KR101871911B1 - Modularized electric main spindle structure - Google Patents

Abstract

The present invention relates to a modular electric rotating spindle structure, which comprises a main shaft, an electric conduction unit and an electric power supply unit; Wherein the electrical conduction unit comprises one bushing, one insulating sleeve, two electrical conduction rings, one contact ring and two electrical conducting wires, two bushing wire guide holes open in the axial direction of the bushing Wherein the insulating sleeve is fitted on an outer circumferential surface of the bushing and two insulating sleeve wire guide holes are formed in an axial direction of the insulating sleeve so that the two electric conductive rings are spaced apart from each other by a predetermined distance, Wherein one end of each of the two electrically conductive wires is fixedly connected to each of the electrically conductive rings, and the other ends of the two electrically conductive wires are respectively connected to the corresponding positions of the corresponding electrically conductive rings, The insulation sleeve is drawn along a wire guide hole and a bushing wire guide hole, the bushing being fitted to the main shaft Wherein the main shaft and the coupling in close contact by the contact ring, and wherein the electrical supply unit is delivered to an external electric power to said electrically conductive ring and then outputs the electric power through the electrical conducting wire and back; Accordingly, the present invention can achieve effects such as easy installation, good assembly quality, and excellent reliability of electric conduction.

Description

Modularized electric main spindle structure [0002]

The present invention relates to an electric rotary spindle, and more particularly, to a modular electric rotary spindle structure.

The electric rotary spindle has two main functions, high-speed rotation and power transmission. Accordingly, the ultrasonic knife connected to the electric rotary spindle synchronizes and rotates along the electric rotary spindle, thereby cutting the workpiece. Further, by vibrating at high frequency through the electric power transmitted by the electric rotary spindle, the cutting efficiency is improved, The wear that occurs during the process can be reduced.

However, as disclosed in Taiwan Patent Publication M428012, a conventional electric rotary spindle is required to assemble an electric conductive component (e.g., a bearing, an insulator, and the like) mainly on the main shaft, The space is so narrow that it is very difficult to carry out operations such as assembling of components and welding of electric conductive wires, so that not only the assembly quality is liable to be defective but also the reliability of electric conduction is poor.

SUMMARY OF THE INVENTION In view of the above problems, in order to solve the problems of difficulty in construction, poor quality of construction, poor reliability of electric conduction, etc., in the electric rotating spindle according to the related art, Wherein the bushing includes a bushing, an insulating sleeve, two electrical conductive rings, a contact ring, and two electrically conductive wires, two bushing wire guide holes are formed in the axial direction of the bushing, The sleeve is fitted to the outer circumferential surface of the bushing, two insulating sleeve wire guide holes are formed in the axial direction of the insulating sleeve, the two electric conductive rings are fitted to the outer circumferential surface of the insulating sleeve in a spaced- , The contact ring is in contact with the inner circumferential surface of the bushing, one end of each of the two electrically conductive wires is fixedly connected to each of the electrically conductive rings, and the other ends of the two electrically conductive wires are respectively connected to insulation sleeve wire guide holes And a bushing wire guide hole, wherein the bushing is fitted to the main shaft, One of the conductive contact unit to engage the main shaft; An electric power supply unit interposed in the electric conduction unit and contacting the two electric conduction rings to transmit external power to the electric conduction ring and then to output electric power again through the electric conduction wire; The present invention provides a modular electric rotating spindle structure comprising:

Wherein the main shaft includes two main shaft electrical conductive contacts, two through holes and two wire guide holes, each of the wire guide holes communicates with a through hole at a corresponding position, Each of the electric conduction wires of the electrical conduction unit is passed to connect each of the electrical conduction wires to each of the spindle electrical conduction contacts.

In the modular electric rotary spindle structure, the main shaft includes one main shaft lever, one coupler, and one main shaft sleeve; Wherein the two through holes are open at a radial position of the main shaft lever, the two wire guide holes are open at an axial position of the main shaft lever, the main shaft electrical conductive contact is provided on the main shaft lever, The main spindle lever is connected to one end of the main spindle lever to drive the main spindle lever to rotate by transmitting external rotational power to the main spindle lever, the main spindle sleeve is fitted outside the other end of the spindle lever; The contact ring of the electric conduction unit is in close contact with the main shaft lever.

In the modularized electric rotary spindle structure, the electric conduction unit further comprises a single pressure cap and a plurality of locking units; A plurality of pressure cap locking holes and two pressure cap wire guide holes are formed in the axial direction of the pressure cap; A plurality of bushing locking holes are formed in the axial direction of the bushing; Wherein the locking unit is inserted into a bushing locking hole of the bushing and a pressure cap locking hole of the bushing to lock the pressure cap and the bushing, the pressure cap being in contact with the urging ring to urge the urging ring; The pressure cap wire guide hole allows the electrically conductive wire to pass through.

In the modular electric rotating spindle structure, one annular blocking ring portion is formed on the outer circumferential surface of the insulating sleeve, and the two electric conductive rings are blocked from each other by the blocking ring portion.

Wherein the electrically conductive unit further comprises two insulating rings, two insulating ring wire guide holes are formed in an axial direction of the insulating rings, and the two insulating rings Are fitted on the upper surface of the bushing and are respectively in contact with the outer ends of the respective conductive rings, and the two insulating ring wire guide holes pass the respective conductive wires.

In the modular electric rotating spindle structure, one annular flange is provided at the tip of the bushing, and the bushing locking hole and the bushing wire guide hole are installed in the annular flange; The electrically conductive unit comprises one stopping nut which is locked at the end of the bushing, and the annular flange and the stopping nut fix the insulation sleeve, the electrically conductive ring and the insulating ring to the bushing.

In the modularized electric rotary spindle structure, the electric supply unit may include one annular base and two electrically conductive components; The two electrically conductive components pass through the annular base and one end thereof contacts each of the electrically conductive rings, thereby introducing external electric power to the electrically conductive ring by the electrically conductive component.

In the modular electric rotary spindle structure, the electrically conductive component is a carbon brushing device.

In the modularized electric rotary spindle structure, the electric supply unit may further comprise a single fixed base, the fixed base is connected to the main body of the main shaft, and the annular base is fixed to the fixed base.

Wherein the outer ring and the inner ring are engaged with each other along an inclined surface, and the outer ring is subjected to a force The inner ring is pushed out and brought into close contact with the main shaft.

The present invention is characterized in that an electric conduction unit used for transferring electric power between an electric power supply unit and a main shaft is assembled in a modular manner on the outside of a main shaft and assembled to the main shaft after the assembly of the electric conduction unit is completed; Assembly quality and good electrical conduction reliability can be maintained by allowing assembly and welding of each component and the conductive wire in the work space satisfactorily, without being limited by the narrow working space of the main shaft during the assembly process.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a three-dimensional exploded view according to a preferred embodiment of the present invention; Fig.
2 is an exploded view of main parts of the embodiment shown in Fig.
3 is a plan sectional view of the embodiment shown in Fig.
FIG. 4 is a use state view of the embodiment shown in FIG. 1. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings so that the examiner can understand and appreciate the features and advantages of the present invention in more detail.

1 to 4, a modular electric rotary spindle structure 100 according to a preferred embodiment of the present invention includes one main shaft 10, one electrical conduction unit 20, and one electrical supply unit 30), and among them,

As shown in FIGS. 1 to 4, the main shaft 10 includes one main shaft lever 11, one coupler 12, and one main shaft sleeve 14. Two through holes 111 are formed in the radial direction of the main shaft lever 11 and wire guide holes 112 are formed in the axial direction of the main shaft lever 11, And the coupler 12 is connected to one end (tip end) of the main shaft lever 11 and connected to one motor output (not shown) And is transmitted to the main shaft lever 11 to drive the main shaft lever 11 to rotate and the main shaft sleeve 14 is placed outside the other end (distal end) of the main shaft lever 11. The main spindle 10 includes, for example, a main spindle of a machine tool, such as a drill machine, a milling machine, a grinding machine, a lathe machine, a gantry machine, etc. However, Point to the body.

1 to 4, the electrical conduction unit 20 includes a bushing 21, an insulating sleeve 22, two electrical conducting rings 23, two insulating rings 24, One locking ring 25, one pressing cap 26, a plurality of locking units 27, one detent nut 28, and two electrically conductive wires 29. As shown in Fig. A plurality of bushing locking holes 211 and two bushing wire guide holes 212 are formed in the axial direction of the annular flange 210 so as to be opened at the tip of the bushing 21; The insulation sleeve 22 is fitted to the outer peripheral surface of the middle portion of the bushing 21 and two insulation sleeve wire guide holes 221 are formed in the axial direction of the insulation sleeve 22, An annular blocking ring portion 222 is formed to protrude therefrom; The two electrically conductive rings 23 are fitted to the outer circumferential surface of the insulating sleeve 22 and are spaced apart by the blocking ring portion 222, Two insulating ring wire guide holes 241 are formed in the axial direction of each insulating ring 24 and the two insulating rings 24 are fitted to the outer peripheral surface of the bushing 21, Contacts the outer end of the conductive ring 23, and the upper insulating ring 24 supports the annular flange 210; The contact ring 25 contacts the inner circumferential surface of the bushing 21 and approaches the tip of the bushing 21; A plurality of pressing cap locking holes 261 and two pressing cap wire guiding holes 262 are formed in the axial direction of the pressing cap 26; The locking unit 27 is a bolt and is inserted into a pressure cap locking hole 261 of the pressure cap 26 and a bushing locking hole 211 of the bushing 21 to press the pressure cap 26 and the bushing 21 And the pressing cap 26 and the contact ring 25 are brought into contact with each other; The detent nut 28 is locked at the distal end of the bushing 21 and supports the lower insulation ring 24 so that the insulation sleeve 24, the electrically conductive ring 23, 21); One end of each of the two electrically conductive wires 29 is fixedly connected (soldered) to each of the electrically conductive rings 23, and the other ends of the two electrically conductive wires 29 are sequentially connected to an insulating sleeve wire Is guided along the pressure cap wire guide hole 262 via the guide hole 221, the insulating ring wire guide hole 241, and the bushing wire guide hole 212.

The electric conduction unit 20 is configured such that the bushing 21 is fitted to the main shaft lever 11 of the main shaft 10 and then the pressing cap 26 is pressed through the locking unit 27 to close the contact ring 25 to be fixedly coupled to the main shaft lever 11 of the main shaft 10. The electric conductive wires 29 drawn out from the two pressure cap wire guide holes 262 are sequentially passed through the through holes 111 and the wire guide holes 112 at corresponding positions on the main shaft lever 11 Respectively, to the two spindle electrically conductive contacts 113 on the main shaft lever 11.

1 to 4, the electric supply unit 30 is constituted to include one annular base 31, two electric conduction components 32 and one fixing base 13, The base 13 is connected to an apparatus body (not shown) provided with the main shaft. The annular base 31 is fitted to the outside of the electric conduction unit 20 and is fixed to the fixing base 13. A constant gap is formed between the fixing base 31 and the electric conduction unit 20 And the two electrically conductive components 32 pass through the annular base 31 along the radial direction so that one ends thereof contact the respective electrically conductive rings 23 so that the electrically conductive components 32 And introduces electric power into the electric conductive ring 32. The electrically conductive component 32 according to this embodiment is a carbon brush device.

The above is a description of the structure of each part of the modularized electric rotary spindle structure 100 according to one preferred embodiment of the present invention and the method of its composition.

4, when the distal end of the main shaft lever 11 of the main shaft 10 according to the present invention is connected to one ultrasonic knife handle 90, the main shaft 10 (Not shown) on the ultrasonic knife handle 90 can cut the workpiece by rotating the ultrasonic knife handle 90 through the ultrasonic knife handle 90 and furthermore, 32 to the electrical conduction ring 23 of the electrical conduction unit 20 in contact and then to the main spindle electrical conduction contact of the spindle 10 via the two electrical conduction wires 29 113 to the ultrasonic transducer 92 in the ultrasonic knife handle 90 through the contact of the main shaft electrical conductive contact 113 and the knife handle electrical conductive contact 91 on the ultrasonic knife handle 90, Supplying electric power, thereby causing the high-frequency vibration of the ultrasonic transducer 92, improving the smoothness of the cutting process and can reduce the wear of the knives.

The present invention proposes an electric conduction unit 20 used for transferring electric power from the electric power supply unit 30 to the main shaft 10 in a modular manner at first outside the spindle 10, After the assembly is completed, it is assembled to the main shaft 10 as a whole again. Accordingly, it is possible to smoothly and stably weld (weld) the work space in which the electrically conductive wire meets without being limited by the narrow working space of the main axis during the assembly process, so that the quality of assembly and the good electric conduction reliability can be maintained .

The outer ring 251 and the inner ring 252 are made of the same material as the outer ring 251 and the inner ring 252. In this embodiment, And the inner ring 252 is pushed out and brought into close contact with the main shaft lever 11 of the main shaft 10 when the outer ring 251 is pressed by the pressing lid 26. [

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the scope of the present invention, and all equivalent changes to the present invention according to the related art are within the scope of the present invention.

100: Modular electric rotating spindle structure
10:
20: electric conduction unit
11: Spindle lever
111: Through hole
112: wire guide hole
113: Spindle electrical conduction contact
12: Coupler
13: Fixed base
14: Spindle sleeve
21: Bushing
210: annular flange
211: Bushing locking hole
212: Bushing wire guide hole
22: Insulation sleeve
221: insulated wire guide hole
222:
23: Electrically conductive ring
24: Insulation ring
241: Insulation ring wire guide hole
25:
251: outer ring
252: inner ring
26: Pressure cap
261: Pressure cap locking hole
262: Pressure cap wire guide hole
27: Locking unit
28: Stop nut
29: Electrically conductive wire
30: Electric power supply unit
31: annular base
32: Electrical conduction component
90: Ultrasonic knife handle
91: Handle electrically conductive contact
92: Ultrasonic transducer

Claims (11)

One spindle;
Wherein the bushing includes a bushing, an insulating sleeve, two electrical conductive rings, a contact ring, and two electrically conductive wires, two bushing wire guide holes are formed in the axial direction of the bushing, The sleeve is fitted to the outer circumferential surface of the bushing, and two insulating sleeve wire guide holes are formed in the axial direction of the insulating sleeve. The two electric conductive rings are fitted to the outer circumferential surface of the insulating sleeve in a spaced- , The contact ring is in contact with the inner circumferential surface of the bushing, one end of each of the two electrically conductive wires is fixedly connected to each of the electrically conductive rings, and the other ends of the two electrically conductive wires are respectively connected to insulation sleeve wire guide holes And a bushing wire guide hole, wherein the bushing is fitted to the main shaft, One of the conductive contact unit to engage the main shaft;
An electric power supply unit interposed in the electric conduction unit and contacting the two electric conduction rings to transmit external power to the electric conduction ring and then to output electric power again through the electric conduction wire; Wherein the main spindle structure comprises: The method according to claim 1,
Wherein the main shaft comprises two main shaft electrical conductive contacts, two through holes and two wire guide holes, and each of the wire guide holes communicates with a through hole at a corresponding position to electrically connect each of the electrical conductive wires of the electrical conducting unit And connecting the electric conduction wires to the main shaft electrical conduction contacts. 3. The method of claim 2,
Wherein the main shaft comprises one main shaft lever, one coupler and one main shaft sleeve; Wherein the two through holes are open at a radial position of the main shaft lever, the two wire guide holes are open at an axial position of the main shaft lever, the main shaft electrical conductive contact is provided on the main shaft lever, The main spindle lever is connected to one end of the main spindle lever to drive the main spindle lever to rotate by transmitting external rotational power to the main spindle lever, the main spindle sleeve is fitted outside the other end of the spindle lever; And the contact ring of the electric conduction unit is in close contact with the main shaft lever. The method according to claim 1,
The electric conduction unit further comprises one pressure cap and a plurality of locking units; A plurality of pressure cap locking holes and two pressure cap wire guide holes are formed in the axial direction of the pressure cap; A plurality of bushing locking holes are formed in the axial direction of the bushing; Wherein the locking unit is inserted into a bushing locking hole of the bushing and a pressure cap locking hole of the bushing to lock the pressure cap and the bushing, the pressure cap being in contact with the urging ring to urge the urging ring; And the pressure cap wire guide hole allows the electric conductive wire to pass therethrough. The method according to claim 1,
Wherein one annular blocking ring portion is formed on an outer circumferential surface of the insulating sleeve, and the two electric conductive rings are blocked from each other by the blocking ring portion. The method according to claim 1,
Wherein the electrically conductive unit further comprises two insulating rings, two insulating ring wire guide holes are formed in the axial direction of the insulating rings, and the two insulating rings are inserted into the upper surface of the bushing And each of the two insulating ring wire guide holes is in contact with an outer end of each of the electric conductive rings, and the two insulating ring wire guide holes allow the respective electric conductive wires to pass therethrough. The method according to claim 6,
Wherein one end of the bushing is provided with an annular flange, and a bushing locking hole and a bushing wire guide hole are provided in the annular flange; Characterized in that the electrically conductive unit comprises one stop nut which is locked at the end of the bushing, the annular flange and the stop nut securing the insulation sleeve, the electrically conductive ring and the insulation ring to the bushing Electric rotating spindle structure. The method according to claim 1,
The electric power supply unit comprising one annular base and two electrically conductive components; Wherein the two electrical conduction components pass through the annular base and one end contacts each of the electrical conduction rings thereby introducing external electrical power into the electrical conduction ring by the electrical conduction component. . 9. The method of claim 8,
Wherein the electrically conductive component is a carbon brushing device. 9. The method of claim 8,
Wherein the electric supply unit further comprises a fixed base, the fixed base is connected to the main body of the main body, and the annular base is fixed to the fixed base. The method according to claim 1,
Wherein the outer ring and the inner ring are engaged with each other along an inclined surface and the inner ring is pushed out when the outer ring is subjected to a force, And the contact portion is brought into close contact with the main shaft.

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