NO134017B - - Google Patents

Description

The present invention relates to a

support (support device), for use in connection with 2nd concrete casting of floors or the like and especially for raising pipes or rods to form guideways when leveling the floor, where the support comprises a foot, an intermediate part placed on the foot with internal threads and an externally threaded support-

part, which projects into the middle part and is adjustable in height in relation to this by turning.

Known piling supports of the above type have been installed

to be used in conventional molding where a partial surface delimited by edge boards is cast and given the opportunity to dry before the edge boards are moved for casting a new partial surface. IN

on this occasion, the piling support is arranged to be placed outside the edge boards and after the leveling has been carried out, it is opened so that the pipe can be taken out and the support can be moved to place the pipe on the next partial surface to be cast.

Recently, a new vacuum suction method has been developed

which makes it possible to cast large continuous planes, for example a garage plane of 5000m 2 and more, in one piece without downtime, the opening takes place by applying the concrete mass to a partial surface, vibrating and leveling, after which new concrete mass is applied to an adjacent plane surface , cg this is vibrated before the concrete mass in the previously cast partial surface has dried. In other words, a particularly fast production is required, which means, among other things, that the piling of pipes to form guideways for leveling devices sets special requirements that cannot be met with previously known piling supports.

The purpose of the present invention is to arrive at a pick-up support which allows a particularly fast production.

In casting in general and in particular with the new vacuum suction method, this is achieved with the help of a pick-up support which is characterized by

that the foot consists of a sleeve with supports that run outwards

from this and which is designed to allow the setting up of

the pallet support on a base and allow free passage of laid rebar or similar,

that the intermediate part consists of a sleeve-shaped part designed with the internal threads for the support part and a gripping part which runs outwards from the sleeve-shaped part and preferably has the form of an annular flange,

in that a sleeve-shaped part is designed to be inserted into

the sleeve of the foot until the gripping part rests against the end edge of the sleeve,

while the sleeve-shaped part also rotatably fits into the sleeve fixed in the direction of withdrawal, so that the intermediate part forms a maneuvering part which can be rotated for turning the support part until the pipe and rod can be adjusted to lie in the hoop without affecting the set position of the support part,

that the support part is designed in one piece, so that it can be adjusted in height by turning with the help of a flight pin or similar that stands on the waist part of the hoop between the hoop legs, and

that the legs of the hoop are springy to retain a pipe or rod placed in the hoop and to yield when the pipe or rod is inserted into the hoop and removed from the same after the floor has been leveled.

In the drawing, the only drawing figure shows a preferred one

embodiment of the invention, shown partly in section.

The support member according to the invention comprises a foot part 1.

This foot part is similar to the other parts of the support made of a suitable plastic material and preferably by an injection molding process. The foot part 1 is equipped with a vertical sleeve 2 in the position of use, which has a first bore 3, which merges below into a bore 4 with a reduced diameter. In the transition between these bores, an annular approach 5 will therefore be formed. The purpose of this approach will be explained later. Pulling the sleeve-shaped part 2 leaves a number of obliquely downwardly directed supports 6, which at their free ends merge into vertical sleeves 7, each of which is provided with a bore 8 for a nail. The bore 8 can be used. should be recessed at the top, so that the nail head will be hidden in the sleeve. It is realized that through these long nail guides you can easily nail the foot part to a formwork table. The supports 6 have, as can be seen from the drawing, appropriate reinforcements in the form of wall sections, ribs etc. In order to reduce the tendency of the foot part to lift up as a result of the influence of the concrete mass, slots have been designed in these wall sections. The foot part is intended for u up ts casing part 10, which consists of a sleeve-shaped part 11 with internal threads 12 and which in its upper part transitions into a gripping part 13" which can have the form of a circular part with a downwards, ring-shaped outer edge which for to give the best possible grip can have ribs, ridges etc. The G-scratch part 13 can, like the foot part's wall parts, have slots or openings 14" through which concrete can pass, thereby reducing the tendency of the foot part to lift. The maneuvering part is intended to accommodate a support part 15, which has a hoop at the top, whose branches 16a, 16b are elastically yielding and are appropriately bent and stiffened with reinforcement ribs as shown in the drawing. The stirrup part 17 transitions into a downward-directed part, which has external threads 18, which are intended to cooperate with the maneuvering part's threads 12. The threads 18 are divided into several segments by axially extending, to a certain depth running slots 19. Hereby, a frictional engagement is achieved between the threads 12 and 18, whereby a setting made, especially under load, is also retained

when the support is exposed to strong vibrations etc.

In the embodiment described above and illustrated in the drawing, the maneuvering part 10 is fixed against displacement downwards in the foot part, but can be displaced upwards without hindrance. It may of course be appropriate to provide a fixation also against displacement in the opposite direction. For this purpose, one can provide the sleeve-shaped part 11 of the maneuvering part and the inside of the sleeve of the foot part with an annular thread and in the latter place a spring ring in the part 11, the spring ring when the part is brought together by expansion produces a locking of the foot part and maneuvering part against any displacement. Instead of a fixation of this kind, however, a locking of the parts can be achieved by providing the sleeve parts 2 and 11 with mutually interacting cambers and/or groove parts, which means that the parts can only be separated after a certain force has been exerted on them. It is of course also possible, with the help of e.g. a splint which is passed through the foot part's sleeve 2 and into a recess in the maneuvering part's sleeve 11, to temporarily lock the maneuvering part against rotation in relation to the foot part.

Finally, it should be pointed out that the hoop 16-17 is preferably dimensioned in such a way that it is able to enclose and retain the lower part of the so-called "flight pins", which are used to achieve an accurate height adjustment of e.g. pipe, which is to be embedded.

When setting up a formwork, after having roughly adjusted the height of each support element, these can be attached to the formwork tables with rebar laid out according to the above. They think,

which is to be rolled up (avstctte.s), is then pressed firmly between the bending legs as first at resp. the rotation of the maneuvering part in relation to the foot part is set in the desired direction and then occurs from the height when the maneuvering part turns in the desired direction.

However, when you want a precise device with the help of

of said escape sticks, the hoops are used to hold the lower part of them so that they are held vertically in the usual way. The height is now adjusted by turning the flight pins, while the maneuvering element e.g. via the foot is held firmly against rotation.

When the desired height has been achieved, the flight pins and hoops are removed

turned until they are mutually parallel, so that the pipe can be inserted

is taken care of in the manner indicated above. In this latter rotation, the maneuvering element is of course not retained.

In case you want to place the pipe in a particularly high position

level, you can use extension pipes, which then have largely the same surface

ter and inner dimension as the sleeve part of the maneuvering part, and each of which rests with its lower end against the shoulder 5 in the sleeve-shaped part 2 of the foot part. In this way, the pipe's e.l. height can be varied as desired.

Claims (7)

.1. Piling support (holding device), for use in connection with concrete pouring of floors or the like and especially for piling up pipes or rods to form guideways when leveling the floor, where the support comprises a foot (1), a foot-placed member (10) with internal threads (12) and an externally threaded support part (15), which projects into the middle part (10) and is adjustable in height in relation to this by turning, characterized in that the foot (1) consists of a sleeve (2) with supports (6,7) which running outwards from this and which is arranged to allow the installation of pallets in the ngssupport on a base and "allow free passage of ,xrfclag"te reinforcing iron (22) strainers similar, that the intermediate part (10) consists of a sleeve-shaped part designed with the internal threads (12) for the support part (15) and a gripping part (13) which runs outwards from the sleeve-shaped part (11) and preferably has the form of an annular flange, in that the sleeve-shaped part (11) is designed to be inserted into the sleeve (2) of the foot until the gripping part rests against the end edge of the sleeve, while the sleeve-shaped part (11) also rotatably fits into the sleeve (2) fixed in the direction of withdrawal, so that the intermediate part (10) forms a maneuvering part which can be turned for turning the support part (15) until the tube and the rod (21,20) can be fitted to lie in the hoop (I6a,16b,17) without affecting the set position of the support part (15), that the support part (15) is designed in one piece, so that it can be height-regulated by turning with the help of a flight pin or similar which stands on the rib part (17) of the hoop between the hoop legs (16a, 16b), and that the hoop's legs (16a, 16b) are springy to hold a pipe or rod (21, 20) placed in the hoop and to yield when the pipe or rod is inserted into the hoop and the suspension from the same after the floor has been leveled. 2. Hoisting support in accordance with claim 1, characterized in that the maneuvering part, for example by means of the gripping part (13), is axially adjustable in relation to the foot part in one direction of displacement, while in the other direction of displacement it is releasably fixed or simply blocked . 3. Hoisting support in accordance with claim 2, characterized in that the maneuvering part in its insertable part in the foot part is equipped with a bead, knob or the like in order to exert blocking action with corresponding organs on the foot part. 4. Piling support in accordance with one of claims 1-3, characterized in that the sleeve-shaped part (2) of the foot is equipped at the bottom with an internal abutment surface (5), which can for example be formed by the abutment between the upper bore of said part and one connected to it lower bore (4) with reduced diameter. 5. Piling support in accordance with one of claims 1-4, characterized in that the threads of the support part are interrupted by a number of axially extending slots (19) designed with a certain depth. 6. Piling support in accordance with one of claims 1-5, characterized in that the foot part's supports open outwards into vertical, elongated sleeve parts (7) whose holes (8) form nail reinforcement, at the same time that the sleeve parts constitute a stiffening of said supports. 7. Shoring support in accordance with one of claims 1-6, characterized in that the maneuvering part and the foot part are designed to be attached to each other to prevent mutual rotation.