KR20180032487A - Main spindle comprising a cooling device - Google Patents

Abstract

The present invention relates to a main rotary shaft with a cooling device. The main rotary shaft with a cooling device comprises: a main shaft; a pull rod; a knife handle; and an air spray device including a set of fixed rings, a set of knife rings, and a set of labyrinth seal rings. According to the present invention, the main rotary shaft with a cooling device discharges heat which is generated from an ultrasound transducer inside the knife handle, thereby lowering a temperature.

Description

[0001] The present invention relates to a spindle with a cooling device,

The present invention relates to a rotary spindle, and more particularly to a cooling device for an ultrasonic rotating spindle.

The ultrasonic rotating spindle is capable of improving the efficiency of the main spindle by providing high-speed rotation while providing high-frequency vibration at the main spindle. By combining the rotating spindle with the ultrasonic knife handle, the ultrasonic knife handle is synchronously rotated along the main axis, The workpiece is cut through the knife fitted to the handle and the electric power is transmitted to the ultrasonic knife handle through the rotary spindle to vibrate the ultrasonic knife handle at a high frequency, thereby improving the working efficiency and reducing the wear of the tool .

However, since the ultrasonic transducer not only generates a high temperature during operation but also the ultrasonic transducer is installed in a closed chamber of the knife handle, it is difficult for the heat to diffuse to the outside, so that the ultrasonic transducer is easily accumulated therein. And if the temperature is too high, it may even damage the ultrasonic transducer or shorten the life span.

In addition, since the heat is accumulated in the knife handle by the operation of the ultrasonic transducer, the thermal expansion causes not only an influence on the precision but also a difficulty in the processing aspect. Although a cleaning device capable of replacing a knife is sold in the market and the gas is sprayed to remove dirt on the coupling surface of the main shaft and the knife handle, the gas injection device as described above effectively removes heat generated from the ultrasonic transducer The effect of cooling down can not be achieved.

The present invention provides a cooling device for solving the above problems.

The present invention relates to a rotary spindle equipped with a cooling device,

One main shaft having one main shaft sleeve and an axial center hole; A pull rod having one axial vent hole and located inside the axial center hole of the main shaft and movable in the axial center hole; And a knife coupling stage, wherein the assembly stage is assembled to the main shaft and used to engage with the pulling rod, and the knife coupling stage is combined with one knife Wherein one end of the opening is communicated with the chamber, one end is communicated with the vent hole of the pull rod, and the chamber is provided with a pore communicating with the outside; Wherein the stationary ring set includes a single stationary ring set, a single knife ring set, and one maze seal ring set, wherein the stationary ring set is mounted and fixed to the spindle sleeve in a non-rotatable manner, Wherein the gas passage is provided with one gas inlet and one gas outlet, the knife ring set surrounding and fixed to the outside of the main shaft so as to correspond to the stationary ring set in the axial direction, and the knife ring set Wherein the knife ring set is provided with one gas passageway and wherein the gas passageway is provided with one gas inlet and one gas outlet, The labyrinth ring set communicates with the vent hole of the pull rod, Wherein the gas outlet of the stationary ring set and the gas inlet of the knife ring set are located inside the labyrinth seal ring set and the gas is introduced through the gas inlet of the stationary ring set, A gas injection mechanism that enters the chamber of the knife handle via the ring set and the vent hole of the pull rod and is discharged through the pores; .

In the rotary spindle equipped with the cooling device, a pore of the knife handle is provided with a groove, an axial hole and a radial hole on the inner wall of the chamber of the knife handle, one end of the axial hole is connected to the groove, Is connected to the radial hole, and one end of the radial hole communicates with the outside of the chamber.

In the rotating spindle equipped with the cooling device, the stationary ring set is formed with one annular groove on the surface corresponding to the gas inlet of the knife ring set, and the gas outlet of the stationary ring set is located in the annular groove.

Characterized in that the maze seal ring set comprises one annular groove and one annular flange, the annular groove being provided in a set of knife rings, the annular flange being fixed to a stationary ring set And at least a portion of the annular flange is positioned in the annular groove and spaced apart from the annular groove by a predetermined distance.

Characterized in that the maze seal ring set comprises one annular groove and one annular flange, the annular groove being provided in a set of stationary rings, the annular flange being arranged on the knife ring set And at least a portion of the annular flange is positioned in the annular groove and spaced apart from the annular groove by a predetermined distance.

In the rotary spindle equipped with the cooling device, the pulling rod is provided with a radial coupling hole, the main shaft is provided with radial holes, the knife ring set is provided with a radial coupling hole, Wherein the distal end member is coupled through a radial alignment hole of the pulling rod and a radial alignment hole of the knife ring set after passing through the main shaft perforation and the distal end member moves along the axial direction within the radial perforation of the main axis .

In the rotary spindle equipped with the cooling device, one gas passage is provided in the axial direction of the end member, one gas passage inlet and one gas passage outlet are provided in the radial direction of the end member, The inlet communicates with the gas outlet of the knife ring set, and the gas passage outlet communicates with the vent hole of the pull rod.

The rotary spindle equipped with the cooling device may further include one ultrasonic transducer, and the ultrasonic transducer is installed inside the chamber of the knife handle.

In the rotary spindle equipped with the cooling device, one power conduction connection set is provided between the knife handle and the main shaft, and power is transmitted to the ultrasonic transducer inside the chamber through the power conduction connection set.

The present invention can achieve the following effects.

According to the structure according to the present invention, the heat generated by the ultrasonic transducer can be effectively discharged from the chamber of the knife handle by using the compressed gas, and the maze seal ring set can be installed between the stationary ring set and the knife ring set The knife ring set in the knife handle can receive the compressed gas provided from the fixed ring set and provide the knife handle in a state where the gas does not flow out through the gap and finally discharge the heat through the pores formed in the chamber of the knife handle.

2. Since the heat generated by the ultrasonic transducer can be effectively discharged, the problems that affect the precision due to the expansion of the knife handle in the prior art can be completely solved, so that the quality of the machining can be further improved.

3. Since the heat inside the chamber of the knife handle can be effectively exhausted, the effect of the ultrasonic transducer can be maximized, the service life can be prolonged, and the power consumption can be reduced.

1 is a cross-sectional view according to a preferred embodiment of the present invention.

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, a rotary spindle 100 equipped with a cooling device according to the present invention includes a main shaft 10, a pulling rod 20, a knife handle 30, And an injection mechanism (40).

In one embodiment, the spindle 10 is provided with an axial center hole 11 and the spindle 10 is provided with one spindle sleeve 12, The end of the spindle 10 is fixed to the spindle sleeve 12 in a rotatable manner and the upper end of the spindle 10 is fixed to an output of a spindle motor (not shown) .

The pull rod 20 is positioned within the axial center hole 11 of the main shaft 10 and can move up and down within the axial center hole 11 and the pull rod 20 Wherein the knife handle 30 has one axial ventilation hole 21 and one clamping part 24 at the lower end of the pulling rod 20, Or the knife handle 30 can be released, and the structure and characteristics of the portion belong to the prior art, and thus the detailed description thereof will be omitted here.

The knife handle 30 is used to engage one knife 50 so that the knife handle 30 has one assembly end 31 and one knife end 32 And the knife handle 30 is provided with one chamber 33. The assembly end 31 of the knife handle 30 is assembled to the center hole 11 of the main shaft 10, The knife coupling end 32 is used to couple with a knife 50 and the chamber 33 of the knife handle 30 is connected to one ultrasonic transducer The assembly end 31 of the knife handle 30 is provided with one opening 35 and is provided at the top of the assembly end 31 in the present embodiment, ) Communicates with the chamber 33 and the other end communicates with the ventilation hole 21 of the pulling rod 20 and the clamping unit 24, The pores 36 are formed in the inner wall of the knife handle 30 to have one groove 361. The pores 36 are formed in the chamber 33 of the handle 30, One axial hole 362 and one radial hole 363 are formed in the axial hole 362. One end of the axial hole 362 is connected to the groove 361 and the other end is connected to the radial hole 363 And the other end of the radial hole 363 communicates with the outside of the chamber 33. In this embodiment, the groove 361 is annularly provided on the inner surface of the chamber 33, Two to four are installed.

In one embodiment, the gas injector mechanism 40 comprises one stationary ring set 41, one knife ring set 42, and one maze seal ring set 43.

Since the fixed ring set 41 is fixed to the main shaft sleeve 12 in a rotatable form surrounded by the outer side of the main shaft 10, the fixed ring set 41 itself can be rotated And the structure and characteristics of the stationary ring set 41 are well known, and a detailed description thereof will be omitted here. The fixed ring set 41 has one gas passage 411 and the gas passage 411 has one gas inlet 412 and one gas outlet 413 and the gas inlet 412 Is used in the inflow of the compressed gas to provide the gas necessary for the present invention, and in this embodiment, the gas inlet 412 is used as one connector to connect with the external gas supply device.

In one embodiment, the knife ring set 42 surrounds and is fixed around the main shaft 10 and corresponds to the stationary ring set 41 in the axial direction, and the knife ring set 42 includes a main shaft 10 The knife ring set 42 is provided with one gas passage 421 and the gas passage 421 is provided with one gas inlet 422 and one And the gas outlet 423 is communicated with the vent hole 21 of the pull rod 20. The gas outlet 423 of the gas inlet 423 is connected to the gas outlet 423 of the pull rod 20. In an exemplary embodiment, the knife ring set 42 may move between a downwardly moved knife replacement position and a raised upward knife assembly position, and in this embodiment, have.

In one embodiment, the maze seal ring set 43 is installed between the knife ring set 42 and the stationary ring set 41, and the gas outlet 413 of the stationary ring set 41, The gas inlet 422 of the set 42 is located inside the maze seal ring set 43 and the maze seal ring set 43 is provided with one annular groove 431 and one annular flange 432 And at least a portion of the annular flange 432 is located in the annular groove 431 and spaced apart from the annular groove 431 by a predetermined distance (not shown). In this embodiment, And the annular flange 432 is mounted on the stationary ring set 41 and the annular recess 431 is provided on the stationary ring set 41 and the annular flange 432 is mounted on the ring set 42. [ Is provided in the knife ring set 42, and the same effect can be achieved through this. By forming one closed chamber between the knife ring set 42 and the stationary ring set 41 during movement via the labyrinth ring set 43, it is possible to prevent the outflow of the gas or reduce the outflow of gas .

The fixed ring set 41 is formed with one recessed annular groove 415 on the surface corresponding to the gas inlet 422 of the knife ring set 42, The outlet 413 is located in the annular groove 415 and is located between the stationary ring set 41 and the stationary ring set 415 through the annular groove 415 when the knife is set, That is, a distance corresponding to the height of the annular groove 415, can be made to pass through the gas.

1, the pull rod 20 is provided with a radial coupling hole 22, and the main shaft 10 has one radial perforation 101, The knife ring set (42) has one radial engagement hole (425); The end member 60 is formed by passing through the radial perforations 101 of the main shaft 10 and then passing through the engaging hole 22 of the pulling rod 20 and the knife & Is coupled through radial engagement holes 425 of the ring set 42 and the end members 60 are spaced apart from the radial perforations 101 of the main shaft 10 such that the end members 60 Can move along the axial direction in the radial perforations 101 of the main shaft 10. [ A single gas passage 61 is provided in the axial direction of the end member 60 and one gas passage inlet 62 and one gas passage 60 are provided in the radial direction of the end member 60. In this embodiment, And the gas passage inlet port 62 communicates with the gas outlet port 423 of the knife ring set 42 and the gas passage outlet port 63 communicates with the vent hole 21 of the pulling rod 20, Thereby connecting the gas passage 421 of the knife ring set 42 and the vent hole 21 of the pulling rod 20.

One set of power conduction connections 70 may be provided between the knife handle 30 and the main shaft 10 and a set of power conduction connection sets 70 may be used to power a portion of the main shaft 10 To the ultrasonic transducer 34 in the chamber 22 of the knife handle 30 (see the dotted line between the power conduction connection set 70 in Fig. 1 and the ultrasonic transducer 34 in Fig. 1) have.

The above description describes the structure of each part of the rotary spindle 100 equipped with the cooling device according to the preferred embodiment of the present invention and the method of its composition.

When using the present invention, an external compressed gas is provided through the gas inlet 412 and the gas flows from the set of stationary rings 41 through the gap into the knife ring set 42, Flows into the gas passage 21 of the pull rod 20 via the passage 61 and flows into the chamber 33 of the knife handle 30 so that the heat in the chamber 33 is discharged through the pores 36 The heat generated from the ultrasonic transducer 34 can be smoothly and completely discharged during the operation of the main shaft 10. Further, when replacing the knife, the annular groove 415 is secured between the knife ring set 42 and the stationary ring set 41 moved downward, so that the gas can be passed. Therefore, when the knife is replaced, And the knife handle 30 can be cleaned.

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: Rotary spindle equipped with cooling device
10:
20: pull rod
30: knife handle
40: gas injection mechanism
11: center hole
12: Spindle sleeve
21: vent hole
24:
50: Knife
31: Assembly stage
32: knife coupling stage
33: chamber
34: Ultrasonic transducer
35: opening
36: Groundwork
361: Groove
362: Axial hole
363: Radial hole
361: Groove
41: Fixing ring set
42: Knife ring set
43: Maze seal ring set
411: gas passage
412: gas inlet
413: gas outlet
421: gas passage
422: gas inlet
423: gas outlet
431: annular groove
432: annular flange
415: annular groove
22: Radial coupling hole
101: Radial drilling
425: Radial coupling hole
60:
61: gas passage
62: gas passage inlet
63: gas passage outlet
70: Power conduction connection set

Claims (9)

One main shaft having one main shaft sleeve and an axial center hole;
A pull rod having one axial vent hole and located inside the axial center hole of the main shaft and movable in the axial center hole;
And a knife coupling stage, wherein the assembly stage is assembled to the main shaft and used to engage with the pulling rod, and the knife coupling stage is combined with one knife Wherein one end of the opening is communicated with the chamber, one end is communicated with the vent hole of the pull rod, and the chamber is provided with a pore communicating with the outside;
One set of stationary rings, one set of knife rings, and one set of maze seal rings,
Wherein the stationary ring set is mounted and fixed to the spindle sleeve in a rotatable form surrounded by the outer periphery of the spindle, wherein the stationary ring set includes one gas passageway and the gas passageway includes one gas inlet and one gas outlet , Said knife ring set surrounding and fixed to the outside of the main shaft and corresponding to the stationary ring set in the axial direction, said knife ring set being able to move relative to the stationary ring set while rotating along the main axis, Wherein the gas passageway is provided with a gas inlet and a gas outlet, the gas outlet being in communication with the venting hole of the pull rod, the maze seal ring set including a knife ring set between a knife ring set and a stationary ring set And the gas outlet of the stationary ring set and the gas oil of the knife ring set The inlet is located inside the maze seal ring set,
The gas is introduced through the gas inlet of the stationary ring set and then into the chamber of the knife handle via the knife ring set, the vent hole of the pull rod, and then discharged through the pores; Wherein the cooling spindle is provided with a cooling device. The method according to claim 1,
The punch of the knife handle is provided with a groove, an axial hole and a radial hole on the inner wall of the chamber of the knife handle. One end of the axial hole is connected to the groove, one end is connected to the radial hole, And one end communicates with the outside of the chamber. The method according to claim 1,
Wherein the stationary ring set is formed with one annular groove on a surface corresponding to the gas inlet of the knife ring set and the gas outlet of the stationary ring set is located in the annular groove. The method according to claim 1,
Wherein the maze seal ring set comprises one annular recess and one annular flange, the annular recess is provided in a set of knife rings, the annular flange is installed in a set of stationary rings, at least a portion of the annular flange Characterized in that the annular groove is located in the annular groove and is spaced apart from the annular groove by a certain distance. The method according to claim 1,
Wherein the maze seal ring set comprises one annular recess and one annular flange, the annular recess is provided in a set of stationary rings, the annular flange is installed in a knife ring set, at least a portion of the annular flange Characterized in that the annular groove is located in the annular groove and is spaced apart from the annular groove by a certain distance. The method according to claim 1,
Wherein the pull rod is provided with a radial coupling hole and the major axis is provided with a radial perforation, the knife ring set is provided with a radial coupling hole and further comprising a distal member, And then coupled through a radial coupling hole in the pulling rod and a radial coupling hole in the knife ring set, said distal member being movable along an axial direction within a radial perforation of the main shaft Rotary spindle. The method according to claim 6,
Wherein one end of the end member is provided with one gas passage and one end of the end member in the radial direction is provided with one gas passage inlet and one gas passage outlet which communicate with the gas outlet of the knife ring set And the gas passage outlet communicates with the vent hole of the pull rod. The method according to claim 1,
And the ultrasonic transducer is installed inside the chamber of the knife handle. 2. The rotary spindle according to claim 1, wherein the ultrasonic transducer is installed inside the chamber of the knife handle. 9. The method of claim 8,
Characterized in that a power conduction connection set is provided between the knife handle and the main shaft and power is transmitted to the ultrasonic transducer in the chamber through the power conduction connection set.

Images