TWM535129U - Spindle structure - Google Patents

Description

Spindle structure

The creation system is related to a spindle structure, in particular, a spindle structure can be arranged vertically or horizontally. When the spindle structure is horizontally disposed, the first drainage hole and the second drainage hole are in a roundabout path. The probability of each liquid entering the main shaft structure from the first drainage hole and the second drainage hole can be reduced, that is, the main shaft structure can be the same structure design, whether the vertical or horizontal arrangement, the first drainage hole And the second drainage hole has a meandering path shape, which can effectively reduce the entry of each liquid into the main shaft structure.

As previously known by us, the spindle structure used in the machine tool is used, such as Taiwan Patent Application No.: 103207142, certificate number: M487800, patent name: the structure of the main shaft of the machine that can be waterproof and dustproof, the patent structure is: The waterproof and dustproof processing machine spindle structure is improved, comprising: a sleeve 20, a hollow tube structure having a sleeve end surface 21 at one end, and the sleeve 20 is extended along an axial direction X, and the vertical axis X is defined as a radial direction. The shaft member 30 is inserted into the sleeve 20 and is inserted into the sleeve 20, wherein the shaft member 30 has a hollow passage 31 and one end is a connecting portion 32. The outer surface of the shaft member 30 has a ring recess 34, and the ring recess 34 has a first end surface 341, a second end surface 342, and the first end surface 341 and the first end surface 341. a side surface 343 of the second end surface 342; the bearing 40 is sleeved outside the shaft member 30 and located in the ring recess portion 34 and the sleeve 20, and each of the bearings 40 is disposed adjacent to each other, and one of the bearings 40 is simultaneously attached to The first end surface 341 and the side surface 343, and Contact bearing 40 affixed to the side surface of at least 343; The sleeve 50 has a shaft portion extending in the axial direction X 51 and a radial surface portion 52 extending in the radial direction Y, the axial surface portion 51 has a shaft end surface 511 in the axial direction, and the radial surface portion 52 has a radial end surface 521 in the radial direction, and the sleeve 50 is sleeved on the shaft member 30. The shaft portion 51 of the sleeve 50 abuts against the side surface 343 of the ring recess 34, and the shaft end surface 511 of the shaft portion 51 abuts against one of the bearings 40, and the sleeve The radial surface portion 52 of the 50 is abutted against the second end surface 342 of the annular recess 34. The drainage dustproof ring 60 is provided with at least one drainage dustproof passage 61 in the radial direction Y, and the drainage dustproof ring 60 is sleeved in the annular recess 34. Covering the bushing 50 and abutting against the sleeve end surface 21 of the sleeve 20, and separately separating the drain and dustproof passage 61 of the drainage dustproof ring 60 from the sleeve 50 and the shaft member 30 Pool 70.

However, the missing structure of this conventional spindle structure is:

1. In addition, as shown in FIG. 2 and FIG. 3 of the bulletin, the drainage dustproof ring 60 is provided with at least one drainage and dustproof passage 61 in the radial direction Y. However, the drainage and dustproof passage 61 is formed in a straight hole shape along the radial direction Y. When the machining machine main shaft is engaged with the cutter for cutting work, the straight-hole-shaped drainage and dustproof passage 61 is easy for the cutting fluid, the chip or the lubricating oil to easily enter the main shaft from the drainage and dustproof passage 61, which is the main shaft structure. Missing.

2. When the main shaft structure is horizontally disposed, the drainage and dustproof passage 61 which is disposed in the radial direction Y and has a straight hole shape is downwardly oriented, and further increases the cutting fluid, chips or lubricating oil into the main shaft structure. Probability.

In view of the lack of the spindle structure mentioned above, the creator has been engaged in the manufacturing, production and design experience of related industries for many years, and finally has a product that can solve the drawbacks of the spindle structure.

When the conventional spindle structure is horizontally set, The drainage and dustproof channel which is arranged in the radial direction Y and has a straight hole shape is downwardly oriented, so that the cutting fluid is further increased. The chance of chips or lubricant entering the spindle structure. The creation system is related to a spindle structure, in particular, a spindle structure can be vertically or horizontally disposed. When the spindle structure is horizontally disposed, the first drainage hole and the second drainage hole are in a meandering path. The probability of each liquid entering the main shaft structure from the first drainage hole and the second drainage hole is reduced, that is, the main shaft structure is vertically or horizontally disposed, and the main shaft structure can be the same structural design, the first The drainage hole and the second drainage hole are in a meandering path shape, which can effectively reduce the entry of each liquid into the spindle structure.

This creation is about a spindle structure, which is a package. Included: a system having a first pocket and a plurality of first screwing portions; an inner ring body group, the inner ring body group being fixed at an end of the body, the inner ring body set comprising: The inner ring system is provided with a second receiving groove to be opposite to the first receiving groove of the body, the inner ring body is provided with a first inner circumferential surface and a first drainage hole at one end, the first drainage hole The rotating shaft is disposed at the first receiving groove and the second receiving groove of the main body, and the rotating shaft is provided with a first outer peripheral surface, a first end surface and a plurality of ring missing grooves; The front cover group is fixed at an end of the inner ring body, and the front cover set is pivoted with the rotating shaft, the front cover set includes: a front cover; the front cover is provided with a second inner circumferential surface The second inner circumferential surface is pivotally disposed with the first outer circumferential surface, and the second inner circumferential surface is provided with a plurality of annular grooves to be opposite to each of the annular cutouts, and the front cover is provided with a second drainage hole The second drainage hole has a meandering path shape.

If the spindle structure is vertically arranged, the first The outer peripheral surface is pivoted with the second inner peripheral surface, so that there is a gap between the first outer peripheral surface and the second inner peripheral surface. When the rotating shaft drives the tool to rotate rapidly, the liquid is used between the cutter and the workpiece. For example, the cutting fluid or the cooling liquid can be discharged from the first drainage hole and the second drainage hole when the liquid enters upward, thereby reducing the probability that the liquid enters the spindle structure through the gap. The first plug member and the second plug member are respectively received in the first drain hole and the second drain hole to make the first The first drainage hole and the second drainage hole When the rotating shaft rotates rapidly, the first drainage hole and the second drainage system have a meandering path shape, and the probability that each liquid enters the main shaft structure from the first drainage hole and the second drainage hole is greatly reduced. .

In order to enable the members of the Board and those skilled in the art to fully understand the effects of this creation, the structure and composition of the creation are described in conjunction with the drawings and drawings, but the following are only used to explain the implementation of this creation. For example, it is not intended to impose any form of restriction on this creation. Any modification made in the spirit of this creation should still fall within the scope of this creation.

10‧‧‧ Ontology

11‧‧‧First slot

12‧‧‧First screwing

30‧‧‧ Inner ring group

31‧‧‧ Inner ring

311‧‧‧Second cavity

312‧‧‧First inner circumference

313‧‧‧First drain hole

3131‧‧‧First radial hole

3132‧‧‧Second radial hole

3133‧‧‧First axial hole

314‧‧‧ ring convex

315‧‧‧First perforation

316‧‧‧First ring groove

32‧‧‧First plug

33‧‧‧Seal ring

40‧‧‧First screw fitting

50‧‧‧Rotary axis

51‧‧‧ third tank

52‧‧‧First outer perimeter

53‧‧‧ first end face

54‧‧‧ Ring missing slot

55‧‧‧ring

60‧‧‧ front cover group

61‧‧‧ front cover

611‧‧‧second inner circumference

612‧‧‧ ring groove

613‧‧‧Second drain hole

6131‧‧‧3rd radial hole

6132‧‧‧Second axial hole

614‧‧‧Second perforation

62‧‧‧Second plug

70‧‧‧Second screw

The first figure is an exploded view of the main spindle structure of the present creation.

The second figure is an exploded view of the inner ring body set of the main spindle structure.

The third figure is a side view of the inner ring body of the main spindle structure.

The fourth picture is a cross-sectional view of the third picture A-A of this creation.

The fifth figure is a side view of the rotating shaft of the spindle structure of the present creation.

The sixth picture is a cross-sectional view of the fifth picture B-B of this creation.

The seventh figure is an exploded view of the front cover group of the spindle structure.

The eighth figure is a side view of the front cover of the spindle structure of the present invention.

The ninth figure is a cross-sectional view taken at the C-C of the eighth drawing of the present creation.

The tenth figure is a three-dimensional combination diagram of some components of the spindle structure of the present creation.

The eleventh figure is a three-dimensional combination diagram of the spindle structure of the present creation.

The twelfth figure is a side view of the spindle structure of the present creation.

The thirteenth figure is a cross-sectional view taken at the D-D of the twelfth figure of the present creation.

The fourteenth figure is an enlarged view of the thirteenth picture E of the present creation.

Fig. 15 is a cross-sectional view showing the inner ring body of the second embodiment of the present invention.

Fig. 16 is a perspective view showing a third embodiment of the present creation.

First, please refer to the first to ninth figures. The first figure is an exploded view of the main spindle structure of the present creation. The second figure is an exploded view of the inner ring body group 30 of the original spindle structure. The third picture is the original creation. The side view of the inner ring body 31 of the main shaft structure, the fourth drawing is a cross-sectional view of the third drawing AA of the present creation, the fifth drawing is a side view of the rotating shaft 50 of the main spindle structure of the present creation, and the sixth drawing is the fifth drawing of the fifth drawing of the present drawing. The sectional view, the seventh drawing is an exploded perspective view of the front cover group 60 of the present spindle structure, the eighth drawing is a side view of the front cover 61 of the present spindle structure, and the ninth drawing is a sectional view of the eighth figure CC of the present creation. The author is related to a spindle structure, which is used on a machine tool, and includes a body 10, which is attached to a machine tool, and the body 10 is provided with a first receiving slot 11, the first The first groove Y is formed in a perforated shape, and the first groove 11 is formed in a penetrating manner. The first end of the body 10 is provided with a plurality of first screwing portions 12, and the plurality of first screwing portions 12 are the first volume. The slots 11 are annularly arranged in an axial direction, and the number of the first screwing portions 12 is twelve, and The inner ring body group 30 is fixed at the end of the body 10, and the inner ring body group 30 includes: an inner ring, as shown in the third figure. The body 31, the plurality of first plugs 32 and the seal ring 33; the inner ring body 31, as shown in the third and fourth figures, the inner ring body 31 is provided The second receiving slot 311 is opposite to the first receiving slot 11 of the body 10. The second receiving slot 311 is formed in a circular hole shape, and the inner ring body 31 is fastened at one end. There is a first inner circumferential surface 312 around which the first inner circumferential surface 312 is wound, and the inner annular body 31 is provided with a first drainage hole 313, and the first drainage hole 313 is coupled to the first The inner circumferential surface 312 and the outer circumferential surface of the inner ring body 31 are in a communicating manner, and the first drainage hole 313 has a meandering path shape, that is, the two ends of the first drainage hole 313 are not on the same axis, and the first A drain hole 313 is formed in an N-shaped path. The first drain hole 313 includes a first radial hole 3131, a second radial hole 3132, and a first axial hole 3133. The first axial hole 3133 is associated with the first axial hole 3113. The first radial hole 3131 and the second radial hole 3132 are in a parallel shape, the first radial hole 3131 is parallel with the second radial hole 3132, and the first axial hole 3133 is opposite to the first The radial hole 3131 and the second radial hole 3132 are perpendicular to each other. The second groove 311 and the first inner circumferential surface 312 are convexly provided with a plurality of ring protrusions 314, and the ring protrusions 314 and the The first inner peripheral surface 312 is attached to The annular protrusions 314 are loop-shaped at the same end surface of the inner ring body 31. The inner ring body 31 is provided with a plurality of first through holes 315, and each of the first through holes 315 is associated with each of the bodies 10 The first through hole 315 is identical to the first screw portion 12, and the plurality of first holes 315 are annularly arranged with the second groove 311 as an axis. The first through hole 315 is formed in a penetrating shape, and the other end surface of the inner ring body 31 is provided with a first ring groove 316. The first ring groove 316 is opposite to the body 10, and the first ring groove 316 is coupled to the first ring groove 316. The inner circumferential surface 312 is away from the first annular groove 316. The first first sealing member 32 is received in the first drainage hole 313, and a first plug member 32 is received therein. At the first radial hole 3131, the other first plug member 32 is received at the first axial hole 3133, and the plurality of first plug members 32 are configured to make the first drain hole 313 have a meandering path shape. A sealing member 33 is formed in a circular shape; the sealing ring 33 is received in the first annular groove 316, and the sealing ring 33 is in a tight fitting state with the first annular groove 316. The sealing ring 33 is fastened. In the body 10 and the inner ring Body 31 The first screwing member 40 is disposed through the first through hole 315 of the inner ring body 31 and screwed to the first screwing portion 12 to make the inner ring body The group 30 is fixed to the end surface of the body 10, the number of the first screwing members 40 is six, the first screwing member 40 is externally threaded; and the rotating shaft 50 is supplemented by the fifth figure and In the sixth embodiment, the rotating shaft 50 is pivotally disposed at the first receiving slot 11 of the main body 10 and the second receiving slot 311 of the inner ring body 31. The rotating shaft 50 protrudes from the inner end of the inner ring body 31. A bearing member is disposed between the rotating shaft 50 and the first receiving slot 11 , and a third receiving slot 51 is disposed at one end of the rotating shaft 50 , and the third receiving slot 51 is for receiving a tool. The rotating shaft 50 is provided with a first outer peripheral surface 52 protruding from the outer ring body 31. The rotating shaft 50 is provided with a first end surface 53 which is abutted against the first end surface 53. On the end surface of the inner ring body 31, a plurality of ring-shaped recesses 54 are formed in the first outer peripheral surface 52. The plurality of ring-shaped recessed grooves 54 are linearly arranged in the axial direction of the rotating shaft 50, and each ring is not grooved. 54 series has a trapezoidal shape, and the rotating shaft 50 is near The first end surface 53 is provided with a ring recess 55, and the ring recess 55 is received at the ring protrusion 314 of the inner ring body 31, so that the ring recess 55 and the ring protrusion 55 are looped back. The ring recess 55 is in a loop shape; a front cover group 60, as shown in the seventh figure, is fixed at the end of the inner ring body 31, and the front cover group 60 is fixed. The front cover set 60 includes: a front cover 61 and a plurality of second plugs 62; the front cover 61, as shown in the eighth and ninth figures, the front cover The 61 series is provided with a second inner circumferential surface 611 pivotally disposed with the first outer circumferential surface 52 of the rotating shaft 50, and between the second inner circumferential surface 611 and the first outer circumferential surface 52 The second inner peripheral surface 611 is provided with a plurality of ring grooves 612, each ring groove 612 is opposite to each of the ring notches 54 of the rotating shaft 50, and the front cover 61 is provided a second drain hole 613, the second drain hole 613 is attached to the ring The outer peripheral surface of the groove 612 and the front cover 61 are in a communicating manner, and the second drainage hole 613 has a meandering path shape, that is, the second end of the second drainage hole 613 is not on the same axis, and the second drainage is The hole 613 has an N-shaped path, and the second drain hole 613 includes four third radial holes 6131 and a second axial hole 6132. The second axial hole 6132 is connected to the four third radial holes. The six third radial holes 6131 are in a parallel shape, and the second axial holes 6132 are perpendicular to the four third radial holes 6131. The front cover 61 is provided with a plurality of The second through hole 614 is opposite to each of the first through holes 315. The number of the second through holes 614 is one and a half of the first screwing portion 12 and the first through hole 315. The second through-holes 614 are arranged in an annular shape with the second inner peripheral surface 611 as an axis; the plurality of second plugs 62 are received at appropriate positions of the second drain hole 613, and the plurality of second plugs 62 are included. Four transverse members and two axial members, each of which is received at a position corresponding to each of the third radial holes 6131, the two axial members are accommodated in At a suitable position of the second axial hole 6132, the plurality of second plugs 62 are such that the second drain hole 613 has a meandering path shape; the plurality of second screw members 70 are disposed through the second screw hole 70 The first through hole 315 and the second through hole 614 are screwed to the first screwing portion 12 to press the front cover group 60 against the end surface of the inner ring body group 30, so that the front cover group 60 is The second screwing member 70 is six in number, and the second screwing member 70 is annularly spaced from the first screwing member 40.

Please refer to the tenth to thirteenth figures. The tenth figure is the three-dimensional combination diagram of some components of the spindle structure of the creation. The eleventh figure is the three-dimensional combination diagram of the spindle structure of the creation. The twelfth figure is the creation of this. A side view of the main shaft structure, a thirteenth view is a cross-sectional view of the twelfth drawing of the present invention, which is clearly shown in the drawing, the inner ring body group 30 is fixed at the end of the body 10, the sealing ring The first screw member 40 is disposed in the first through hole 315. And the first screwing portion 12 is screwed to the first housing portion 10, and the rotating shaft 50 is pivotally disposed at the first receiving slot 11 and the second receiving slot 311. One end of the rotating shaft 50 protrudes from the inner ring body 31, and the front cover group 60 is fixed at an end of the inner ring body group 30, and the second inner circumferential surface 611 is connected to the first outer circumferential surface. The 52-phase pivoting, the ring groove 612 is opposite to the ring-shaped groove 54. The second screw 70 is disposed at the first hole 315 and the second hole 614 and is screwed with the first hole. The portion 12 is screwed so that the front cover group 60 is pressed against the end surface of the inner ring body group 30 and fixed to the body 10.

Please refer to the fourteenth figure, which is an enlarged view of the thirteenth drawing of the present invention. The two first plugs 32 are received in the first drain hole 313 to make the first The drain hole 313 has a meandering path shape, and the plurality of second plugs 62 are received in the second drain hole 613, so that the second drain hole 613 has a meandering path shape, and the first drain hole 313 and the second The drain holes 613 each have an N-shaped path shape.

15 is a cross-sectional view of the inner ring body 31 of the second embodiment of the present invention. As shown in the figure, the axis of the first drain hole 313 of the inner ring body 31 is shown. The core has a slope with respect to the axis of the second pocket 311.

Please refer to the sixteenth figure. The sixteenth figure is a perspective view of the third embodiment of the present creation. Referring to the tenth figure, the appearance of the rotating shaft 50 is different from the rotating shaft 50 of the tenth figure. .

In another embodiment of the present invention, the first drain hole 313 and the second drain hole 613 have an N-shaped path shape. Similarly, the first drain hole 313 and the second drain hole 613 have a meandering path shape.

In another embodiment of the present invention, the first drainage holes 313 are plural and the second storage slots 311 are annularly arranged in an annular shape, and the second drainage holes 612 are plural and have inner circumferential surfaces. 611 is an annular array of axes.

The advantages of this creation spindle structure are:

1. When the spindle structure is vertically disposed, the first outer peripheral surface 52 of the rotating shaft 50 is pivotally disposed with the second inner peripheral surface 611 of the front cover 61. Therefore, the first outer peripheral surface 52 and the first portion There is a gap between the two inner circumferential surfaces 611. When the rotating shaft 50 drives the tool to rotate rapidly, each liquid, such as cutting fluid or coolant, is used between the cutter and the workpiece, and the liquid can enter the first time when entering the liquid. The drain hole 313 and the second drain hole 613 are discharged to reduce the probability that the liquid enters the spindle structure through the gap.

The first plug member 32 and the second plug member 62 are respectively received in the first drain hole 313 of the inner ring body 31 and the second drain hole 613 of the front cover 61, so that the first The drain hole 313 and the second drain hole 613 are in a meandering path shape, and a plurality of spindle structures are disposed in a lateral direction, that is, the axis of the spindle structure is horizontal, and the first drain hole 313 and the second drain hole 613 are 613. That is, the first drain hole 313 and the second drain 613 are in a meandering path, and the liquid enters from the first drain hole 313 and the second drain hole 613 when the rotating shaft 50 rotates rapidly. The probability of this spindle structure is greatly reduced.

3. The main shaft structure can be arranged vertically or horizontally. When the main shaft structure is horizontally disposed, the first drainage hole 313 and the second drainage hole 613 having a meandering path shape are straight holes compared with the conventional drainage hole. The spindle structure of the shape, such as the Taiwan Patent Application No. 103207142, can further reduce the probability of each liquid entering the spindle structure from the first drainage hole 313 and the second drainage hole 613, that is, the spindle structure is set vertically or horizontally. The main shaft structure can be designed in the same structure. The first drainage hole 313 and the second drainage hole 613 have a meandering path shape, which can effectively reduce the entry of each liquid into the main shaft structure.

4. The ring notch 54 is opposite to the ring groove 612. The ring groove 612 is in communication with the second drain hole 613. After the liquid enters the ring notch 54, the ring flows to the ring. The groove 612 is discharged from the second drain hole 613.

5. When the liquid passes through the first inner circumferential surface 312 of the front cover 31, since the first inner circumferential surface 312 is in communication with the first drainage hole 313, each liquid will be from the front cover 31. The first drain hole 313 is discharged.

Therefore, the spindle structure of this creation has industrial utilization, novelty and progress, and can meet the application requirements of new patents, and apply in accordance with the law.

10‧‧‧ Ontology

11‧‧‧First slot

12‧‧‧First screwing

30‧‧‧ Inner ring group

40‧‧‧First screw fitting

50‧‧‧Rotary axis

51‧‧‧ third tank

52‧‧‧First outer perimeter

53‧‧‧ first end face

60‧‧‧ front cover group

70‧‧‧Second screw

Claims (13)

A spindle structure is used on a machine tool, which includes: a body, the system is disposed on a machine tool, the system is provided with a first cavity, the first cavity is perforated, The first end of the main body is provided with a plurality of first screwing portions, wherein the plurality of first screwing portions are arranged in an annular shape with the first receiving groove as an axis; and an inner ring body group is fixed by the inner ring body group The inner ring body assembly includes: an inner ring body; the inner ring body, the inner ring system is provided with a second receiving groove, and the second receiving groove system and the first body of the body The second groove is formed in a circular hole shape, and the inner ring system is provided with a plurality of first perforations, each of the first perforations being opposite to each of the first screw portions of the body, The number of the first perforations is the same as that of the first screwing portion, and the plurality of first perforations are arranged in a ring shape with the second receiving groove as an axis, the first perforation is in a penetrating shape; The first screwing member is disposed on the first through hole of the inner ring body and screwed to the first screwing portion, so that the inner ring body group is fixed on the a rotating shaft, the rotating shaft is pivotally disposed at the first receiving groove of the body and the second receiving groove of the inner ring body, and one end of the rotating shaft protrudes from the outer ring body, One end of the rotating shaft is provided with a third receiving groove for the tool receiving, the rotating shaft is provided with a first outer peripheral surface, and the first outer peripheral surface protrudes from the outer ring body, the rotating shaft The first end surface is disposed on the end surface of the inner ring body, and the first outer peripheral surface is provided with a plurality of ring vacancies, wherein the plurality of ring vacancies are based on the axis of the rotating shaft The front cover group is fixed at an end of the inner ring body, and the front cover set is pivoted with the rotating shaft, and the front cover set comprises: a front cover The front cover is provided with a second inner circumferential surface, and the second inner circumferential surface is pivotally disposed with the first outer circumferential surface of the rotating shaft, and between the second inner circumferential surface and the first outer circumferential surface a loose fit structure, The second inner circumferential surface is provided with a plurality of ring grooves, each ring groove is opposite to each ring notch of the rotating shaft, and the front cover is provided with a second drainage hole, and the second drainage hole is The annular groove and the outer surface of the front cover are in a communicating manner, and the second drainage hole has a roundabout path, and the front cover is provided with a plurality of second perforations, each of the second perforations being opposite to each of the first perforations The number of the second perforations is one of the first screwing portion and the first perforating portion, and the plurality of second perforations are annularly arranged with the second inner peripheral surface as an axis; the plurality of second screwing members The second screwing member is disposed on the first through hole and the second through hole and screwed to the first screwing portion, so that the front cover group is pressed against the end surface of the inner ring body group, so that The front cover set is fixed to the body. The spindle structure of claim 1, wherein the number of the first screwing portions is twelve; the number of the first screwing members is six, and the first screwing member is externally threaded. The number of the second screwing members is six, and the second screwing member is arranged in an annular interval from the first screwing member. The spindle structure of claim 1, wherein one end of the inner ring body is provided with a first inner circumferential surface, the first inner circumferential surface is wound around the first receiving groove, and the inner ring system is provided with a first drainage The first drain hole is in communication with the first inner peripheral surface and the outer peripheral surface of the inner ring body, and the first drain hole has a meandering path shape. The spindle structure of claim 3, wherein the first end of the first drain hole is not on the same axis. The spindle structure of claim 3, wherein the first drain hole has an N-shaped path shape. The spindle structure of claim 3, wherein the first drain hole comprises a first radial hole, a second radial hole and a first axial hole, the first axial hole and the first radial direction The hole and the second radial hole are in a parallel shape, the first radial hole is parallel with the second radial hole, the first axial hole and the first radial hole and the second radial direction The hole system is vertically vertical, and the inner ring body system is provided with a complex a plurality of first plugs, the plurality of first plugs are received in the first drain hole, a first plug is received in the first radial hole, and the other first plug is received in the first plug In the first axial hole, the plurality of first plugs have a first drainage hole in a meandering path shape, and the first plug is in a circular shape. The spindle structure of claim 1, wherein the second pocket and the first inner peripheral surface are convexly provided with a plurality of loop protrusions, and the loop protrusions and the first inner peripheral surface are disposed therein At the same end surface of the ring body, the ring convex portion is in a loop shape, and the first end surface of the rotating shaft is provided with a ring recess portion, and the ring recess portion is received at the ring convex portion of the inner ring body. The annular recessed portion and the annular convex portion are formed in a meandering gap shape, and the annular recessed portion has a loop shape. The spindle structure of claim 1, wherein the other end surface of the inner ring body is provided with a first ring groove, the first ring groove is opposite to the body, the first ring groove is connected to the first inner circumference The first ring groove is in the form of a concave ring groove; the inner ring body is provided with a sealing ring, and the sealing ring is received at the first ring groove, and the sealing ring and the first ring groove are The sealing ring is disposed between the body and the inner ring body. The spindle structure of claim 1, wherein each of the ring-shaped slots has a trapezoidal shape. The spindle structure of claim 1, wherein the second end of the second drain hole is not on the same axis. The spindle structure of claim 1, wherein the second drain hole has an N-shaped path shape. The spindle structure of claim 1, wherein the second drain hole comprises four third radial holes and a second axial hole, the second axial holes being formed with the four third radial holes In a communicating manner, the four third radial holes are parallel, and the second axial hole is perpendicular to the four third radial holes, and the front cover group is provided with a plurality of second plugs. The plurality of second plugs are disposed at appropriate positions of the second drain hole, and the plurality of second plugs comprise four transverse members and two axial members, and each of the transverse members is received in the receiving portion. At a suitable position of each of the third radial holes, the two axial members are received at appropriate positions of the second axial hole, and the plurality of second plugs are such that the second drainage hole is Roundabout path. The spindle structure of claim 1, wherein the axis of the first drain hole of the inner ring body has a slope with respect to the axis of the second pocket.