CN214232740U - Double-track zero-height electromagnetic ejection disc roller coaster slideway - Google Patents

Abstract

The utility model discloses a zero high electromagnetism of double track launches dish roller coaster slide, including merging two slides and a pair of separation slide, the separation slide is including the closed dish that connects gradually, spiral section, relative section and the dish that opens. The combined double-slideway comprises a lifting combined double-slideway and a descending combined double-slideway. The lifting combined double slide way is connected with the sliding-in end of the closed disc, and the descending combined double slide way is connected with the sliding-out end of the open disc; a ground sliding starting table is arranged between the descending combined double slide way and the lifting combined double slide way. The ejection boosting section group is internally provided with electromagnetic units which are used for generating a magnetic force field as carrier thrust. The roller coaster slide way is enabled to realize zero-height sliding starting from the ground sliding starting platform by configuring the electromagnetic unit, so that the cost is saved, the operation efficiency is improved, and the characteristics that the slide way is separated from time to time, combined from time to time and opposite from time to time are realized.

Description

Double-track zero-height electromagnetic ejection disc roller coaster slideway

Technical Field

The utility model relates to an amusement equipment technical field particularly, relates to a zero high electromagnetism of double track launches dish roller coaster slide.

Background

At present, more than one playground is built in most first-line cities, and the playgrounds of a plurality of second-line cities are in the process of further development. The amusement park as an entertainment place can enrich the amateur life of people, and can enable people to enjoy the changes brought by modern science and technology and know the social development.

Roller coasters and waterslides are two common amusement rides. In the running process of the roller coaster, the roller coaster needs to be pulled to the top point of the slideway or initial kinetic energy is given to the roller coaster through a power source when the roller coaster starts to run, so that the roller coaster runs the whole course and returns to a station, in the running process of the waterslide, the skin raft needs to be carried to the top point of the slideway when the roller coaster starts to run, so that the skin raft slides downwards along the slideway, and the roller coaster and the waterslide slide down only by gravity. Meanwhile, the whole course of most of the existing slideways is parallel slideways, so that the interestingness is not enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a zero high electromagnetism of double track launches dish roller coaster slide makes roller coaster slide realize playing from ground and slide zero high the playing of platform through configuration electromagnetic unit, has not only practiced thrift the cost, has still improved operation efficiency to realized the slide part often, merge often, often relative characteristics.

The embodiment of the utility model discloses a realize through following technical scheme:

a double-track zero-height electromagnetic ejection disk roller coaster slideway comprises a combined double slideway and a pair of separation slideways, wherein each separation slideway comprises a closed disk, a spiral section, an opposite section and an open disk which are sequentially connected.

The combined double-slideway comprises a lifting combined double-slideway and a descending combined double-slideway. The lifting combined double slide way is connected with the sliding-in end of the closed disc, and the descending combined double slide way is connected with the sliding-out end of the open disc; a ground sliding starting table is arranged between the descending combined double slide way and the lifting combined double slide way.

The ejection boosting section group comprises a first ejection boosting section, a second ejection boosting section and a third ejection boosting section; the first ejection boosting section is arranged in the lifting and combining double slide ways; the second ejection boosting section is connected between the closed disc and the spiral section; the third ejection boosting section is connected between the opposite section and the open dish.

And electromagnetic units for generating magnetic force fields as carrier thrust are arranged in the ejection boosting section groups.

In an embodiment of the present invention, the opposite segments are parallel to each other and distributed in opposite directions.

In an embodiment of the present invention, the ejection boosting section set further includes a fourth ejection boosting section; a combined spiral section is arranged between the descending combined double slide way and the ground sliding starting table, and a fourth ejection boosting section is connected between the descending combined double slide way and the combined spiral section.

In an embodiment of the present invention, the ejection boosting section groups are all configured to be lifted upwards and distributed.

In an embodiment of the present invention, the initial end of the ejection boosting section group is configured with a ladder.

In an embodiment of the present invention, the ladder disposed on the separation slide is configured as a rotary ladder; the ladder configured to descend and merge the double-slide is configured to be a straight ladder.

In an embodiment of the present invention, an arc-shaped connecting section is disposed between a pair of slides of the combined double-slide.

The utility model discloses an in the embodiment, the backup pad that is used for supporting the carrier is arranged to have in the slide of launching boosting section group, disposes the slot part between backup pad and the slide bottom, can dismantle in the slot part and be connected with the mounting bracket, and the electromagnetism unit distributes between mounting bracket and backup pad.

In one embodiment of the present invention, the supporting plate located at the upper side of the ejection boosting section group is provided with a water inlet hole for supplying water into the slide way; the supporting plate positioned at the bottom end of the ejection boosting section group is provided with a water outlet hole used for discharging water in the slide way outwards, and the water outlet hole is communicated with the groove part.

In an embodiment of the present invention, the supporting platforms are disposed on both sides of the bottom end of the first ejection boosting section. A skin raft conveyor is arranged on the ground sliding table, and a transition roller section is arranged between the skin raft conveyor and the first ejection boosting section.

The utility model discloses technical scheme has following advantage and beneficial effect at least:

the utility model changes the traditional sliding mode that the existing water slide needs passengers to climb the steel platform or carry the skin raft to climb the steel platform and then slide downwards along the slide track by taking the electromagnetic unit as the thrust of the carrier and providing the thrust for the carrier at the multiple groups of ejection boosting sections through the electromagnetic unit; the zero-height sliding of the platform from the ground is realized, the cost is saved, and the operation efficiency is improved.

The utility model discloses having overturned the competition experience that traditional roller coaster on water was absolutely only, having had the chance to see often separately, often merge often, often relatively of starting from the adversary that slides the platform side by side syntropy in the process of sliding, get back to same ground slip table again at last again, the visitor can not only see adversary's performance and can also hear adversary's screaming sound through opening the flute profile side by side, has not only increased the competitive interest, has still improved the experience effect of vision and sense organ.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic three-dimensional structure view of a double-track zero-height electromagnetic ejection disc roller coaster slide of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

FIG. 5 is an enlarged view taken at D in FIG. 1;

FIG. 6 is a cross-sectional view of a lifting merge double slide or a lowering merge double slide;

FIG. 7 is a cross-sectional view of the separation slide further illustrating the mounting structure of the electromagnetic unit.

Icon:

11-closed discs, 12-spiral sections, 13-opposite sections, 14-open discs, 20-descending combined double slide ways, 21-ground lifting tables, 22-combined spiral sections, 23-rotary ladders, 24-straight ladders, 25-supporting tables, 26-skin raft conveyors, 27-transition roller sections, 31-first ejection boosting sections, 32-second ejection boosting sections, 33-third ejection boosting sections, 34-fourth ejection boosting sections, 40-slide ways, 41-electromagnetic units, 42-arc connecting sections, 43-supporting plates, 44-groove sections, 45-mounting frames, 46-water inlet holes and 47-water outlet holes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A double-track zero-height electromagnetic ejection disk roller coaster slideway comprises a combined double slideway and a pair of separation slideways, wherein each separation slideway comprises a closed disk 11, a spiral section 12, an opposite section 13 and an open disk 14 which are sequentially connected. The merging double chute includes a lifting merging double chute and a lowering merging double chute 20. The lifting combined double slide way is connected with the sliding-in end of the closed disc 11, and the descending combined double slide way 20 is connected with the sliding-out end of the open disc 14; a ground lifting and sliding table 21 is arranged between the descending and merging double slide way 20 and the lifting and merging double slide way. The utility model discloses having overturned the sports experience that traditional roller coaster on water had absolutely nothing, having the chance to see often separately, merge often, often relatively at the adversary that plays the platform and go out side by side syntropy sliding in-process visitor, got back to same ground at last again and played slip table 21.

The ejection boosting section set comprises a first ejection boosting section 31, a second ejection boosting section 32 and a third ejection boosting section 33; the first ejection boosting section 31 is configured in the lifting and merging double slide ways; the second ejection boosting section 32 is connected between the closed disk 11 and the spiral section 12; a third ejection assist section 33 is connected between the opposite section 13 and the open dish 14. This to relative section 13 merge each other and distribute in opposite directions to relative section 13 is descending earlier and carries out the open slot shape basin that promotes through third ejection boosting section 33, and the visitor can not only see the adversary's performance and can also hear adversary's scream sound through opening the slot shape side by side, has not only increased the competitive interest, has still improved the experience effect of vision and sense organ.

And electromagnetic units 41 for generating magnetic force fields as carrier thrust are arranged in the ejection boosting section groups. It should be noted that the utility model changes the traditional slide way that the passenger must climb the steel platform or carry the skin raft to climb the steel platform by itself and slide downwards along the slide track by using the electromagnetic unit 41 as the thrust of the carrier and providing the thrust for the carrier at the multiple groups of ejection boosting sections through the electromagnetic unit 41; the zero-height sliding of the platform from the ground is realized, the cost is saved, and the operation efficiency is improved.

In this embodiment, the ejection assisting section set further includes a fourth ejection assisting section 34; a combined spiral section 22 is arranged between the descending combined double slideway 20 and the ground sliding platform 21, and a fourth ejection boosting section 34 is connected between the descending combined double slideway 20 and the combined spiral section 22. The merging spiral section 22 provides a slope turning for the double track to return to the ground and slide table 21 at the same time, provides interest, and provides acceleration by the ejection boosting of the fourth ejection boosting section 34 before the double track turns through the merging spiral section 22.

In this embodiment, the ejection boost section groups are each configured to lift upward in distribution. The initial ends of the ejection boosting section groups are all provided with ladders. The roller coaster ramp is required to rise and fall, turn left and right, the upward power is provided for a plurality of times by the ejection boosting section group, the ladder is used for enabling people to go up and down from the ramp 40 through the ladder when the roller coaster ramp is not lifted for the time, and the ladder is used for some urgent events or emergencies.

In the present embodiment, the ladder arranged on the separation chute is arranged as a rotary ladder 23; the ladder configured to descend the merge double chute 20 is configured as a straight ladder 24. The separation slide way is a double-slide way rear slide way 40 which is lifted and combined and is positioned at a higher position, the rotary ladder 23 can occupy smaller space under the requirement of reaching higher height, and a handrail is required to be added on the rotary ladder 23 to meet the safety requirement; the ladder with the double chute 20 is lowered and is in a lower position, and only the straight ladder 24 with a simpler structure is needed.

In the embodiment, the arc-shaped connecting section 42 is disposed between the pair of slideways 40 combining the double slideways, the arc-shaped connecting section 42 is provided to prevent water splashed in the slideways 40 from flowing to the outer side of the slideways 40 from between the double slideways 40, the structure is arc-shaped to facilitate water backflow, and the arc-shape is not too sharp in consideration of safety.

In this embodiment, a supporting plate 43 for supporting the carrier is arranged in the slide way 40 of the ejection boosting section group, a groove portion 44 is arranged between the supporting plate 43 and the bottom of the slide way 40, an installation frame 45 is detachably connected in the groove portion 44, and the electromagnetic units 41 are distributed between the installation frame 45 and the supporting plate 43. The mounting structure is simple, and the maintenance and the disassembly are convenient.

In the present embodiment, the support plate 43 positioned on the upper side of the ejection boosting section group is provided with a water inlet 46 for supplying water into the slide 40; the supporting plate 43 at the bottom end of the ejection boosting section group is provided with a water outlet 47 for discharging water in the slide way 40 outwards, and the water outlet 47 is communicated with the groove part 44. The water inlet hole 46 is used for ensuring that enough water is in the slide way 40, and is arranged at the upper side of the ejection boosting section group so as to ensure that the water can flow from a high position to a low position; the water outlet hole 47 discharges water from top to bottom to form water circulation; the density of the water outlet holes 47 is greater than that of the water inlet holes 46, because each supporting plate 43 on the upper side is provided with the water inlet holes 46, and the water outlet holes 47 are arranged on the supporting plate 43 at the bottom end of the ejection boosting section group.

In this embodiment, the support bases 25 are disposed on both sides of the bottom end of the first ejection assisting section 31, and the support bases 25 may be disposed on the concrete material to facilitate the person to get off from the concrete material to cope with some emergency situations. The ground sliding table 21 is provided with a skin raft conveyor 26, and a transition roller section 27 is arranged between the skin raft conveyor 26 and the first ejection boosting section 31. The skin raft conveyor 26 actively conveys the skin raft, and the transition roller section 27 is used for passive conveying of the skin raft, namely sliding towards the front side by means of inertia or self weight of the skin raft.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A double-track zero-height electromagnetic ejection disk roller coaster slideway is characterized in that,

the separation slide way comprises a closed dish, a spiral section, an opposite section and an open dish which are connected in sequence;

the combined double-slideway comprises a lifting combined double-slideway and a descending combined double-slideway,

the lifting combined double slide way is connected with the sliding-in end of the closed disc, and the descending combined double slide way is connected with the sliding-out end of the open disc; a ground sliding starting table is arranged between the descending merging double slide way and the lifting merging double slide way;

the ejection boosting section group comprises a first ejection boosting section, a second ejection boosting section and a third ejection boosting section; the first ejection boosting section is arranged in the lifting and combining double slide ways; the second ejection boosting section is connected between the closed disc and the spiral section; the third ejection boosting section is connected between the opposite section and the open disc;

and electromagnetic units for generating magnetic force fields as carrier thrust are arranged in the ejection boosting section groups.

2. The dual track zero height electromagnetic ejection dish roller coaster slide of claim 1, wherein the pair of opposing segments are parallel to each other and distributed toward each other.

3. The dual-track zero-height electromagnetic ejection disc roller coaster slide of claim 1, wherein the set of ejection assist sections further comprises a fourth ejection assist section; a combined spiral section is arranged between the descending combined double slide way and the ground sliding starting table, and the fourth ejection boosting section is connected between the descending combined double slide way and the combined spiral section.

4. The dual rail zero height electromagnetic ejection dish roller coaster slide of claim 3, wherein the ejection boost section sets are each configured for an upward lift distribution.

5. The dual rail zero height electromagnetic ejection dish roller coaster slide of claim 4, wherein the initial ends of the ejection boost section sets are each configured with a ladder.

6. The dual rail zero height electromagnetic ejection dish roller coaster runway of claim 5, wherein a ladder configured to the breakaway runway is configured as a rotary ladder; the ladder configured to the descending merge double chute is configured as a straight ladder.

7. The double-track zero-height electromagnetic ejection disc roller coaster slide way of any one of claims 1 to 6, wherein an arc-shaped connecting section is arranged between a pair of slide ways of the combined double slide way.

8. The double-track zero-height electromagnetic ejection disc roller coaster slide way according to any one of claims 1 to 6, wherein a support plate for supporting a carrier is arranged in the slide way of the ejection boosting section group, a groove portion is arranged between the support plate and the bottom of the slide way, a mounting frame is detachably connected in the groove portion, and the electromagnetic units are distributed between the mounting frame and the support plate.

9. The double-track zero-height electromagnetic ejection disc roller coaster slide way of claim 8, wherein a support plate on the upper side of the ejection boosting section group is provided with a water inlet hole for supplying water into the slide way; the supporting plate positioned at the bottom end of the ejection boosting section group is provided with a water outlet hole used for discharging water in the slide way outwards, and the water outlet hole is communicated with the groove part.

10. The double-track zero-height electromagnetic ejection disc roller coaster slide way according to any one of claims 1 to 6, wherein support tables are arranged on both sides of the bottom end of the first ejection boosting section; this ground rises the slip table and disposes the skin raft conveyer, disposes transition bearing roller section between this skin raft conveyer and this first ejection boosting section.

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