NO137023B - AIR CLEARANCE VALVE. - Google Patents

Abstract

Air elimination valve.

Description

Procedure for erecting buildings and equipment for carrying out the procedure.

Among the different methods

which is used in house building and more generally in the construction of buildings of any kind, there is one that consists in producing the various parts of the building successively from above, i.e. building the roof first, as each of the building's parts is produced on the building site and then raised to a sufficient height so that the below-lying part or floor can be constructed under the already completed part or floor.

The present invention relates to a

method of this kind, consisting of preparing foundations, attaching supports to these foundations, and preparing different parts of the building at ground level, beginning with the upper part, and raising each part to its final level after it has been prepared , and is distinguished by the fact that the different parts or floors of the building are supported by supports in the form of telescopic elements, where the height of each element is equal to the height of a part of or an entire floor and that the lower support is made in one with the foundation and each support is connected to a hydraulic jack comprising two cylinders that are fed from one and the same pump and consists of two parts, where the height of these parts and the pistons arranged therein corresponds to the height of a part of or an entire floor of the building.

These and other features and benefits of

the method will be apparent from the following description with reference to the schematic drawings which show an example of an embodiment of an apparatus for carrying out the method.

Figs 1-4 show in outline and partly in section different successive phases during the construction of a building, fig. 5 on a larger scale, a partially sectional elevation of a support, its foundation and its jack, and fig. 6 and 7 an elevation and a ground plan in section respectively

of a jack; fig. 8 and 9 show vertical-respectively horizontal sections of the narrow part of a support element, fig. 10 and 11 corresponding sections of the lower part of this support element and fig. 12 a vertical section of the connection between the two elements of the supports.

On the construction site where a house or other building is to be erected, foundations 2 (fig. 1) are first built, within which the base of the support is placed. Each support consists of a set of telescopic tubes 3, the outer tube being immovably fixed to the foundation 2. These sets of tubes are intended to serve as supports for the building, the top of each element of the supports receiving horizontal beams which are assembled near the ground . Right part of fig. 1 also shows horizontal beams 4 which connect the tops of the inner tubes of the telescopic sets to each other. Fig. 2 is an analogous drawing to fig. 1 after the first beam set has been raised, i.e. after the inner tubes of the telescopic sets 3 have been pushed up. The level reached allows the placement of the next set of horizontal beams 5 at the same level, where the first set of beams 4 was previously placed. Fig. 3 is also a drawing analogous to fig. 1 and 2, after the second set of horizontal beams 5 have been placed and after a living space 6 has been created within that space

which is limited by the skeleton in the form of beams

kene 4 and 5 and the tubular supports.

Fig. 4 is a drawing which is analogous to figs, 1, 2 and 3 after the beams 4 and 5 and the room 6 have been raised to such a level that the third row of beams 7 is laid at the height where the rows 4 and 5 were previously be-

found himself.

The method according to the invention therefore requires that the telescopic pipe sets 3

each time a height corresponding to the height of a pipe is raised so that the construction can be raised from one floor to the next. To enable this lifting, each support is connected to a lifting or lifting device consisting of a jack, as described below.

Each support is, as shown in fig. 5, an-

brought in a steel tube 8 which is reinforced at the bottom 9 and provided at the top with a removable sleeve 10 which allows a precise regulation of the height and position of the support. The setting of this support pre-

works by moving the pipe 8 in the transverse and longitudinal direction in the concrete foundation 2 to bring it to the desired position. The height adjustment element 10 is composed of wood by means of bolts interconnected de-

laughing; three screws 12 allow precise setting

ling in the height direction.

Each tube or each part of the telescopic set 3 forms an element corresponding to

those to the height of one floor plus the floor, and all parts extended correspond to the total height of the building.

To push these tubes apart

each support, as mentioned above, is connected

that with a lifting device. This device re-

essentially, as shown in fig. 6,

two telescopic cylinders 13 and 14 which are mounted on a base plate 15. The upper en-

where of the two pistons 16 which slide in these cylinders, are connected to each other by means of a two-part connecting part 17 which is held together by means of bolts 18.

The oil for the hydraulic system is located

itself in a container 19 on the base plate 15. The pump that feeds the jack is driven by an electric motor 21.

It is these jacks that, by whi-

lie on the foundation 2, enables the telescopic extension of the supports, at the same time as the already completed part of the building is raised. These jacks carry out this lifting

ning over the two-part connecting part 17,

if two parts are connected by each piston 16.

When the pipes are pushed out, the lower one is guided

end 23 of the upper tube (Fig. 8, 10) up against the upper end 22 of the lower tube, the lower tube having a diameter that is somewhat larger

re than the diameter of the upper or raised pipe; both pipes have flange-shaped stops 24

(fig. 5) which is in contact with the break 25. The ends 22 and 23 of the pipes are connected to each other by compression

of a ring 26 which is pre-

brought into the pipe set, as shown in fig. 5. During the time necessary to make this connection, the structure is held in a raised position using the jacks.

The top 22 of each supporting element out-

is made of a part with a reduced diameter on the upper side of the parapet 27. The inner diameter of the thus reduced section 28 (fig. 8-9) corresponds to the diameter of the pipe

29 which slides in this tube, the top of which is denoted

net with 22. This top 22 has openings 31,

whose width is equal to the circumferential distance between the openings. Thereby forming sect-

rer, e.g. in a number of twelve equal ones. The parts 32 without breakthroughs have external screw threads 33.

The bottom part of each support tube includes

ter, as shown in fig. 10 and 11, six sector-shaped reinforcements 34 are spaced equal to their circumferential width.

These reinforcements are threaded as indicated

at 35.

When a pipe is displaced vertically in an enclosing pipe in the telescopic support, the reinforcements 34 in the bottom part 23 of a pipe will penetrate the openings 31 in the top 22

of another pipe and screws 33 and 35

lie flush with each other.

The ring 26 has internal threads like this

that by turning it establishes the connection between the parts 22 and 23 whose screw threads will be surrounded by the ring's 26 screw threads.

In order to provide additional security for the connection between two pipes, it is sufficient to prevent the ring 26 from being turned back by the acting forces attempting to press the parts further together.

The rings 26 are then connected to the horizontal beams 4, 5, 6, 7, see fig. 1—4.

Claims (6)

1. Procedure for erecting buildings, consisting of preparing foundations, attaching supports to these foundations and preparing different parts of the building at ground level, beginning with the upper part, and raising each part to its final level after the is produced, characterized in that the different parts or floors of the building are supported by supports (3) in the form of telescopic elements, where the height of each element is equal to the height of a part of or an entire floor and that the lower support is made in one with the foundation (2), and each support is connected to a hydraulic jack comprising two cylinders (13, 14) which are fed from one and the same pump and consist of two parts, where the height of these parts and the pistons (16) arranged therein correspond to the height of a part of or an entire floor of the building (fig. 5, 6). 2. Device for carrying out the method according to claim 1, characterized in that the telescopic pipe set (3) which forms each support is placed at the bottom in a steel pipe (8) which is immovably embedded in a foundation of reinforced concrete, and that each pipe upwards is provided with a removable element (10) which allows regulation of the position of the support. 3. Device according to claim 2, characterized in that the jack which is connected to each support consists of two telescopic cylinders (13, 14) mounted on a base plate (15) which is fixed in the support's foundation (2), which base plate supports an oil container (19) and an electric motor (21) which drives the pump which supplies the oil to the jack. 4. Device according to claims 2 and 3, characterized in that the pistons (14) in the two telescopic cylinders (13, 14) are connected with each other above a two-part connecting piece (17) which allows coupling with the support and supporting this in an extended position until it has been locked. 5. Device according to claims 2, 3 and 4, characterized in that each tube in each support (3) comprises a head (22) with a smaller diameter than the rest of the tube, in which head longitudinal openings (31) are arranged and on the outside which head is provided with screw threads (33), while the bottom part of each tube has longitudinal reinforcements (34) which pass into the aforementioned openings (31) when two subsequent tubes lie flush with the screw threads on the head of the outer tube (22) , and that a ring (26) with internal screw threads serves to connect the two pipes to each other. 6. Device according to claims 2, 3, 4 and 5, characterized in that horizontal beams (4, 5) are connected to the rings (26) which connect two and two pushed-out pipes in each support, which form support beams for living spaces (6 ) etc.