KR20170048272A - Cutting Apparatus - Google Patents

Abstract

According to an embodiment of the present invention, a cutting apparatus comprises: a driving motor generating a driving force; a mounting housing linearly moving in accordance with the driving force generated from the driving motor; and a cutter mounting unit detachably coupled to the mounting housing, having a cutter cut an object to be cut. Each shaft of the driving motor, the mounting housing, and the cutter mounting unit is arranged in a straight line with respect to front and lateral directions. As such, the present invention is able to properly transfer a cutting force to an object to be cut such as a printed circuit board, and obtain accuracy and efficiency in a cutting operation.

Description

{Cutting Apparatus}

A cutting apparatus is disclosed. More particularly, the present invention discloses a cutting apparatus that has a structure in which the center of gravity of the drive motor, the mounting housing, and the cutter mounting portion are axis-aligned, so that the cutting force can be properly transmitted to the object to be cut, and the accuracy and efficiency of the cutting operation can be obtained.

The substrate for semiconductor or the printed circuit board is cut to a size set by a cutting device and used. For example, a printed circuit board is a single large substrate, on which a wiring pattern for forming an electric circuit block is patterned. The printed circuit board is marked with a cut-out portion, It can be cut to size.

For example, Korean Patent Application No. 10-2013-0073496 discloses a printed circuit board cutting apparatus that cuts a connection portion between a circuit forming portion and a non-forming portion of a printed circuit board in a physical manner by an automated process . In addition to a method using such a physical method, a device for cutting a cut portion of a substrate using a laser has also been developed and used.

On the other hand, in a device for cutting a cut object such as a printed circuit board using a physical method, a cutting force transmitting structure capable of properly transmitting force from the cutting device to the cut object must be realized for the accuracy of cutting, The cutter may be damaged or worn by the cutting operation. Therefore, a structure for easy separation and mounting of the cutter should be realized. Therefore, development of a cutting apparatus of a new structure having such a configuration is required.

The object of the present invention is to provide a structure in which the axes of the drive motor, the mounting housing, and the cutter mounting portion are arranged in a straight line, so that the cutting force can be accurately transmitted to the object to be cut such as a printed circuit board, And to provide a cutting device which can be obtained.

Another object of the present invention is to provide a cutting apparatus which can easily perform a replacement or maintenance operation of a cutter mounting portion due to a removable structure of a cutter mounting portion with respect to a mounting housing.

A cutting apparatus according to an embodiment of the present invention includes a drive motor for generating a drive force; A mounting housing linearly moved by a driving force from the driving motor; And a cutter mounting portion detachably coupled to the mounting housing and having a cutter for cutting the object to be cut, wherein each axis of the drive motor, the mounting housing, and the cutter mounting portion are linearly aligned with respect to the front direction and the lateral direction, So that the cutting force can be properly transmitted to the object to be cut such as the printed circuit board, and the accuracy and efficiency of the cutting operation can be obtained.

According to one aspect of the present invention, the rotating shaft provided in the driving motor and the mounting housing are connected to be axially aligned, and the rotational motion of the rotating shaft due to the driving of the driving motor can be converted into a linear movement of the mounting housing.

According to one aspect, the mounting housing includes: a connection body connected to the drive motor; And two protruding members protruding downward from both sides of the lower end of the connecting body, wherein the upper end of the cutter mounting portion is fitted with two recessed members corresponding to the shapes of the two protruding members, May be provided.

According to one aspect of the present invention, when the projection member is fitted to the recessed member, the outer end of the projection member has a relatively larger diameter than the inner portion so that the projection member is not separated from the recessed member, The recessed member may have a depressed shape to correspond to the shape of the projection member.

According to one aspect of the present invention, a support surface extending downward is provided at one side of the lower end surface of the connection body, and when the projection member is fitted to the recess member, the lower surface and the support surface of the attachment housing, So that the cutter mounting portion can be supported by the mounting housing.

According to one aspect of the present invention, a magnet is mounted on the cutter mounting portion so as to be adjacent to the recessed member, and when the mounting housing and the cutter mounting portion are coupled to each other, a magnetic force is applied between the mounting housing and the mounting housing, Can be strengthened.

According to one aspect of the present invention, the cutter mounting portion further includes a mounting body having an insertion groove into which one side of the cutter is detachably inserted, and the cutter is inserted into the insertion groove of the mounting body and fixed by bolts .

According to one aspect of the present invention, the apparatus may further include an illumination unit that provides light to a cut portion of the object to be cut when cutting the object with the cutter in accordance with movement of the cutter mount.

According to another aspect of the present invention, there is provided a cutting apparatus comprising: a driving motor for generating a driving force; A mounting housing linearly moved by a driving force from the driving motor; And a cutter mounting part detachably attached to the mounting housing and having a cutter for cutting the object to be cut, wherein a protruding member protruding outward is provided in any one of the mounting housing and the cutter mounting part, And the other is provided with a recessed member into which the projection member is fitted so that the cutter mounting portion can be attached to or detached from the mounting housing by engaging or disengaging the projection member with respect to the recessed member.

According to one aspect of the present invention, two of the protruding members are provided to protrude downward from both sides of the lower end of the connecting body provided in the mounting housing, and the upper end of the cutter mounting portion is fitted to the protruding members, Two corresponding concave members may be provided.

According to one aspect of the present invention, a magnet is mounted on the cutter mounting portion so as to be adjacent to the recessed member, and when the mounting housing and the cutter mounting portion are coupled to each other, a magnetic force is applied between the mounting housing and the mounting housing, Can be strengthened.

According to the embodiment of the present invention, since the driving motor, the mounting housing, and the cutter mounting portion are arranged in a straight line, the cutting force can be properly transmitted to the object to be cut such as the printed circuit board, have.

Further, according to the embodiment of the present invention, since the detachable structure of the cutter mounting portion with respect to the mounting housing can be easily performed, replacement or maintenance work of the cutter mounting portion can be performed as required.

FIG. 1 is a view schematically showing the overall configuration of a cutting apparatus according to an embodiment of the present invention.
Fig. 2 is a view showing an axial alignment structure of the drive motor, the mounting housing and the cutter mounting portion shown in Fig. 1. Fig.
Fig. 3 is a cross-sectional side view taken on the basis of S in Fig.
FIG. 4 is a view showing the separated state of the mounting housing and the cutter mounting portion in FIG. 2. FIG.
5 is a view showing a rear surface of the cutter mounting portion shown in Fig.

Hereinafter, configurations and applications according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description forms part of a detailed description of the present invention.

In the following description, well-known functions or constructions are not described in detail for the sake of clarity and conciseness.

FIG. 1 is a view schematically showing the overall structure of a cutting apparatus according to an embodiment of the present invention, FIG. 2 is a view showing an axial alignment structure of the drive motor, the mounting housing and the cutter mounting portion shown in FIG. 1, FIG. 3 is a cross-sectional side view taken along the line S of FIG. 2, FIG. 4 is a view showing a state in which the mounting housing and the cutter mounting portion are separated from each other in FIG. 2, Fig.

As shown in these drawings, a cutting apparatus 100 according to an embodiment of the present invention is an apparatus for cutting a object to be cut such as a printed circuit board and includes a drive motor 110 for generating a drive force, And a cutter 131 detachably coupled to the mounting housing 120 and adapted to cut the object to be cut. The cutter mounting part 120 includes a mounting housing 120, And a pair of illumination units 140 that provide light to the cut portion when cutting the object to be cut.

The respective axes of the driving motor 110, the mounting housing 120 and the cutter mounting portion 130 are arranged in a straight line when viewed from the front direction and the side direction so that the cutting force of the cutter 131 Axis alignment structure will be described in detail later.

1 and 2, the drive motor 110 of the present embodiment includes a rotation shaft 111, which is rotatably supported by the mounting housing 120, As shown in FIG. The rotation of the rotating shaft 111 by the driving motor 110 is converted into the linear movement of the mounting housing 120 so that the mounting motor 120 can be lifted and lowered by the driving motor 110. However, although not shown in the drawings, a guide rail may be formed on the rear surface of the mounting housing 120, so that the lifting movement of the mounting housing 120 can be prevented without being twisted or distorted.

The mounting housing 120 includes a connecting body 121 connected to the rotating shaft 111 of the driving motor 110 and a lower end portion of the connecting body 121, And two protruding members 123 protruding downward from both sides of the protruding member 123. The reason for including the two protruding members 123 here is that the coupling with the cutter mounting portion 130 to be described later can be detached.

The two protrusion members 123 are symmetrically disposed on both sides of the lower end of the connecting body 121 so that the cutter mounting portion 130 can be firmly coupled to the mounting housing 120 and can be easily separated.

On the other hand, the cutter mounting portion 130 of the present embodiment is a portion that substantially vertically cuts the object to be cut placed on the work stage 150 (see FIG. 1) when the mounting housing 120 is lifted and lowered in the same manner, A cutter 131 having a width corresponding to the cut portion of the object to be cut and a cutter 131 detachably coupled to the lower end and a concave member 135 corresponding to the protrusion 123, (133).

In other words, the two concavity members 135 are formed on the mounting body 133 so as to correspond to the number and positions of the projection members 123. When the protrusion members 123 of the mounting housing 120 are fitted to the recessed members 135 of the cutter mounting portion 130 to prevent the cutter mounting portion 130 from being separated from the mounting housing 120 The weft projection member 123 and the concave member 135 may have the shapes shown in Figs. 4 and 5.

In other words, the projection member 123 may have a stepped cylindrical shape whose lower end portion is relatively larger in diameter than the inner portion, and the recessed member 135 may have a cylindrical shape corresponding to the stepped cylindrical shape of the projection member 123 And can be formed into a depression. 4, the position of the cutter mounting part 130 is adjusted so that the concave member 135 is positioned at the position of the protrusion member 123, and then the cutter mounting part 130 is moved rearward, It is possible to engage the projection member 123 for the fitting.

On the other hand, at one side of the lower end surface of the connection body 121 of the mounting housing 120, that is, at the rear side, the support surface (lower surface) 125 may be provided.

When the protruding members 123 of the mounting housing 120 are fitted to the concave member 135 of the cutter mounting portion 130, the bottom surface and the supporting surface 125 of the mounting housing 120, By having a structure in which the upper surface and a part of the side surface are mutually abutted, that is, by having a structure in which two surfaces of the cutter mounting portion 130, which are perpendicular to the two surfaces of the mounting housing 120 at right angles, The support of the cutter mounting portion 130 with respect to the base 120 can be firmly supported. In other words, such a contact structure prevents the cutter mounting portion 130 from being shaken or disengaged arbitrarily from the mounting housing 120.

4, a magnet 137 for generating a magnetic force may be provided on the mounting body 133 of the cutter mounting portion 130 of the present embodiment. More specifically, the magnet 137 is mounted on the mounting body 133 adjacent to the recess 135. When the mounting housing 120 and the cutter mount 130 are coupled to each other, A magnetic force corresponding to attraction force acts between the mounting surface 120 of the mounting housing 120 and the supporting surface 125 of the mounting housing 120 made of a steel material so that the mounting housing 120 and the cutter mounting portion 130 can be strengthened .

In other words, although the engagement of the protruding members 123 of the mounting housing 120 with the recessed members 135 of the cutter mounting portion 130 is accomplished by simple fitting, the mounting housing 120 and / It is possible to maintain the rigidity of the engagement of the cutter mounting portion 130 with respect to the mounting housing 120 due to the contact structure of the cutter mounting portion 130 and also to maintain the rigidity of the magnet 137 of the cutter mounting portion 130 and the support And the surface 125 can be strengthened by the magnetic force generated between them.

The mounting body 133 of the cutter mounting portion 130 may be provided with an insertion groove (not shown) in which the cutter 131 is partially inserted. 5, the lower end of the cutter 131 is inserted into the insertion groove, and the upper end of the cutter 131 is protruded from the insertion groove. With such a configuration, when the cutter 131 needs to be replaced or the cutter 131 needs to be maintained, the cutter 131 can be easily separated from the cutter mounting portion 130 and the new cutter 131 Or the cutter 131 that has been maintained can be easily mounted on the cutter mounting portion 130.

At this time, after the cutter 131 is inserted into the insertion groove, the position of the cutter 131 with respect to the insertion groove can be fixed using a bolt or the like. However, the structure for fixing the cutter 131 to the insertion groove of the cutter mounting portion 130 is not limited thereto.

As described above, the drive motor 110, the mounting housing 120, and the cutter mounting portion 130 of the present embodiment have a mutually rigid coupling structure. 2 and 3, the drive motor 110, the mounting housing 120, and the cutter mounting portion 130 are provided on the respective shafts 120, Are arranged in a straight line. 2, the shaft S1 of the drive motor 110, the axis S2 of the mounting housing 120, and the cutter mounting portion 130 (see FIG. 2) Is aligned in a straight line. 3, the axis S1 of the driving motor 110, the axis S2 of the mounting housing 120, and the cutter mounting portion 130 are also in contact with each other when viewed from the side of the apparatus 100 of the present embodiment. And the axis S3 of the first lens group L1 is aligned in a straight line.

The axis S1 of the drive motor 110, the axis S2 of the mounting housing 120 and the axis S3 of the cutter mounting portion 130 are aligned with each other in the front and rear directions, The linear movement of the mounting housing 120 does not occur when the drive motor 110 is driven, and the lift operation of the cutter mounting portion 130 interlocked with the linear movement of the mounting housing 120 can be accurately performed . Therefore, accurate cutting force is provided to the object to be cut, so that cutting of the object to be cut can be performed accurately and efficiently.

As described above, according to the present embodiment, each axis S1, S2, S3 of the drive motor 110, the mounting housing 120, and the cutter mounting portion 130 are arranged in a straight line in the forward and lateral directions The cutting force can be properly transmitted to the object to be cut, so that the accuracy and efficiency of the cutting operation can be obtained.

Further, since the cutter mounting part 130 is removable from the mounting housing 120, the cutter mounting part 130 can be easily replaced or maintained.

On the other hand, in the above-described embodiment, the protruding member is formed on the cutter mounting portion and the protruding member is formed on the mounting housing. However, the protruding member is not limited to the protruding member, And the like can be applied.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: Cutting device
110: drive motor
111: rotating shaft
120: mounting housing
121: Connection body
123: projection member
130: Cutter mounting portion
131: cutter
135:
137: Magnet

Claims (11)

A driving motor for generating a driving force;
A mounting housing linearly moved by a driving force from the driving motor; And
A cutter mounting portion detachably coupled to the mounting housing, the cutter mounting portion including a cutter for cutting the object to be cut;
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Wherein the respective axes of the drive motor, the mounting housing, and the cutter mounting portion are arranged in a straight line with reference to a front direction and a lateral direction.
The method according to claim 1,
Wherein the rotation shaft provided in the drive motor and the mounting housing are connected so as to be axially aligned, and the rotational motion of the rotation shaft by the drive of the drive motor is converted into a linear movement of the mounting housing.
The method according to claim 1,
The mounting housing includes:
A connection body connected to the driving motor;
And two projecting members projecting downward from both sides of a lower end of the connecting body,
And two recessed members corresponding to the shapes of the two protruding members are provided at an upper end of the cutter mounting portion so as to be fitted into the two protruding members.
The method of claim 3,
The outer end of the projection member has a relatively larger diameter than the inner portion so that the projection member is not separated from the recessed member when the projection member is fitted to the recessed member, The depression member having a depressed shape.
The method of claim 3,
A support surface extending downward is provided at one side of the lower end surface of the connection body,
Wherein the cutter mounting portion is supported by the mounting housing by abutting the lower surface of the mounting housing and the support surface and the upper surface and a part of the side surface of the cutter mounting portion when the protrusion member is fitted to the recessed member, Cutting device.
6. The method of claim 5,
A magnet is mounted on the cutter mounting portion so as to be adjacent to the concave member,
And a magnetic attraction force acts between the magnet and the mounting housing during mutual coupling of the mounting housing and the cutter mounting portion, thereby enhancing a coupling force between the mounting housing and the cutter mounting portion.
The method according to claim 1,
The cutter mounting portion further includes a mounting body having an insertion groove into which one side of the cutter is detachably inserted,
Wherein the cutter is inserted into the insertion groove of the mounting body and fixed by bolts.
The method according to claim 1,
An illumination unit for providing light to a cut portion of the object to be cut when cutting the object with the cutter in accordance with movement of the cutter mount;
Further comprising:
A driving motor for generating a driving force;
A mounting housing linearly moved by a driving force from the driving motor; And
A cutter mounting part detachably mounted on the mounting housing, the cutter mounting part including a cutter for cutting the object to be cut;
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The protruding member protruding outwardly is formed in one of the mounting housing and the cutter mounting portion and the protruding member is fitted to the other of the mounting housing and the cutter mounting portion, And the cutter mounting portion can be attached to and detached from the mounting housing by separation.
10. The method of claim 9,
And two projecting members projecting downward from both sides of a lower end of a connecting body provided in the mounting housing,
And two concave members corresponding to the shapes of the protruding members are provided at an upper end of the cutter mounting portion so as to be fitted into the protruding members.
11. The method of claim 10,
A magnet is mounted on the cutter mounting portion so as to be adjacent to the concave member,
And a magnetic attraction force acts between the magnet and the mounting housing during mutual coupling of the mounting housing and the cutter mounting portion, thereby enhancing a coupling force between the mounting housing and the cutter mounting portion.

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