RO112433B1 - Resistance structures vibrations reducing process and device - Google Patents

Abstract

This invention relates to a method and a diminution device of the strength structures vibrations caused by the seismic movements or high winds. The invention may be applied to all buildings made of frame or reinforced concrete diaphragm, of metal and stiff reinforcement concrete, such as: living building, industrial buildings, nuclear plants, bridges, offshore drilling platforms, chimneys, television towers, water towers etc. The method comprises a calculation stage of the deformations and efforts state of the strength structure and evaluates the own frequencies and periods. The vibrations diminution devices number is evaluated to each level take account the floor surface and weight. The suspended metal bodies overall weight must represent 0.25 percent of floor weight and suspended bodies own frequency has to be equal to the first own strength structure frequency. The deformations and efforts state will be evaluated again. By iterative calculations it dimensions again the suspended bodies which will be placed on horizontal strength elements. The suspended bodies will be placed on the horizontal strength elements. The diminution device comprises a case (6) and a gravitational pendulum made of a metal body (4) that is suspended to the case (6) by a rod (5). An elastic assembly (B) is fixed on the metal body (4) and presses on the inner surface of case (6).

Description

The invention relates to a method and a device for reducing the vibrations of the resistance structures, caused by the seismic movements or the gusts of strong winds.

The invention can be applied to all constructions of reinforced concrete, metal or concrete reinforced concrete frames or diaphragms such as: residential buildings regardless of the number of levels, industrial buildings, nuclear power plants, bridges, marine drilling rigs, drilling rigs. drilling and extraction, water towers, towers and radio and television antennas, chimneys, cooling towers, etc. In the case of using the invention in existing constructions, a significant diminution of the destructive effects caused by the seismic movements and strong winds is obtained, and in the case of new constructions the application of the invention ensures the reduction of the dimensions of the elements of resistance and the increase of the operational safety.

For the purpose of the anti-seismic protection of existing constructions, a process of vibration reduction is known by isolating the base of the structure in such a way that it is possible to move the structure relatively easily to the foundation.

The process consists of a preparation phase for the execution of a framework of reinforced concrete, by clearing the existing foundations on an appropriate depth. Then the existing foundations are prepared for working with the structure of the support frame, after which some plates for attaching anti-seismic isolation devices are introduced. Next, the reinforced concrete support frame is poured, capable of ensuring the non-deformability of the superstructure, after which some isolated foundations are made, according to a predetermined stage and the installation of provisional supporting elements of the construction, for example, pneumatic cylinders. Above the isolated foundations, a new foundation is created in which there are places where the anti-seismic isolation devices are mounted; Finally, there is a lateral closure of the construction on the underground area, with the preservation of a buffer space (RO patent no. 95152).

This process has a considerable volume of labor as a disadvantage and therefore a high cost as well as a long execution time.

In order to reduce the vibrations of the resistance structures caused by the seismic movements or the gusts of the strong winds, a device made of movable supports is known, in the form of pendulums mounted between the structure and its foundation, to allow an independent horizontal movement of the structure.

The structure is coupled to the foundation with a fuse made of a horizontal shear bar, which limits the relative displacements. On the opposite side of the safety, the structure is supported laterally, by means of a reinforced rubber support, on an energy absorber made from a sand bunker that works by rubbing the foundation sand (RO patent no. 80391).

This device has the disadvantage that it cannot be used in existing constructions and, on the other hand, the use in new constructions has the disadvantage that the elastic materials used lose their characteristics due to the repeated dynamic demands they have been subjected to and, in time, the efficiency of the device drops sharply.

The technical problem that the invention solves is to modify the dynamic characteristics of the resistance structure by dividing the contributions of the vibration modes to the final efforts.

The process of reducing the vibrations of the structures of resistance, according to the invention, consists in the fact that an additional, theoretical loading of each level with a certain number of suspended metal bodies, in the form of gravitational unorpenduli, is recalculated, recalculating the new state of efforts and deformations and establishing the layout of the suspended bodies on each level, as well as the dimensions of the suspended bodies and, finally, on each part of the existing or new resistance structure, on the horizon resistance elements

EN 112433 In the vicinity of the vertical resistance elements, the set number of suspended metal bodies, placed in the housing of vibration reduction devices, is located, the metal bodies having their own frequency equal to the first own frequency of the resistance structure and a weight of 40 ... 50 kg, the total weight of the metal bodies on a level representing about 0.25% of the weight of the respective floor, on which the vibration reduction devices are distributed evenly and on which, their carcasses are fixed with dowels and bolts or bolts that penetrate into holes made in the horizontal resistance elements, so that when the first vibrations occur, the suspended metal bodies of the vibration reduction devices begin to oscillate inside the carcasses, consuming some of the energy induced by dynamic demands, mainly horizontal.

The device for applying the process of vibration reduction, according to the invention, is composed of a metal body suspended by a rod which is recessed with one end in the metal body and the opposite end in a rigidly assembled housing with a sole provided with holes. fastening on an element of the resistance structure, on the outside of the metallic body being introduced and fixed with some screws an elastic, damping assembly, made up of a collar on which are inserted some elastic elements in the form of circle arcs, arranged in a plane perpendicular to the axis of the metal body, in one embodiment, the elastic rings can be fixed on the collar which, as well as the elastic elements, are pre-tensioned for mounting and rest on the inner surface of the housing.

By applying the invention, the following advantages are obtained:

- the use, both for existing constructions and for new constructions, of different types of construction and with different destinations;

- reducing by 25 ... 50% the state of stresses and deformations of the structures of resistance subjected to vibrations;

- the substantial reduction of the loads acting on the foundations, which do not require any type of vibration protection measures;

- no maintenance is required, as vibration reduction devices have a high reliability;

achieving significant material savings and, implicitly, reducing the cost of new resistance structures;

- the reduction of about 5 ... 6 times the cost of consolidating the existing constructions and about 10 ... 15 times the duration of the execution;

- does not require the evacuation of persons, furniture and various machines, in case of applying the invention to existing constructions.

An example of embodiment of the invention is given below, in connection with FIG. 1 ... 4, which represents:

FIG. 1, plan view of a resistance structure on which a plurality of vibration reduction devices A have been placed;

FIG. 2, vertical section through a vibration reduction device A, mounted on a resistance element;

FIG. 3, a horizontal section according to the plane I -1 through the device A of vibration reduction in fig. 2;

FIG. 4, a horizontal section according to the plane I -1 through the device A of vibration reduction in fig. 2, in an embodiment.

The process of reducing the vibrations of the resistance structures, according to the invention, applied in the case of existing constructions, consists of a first calculation step in which, based on the documentation, when it exists, or on the basis of the reliefs specially designed for this purpose, the state of stresses and deformations of the structure of resistance of the existing construction, highlighting their periods and frequencies, calculations that are performed based on usual relationships and principles, known in themselves.

Based on the level weight and the related surface, the number of pendulum type metal bodies is determined, which are to be placed on the resistance elements of the respective level. These metal bodies are materialized below

The form of vibration reduction devices A whose construction will be presented later is also the object of the invention. The suspended metal body of the vibration reduction devices A is defined by its weight and the length of the element. suspension, sizes that are determined by imposing the condition that the proper frequency of a metal body is equal to the first own frequency of the resistance structure. The number of metal bodies, respectively the number of vibration reduction devices A, is determined so that the total weight of the metal bodies represents 0.25% of the weight of the floor, according to the relation:

nxG _c = O, 25 / 1OOxG _p m which:

- n represents the number of vibration reduction devices A;

- G _p is the weight of the floor;

- G _c represents the weight of a suspended metal body. For technological reasons it is recommended G _c = 40 .. .50kg.

In a concrete example of an existing housing block, of which some level is illustrated in FIG. 1, considering that the floor 1 has an area of 340 m ² and a weight G _p = 340 t, applying the above relation we obtain:

n = 0.25 / 100x 340 / 0.05 = 17.

Next, on the level of the respective level, the "n" devices A of vibration reduction are arranged, as close to the vertical elements of resistance, respectively near the diaphragms 2.

Based on the plans of the respective levels, on which additional loads were represented by the suspended metal bodies, having their own frequency equal to the first own frequency of the resistance structure, the state of stresses and deformations of the resistance structure is recalculated, resulting in a theoretical reduction of about 25%.

By interactive calculations, the devices A of vibration reduction are resized, by modifying the own frequency of the suspended metal body, so that by recalculating the state of theoretical stresses and deformations, they are reduced by about 45 ... 50%.

This reduction is due to the fact that, when the first vibrations occur, the suspended metal bodies of the vibration reduction devices A begin to oscillate, consuming some of the energy induced by the dynamic demands, mainly horizontal.

After the completion of the second calculation step, the physical execution of the vibration reduction devices A will be positioned and then fixed on the horizontal, floor and beam resistance elements, according to the established location, at each level of resistance structure. The fixing of device A to reduce vibrations on floors or beams is done by means of fasteners 3, known in themselves, for example bolts, dowels and screws, etc. which penetrate into well-drilled holes in floors or beams.

in the case of new constructions, after performing the second calculation step, which theoretically reduces the stress and deformation state by 45 ... 50%, the resistance elements from the initial project are recalculated, to the stressed and deformed stress state, correspondingly reducing the dimensions and weights of the elements of the resistance structure.

After the effective completion of the structure of resistance, according to the project, the devices A of vibration reduction according to the same criteria mentioned in the case of the existing constructions are executed and installed at each level.

In both situations, when desired, vibration reduction devices A can be masked with some pieces of furniture or can be integrated into the furniture structure.

The vibration reduction device A according to the invention, as shown in FIG. 2 and 3, is composed of a metal body 4, preferably cylindrical in shape, made of steel or cast iron and suspended by a rod 5 of a housing 6, also closed cylindrical in shape, coaxial with the metal body 4. Rod 5 is

RO 112433 Bl made of a metal with elastic properties, for example of arc wire and is integral with both the housing 6 and the metal body 4, with the help of screws 7, so that the pendulum formed by the metal body 4 and the rod 5 it can oscillate vertically and twist in relation to the fixed housing 6.

On the outside of the metal body 4 is fixed by means of screws 7, an elastic assembly B, with the role of limiting and damping the oscillations of the metal body 4 inside the housing 6. The elastic assembly B consists of a collar 8, cylindrical in shape, in which, at equal distances, the ends of elastic elements 9, preferably made of wire or spring band, are recessed.

As shown in FIG. 3, the elastic elements 9 have the form of circle arcs, arranged in the same horizontal plane, perpendicular to the axis of the metal body 4 and oriented in the same direction.

In one embodiment, illustrated in FIG. 4, the elastic assembly B is formed by the collar 8 which, by known fastening means, for example by means of rivets 10, are fixed elastic rings 11, partially superposed so that they can deform, without interfering with each other.

The size of the radius of the elastic element 9 or of the elastic rings 11 is chosen so that when inserting the collar 8 with the elastic elements 9 or 11, inside the housing 6, there is a slight pretensioning in the radial direction of the elastic elements 9 or 11. The ends free of the elastic elements 9 rests on the inner surface of the housing 6, and in the case of the variant with the elastic rings 11, they are compressed radially and are placed tangentially to the cylindrical surface of the housing 6.

At the bottom, the housing 6 closes with a sole 12, which is fixed rigidly, for example by welding areas a. The sole 12 is provided with some bores b, through which the fastening elements 3 are inserted which ensures the solidarity of the whole. device A of vibration reduction, with the element of resistance for example with the floor 1, of the structure, in which some holes were executed c.

Claims (2)

claims 1. Process for reducing the vibrations of the resistance structures, which includes a stage in which the state of stresses and deformations of the resistance structure, existing or in the project phase, without vibration protection measures is calculated, and the frequencies are highlighted; own periods, characterized by the fact that it provides for an additional, theoretical loading of each level with a certain number of suspended metal bodies, in the form of gravitational pendulums, recalculating the new state of stresses and deformations and establishing the location scheme of of the suspended bodies on each level, as well as the dimensions of the suspended bodies and, finally, on each part of the existing or new resistance structure, on the horizontal resistance elements, near the vertical resistance elements, the set number of suspended metal bodies is located , introduced in some cases, the meta bodies high schools having their own frequency equal to the first own frequency of the resistance structure and a weight of 40 ... 50 kg, the total weight of the metal bodies on a level representing about 0.25% of the weight of the respective floor, on which the metal bodies are distributed uniformly and whose enclosures are fixed in holes made in the horizontal elements of resistance, so that when the first vibrations occur, the suspended metal bodies begin to oscillate inside the enclosures, consuming some of the energy induced by the dynamic, predominant demands. horizontal. Device for applying the process of claim 1, characterized in that it is made of a metal body (4) suspended by a rod (5). EN 112433 Bl which is recessed with one end in the metal body (4) and with the opposite end in a housing (6), rigidly assembled with a sole (12) provided with some holes (b) on an element of the frame structure. resistor 5, on the outside of the metal body (4) being introduced and fastened with some screws (7) an elastic assembly (B), shock absorber, made of a collar (8) on which elastic elements (9) are recessed. the shape of circle arcs, arranged in a plane perpendicular to the axis of the metal body (4), in a variant, on the collar (8), elastic rings (11) which, like the elastic elements (9), can be fixed they are pre-tensioned for mounting and rest on the inner surface of the housing (6).