RU2462619C1 - Compressor device of unit design - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: in a compressor device of unit design, comprising a driven engine and a compressor mounted on a support intended for installation on a foundation, according to the invention, the support is arranged in the form of a cylindrical shell or a spatial truss with flanges at the ends joined with appropriate response flanges on the bodies of the driven engine and the compressor, flanges of the support in the lower part are joined with support pads designed for fixation on the foundation, and bodies of the driven engine and the compressor on their external surfaces in the lower part are equipped with pads for installation on support stands.

EFFECT: simplified design of a device and its assembly process, higher strength of a structure, improved reliability of unit operation and easier alignment of a shaft line.

4 cl, 13 dwg

Description

The invention relates to a compressor technique and can be used in the design of compressor blocks (block compressor units) mounted on a support frame.

The desire to create enlarged compressor blocks, which include several products united by one technological process (drive motor, multiplier and compressor), connected by pipelines and tested in the factory, is technically justified, as it allows to minimize the amount of work and installation time of compressor units the customer.

The prior art compressor assemblies assembled on a common frame in the form of blocks (see, for example, VB Shnepp / Design and calculation of centrifugal compressor machines. M .: "Engineering", 1995. "Introduction", page 7, section 1, subsection 1.2 "Unified centrifugal compressors", page 34 and section 5, subsection 5.1 "Compressor units", page 208). In known compressor blocks (see Figs. 1-3), the support frame 1 has a box-shaped structure, and the component parts of the block: a drive motor 2, a multiplier 3 and a compressor 4 are mounted on the support posts 5 and the plates 6 connected to the longitudinal and transverse power ribs 7 support frame 1. This design solution provides ease of maintenance, however, with careful consideration, it has significant disadvantages, which are as follows.

1. The support frame must have not only strength, but also rigidity, able to maintain shaft alignment after transportation of the compressor unit, however, this requirement is associated with an increase in the height of the support frame H, and therefore with an increase in the height H _{1 of the} unit, which is limited by the requirements of rail transportation , therefore, in most cases, it is not possible to provide the required rigidity of the support frame and, as a result, there is a need for additional alignment of the shaft shafts ode after transportation.

2. The support frame, in the known device, must have a sufficient length L to accommodate the support posts 5 and the plates 6, therefore, the length of the frame can reach large values, which leads to a significant increase in weight and to the complexity of the technology of manufacturing the frame (machining).

3. The drive motor and compressor housings are not involved in creating block rigidity.

4. In the known device, it is assumed that the shafting is aligned during assembly of the block, as well as after transportation, which is a rather time-consuming operation, as it requires completion in place of a large number of back plates 8 (Fig. 3) under each support with a high degree of accuracy and cleanliness class processing.

5. To maintain the alignment of the drive motor and compressor relative to the multiplier, in the process of operation of the unit, the introduction of a special device is required - adjustable keyway 9 (figure 2).

The objective of the claimed invention is to provide a compressor unit devoid of these disadvantages.

The technical result of the invention is to simplify the design of the device and the process of its assembly, increase the rigidity of the structure, increase the reliability of the unit and facilitate alignment of the shaft shaft.

The specified technical result is achieved due to the fact that the block compressor unit contains a drive motor and a compressor mounted on a support intended for installation on a foundation, while, according to the proposal, the support is made in the form of a cylindrical shell or spatial truss with flanges at the ends connected to corresponding mating flanges on the drive motor and compressor housings, the support flanges in the lower part are connected to the supporting plates intended for fixing to the foundation e, and the housing of the drive motor and compressor on their outer surfaces in the lower part are equipped with plates for installation on the supporting posts.

In addition, the technical result is also achieved in the block compressor unit, which further comprises a multiplier located between the engine and the compressor, and on the support on the inner side on both sides of the vertical plane passing through the axis of the shell, protrusions for installing the multiplier are made, while the protrusions connected by vertical stiffeners passing through the lower part of the support and from its outer side connected to the plates, intended for connection to the foundation.

In addition, it is advisable to make centering recesses on the support flanges, and centering protrusions included in the centering recesses on the counter flanges of the engine and compressor,

In addition, the support preferably consists of upper and lower parts separated horizontally in the diametrical plane.

The invention is illustrated by the drawings presented in figures 1-13. Figure 1-3 relate to the known compressor unit, and figure 4-13 to the claimed.

In Fig.1, 2 shows a known compressor unit, a side view and from the end along arrow A in Fig.1, respectively.

Figure 3 shows (remote element B in figure 1) the connection node of the drive motor (compressor) with the supporting frame in a known block.

Figure 4 shows the claimed compressor unit.

Figure 5 shows (remote element In figure 4) the connection node of the drive motor with a support in the claimed block.

Figure 6 shows (remote element G in figure 4) the connection node of the compressor with the support in the claimed unit.

Figure 7 shows the support in cross section DD in figure 4 with a view of the flange and the support plate.

On Fig shows an embodiment of the claimed unit with a multiplier, side view.

In Fig.9 shows the support in cross section EE in Fig.8 at the location of the multiplier.

Figure 10 shows an embodiment of the support in the form of a spatial truss.

Figure 11 shows a spatial truss in cross section FJ in figure 10.

On Fig shows the support in longitudinal section II in Fig. 8, in place of the horizontal connector, with a view of the base plates.

On Fig shows the compressor unit in a disassembled form in a perspective image (in the version with a multiplier).

Block compressor unit contains a drive motor 2 (figure 4) and compressor 4, which are mounted on a support 1 mounted on the foundation. The support 1 can be made in the form of a cylindrical shell 10 (Fig.7-9, 13) or spatial truss 11 (Fig.10, 11). At the ends of the support 1, flanges 12 are formed (FIGS. 5, 6). The support 1 preferably consists of two parts, an upper 13 and a lower 14, separated by a connector 15 in a horizontal diametrical plane. Centering recesses 16 are made on each support flange 12. In the lower part, the flanges 12 are connected to supporting plates 17 having stiffeners and fixed to the foundation.

At the ends of the housings of the drive motor 2 and compressor 4 connected to the flanges 12 of the support frame, mating flanges 18 are formed (FIGS. 5, 6) with centering protrusions 19 included in the centering recesses 16 of the support flanges 12. On the outer surfaces of the housings of the drive motor 2 and compressor 4, from below, along the generatrix of the cylinder, planks 20 are formed for installation on the support posts 21, which are attached to the foundation.

In a particular embodiment (see Figs. 8-9), the claimed unit further comprises a multiplier 3 mounted between the compressor 2 and the engine 4, preferably with a coaxial arrangement of the input and output shafts. At the same time, on the lower part 14 of the support from the side of the inner surface between the flanges 12, on both sides of the vertical plane passing through the axis of the shell 10, protrusions 23, 24 (Fig. 9) are formed with seating surfaces 25, 26 for installing the multiplier 3. The protrusions 23, 24 are connected from below with vertical stiffeners 27, intersecting the shell 10 and connected to it. At the lower ends of the stiffeners 27 (under the supports of the multiplier 3), support plates 17 are formed, connected to the foundation.

In the proposed device, the system of connected products forms a strong and rigid block, which is achieved as follows.

The space between the drive motor 2 and the compressor 4 is used to place the support 1. This allows you to increase the height H of the support 1, making it commensurate with the height of the drive motor 2 and compressor 4 without a significant additional increase in the total height H _{1 of the} unit.

Increasing the height H of the support 1 can significantly increase its strength and stiffness and, therefore, maintain the alignment of the shaft line after transportation of the compressor unit.

The length L of the support is significantly reduced, since there is no need to place support racks on it, while the design of the drive motor 2 and compressor 3 cases, which are involved in creating the overall rigidity of the block, is more rationally used.

The support ensures the accuracy of installation of the drive motor 2, the multiplier 3 and the compressor 4 both in the longitudinal and transverse directions due to the machining of the seating surfaces of the elements 16, 22 (Fig. 5, 6) and 25, 26 (Fig. 9), and taking into account the increased rigidity of the support, it is possible to maintain the alignment of the shaft shaft after transporting the block.

The alignment of the shaft shaft of the unit during operation is maintained due to the fact that the centers of the flanges 18 connected to the frame (Figs. 5, 6) remain unchanged in their position, and hence the position of the front bearings of the rotors of the drive motor 2 and compressor 4.

Other bearings of the rotors of the engine 2 and compressor 4 are installed in areas near the opposite ends of their bodies, which during operation, when heated, move freely along the axes, without disturbing alignment.

Access to the transmission and to the multiplier 3 is provided by the implementation of the support 1 detachable in the form of upper and lower parts 13 and 14.

For maintenance, the upper part 13 of the support 1 is undocked and dismantled, providing access to its internal cavity.

Since the stiffness of the support is reduced in this case, the support racks 21 are first brought under the support plates 20 of the drive motor 2 and the compressor 4. After completion of the maintenance work, the upper part 13 of the frame is put in place, and the racks 21 are dismantled.

The rise of the proposed block compressor unit, it is advisable to carry out for rigging nodes (hooks or pins 28, 7, 9, 11) formed on the flanges 12 of the lower part 14 of the support frame, on both sides. The lifting of the upper part 13 of the frame for dismantling, it is advisable to carry out for the rigging nodes 29 formed on the upper parts of the flanges 12 (5, 6).

Since the drive motor 2, the multiplier 3 and the compressor 4 are connected by pipelines, holes or openings are made in the cylindrical shell 10 of the support in the required places for the passage of pipelines. In the case of significant sizes of holes and openings, their edges are reinforced with rings or flanges.

Thus, the proposed device has significant advantages compared with known analogues.

It should be noted that the present invention is not limited to the private forms of implementation described in the present description.

Claims (4)

1. Block compressor unit containing a drive motor and a compressor mounted on a support intended for installation on a foundation, characterized in that the support is made in the form of a cylindrical shell or spatial truss with flanges at the ends connected to corresponding mating flanges on the bodies of the drive motor and the compressor, the support flanges in the lower part are connected to the supporting plates intended for fixing on the foundation, and the drive motor and compressor housings on their outer surfaces In the lower part they are equipped with plates for installation on the support posts. 2. The assembly according to claim 1, characterized in that it further comprises a multiplier located between the engine and the compressor, on the support on the inner side on both sides of the vertical plane passing through the axis of the shell, protrusions for installing the multiplier are made, the protrusions are connected vertically stiffeners passing through the lower part of the support and from its outer side connected to the plates, intended for connection to the foundation. 3. The assembly according to claim 1, characterized in that the centering grooves are made on the support flanges, and the engine and compressor mating flanges have centering protrusions included in the centering grooves, 4. The assembly according to claim 1, characterized in that the support consists of upper and lower parts, separated horizontally in the diametrical plane.

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