RU2301487C1 - Rotary electrical machine, its stator supporting structure, and manufacturing process - Google Patents

Abstract

FIELD: electrical engineering; vibration or noise damping supporting structures for rotary electrical machine stators.

SUBSTANCE: proposed supporting structure for rotary electrical machine stator is mounted horizontally and has stator frame and two end plates vertically mounted at both ends of stator core axis perpendicular to axis direction. Stator frame has bottom plate supporting bottom ends of end plates and side plates joined with bottom plate to close side surfaces of stator core. Horizontal stand plate is welded to bottom end of each end plate. Bottom plate of stator frame has two fastening strips positioned in parallel with axis of revolution in same horizontal plane under axis of revolution, as well as junction strip that joins fastening strips together in horizontal direction. Thickness of junction strip is smaller than that of fastening strip. Installation seat of stand plate is welded to each fastening strip and screwed to stand plate.

EFFECT: reduced mass, facilitated manufacture and assembly.

6 cl, 2 dwg

Description

Description

Technical field

The present invention relates to a stator support structure, which suppresses the outward transmission of vibration or noise generated by the stator core of a rotary electric machine, and to a rotary electric machine having this structure, and also to a method for manufacturing it.

State of the art

As a structure for suppressing the outward transmission of vibration or noise generated by the stator core of a rotary electric machine, such as an induction motor, generator, etc., the construction according to Japanese Patent Publication No. 3053947 is known. In this design, the fixing plates of the lower plate of the stator frame and the rack end fixing plates the stator core plates are bolted. Air gaps are formed between the lower ends of the end fixing plates on both sides of the stator core and the connecting plate of the lower plate of the stator frame and between the side surfaces of the end fixing plates and the side plates of the stator frame.

The design according to Japanese Patent Publication No. 30539947 has drawbacks. For example, to fasten the fixing plates of the bottom plate of the stator frame to the rack plates of the end fixing plates of the stator core with bolts, the mounting plates must be thick, which causes difficulties associated with increasing the weight of the stator frame. In addition, since the fastening positions of the bolts are one-sided, therefore fastening only with bolts will be insufficient and welding will also be necessary. Moreover, in the case of adjusting the height for centering the stator when assembling a rotary electric machine, grinding of the rack plates or mounting plates will be necessary, as a result of which the laboriousness of the assembly will increase.

The present invention was developed to eliminate the above-mentioned disadvantages and is aimed at providing a stator support structure, the weight of which can be reduced and its manufacture can be simplified, and at providing a rotary electric machine with such a structure, and at providing a method for its manufacture.

SUMMARY OF THE INVENTION

According to one aspect of the present invention, there is provided a rotary electric machine comprising: a rotor rotating in a horizontal axis of rotation, a stator core around the rotor, two end fixing plates fixedly mounted vertically at both ends of the axis of the stator core and extending in a direction substantially perpendicular to the axis of rotation and a stator bed having a lower plate of a stator bed for supporting the lower ends of the end fixing plates, wherein the stator bed also comprises side plates the stator frame, connected to the lower plate of the stator frame, closing the side surfaces of the stator core. A riser plate extending in the horizontal direction is attached by welding to the lower end of each of the end fixing plates. The lower plate of the stator bed has two mounting plates extending parallel to the axis of rotation in the same horizontal plane below the axis of rotation, and a connecting plate connecting the mounting plates in the horizontal direction; however, the thickness of the connecting plate is less than the thickness of the mounting plates, and the mounting socket of the rack plate is attached by welding to each mounting plate. Each rack plate is located on one of the mounting slots of the rack plate, and the mounting slots of the rack plates and rack plates are secured with screw mounts.

According to another aspect of the present invention, there is provided a stator support structure of a rotary electric machine having a horizontal axis. The design comprises two end fixing plates fixedly mounted vertically at both ends of the axis of the stator core, end fixing plates extending in a direction substantially perpendicular to the axis direction, and a stator bed having a lower plate of the stator bed for supporting the lower ends of the end fixing plates; wherein the stator bed also comprises side plates of the stator bed connected to the bottom plate of the stator bed, covering the side surfaces of the stator core. A riser plate extending in the horizontal direction is attached by welding to the lower end of each of the end fixing plates. The lower plate of the stator bed has two mounting plates running parallel to the axis of rotation in the same horizontal plane under the axis of rotation; and a connecting plate connecting the mounting plates in a horizontal direction; the thickness of the connecting plate is less than the thickness of the mounting plates. The mounting socket of the rack plate is attached by welding to each fixing plate. Each rack plate is located on one of the mounting sockets of the rack plate, the mounting socket of the rack plate and the rack plate are fixed with screw mounts.

According to another aspect of the present invention, there is provided a method of manufacturing a rotary electric machine. The rotary electric machine has a stator core having a horizontal axis, two end fixing plates attached to both ends of the axis of the stator core, a stator bed having a lower plate of the stator bed to support the lower ends of the end fixing plates; and the side plates of the stator bed connected to the bottom plate of the stator bed, covering the side surfaces of the stator core. The method includes a step of welding a rack plate, according to which the rack plates are attached by welding to the lower ends of the end rack fixing plates, a step of welding a mounting socket of the rack plate, according to which the mounting holes of the rack plate are welded to two mounting plates to form a lower plate of the stator bed, and the step of attaching, according to which the rack plates are mounted on the mounting sockets of the rack plate and fastening the mounting sockets of the rack plate, adjusting gaskets and rack plates with screw mounts.

Advantages of the Invention

According to the present invention, it is possible to provide a support structure with a reduced weight, to simplify the manufacture of this structure and to provide a rotary electric machine with such a structure, as well as a method for its manufacture.

Brief Description of the Drawings

1 is a vertical sectional view showing one embodiment of a stator support structure of a rotary electric machine according to the present invention.

Figure 2 is a partial section along the line aa shown in the drawing of figure 1.

Reference List

1. stator core

2. stator bed

3. bottom plate of the stator bed

4. side plate of the stator bed

5. fixing plate

6. connecting plate

7. end fixing plate

8. mounting socket of a rack plate

9. rack plate

10. adjustment gasket

11. bolt

12. nut

13. clearance

14 clearance

15. side plate of the stator bed reinforcement

20. end plate of the stator bed

21. bearing support plate

22. bearing

Preferred Embodiment

The following is an embodiment of a stator support structure of a rotary electric machine according to the present invention with reference to the accompanying drawings. Figure 1 shows a vertical section of an embodiment of a stator support structure of a rotary electric machine according to the present invention; and FIG. 2 is a side sectional view of a part along line AA shown in FIG. 1.

The stator bed 2 for supporting the stator core 1 has a lower plate 3 of the stator bed, forming the lower part, and side plates 4 of the stator bed, forming both side surfaces. A rotor (not shown) is installed in the stator core 1, rotating on a horizontal axis. At both ends of the axis of the stator bed 2, end plates 20 of the stator bed are installed. Bearing support plates 21 are mounted on end plates 20 of the stator frame, and a rotor (not shown) is supported by bearings 22 on bearing support plates 21.

The stator core 1 is pressed on its both end surfaces by the end fixing plates 7. Each end fixing plate 7 is a vertical plate of substantially rectangular shape and is fixed by welding on the lower both sides using the rack plates 9. The rack plates 9 extend from positions under the end fixing plates 7 in both axial directions.

The lower plate 3 of the stator bed has fastening plates 5 made in the form of a tape and a thin connecting plate 6 connected by welding with the fixing plates 5. The fixing plates 5 are parallel to the axis under the rotary electric machine and bear the load from the weight of the rotary electric machine, and the connecting the plate 6 extends horizontally, connecting the two mounting plates 5. The mounting sockets 8 of the rack plate are in contact with the rack plates 9 on the mounting plates 5 and are welded to the mounting plates m 5. Mounting socket rack plate 8 extend along the rack plates 9. The control pad 10 disposed between the mounting sockets 8 rack plate and the rack-mount plates 9.

Holes for screws (not shown) are made in the mounting sockets 8 of the rack plate. The regulating gaskets 10 and the rack plates 9 are attached to the mounting sockets 8 of the rack plate with bolts 11 and nuts 12. The bolts 11 pass through the holes for the screws. Moreover, each rack plate 9 according to FIG. 2 is rigidly fixed with bolts 11 and nuts 12 located on both axial sides of the lower position of the end fixing plate 7.

According to figure 1, the gaps 13 are made between both side surfaces of the end fixing plates 7 and the inner surfaces of the side plates 4 of the stator frame to prevent direct connection. Also, gaps 14 are made between the lower surfaces of the end fixing plates 7 and the connecting plate 6, and therefore, the lower surfaces and the connecting plate 6 are not directly connected.

To ensure sufficient strength to withstand vibration, reinforcing the side plates 15 of the stator frame formed in the cavities are attached by welding to the upper parts of the side plates 4 of the stator frame; and the stiffness of the side plates 4 of the stator bed increases.

An air duct (not shown) through which cooling air circulates is installed in the upper part of the stator frame 2.

According to the embodiment described above, the outward transmission of electromagnetic noise generated by the stator core 1 can be suppressed by the gaps 13 and 14 in the same manner as in the prior art according to Japanese Patent Publication No. 3053947.

According to this embodiment, since the mounting sockets 8 of the rack plate are welded to the fixing plates 5 of the bottom plate 3 of the stator bed, and since the mounting sockets 8 of the rack plate are attached to the rack plates 9 by bolts, therefore, the thickness of the mounting plates 5 can be reduced in comparison with the prior art according to Japanese Patent Publication No. 3053947, according to which the mounting plates are bolted directly to the rack plates. Therefore, the weight of the bed of the stator 2 can be reduced.

Also according to this embodiment, since all the rack plates 9 and all the mounting slots 8 of the drain plates are secured in two positions under the end fixing plate 7 in the axial direction by bolts 11 and nuts 12, reinforcement by welding is not required. Therefore, compared with the prior art, in accordance with Japanese Patent Publication No. 3053947, the complexity of assembly work can be reduced.

In addition, according to this embodiment, the shims 10 are located between the rack plates 9 and the mounting plates 8 of the rack plates and are attached with bolts 11 and nuts 12. Therefore, there is no need to sand the rack plates 9 and mounting holes 8 to adjust the height of the stator core 1 and also simplify adjust the position of the attachment.

Claims (6)

1. A rotary electric machine comprising a rotor rotating in a horizontal axis of rotation, a stator core around the rotor, two end fixing plates fixedly mounted vertically at both ends of the axis of the stator core and extending in a direction substantially perpendicular to the axis of rotation, and the stator bed having a lower plate of the stator bed for supporting the lower ends of the end fixing plates, the stator bed also comprising side plates of the stator bed connected to the lower plate of the stator bed the stator core, covering the lateral surfaces of the stator core, in which the strut plate passing in the horizontal direction is attached by welding to the lower end of each of the end fixing plates, the lower plate of the stator frame has two mounting plates parallel to the axis of rotation in the same horizontal plane under the axis of rotation, and the connecting plate connecting the mounting plates in the horizontal direction, while the thickness of the connecting plate is less than the thickness of the mounting plates, platemaking socket rack plate is attached by welding to each mounting plate, and each pedestal plate arranged on one of the mounting rack plate nests and rack mounting plates and socket rack plates secured screw fasteners. 2. The rotary electric machine according to claim 1, in which the mounting plates, mounting sockets of the rack plate and the rack plates extend on both sides of the rotation axis direction from the positions below the end fixing plates, and screw fasteners are located on both sides of the rotation axis direction. 3. The rotary electric machine according to claim 1 or 2, which also contains regulatory gaskets installed between one of the rack plates and one of the mounting sockets of the rack plate. 4. The rotary electric machine according to one of claims 1 or 2, in which air gaps are formed between the lower ends of the end fixing plates and the connecting plate and between the side surfaces of the end fixing plates and the side plates of the stator frame. 5. The support structure of a rotary electric machine having a horizontal axis comprising two end fixing plates fixedly mounted vertically at both ends of the axis of the stator core, the end fixing plates extending in a direction substantially perpendicular to the axis direction, and a stator bed having a lower the stator bed plate for supporting the lower ends of the end fixing plates, while the stator bed also contains side plates of the stator bed connected to the lower plate of the stan stator, covering the lateral surfaces of the stator core, while the rack plate extending in the horizontal direction is attached by welding to the lower end of each end fixing plate, the bottom plate of the stator bed has two mounting plates parallel to the axis of rotation in the same horizontal the plane under the axis of rotation, and the connecting plate connecting the mounting plates in the horizontal direction, and the thickness of the connecting plate is less than the thickness of the mounting plates, the mounting socket of the rack plate is attached by welding to each fixing plate, and each rack plate is located on one of the mounting slots of the rack plate, and the mounting socket of the rack plate and the rack plate are fixed with screw fasteners. 6. A method of manufacturing a rotary electric machine having a stator core having a horizontal axis, two end fixing plates attached to both ends of the axis of the stator core, a stator bed having a lower plate of the stator bed to support the lower ends of the end fixing plates, and side plates of the stator bed connected to the bottom plate of the bed, covering the side surfaces of the stator core, the method includes the step of welding a rack plate, according to which the plate plates by welding to the lower ends of the end fixing plates, the step of welding the mounting socket of the rack plate, according to which the mounting slots of the rack plate are welded to two mounting plates to form the bottom plate of the stator frame, and the attachment step, according to which the rack plates are placed on the mounting sockets of the rack plate and attach the mounting sockets of the rack plate, adjusting gaskets and rack plates with screw mounts.

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