KR20000000122A - Sparkling drill machine with variable head - Google Patents

Abstract

PURPOSE: A fine deep hole electric discharge processor is provided to move the head freely by making the head rotate 360 degrees and to make the discharge of the material easy. CONSTITUTION: A fine deep hole electric discharge processor for moving the head freely comprises:a pillar(2) installed on one side of a sub-panel(1) having a material pad(11); a rotation area(3) having a coupling rod(4) formed to stick into one end of the rotation area on the upper part of the pillar; a driving motor(9) installed on a fixation bar(6); and a transmission screw(91) installed to connected and to fixed to the head(7) having an electrode vise(8).

Description

Micro Deep Hole Discharge Machine with Free Positioning of Head Part {SPARKLING DRILL MACHINE WITH VARIABLE HEAD}

The present invention relates to a micro-hole discharge machine that is free to change the position of the head portion, and more particularly, to allow the front and rear movement and the left and right rotation with respect to the posts mounted on the base to which the electrode is mounted to form the micro-hole processing At the same time, the head portion is rotated by 360 ° around the support axis, thereby facilitating the discharge processing of the micro-deep holes to the workpiece.

Generally, from the general metals except for the synthetic resin to the cemented carbide, regardless of the material and the thickness or form of the material, the micro deep hole electric discharge machine is used for the micro hole processing of the material. Most of these micro deep hole electric discharge machines are used. Even if the position of the head part (operating part) where the electrode for electric discharge machining is fixed is fixed, or even if the position change is possible, the conversion range is limited to a very narrow range. The size of micro hole formation angle for materials and materials must be limited, so the scope of application of micro hole drilling machine for forming micro hole processing is very limited, despite the excellent performance of micro hole drilling machine. Having problems not being used by It was.

Accordingly, an object of the present invention is to solve all the problems of the conventional micro-deep discharge processing machine caused by the head portion, which is equipped with an electrode for micro-deep processing, can not change its position or can be converted only within a narrow range. In order to not only move the head portion up, down, left, right and forward and backward, but also forward and backward rotation with respect to the struts, the micro-hole processing electrode is installed regardless of the size of the material or the angle of formation of the micro-holes for the material. The present invention provides a fine deep hole discharge machine that can freely change the position of the head to enable a high quality product by increasing the use performance of the fine deep hole discharge machine.

1 is a perspective view of the present invention

2A and 2B are front and side views showing an example in which the head portion of the electric discharge machine according to the present invention is installed in a basic use state.

3 is a front view and a plan view showing an example in which the head portion of the electric discharge machining machine according to the present invention is inclined at a predetermined angle from side to side;

4A and 4B are side views showing an installation example in which the connecting rod of the electric discharge machine according to the present invention is moved back and forth.

5A and 5B are a side view and a plan view showing an example in which the rotary hole of the electric discharge machine according to the present invention is rotated at an arbitrary angle with respect to an axis.

6 is a front view showing an example in which the fixing stand provided with the head portion of the electric discharge machining machine according to the present invention is raised and lowered.

7 is a front view showing an example in which the head portion is raised and lowered by the operation of the drive motor installed on the fixing stand of the electric discharge machine according to the present invention.

<Explanation of symbols for main parts of the drawings>

1 Expectation 2 Axis 3 Conedonggu 4 Connecting Rod

5 Working Plate 6 Fixing Table 7 Head 8 Electrode Chuck

9: drive motor 11: material support 61: rack gear 91: transfer screw

In order to achieve the above object, the micropore-discharge machining machine of the present invention can freely change the position of the head, and the support (2) is provided on one side of the base (1) on which a separate material support (11) is placed. 2) At the upper end, the other end of the pivoting hole 3 in which the connecting rod 4 is rotatably inserted at one end is rotatably installed, and the operating plate 5 is installed at the front end of the connecting rod 4 so as to have a rack on one side. Mounting the mounting base (6) formed with the control (61) to be able to move up and down, the drive motor (9) is installed on the top of the mounting base (6), the electrode chuck (8) is installed on the drive motor (9) It is characterized in that the drive screw 91 is connected to the head portion 7 is connected to the fixed base 6 by screwing to drive.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a perspective view showing a schematic configuration of a micro deep-discharge machining machine according to the present invention, Figures 2a and 2b is a front view and a side view showing an installation example of the basic use state of the electrical discharge machine according to the present invention, Figure 3 Figure 4a and 4b is a side view showing an installation example in which the position of the connecting rod moved back and forth in the installation state of Figs. 5A and 5B are a side view and a plan view showing an example in which the rotational tool 3 is rotated at an arbitrary angle with respect to an axis in the installation state of FIGS. 2A, 2B, 3, 4A, and 4B. FIG. 7 is a front view illustrating an example in which the fixing stand provided with the head is lifted and lowered, and FIG. 7 is a front view illustrating an example in which the head is raised and lowered by the operation of the drive motor provided in the fixing stand.

A description will be given of an implementation operation state of the micropore-discharge machining machine in which the position change of the head portion according to the present invention having the above configuration is free.

As the head portion 7 is held in a basic installation state, that is, the operating plate 5 is vertical, the holding plate 6 connected to the operating plate 5 and the upper and lower portions of the holding plate 6 are moved by the transfer screw 91. In the state where the electrode 10 is fitted to the electrode chuck 8 of the head portion 7 that is movable, the position of the head portion 7 is to be adjusted up and down. As the handle 51 of one side is rotated, the pinion gear (not shown) inside thereof raises and lowers the rack gear 61 on one side of the fixing stand 6 on which the head portion 7 is fixed. ) Is finely raised and lowered with respect to the operating plate 5, so that the head portion 7 can be finely raised and lowered. (See Figure 5)

Apart from this, when the head portion 7 is to be moved up and down by a large distance, when the driving motor 6 installed on the upper part of the stator 6 is operated, the upper end of the head part 7 is screwed to the fixing part 6 to penetrate the driving motor. It is raised or lowered according to the degree of rotation of the transfer screw 91 connected to (6) is also possible to move up and down relative to the head (7). (See Figure 6)

In order to incline the axis of the head portion 7 to be lifted and lowered at an angle in any of the left and right directions, loosen the locking device 31 on the pivoting hole 3 on which the connecting table 4 is rotatably installed. When the cylindrical connecting rod 4 is rotated in a predetermined amount in the left and right directions, the head portion 7 connected to the operating plate 5 fixed to the connecting rod 4 by the fixing rod 6 and the conveying screw 91 is installed. ) Is converted into a state in which the axis of the electrode chuck 8 is inclined at a predetermined angle in any of the left and right directions, so that the desired left and right angle conversion of the head portion 7 is possible. (See Figures 2A and 2B)

In addition, in the case of horizontally moving the head part 7 provided with the electrode chuck 8 back and forth, as described above, the locking latch 31 of the pivoting hole 3 is released, and thus the state of the connecting table 4 with respect to the pivoting hole 3 is obtained. The horizontal position change of the head part 7 in the front-back direction is attained by letting the connecting table 4 move forwards and backwards through the pivoting hole 3 after making it into the state to release | release. (See Figures 3A and 3B)

In this way, the position of the connecting table 4 connected to the pivoting hole 3 and the position of the fixing table 6 relative to the operating plate 5, and the rotation of the feed screw 91 relative to the fixing table 6 In addition to the positional change of the head portion 7 in various forms such as the direct positional change of the head portion 7 by means of rotation, the connecting table 4 is pivoted on the support 2 provided on the base 1 with the connecting rod 4 fitted on one side. When the rotatable hole 3, which is installed as possible, is released by rotating the locking device 32 on one side thereof and rotated by an arbitrary angle with respect to the support 2, the size of the workpiece under which the micro-deep hole is discharged is formed. Even in the case of having a size such that it is difficult to position in (11), by positioning the head portion 7 outside the base 1, it is possible to form a fine micropore discharge process for the workpiece. (See Figures 4A and 4B)

As described above, in the micro deep hole discharge processing machine A in which the position of the head portion can be freely changed, the head portion 7 on which the electrode 10 is provided by the electrode chuck 8 is the head portion 7. In addition to the lowering, the lifting and lowering is also performed by the lifting and lowering of the fixing stand 6, and the operating plate 5 to which the fixing stand 6 is fixed is inclined by an arbitrary left and right angle by the rotation of the connecting stand 4. Since the pivoting hole 3 in which the connecting table 4 is fitted is rotatable 360 ° with respect to the prop, the head portion 7 is not mounted on the upper part of the base 1 only. 1) Since it can be installed on the outside, it is possible to easily form micro deep holes regardless of the size or shape of the workpiece.

As described above, although the present invention has been described with reference to the above embodiments, it is not necessarily limited thereto, and various modifications may be made without departing from the scope and spirit of the present invention.

As can be clearly seen from the above description, according to the micropore discharge machine in which the position of the head portion of the present invention can be freely changed, the head portion in which the electrode for forming the micropore with respect to the workpiece is provided depends on the size or shape of the workpiece or the microdeep hole. By varying the installation position and orientation angle freely according to the direction of processing formation, the usability of the micro deep hole discharge processing machine is increased, and it is possible to easily form various types of micro deep holes for the workpiece more precisely. In addition to lowering the manufacturing cost for the workpiece, it also provides useful effects such as enabling more efficient use of the micro deep hole discharge processing machine.

Claims (5)

In constructing the micro deep hole discharge processing machine (A), A support (2) is provided on one side of the base (1) on which the separate material support (11) is placed, and the other end of the rotation hole (3) in which the connecting table (4) is rotatably fitted at one end on the support (2). A stage is installed, and an operating plate 5 having a fixing stand b is installed at one end of the connecting rod 4, and a driving motor 9 is installed on the fixing stand 6, but this driving motor ( 9) the head portion, characterized in that the other end of the transfer screw 91, one end of which is connected to the head portion 7 on which the electrode chuck 8 is installed, is connected to the fixing table 6 while being screwed. Free conversion micro deep hole electric discharge machine The method according to claim 1, The head portion 7 is free to change the position of the head portion, characterized in that the lifting and lowering relative to the fixed base 6 by the rotation of the feed screw 91 in accordance with the drive of the drive motor (9) The method according to claim 1, A rack gear 61 is installed at one side of the fixing stand 6 to be engaged with the pinion gear in the operating plate 5 so that the fixing plate 6 is operated by operating the handle 51 at one side of the operating plate 5. 5) freely change the position of the head portion, characterized in that the rise and fall relative to The method according to claim 1, The connecting table 4 having one end fitted into the pivoting hole 3 can be arbitrarily rotated as necessary with respect to the pivoting hole 3. The method according to claim 1, Rotating opening (3) having one end connected to the support (2) is capable of rotating 360 ° with respect to the support (2), if necessary, the position of the head portion free micro-hole discharge processing machine