RU2537207C1 - Device for compensation of nonplanarity of working equipment supports - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device for compensation of non-planarity of equipment supports contains a base element intended for installation on the foundation, and placed on the flat surface of the base element the package comprising, at least, three plates, the first and the second towards the direction from the base element of the plate have adjacent to each other surfaces slant with reference to the flat surface of the base element with formation of elevating pair, the second and the third plate have adjacent concave and convex surfaces with formation of articulated pair, meanwhile each plate and base element have holes for arranging of the fixing element.

EFFECT: decrease of vibration level, exclusion of possibility of displacement of axes of units, increase of perceived loads due to increase of the contact area, exception of the process of external deformation, expansion of the scope of application of such devices to heavy, dynamically more loaded engines and improvement of reliability of the unit operation.

3 cl, 2 dwg

Description

The invention relates to the field of compressor engineering and pump engineering, and in particular to auxiliary devices for reducing vibration activity.

It is known that when vibro-debugging compressor and pump units, the problem of unevenly adhering the paws of an electric motor or other rotary machine to frames or foundations (hereinafter referred to as the “soft paw”) very often arises. Due to the lack of reliable contact of at least one of the paws with the frame, a skew of the motor housing occurs, which in turn leads to a violation of the alignment of the stator, rotor and bearings. Such a violation, as a rule, is accompanied by increased vibration of the electric motor, which ultimately leads to a deterioration in its operational characteristics (see, for example, A. R. Shirman, A. A. Soloviev, “Practical vibration diagnostics and monitoring of the state of mechanical equipment”, Moscow, 1996, chapters 6-7).

One of the effective ways to eliminate this problem is the mechanical milling of the supporting surfaces of the legs of the electric motor and the frame. To carry out this technological operation, special machining equipment is required that only specialized enterprises have (especially when it comes to powerful, large-sized plants). As a rule, operating enterprises, without such equipment, resort to more affordable, but not always effective ways to eliminate non-flatness. The essence of this method is to install a package of different thickness gaskets between the legs of the electric motor and the frame. This method, along with its simplicity, has a number of significant disadvantages.

One of the main disadvantages of the above method is the presence of a package of plates, the number of which cannot be more than 3-4 pcs. under one support. Otherwise, the stiffness of the package is reduced and the “soft foot” effect is not eliminated. As a rule, in this case, individual wedge-shaped polished plates are used that compensate for the height and non-flatness of the paws. In this case, not every operating organization has the ability to quickly produce wedge-shaped plates.

The objective of the invention is to get rid of the above problems with the help of a device that automatically compensates for the non-flatness of the paws of the electric motor (or other device with a rotating rotor) and at the same time accurately installs the engine in a vertical plane.

The prior art did not find a device with which to solve this problem.

The technical result of the invention is to eliminate the possibility of displacement of the axes of the units, increase the perceived load by increasing the contact area, reduce the level of vibration, eliminate the hugging process, expand the scope of these devices on heavy, dynamically more loaded engines and increase the reliability of the node.

The technical result of the invention is achieved due to the fact that the device for compensating for the non-flatness of the equipment supports contains a base element intended for installation on the base, and a packet of at least three plates placed on a flat surface of the base element, the first and second in the direction from the base element of the plate have inclined surfaces adjacent to each other with respect to the flat surface of the base element with the formation of a lifting pair, the second and third plates have adjacent concave fifth and a convex surface to form a pair of hinge, each plate and the base member have openings for placement of the locking element.

In addition, on the base element, adjustment elements acting on one of the plates of the lifting pair can be installed on opposite sides of the package of plates.

In addition, the locking element can be made in the form of a bolt, the cap of which has a hemispherical shape from the side of the rod and rests on the washer with the formation of a hinge.

The invention is illustrated in the drawing, in Fig.1 which shows the proposed device, an axial section; figure 2 shows the same, a top view.

A device for compensating for non-flatness of equipment supports (for example, paws of an electric motor, compressor, or other working equipment) contains a base element 1 intended for installation on a base 2, which is a frame or foundation (or other flat supporting surface for installing supports of working equipment on it. element 1 is made in the form of an open box-shaped container having side walls 3, while in one of the opposite walls 3 threaded holes 4 are formed (holes 4 may also be made unthreaded.) On the flat surface of the base member 1 is placed package of at least three lying on each other plates, each having opposed surfaces formed definite shape.

The first plate 5, in the direction from the base element 1, has a flat surface — a base that abuts the flat surface of the base element 1, and an inclined surface with respect to the flat surface of the base element 1. The plate 5 is located in the base element 1 with horizontal movement the plane. Thus, between one ends of the plate 5 and the inner surfaces of one pair of walls 3 (with holes 4), a cavity 6 is formed to accommodate the rods of the adjusting elements 7 installed in the threaded holes 4. The plate 5 is a wedge element in the form of an intermediate strip of solid material, driven by adjusting elements 7, made, for example, in the form of screws (bolts) with a lock nut 8.

The inclined surface of the plate 5 is a supporting surface for the second in the direction from the base element 1 of the plate 9 (lifting element). The plate 9 has a reciprocal inclined surface with the same angle of inclination adjacent to the inclined surface of the plate 5, and the opposite surface of a concave (or convex) shape (hemispherical recess). The plate 9 has at one end in the area of the adjustment element 7 a recess 10 for the free passage of the element 7. The plates 5 and 9 form a lifting pair (lifting mechanism), providing movement (adjustment) in a vertical plane.

The concave (convex) surface of the plate 9 is a supporting surface for the plate 11 (compensation element). The plate 11 has a reciprocal convex (concave) surface (hemispherical protrusion) adjacent to the concave (convex) surface of the plate 9, and an opposite flat surface, which is the supporting surface (base) for the support 12 of the motor (or other equipment) parallel in the initial state of the plane base 2 (flat surface of the base element 1). The plates 9 and 11 form a hinge pair that provides compensation for the deviation (displacement) of the equipment supports 12 from a given flat (horizontal) position without significant damage to the coaxial position of the electric motor and compressor (pump). The plate 11 has a predominantly disk shape, due to which a uniform compensation shift of the equipment supports 12 in any direction is achieved when the extreme position (maximum deviation of the working equipment support from the plane) is reached.

The base element 1 and each plate 5, 9, 11 have an opening 13 for accommodating the fixing element 14, made, for example, in the form of a bolt (pre-bolt), the cap 15 of which has a hemispherical shape on the side of the support 12 (lower part of the cap 15), which rests on the washer 16, the hole of which has a chamfer of the reciprocal form.

The hole 13 of the plate 5 has an oblong shape and restricts the movement of the plate 5 in the horizontal plane. The holes 13 of the plates 9 and 11 have a predominantly equal diameter. The locking element 14 threaded part is screwed into the threaded hole of the frame 2 (base).

To adjust the position of the motor supports 12 relative to the frame, a wedge element is used, which, thanks to its larger area, is able to absorb more powerful dynamic loads and eliminate the rumpled process. This allows you to expand the scope of these devices on heavy, dynamically more loaded engines and increase the reliability of the site.

Claims (3)

1. A device for compensating for the non-flatness of equipment supports, comprising a base element for mounting on a base and a pack of at least three plates placed on a flat surface of the base element, the first and second plates adjacent to each other inclined surfaces with respect to the flat surface of the base element with the formation of a lifting pair, the second and third plates have adjacent concave and convex surfaces with the formation of a hinged pair, with that each plate element and the base have an opening to accommodate the clamp member. 2. The device according to claim 1, characterized in that on the base element mounted on opposite sides of the package of plates adjusting elements that act on one of the plates of the lifting pair. 3. The device according to claim 1, characterized in that the fixing element is made in the form of a bolt, the cap of which has a hemispherical shape from the side of the rod and rests on the washer with the formation of a hinge.

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