KR200169624Y1 - Shaft of impeller balancing - Google Patents

Abstract

The present invention is a hollow tapered sleeve portion having a plurality of incisions when a gap occurs in the inner diameter of the rotating impeller, and a body shaft formed with a taper corresponding to the inner diameter of the sleeve portion, the dimensional change within the allowable range of the impeller boss inner diameter It relates to an impeller balancing shaft that effectively corresponds to.

According to the present invention, the boss (1,10) of the impeller having a plurality of blades rotated by the rotational force transmitted from the outside, and the key member (5,50) fixed to the boss (1,10) of the impeller An impeller balancing shaft for removing an imbalance, comprising: a tapered sleeve (60) having an inclination angle (α) in which an inner diameter gradually decreases in a hollow pipe shape that can be inserted into the boss (10) closely, and the tapered sleeve ( Main shaft having a plurality of fixing nuts (71, 71 ', 72, 72') for moving 60, and a circumferential surface (45) inclined equal to the inclination angle (alpha) of the inner diameter of the tapered sleeve (60). 40, wherein the inclined circumferential surface 45 of the main shaft 40 is slidably engaged at the inner diameter of the tapered sleeve 60, and the tapered sleeve 60 and the main shaft 40 are It is inserted into the boss 10, and moves the fixing nuts 71, 71 ', 72, 72' Balancing the impeller shaft, it characterized in that the exterior circle major surface of the buffer sleeve (60) in close contact with the inner diameter of the boss 10 is provided.

Description

Impeller balancing shaft

The present invention relates to an impeller balancing shaft, and in particular, a tapered sleeve inserted into the inner diameter of the boss of the rotating impeller, and a body shaft having a tapered portion corresponding to the inner diameter of the tapered sleeve provides a tight taper coupling at the inner diameter of the boss. The present invention relates to an impeller balancing shaft capable of performing an accurate impeller balancing task.

Here, the tapered sleeve is a connecting member in which the inner diameter is tapered in the shape of a thin cylindrical cylinder inserted into the inner diameter of the hole like a conventional bush.

In general, a rotating body such as an impeller may have an imbalance due to intrinsic mass due to a difference in weight of each part, or an imbalance due to a combined mechanical element. In addition, such a rotating body may cause an imbalance due to a mistake in coupling the shaft for transmitting power, and even if the static balance is corrected, a thrust may occur during rotation, thereby causing a dynamic imbalance. This unbalanced rotor can be a reason for vibration, and can be a barrier that prevents normal operation of a pump having such a rotor. Typically, a balancing device is used to eliminate this imbalance between the rotor and the shaft. Such a balance adjusting device is a device capable of balancing the end of the shaft coupled to the rotating body rotatably and by rotating the rotating body and the shaft at a predetermined rotational speed. In addition, the shaft that corrects mechanical vibration or rotational imbalance by using such a balancing device is designated as an impeller balancing shaft. Therefore, it is important that the impeller balancing shaft closely couples the impeller, which is a rotating body, to correct the static and dynamic balance.

As shown in FIG. 1, the impeller balancing shaft according to the related art includes a shaft shaft having a fixing key groove 4a for fixing the impeller boss 1 in a length direction in a diameter corresponding to the inner diameter of the impeller boss 1. 4), an impeller fixing plate 2 inserted into the shaft shaft 4 to fix the impeller boss 1, and an impeller boss 1 supported by the impeller fixing plate 2, the shaft shaft 4 It consists of a fixing key (5) for transmitting the rotational force of.

In the shaft shaft 4 of the conventional impeller balancing shaft configured as described above, a jaw 4 'supporting the impeller fixing key 5 is formed. In addition, the impeller fixing plate 2 supported by the jaw 4 'is formed with a plurality of holes that can be bolted together. In addition, a key groove 1a corresponding to the fixing key 5 is formed at the inner diameter of the impeller boss 1 to which the impeller fixing plate 2 is bolted.

In order to fasten such an impeller boss 1 to the shaft shaft 4, the impeller fixing plate 2 is inserted into a portion where the jaw 4 ′ of the shaft shaft 4 is formed. Further, the shaft shaft 4 having the impeller fixing plate 2 is thus inserted into the inner diameter of the impeller boss 1. The fixing key 5 for fastening the impeller boss 1 inserted as described above is forcibly fitted to the fixing key groove 4a of the shaft shaft 4 and the key groove 1a of the impeller boss 1. In addition, in order to couple the impeller boss 1 and the shaft shaft 4 in general, the impeller boss 1 is heated to expand the inner diameter or the coupling portion of the shaft shaft 4 is cooled to reduce the diameter. The fixed bolt 3 is fastened to the conventional impeller fixing plate 2 coupled as described above to support the shaft shaft 4 and the impeller boss 1. In addition, the impeller balancing shaft is capable of transmitting external power to the impeller boss 1 by means of a fixing key 5 which is fastened to fit.

However, the conventional impeller balancing shaft has a difficulty in working because the impeller boss is heated or the shaft axis is cooled to simply fit the shaft shaft to the impeller boss by using a fixed key. There are drawbacks to this.

In addition, the impeller boss and the shaft shaft coupled to the fixed key by fitting the locking key is formed a gap in the coupling portion, the gap of the coupling portion has a disadvantage that the balance between the impeller and the shaft to move the center of rotation.

In addition, the inner diameter of the impeller boss that rotates for a long time brings about a dimensional change, and in order for a rotating machine equipped with such an impeller boss to operate normally without vibration, a new shaft corresponding to the inner diameter of the impeller boss having a dimensional change must be combined. There is a disadvantage that the consumption of material costs and work time increases.

In addition, the conventional impeller balancing shaft has a disadvantage that can not be used when a plurality of impeller boss of the multi-axial pump has a minute difference in the inner diameter.

The present invention has been made to solve the problems of the prior art as described above, a hollow tapered sleeve portion having a round jaw formed with a plurality of incisions, and a body shaft formed with a taper corresponding to the inner diameter of the tapered sleeve portion To provide an impeller balancing shaft that effectively responds to dimensional changes within the tolerance range of the impeller boss.

1 is a cross-sectional view for explaining the coupling relationship of the impeller balancing shaft according to the prior art.

Figure 2 is a view for explaining the configuration of the impeller balancing shaft in one embodiment of the present invention.

3A, 3B, 3C, and 4 are views for explaining the shape of important parts of the impeller balancing shaft shown in Fig. 2;

♠ Explanation of symbols on the main parts of the drawing ♠

10: boss 40: body axis

50: fixed key 60: tapered sleeve

71,71 ', 72,72,: Nut

α: tilt angle

According to the present invention for achieving the object as described above, the boss of the impeller having a plurality of wings that rotate by the rotational force transmitted from the outside, and the impeller balancing is fixed to the boss as a key member to remove the imbalance of the impeller A shaft, comprising: a tapered sleeve having an inclined angle in which an inner diameter gradually decreases in a hollow pipe shape which can be closely inserted into the boss, a plurality of fixing nuts for moving the tapered sleeve, and the inner diameter of the tapered sleeve. A main shaft having an inclined circumferential surface equal to an inclination angle, wherein the inclined circumferential surface of the main shaft is slidably engaged at an inner diameter of the tapered sleeve, and the tapered sleeve and the main shaft are inserted into the boss and are fixed By moving the nut the outer circumferential surface of the tapered sleeve Balancing the impeller shaft, it characterized in that the close contact with the inner diameter of the switch is provided.

In addition, according to the present invention, it is preferable that the tapered sleeve coupled to the boss is formed with a plurality of cutouts to prevent the entire shape from being crushed by sliding with the main shaft.

In addition, according to the present invention, the fixing nut for moving the tapered sleeve in the axial direction is preferably screwed to each of the pair of main shaft.

In the following, with reference to the accompanying drawings a preferred embodiment of the impeller balancing shaft according to the present invention will be described in detail.

In the drawings, Figure 1 is a cross-sectional view for explaining the coupling relationship of the impeller balancing shaft according to the prior art, Figure 2 is a view for explaining the configuration of the impeller balancing shaft in one embodiment of the present invention, Figures 3a, 3b 3C and 4 are views for explaining the shape of important parts of the impeller balancing shaft shown in FIG. 2.

In Figure 2, the main shaft 40 of the impeller balancing shaft according to one embodiment of the present invention is disposed while maintaining a gap of a predetermined size in the inner diameter of the impeller boss (10). The fixed key groove 43 in the longitudinal direction of the main body shaft 40 is provided with a fixed key 50 inserted to coincide with the key groove 10a formed in the inner diameter of the impeller boss 10. In addition, a hollow tapered sleeve 60 corresponding to the length of the impeller boss 10 is formed in the gap formed by the inner diameter of the impeller boss 10 and the main shaft 40 on which the fixing key 50 is disposed. Is arranged. Fixing nuts (71, 71 ', 72, 72') are paired at both ends in the longitudinal direction of the tapered sleeve (60) and are screwed to the main shaft (40) of the impeller balancing shaft.

As shown in Figures 3a to 3c, the tapered sleeve 60 is arranged as described above is an insertion portion 61 and the cap is inserted into the gap formed by the impeller boss 10 and the main shaft 40 in the form of vacuum The circular jaw 62 is formed in one piece.

The insert 61 of such a tapered sleeve 60 is formed with a precision tapered taper whose inner diameter is reduced from the one end portion to the portion where the round jaw 62 is formed at an inclination angle α of a predetermined size. . In addition, the insertion portion 61 is formed with a first cutout portion 63 that forms a cut groove having a width corresponding to the fixing key 50 from the one end portion to the circular jaw. Two second cut portions 64 having grooves of a predetermined width in the same direction as the first cut portions 63 are formed at regular intervals along the circumferential surface of the first cut portions 63. In addition, in the circular jaw 62 formed integrally with the insertion portion 61, three third cut portions 65 forming grooves having a predetermined width in the radial direction are formed at regular intervals.

The tapered sleeve 60 having the plurality of cutouts 63, 64, and 65 formed therein does not crush the entire shape because the cutout portion is expanded according to the dimensional change of the tapered inner diameter of the insertion part 61.

As shown in FIG. 4, the taper-shaped portion 45 having the same inclination angle α as the inner diameter of the tapered sleeve 60 at the portion inserted into the inner diameter of the boss 10 in the main shaft 40 of the impeller balancing shaft. Is formed in the longitudinal direction. In addition, threaded lines 46 and 46 'to which fixing nuts 71, 71', 72, and 72 'are coupled are formed at both sides of the tapered portion 45, respectively. Fixing key grooves 43 are formed in the same direction as the line in the axial direction passing through the circumferential surface at the portion where the screw lines 46 and 46 'are formed in contact with the tapered portion 45.

In the following, the coupling relationship of the impeller balancing shaft of the present invention as described in detail above will be described.

First, the insert 61 of the tapered sleeve 60 is inserted into the inner diameter of the impeller boss 10, and a circular jaw 62 continuous with the insert 61 is formed on the outside of the impeller boss 10. It is fastened to be arranged. In addition, the first cutout 63 of the tapered sleeve 60 and the key groove 10a of the impeller boss 10 are coincident to be fastened by the fixing key 50. The body shaft 40 is inserted into the inner diameter of the tapered sleeve 60 that is matched, and the fixing key 50 is seated in the fixing key groove 43 of the body shaft 40. The fixed key 50 is seated in the fixed key groove 43 of the main body shaft 40, and serves only to transmit the rotational force of the main shaft 40 to the impeller boss 10. Further, the screws 46 and 46 'of the main shaft 40 are paired with the first fixing nuts 71 and 71' disposed on the outside and arranged inside the first fixing nuts 71 and 71 ', respectively. Second fixing nuts 72 and 72 'are combined. The plurality of fixing nuts 71, 71 ′, 72, 72 ′ thus coupled serve to move or fix the tapered sleeve 60 in both directions toward the main shaft 40 of the impeller balancing shaft. In addition, the first fixing nuts 71 and 71 'serve to fix the second fixing nuts 72 and 72' so as not to be released from the impeller rotating at high speed.

In the following, the operation method of the impeller balancing shaft of the present invention coupled as described above will be described.

First, when the inner diameter of the impeller boss 10 brings a dimensional change within the allowable range, the operator rotates the first fixing nuts 71 and 71 'coupled to the main shaft 40 in the direction in which the nuts are released. The first fixing nuts 71 and 71 'are released so that the second fixing nuts 72 and 72' can be released in both ends along the threads 46 and 46 'of the main body shaft 40. do. At this time, the operator rotates and loosens the second fixing nut 72 'which is fastened to the insertion portion 61 side of the tapered sleeve 60 so that the tapered sleeve 60 can move along the main shaft 40. At the same time, the operator moves the tapered sleeve 60 while tightening the second fixing nut 72 on the other side which contacts the round jaw 62 of the tapered sleeve 60. The tapered sleeve 60 moved in this way slides on the circumferential surface on which the tapered portion 45 of the body shaft 40 is formed. In addition, the insertion portion 61 of the tapered sleeve 60 that slides is subjected to a force in the radial direction. This force expands the second cutouts 64 of the insert 61 of the tapered sleeve 60 and the third cutout 65 of the circular jaw 62. At the same time, the inner diameter of the insert 61 of the tapered sleeve 60 is expanded, and the outer diameter of the insert 61 is in close contact with the inner diameter of the impeller boss 10. The tapered sleeve 60 is moved or fixed by the second fixing nuts 72 and 72 ', and the second fixing nuts 72 and 72' are tightened by the first fixing nuts 71 and 71 '. The main shaft 40 is fixed so as not to be released. Therefore, the main shaft 40 of the impeller balancing shaft of the present invention is tapered closely to the tapered sleeve 60 and fixed to the impeller boss 10.

As described in detail above, the impeller balancing shaft of the present invention has a tapered portion formed on the main shaft, and is tapered in the impeller boss, so that the impeller balancing shaft is active at the time of the dimensional change within the allowable diameter of the impeller boss. There is an advantage that can be adjusted.

In addition, the impeller balancing shaft of the present invention has an advantage that can be closely coupled to the impeller boss because the tapered sleeve is arranged to support the fixed key fastened to the inside of the main shaft and the impeller boss and freely fastened by the nut coupling.

In addition, the impeller balancing shaft has a merit that the work time is reduced because it is possible to balance the movement of the impeller and the phase angle due to a gap, so that it can be balanced in one operation.

In addition, since the shafts according to a plurality of impeller bosses of the multi-axial pump can be used separately, there is a cost reduction effect.

The technical idea of the impeller balancing shaft of the present invention has been described above with the accompanying drawings, but this is only illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

Bosses (1,10) of the impeller having a plurality of blades rotated by the rotation force transmitted from the outside, and the impeller to be fixed to the boss (1,10) by the key member (5,50) to remove the imbalance of the impeller In the balancing shaft, A tapered sleeve 60 having an inclined angle α of which the inner diameter gradually decreases in a hollow pipe shape that can be inserted into the boss 10 and a plurality of fixing nuts for moving the tapered sleeve 60 ( 71, 71 ', 72, 72' and a main body shaft 40 having a circumferential surface 45 inclined to be equal to the inclination angle? Of the inner diameter of the tapered sleeve 60, wherein the main body shaft The inclined circumferential surface 45 of 40 is slidably engaged at the inner diameter of the tapered sleeve 60, and the tapered sleeve 60 and the body shaft 40 are inserted into the boss 10. Impeller balancing shaft, characterized in that the outer peripheral surface of the tapered sleeve 60 is in close contact with the inner diameter of the boss (10) by moving the fixing nut (71, 71 ', 72, 72'). The tapered sleeve (60) coupled to the boss (10) according to claim 1, wherein a plurality of incisions (63, 64, 65) prevent the entire shape from being distorted by sliding with the main shaft (40). Impeller balancing shaft, characterized in that is formed. According to claim 1 or 2, wherein the fixing shaft (71, 71 ', 72, 72') for moving the tapered sleeve 60 in the axial direction to the body shaft (40) are screwed respectively There is an impeller balancing shaft.