KR20140078788A - Device for detecting material jam and working machine having the same - Google Patents

Abstract

The present invention relates to a device for detecting a jamming of a material which is applicable to an automatic processing machine and a processing machine including the same. The device for detecting a jamming of a material detects the reduction of the distance between a chuck and the end of a material as the chuck is slipped with rotation of an encoder when a jamming phenomenon of the material and a guide bush takes place due to tolerance of the material whereas the distance between the end of the material and the chuck is fixed in a normal state.

Description

Technical Field [0001] The present invention relates to a device for detecting a gap between a workpiece and a processing machine having the same,

The present invention relates to a mechanism for detecting a workpiece inserted in an automatic machining machine. In the steady state, the distance between the workpiece and the workpiece is constant. However, when the workpiece and guide bush are stuck due to the tolerance of the workpiece, And detecting a reduction in the distance to the end of the workpiece as rotation of the encoder, and a processing machine having the same.

In a modern society where a large variety of products are produced and consumed in large quantities, the competitiveness of products is often dependent on the technology of producing them at a low price while maintaining high quality. In addition, automated numerical control machines (hereinafter briefly referred to as "processing machines") are used in the manufacturing field because they must be able to respond quickly to market demands as trends in product life cycles become shorter as fashion changes and technology develops. It can be said that it is almost necessary to use.

Utilizing the processing machine can bring about many advantages that it can increase the productivity while inputting a small amount of labor, and can keep the quality of the product uniform. However, it has become possible for a worker to manage a plurality of processing machines. However, unlike an unexpected malfunction or malfunction, it is impossible for a worker to control a plurality of processing machines. Sometimes it is hard to grasp immediately. Therefore, by utilizing various measurement sensors, a technique of monitoring the machining state of the machining machine unattended and detecting various errors has also developed.

Korean Patent Laid-Open Publication No. 2010-0106087 for an error detection system of a high-speed rotating body shows an example of error detection in a processing machine. The above-described conventional technique detects errors of a high- And a system capable of effectively evaluating a radial error of a high-speed rotating body according to a speed and a temperature by using two probes, a photosensor for speed measurement, and a thermocouple.

As described above, most of the error detection systems are focused on detecting radial errors of high speed rotors, position errors of tools, and the like, and it is necessary to detect some special errors depending on the machining machine.

1 shows a spindle of a machining machine, which is a kind of automatic lathe capable of a combined machining such as a C-axis control / cross drill, a D-cut, a super precision machining, a horizontal hole (side hole / Fig.

1, when a workpiece is fixed to a chuck of a spindle, a high-speed rotating spindle moves forward and backward along the longitudinal direction (Z-axis) of the workpiece and moves in the XY-theta Is a processing machine of the kind that processes a material. At this time, when the slenderness ratio of the material is large, a bending of the material occurs, so that a guide bush is fixedly installed at the front of the chuck.

However, due to the tolerance (straightness, roundness, etc.) existing in the material itself, the material often sticks in the guide bush. When the material is stuck in the guide bush, the chuck slips when the chuck holding the material is moved in the Z axis direction. Therefore, the movement of the material is not precisely performed, causing a serious machining error, causing an overload to cause a failure of the processing machine, and causing many problems such as waste of material and production loss as long as the maintenance period.

However, until now, there has been no means to detect the phenomenon of pinching the material itself or the slip of the chuck due to the pinching phenomenon. Therefore, there is an urgent need to solve the problem.

Korea Patent Publication No. 2010-0106087

It is an object of the present invention to provide an efficient material pinch sensing mechanism capable of detecting a pinch phenomenon in which a workpiece fixed to a chuck is fixed in a guide bush with a simple mechanism.

It is another object of the present invention to provide a universal material pinch sensing mechanism that can be easily applied to a processing machine that has already been manufactured or is in use without a design change for an existing processing machine.

The present invention relates to a workpiece interposing mechanism applied to a processing machine having a guide bush having one end of the workpiece fixed to a chuck of a spindle moving back and forth along the longitudinal direction of the workpiece, And a measuring device for detecting a displacement of the wire, the wire winding device including a wire installed to move relative to the chuck relative to the relative movement of the other end of the workpiece.

Here, the wire is wound and mounted in the winding device, and the measuring means is means for detecting displacement of the wire by the amount of rotation.

Preferably, the winding device further includes elastic means for applying a tension to the wire.

The measuring means for detecting the displacement of the wire by the amount of rotation may be a rotary encoder.

The present invention also provides a processing machine comprising: a processing machine having a guide bush fixed to one end of a workpiece on a chuck of a spindle moving back and forth along a longitudinal direction of the workpiece, the workpiece passing through the workpiece bush; And a jig determining means for determining that a phenomenon in which the workpiece is stuck in the guide bush occurs when the displacement of the wire detected by the workpiece insertion detecting mechanism and the amount of rotation or the amount of rotation of the wire detected by the measuring means exceeds a preset upper limit value A processing machine with a sensing mechanism is provided.

The intermittent determination means determines whether or not the intermittent phenomenon occurs during one cycle of machining the material and does not determine whether the intermittent phenomenon occurs during the transition period in which the material is set between cycles do.

Further, the processing machine provided with the material interposition detecting mechanism of the present invention further includes a spring balancer which is installed at the other end of the work and applies tension to the work in the direction of the chuck, and the wire can be fixed to the spring balancer .

The present invention is advantageous in that it is possible to easily and accurately detect the pinching phenomenon of a material even with a wire and its displacement measuring means (rotary encoder) without measuring a current load or using a complicated mechanism such as a laser sensor .

In addition, the present invention has an advantage that it is highly utilized because it can be easily applied to a machining machine that has already been manufactured and is being used as well as a newly produced machining machine.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a chuck and guide bush of a processing machine to which an embodiment of the invention may be applied.
2 is a view for explaining the principle of a material interposition detecting mechanism according to the present invention;
3 is a view showing an example in which the material interposition detecting mechanism according to the present invention is applied to a processing machine.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a workpiece insertion detecting mechanism (100) and a processing machine (10) having the same will be described in detail with reference to the accompanying drawings. The present invention is not limited to the embodiments described below, but may be implemented in various other forms, and the present embodiment is not intended to be exhaustive or to limit the scope of the present invention to those skilled in the art. .

FIG. 2 is a view for explaining the principle of the material interposition detecting mechanism 100 according to the present invention, and FIG. 3 is an illustration showing an example in which the material interposition detecting mechanism 100 according to the present invention is applied to the processing machine 10 to be.

As described above, the machining machine 10 of Fig. 1 is provided with a workpiece 20 supported in the front of the chuck 12 to prevent warpage of the workpiece 20 fixed to the chuck 12 of the spindle The guide bush 14 is fixedly mounted on the chuck 12 and the chuck 12 to which the workpiece 20 is fixed when the workpiece 20 is stuck in the guide bush 14 due to the tolerance existing in the workpiece 20 itself, When the work 20 is moved and moved in the Z-axis direction, the work 20 can not move to a target position properly, and thus the chuck 12 slips.

FIG. 2 schematically shows the above-mentioned pinching phenomenon of the blank 20. In a normal state, since the force for fixing the blank 20 to the chuck 12 is sufficiently strong in the normal state, (20) move together by the same distance. That is, the distance between the chuck 12 and the end of the workpiece 20 in a steady state is kept constant.

However, if the workpiece 20 is stuck in the guide bush 14, the workpiece 20 will not move even if the chuck 12 moves, which means that the chuck 12 and the workpiece 20 The distance between the ends of the first and second electrodes is changed. In particular, since the processing of the work 20 proceeds in the right direction when viewed from the reference of FIG. 2, when the work is interrupted during the machining, the distance between the chuck 12 and the end of the work 20 is decreased.

The present invention can be said to be a mechanism for detecting the occurrence of pinching of the blank 20 by detecting a change in distance between the chuck 12 and the end of the blank 20 as a result of the above-mentioned pinching phenomenon.

The material interposition detecting mechanism 100 of the present invention is installed so that the relative position of the processing machine 10 to the chuck 12 does not change and moves together with the movement of the other end of the workpiece 20 And a measuring means 120 for sensing a displacement of the wire 112. The wire 112 may be a wire or a wire.

Since the chuck 12 of the processing machine 10 is connected to the spindle and rotates at high speed, the chuck 12 can not be provided with the direct-winding device 110, In the movement, a moving part, for example, a cover moving together with the chuck 12, is fixedly installed.

The displacement of the wire 112 occurs as the distance between the chuck 12 and the end of the workpiece 20 changes, and the displacement is sensed by the measuring means 120. The measuring unit 120 may be a displacement sensor such as a strain gauge or a potentiometer.

However, sensing the change in displacement of the wire 112 as a linear distance change is inefficient in that it increases the dead space by increasing the space occupied by the material-insertion detecting mechanism 100. [ Thus, the embodiment of the present invention mounts the wire 112 in a winding manner in which the wire 112 is wound round the winding apparatus 110, and the measuring means 120 measures the wire 112 wound as the displacement of the wire 112 is changed, And means for detecting the amount of rotation in which the entire roll is rotated, thereby making it possible to save space. As the measuring means 120 for detecting the displacement of the wire 112 by the amount of rotation, a rotary encoder, a rotary variable resistor, or the like can be used. In particular, a rotary encoder for providing a pulse signal as well as a rotation angle In terms of reliability and ease of control and measurement.

By providing elastic means (not shown) for applying tension to the wire 112 wound with the winding device 110, for example, a leaf spring such as a spring, the wire 112 is loosened and the chuck 12 ) And the distal end of the work 20 is insensitive and time delay is prevented.

Fig. 3 shows an example of applying the workpiece interposition detecting mechanism 100 of the present invention having the above-described configuration to the processing machine 10. Fig.

As described above, the processing machine 10 includes a guide bushing (not shown) in which one end of a workpiece 20 is fixed to a chuck 12 of a spindle moving back and forth along the longitudinal direction of the workpiece 20, 14 are provided.

A winding device 110 having a wire 112 installed so as to move together with the movement of the other end of the workpiece 20 while the relative position of the processing machine 10 relative to the chuck 12 is unchanged, (120) for sensing the displacement of the wire (112), and further comprising elastic means for applying tension to the wire (112) when the wire (112) is wound on the winding device 100 are installed.

When the displacement or rotation amount of the wire 112 sensed by the measuring means 120 exceeds the preset upper limit value, it is judged that the material 20 is stuck in the guide bush 14 And an engagement determination means (200). Here, the upper limit value set in advance can be set in consideration of the measurement resolution of the measuring means 120, the erroneous expression due to vibration, the tolerance that can be accepted as the machining tolerance, and the like.

If the rotary encoder is used as the measuring means 120 for detecting the displacement of the wire 112 by the amount of rotation, the amount of rotation is counted by the number of pulses. If the counted number of pulses exceeds the set number, As shown in FIG.

The jamming determination means 200 determines whether or not the jamming phenomenon occurs only during one cycle of processing the material 20 and determines whether or not the jamming phenomenon occurs during the transition time during which the material 20 is set again between cycles Do not judge. That is, in order to end one cycle and to enter again in the next cycle, the chuck 12 is temporarily disengaged and the position of the workpiece 20 is re-adjusted so that the distance between the chuck 12 and the end of the workpiece 20 changes Since this is a normal situation, during this time, it is not judged whether or not the pinch phenomenon occurs.

In addition, the processing machine 10 equipped with the material interposition detecting mechanism 100 of the present invention may further include a spring balancer 16 installed at the other end of the work 20 to apply an appropriate tension in the direction of the chuck 12 In this case, the other end of the wire 112 mounted on the winding device 110 may be fixed to the spring balancer 16.

Although the present invention has been described with reference to the drawings, it is to be understood that the invention is not limited to the embodiment and the drawings disclosed herein, It is needless to say that various modifications may be made by a person skilled in the art within the scope of the technical idea of the present invention.

10: processing machine 12: chuck
14: guide bush 16: spring balancer
20: Material 100: Material intrusion detection mechanism
110: Wrapping device 112: Wire
120: Measuring means 200:

Claims (7)

1. A workpiece interposing mechanism applied to a processing machine having a guide bush fixed to one end of the workpiece on a chuck of a spindle moving back and forth along a longitudinal direction of the workpiece,
And a wire installed to move relative to the chuck relative to the other end of the work so as to move together with the relative movement of the other end of the work; And
Measuring means for sensing a displacement of the wire;
And a detection unit for detecting a material insertion. The method according to claim 1,
Wherein the wire is wound and mounted in the winding device, and the measuring means is means for detecting displacement of the wire by the amount of rotation. 3. The method of claim 2,
Further comprising an elastic means for applying a tension to the wire. 3. The method of claim 2,
Wherein the measuring means is a rotary encoder. A processing machine having a guide bush fixed to one end of the workpiece on a chuck of a spindle moving back and forth along a longitudinal direction of the workpiece, the workpiece being penetrated and supported;
A workpiece insertion detecting mechanism according to any one of claims 1 to 4; And
An engagement determination means for determining that a phenomenon in which the material is stuck in the guide bush occurs when the displacement or rotation amount of the wire detected by the measurement means exceeds a predetermined upper limit value;
And a workpiece insertion mechanism. 6. The method of claim 5,
Wherein the intermittent judging means judges whether or not the intermittent phenomenon occurs during one cycle of processing the material and does not judge whether or not the intermittent phenomenon occurs during the transition time during which the material is set between cycles A machining machine having a pinch sensing mechanism. 6. The method of claim 5,
Further comprising a spring balancer provided at the other end of the blank to apply tension to the blank in the chucking direction, and the wire is fixed to the spring balancer.

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