RU2706508C1 - Device for compensation of nonflatness of support surfaces of units - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device comprises a base element connected to the base frame and a stack of three disk-like elements arranged one above the other. Package is connected to the equipment support. Each disc-shaped element has a hole for fastening element in it. Matched upper and middle elements of package have adjacent concave and convex surfaces with formation of hinged pair. Base element is made in the form of a disk with a collar in the form of an "Archimedean spiral" on its upper end. Lower element of the packet conjugated to it is made composite from several sectors having grooves for installation in them with a possibility of the basic element shoulder moving. Upper surface of each sector of lower element is inclined towards fastening element with radial key pressed in its center. Lower surface of the middle element of the packet conjugated with sectors is made with inclined faces. Inclination of the faces corresponds to the angle of inclination of the upper surface of the sectors, as well as to radial slots for installation of sectors with the possibility of movement in them.

EFFECT: enabling device adjustment along height in required range and providing reliable fixation of support in horizontal direction.

4 cl, 8 dwg

Description

The invention relates to the field of general engineering, namely to auxiliary devices for reducing the vibration activity of compressor and pumping industrial units with rotating rotors and can be used as devices to compensate for the non-flatness of the supports of the foundations of frames and supporting surfaces of industrial units.

It is known that the uneven fit of the bearings of compressor and pump units (hereinafter referred to as units) to the supporting surfaces of the frame or foundation causes the unit to become misaligned and often leads to an unstable mode of operation. Such a violation, as a rule, is accompanied by increased vibration of the unit, which ultimately leads to a decrease in its operational characteristics.

A device is known for compensating for the non-flatness of the supports of working equipment, comprising a base element for mounting on a base and a packet of at least three plates placed on a flat surface of the base element, of which the first and second in the direction from the base element are adjacent to each other other inclined surfaces with respect to the flat surface of the base element with the formation of a lifting pair, and the second and third plates have adjacent concave and convex surfaces with the formation articulated pair, with each plate and the base element have holes for accommodating the locking element. (RF patent No. 2537207, publ. 12/27/2014)

The known device can reduce the level of vibration of the working equipment, increase the level of perceived load, by increasing the contact area.

However, the known device has the following disadvantages:

- the first plate in the direction of the base element is a wedge element in the form of an intermediate strip of solid material, driven by adjusting elements in the form of screws (bolts). Such a device, as a means of adjusting the device in height, is possible only for small tilt angles of the wedge plate due to the fact that an increase in the tilt angle leads to an increase in the load - the lateral component of the vertical load acting from the equipment on the support, leading, in turn, to increased contact stresses at the contact points of the regulating element with the wedge plate and in the threaded bolt joints. This can lead to deformation and the appearance of gaps in the joints, which is unacceptable. Also, the use in the device of a wedge plate with small angles of inclination does not provide the necessary movement of the working equipment in height (for example, the use of a plate with an angle of inclination of 1 ° ensures, when it is moved 10 mm horizontally, the device is raised or lowered by only 1.6 mm);

- prevention of displacement of equipment in the horizontal direction is carried out only due to friction between the equipment support and the upper part of the package, which makes it impossible to use it in structures that require reliable fixation of equipment from the effects of horizontal loads.

The problem to which the claimed invention is directed, is to ensure the device is adjusted in height in the required range and to ensure reliable fixation of the support in the horizontal direction.

The technical result is achieved by the fact that in the device for compensating for the flatness of the supporting surfaces of the units, comprising a base element connected to the base frame and placed on it and connected to the equipment support, a package of three disk-shaped elements installed one above the other, each of which is made with an opening for placement in a fastening element, the upper and middle elements of the package mating with each other having adjacent concave and convex surfaces to form a hinge pair, b the retaining element is made in the form of a disk with a shoulder in the form of an “Archimedean spiral” at its upper end, and the lower element of the package mating with it is made up of several sectors having grooves for installation in them with the possibility of moving the collar of the base element, the upper surface of each sector the lower element is made inclined towards the fastening element with a radially oriented key pressed in its center, while the lower surface of the middle element of the package mating with sectors is made with inclination face edges corresponding to the angle of inclination of the upper surface of the sectors, as well as with radially spaced grooves for installation in them with the possibility of moving the keys of the sectors.

In addition, the fastening element is made in the form of a stud with nuts screwed on its ends, resting on the supports of the equipment and the foundation frame through spherical washers, the base element and at least one of the sectors of the lower element of the package are made with grooves or holes for installing the tool that implements them a turn around the axis of the fastener, and at the junction of the base element with the lower element of the package, a hole is made for installing the fixing pin, and the upper element of the package is made with a centering collar m, placed in reciprocal recess equipment support, wherein the base member is connected to the baseplate by means of flange formed on its circumference and fixed on the frame by pins.

The implementation of the lower element of the package composite consisting of sectors with an inclination towards the locking element, connected to the base element in an “Archimedean spiral” with the possibility of movement relative to each other, allows the angle of inclination of the upper surface of the sector to 15 °, which provides a sufficient amount of height adjustment for slight movement of sectors in the horizontal plane. In this case, the increased lateral component force from the vertical load on the support is perceived by the developed surface of the spiral-shaped collar of the base element. Thus, the proposed device can be made compact enough.

Reliable fixation of the support device in the horizontal direction under the action of horizontal load is provided in all connections of the device: the joint of the equipment support with the top element of the package - a centering collar that enters the undercut of the equipment support; the joint of the upper and middle elements of the package - spherical mating surfaces of the parts; the joint of the middle and lower elements of the package - inclined mating surfaces; the joint of the lower and base elements - with spiral collars of the base element, which mesh with the troughs of the sectors of the lower element, the joint of the base element with the foundation support - pins connecting the flanging of the base element with the foundation support.

The device is clarified graphically, where:

- in FIG. 1 shows the proposed device assembly with equipment supports and a foundation frame, sectional side view

- in FIG. 2 shows a section aa of FIG. 1;

- in FIG. 3 shows a view B of FIG. one;

- in FIG. 4 shows the components of the proposed device in a disassembled form, with partial sections in an axonometric image;

- in FIG. 5 shows a view In FIG. 4;

- FIG. 6 shows a view D of FIG. 4;

- in FIG. 7 shows an enlarged extension element D of FIG. one;

- in FIG. 8 shows an enlarged extension element E of FIG. one.

The proposed device for compensating for the non-flatness of the supporting surfaces of the units contains a base element 1 and a package mounted thereon of disc-shaped elements 2, 3, 4 mounted on top of one another, connected to the equipment supports 5 and the base frame 6 by a fastening element 7 (hairpin) passing through the central the holes of the elements 1, 2, 3, 4. The upper element 4 with its upper end mates with the support 5 of the equipment, and its lower end is made in the form of a convex spherical surface, mating with the mating concave in the top of the lower element 3. The base element 1 is made in the form of a disk with a shoulder 8 at the upper end in the form of an “Archimedean spiral”. The lower element 2 of the package is made up of three sectors 9, evenly spaced around the fastening element 7 (Fig. 4), each of which, with its lower end, rests on the upper end of the base element 1, while the collar 8 of the base element enters the mating groove 10 (Fig. 6 ) formed at the end of each sector 9 with the possibility of movement. The upper end of each sector is made with an inclination towards the fastening element 7 (Fig. 4) with a radially oriented groove 11 in its center with a key 12 pressed into it (Fig. 3). The lower end of the middle element 3 of the package mates with the corresponding inclined planes of sectors 9 and is made in the form of a trihedral pyramid with its vertex facing downward, and the angle of inclination of each face 13 (Fig. 5) of the lower end of element 3 corresponds to the angle of inclination of each sector 9 of element 2. In the center each face 13 is formed by a radially located groove 14, which includes a key 12 of the corresponding sector 9 of the element 2 with the possibility of movement.

On the outer surfaces of the base element 1 and at least one of the sectors 9, holes (or grooves) 14, 15 (Fig. 1) are made for installing a tool that rotates around the axis of the fastening element 7, and fixing their relative position is provided by a pin 16, installed in the hole made at the junction of elements 1 and 2.

The fastening element 7 connecting the equipment support 5, the base element 1 and the package of elements 2, 3, 4 with the support of the base frame 6 is made in the form of a stud 7 with nuts 17 screwed on its ends, resting on the supports of the equipment 5 and the base frame 6 through spherical washers (not shown).

A centering collar 18 (Fig. 7) is formed on the upper element 4 of the package, which is included in the reciprocal recess of the equipment support 5, and on the base element 1 of the package, a flange 19 is formed along its perimeter (Fig. 8) adjacent to the support of the base frame 6 and secured with pins 20 in at least two places.

The operation of the proposed device is as follows.

Equipment supports are exposed on squeezing bolts. Between the frame supports and equipment supports, along the axis of the holes of the supports, a base element 1 and a package of elements 2, 3, 4 are installed to compensate for the mismatch of the supporting surfaces. A fastener 7 with nuts 17 is installed through the holes of the supports and packages of the device. Using the device installed in the grooves (or holes) 14 of the base element 1 and the device installed in the grooves (or holes) 15 (Fig. 1) of the sectors of the lower element 2 of the package , they are rotated along the axis of the hole in different directions relative to each other until the upper part of the package 4 abuts against the lower end of the equipment support. In the installed operating position of the device package, the relative position of the lower element 2 of the package and the base element 1 is fixed by a pin 16 at their junction. After which the final clamping of the nuts 17 of the fastener 7 is made.

The invention allows to compensate for the mismatch of the mutual surfaces of the equipment and the base frame in height and mutual skew.

Claims (4)

1. A device for compensating for the non-flatness of the support surfaces of the units, comprising a base element connected to the base frame and placed on it and connected to the equipment support, a package of three disc-shaped elements mounted one above the other, each of which is made with an opening for receiving a fastening element in it, mating with each other, the upper and middle elements of the package have adjacent concave and convex surfaces with the formation of a hinge pair, characterized in that the base element is made n in the form of a disk with a shoulder in the form of an “Archimedean spiral” at its upper end, and the lower element of the package mating with it is made up of several sectors having grooves for installation in them with the possibility of moving the shoulder of the base element, the upper surface of each sector of the lower element made inclined towards the fastener with a centered radially oriented key pressed in its center, while the sectors of the lower surface of the middle element of the package mating with sectors are made with inclined faces, respectively favoring angle sectors top surface, and also with radially arranged grooves for installation therein, with sectors shifts dowels. 2. The device according to claim 1, characterized in that the fastening element is made in the form of a stud with nuts screwed on its ends, resting on the supports of the equipment and the base frame through spherical washers. 3. The device according to p. 1 or 2, characterized in that the base element and at least one of the sectors of the lower element of the package is made with grooves or holes for installing a tool that rotates around the axis of the fastener, while at the junction of the base element with the lower element of the package made a hole for installing the locking pin. 4. The device according to p. 1 or 2, characterized in that the upper element of the package is made with a centering collar located in the reciprocal groove of the equipment support, while the base element is connected to the foundation frame by means of a flange made around its perimeter and fixed with pins on the frame.

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