DE20200086U1 - ice climbing tower - Google Patents

Description

Ice climbing tower

04.01.2002

The invention relates to an ice climbing tower. '

So-called "ice climbing", i.e. climbing steep ice surfaces, is becoming increasingly popular. So far,
mainly climbed frozen waterfalls,'which, however, was only possible in remote areas.

There is a need to provide quickly assembled artificial ice walls for climbing activities, whereby both a
quick assembly and disassembly as well as a certain independence from weather conditions would be desirable.

This object is achieved by the features mentioned in claim 1.

The invention provides an ice climbing tower that can be quickly brought into operation. First, the
structural assembly and - if these are not already (partially) integrated according to the invention - surrounded by cooling lines which are coupled to a central cooling device
so that after their connection and simultaneous application of spray water, a supporting layer of ice of preferably approx. 20 - 40 cm is formed. With appropriate dimensioning, the operational readiness can be achieved in

can be achieved in a relatively short time. Operational readiness can also be maintained even when the outside temperature is above freezing, as
The cooling device can prevent the ice layer from breaking down.

According to a further development of the invention, the structural design is constructed from a grid structure consisting of a large number of interconnected grid bars or grid tubes, with filling plates attached to the grid structure.
In this way, a stable structure with a low weight can be achieved, which is particularly useful when transporting

33572-01.DOC
08.01.02

port, since both the volume and the weight of the structure are low when folded. Preferably, the filling panels required by the formation of ice surfaces are designed to be thermally insulating in order to reduce heat loss to the inside.

The structure is preferably round or polygonal when viewed in horizontal section. Particularly preferred
The structural design consists of several essentially trapezoidal side wall elements that are vertically

and connected along the side walls. This design, which increases stability in the
Additional support elements such as truss structures can be provided inside, enabling extremely fast and
easy assembly. Because the individual side wall elements -

preferably 4 to 8 pieces, are simply placed vertically and connected to the two adjacent side wall elements.

Preferably, the side wall elements each comprise a
load-bearing support structure and integrated cooling lines. In
In this case, only the cooling lines of the side wall elements need to be connected to the central cooling device
and the system is ready to produce the ice layer.

A particular advantage of this training is that
it is possible, if the ice climbing tower is to be dismantled, to remove the ice layer only at the connecting lines between adjacent side wall elements, while otherwise leaving it on the side wall elements.
Side wall elements covered with layers of ice can then
and transported to another location, so that dismantling and rebuilding is more complex and difficult due to the significantly increased weight of the ice,
but the time required to build up a sufficiently thick layer of ice can be largely eliminated. This means that the downtime for dismantling and reassembly can be significantly reduced.

An alternative embodiment of the invention provides that the structural design consists of several pipe sections that are stacked on top of one another and held together by at least one tie rod device provided inside. The pipe sections are preferably made of reinforced concrete, plastic or metal. This construction is heavier in terms of weight if reinforced concrete is chosen as the material, but assembly is extremely simple. The individual pipe sections only need to be stacked on top of one another - preferably using ring adapters placed between them to simplify guidance or centering - and connected to one another - preferably via tie rods guided inside. Since in this embodiment the coolant lines are preferably attached directly to the outer wall of the pipe sections, these coolant lines only need to be connected to one another or to the cooling device and the formation of the ice layer can begin. This embodiment of the invention is therefore characterized by low assembly and disassembly costs. Also - as already discussed in the above-mentioned version - the layer of ice can be left during dismantling, except at the joints of the pipe sections, in order to simplify and shorten the conversion effort considerably.

An advantageous development of the invention provides that a platform is attached to the top of the structure, to which devices for attaching holding and working ropes are provided. During the construction phase, this platform is used primarily to support devices for producing the ice layer. During operation, safety ropes for the users can be guided or diverted there. For these purposes, it is also advantageous if one or more boom arms are attached to the platform, and corresponding rope guide devices such as pulleys etc. are provided at other free ends.

. An advantageous development of the invention provides that a water spray ring is provided which has at least one

··

a cantilever arm which is supported by radially single-value
Spraying water on the cooling pipes the ice layer
This water spray ring, which has corresponding spray nozzles on the inside and is connected to a pressurized water source, is preferably electrically driven upwards and
moved below to continuously create a layer of ice
and thicken.

As an alternative to a ring, a water spray bar can be provided, which forms the ice layer by spraying water onto the cooling lines. This water spray bar
is preferably guided on a rotating boom arm and
then either circular or +/-180° alternating around the
cooled structural design. _:

Preferably, the cooling lines are filled with a water-glycol mixture
This design is structurally uncomplicated. However, a greater cooling capacity can be achieved
can be achieved if the cooling lines are traversed by an evaporative coolant according to the direct evaporation principle
■ will be.

Finally, a further development of the invention provides
that handles can be attached to the outer wall of the structure for use as a climbing tower without a layer of ice. In this way, the invention can also be used in summer.

The invention is explained further below with reference to the attached drawings.

Fig. 1: a schematic representation of a finished egg climbing tower;

Fig. 2: a schematic perspective view of a first embodiment of the invention with conical
formed pipe sections;

Fig. 3: a schematic perspective view of a second embodiment of the invention with cylindrical pipe sections;

Fig. 4: a schematic longitudinal section of a

third embodiment of the invention with cylindrical, sectionally tapered pipe sections;

Fig. 5: a schematic perspective view of a fourth embodiment of the invention with a metallic truss construction;

'Fig. 6: perspective side view and top view of a fifth embodiment of the invention with a metallic truss construction.

Figure 1 schematically shows a finished ice climbing tower 10 which is climbed by two users 12 .

Figures 2 and 3 show two embodiments of the ice climbing tower 10a and 10b according to the invention, each of which consists of 4 pipe sections 12 placed on top of one another. These pipe sections 12 are conical in the embodiment of Figure 2 and cylindrical in that of Figure 3. For the sake of simplicity, only the uppermost pipe section 12 is shown, but all pipe sections 12 are cooling lines 14 which wrap around the pipe section. Preferably, each is a single, spirally wound pipe or hose. These cooling lines 14 can either be firmly attached to the pipe section (for example by means of pipe clamps or the like) or can be wound around the pipe sections after they have been assembled.

Figure 4 shows a longitudinal section through another ice climbing tower design 10c , in which the pipe sections 12 are cylindrical, but have a thickening at one point, so that overall a shape that tapers upwards is obtained. The lowest pipe section 12a is

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on a base plate 16, and at the ends of all pipe sections 12 ring adapters 18 are provided, through which a
Guiding and centering of the pipe sections 12 is ensured. On top of the top pipe section 12d there is a support platform 20. Between the support platform 20 and the base plate 16 several tension cables 22 are stretched, which ensure a rigid tensioning of all pipe sections and thus of the
entire ice climbing tower 10c .

The cooling lines 14 are also shown schematically in Figure 4, the dimensions and spacing of which will be selected by the specialist.

• At least one boom arm 23 is attached to the attachment platform 20, which can be rigid or movable (preferably in the circumferential direction). The water spray devices required for the formation of the ice layer can be attached to this boom arm.

Fig. 5 shows schematically another embodiment of the
ice climbing tower 10d according to the invention is shown schematically, which consists of a framework. Preferably,
This framework has several vertical supports 24 and horizontal 1 struts 26, which are detachably connected to each other.
Filler plates (not shown) are then inserted into the gaps. The structure thus formed is then wrapped with cooling pipes.

Figures 6a and 6b show another embodiment of an ice climbing tower 10e in a schematic perspective side view and top view. This embodiment also includes vertical supports 24 and horizontal struts 26 as well as further cross struts 28 to increase stability. In this embodiment, the frameworks can be divided into individual framework sections, the rods of which are connected to one another.
firmly connected (in particular welded). The individual framework sections 30 are placed on top of each other in a similar way to the pipe sections according to Figures 2 to 4 and

It will be advantageous to provide traction cables (not shown here). The attachment platform shown in Figure 4 will also be placed on the top.

In the above figures, preferred embodiments for ice climbing towers 10a - 10e have been shown. The shape and size of the tower can also be modified depending on the required conditions. For example, in the embodiment shown in Figure 2 it would be possible to use only 3 or even 5 pipe sections 12, depending on the conditions at the installation site. It is also possible to transport the ice climbing tower completely unassembled, which makes assembly times even shorter.

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Claims (20)

1. Ice climbing tower with a demountable structural assembly for forming a tower tapering towards the top, wherein cooling lines are provided on the outside of the structural assembly and are connected to at least one central cooling device. 2. Ice climbing tower according to claim 1, characterized in that the structural design is constructed from a lattice structure which consists of a plurality of interconnected lattice bars or lattice tubes, with filling plates being attached to the lattice structure. 3. Ice climbing tower according to claim 2, characterized in that the filling panels are heat-insulating. 4. Ice climbing tower according to claim 2, characterized in that the structural design is round or polygonal in horizontal section. 5. Ice climbing tower according to claim 1, characterized in that the structural design consists of several substantially trapezoidal side wall elements which are arranged vertically and connected to one another along the side walls. 6. Ice climbing tower according to claim 4, characterized in that each side wall element comprises a load-bearing support structure and integrated cooling lines. 7. Ice climbing tower according to claim 1, characterized in that the structural design consists of several pipe sections which are stacked on top of each other and are held together by at least one tension rod device provided in the interior. 8. Ice climbing tower according to claim 7, characterized in that the pipe sections consist of reinforced concrete, plastic or metal. 9. Ice climbing tower according to claim 7, characterized in that individual or all pipe sections taper towards the top. 10. Ice climbing tower according to claim 7, characterized in that the tension anchor device consists of 3-5 metallic tension cables. 11. Ice climbing tower according to claim 7, characterized in that ring adapters are provided between each two superimposed pipe sections for guiding and centering the pipe sections. 12. Ice climbing tower according to claim 1, characterized in that an attachment platform is attached to the top of the structural construction, to which devices for attaching holding and working ropes are provided. 13. Ice climbing tower according to claim 12, characterized in that the attachment platform has at least one boom arm which projects laterally outwards. 14. Ice climbing tower according to claim 13, characterized in that four boom arms extending in all directions are provided. 15. Ice climbing tower according to claim 13, characterized in that a centrally mounted, rotatable boom arm is provided. 16. Ice climbing tower according to claim 13, characterized in that a water spray ring is provided which is held over the at least one boom arm and has spray nozzles on the inside and forms the ice layer by spraying water onto the cooling lines. 17. Ice climbing tower according to claim 15, characterized in that a vertically extending water spray bar is held on the boom arm, which forms the ice layer by spraying water onto the cooling lines. 18. Ice climbing tower according to claim 1, characterized in that the cooling lines are flowed through by means of a water-glycol mixture. 19. Ice climbing tower according to claim 1, characterized in that the cooling lines are flowed through by means of an evaporative coolant. 20. Ice climbing tower according to claim 1, characterized in that handles can be attached to the outer wall of the structure for use as a climbing tower without a layer of ice.