KR100840843B1 - Main spindle including airbrake apparatus - Google Patents

Abstract

A mandrel having an airbrake is provided to clamp a rotor by regulating compressed-air flow when assembling the mandrel and to prevent damage to the rotor and a radial air bearing and an axial air bearing by clamping the rotor with the airbrake and keeping the void between the rotor and the radial air bearing and the rotor and the axial air bearing. A mandrel having an airbrake(9) comprises a housing(1), a rotor(3), a radial air bearing(5), an axial air bearing(7), the air brake, and a power generating unit(11). The housing has path, wherein a pipe and a wire are passed through, fixes elements. The rotor rotates in the housing. The radial air bearing limits the rotor to move in a radial direction. The axial air bearing limits the rotor to move in an axial direction. The radial air bearing has a nozzle to inject compressed-air to the void between the rotor and the radial air bearing. The airbrake keep the void between the rotor and the radial direction air bearing, and rotor and the axial air bearing to prevent damage to the rotor, the radial air bearing and the axial air bearing. The power generating unit rotates the rotor.

Description

Spindle device with air brake device {MAIN SPINDLE INCLUDING AIRBRAKE APPARATUS}

1 is a cross-sectional view showing a cross section of a conventional spindle device,

Figure 2 is a cross-sectional view showing a cross section of the spindle device having an air brake device according to an embodiment of the present invention,

3 is a cross-sectional view showing a state in which compressed air flows into the air brake according to an embodiment of the present invention;

Figure 4 is a cross-sectional view showing a state in which the inflow of compressed air to the air brake in accordance with an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

1: housing 3: rotor

5: radial air bearing 7: axial air bearing

9: air brake 9-1: ring portion

9-2: Diaphragm 9-3: Diaphragm Housing

11 power generation unit 13 valve

15: connector

The present invention relates to a spindle device, and in particular, when vibration and shock are generated when the spindle device is transported in an assembled state or suddenly the inflow of compressed air is stopped, the air brake clamps the rotor to maintain a gap between the rotor and the air bearing. The present invention relates to a spindle device having an air brake device capable of preventing damage to the rotor and the air bearing when a rotational torque is generated due to a malfunction of the motor and an incorrect operation.

A machine tool is a machine that performs cutting, cutting, boring, drilling, screw cutting, and pre-grinding of a metal by using a tool. In general, a tool is coupled to a spindle to perform various operations while the tool is rotated. do.

Referring to Figure 1, the configuration of a conventional spindle device includes a housing (1 ') for fixing the internal parts; A rotor 3 'provided inside the housing 1' and rotating; Radial air bearings 5 'which restrict the radial movement of the rotor 3'; An axial air bearing (7 ') that restricts the rotor (3') from moving in the axial direction; And a power generator 11 'generating power for rotating the rotor 3'.

In the conventional spindle device according to the above configuration, when the motor is malfunctioned or malfunctioned in a state in which vibration and shock are generated or suddenly the inflow of compressed air is stopped when the assembled spindle device is transported, the rotor ( 3 ') and scratches and abrasion occur on the rotor 3' and the air bearings 5 'and 7' by the contact between the air bearings 5 'and 7'. There was a problem that the air bearing (5 ', 7') is caught in the damage.

In addition, the conventional spindle device has a problem that the assembly work is cumbersome because the means for clamping the rotor (3 ') is not provided separately.

Therefore, an object of the present invention, the air brake clamping the rotor when the vibration and shock occurs when the main shaft device is transported in the assembled state or the inflow of compressed air suddenly stopped, the rotor and the radial air bearing, the rotor and the shaft By maintaining the gap between the directional air bearings, it is possible to prevent the rotor, the radial air bearing and the axial air bearing from being damaged in the event of a rotational torque caused by a malfunction of the motor or an operation of the motor, and assembling the spindle device at a desired position. The present invention relates to a spindle device having an air brake device that can clamp the rotor by adjusting only the inflow of compressed air so that the operation can be easily performed.

As a means for achieving the above object, the configuration of the present invention includes a housing which is formed with a passage through which the pipes and wiring can pass, and fixes the internal parts; A rotor provided inside the housing and rotating; A radial air bearing for restricting the rotor from moving in the radial direction; An axial air bearing for restricting the rotor from moving in the axial direction; An air brake for maintaining a gap between the rotor and the radial air bearing and maintaining a gap between the rotor and the axial air bearing to prevent damage to the rotor, the radial air bearing and the axial air bearing; It includes a power generating unit for generating power for rotating the rotor.

Here, the radial air bearing is characterized in that the nozzle is formed so as to inject compressed air in the void direction with the rotor, characterized in that a plurality of the nozzle is formed.

The radial air bearing may be provided in plural numbers, and may be provided in various sizes according to the load of the rotor.

The axial air bearing is characterized in that the nozzle is formed so as to inject compressed air in the void direction with the rotor, characterized in that a plurality of the nozzle is formed.

The axial air bearing is provided with a plurality, characterized in that it can be provided in various sizes according to the load of the rotor.

The air brake is a ring portion in close contact with the rotor; A diaphragm connected to the ring part to support the ring part, and to receive compressed air; It is characterized in that it comprises a diaphragm housing to secure a space for the diaphragm to expand when the compressed air is introduced, and to fix the ring portion and the assembly of the diaphragm to the housing.

The ring portion and the diaphragm are characterized in that the elastic material.

A plurality of air brakes may be provided according to a load, and may be provided in various sizes according to a gap between the housing and the rotor.

When the compressed air is introduced into the air brake, the compressed air is filled in the diaphragm, and the inner diameter of the ring portion is increased to unclamp the rotor.

The air brake may be configured to clamp the rotor by reducing the inner diameter of the ring portion while the compressed air flows out from the diaphragm when the inflow of the compressed air is stopped.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

2 to 4, the spindle device having an air brake device according to an embodiment of the present invention includes a housing (1) for forming a passage through which piping and wiring can pass, and to fix the internal parts; A rotor (3) provided inside the housing (1) and rotating; Radial air bearings (5) which restrict the radial movement of the rotor (3); An axial air bearing (7) for restricting the movement of the rotor (3) in the axial direction; The air gap between the rotor 3 and the radial air bearing 5 is maintained, and the air gap between the rotor 3 and the axial air bearing 7 is maintained to maintain the rotor 3 and the radial air bearing. (5) and the air brake (9) for preventing damage to the axial air bearing (7); It comprises a power generating unit 11 for generating power for rotating the rotor (3).

Hereinafter, each configuration will be described in detail.

The housing 1 has a passage through which piping and wiring can pass, and the radial air bearing 5, the axial air bearing 7, the air brake 9, and the power generator 11 are formed. It is provided to fix the.

The rotor 3 is provided inside the housing 1 so as to rotate, and the radial air bearing 5 is provided to restrict the movement of the rotor 3 in the radial direction.

The radial air bearing (5) is formed with a nozzle so as to spray compressed air in the air gap with the rotor (3), it is preferable that a plurality of the nozzle is formed.

The radial air bearings 5 may be provided in plural, and may be provided in various sizes according to the load of the rotor 3.

The axial air bearing 7 is provided to restrict the movement of the rotor 3 in the axial direction, the nozzle is formed to inject compressed air in the air gap with the rotor 3, the nozzle is a plurality It is preferable to form dogs.

A plurality of axial air bearings 7 may be provided, and may be provided in various sizes according to the load of the rotor 3.

The air brake 9 maintains a gap between the rotor 3 and the radial air bearing 5, the rotor 3, and the axial air bearing 7 to maintain the rotor 3 and the radial direction. It is provided to prevent damage of the air bearing 5 and the axial air bearing (7), the air brake (9) is in close contact with the rotor (3) and the ring portion (9-) 1) is connected to the ring (9-1) to support the diaphragm (9-2) through which the compressed air flows, and to secure a space for the diaphragm (9-2) to expand when the compressed air is introduced And a diaphragm housing 9-3 which fixes the assembly of the ring portion 9-1 and the diaphragm 9-2 to the housing 1.

Here, the ring portion 9-1 and the diaphragm 9-2 are preferably made of an elastic material so as to expand with the inflow of compressed air.

A plurality of air brakes 9 may be provided according to a load, and may be provided in various sizes according to the gap between the housing 1 and the rotor 3.

The power generation unit 11 may be provided to generate power for rotating the rotor 3 and may be provided as a built-in motor.

In the spindle device having the air brake device according to the embodiment of the present invention having the above-described configuration, when compressed air is introduced through the valve 13, the compressed air is passed through the connector 15 through the radial air bearing 5. ) And the axial air bearing 7 is transferred to the rotor 3 in the radial and axial directions to maintain the air gap, and the power transmission unit 11 after the injury of the rotor 3 is completed. The rotor 3 is rotated by generating power.

At this time, the diaphragm (9-2) of the air brake (9) is also filled with compressed air, and the inner diameter of the ring portion (9-1) is increased, the air brake (9) freezes the rotor (3) Clamping allows rotation of the rotor 3.

On the other hand, when the inflow of compressed air is stopped, the inner diameter of the ring portion 9-1 is reduced while the compressed air is discharged from the diaphragm 9-2 of the air brake 9, so that the air brake 9 The rotor (3), the radial air bearing (5) and even if the vibration and impact occurs during the transport of the assembled spindle by the clamping of the rotor (3), or the motor malfunctions or malfunctions to generate a rotating torque The axial air bearing 7 is not damaged.

As described above, the main shaft device having an air brake device according to the present invention, when vibration and shock is generated when the spindle device is transported in an assembled state or when the inflow of compressed air is abruptly stopped, the air brake clamps the rotor and By maintaining the air gap between the radial air bearing, the rotor and the axial air bearing, it is possible to prevent the rotor, the radial air bearing and the axial air bearing from being damaged in the event of rotational torque caused by motor malfunction and incorrect operation, The rotor can be clamped by adjusting only the inflow of compressed air so that the assembling work of the spindle device can be performed at a desired position, thereby facilitating the work.

Claims (16)

A housing through which pipes and wires pass, and a housing configured to fix internal components; A rotor provided inside the housing and rotating; A radial air bearing for restricting the rotor from moving in the radial direction; An axial air bearing for restricting the rotor from moving in the axial direction; An air brake for maintaining a gap between the rotor and the radial air bearing and maintaining a gap between the rotor and the axial air bearing to prevent damage to the rotor, the radial air bearing and the axial air bearing; And a power generating unit for generating power for rotating the rotor. The method of claim 1, The radial air bearing is a main shaft device having an air brake device, characterized in that the nozzle is formed so as to inject compressed air in the void direction with the rotor. The method of claim 2, And a plurality of nozzles of the radial air bearing are provided with an air brake device. The method of claim 1, The radial air bearing is a spindle device having an air brake device, characterized in that a plurality is provided. The method of claim 1, The radial air bearing is a spindle device having an air brake device, characterized in that it can be provided in various sizes according to the load of the rotor. The method of claim 1, The axial air bearing is a main shaft device having an air brake device, characterized in that the nozzle is formed so as to inject compressed air in the void direction with the rotor. The method of claim 6, And a plurality of nozzles of the axial air bearing are formed. The method of claim 1, The axial air bearing is a spindle device having an air brake device, characterized in that a plurality is provided. The method of claim 1, The axial air bearing is a main shaft device having an air brake device, characterized in that can be provided in various sizes according to the load of the rotor. The method of claim 1, The air brake is a ring portion in close contact with the rotor; A diaphragm connected to the ring part to support the ring part, and to receive compressed air; And a diaphragm housing which secures a space in which the diaphragm can expand when inflow of compressed air, and fixes the ring portion and the assembly of the diaphragm to the housing. The method of claim 10, The ring unit is a spindle device having an air brake device, characterized in that the elastic material. The method of claim 10, The diaphragm is a spindle device having an air brake device, characterized in that the elastic material. The method of claim 1, The air brake is a spindle device having an air brake device, characterized in that a plurality can be provided according to the load. The method of claim 1, The air brake may be provided in various sizes according to the clearance between the housing and the rotor. The method of claim 10, The air brake is a spindle device having an air brake device, characterized in that when the compressed air flows in the compressed air to the diaphragm, the inner diameter of the ring portion is increased to unclamp the rotor. The method of claim 10, And the air brake is configured to reduce the inner diameter of the ring portion while the compressed air is released from the diaphragm when the inflow of the compressed air is stopped, thereby clamping the rotor.

Images