JP2018164333A - End cutting device for stator coil - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an end cutting device for a stator coil in which a rotary cutting blade having a diameter which is larger than a radius of an inner diameter of a stator including the stator coil can be mounted.SOLUTION: The present invention relates to a cutting device 10 which is disposed inside a stator 40 of a rotary electric apparatus and cuts an end of a stator coil. The cutting device comprises: a first arm 32 for supporting a rotary cutting blade 26 which cuts the end of the stator coil; a second arm 34 including one end 34a which is connected to the first arm 32, and the other end 34b which becomes a base point of rotating the first arm 32 along a circumference of the stator 40; and a first rotary shaft 20 which is connected to the other end 34b of the second arm 34. A second rotary shaft 28 of the rotary cutting blade 26 is provided between the first rotary shaft 20 and the first arm 32. The second arm 34 includes, between the one end 34a and the other end 34b, a relief part 34c for preventing interference with the rotary cutting blade 26 at a side opposite to an axial line of the second rotary shaft 28 with an axial line of the first rotary shaft 20 defined as the base point.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an apparatus for efficiently cutting an end portion of a stator coil in a rotating electrical apparatus such as a large generator or motor.

  Rotating electrical equipment such as a generator and a motor includes a cylindrical stator and a rotor that rotates inside the stator. In the stator, a large number of copper and aluminum stator coils are aligned and embedded in a laminated iron core in which thin magnetic materials are stacked, and adjacent ends of each stator coil are connected to each other. ing. When disassembling or overhauling this rotating electrical device, first, the front end portion and the rear end portion of the casing are removed. Next, dismantling of the bearing portion of the rotor and removal of the rotor are performed. Then, after the working space is formed inside the stator by removing the rotor, the connection portion (common name: end coil) of the stator coil exposed at the end of the stator is cut, and the laminated core is taken out. Done.

  Of these operations, the end coil is cut manually by an operator using an electric tool. However, automation by machine work has been studied from the viewpoint of reducing the labor, working environment, and ensuring safety. ing.

  For example, a stator coil end cutting device disclosed in Patent Document 1 has a rotary cutting blade for cutting an end coil, and an extendable arm that presses the rotary cutting blade from the inside of the stator to the end coil. . The telescopic arm is held by an arm rotation motor disposed at the center position of the stator by a plurality of fixed legs, and is configured to be able to rotate along the circumferential direction of the stator.

Japanese Patent No. 5987139

  According to the stator coil end cutting device having the configuration disclosed in the above-mentioned patent document, it is possible to reduce the labor of the operator in the cutting operation of the stator end coil, and to improve the working environment and safety. It is thought that it is possible to secure this.

  However, since the stator coil end cutting device disclosed in Patent Document 1 has a configuration in which a rotary cutting blade is provided at the tip of an arm extending on the radial side of the stator, the diameter of the rotary cutting blade is reduced. I can't make it bigger. When the diameter of the rotary cutting blade is increased, there is a risk that the apparatus will not fit in the space in the stator. For this reason, the amount of cutting by the rotary cutting blade cannot be increased, and cutting of the end coil may not be completed in one cycle. In such a case, it is necessary to repeat the cutting (cutting) process and the work process of securing the flank by removing the cutting member, which causes a problem that the time required for the cutting process becomes long.

  Therefore, an object of the present invention is to provide a stator coil end cutting device capable of mounting a rotary cutting blade having a diameter larger than the radius of the inner diameter of a stator having a stator coil to be cut.

  An end cutting device for a stator coil that can achieve the above object is an end cutting device for a stator coil that is disposed inside a stator of a rotating electrical device and cuts the end of the stator coil. A first arm that supports a rotary cutting blade that cuts an end of the stator coil, one end connected to the first arm, and the first arm along the circumference of the stator. A second arm having the other end serving as a base point to be rotated; and a first rotating shaft connected to the other end of the second arm, the first rotating shaft and the first arm A second rotating shaft of the rotary cutting blade is provided between the second arm and the second arm, the axis of the first rotating shaft being a base point between the one end and the other end, An escape portion for preventing interference with the rotary cutting blade is provided on the side opposite to the axis of the second rotary shaft. The features.

  In the stator coil end cutting device having the above-described features, the first arm includes a guide rail disposed along a radial direction of the stator, a slider that slides on the guide rail, The slider is preferably provided with the second rotation shaft. By having such a feature, it is possible to move the rotary cutting blade in the radial direction of the stator without expanding and contracting the first arm. For this reason, it is possible to increase the moving distance of the rotary cutting blade.

  In the stator coil end cutting device having the above-described characteristics, a worm shaft is used as a driving means for driving the slider, and the slider includes a screwing portion with respect to the worm shaft. Also good. By having such a feature, it is possible to control the movement of the slider with high accuracy.

  In the stator coil end cutting device having the above-described characteristics, the first motor for rotating the first rotating shaft and the second motor for rotating the second rotating shaft include the rotary cutting blade. It is preferable that a fixed leg for holding the first rotating shaft at the center in the radial direction of the stator is disposed between the first motor and the rotary cutting blade. By having such a feature, the longitudinal center of gravity position of the stator coil end cutting device can be positioned in the vicinity of the rotary cutting blade.

  In the stator coil end cutting device having the above-described features, the rotary cutting blade includes a protective cover on at least the first motor arrangement side main surface and the second motor arrangement side main surface. It is good to be done. By having such a feature, the safety of the cutting device can be ensured even when a large-diameter rotary cutting blade is employed.

  Further, in the stator coil end cutting device having the above-described characteristics, the protective cover provided on the first motor side is shorter than the protective cover provided on the second motor side. It is desirable to configure as follows. By having such a feature, it is possible to improve maintenance such as replacement of the rotary cutting blade while ensuring safety.

  According to the stator coil end cutting device having the above-described features, it is possible to mount a rotary cutting blade having a diameter larger than the radius of the inner diameter of the stator having the stator coil to be cut. Become. Thereby, it becomes possible to complete the cutting process of the end coil by one cutting, and the working time required for the cutting process can be shortened.

It is a side view composition of an end cutting device of a stator coil concerning an embodiment, and is a figure showing the state arranged in a stator. It is an AA arrow view in Drawing 1, and is a figure showing the rear end side composition of the end cutting device of the stator coil concerning an embodiment. It is a partial expanded sectional view which shows the side surface structure of a rotary cutting blade unit. It is a figure which shows the right side surface in FIG. 1, and is a figure which shows the front end side structure of the edge part cutting device of the stator coil which concerns on embodiment.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a stator coil end cutting device according to the present invention will be described in detail with reference to the drawings. In addition, in drawing, FIG. 1 is a side surface structure of the stator coil end cutting device according to the embodiment, and shows a state of being arranged in the stator. FIG. 2 is a view taken along the line A-A in FIG. 1 and shows the rear end side configuration of the stator coil end cutting device according to the embodiment. FIG. 3 is a partially enlarged cross-sectional view showing a side configuration of the rotary cutting blade unit. Further, FIG. 4 is a diagram showing the right side surface in FIG. 1, and is a diagram showing a tip side configuration of the stator coil end cutting device according to the embodiment.

[overall structure]
A stator coil end cutting device (hereinafter simply referred to as a cutting device 10) is used by being disposed inside a stator 40 of a rotating electrical apparatus, as shown in FIGS. The cutting device 10 according to the present embodiment is configured based on a frame 12, a first power unit 16, and a rotary cutting blade unit 24.

[flame]
The frame 12 is an element for supporting each element constituting the cutting device 10 according to the embodiment. The frame 12 is fixed to support the frame 12 in a state in which the axis of the first rotating shaft 20 in the first power unit 16, which will be described in detail later, is aligned with the inner center of the stator 40 (inner diameter center O). A leg 14 is attached. The fixed legs 14 are provided at least at three locations in order to stably support the frame 12. In the case where a plurality of the fixed legs 14 are provided, the fixed legs 14 are preferably arranged so that the contact portions to the inner periphery of the stator 40 are equally spaced. For this reason, when the fixed legs 14 are arranged at three positions, they are preferably arranged radially so as to be spaced 120 degrees around the axis of the first rotating shaft 20. In the cutting device according to the present embodiment, in addition to the three fixed legs 14 arranged on the same circumference, the front end side and the rear side of the frame 12 are positioned opposite to the fixed legs 14 arranged along the vertical axis of the frame 12. It is set as the structure provided with the two fixed legs 14 which shifted the position to the end side.

  Further, the fixed leg 14 may be configured to be extendable and contracted so that the contact with the inner periphery of the stator 40, the positioning of the frame 12, and the alignment of the first rotating shaft 20 are achieved. As an example of a specific configuration, it is constituted by an outer 14a formed in a cylindrical shape, an inner 14b disposed inside the outer 14a, and a contact portion 14c provided at the tip of the inner 14b (see FIG. 2). The length of the fixed leg 14 may be adjusted by extending or contracting the inner 14b with respect to the outer 14a. The expansion and contraction of the fixed leg 14 may be a hydraulic control by a cylinder method, a rotation control by a screwing method, or neither automatic nor manual.

[First power unit]
The first power unit 16 includes a first motor 18, a first rotating shaft 20, and a speed reducer 22. The first motor 18 is an element for supplying power to the first rotating shaft 20. The first motor 18 is disposed on the rear end side of the cutting device 10 with reference to a rotary cutting blade 26 described later in detail. Further, the first motor 18 is arranged such that the rotation axis thereof has an axis parallel to the axis P passing through the center of the inner diameter of the stator 40. The first rotating shaft 20 is an element for rotating the rotary cutting blade unit 24, which will be described in detail later, along the circumference of the stator 40. For this reason, when the cutting device 10 is operated, the first rotating shaft 20 is aligned so that its axis coincides with the axis P.

  The speed reducer 22 is interposed between the first motor 18 and the first rotating shaft 20. This is because the rotary cutting blade unit 24, which is a heavy object, is stabilized and rotated while controlling the position with high accuracy. By interposing the speed reducer 22, it is possible to improve the torque generated by the first rotating shaft 20 and to adjust the rotation angle of the rotary cutting blade unit 24 by adjusting the rotation speed of the first motor 18. It becomes possible.

[Rotating cutting blade unit]
The rotary cutting blade unit 24 includes a rotary cutting blade 26, a second rotary shaft 28, a second motor 30, a first arm 32, and a second arm 34 as main components. The rotary cutting blade 26 is a tip saw for cutting an end coil (a coupling portion of the stator coil exposed at the end of the stator 40). In this embodiment, in order to increase the cutting amount during the cutting operation of the end coil, a large-diameter one is employed. Specifically, it is assumed that the end coil layer to be cut has a diameter capable of obtaining a cut amount that can be cut in a single cutting step. For example, when the cutting depth is 200 mm, the rotary cutting blade 26 having a diameter at least about three times (600 mm) is employed. In the present embodiment, the rotary cutting blade 26 having a diameter larger than the radius of the inner diameter of the stator 40 is employed. For example, when the inner diameter of the stator is 1200 mm, the diameter of the rotary cutting blade 26 is assumed to be larger than 600 mm (for example, 680 mm). By adopting such a large diameter rotary cutting blade 26, workability is improved and the time required for the cutting process can be shortened.

  The second rotary shaft 28 is a rotary shaft for supporting and rotating the rotary cutting blade 26. The axis of the second rotary shaft 28 is arranged so as to be parallel to the axis of the first rotary shaft 20. The second motor 30 is an element for supplying power to the second rotating shaft 28, and the second rotating shaft 28 and the second motor 30 constitute a second power unit. The second motor 30 is disposed on the opposite side of the first motor 18 via the rotary cutting blade 26, that is, on the distal end side of the cutting device 10. This arrangement is intended to adjust the weight balance of the cutting device 10 and to avoid danger due to the large diameter rotary cutting blade being located at the tip of the device. In the present embodiment, the rotation shaft of the second motor 30 is disposed so as to be orthogonal to the axis of the second rotation shaft 28. Further, a speed reducer 36 is disposed between the second motor 30 and the second rotating shaft 28, and is configured to convert the rotational speed, the rotating torque, and the axial direction of the rotating shaft. By arranging the rotation axis of the second motor 30 so as to be orthogonal to the second rotation axis 28, the weight balance is adjusted and the strength of the second arm 34, which will be described in detail later, can be reduced.

  The first arm 32 supports the rotary cutting blade 26, the second rotary shaft 28, the speed reducer 36, and the second motor 30 described above and moves them in the radial direction of the stator 40 (the direction of arrow B in FIG. 3). This is an element for adjusting the cutting amount. The first arm 32 according to the present embodiment includes a guide rail 32a disposed in the radial direction of the stator 40, and a slider 32b that can move on the guide rail 32a (see FIG. 4), and the slider 32b. The third power unit 32c for sliding the vehicle is provided. In the first arm 32 having such a configuration, the rotary cutting blade 26 can be moved in the direction of arrow B by fixing the second rotating shaft 28 and the second motor 30 to the slider 32b. As an example of a specific configuration of the third power portion 32c, a worm shaft 32c1 configured by a trapezoidal screw or the like can be used, and the slider 32b includes a screwing portion 32c2 that moves on the worm shaft 32c1. What is necessary is just composition.

  In such a configuration, the slider 32b can be moved by rotating the worm shaft 32c1. Further, since the rotation of the worm shaft 32c1 can be controlled by controlling the driving means such as a motor, the slider 32b can be positioned with high accuracy.

  The second arm 34 is an element for connecting the first arm 32 and the first rotating shaft 20. The second arm 34 has one end 34a side connected to the first arm 32, the other end 34b side connected to the first rotating shaft 20, and one end 34a and the other end 34b. Is provided with an escape portion 34c. The escape portion 34 c is configured by disposing a part of the second arm 34 on the side opposite to the axis of the second rotary shaft 28 with the axis of the first rotary shaft 20 as a base point. When each element is arranged as in the cutting device 10 according to the embodiment, an element that prevents interference with the rotary cutting blade 26 occurs when the first arm 32 is supported. For this reason, by providing the second arm 34 having the relief portion 34 c, it is possible to apply a large diameter as the rotary cutting blade 26.

  In the cutting device 10 according to the present embodiment, the second arm 34 is provided with a protective cover 38. The protective cover 38 is configured to cover at least a part of the arrangement-side main surface of the first motor 18 and the arrangement-side main surface of the second motor 30 in the rotary cutting blade 26. With such a configuration, safety can be improved even when the large-diameter rotary cutting blade 26 is employed. Moreover, in this embodiment, the safety | security is improved by arrange | positioning the protective cover 38 also to the side surface of the rotary cutting blade 26. FIG. The protective cover 38 is preferably configured so that the one provided on the first motor 18 side is shorter than the one provided on the second motor 30 side. By adopting such a configuration, it is possible to facilitate maintenance such as replacement work of the rotary cutting blade 26.

[Description of operation]
After the cutting device 10 having the above-described configuration is disposed inside the stator 40, the fixing leg 14 is extended to fix the frame 12. At this time, alignment is performed so that the axis of the first rotating shaft 20 coincides with the axis P. After the frame 12 is fixed by the fixed legs 14, the slider 32b of the first arm 32 is moved radially outward (in the direction of arrow B in FIG. 3) while the second motor 30 is driven and the rotary cutting blade 26 is rotated. ). The moving speed (feed amount) of the slider 32b is determined by the rotational speed of the rotary cutting blade 26 at least after the rotary cutting blade 26 reaches the end coil.

  After the amount of cut with respect to the end coil reaches a predetermined value due to the movement of the slider 32b, the first motor 18 is driven to rotate the rotary cutting blade unit 24 in the direction indicated by the arrow C. The rotational speed of the rotary cutting blade unit 24 is determined by the rotational speed of the rotary cutting blade 26. When the rotation of the rotary cutting blade unit 24 by the rotation is completed, the cutting of the end coil by the cutting device 10 is completed.

  After the cutting of the end coil is completed, the rotation of the rotary cutting blade 26 is stopped, the slider 32b is returned to the original position, the frame 12 can be moved by contracting the fixing leg 14, and the cutting device 10 is fixed. Move to the outside of the child 40.

[Function and effect]
According to the cutting device 10 having such a configuration, it is possible to mount the rotary cutting blade 26 having a diameter larger than the radius of the inner diameter of the stator 40 having the end coil to be cut. For this reason, the cutting amount of the rotary cutting blade 26 with respect to the end coil can be increased. Thereby, the cutting process of the end coil can be completed with one cutting, and the working time required for the cutting process can be shortened.

DESCRIPTION OF SYMBOLS 10 ......... Cut device, 12 ......... Frame, 14 ......... Fixed leg, 14a ......... Outer, 14b ......... Inner, 14c ......... Contact part, 16 ......... First power part, 18 ... ...... First motor, 20 ......... First rotating shaft, 22 ......... Speed reducer, 24 ......... Rotating cutting blade unit, 26 ......... Rotating cutting blade, 28 ......... Second rotating shaft, 30 ... ... Second motor, 32 ......... First arm, 32a ......... Guide rail, 32b ......... Slider, 32c ......... Third power section, 32c1 ......... Worm shaft, 32c2 ......... Screw section , 34 ......... Second arm, 34a ......... One end, 34b ......... Other end, 34c ......... Escape, 36 ......... Reduction gear, 38 ......... Protective cover, 40 ... ……stator.

Claims (6)

A stator coil end cutting device that is disposed inside a stator of a rotating electrical device and cuts an end of a stator coil,
A first arm that supports a rotary cutting blade that cuts an end of the stator coil;
A second arm having one end connected to the first arm and the other end serving as a base point for rotating the first arm along the circumference of the stator;
A first rotating shaft connected to the other end of the second arm,
A second rotating shaft of the rotary cutting blade is provided between the first rotating shaft and the first arm;
The second arm has a rotary cutting blade between the one end and the other end on the opposite side of the axis of the second rotation axis from the axis of the first rotation axis. An end cutting device for a stator coil, characterized by having an escape portion for preventing interference of the stator coil. The first arm includes a guide rail disposed along a radial direction of the stator;
A slider that slides on the guide rail,
The stator coil end cutting device according to claim 1, wherein the slider is provided with the second rotating shaft. As a driving means for driving the slider, a worm shaft is used,
3. The stator coil end cutting device according to claim 2, wherein the slider includes a threaded portion with respect to the worm shaft. A first motor for rotating the first rotating shaft and a second motor for rotating the second rotating shaft are arranged on the opposite side via the rotary cutting blade;
The fixed leg for hold | maintaining the said 1st rotating shaft in the radial direction center of the said stator is arrange | positioned between the said 1st motor and the said rotary cutting blade. The stator coil end cutting device according to claim 1.   5. The stator coil according to claim 4, wherein the rotary cutting blade is provided with a protective cover on at least the first motor arrangement side main surface and the second motor arrangement side main surface. 6. End cutting device.   6. The fixing according to claim 5, wherein the protective cover is configured such that the protective cover provided on the first motor side is shorter than the protective cover provided on the second motor side. Child coil end cutting device.