CA2215314A1

CA2215314A1 - System for protecting buildings

Info

Publication number: CA2215314A1
Application number: CA002215314A
Authority: CA
Inventors: Giorgio Vaia
Original assignee: Individual
Current assignee: Individual
Priority date: 1995-03-28
Filing date: 1995-05-16
Publication date: 1996-10-03
Also published as: WO1996030602A1; EP0817892A1; AU2419095A; DE69516426D1; CN1179807A; CN1078656C; ITMI950623A1; EP0817892B1; IT1274369B; RU2145656C1; JPH11502910A; ITMI950623A0; US5974743A; DE69516426T2; AU702354B2

Abstract

System for protecting a building (10) whereby the building (10) is based on a flat structure (11) supported by hydraulic jacks (30, 33) set on the ground or on the bottom of a sunk garage (12) sufficiently large to receive the building (10) itself, there being devices for proper connections for electricity (60), telephones, water and drains (91) at the various levels at which the building (10) can be set, and also for shutting (51, 51') off the building (10), even for making the garage (12) watertight once the building (10) has been lowered inside it.

Description

CA 0221~314 1997-09-12 r ~ . . ~ r r ~, _ r r _ ' - =

System for protecting buildings The invention concerns systems and means for moving buildings where environmental or other needs make this necessary.
The greatest problems that our planet has to face, and against which man is almost powerless, are created by natural catastrophies such as hurricanes, flooding, fires, earthquakes.
Other problems that are hard to solve are those caused by criminals and by vandals and these are steadily in-creasing by evolution both of social customs and by.the tactics adopted by those committing such crimes.
Further problems still are created by particularly ad-verse climatic conditions such as exceptional temperatures.
As regards the disasters caused by natural calamities the cost of remedying them has now risen as high as thousands of billions of ~ollars.
Purpose of the above invention is to make a contribution towards preventing such damage at least for the smaller buildings as will be explained below.

CA 0221~314 1997-09-12 r r r t~ .~ r t ~ .' The patent US A 2 653 468 discloses a structure for a building designed especially to provide protection against bombardment.
Said protection is obtained by a box-type structure made in the ground, 5 open at the top, able to contain the building constructed on a continuous rigid flat structure supported by a central hydraulic jack, situated in the bottom of the box, by means of which the building can be stood at ground level or be sunk entirely inside the box.
Connection between services inside the box and external branch lines for 10 electricity, telephone, water and drainage essentially consist of rigid pipesjoined by elbow joints nearly all of which extend substantially below the building.
Said box can be closed, when the building has been lowered inside it, by a very thick covering slab able to protect the building from bombardment.
15 The above structure has considerable drawbacks, mainly in the over-sized central hydraulic jack and the heavy structure of the box especially the covering slab, reflected in in the cost of the construction and in its operation because of the complexity of the devices for these purposes.
Connections or electricity, phone, water, drainage by piping with elbow 20 joints are highly complex and present problems of maintenance.
Material will inevitably accumulate at all elbow joints of pipes for fluids.
All connections for electricity and telephone show weak points likely to cause breakdowns, these too at the elbow joints in these connections.
Such problems are increased as about ten articulated joints are needed 25 for each connection, it being well-known that articulations constitute weak points wherever moving parts are joined.
Purpose of this present inventiion is to protect buildings in peace-time conditions and therefore against natural disasters, theft, vandalism, also to lessen environmental impact where further building creates problems.
30 This protection is provided both structurally and by its connections for electricity, telephone, water and drainage using simple means able to give long service without exceptional maintenance as will now be explained .

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- CA 0221~314 1997-09-12 Subject of the invention is a system for protecting buildings whereby the building itself is based on a continuous rigid flat structure supported by motor driven means for up and down movement.
Said devices are in turn based, as the case may be,on the ground or on the bottom of a garage below ground and of sufficient size to receive the building above.
Arrangements are also made for connecting the services inside the house for electricity, telephone and other means of communication, for water and drainage, with ,- cables and piping outside it.
All this is done to allow for the various levels at which the building will be set, either on the ground, at different heights above it or at the bottom of the foundations.
There is also a device for watertight closure of the garage after the building has been sunk down inside it. ~
Preferred devices for vertical movement are telescopic ZO hydraulic jacks installed in specially dug shafts in the bottom of the garage that supports the flat struc-ture.
These jacks are connected to a control panel.
The device for closing the garage is preferably a rol-ling shutter, locked by a key, and made watertight.This main shutter preferably comprises two secondary shutters respectively worked by a motor-driven shaft by means of a gear wheel fixed to the shaft and meshing with an articulated rack at the sides of said shutters.
The means for connecting internal wiring for electricity to main s-ervices, such as telephones and others, consist flexible U-bent cables inside the garage.

CA 0221~314 1997-09-12 ... .

Fixed at one end of these cables is a shunt box for the systems inside the building, placed outside it,and fixed to the other end is another box on the ground close to the foundation pit.
Correct movement of the U-bent cables is ensured by a pulley that pulls on the base of this U, said pull being made by a traction spring or by a counterweight acting on the fork that freely supports the pulley.
Devices for proper connection between main lines for elec-tricity, telephone or other services and those inside thebuilding may also consist of vertical contact bars fixed in one wall of the foundations.
Contacts, which may also be of the rotating type~mounted O~ a support fixed to the building, can freely slide ~

on these bars which extend for the full vertical movement made by the building.
The means for suitable connection between main water pipes and the piping inside the building consists of a flexible U-shaped pipe inside the garage.
One end of this pipe is joined to a coupling on the system inside the building placed externally to it and the other end is joined to a coupling on the water supply pipe on the ground close to the foundation pit.
Correct movement of the U-bend is determined by a pulley that pulls on the bottom of said U, and by a traction spring, or else by a counterweight that acts on the fork freely supporting the pulley.

The means for connection between the water mains and pipes inside the building may be a rigid articulated tybe,inside the garage, fixed at one end to an external coupling on the internal water system and, at the other end, to a CA 0221~314 1997-09-12 coupling on the main pipe on the ground close to the garage.
The means for connection of drainage between the ser-vices inside the building and the main drains consists of a vertical pipe placed in-the foundation pit or near to it, connected at the bottom to the main drainage sys-tem.
Close to the bottom of the pit and at different levels there are horizontal couplings with automatic or con-trolled valves and fixed openings.
- At the end of a horizontal coupling for the drains inside the building there is an opening whose size corresponds to that of the fixed openings.
These latter are placed so as to match at least with the opening for the building when, as the case may require, it is placed inside the garage or at ground level or at a previously fixed distance from the ground.
In this way, having set the building at the desired height, it becomes possible to determine, by means of a manual or automatic connector, the connection between the aperture for the building and the fixed one opposite it.
The means for connecting drains between the services in-side the building and the main drainage system may be a vertical telescopic pipe one of whose ends is connected to a coupling on the internal drains and the other end to the main drainage system.

In one advantageous type of execution,between the base of the building and the flat structure there is a layer of elastic material able to absorb and deaden earthquake shocks.
As an alternative this layer may be placed on the bottom of the garage.

CA 0221~314 1997-09-12 5 _ The hydraulic jacks can in fact be lowered to leave the building resting freely on said layer.
All controls for vertical movement of the building, for closing or opening the shutter, for possibly making the drainage connections between the building and the exter-nal mains motor-driven at the different levels, as well as all the needful safety and signalling devices, are joined up to an external control unit placed close to the garage.
The purpose of this is to enable the user to decide how the building shall be placed according to circumstances, either from inside or from outside the building.
The invention offers evident advantages.
Having the house protected inside the sunk garage provides the quickest and safest total defence not only against hurricanes but also against fire, extremely low tempera-tures and other natural calamities.
The operations of lowering the house inside the garage as soon as there is any risk of danger and of raising it once more to ground level are extremely quick and easy everything being done by the control unit inside the house.
The most useful and thorough protection is also ensured against theft and wilful damage.
This kind of protection is of great interest in the case of isolated houses used for holiday homes left uninhabi-ted for most of the year and at the mercy of criminals.
Problems of environmental impact are also eased in the case of holiday homes which for many months can thus be enclosed underground and completely invisible.
If there is a risk of flooding the possibility of lift-ing the house above ground level offers a solution, in places subject to such periodical calamities, that allows CA 0221~314 1997-09-12 , . .

such areas to be populated and protection given of buildings satisfying particular social needs, for better control and protection of the area as well as for purposes of observation.
In the event of an earthquake, the protection given by the garage may be decisive, especially bearing in mind the possible application of elastic layers under the house, for absorbing and deadening shocks and vibrations.
In consideration of the very great number of areas where high risks of calamity exist such as Florida, California, other states of the U.S., Japan, south-east Asia, the Low Countries and many others throughout the world, and the enormous social and economic ~osts weighing on indi-viduals and countries, including costs of anti-theft pro-tection, insurance against fire and other calamities, itis clear that the invention provides a valid solution in terms both of safety for people and of costs.
Characteristics and purposes of the invention will be made still clearer by the following examples of its execution illustrated by diagrammatically drawn figures.
Fig. I Small flat-roofed house supported at ground level by hydraulic jacks placed on the bottom of a sunk garage closed by a horizontal rolling shutter, s longitudinal section.
Fig. 2 The house in Fig.l lowered into the garage.
Fig. 3 The house in Fig. I raised up.
Fig. 4 Perspective of the house in Fig. 1.
Fig. 5 Perspective of the house in Fig. 2.
Fig. 6 ~ouse with two floors and several rooms resting on hydraulic jacks, lowered inside a sunk garage;

a longitudinal section.
Fig. 7 Sectioned perspective view showing detail of a rol-ling shutter round a garage.

CA 0221~314 1997-09-12 , Figs. 8,9,10. Details of connections for electricity, telephone, water, drainage for the houses in Figs. 1-3, cut through along axes X,Y,Z.
The house 10 with its flat roo~ has a base structure of flat rigid metal supported by four hydraulic jacks 30-33 fitte-d into shafts 13,14 of the sunk garage 12.
The jacks are telescopic and substantially consist of four cylindrical bodies 35-38 of decreasing diameter.
The flat plates 34 at the top are fixed to the cylinders 38.
Piping 40 and 4I connects the cylinders 35 to the hydrau-lic drive unit 39 comprising an oil tank 42 and electric motor 43 operated by the control panel 60 placed at the side of the garage 12, connected by eLectric wiring 44, (Figs. 1, 8).
Said panel 60 in turn communicates with a substantially similar panel 6I placed inside the house ]0 (Fig.8) by shunt boxes 65, 70, as will be later explained.
Therefore by operating these panels 60 and 61 outside and inside the house, said house ~O can be lowered to position 10' inside the garage 12 or else raised to position 10".
Close to the sides of the garage 12 are a pair of metal rails 50 (Fig. 7) for the rolling shutters 51, 5I' that consist of articulated slats 52 with a rack 53 that engages with the crown wheels 54 on the shaft 55, worked by the elec-tric motors 56.When out of use these shutters remain rolled up inside the lateral cavities 17 of the garage 12.
The electric motors 56 are connected to the control units 60,61 by lines of wiring 45 (Figs. 1, 8).
When the house 10 has been lowered into the garage 12,said garage can therefore be closed from inside the house or from outside it by causing the shutters 51, 51' to move ~ CA 0221~314 1997-09-12 :. . . .

one towards the other until they meet in the middle of the garage.
The electricity and telephone lines are joined up to the ~unction box-~3already mentioned, close to the control panel 60, and are connected to the drive unit 61 for the system 65 il!lside the house by means of the multi-cable band 70 laid inside the vertical channel 18 in the garage.
Said band forms a U-bend as shown in Fig. 8.
At the centre of the bend is the pulley 71 supported by the fork 72 which is pulled by the spring=73 fixed to the bottom of the garage 12.
This device ensures continuous and regular connection for electricity and telephone at the various levels at which the house may be set since the spring 73 allows the band 70 to move but keeps it adequately stretched.
Water supplies are ensured by the external coupling 20 to-the mains placed near the side of the garage (Fig.9).
This coupling is connected to the internal coupling 21 in-side the house by a flexible U-bent tube 80 laid in the channel 19 so that it can easily follow the vertical move-ments of the house.
' The coupling 21 is connected to the taps 22 in the bath-room and to alL other water take-off points in the house.
The drainage syste~ 90 from outside is connected to the vertical pipe 91 which has at least three couplings: 92 at the bottom of the pit, 93 at ground level and 94 above with the fixed apertures 95, 96, 97.
In the bathroom 23 (Fig.10) the horizontal branch pipe 24 may~be seen with a mouth 98 whose size is that of the fixed aper-tures 95-97.
~aid branch pipe 24 comprises a telescopic connector 25 . CA 0221~314 1997-09-12 , by means of which, with a hand or automatically con-trolled device 26, said mouth 98 can be fitted into the mouth 95 on the coupling 92 when the hou~e (Figs.2, 10) is down inside the garage 12.
When the house is raised to ground level (Fig.1), or to some height above it (Fig.3), that mouth 98 fits into mouths 96,97 respectively on external couplings 93, 94.
It is thus clear that the services for supplying elec-tricity, for telephone connections, for water and for drainage are ensured for all levels at which the house i~ may be placed, and th1s is done by automatic and centra-lized controls inside and outside the house itself.
Fig. 6 illustrates addaption of the invented system to a building 100 consisting of several rooms and on two fIoors of whatever architectural design.
When there is an adequate flat base structure 101 and hydraulic jacks of suitable power, such as 102 and 103 driven into the shafts 104 at the bottom of the garage 110, this building can in fact be raised and lowered to different levels.
The shutters 105 and 106 enclose the garage 110 and can ' make it watertight.

Claims

1. System for obtaining a building protected against natural disasters, theft, vandalism and with minimun environmental impact, by building it on a continuous rigid flat structure supported by vertical telescopic hydraulic jacks placed on the bottom of a sunk garage sufficiently large to receive the entire building, connected to a drive unit for vertical movement either to ground level or all down inside the garage, devices being provided for connection of the internal junctions of services inside the building with the external junctions of outside cables and piping respectively for supply of electric energy, for communication by telephone or by some other means, for water and drainage, there being a device for closing the garage from above after the building has been lowered inside it, characterized in that the devices for proper connection between the internal junctions of services inside the building and external junctions of exteranl cables and piping for supply of electric energy, for communication by telephone or by some other means, consist of flexible cables bent in the form of a "U" inside the garage one of whose ends is fixed to a branch line of the services inside the building communicating with the outside, and the other end to a branch for lines laid on the ground close to the garage, regular movement of the U-bend being determined by a pulley pulling on the bottom of said "U" and by a traction spring or by a counterweight actingon the fork that freely supports the pulley.

2. System as in claim 1 characterized in that the device closing the garage is a shutter with a safety lock and means for making it watertight that comprises two rolling shutters respectively worked by a motor-driven shaft by means of gear wheel, mounted on said shaft, that meshes with an articulated rack placed on the edges of said rolling shutters.

3. System as in claim 1, characterized in that the device used for ensuring proper connection between the water mains and the services inside the house consists of a flexible pipe bent in the form of a "U" inside the garage, one end of which is fixed to a branch pipe forming part of the systems inside the building communicating with the outside, and the other end to a branch of the water main placed in the ground close to the garage.

4. System as in claim 1, characterized in that the device used to ensure proper connection between the water mains and the services inside the house, consists of a rigid articulated pipe placed inside the garage one end of which is fixed to an external branch of the system inside the building, and the other end to a branch from the water mains placed on the ground close to the garage.

5. System as in claim 1, characterized in that the device used to ensure proper connection for drainage between a branch pipe form the services inside the building and the main outside drains, consists of a vertical pipe placed in the garage or near to it, the lower end of which is joined to the main drainage pipe, there bein placed close to the bottom of the garage and at various heights, horizontal pipe fittings operated manually or by automatic valves and with fixed mouth apertures there being placed at the end of one horizontal branch comprising a telescopic connector forming part of the building's internal drainage system, a mouth the size of which corresponds to that of the fixed mouths the positions of theese latter being such as to correspond at least with the mouth in the building when, as the case may require, the building is lowered into the garage or is palced at ground level or at a height previously established for it, it being thus possible, when the house has being set at the desidered level, to fit the mouth, by a manual or automatic means, into the fixed ones placed opposite.

6. System as in claim 1, Characterized in that the device used for ensuring proper connection of drainage between the services inside the building and the external drain consits of a vertical telescopic pipe one end of which is connected to a branch from the services in the building and the other end to the mains network below.

7. Sysyem as in claim 1, caharacterized in that the building stands on the flat structure there being in between a layer of elastic material able to absorb and deaden any earthquake shocks

8. System as in claim 1, characterized in that on the bottom of the garage a layer of elastic material is laid capable of absorbing and deadening-earthquake shocks, it being possible to lower the hydraulic jacks so as to allow the building to rest freely on said layer.

9. System as in claim 1, characterized in that all controls for vertical movement of the building, for opening and closing the rolling shutters, for having the drainage connections between the building and the mains network at the various levels motor-driven if required, for operating all the necessary safety and indication devices, are linked to a drive and control unit inside the building and to a similar unit outside it and close to the garage to allow the user to decide which position is best for the building according to circumstances and needs, and to place it in that position from both inside and outside the building.