KR20150110446A - Installation structure of a rotation shaft bearing for powdering machine - Google Patents

Abstract

The present invention relates to an installation structure of rotation shaft bearing of a food pulverizer, regarding a an installation structure of a rotation shaft bearing of a food pulverizer, which comprises: a pulverizing device unit (3) installed on a frame (2) installed on a support plate (1); the crushing device unit (10) installed to be rotated and supported a rotation shaft (7) by front and rear shaft support units (8,9) with a impeller casing (5) and a pulverizer container (6); and an impeller (10) and a plurality of pulverizing cutters (11) on the rotation shaft (7). The structure comprises: a front bearing (15) inserted and installed on the outer circumferential surface of the rotation shaft (7); a rear bearing (16) inserted and installed on the outer circumferential surface of the rotation shaft (7); a rear bearing case (31) installed by an installation member (30) on the outside of the rear bearing (16); a fixed gap (t) installed between the rotation shaft (7) and the inner circumferential surface of the front side of a bearing installation groove (32); and a rear bearing cover (33) protruded with an outer wheel support unit (33) for supporting the rear surface of the outer wheel of the rear bearing (16) installed by a coupling bolt (35).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary shaft bearing for powdering machine,

The present invention relates to a rotary shaft bearing installation structure of a pulverizer, and more particularly, to a rotary shaft bearing installation structure of a pulverizer for grinding food, which comprises a rotary shaft installed inside the pulverizer, an intermediate portion provided with a front bearing on the outer periphery thereof, The backward side of the rotary shaft provided on the outer circumferential edge of the rear bearing can be moved by the thermal expansion of the rotary shaft in the longitudinal direction of the rotary shaft in the rear bearing so that the grinder can be operated and stopped When the rotary shaft is expanded and contracted, the middle portion of the rotary shaft is rotatably supported by the front bearings in place, and the rear portion is rotated while moving as far as the rotary shaft is extended or retracted from the inner side of the inner ring of the rear bearing, Thereby minimizing the load applied thereto, So that the life of the bearing can be prolonged.

1 and 2, a conventional general crusher 100 is provided with a frame 2 on a pedestal 1 and a crusher 3 on an upper side of the frame 2. [

The impeller casing 5 having the discharge port 4 at one side and the crusher cylinder 6 are connected to each other and the rotary shaft 7 is connected to the impeller casing 5 and the crusher cylinder 6, And both ends of the rotary shaft 7 are provided so as to be rotatably supported by the front and rear shaft support portions 8, 9.

A plurality of crushing cutters 11 are installed on the rotating shaft 7 inside the crusher cylinder 6 and a plurality of crushing cutters 11 are installed on the rotating shaft 7 A hopper 14 for injecting a pulverized object into the inside of the pulverizer box 6 is provided at one side of the outside of the pulverizer box 6, Is connected.

Therefore, in the conventional general crusher 100, the rotation shaft 7 is rotated by the rotation force of the motor by driving the motor 12, and the rotation shaft 7 is supported by the front and rear shaft support portions 8 and 9 A plurality of pulverizing cutters 11 provided on the rotating shaft 7 inside the pulverizing cylinder 6 are rotated in the same manner as the rotating shaft 7 to crush the pulverized object put into the inside of the pulverizing cylinder 6 do.

The impeller 10 provided on the rotating shaft 7 inside the impeller casing 5 connected to the crusher cylinder 6 in the process of pulverizing the pulverized object rotates together with the rotating shaft 7 to separate undoped pulverized powder into impeller casings (5) and discharged through the discharge port (4) to the outside.

The front and rear axle supports 8 and 9 support the rotation of the rotary shaft 7 and one side of the front and rear bearings 15 and 16 is engaged with the rotary shaft 7, And a locking nut 19 is fastened to the threaded portion 18 after the threaded portion 18 is formed on the outer side of the rotary shaft 7 in which the front and rear bearings 15 and 16 are fitted. The inner rings 15a and 16a of the first and second rotating bodies 15 and 16 are prevented from moving in the longitudinal direction of the rotating shaft 7 by the step portion 17 and the lock nut 19 and rotate in place.

The bearing case 20 is installed on the outer side of the front and rear bearings 15 and 16 so as to surround the front and rear bearings 15 and 16 and the bearing cover 21 is installed on the outer side of the lock nut 19 And a pressing portion 21a for pressing the outer rings 15b and 16b of the front and rear bearings 15 and 16 from the outside to the inside is protruded on the inner side of the bearing cover 21. The bearing case 20, (21) is fixed to the frame (2) by bolts (22).

Therefore, when the rotary shaft 7 rotates at a high speed, the front and rear bearings 15 and 16 rotate and support the rotary shaft 7 smoothly, and the front and rear bearings 15 and 16 are separated from the rotary shaft 7 So that the rotation of the rotary shaft is supported in place.

However, in the case of the crusher 100, since the crusher 11 must crush various crushed objects such as a viscous crushed material or a hard crushed material while striking it, the rotating shaft 7 rotates at a high speed, 7 is rotated at a high speed, the grinding unit 3 generates high heat in the process of hitting the grinding object at a high speed, and the grinding unit 3 thermally expands due to the generated heat.

Particularly, in the crushing device section 3, the rotary shaft 7 continuously collides with the object to be crushed for a long time at a portion where the crushing cutter 11 is installed at a high speed while being rotated at a high speed. .

The inner rings 15a and 16a of the front and rear bearings 15 and 16 provided on both sides of the rotary shaft 7 are engaged with the step portion 17 and the lock nut The bearing cover 21 and the bearing case 20 which are exposed to the outside of the pulverizing apparatus 3 are in a state of less thermal expansion than the rotating shaft 7 and the bolts 22 The bearing cover 21 fixed to the frame 2 is in a state in which the pushing portion 21a protruding from the inner surface prevents the outer rings 15b and 16b of the front and rear bearings 15 and 16 from coming out.

Therefore, the inner rings 15a and 16a of the front and rear bearings 15 and 16 expand like "A" to be pushed outward while the outer rings 15b and 16b are caught by the pressing portion 21a and are blocked And the inner ring 15a and 16a are outwardly displaced even though the inner ring 15a and 16a are small in the outward direction and thus the inner ring is deviated outwardly from the fixed position, There arises a problem that the front and rear bearings 15 and 16 are damaged because the rotary shaft 7 is rotated at a high speed in a state where the front and rear bearings 15 and 16 are shifted.

As the inner and outer rings of the front and rear bearings 15 and 16 are rotated at a high speed in this state, the bearings are damaged. When the bearings are damaged, the rotational shaft 7 of the crusher unit 3 is abnormally rotated And the rotation is stopped.

For reference, when the bearing is installed on the rotary shaft, the outer diameter of the rotary shaft is adjusted with a tolerance of ± 0.001 to ± 0.01 mm with respect to the inner diameter of the inner ring of the bearing, and then the bearing is sandwiched by the rotary shaft. And the bearing is fixed between the stepped portion and the lock nut by fastening the lock nut to the thread portion formed on the opposite side of the stepped portion of the rotary shaft so that the bearing is fixed by the heat generated when the machine is operated. So as not to be separated from the rotary shaft.

Japanese Patent Application Laid-Open No. 10-2010-0053427 (titled "Grinder with particle sorting part")

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for preventing the front bearings from rotating in the longitudinal direction of the rotary shaft by the movement restraining means such as a lock nut, The rear portion of the rotary shaft mounted on the outer periphery of the rear bearing is provided so as to be movable by the thermal expansion of the rotary shaft in the longitudinal direction of the rotary shaft in the rear bearing, The rear portion is rotated and rotated by the front bearing and the rear portion is rotated and moved by the inner side of the inner ring of the rear bearing as the rotary shaft is expanded and contracted to minimize the lateral load applied to the front and rear bearings, To extend the life of rear bearings Be a challenge.

According to an aspect of the present invention, there is provided a crushing device in a frame installed on a pedestal, wherein the crushing device includes an impeller casing connected to the crusher and a crusher, and a rotary shaft rotatably supported by the front and rear shafts , Wherein the rotary shaft is provided with an impeller and a plurality of crushing cutters,

A front bearing is fitted to the outer periphery of the rotary shaft corresponding to the front axle support portion, and the front bearing is configured such that the rotary shaft portion and the front bearing, which are fitted to the front bearing by the movement restraining means, can not move in the longitudinal direction of the rotary shaft, In addition,

A rear bearing is fitted on an outer periphery of a rotary shaft corresponding to the rear axle support portion and a rear bearing case is provided on an outer side of the rear bearing by an attachment member connected to the frame, And a rear bearing cover is provided on the rear surface of the rear bearing case with a rear bearing cover protruding from the rear surface of the rear bearing case for supporting the rear surface of the rear wheel of the rear bearing, And a configuration is included.

As described above, according to the present invention, the middle portion of the rotary shaft is provided so as to be rotatably supported by the front bearing, the longitudinal bearing in which the rotary shaft is expanded by the movement restraining means is made impossible in the front bearing, The rear bearing provided on the rear side of the rotary shaft is movable in the longitudinal direction inside the inner ring of the rear bearing in a state in which the rear bearing is fixed in place by the rear axial supporting portion and the mounting member, There is an effect that the inner and outer rings and the bearing balls constituting the bearing are in a proper position and the bearing is always operated normally as the rotary shaft which is expanded most in the longitudinal direction moves most outward from the inner side of the inner ring of the rear bearing. This minimizes bearing damage and prolongs bearing life. According to which the effect of the grinder can operate normally for a long period of time.

1 is a sectional view showing a conventional pulverizer.
2 is a sectional view showing a bearing mounting portion in the prior art.
3 is a sectional view of a crusher showing an example in which the bearing installation structure of the present invention is installed.
4 is an enlarged cross-sectional view of a main part of the present invention.
5 is an enlarged cross-sectional view of a portion "B" in Fig.

Hereinafter, a rotary shaft bearing installation structure of the pulverizer for food according to the present invention will be described with reference to FIGS. 3 to 5 attached hereto.

3, the crushing unit 3 is installed on a frame 2 provided on a pedestal 1, and the crushing unit 3 includes an impeller casing 5 connected to the crushing unit 3, And a rotary shaft 7 is rotatably supported by the front and rear shaft support portions 8 and 9 by means of a crusher cylinder 6 and an impeller 10 and a plurality of crushing cutters 11 are installed on the rotary shaft 7. [ The present invention relates to a rotary shaft bearing installation structure of a food material pulverizer.

A pulley 13 is provided at the rear end of the rotary shaft 7 to receive the power of the motor 12 to rotate the rotary shaft 7. A hopper 14 is installed in front of the rotary drum 6 So that the pulverized object flows into the inside of the pulverizer box 6 through the hopper 14.

The main part of the present invention includes movement restraining means for suppressing the horizontal movement of the portion of the rotary shaft 7 in which the front bearing 15 and the front bearing 15 are fitted to the front axle support portion 8 as shown in Figs. And the rear side of the rotary shaft 7 is connected to the rear bearing 7 so that the rotary shaft 7 is expanded in the longitudinal direction when the rotary shaft 7 is expanded in the longitudinal direction, 16 can be finely moved in the longitudinal direction, thereby preventing the front and rear bearings 15, 16 from being damaged.

The front bearing 15 is fitted to the outer periphery of the rotary shaft 7 corresponding to the front axle support portion 8 and the front bearing 15 is supported by the movement restraining means included in the front axle support portion 8 The portion of the rotary shaft 7 fitted to the front bearing 15 and the front bearing 15 can not be moved in the longitudinal direction of the rotary shaft but are rotated only in place.

The movement restraining means is provided with a step portion 17 on the front side of the rotary shaft 7 on which the front bearing 15 is fitted and on which a front surface of the inner ring of the front bearing 15 is engaged, A threaded portion 18 is formed on the rotary shaft 7 in which the rotary shaft 15 is inserted and a lock nut 19 is provided for tightening the inner ring on the rear side of the front bearing 15. [

The front bearing case 36 is fitted to the outside of the front bearing 15 and the front bearing case 36 is installed to the frame 2. The rear bearing surface of the front bearing case 36 is provided with a front bearing A rear bearing cover 38 protruding from an outer ring supporter 37 for supporting the rear surface of the outer ring of the engine 15 is installed by bolts.

A rear bearing 16 is fitted to the outer periphery of the rotary shaft 7 corresponding to the rear axle support portion 9 and an installation member A predetermined clearance t is formed between the inner peripheral edge on the front side of the bearing mounting groove 32 surrounding the front of the rear bearing 16 and the outer peripheral surface of the rotary shaft 7 And a rear bearing cover 33 is provided on the rear surface of the rear bearing case 31 with an outer ring support portion 33 protruding from the inner circumference of the rear bearing case 31 for supporting the rear surface of the outer ring of the rear bearing 16, .

The applicant of the present invention has found that the frame 2 is provided on the rear surface of the impeller casing 5 and the front bearing case 36 is provided on the rear surface of the frame 2, The front bearing case 36 can be installed on the rear surface of the impeller casing 5 when the frame 2 is installed at the lower end of the impeller casing 5. [

3 and 4, the mounting member 30 may be formed of a stud bolt, which may be formed by welding a separate metal material from the impeller casing 5 to the rear bearing case 31 by welding.

Reference numeral 39 denotes a cooling fan for cooling the rotary shaft 7 including the front and rear shaft support parts 8 and 9 and reference numeral 40 designates a cooling fan for connecting the impeller casing 5 and the crusher cylinder 6 It is a taper pipe.

The operation of the present invention will be described with reference to FIGS. 3 to 5. FIG.

The pulverizer 100 including the main part of the present invention can be used as a known pulverizer applied and preliminarily manufactured by the inventor of the present invention while injecting the pulverized object contained in the hopper 14 into the pulverizer box 6, , The rotating shaft 7 is rotated at a high speed by the driving force of the motor 12. [

The crushing cutter 11 installed on the rotary shaft 7 and the impeller 10 and the cooling fan 39 are simultaneously rotated by the rotation of the rotary shaft 7 as described above, And the pulverized powder is sucked into the impeller casing 5 by the rotational force of the impeller 10 and is discharged to the outside through the discharge port 4. [

The cooling fan 39 cools the heat generated during the operation of the crushing unit 3 by the wind generated during the rotation of the cooling fan 39. The cooling fan 39 is provided in the front- 9 and the front and rear axle support portions 8, 9 and the front and rear bearings 15, 16 inserted in the front and rear axle support portions 8, 9 and the rotary shaft 7 to minimize the thermal expansion of the rotary shaft 7 do.

Even though the cooling fan 39 is in operation, the rotary shaft 7 rotates at a high speed and a plurality of the milling cutters 11 provided at the front side of the rotary shaft 7 rotating at such a high speed rotate the milled object at high speed for a long time The pulverized object to be crushed and crushed by the crusher continuously rubs against the inside of the crusher cylinder 6 at a high speed and the crusher 3 generates heat.

The heat generated as described above is most likely to be exerted on the long rotary shaft 7, so that the rotary shaft 7 is fine, but the expansion occurs in the longitudinal direction.

At this time, the middle portion of the rotary shaft 7 is provided so as to be supported on the front axial support portion 8 including the movement restricting means. Since only the middle portion of the rotary shaft 7 is fixedly fixed in place, The both end portions expand toward the outside. That is, the portion on the right side where the crushing cutter 11 is installed expands to the right in the drawing, and the end on which the pulley 13 on the left side is installed expands to the left.

Since the portion provided with the crushing cutter 11 expanding to the right is a free end, no problem due to expansion occurs, and the portion where the pulley 13 at the left end is installed is also free end, and the left end is inflated and contracted, Since the driving pulley of the motor 12 and the belt are connected to each other even if they are stretched or shrunk, problems due to elongation and shrinkage do not occur.

As shown in Fig. 4, the left inner surface ring of the front bearing 15 is fastened to the lock nut 19 so as to be engaged with the rear surface of the front surface bearing portion 8, Since the right side of the front bearing 15 is caught by the step portion 17 and is blocked by the outer ring support portion 37 of the bearing cover 38 and the rotation shaft 7 between the lock nut 19 and the step portion 17 The front bearing 15 installed at the periphery is in place and the intermediate portion of the rotating shaft 7 is rotated only in place without moving to the left and right in the front bearing 15 in the position.

The intermediate portion of the rotary shaft 7 in which the front bearing 15 is installed can not move in the longitudinal direction of the rotary shaft, but both ends of the rotary shaft 7 are slightly expanded toward the outer side.

4 and 5, a rear bearing 16 is provided on the outer peripheral edge of a rotary shaft 7 supported on the left end side, that is, the rear axial supporting portion 9. The outer peripheral edge of the rear bearing 16 The rear bearing cover 33 is wrapped around the rear bearing case 31 and the rear bearing cover 33. The rear bearing cover 33 is installed in a state where the rear bearing cover 33 is fixed by the installation member 30 provided on the rear side of the impeller casing 5 to be.

The rear bearing 16 is provided in the bearing mounting groove 32 of the rear bearing case 31 and the outer ring supporting portion 33 of the rear bearing cover 33 presses the rear outer ring of the rear bearing 16 The rear bearing 16 is in a state in which it is in a state of being in a state of being expanded outward in the longitudinal direction so that it can escape from the inner side of the inner ring of the rear bearing 16 in the outer arrow direction .

The outer diameter of the rotary shaft 7 fitted to the inner ring of the rear bearing 16 is machined with a tolerance of ± 0.001 to ± 0.01 mm with respect to the inner diameter of the inner ring of the bearing as described above. When the rotary shaft 7 is expanded, The rotation shaft 7 inserted in the inner ring can not be moved to the outside in the longitudinal direction. However, since the rotation shaft 7 is inserted into the inner ring of the rear bearing 16 in the longitudinal direction The swinging force of swelling is large, so that the inner circumference of the inner ring of the rear bearing 16 in the vicinity of the inner circumference of the inner circumference of the inner circumference of the inner ring,

This is because, when the bearing is fitted to the rotary shaft, the rotary shaft is moved in the longitudinal direction from the inner side of the inner ring of the rear bearing 16 by the force that the rotary shaft expands, such as by fitting the bearing while hitting lightly in the longitudinal direction of the rotary shaft with a hammer And the inner peripheral edge of the rear bearing case 31 and the outer peripheral surface of the rotary shaft 7 are spaced from each other by a predetermined gap t so as to prevent the rotary shaft 7 from moving outwardly from the inside of the inner ring of the rear bearing 16 I will not.

As the rotary shaft 7, which is expanded most in the longitudinal direction by the heat generated by the operation of the pulverizing unit 3, moves from the inner side to the rear side of the inner ring of the rear bearing 16, The ball is in a normal position so that the bearing operates normally, so that damage to the bearing, which is generated when the inner and outer rings of the bearing are shifted as in the conventional art, does not occur.

That is, when the rotary shaft 7 is inflated, as the rear side of the expanding rotary shaft moves rearward through the inner ring of the rear bearing 16, no load is applied to both of the front and rear bearings 15 and 16 in the lateral direction, So that the life of the front and rear bearings is prolonged.

The case where the rotary shaft 7 is inflated has been described so far. Hereinafter, the case where the rotary shaft 7 contracts will be described.

When the crusher 100 is stopped and a certain period of time has elapsed, the entire crusher is naturally cooled, and the rotary shaft 7, which has expanded the most, shrinks the most.

At this time, the rear bearing 16 is in a state in which it can not move in the longitudinal direction of the rotary shaft by the rear bearing case 31 and the rear bearing cover 34, and the rotary shaft 7 is moved in the direction opposite to the arrow shown in Fig. 5 So that the rotary shaft only moves to the extent that the rotary shaft is contracted, so that the rear bearing 16 is not given a large load.

As described above, the intermediate portion of the rotating shaft fitted in the inside of the front bearing 15 does not expand and contract, but the rear side of the rotating shaft fitted in the inside of the rear bearing 16 is elongated but the rear side of the rotating shaft is not stretched So that the front and rear bearings are not damaged at all.

As a result, there is no factor to weaken the front and rear bearings, so that the life of the bearing is prolonged as compared with the damage of the conventional bearing, so that the mill 100 including the present invention can be normally operated for a long period of time.

1: pedestal 2: frame 3: crushing unit
4: outlet 5: impeller casing 6: crusher barrel
7: rotation shaft 8: front axle support portion 9: rear axle support portion
10: impeller 11: crushing cutter 12: motor
13: Pulley 14: Hopper 15: Front bearing
16: rear bearing 17: step portion 18: thread portion
19: lock nut 20: bearing case 21: bearing cover
22: bolt 30: mounting member 31: rear bearing case
32: bearing mounting groove 33: outer ring supporting portion 34: rear bearing cover
35: coupling bolt 36: front bearing case 37: outer ring support
38: rear bearing cover 39: cooling fan 100: crusher

Claims (2)

A crushing apparatus section 3 is provided on a frame 2 provided on a pedestal 1 and the crushing apparatus section 3 is connected to a rotating shaft (not shown) by an impeller casing 5 and a crusher cylinder 6, 7 is installed to be rotatably supported by the front and rear shaft support portions 8 and 9 and the impeller 10 and the plurality of crushing cutters 11 are provided on the rotary shaft 7,
A front bearing 15 is fitted to the outer periphery of the rotary shaft 7 corresponding to the front axle support portion 8. The front bearing 15 is rotatably supported on a rotary shaft 7) and the front bearing (15) can not move in the longitudinal direction of the rotary shaft but are rotated only in place,
A rear bearing 16 is fitted to the outer periphery of the rotary shaft 7 corresponding to the rear axle support portion 9. An installation member 30 connected to the frame 2 is provided outside the rear bearing 16, A predetermined clearance t is provided between the inner periphery on the front side of the bearing mounting groove 32 surrounding the front of the rear bearing 16 and the rotary shaft 7 by providing the rear bearing case 31 And a rear bearing cover 33 is provided on the rear surface of the rear bearing case 31 with an outer ring support portion 33 protruding from the inner circumference of the rear bearing case 31 for supporting the rear surface of the outer ring of the rear bearing 16, Wherein the rotary shaft bearing installation structure of the pulverizer for food products is characterized in that it comprises: The vehicle steering apparatus according to claim 1, wherein the movement restraining means includes a stepped portion (17) on the front side of a rotating shaft (7) where the front bearing (15) A locking nut 19 for tightening the rear inner ring of the front bearing 15 is fastened to the threaded portion 18 formed on the rotating shaft 7 into which the front bearing 15 is fitted, The front bearing case 36 is mounted on the frame 2 and the rear surface of the front bearing case 36 is provided with an outer ring supporting portion 37 for supporting the rear surface of the outer ring of the front bearing 15, Wherein the rear bearing cover (38) is installed by a bolt. ≪ RTI ID = 0.0 > 31. < / RTI >

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