DE335259C - Foundation for large power machines - Google Patents

Description

Foundation for large power machines. Due to the constant growth of Power and dimensions of the large engines and the weight of the moving ones The loads on the piston engine and turbine foundations are also increased by masses higher and higher. As a result, not only have their own weights increased, but also also special care in the execution of the foundations in the best cement masonry or reinforced concrete and used on a sufficiently deep and strong foundation.

Nevertheless, the number of complaints about cracks and Broken foundations as well as sagging, shifting and slipping of large piston engines and steam turbines together with them with them fixed or with the interposition heavy foundations connected by springs. At: closer examination results then as causes voids that are located under the foundations after their manufacture have formed, partly as a result of the uninterrupted masses of the machine in motion Vibrations and shocks that cause grinding, shaking and shrinking of the sandy and earthy parts of the subsoil, but partly as a result other influences, for example mining, changing groundwater levels or underwashing, the latter very often due to leaks in steam turbines the walls of the cooling water inflow and outflow channels arise. But these in turn have its roots in the machine masses going back and forth or revolving outgoing vibrations, the - unexposed the structure of the foundations, the underground masses and the neighboring structures disturb, wear down and finally destroy.

The purpose of the present invention is to provide a foundation to create through which these evils are eliminated. According to the invention there is the foundation of an upper heavy block and a supporting block, expediently deeply founded foundation masonry, between which buffers are arranged. As a model for such a machine foundation, one would be correspondingly heavier and correspondingly large floats must be seen, which the trapped Impacts and movements are transferred to the surrounding liquid, where they are harmless ebb and be destroyed.

The subject of the invention is shown in several exemplary embodiments in the drawing shown.

Fig. = Shows an embodiment in which the upper foundation block rests on buffers; in cross section; Fig. A is a longitudinal section thereof, while Fig. Figure 3 is a plan view with the top block raised; Fig. 4 shows a second Embodiment in longitudinal section in which the upper block rests on rollers; Fig. 5 shows the foundation of a large gas engine in side view, in which the upper Foundation block rests on buffers and is also supported laterally by buffers; Fig. 6 is a plan view of this; Fig. 7 - shows a semi-cylindrical design of the foundation bearing, and Fig. 8 shows the union of two with one another to form a system connected hydraulic buffers.

The foundation according to FIG. I consists of an upper heavy block a and a base plate b which supports this block and rests on a pile foundation c. Buffers d are arranged between the block a and the plate b. The buffers, e.g. B. hydraulic buffers with air cushions, take the entire load of the upper foundation block a and the machine on it. They intercept the movements transferred from the machine to block a. The buffers d are either individually adjustable or connected in pairs or groups to form individual printing systems, as will be described below. Depending on the pressure in the individual buffers or. Systems is set, any raising or lowering of the upper foundation block can be caused to one side or the other. All shocks and vibrations emanating from the moving machine parts are first transferred to the heavy foundation block a. Only the movements that have not yet been destroyed in this block a have an effect on the buffers d. Here shocks and vibrations are destroyed all the more completely, the greater the water and air content of the buffer. An even better interception is achieved if you switch on air tanks whose air cushions are dimensioned sufficiently large and can completely absorb every movement.

In the embodiment according to FIG. 4, the foundation block a does not rest on buffers, but on roller bearings e. Inclined buffers g, which Support on abutment f, reach under the foundation block from the side.

In the embodiment. According to FIGS. 5 and 6, the foundation block a rests on buffers d. In addition, lateral buffers h, which are supported against abutments i, are provided to absorb the impacts caused by the parts moving back and forth. In order to finally destroy any transferred joints, a row of piles of the deep pile foundation c is inclined in one direction and the adjacent row of piles in the opposite direction. Pressed concrete piles are expediently used here, because they are inseparably pressed into the subsoil under high pressure while at the same time extensive cementation of all the subsoil layers that have been drilled through. As a result of this firm connection with the ground, the pile acts not only as a compression pile, but also as a tension pile.

Fig. 7 shows a side view of a semi-cylindrical Irish formation of the Base plate b, 'which is also semi-cylindrical on the underside adjusts upper foundation block a. Radially directed buffers are located between the two parts k.

Any number of the facing buffers can be combined into a printing system as illustrated in FIG. Here the buffers k are connected to an air tank o by pipelines m and n. Under certain circumstances, in the case of the subdivided and mutually cushioned foundations, one can refrain from arranging a deep foundation, a pile grid and the like and simply place the base plate b on the subsoil consisting of sand, gravel or the like. In this case, it is sufficient to cut out a number of press-in holes in the base plate b from the start, through which cement mortar can be pressed in after the base plate b is fully loaded by the upper foundation block a and the engine, in order to fill the cavities remaining under the base plate b . In addition, sags and subsidence of the foundation plate that have occurred in one direction or the other are compensated for by adjusting the buffers located between the base plate b and the foundation block a. The previously customary dimensioning of the size and weight of the foundation body, according to which the latter should be one and a half times to a multiple of the machine weight, is also retained in the new, subdivided foundation construction for the upper foundation body. The foundation body a can be formed with inner chambers that can be used to save on expensive masonry or concrete with any materials, such. B. gravel, sand, stone and the like can be filled. This design of the foundation block offers the possibility of reducing or increasing the total weight of the foundation body at a later date, depending on the requirements, and of placing less or more stress on individual foundation locations.

Claims (4)

PATENT CLAIMS: i. Foundation for large power machines, characterized in that that the foundation consists of an upper heavy block (a) and one of this block (a) supporting, separate baseplate (b); between which. buffer ('d) are arranged. 2. Foundation according to claim i, characterized in that the buffers (d) are adjustable so that .the position of the upper foundation block (a) can be regulated. 3. Foundation according to claim x or 2, characterized in that that the buffers, individually or in groups, automatically react to each pressure exerted or stop shock and prevent its transmission. 4. Foundation according to, claim =, 2 or 3, characterized in that the buffer not only in vertical; but are also arranged in a horizontal or inclined direction in order to be able to absorb impacts occurring in any direction B. is made of iron clay with chambers that are filled with any material to a controllable extent. BERLIN G $ DRIJCKT IN UR R $ ICItSbRtJCKKItgI.