Indian Patents. 271906:OBSERVATION TOWER

Title of Invention	OBSERVATION TOWER
Abstract	The present invention relates to an observation tower, in particular an observation tower having a moveable observation enclosure. An embodiment of the observation tower comprises an upright support member (2), and an observation enclosure (3) that can move up and down the support member, wherein the observation enclosure has an annular profile, and in particular a toroid exterior profile.

Full Text	OBSERVATION TOWER The present invention relates to an observation tower, in particular an observation tower having a moveable observation enclosure. In this regard, observation towers of many types are known in the art. For example, observation towers of the sort disclosed in EP 1031681 and EP 0659959 are employed for sighting forest fires. Such towers can be rapidly constructed, provided with foot-ladders or a lift for transporting personnel to the top, and can also be made out of. environment-friendly materials or disguised so as to blend in with the surrounding environment. Observation towers may also be used as means for providing leisure and entertainment facilities. Examples include the "Tower of the Americas" in Texas, USA, the "Faro de Madrid" in Madrid, Spain and the "Skylon" near Niagara Falls in Ontario, Canada. Numerous similar towers exist around the world, however in these examples, the observation platform, which may include therein restaurants and shops, is fixed at a specific height. Lifts or stairs are therefore provided to transport visitors from ground level to the observation platform, usually within the internal tower shaft. Thus, visitors are confined to restricted views when ascending and descending the tower to and from the observation platform. Alternatively, transparent lifts can be provided on the outside of the tower shaft, as on the "Macau Tower" in 5 Macau, Asia, however the above identified problems may still prevail, with the added disadvantage that external lifts may be unsightly and disrupt the aesthetic profile of the tower. Further examples of tower structures, such as those disclosed 10 in GB 655970 and EP 0337673 are provided with an observation platform mounted on a tower which itself is capable of ascending or descending. In both instances, the tower is capable of moving up and down, either by collapsing in on itself (e.g. using a so-called ^lazy tongs' system) or by 15 sinking completely into the ground. The observation platform of these arrangements can thereby travel from a lower position to' a higher position. In both examples, a large horizontal or. vertical surface area is required at ground level. With the Alazy tongs' system, a larger surface area 20 will be required for increased heights, and' with the latter example, the height of the tower must be accommodated below the surface of the ground. Restrictions with regard to locating the observation tower therefore apply with both examples of moveable tower. Furthermore, the vertical movement of the tower shaft required to enable boarding and disembarking of the observation platform compromises its overall strength, thereby limiting its maximum height and making it more vulnerable in adverse weather conditions. GB 1109555 and US 3633904 disclose towers that comprise a fixed tower shaft provided with a moveable observation platform. In both instances, visitors board the observation platform when it is at ground level and enjoy the surrounding scenery as the observation platform ascends to its maximum height. Similar towers have been designed and manufactured by Huss Maschinenfabrik GmbH & Co. GK and Intamin Deutschland GmbH & Co. GK, for example the Skytower and Gyro Tower, respectively. The aforementioned towers are limited by their height and the speed at which the observation platforms may ascend, and because of their profiles are susceptible to lateral movement during adverse weather conditions.' As previously indicated, safety of the passengers and crew is likely to be compromised in such conditions and the tower will have to be removed from operation until such time as conditions improve. Furthermore, the shape of the observation platform disclosed in GB 1109555 provides only restricted panoramic visibility, and the shape of the observation platform disclosed in US 3633904 prevents visitors from assuming a normal vertical position when seated or standing, thereby•diminishing their comfort. Functionality of the tower is hence restricted as a result of the observation platform's shape and angled orientation. It is hence an object of the present invention to provide an observation tower that seeks to overcome the above identified disadvantages. According to an aspect of the present invention, there is provided an observation tower comprising: a substantially upright support member; and an annular observation enclosure moveable up and down said support member; wherein the observation enclosure projects radially outwardly 'from and substantially normal to said support member and presents a tapering aerodynamic exterior profile around its circumference. The observation enclosure of the observation tower may in this respect have a toroid profile. ' As such, the curved sides of the observation enclosure allow air currents to flow easily over and around the enclosure to thereby- reduce the amount of lift or drag that is applied thereto. Less resistance is thus exerted on. the observation enclosure by air currents when, for example, it is moving up or down the supporting member of the observation tower. Also, the tower is less vulnerable to high speed winds and as a result, the observation enclosure is capable of ascending to heights of up to 200 metres. Increased control can be exerted over the speed at which the observation enclosure is movable, the speed being variable if and when necessary. In particularly adverse weather conditions the height of the observation enclosure can be reduced to decrease lateral deflection of the tower caused by wind pressure. This will enable the -tower to remain in operation during strong winds while maintaining safety and comfort for both visitors and crew. Conveniently, the substantially upright support member has a first portion arranged substantially above ground level and a second portion arranged substantially below ground level. In this regard, the observation enclosure may be lowered below ground level for gaining access to, or visibility of, an underground attraction.or enclosure. According to another aspect of the present invention, there is provided an observation tower comprising: a substantially upright support member provided with a first portion arranged substantially above ground level and a second portion arranged substantially below ground level; and an observation enclosure moveable up and down said support member. A boarding level may be provided between said first and second portions of the support member for boarding said observation enclosure; wherein the observation enclosure is moveable up or down relative to said boarding level. Preferably, a sunken enclosure is provided around said second portion of the support member and may be arranged to house the observation enclosure when the observation enclosure is provided at the second portion of the support member. An outer surface of the sunken enclosure may comprises substantially transparent material. Damping apparatus may be provided as part of the observation tower for damping undesirable vibrations thereof. The damping apparatus may in this regard comprise a mass spring damper, tunable to vary its damping characteristics in accordance with the height of the. enclosure relative, to the .upright support member. In this•way, undesirable vibrations in the support member due to adverse weather conditions can be dampened out. Such a damping apparatus is preferably incorporated into the upright support member. Conveniently the damping apparatus is incorporated within a top portion of the support member. Examples of the present invention will now be described with reference to the accompanying drawings, in which:- Figure la, Ib, lc-and Id show an observation tower according to the present invention with an enclosure at different height positions; Figure 2,shows a close up perspective view of the enclosure of the present invention; and Figure 3.shows a cross-sectional view through the enclosure of the present invention. As shown in the figures, a tower 1.comprises a substantially upright support member 2 and ah annular observation enclosure 3. The enclosure is moveable up1 and down said support member which is provided centrally thereto. The observation enclosure 3 projects radially outwardly from and substantially normal to said support member 2 and as shown presents a tapering aerodynamic exterior profile around its circumference. In the .preferred example shown, the observation enclosure has an annular profile, in particular a toroid exterior profile. As such, the curved sides of the observation enclosure allow air currents to flow easily over and around the enclosure to thereby reduce the amount of lift and/or drag that is applied thereto. Less wind pressure is thus exerted on the observation enclosure by air currents when stationery or, for example, when it is moving up or down the supporting member of the observation tower. The aerodynamic profile of the enclosure means therefore that it is less vulnerable to the affects of high winds, such that the enclosure will be stable at higher positions. Damping apparatus (not shown) may be provided as part of the observation tower for damping undesirable vibrations of the tower. The damping apparatus may in this regard comprise a mass spring damper, tunable to enable its damping characteristics to be varied in accordance with the height of the enclosure relative to the upright support member. In this way, undesirable vibrations in the support member due to adverse weather conditions can be dampened. The damping apparatus may be movable within the support for tuning purposes. Such a damping apparatus is preferably incorporated within the upright support member at a top portion thereof. An annular flow path may be provided through the centre of the enclosure between an inwardly facing wall 4 thereof and the support member 2 as shown in Figure 2. . The enclosure is preferably sized to house around 70-100 persons, offering them a 360-degree panoramic walk-around experience. It can'be air-conditioned with climate-control to ensure comfort is optimised. A retractable solar shading arrangement may be provided to cover the roof of the enclosure when required. The enclosure may be constructed of steel and i glass, preferably using curved laminated safety glass. As shown in Figures la to Id, the enclosure is movable up and down the support member 2 and can dock at an alighting / platform position 5 and also move to an underground position, shown in Figure Id. The underground position can provide . shelter from particularly adverse weather conditions or may provide access to a particular or restricted access area. For example, the underground area may incorporate an underground aquarium, whereby the enclosure drops into an annular tank housing various aquatic plants and Horizontally translating off-set hinged glazed doors may afford access to the enclosure. The support member may be formed for example, from 3.4 m diameter grade 43 galvanised steel. A machine room, not shown, is provided at a'lower portion of the support member. Renewable energy is utilized to power the observation tower and this may take the form of photovoltaic systems or wind turbines. CLAIMS 1. An observation tower comprising: a substantially .upright support member; and an annular observation enclosure moveable up and down said support member; wherein the observation enclosure projects radially outwardly from and substantially normal to said support member and presents a tapering aerodynamic exterior profile around its circumference. 2. An obsiervation tower according to claim 1, wherein the tower has ai height of up to 200 metres. 3. An observation tower according to,claim 1 or 2, wherein the observation enclosure is moveable at variable speeds. 4. An obsiervation tower comprising: a substantially upright support member provided with a first portion arranged substantially above ground level and a second portion arranged substantially below ground level; an observation enclosure moveable up and down said support member. 5. An observation tower as claimed in claim 4, further comprising ;a boarding level provided between said first and second portions of the support member for boarding said observation enclosure; wherein the observation enclosure is moveable up or down relative to said boarding level. 6. An observation tower according to claim 4 or 5, wherein 5 a sunken enclosure is provided around said second portion of the support member. 7. An observation tower according to any one of claims 4, 5 or 6, wherein said sunken enclosure is arranged to house 10 the observation enclosure when the observation enclosure is provided at the second portion of the support member. 8. An observation tower according to claims 4 to 7, wherein the sunken enclosure offers a substantially aqueous 15 environment. 9. An observation tower according to any preceding claim, wherein the: observation enclosure comprises substantially transparent material. 10. An observation tower according to any preceding claim, wherein renewable energy is utilized to' power the observation tower. 25 11. An observation tower according to claim 10, wherein said renewable energy comprises photovoltaic systems or -wind 14 turbines. 12. An observation tower according to any preceding claim, wherein a machine room is provided at a lower portion of the support member. 13. An observation tower according to any preceding claim, further comprising damping apparatus for damping undesirable vibrations of the tower. 14. An observation tower according to claim 13 wherein1 the damping apparatus comprises a mass spring damper, tunable 'to vary its damping characteristics in accordance with the height of the enclosure relative to the upright support member. 15. An observation tower according to claim 13 or 14, wherein the damping apparatus is incorporated within an upper portion of the upright support member. 16. An observation tower substantially as hereinbefore described with reference to the accompanying drawings.

Full Text

OBSERVATION TOWER
The present invention relates to an observation tower, in
particular an observation tower having a moveable observation
enclosure.
In this regard, observation towers of many types are known
in the art. For example, observation towers of the sort
disclosed in EP 1031681 and EP 0659959 are employed for
sighting forest fires. Such towers can be rapidly
constructed, provided with foot-ladders or a lift for
transporting personnel to the top, and can also be made out
of. environment-friendly materials or disguised so as to blend
in with the surrounding environment.
Observation towers may also be used as means for providing
leisure and entertainment facilities. Examples include the
"Tower of the Americas" in Texas, USA, the "Faro de Madrid"
in Madrid, Spain and the "Skylon" near Niagara Falls in
Ontario, Canada. Numerous similar towers exist around the
world, however in these examples, the observation platform,
which may include therein restaurants and shops, is fixed at
a specific height. Lifts or stairs are therefore provided
to transport visitors from ground level to the observation
platform, usually within the internal tower shaft. Thus,
visitors are confined to restricted views when ascending and
descending the tower to and from the observation platform.
Alternatively, transparent lifts can be provided on the
outside of the tower shaft, as on the "Macau Tower" in
5 Macau, Asia, however the above identified problems may still
prevail, with the added disadvantage that external lifts may
be unsightly and disrupt the aesthetic profile of the tower.
Further examples of tower structures, such as those disclosed
10 in GB 655970 and EP 0337673 are provided with an observation
platform mounted on a tower which itself is capable of
ascending or descending. In both instances, the tower is
capable of moving up and down, either by collapsing in on
itself (e.g. using a so-called ^lazy tongs' system) or by
15 sinking completely into the ground. The observation platform
of these arrangements can thereby travel from a lower
position to' a higher position. In both examples, a large
horizontal or. vertical surface area is required at ground
level. With the Alazy tongs' system, a larger surface area
20 will be required for increased heights, and' with the latter
example, the height of the tower must be accommodated below
the surface of the ground. Restrictions with regard to
locating the observation tower therefore apply with both
examples of moveable tower.
Furthermore, the vertical movement of the tower shaft
required to enable boarding and disembarking of the
observation platform compromises its overall strength,
thereby limiting its maximum height and making it more
vulnerable in adverse weather conditions.
GB 1109555 and US 3633904 disclose towers that comprise a
fixed tower shaft provided with a moveable observation
platform. In both instances, visitors board the observation
platform when it is at ground level and enjoy the
surrounding scenery as the observation platform ascends to
its maximum height. Similar towers have been designed and
manufactured by Huss Maschinenfabrik GmbH & Co. GK and
Intamin Deutschland GmbH & Co. GK, for example the Skytower
and Gyro Tower, respectively. The aforementioned towers are
limited by their height and the speed at which the
observation platforms may ascend, and because of their
profiles are susceptible to lateral movement during adverse
weather conditions.' As previously indicated, safety of the
passengers and crew is likely to be compromised in such
conditions and the tower will have to be removed from
operation until such time as conditions improve.
Furthermore, the shape of the observation platform disclosed
in GB 1109555 provides only restricted panoramic visibility,
and the shape of the observation platform disclosed in
US 3633904 prevents visitors from assuming a normal vertical
position when seated or standing, thereby•diminishing their
comfort. Functionality of the tower is hence restricted as
a result of the observation platform's shape and angled
orientation.
It is hence an object of the present invention to provide an
observation tower that seeks to overcome the above identified
disadvantages.
According to an aspect of the present invention, there is
provided an observation tower comprising: a substantially
upright support member; and an annular observation enclosure
moveable up and down said support member; wherein the
observation enclosure projects radially outwardly 'from and
substantially normal to said support member and presents a
tapering aerodynamic exterior profile around its
circumference.
The observation enclosure of the observation tower may in
this respect have a toroid profile. ' As such, the curved
sides of the observation enclosure allow air currents to flow
easily over and around the enclosure to thereby- reduce the
amount of lift or drag that is applied thereto. Less
resistance is thus exerted on. the observation enclosure by
air currents when, for example, it is moving up or down the
supporting member of the observation tower.
Also, the tower is less vulnerable to high speed winds and
as a result, the observation enclosure is capable of
ascending to heights of up to 200 metres. Increased control
can be exerted over the speed at which the observation
enclosure is movable, the speed being variable if and when
necessary.
In particularly adverse weather conditions the height of the
observation enclosure can be reduced to decrease lateral
deflection of the tower caused by wind pressure. This will
enable the -tower to remain in operation during strong winds
while maintaining safety and comfort for both visitors and
crew.
Conveniently, the substantially upright support member has
a first portion arranged substantially above ground level and
a second portion arranged substantially below ground level.
In this regard, the observation enclosure may be lowered
below ground level for gaining access to, or visibility of,
an underground attraction.or enclosure.
According to another aspect of the present invention, there
is provided an observation tower comprising: a substantially
upright support member provided with a first portion arranged
substantially above ground level and a second portion
arranged substantially below ground level; and an observation
enclosure moveable up and down said support member.
A boarding level may be provided between said first and
second portions of the support member for boarding said
observation enclosure; wherein the observation enclosure is
moveable up or down relative to said boarding level.
Preferably, a sunken enclosure is provided around said second
portion of the support member and may be arranged to house
the observation enclosure when the observation enclosure is
provided at the second portion of the support member.
An outer surface of the sunken enclosure may comprises
substantially transparent material.
Damping apparatus may be provided as part of the observation
tower for damping undesirable vibrations thereof. The damping
apparatus may in this regard comprise a mass spring damper,
tunable to vary its damping characteristics in accordance
with the height of the. enclosure relative, to the .upright
support member. In this•way, undesirable vibrations in the
support member due to adverse weather conditions can be
dampened out.
Such a damping apparatus is preferably incorporated into the
upright support member. Conveniently the damping apparatus
is incorporated within a top portion of the support member.
Examples of the present invention will now be described with
reference to the accompanying drawings, in which:-
Figure la, Ib, lc-and Id show an observation tower according
to the present invention with an enclosure at different
height positions;
Figure 2,shows a close up perspective view of the enclosure
of the present invention; and
Figure 3.shows a cross-sectional view through the enclosure
of the present invention.
As shown in the figures, a tower 1.comprises a substantially
upright support member 2 and ah annular observation enclosure
3. The enclosure is moveable up1 and down said support member
which is provided centrally thereto.
The observation enclosure 3 projects radially outwardly from
and substantially normal to said support member 2 and as
shown presents a tapering aerodynamic exterior profile around
its circumference.
In the .preferred example shown, the observation enclosure has
an annular profile, in particular a toroid exterior profile.
As such, the curved sides of the observation enclosure allow
air currents to flow easily over and around the enclosure to
thereby reduce the amount of lift and/or drag that is
applied thereto. Less wind pressure is thus exerted on the
observation enclosure by air currents when stationery or, for
example, when it is moving up or down the supporting member
of the observation tower. The aerodynamic profile of the
enclosure means therefore that it is less vulnerable to the
affects of high winds, such that the enclosure will be
stable at higher positions.
Damping apparatus (not shown) may be provided as part of the
observation tower for damping undesirable vibrations of the
tower. The damping apparatus may in this regard comprise a
mass spring damper, tunable to enable its damping
characteristics to be varied in accordance with the height
of the enclosure relative to the upright support member. In
this way, undesirable vibrations in the support member due
to adverse weather conditions can be dampened. The damping
apparatus may be movable within the support for tuning
purposes.
Such a damping apparatus is preferably incorporated within
the upright support member at a top portion thereof.
An annular flow path may be provided through the centre of
the enclosure between an inwardly facing wall 4 thereof and
the support member 2 as shown in Figure 2. .
The enclosure is preferably sized to house around 70-100
persons, offering them a 360-degree panoramic walk-around
experience. It can'be air-conditioned with climate-control
to ensure comfort is optimised. A retractable solar shading
arrangement may be provided to cover the roof of the
enclosure when required.
The enclosure may be constructed of steel and i glass,
preferably using curved laminated safety glass.
As shown in Figures la to Id, the enclosure is movable up
and down the support member 2 and can dock at an alighting
/
platform position 5 and also move to an underground position,
shown in Figure Id.
The underground position can provide . shelter from
particularly adverse weather conditions or may provide access
to a particular or restricted access area.
For example, the underground area may incorporate an
underground aquarium, whereby the enclosure drops into an
annular tank housing various aquatic plants and
Horizontally translating off-set hinged glazed doors may
afford access to the enclosure.
The support member may be formed for example, from 3.4 m
diameter grade 43 galvanised steel. A machine room, not
shown, is provided at a'lower portion of the support member.
Renewable energy is utilized to power the observation tower
and this may take the form of photovoltaic systems or wind
turbines.

CLAIMS
1. An observation tower comprising:
a substantially .upright support member; and
an annular observation enclosure moveable up and down
said support member; wherein the observation enclosure
projects radially outwardly from and substantially normal to
said support member and presents a tapering aerodynamic
exterior profile around its circumference.
2. An obsiervation tower according to claim 1, wherein the
tower has ai height of up to 200 metres.
3. An observation tower according to,claim 1 or 2, wherein
the observation enclosure is moveable at variable speeds.
4. An obsiervation tower comprising:
a substantially upright support member provided with a
first portion arranged substantially above ground level and
a second portion arranged substantially below ground level;
an observation enclosure moveable up and down said
support member.
5. An observation tower as claimed in claim 4, further
comprising ;a boarding level provided between said first and
second portions of the support member for boarding said
observation enclosure; wherein the observation enclosure is
moveable up or down relative to said boarding level.
6. An observation tower according to claim 4 or 5, wherein
5 a sunken enclosure is provided around said second portion of
the support member.
7. An observation tower according to any one of claims 4,
5 or 6, wherein said sunken enclosure is arranged to house
10 the observation enclosure when the observation enclosure is
provided at the second portion of the support member.
8. An observation tower according to claims 4 to 7, wherein
the sunken enclosure offers a substantially aqueous
15 environment.
9. An observation tower according to any preceding claim,
wherein the: observation enclosure comprises substantially
transparent material.
10. An observation tower according to any preceding claim,
wherein renewable energy is utilized to' power the observation
tower.
25 11. An observation tower according to claim 10, wherein said
renewable energy comprises photovoltaic systems or -wind
14
turbines.
12. An observation tower according to any preceding claim,
wherein a machine room is provided at a lower portion of the
support member.
13. An observation tower according to any preceding claim,
further comprising damping apparatus for damping undesirable
vibrations of the tower.
14. An observation tower according to claim 13 wherein1 the
damping apparatus comprises a mass spring damper, tunable 'to
vary its damping characteristics in accordance with the
height of the enclosure relative to the upright support
member.
15. An observation tower according to claim 13 or 14,
wherein the damping apparatus is incorporated within an upper
portion of the upright support member.
16. An observation tower substantially as hereinbefore
described with reference to the accompanying drawings.

Documents:

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Patent Number

271906

Indian Patent Application Number

1919/DELNP/2007

PG Journal Number

11/2016

Publication Date

11-Mar-2016

Grant Date

09-Mar-2016

Date of Filing

12-Mar-2007

Name of Patentee

I-360 ATTRACTIONS LIMITED

Applicant Address

50 BROMELLS ROAD, LONDON SW4 0BG, UK

Inventors:

#	Inventor's Name	Inventor's Address
1	BARFIELD, JULIA	50 BROMELLS ROAD, LONDON SW4 0BG, UK
2	MARKS, DAVID	50 BROMELLS ROAD, LONDON SW4 0BG, UK

PCT International Classification Number

E04H 12/00

PCT International Application Number

PCT/GB2005/002243

PCT International Filing date

2005-06-08

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	0418879.3	2004-08-24	U.K.