SU953109A1 - Vibration-insulating foundation under plant - Google Patents

Description

The invention relates to foundation construction, in particular to foundations for vibrating process equipment. The vibroisolated foundation under the Equipment is known, which includes the upper structure of the base plate and the cylinder located between them, behind the pollen liquid working medium, in which pistons are placed with rods connected to the upper structure while springs are installed between each cylinder and the upper structure, and the piston made hollow and placed in a cylinder with a gap relative to its walls II. A disadvantage of this device is the complexity of its design and the inconvenience of operation associated with the use of hydraulics. The closest to the invention to the technical essence is the foundation, which includes upper and lower base plates, made with spherical recesses, and intermediate elements in the shape of a ball in each of the recesses, having a ball shape, the radius of which is less than the width of the spherical recesses 2. I is that it provides damping only horizontally. dynamic forces, while in most cases the need arises for the vibration isolation of the foundation from the effects of differently directed oscillations, including the vertically directed dynamic forces. The purpose of the invention is to provide suppression of multidirectional vibrations. The goal is achieved by the fact that a vibroisolated foundation, including a base made of upper and lower plates, having spherical recesses on facing surfaces and installed in recesses between the ball-bearing plates, is provided with an additional plate having conical recesses on the lower surface. , and shock-absorbing elements, each of which is made in the form of at least two balls and an elastic element placed between them, interacting with a ball through centering washers, moreover The electric plate is mounted on the top plate by means of guide elements with the possibility of vertical movement relative to it, and the balls of shock-absorbing elements are located between the conical surfaces of the recesses of the additional plate and the top plate, with this kg "layer guiding element can ( the bottom surface, an additional slab of a vertical pin, inserted from the gap into a vertical channel, made in the upper plate of the base. The drawing shows the foundation, cross section. The foundation consists of a base 1 which is made from the top plate 2 and the bottom plate 3, between which spherical recesses 4 are placed ball bearings 5. On the top plate 2 an additional plate 6 is made, made with conical recesses 7, in each of which is placed a shock-absorbing an element 8 consisting of balls 9 interacting with the side walls of the recesses 7 and interconnected by means of centering washers 10 and elastic elements 11. An additional plate 6 is connected with an upper plate 2 adjacent to it Ntami, made in the form of vertical pins 12, attached to the additional plate 6, and interacting with the walls of the channels 13, made in the upper plate 2. Additional plate 6 is connected with the vibroisolating object 14. During operation, the vibration-insulated volume 14 creates a vibration perceived by the additional plate b. The dynamic amplification component is transmitted by the surface of the conical recesses 7 and the balls 9 through the centering washers 10 to the elastic elements 11, which absorb this component of dynamic forces. The horizontal component of the dynamic force is eaten by the upper plate 2 through the vertical pins 1Z of the additional plate 6 and the channels 13 of the upper plate 2. By acting on this, the upper plate 2 together with the plate 6 and the object 14 oscillate in a horizontal plane relative to the plate 3. . Since the connection of plates 2 and 3 is made through intermediate ball bearings 5 placed in the spherical depressions 4 of these plates, this system has a certain frequency of natural oscillations. If the frequency of natural oscillations of the system does not coincide with the frequency of oscillations transmitted from the object 14, the latter and the vibration insulation of the base on which the plate 3 is installed are damped from vibration are caused by the operation of the object 14. The effect of applying the proposed foundation is expressed in that can be widely used for mounting vibrating machines, creating multidirectional dynamic forces on the ground, while reducing its cost and simplifying the design compared with the known vibration isolators bathroom foundations. 1. Vibronzolirovanny basement for equipment, including the base, made of upper and lower plates, having spherical depressions on facing surfaces and installed spherical plates in ball pits, characterized by the fact that, in order to ensure damping of oppositely directed vibrations it is equipped with an additional plate having conical depressions on the lower surface, and shock-absorbing elements, each of which are made in the form of at least two balls and placed between them an elastic element interacting with the balls through the centering washers, the additional plate being mounted on the upper plate by means of guide elements with the possibility of vertical movement relative to it, and the balls of the shock-absorbing elements are located between the conical surfaces of the recesses, the additional plate and the upper plate. 2. The foundation of claim 1, of which is that each guide element is designed in the form of a vertical pin attached to the bottom surface of an additional plate, wound up with a gap in the vertical channel made in the top plate of the base. Sources of information taken into account during the examination 1. USSR author's certificate No. 652277, cl. E 02 D 27/44, 1974. 2. USSR author's certificate No. 594248, cl. E 02 D 27/34, 1976.

Claims (2)

Claim 2θ. 1. A vibration-insulated foundation for equipment, including a base made of upper and lower plates, having spherical tanning surfaces facing each other and installed in the recesses between the plates of the ball bearings, characterized in that, in order to suppress multidirectional vibrations, it is equipped with an additional plate having conical recesses on the lower surface, and shock-absorbing elements, each of which is made in the form of at least two balls and an elastic element placed between them ententa interacting with the balls through the ’centering washers, the additional plate being mounted on the upper plate by means of guide elements with the possibility of vertical movement relative to it, and the balls of shock absorbing elements are located between the conical surfaces of the recesses of the additional plate and the upper plate. 2. foundation on π. 1, with the fact that each guide element is made in the form of a vertical ι pin fixed on the lower surface of the additional plate, inserted with a gap into the vertical channel, made in the upper base plate.