EP4066911B1 - Method for controlling a sliding direction in a switch and switch for a water chute - Google Patents

Description

The invention relates to a method for controlling a sliding direction in a switch of a slide, in particular a water slide, and a switch for a slide of such a slide.

From the US 2005/0075180 A1 a water slide is known which, starting from a starting zone, comprises a run-up section, which is followed by a slide reversal element, which comprises a first slide connection which is connected to the run-up section. Adjoining the first slide connection, an uphill section is provided, through which the sliding direction is reversed, so that the sliding person is transferred to a second slide connection adjacent to the first slide connection in order to be transferred to a subsequent one to reach the slide route. This arrangement can be repeated several times until the sliding person, starting from the last slide direction reversal element, reaches an run-out section leading into the landing zone. With each slide reversal element, there is a change in the slide direction, with the sliding person performing an undefined change of direction, so that the sliding person randomly leaves the slide reversal element with their feet or head and dives into the landing zone.

From the US 2002/0142851 A A white water slide is known in which one or more people can slide on a tire. Starting from the starting zone, this slide includes a first run-up section that leads to a switch. The switch has a second slide connection adjacent to the first slide connection and a third slide connection opposite these two. This third slide connection is elevated compared to the first and second slide connection. If the sliding person enters the switch with low kinetic energy, they do not reach the raised third slide connection, but instead slide in the opposite direction via the second slide connection into a further slide section. If the sliding person has sufficient kinetic energy, they can continue to slide feet first and reach a bonus section via the third slide connection, which leads to a subsequent second switch. The second slide connection of the previous switch also flows into this second switch. The sliding person can therefore continue the slide with their feet first or head first. In the run-out section, the sliding person reaches the landing zone both head first and feet first, depending on the respective kinematic energy.

At the slide of the slide according to the US 2002/0142851 A The sliding path through the switch depends on the kinetic energy of the person being slipped.

The invention is based on the object of proposing a method for controlling a sliding direction in a switch and a switch for a slide of a slide, in particular a water slide, through which the control of a slide path from the switch is possible.

This object is achieved by a method for controlling a sliding direction in a switch for a slide, in particular a water slide, in which a quantity of water is supplied via at least one controllable water nozzle, through which a riser section and/or a crest provided for the riser section and a third slide connection and the amount of water supplied to the sliding surface in the climbing section and/or the crest causes slipping or a reversal of direction in the switch. The switch includes a first slide connection for a slide entrance and a second slide connection for a slide exit as well as a third slide connection for a further slide exit. The first and second chute ports are provided adjacent to each other, and the third chute port is opposite the first and second chute ports. A mouth region is formed between the first and second slide connections and the third slide connection. A first slide path in the switch extends from a first slide connection to the second slide connection, which are adjacent to one another, so that there is a reversal in the sliding direction of the sliding person. A second slip path extends between the first and third slide connections, so that slipping is possible in the same slide. The first, second and third slide connections have a common mouth area in the switch. Starting from this mouth area, there is a climbing section towards the third slide connection. A crest can be formed between the climbing section and the third slide connection. This switch can be used to control the further sliding distance for the person to slide. For example, a so-called bonus route can be connected to the third slide section and a so-called short route can be connected to the second slide section become. Depending on the amount of water supplied to the summit and/or climbing section, it can be influenced whether the sliding person reaches the bonus section or is transferred to the short section. If a larger amount of water is introduced into the area of the crest and/or the climbing section, resistance increases when the climbing section slides upwards due to the amount of water flowing down the climbing section, so that slipping into the bonus section is prevented. If only a small amount of water is supplied into the climbing section and/or onto the hilltop or only the sliding surface is wetted, the resistance caused by the water flowing down can be significantly reduced, which makes it possible for the second sliding path to slip through the switch.

It is preferably provided that at the apex of the crest, water is supplied to the sliding surface via the at least one controllable water nozzle. This has the advantage that, on the one hand, the slip resistance in the climbing section can be controlled and, on the other hand, the subsequent bonus section can be supplied with water in order to reduce friction losses.

Furthermore, it is preferably provided that a storage container is positioned above the top of the switch, which is filled with water using a pump, with at least one water nozzle of the switch being fed with water from the storage container. This has the advantage that little technical effort is required, since the water from the storage container enters the switch via the at least one water nozzle due to gravity.

It is preferably provided that the water container is filled with a constantly driven feed pump. This has the advantage that wear on the feed pump is low. The pump advantageously has a small delivery rate. This allows a cost-effective design be possible. In particular, the constant delivery rate makes it possible to adequately fill a storage container.

Furthermore, it can be provided that the storage container is filled with excess water from a slide and is conveyed into the storage container by the feed pump. For example, at the second slide connection, which is lowest in the vertical direction compared to the other slide connections, excess water can be drained into a collecting container underneath. This collected water can be pumped back into the storage container via the feed pump. This allows a closed circuit to be formed for a predetermined amount of water within the switch.

Alternatively, it can be provided that the storage container positioned above the top of the switch is filled with excess water from a slide path running above the storage container. For example, a slide section, in particular with a depression, can be provided above the storage container and the water collecting therein can be drained away via mouth openings or other drainage openings and fed to the storage container. A reduction in water consumption can thus be achieved.

It is advantageously provided that the storage container is opened to dispense the stored water with an electrically controllable closure via a control signal. This makes it possible to supply a quantity of water into the switch at a defined time.

The closure preferably has a large opening cross section so that a gush-like water supply can be controlled.

According to a further preferred embodiment of the method for controlling the switch, it is provided that the control signal for opening the electrically controllable shutter is transmitted through a light barrier the switch or in the slide section leading to the switch. As a result, the sliding person triggers the flow of water into the switch. Alternatively, it can be provided that the user himself selects a control signal in the starting zone of the slide as to whether or not an amount of water is supplied to the switch in the area of the crest and/or the climbing section. A further alternative embodiment of the method provides that a release button is provided adjacent to the slide, so that a third person controls the supply of the amount of water by pressing the release button. Furthermore, it can alternatively be provided that the supply of water is triggered by a control device in a time-controlled or randomly controlled manner at time intervals. This provides a variety of variants for controlling the direction of sliding in the switch, which can partly be influenced by the sliding person himself, but can be controlled surprisingly and independently of the sliding person.

The object on which the invention is based is further achieved by a switch for a slide of a slide, in particular a water slide, in which water can be supplied to a riser section in the switch and/or a crest in the switch via at least one controllable water nozzle. This at least one controllable water nozzle can be used to control a first or second slip path. The sliding person can either slide through the climbing section and reach the top along the second sliding path, in order to then slide into a further sliding section, in particular a bonus sliding section - i.e. an additional sliding section - while maintaining the sliding direction, i.e. feet first, or in the opposite sliding direction, So head first to slide along the first slide path, especially for short distances. The first or second slip path of the switch can therefore be controlled by the amount of water that can be supplied. The control can be carried out in such a way that the sliding person does not know at the time of entering the slide which slide path can be traversed. Alternatively, it can also be provided that the sliding person in the Starting zone a presetting of the switch is made possible by the person selecting whether an amount of water is supplied to the switch in order to slip through the first slip path, or whether the supply of the amount of water is omitted in order to slip through the second slip path.

It is preferably provided that the at least one controllable water nozzle is arranged laterally to the sliding surface and/or above the sliding surface. Depending on the quantity to be supplied, a large number of water nozzles with small cross-sectional openings or even a smaller number of water nozzles with a larger cross-section, in particular for flooding the sliding surface, can be provided.

According to a preferred embodiment of the switch, it is provided that a storage container for water is provided above the top of the switch, preferably near the third slide connection. This means that a large volume of water can be made available at short notice in order to supply it to the summit and/or the climbing section.

Advantageously, the storage container is filled with a feed pump, in particular a constantly operating feed pump, with a small delivery rate. This means that the expenditure on equipment is low.

Alternatively, it can be provided that a slide path runs above the slide container and excess water can be transferred from the slide path into the storage container. This arrangement can also make it possible to eliminate the need for the feed pump for filling the storage container. Alternatively, the additional use of the feed pump can also make it possible to fill the storage container more quickly in order to enable shorter cycles when controlling the switch.

The storage container advantageously has an electrically controllable closure, which can be controlled by a control signal for opening and closing. This means there are various options and/or Applications to control the time for dispensing the stored water from the storage container into the diverter.

Preferably, a light barrier can be provided in the slideway, in particular in the switch, which detects the slipping person slipping through and triggers the control signal to open the shutter. Alternatively, it can be provided that the user himself, for example in the starting zone, sets the control signal as to whether the shutter should open or not, in order to thus control the first or second sliding path. Alternatively, the control signal can also be issued by a third party or computer-controlled using a trigger button.

Figur 1

eine perspektivische Ansicht einer Weiche für eine Rutsche,

Figur 2

eine alternative Ausführungsform der Rutsche zu Figur 1,

Figur 3

eine schematische Ansicht von oben auf eine alternative Ausführungsform der Weiche, und

Figur 4

eine schematische Ansicht von oben auf die Weiche gemäß Figur 3 mit einer alternativen Anbindung in eine Rutschenstrecke.

The invention and further advantageous embodiments and developments thereof are described and explained in more detail below using the examples shown in the drawings. The features that can be found in the description and the drawings can be used individually or in groups in any combination according to the invention. Show it:

Figure 1

a perspective view of a switch for a slide,

Figure 2

an alternative embodiment of the slide to Figure 1,

Figure 3

a schematic view from above of an alternative embodiment of the switch, and

Figure 4

a schematic view from above of the switch according to Figure 3 with an alternative connection to a slide route.

In Figure 1 A switch 23 is shown in perspective for a slide, not shown. With such a slide there can be a sliding surface be wetted with water, a film of water or spray mist so that the sliding person slides directly on the sliding surface. Such a slide can also be a tire slide, in which one or more people slide on a tire.

The switch 23 can be integrated into a slide between a take-off zone and a landing zone in order to divide the slide into different slide routes.

The switch 23 includes a first slide connection 24 and, adjacent thereto, a second slide connection 25. A third slide connection 27 is provided opposite or away from the first and second slide connections. In this embodiment of the switch 23 it is provided that, viewed in the vertical direction, the first slide connection 24 lies above the second slide connection 25 and the third slide connection 23 is positioned above the first slide connection 24. The slide connections 24, 25 and the third slide connection 27 away from or opposite them form a Y-shaped contour of the switch 23.

The first and second slide connections 24, 25 are separated by a bead-shaped elevation 28, which decreases in a mouth region 34 between the first, second and third slide connections 24, 25, 27 and merges into the slide surface 19. Starting from the mouth area 34, a climbing section 35 extends to the third slide connection 27. A crest 29 can be provided between the climbing section 35 and the third slide connection 27. The third slide connection 27 can also be recessed relative to a vertex of the crest 29. However, this third slide connection 27 is still positioned above the first slide connection 24.

In the Figure 1 Switch 23 shown can be integrated into a slide as follows: The first slide connection 24 can form a slide entrance. The second slide connection 25 and the third slide connection 27 then each form a slide exit. If the sliding person who enters the switch 23 via the first slide connection 24, he or she slides along the second slide path 38, which preferably extends almost in a straight line or in a straight line, to the third slide connection 27 and can then enter a bonus route 31 - i.e. an additionally extended one Slide section of the slide - get there. If the kinetic energy has been reduced by the sliding person or is not sufficient, the sliding person can reach the switch 23 via the first slide connection 24 and cannot overcome the climbing section 35 and/or the crest 29 and slides in the opposite direction along the first sliding path 37 through the second slide connection 25 out of the switch 23 and reaches, for example, a short route 32.

The switch 23 now enables active control as to whether the sliding person slips along the second sliding path 38 or not.

For example, it can be provided that the climbing section 35 up to the summit 29 is designed in such a way that every sliding person who is admitted to the slide brings sufficient kinetic energy when entering the switch 23 via the first slide connection 24 in order to get to the third slide connection 27 to get to. Through a targeted, controlled and/or random supply of the amount of water to the hilltop 29 and/or into the climbing section 35, it can be achieved that the added amount of water creates resistance when sliding uphill on the climbing section 35, so that the sliding person does not climb the climbing section 35 overcomes and leaves the switch 23 through the second slide connection 25.

To control the switch 23, a storage container 41 is preferably provided above the riser section 35 or above the crest 29 of the switch 23

Storage of water provided. This storage container 41 is connected by one or more lines 43 to one or more water nozzles 45, which transfer a quantity of water to the sliding surface 19. At least one water nozzle 44 can be provided in the area of the crest 29 and/or in a transition area between the climbing section 35 and the crest 29 and/or in the climbing section 35. Water nozzles 44 are advantageously provided opposite one another on a wall section that is laterally raised relative to the sliding surface 19. In the case of a completely closed channel 46, which includes the sliding surface 19 and closes it, at least one water nozzle 44 can additionally or alternatively be provided on an upper side of the channel 46 - that is, opposite the sliding surface 19. Several water nozzles 44 can also be provided along a radial plane in the channel to form a water curtain.

The storage container 41 preferably comprises a volume of water which corresponds to a multiple that is required to wet the sliding surface 19 in the climbing section 35. A quantity of water of at least 10 l is preferably provided. The storage container 41 comprises a closure 47, which preferably has a large opening cross section, so that a large amount of water can be removed from the storage container 41 in a short time and fed to the sliding surface 19 via the at least one water nozzle 44, preferably in a gush-like manner. This closure 47 can be controlled for opening and closing via a control signal.

The triggering of a control signal to open the closure 27 on the storage container 41 can be controlled by a control device 49 at regular intervals or randomly and at predetermined equal or different intervals. Alternatively, it can be provided that the control device 49 is controlled by a trigger button that can be triggered by a third party. The control device 49 can also be controlled by a selection switch or adjustment button on the start zone can be controlled so that the ride-on can adjust itself whether or not an amount of water is introduced into the climbing section 35 when the switch 23 is reached.

The control signal can also be output by a light barrier in the slide 16, which is connected to the control device 49.

A feed pump 51 is preferably provided for filling the storage container 41. This feed pump 51 is advantageously driven with a continuous delivery rate. The funding volume is low. Due to the successive sliding at intervals, there is sufficient time to fill the storage container 41. It can advantageously be provided that, for example, at the second slide connection 25, excess water is drained away via slots 53 or through openings into a collecting container 54 and the feed pump 51 conveys the water from this collecting container 54 into the storage container 41. This allows the consumption of fresh water to be reduced.

If a control signal for releasing the amount of water from the storage container 41 does not occur over a long period of time, the storage container 41 has an overflow 56, which preferably flows into the collecting container 54 in order to drain the excess water again, for example through the feed pump 51, and to the storage container 41 to supply.

In Figure 2 is an alternative embodiment of the switch 23 Figure 1 shown. The structure of the switch 23 and the arrangement of the storage container 41 as well as the supply of water via the at least one water nozzle 44 corresponds to the embodiment Figure 1 . Deviating from this embodiment, it is provided that the storage container 41 is not filled by a feed pump 51, but rather through a sliding section 21 running above the storage container 51. In this sliding section 21, water can also be guided along the sliding surface 19 to minimize friction. In one section In the slide section 21, in particular in a trough, slots 53 can be provided through which the excess water is led out of the slide section 21 and fed to the storage container 41. For example, a collecting container 54 can be provided below the sliding section 21, which is connected to the storage container 41 via a line. When positioning the sliding section 21 above the storage container 41, the supply can take place freely from a feed pump 51 only due to gravity. The feed pump 51 can also be connected to provide support.

In Figure 3 a schematic view of an alternative embodiment of the switch 23 is shown. In this embodiment it is provided that a curved or arcuate or elliptical course is provided between the adjacent first and second chute connections 24, 25 and the third chute connection 27 located opposite or distant therefrom. The first and second chute connections 24, 25 are arranged adjacent to one another. The third slide connection 27 is positioned at an angle α relative to the first and second slide connections 24, 25. This angle α can be as shown in Figure 3 be 180°. This angle α can basically cover a range from 45 to 270°.

In this embodiment it is provided that the sliding person slides into the switch 23 through a supplying slide section 21, which leads to the first slide connection 24. In the area of the third chute connection 27 or downstream in the third chute connection 27, a crest 29 or elevation is provided, that is, the third chute connection 27 or a crest 29 or elevation provided shortly before or after is opposite the entry into the switch 23 at the first chute connection 24 elevated. As a result, if there is insufficient kinetic energy, the slide ride cannot take place over the leading slide section, which is connected to the third slide connection 27. The sliding person thus slides from one area in or near the third slide connection 27 back into another discharging slide section 21, which is connected to the second slide connection 25.

In Figure 4 the switch is 23 according to Figure 3 shown, with an alternative connection to a slide section of a slide 11 being shown. In this embodiment it is provided that the sliding person slides into the switch 23, 30 via the third slide connection 27. If there is a high level of kinetic energy, the sliding person can leave the switch 23 via the first slide connection 24. If the kinetic energy is lower, the sliding person will leave the switch 23 via the second slide connection 25. This is caused by the first slide connection 24 being raised relative to the second slide connection 25.

The switch 23 can be formed from closed tubes. These closed tubes can be made of plastic. These tubes can be made of opaque materials. Partially, partially or completely transparent sections of the tubes can also be provided.

Claims (15)

1. Method for controlling a slide direction in a branch point (23) of a water slide,

   - in which a slide surface (19) of the branch point (23) is wetted with water, and the branch point (23) is formed:

   - with a first slide connector (24) for a slide entrance,

   - with a second slide connector (25) for a slide exit,

   - with a third slide connector (27) for a further slide exit,

   - wherein the first and second slide connector (24, 25) are provided adjacently to each other, and the third slide connector (27) is provided removed from or opposite the first and second slide connector (24, 25), and a mouth region (34) is formed between the first and second slide connector (24, 25) and the third slide connector (27),

   - with a first slide path (37), which runs from the first slide connector (24) to the second slide connector (25), and with a second slide path (38), which runs from the first slide connector (24) to the third slide connector (27),

   - wherein the third slide connector (27) is elevated in relation to the first and second slide connector (24, 25) when seen in the vertical direction and, starting from the mouth region (34), an incline section (35) is provided in the direction of the third slide connector (27),

   characterised in that

   - water is supplied to the incline section (35) and/or a peak (29) provided between the incline section (35) and the third slide connector (27) via at least one controllable water nozzle (44), and

   - a through slide of the first or second slide path (37, 38) is controlled by the amount of water supplied to the slide surface (19) in the incline section (35) and/or the peak (29).
2. Method according to claim 1, characterised in that the at least one water nozzle (44) is provided along the incline section (35) and/or at least one crest of the peak (29), and water is supplied to the slide surface (19).
3. Method according to claim 1 or 2, characterised in that a storage container (41) is positioned above the peak (29) of the branch point (23), and the at least one water nozzle (44) of the branch point (23) is fed with water out of the storage container (41).
4. Method according to claim 3, characterised in that the storage container (41) is filled by a preferably continuously running conveying pump (51), which preferably has a low conveying power.
5. Method according to claim 3 or 4, characterised in that the storage container (41) is filled by excess water from a slide section (21) and is conveyed by the conveying pump (51) into the storage container (41) .
6. Method according to claim 3, characterised in that the storage container (41) is filled by excess water from a slide section (21), which runs above the storage container (41) and is dispensed from the slide section running above.
7. Method according to one of claims 3 to 6, characterised in that the storage container (41) is opened to dispense the stored water with an electrically controllable closure (47) via a control signal.
8. Method according to claim 7, characterised in that a torrent-like water supply is controlled by the closure (47).
9. Method according to claim 7, characterised in that the control signal for opening the closure (47) is triggered by a light barrier in the branch point (23) or in the slide track (16) or by a user in a start zone of the slide or by a triggering button by a third person adjacent to the slide or by a control device (49) of the slide in temporal gaps in a time controlled manner or at random.
10. Branch point for a slide track (16) of a water slide, in which a slide surface (19) of the branch point (23) is wetted with water, and the branch point (23) is formed:

    - with a first slide connector (24) for a slide entrance,

    - with a second slide connector (25) for a slide exit,

    - with a third slide connector (27) for a further slide exit,

    - wherein the first and second slide connector (24, 25) are provided adjacently to each other, and the third slide connector (27) is provided removed from or opposite the first and second slide connector (24, 25), and a mouth region (34) is formed between the first and second slide connector (24, 25) and the third slide connector (27),

    - with a first slide path (37), which runs from the first slide connector (24) to the second slide connector (25), with a second slide path (38), which runs from the first slide connector (24) to the third slide connector (27),

    - wherein the third slide connector (27) is elevated in relation to the first and second slide connector (24, 25) when seen in the vertical direction and, starting from the mouth region (34), an incline section (35) is provided in the direction of the third slide connector (27),

    characterised in that

    - at least one water nozzle (44) is provided in the incline section (35) and/or in a peak (29) formed between the incline section (35) and the third slide connector (27), by which an amount of water is supplyable in a controlled manner to the incline section (35) and/or the peak (29).
11. Branch point according to claim 10, characterised in that a storage container for water is provided above the peak (29), which is connected to the at least one water nozzle (44) via at least one line.
12. Branch point according to claim 11, characterised in that at least one, preferably continuously functioning, conveying pump (51) is provided by which the storage container (41) is filled.
13. Branch point according to claim 11 or 12, characterised in that the storage container (41) comprises an overflow (56), which preferably ends in a collecting container (54), which outlet openings or slots (53) in the slide surface (19) is allocated to the branch point (23) or a further slide section (21) of the slide.
14. Branch point according to claims 10 to 13, characterised in that a control device (49) is provided, by means of which a control signal is controllable for opening a closure (27) of the storage container (41).
15. Branch point according to claims 10 to 14, characterised in that the slide surface (19) is formed in a closed channel (46), and the at least one water nozzle (44) is provided on lateral wall sections of the channel (46) and/or on a radial plane to the slide surface (19).

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