings) that control, for example, the pulse, pressure, etc. options. In addition, spacesuits (hard capsules) are configured to maintain their total buoyancy, taking into account the weight of the visitor from zero to positive, for example, ballast systems made in a known manner.

In addition, a vertically oriented shaft 20 is provided, provided with elevator lifts 21, located in the cavity of the internal structure 8, fixed relative to the foundation 2, in communication with the upper portion 22 of the supporting structure 1, which is provided with a preferably cylindrical or domed coating 23, preferably transparent. In addition, it is shown that a balcony 24 is placed around the perimeter of the supporting structure 1 (preferably at its “equator”, preferably rotatable around the latter, provided with a transparent coating 25, supported by at least two, preferably vertical support columns 26, in the cavity of which elevator lifts 27 are located.

The implementation of the rotation mechanism of the balcony does not differ from that described with respect to the rotation mechanism of the internal structure and is not shown in the drawings.

The device is equipped with an emergency power source (not shown in the drawings), ensuring uninterrupted operation of all attraction systems.

The claimed device operates as follows.

The gap between the internal structure 8 and the supporting structure 1 is filled with water so that an air cushion 28 remains under the upper section of the structure, at the level of the platform 29, communicating with the upper section 22 of the supporting structure 1, for example, a ramp or ramp.

Periodic recharging of the batteries 18 of the suit 13 and replenishment of its air source 19 is carried out in a known manner, using appropriate means in the drained lock chamber 3 or outside it, in the working rooms of the attraction located in its foundation 2.

Before the attraction starts, the working shift, which serves it, tests the health of all attraction systems, including checks the charging of spacesuits with air and energy.

The visitor or visitors, under the supervision of personnel, open the hatch 4 of the drained lock chamber 3 and enter its premises, after which, under the supervision of staff, they enter the corresponding spacesuits 13. Then, the cavity of the lock chamber is partially filled with water supplied by the pumps 30, which ensures that the spacesuits are ballasted at a zero level performed by personnel dressed in light diving equipment. At the end of the ballasting operation of the spacesuits, the attendants who helped visitors enter the spacesuit and ballast it leaves the chamber and closes the hatch 4. Next, turn on the pumps 30 and completely fill the cavity of the lock chamber with water.

After that, hatch 5 is opened and visitors in spacesuits leave the space of the lock chamber 3.

When you turn on the work of the propellers of the spacesuit 13, the latter begins to emerge or move in the horizontal plane in the gap between the surfaces of the carrier 1 and the inner 8 of the structure.

It is advisable that representatives of the attraction personnel be in the water massif.

In the process of moving the spacesuits 13, the attraction control computer center 15 monitors the location of each of them and evaluates the telemetric data on the visitors' body condition. If the visitor’s body condition is causing concern, they remotely affect the ballast system, giving the spacesuit 13 positive buoyancy, after which it floats into the air cushion 28, to the level of platform 29, where representatives of the attraction personnel remove it from the water and deliver it to the upper section 22 of the supporting structure 1 .

The movement of the spacesuits 13 can be carried out along an arbitrary trajectory (up, down, diagonally or sideways) by a corresponding change in the thrust vector of the propulsion device (by turning the screw-steering column).

It is advisable to limit the speed of movement of the spacesuit to 2, maximum 3 m / s, since simultaneously with the movement of visitors, drive 11 provides rotation of the internal structure 8 around its axis. Therefore, the speed perceived by the visitor, depending on the direction of its movement, will be quite large.

During the operation of the attraction, lighting modes of the internal structure can be created that simulate the movement of day-night boundaries, laser effects, etc.

When using the surface of the internal structure as a screen for projecting the corresponding information fragments onto it, as well as simultaneously inputting the corresponding audio effects, an effective visual-visual impact on the visitor is ensured. To this can be added the corresponding mechanical effects on the trolley itself, rocking the chairs, rotating them, etc. easily implemented in a known manner, with the current level of technology.

If desired, visitors can visit the upper section 22 of the supporting structure 1 (upper viewing platform) and use the services of the corresponding entertainment services, catering services, etc., which can be implemented and placed there in a known manner, using known technological solutions, for this they use elevators 21 located in a vertically oriented shaft 20 located in the cavity of the internal structure 8. Since the shaft 20 is stationary relative to the foundation 2, the organization of such demnika does not differ from the normal conditions of their work.

Transparent coating 23 allows the use of the upper section 22 of the structure, regardless of weather conditions and time of year.

In addition, if desired, visitors can visit the balcony 24, located around the perimeter of the supporting structure 1, configured to rotate around the latter and use the services of the corresponding entertainment services, catering services, etc., which can be implemented and placed on the balcony 24 known using well-known technological solutions. To do this, they use elevator lifts 27 located in the cavities of the vertical support columns 26. Moreover, the transparent coating 25 makes it possible to use the balcony 24 regardless of weather conditions and time of year.

Claims (1)

An attraction containing a supporting structure placed on a foundation, equipped with means for moving visitors above the surface of the supporting structure and means for introducing visitors to the working area of the attraction, characterized in that the supporting structure is shaped like a hollow ball, while preferably preferably being placed in the cavity of the supporting structure rotation around the vertical axis is an internal structure, the outer surface of which is given a spherical shape, the axis of rotation of which coincides with the vertical axis the structure, while the internal structure is equipped with means of information-visual impact on visitors, and the supporting and internal structures are waterproof, the gap between them is filled with water, while hard capsules are used as means of moving visitors over the surface of the supporting structure, preferably spacesuits, equipped with autonomous propulsors and air sources, while the means of input-output of visitors into the working area of the attraction are made in the form of lock chambers, placed in the foundation part of the attraction, in addition, the surface of the internal structure is made with the possibility of using it as a screen for projecting onto it from inside the internal cavity of the corresponding information fragments, the totality of which is a means of information-visual impact, in addition, the stationary relative to foundation, vertically oriented shaft, equipped with elevator lifts, in communication with the upper section of the bearing con the structure is provided with a transparent, preferably cylindrical or domed coating, in addition, a balcony is made around the perimeter of the supporting structure, preferably rotatable around the latter, while the balcony is supported by at least two, preferably vertical support posts equipped with elevator lifts, in addition , hard capsules, made with the possibility of maintaining their total buoyancy taking into account the weight of the visitor from zero to positive, in addition, the attraction is equipped with a cent the controlled management of autonomous hard capsule movers and telemetric visitor health monitoring systems.