KR20110109268A - Built-in type micro edm spindle - Google Patents

Abstract

The present invention provides a micro discharge spindle comprising: a cylindrical mount body; A rotating shaft installed to be insulated from the cylindrical body by a ceramic bearing inserted into the cylindrical body; An amateur inserted into the cylindrical mount body and having a coil connected to an external power source; A rotor magnet formed on the rotating shaft corresponding to the amateur forming part inside the cylindrical body; An electrode mount for coupling an electric discharge electrode while forming an electrical connection with the rotor at one end of the rotating shaft; It is connected to the other end of the rotary shaft relates to a built-in micro discharge spindle, characterized in that consisting of a power supply for supplying power for discharge to the rotary shaft.
According to the present invention, a BLDC motor with good control efficiency is formed inside, so that no coupling work is required when using it, and the required power supply can be selectively selected according to the processing sample, so that discharge processing is convenient, and the rotating shaft and the motor are the same. The use of shafts provides the advantage of providing a built-in micro-discharge spindle with excellent machining effects.

Description

Built-in type Micro EDM Spindle

The present invention provides a micro discharge spindle comprising: a cylindrical mount body; A rotating shaft installed to be insulated from the cylindrical body by a ceramic bearing inserted into the cylindrical body; An amateur inserted into the cylindrical mount body and having a coil connected to an external power source; A rotor magnet formed on the rotating shaft corresponding to the amateur forming part inside the cylindrical body; An electrode mount for coupling an electric discharge electrode while forming an electrical connection with the rotor at one end of the rotating shaft; It is connected to the other end of the rotary shaft relates to a built-in micro discharge spindle, characterized in that consisting of a power supply for supplying power for discharge to the rotary shaft.

In general, electrical discharge machining is a method of processing a workpiece by using a physical / electrical action by passing electricity between the two electrodes.

In the RC circuit for micro-discharge machining, the removal rate of the electrode is much larger than that of the-electrode, so that the processing electrode connects the-electrode and the workpiece connects the + electrode.

Among the main applications of electrodes for electric discharge machining, a spindle method for rotating electrodes is also used. As such, the spindle that rotates the electrode while insulating the outer housing and the -electrode and can supply a current in a proper manner to the rotating electrode is called a discharge spindle.

The discharge spindle structure can induce the same wear of the electrode during the discharge machining, and the discharge efficiency can be increased because the rotation of the electrode induces the circulation of the insulating solution to help remove the tip generated after the discharge, This has the effect of reducing the processing time.

In addition, there is an advantage that is used essentially when using the electrode in the form of a wheel.

By the way, the spindle discharge is connected to the conventional electrode mount as shown in FIG. 2 by using an external servo motor 8 as a coupling 7 as shown in FIG. Has troubles such as hassle to set each time use, machining failure due to inconsistent rotation axis, work risk is improved by power supply by brush 42, equipment size is enlarged, etc.

That is, in the conventional general discharge spindle, the work of insulating the electrode and the spindle using an insulator should be preceded separately during the discharge machining, and the precision due to the fastening is reduced and the overall size is enlarged because the discharge electrode is indirectly fixed to the spindle. Become.

In addition, in order to use the discharge device with a conventional spindle, since the metal bearing 1 as shown in FIG. 2 is used, an external insulation device is required, and since the brush 42 must be mounted at the front of the spindle, an interference phenomenon occurs in the electrode part. As shown in FIG. 3, the discharge spindle using the coupling 7 has a structure in which the motor and the spindle are separated, which is another cause of increasing the size. External vibration inflow and responsiveness is poor.

On the other hand, the method of supplying power to the discharge spindle is largely composed of a brush type and a capacitor coupling method, and the difference in power supply method establishes the concept of roughing / finishing a workpiece. The concept of roughing a workpiece is a brush type. This is done when the current is supplied to the workpiece, and the concept of finishing the workpiece is achieved when the current is supplied by the capacitor coupling method.

In micro-discharge machining, there is a need for a structure capable of switching a capacitor coupling scheme for minimizing craters and minimizing stray capacitance.

That is, according to the prior art method, there is a problem in that the supply method of the power supply device must be changed according to the processing conditions and the shape of the workpiece.

In order to solve the above problems, the present invention provides a built-in micro-discharge spindle that can improve the motor coupling work problem before use, improve the spindle efficiency of the motor, and conveniently select the required power supply method according to the discharge sample. It aims to do it.

In order to achieve the above object, the present invention provides a built-in micro discharge spindle comprising: a cylindrical mount body; A rotating shaft installed to be insulated from the cylindrical body by a ceramic bearing inserted into the cylindrical body; An amateur inserted into the cylindrical mount body and having a coil connected to an external power source; A rotor magnet formed on the rotating shaft corresponding to the amateur forming part inside the cylindrical body; An electrode mount for coupling an electric discharge electrode while forming an electrical connection with the rotor at one end of the rotating shaft; The built-in micro discharge spindle is connected to the other end of the rotating shaft and supplies a power supply for discharging the rotating shaft.

The armature and the rotor magnet is preferably a built-in micro discharge spindle, characterized in that it is formed to be a BLDC motor.

In addition, the power supply device is preferably a built-in micro-discharge spindle, characterized in that the brush type for supplying contact power to the rotor.

In addition, the power supply device is preferably a built-in micro discharge spindle, characterized in that the capacitive coupling type for supplying a non-contact power to the rotor.

According to the present invention, a BLDC motor with good control efficiency is formed inside, so that no coupling work is required when using it, and the required power supply can be selectively selected according to the processing sample, so that discharge processing is convenient, and the rotating shaft and the motor are the same. The use of the shaft provides the advantage of providing a built-in micro-discharge spindle with excellent machining effect.

1 is a cross-sectional structural view of the present invention
Figure 2 is a cross-sectional structural view of the electrode mount for electric discharge machining of the prior art method
Figure 3 is a cross-sectional structural view of an embodiment using a conventional electrode for spindle discharge machining

Hereinafter, the present invention will be described with reference to the drawings. In the following description of the present invention, a detailed description of related arts or configurations will be omitted when it is determined that the gist of the present invention may be unnecessarily obscured will be.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be exemplary, self-explanatory, allowing for equivalent explanations of the present invention.

1 is a cross-sectional structural view of the present invention, FIG. 2 is a cross-sectional structural view of the electrode mounting for electric discharge machining according to the prior art, and FIG. 3 is a cross-sectional structural view of an embodiment using the electrode for spindle discharge machining according to the prior art.

The present invention relates to a built-in micro-discharge spindle, which is largely a cylindrical mount body 30, the ceramic bearing 10, the rotating shaft 100 and the coil formed with the armature 210, the rotor magnet 220 and the electrode mount (not shown) ) And the power supply device 40.

The cylindrical mount body 30 is a part to be the basic body of the present invention, has a structure that is insulated from the structure inserted into the inside.

The rotating shaft 100 of the present invention is inserted into the cylindrical mount body 30, and is a basic structure for forming a spindle.

The rotating shaft 100 is inserted to have a coaxial with the cylindrical shaft of the cylindrical mount body 30.

The rotating shaft 100 is in a state in which current flows because the power supply device 40 is connected to one side and the discharge electrode 2 is connected to the other side.

Therefore, in the present invention, the cylindrical mount body 30 and the rotating shaft 100 is configured in an electrically insulated state for safety.

To this end, in the present invention, the ceramic bearing 10 is coupled between the cylindrical mount body 30 and the rotating shaft 100.

That is, the ceramic bearing 10 forms the insulation of the rotating shaft 100 while guiding the rotation of the rotating shaft 100.

The present invention is to install a motor that provides a rotational force to the rotating shaft 100 of the discharge spindle is configured as described above in the cylindrical mount body 30, to eliminate the disadvantage of coupling to the external servo motor and coupling in the prior art method Has characteristics.

To this end, the present invention forms a motor 20 in the cylindrical mount body 30, the coil 210 is formed inside the cylindrical mount body 30 and the inside formed with the amateur 210 The rotor magnet 220 that is a rotor of the motor 20 is coupled to the rotation shaft 100.

In this case, the coil 210 and the rotor magnet 220 formed in the amateur 210 and the amateur 210 are formed so that the motor 20 formed therein becomes a BLDC motor to improve the operation and control efficiency of the motor 20. It is desirable to improve.

Since the BLDC motor configured as described above will be driven by connecting an external power source to the coil formed in the armature 210, it is preferable to separately extract the driving power terminal of the internal BLDC motor.

As described above, electrode mounts (not shown) and a power supply device 40 are formed at both ends of the rotation shaft 100, respectively.

The electrode mount (not shown) is a device for coupling the discharge electrode 2 while forming an electrical connection with the rotating shaft 100 at one end of the rotating shaft 100, the electrode mount (not shown) for safety Various embodiments, such as forming an insulating film of a bellows type on the outside and coupling the cylindrical mounting body 30 to each other, may be considered.

The power supply device 40 is a device for supplying the discharge power to the discharge electrode 2 through the external power source 50, is formed on the other end of the rotary shaft 100.

The power supply device 40 includes a brush 42 type for supplying external power to the rotary shaft 100 in a contact manner and a capacity coupling 41 type for supplying external power to the rotor in a non-contact manner. In the present invention, it is possible to alternatively form each of the power supply device or to configure a hybrid discharge spindle formed at the same time as shown in FIG.

By the power supply method of the present invention, the roughing and finishing of the workpiece is made to be optional, it is possible to establish a hybrid type processing of the two concepts.

The present invention is formed by the above-described configuration, the BLDC motor with good control efficiency is formed therein, there is no need for coupling work in use, there is an effect that can selectively select the required power supply method according to the processing sample.

It will be apparent to those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Therefore, the present invention is not limited to the above-described embodiments, and various changes can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the following claims. It will be said that the technical spirit of this invention is to the extent possible.

10: ceramic bearing 20: motor
30: cylindrical mount body 40: power supply
41 Capacitor Coupling 42 Brush
50: external power 100: rotation axis
210: amateur 220: rotor magnet

Claims (3)

In the built-in micro discharge spindle,
A cylindrical mount body;
A rotating shaft installed to be insulated from the cylindrical body by a ceramic bearing inserted into the cylindrical body;
An amateur inserted into the cylindrical mount body and having a coil connected to an external power source;
A rotor magnet formed on the rotating shaft corresponding to the amateur forming part inside the cylindrical body;
An electrode mount for coupling an electric discharge electrode while forming an electrical connection with the rotor at one end of the rotating shaft;
A power supply device connected to the other end of the rotary shaft to supply power for discharge to the rotary shaft;
Built-in micro discharge spindle, characterized in that the configuration. The method of claim 1 wherein the amateur and the rotor magnet
A built-in micro discharge spindle, characterized in that it is formed to be a BLDC motor. The power supply of claim 1 or 2,
And a brush type for supplying contact power to the rotor, a capacitive coupling type for supplying contactless power to the rotor, or a hybrid type in which the brush type and the capacitor type are simultaneously formed.

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