KR20040060173A - Device for fixing an electrodes of multi jig using in numerical control working - Google Patents

Abstract

PURPOSE: A device for fixing an electrode for a multi-jig is provided to improve working efficiency by fixing a plurality of small electrodes to the multi-jig at regular intervals. CONSTITUTION: A fixing jig(300) includes an upper support plate(310) and a lower support plate(320). A plurality of insertion grooves(330) are formed at the upper support plate at regular intervals. A small electrode(120) is inserted into the insertion groove. A space unit(340) is formed at the side of the insertion groove, and has a moving member(500) for fixing the small electrode to the inner wall of the insertion groove.

Description

Device for fixing an electrodes of multi jig using in numerical control working}

The present invention relates to a fixing jig for a small electrode used in the finishing of a precision mold, and in particular, to fix the plurality of electrodes along the transverse and longitudinal directions to the fixing jig, as well as simplify the work process according to the fixing and separation of the electrode. The present invention relates to an electrode fixing device for a multi-processing jig.

In general, precision molds such as mobile phone molds have a very compact shape and design, but also include a plurality of ribs having strength reinforcement and functionality, and thus, discharge processing is a finishing tool for minimizing the tolerance range of such precision molds. This improves the precision of the mold product.

At this time, in order to perform the electric discharge machining by the finishing tool of the precision mold, electrodes of various types and sizes are needed. For example, insert electrodes to be processed into the electrode fixing jig and fix them with a fastening member, It is to be processed to the desired shape and thickness.

For example, as shown in Figure 1, the electrode fixing device 100, the fitting groove 111 is formed on the upper surface of the body as well as the electrode fixing jig formed with at least one screw hole 112 on the body side surface. The set screw 130 which is fastened to the small electrode 120 inserted into the fitting groove 111 of the jig 110 and the screw hole 112 of the jig 110 and fixes the small electrode 120. It is composed of

Therefore, in order to discharge the small electrode, the small electrode 120 is inserted into the fitting groove 111 of the electrode fixing jig 110 in a single state, and then the set screw 130 is inserted into the screw hole 112. When inserted and fastened, the small electrode 120 stays in a fixed state by the set screw 130.

However, in order to fix or separate the small electrode 120 inserted into the fitting groove 111 of the jig 110, the process of fastening / disassembling the set screw 130 fastened to the screw hole 112 must be repeated. Therefore, there is a problem in that the working cost and work load of the small electrode 120 are increased to increase the processing cost.

In addition, the electrode fixing device 100 is a state in which the inner diameter of the fitting groove 111 is set to a prescribed value, for example, a machining operation only when the cross-sectional area of the small electrode 120 is formed to have a size substantially similar to the inner diameter of the fitting groove 111. Since this is a possible state, in consideration of various cross-sectional areas and types of the small electrode 120, there is a problem in that the application range according to the fixing and processing of the small electrode is very narrow.

Accordingly, the present invention has been made to solve the problems described above, and regularly fixed a plurality of small electrodes along the transverse or longitudinal direction of the electrode fixing jig to increase the work productivity, as well as the An object of the present invention is to provide an electrode fixing device for a multi-processing jig, which can reduce ancillary costs by simplifying a process of fixing and detaching.

The present invention for achieving the above object, in the process of finishing the precision mold, as well as to configure the electrode fixing device of the multi-processing machine for accommodating and fixing small electrodes of various specifications that are multi-processed through numerical control In the multi-processing machine, the upper support plate and the lower support plate are coupled to each other, and a fixing jig constituting a body is installed, and a plurality of fitting grooves are formed in the upper support plate to accommodate the small electrodes along the longitudinal and transverse directions. Characterized in that the side portion is formed with a space for accommodating the lifting member and the movable member for fixing the small electrode.

1 is a schematic view showing an electrode fixing device of the jig according to the prior art,

2 is a perspective view showing an electrode fixing device according to the present invention;

3 is an exploded perspective view showing an electrode fixing device according to the present invention;

4 (a), (b) is a cross-sectional view showing a state before and after the operation of the electrode fixing device according to the present invention.

Explanation of symbols on the main parts of the drawings

120: small electrode 300: fixed jig

310.320: upper and lower support plate 321: seating part

330: fitting groove 340: space

341.342: Top and bottom guide grooves 343: Spiral grooves

400: lifting member 410: tool groove

420: spiral projection 430: the first slope

500: moving member 510: second inclined surface

520: vertical plane 530.540: upper and lower blades

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

2 to 4 is a cross-sectional view showing the perspective view and the exploded perspective view and before and after operation of the electrode fixing device according to the present invention, as well as used in the finishing process of the precision mold, as well as small electrodes of various specifications that are multi-processed through numerical control In configuring the electrode fixing device of the multi-processing machine for accommodating and fixing the 120, the fixing jig 300 is formed in which the upper support plate 310 and the lower support plate 320 are coupled to each other to form a body. In the upper support plate 310, a plurality of fitting grooves 330 are formed to regularly receive the small electrodes 120 along the longitudinal direction and the transverse direction, and the lifting member 400 is operated at the side of the fitting groove 330. In the process, a space portion 340 is formed to accommodate the movable member 50 0 to fix the small electrode 120 toward the inner wall of the fitting groove 330.

First, since the multi-processing machine among the components according to the present invention is the same as the known technology, a detailed description thereof will be omitted, but the upper and lower support plates 310.320 are coupled to the table surface (not shown) of the multi-processing machine through the bolt and the appearance thereof. Differences are included in that the fixing jig 300 forming this cube shape is installed.

In addition, the upper support plate 310, the plurality of fitting grooves 330 are formed on the upper surface of the body regularly receiving the small electrode 120 along the longitudinal direction and the transverse direction, and later on the side of the fitting groove 330 Each space portion 340 for receiving the elevating member 400 and the moving member 500 to be described is formed.

In addition, the lower support plate 320 is formed on the body upper surface of each of the seating portion 321 in which the small electrode 120 is in contact with the bottom surface, the spiral protrusion (described later) on the side of the seating portion 321 ( The spiral groove 343 to which the 420 is fastened is formed.

In addition, the elevating member 400 is inserted into the space 340 of the upper support plate 310 along the up and down direction to elevate by an external force, while the body is composed of the head and the support, the head of the body A tool groove 410 is formed in the portion in which an automatic or manual tool such as a screwdriver or a wrench is inserted.

In addition, the elevating member 400 has a spiral protrusion 420 is fastened to the bottom surface of the space portion 340 in the support portion of the body, the slanted surface at a predetermined angle while facing the lower side on the upper side of the circumferential surface The first inclined surface 430 is formed.

Of course, the spiral protrusion 420 is fixed while moving spirally along the bottom surface of the space 340, that is, the spiral groove 343 of the lower support plate 320.

Then, the moving member 500 is mounted along the vertical direction in the space between the space portion 340, preferably the fitting groove 330 and the space portion 340 to advance back and forth during the lifting process of the elevating member 400. As a repeating wedge-shaped member, a first inclined surface 430 and a second inclined surface 510 are formed on one side thereof.

In addition, the movable member 500 is a vertical surface 520 for closely contacting the small electrode 120 toward the inner wall of the fitting groove 330 in the surface contact with the small electrode 120 on the opposite surface of the first inclined surface 430. ) Is formed, the upper wing piece 530 and the lower wing piece 540 are formed at a predetermined distance on the upper and lower sides of the body both sides.

Of course, the first inclined surface 430 of the elevating member 400 and the second inclined surface 510 of the movable member 500 are naturally oblique in the opposite direction.

In this case, in the present invention, the movable member 500 is moved forward and backward by the elevating member 400. However, the movable member 500 may be moved forward and backward by using a cam or a rack / pinion or a cylinder. Of course.

And, the space portion 340, the lower blade piece 540 is inserted into the bottom surface of the lower guide groove 341 is formed to slide, the upper blade piece 530 on the upper side of the lower guide groove 341. The upper guide groove 342 is formed to be inserted and sliding.

Hereinafter, the operation according to the present invention will be described in detail.

First, in order to set the multi-processing machine, combining the upper support plate 310 and the lower support plate 320 of the fixing jig 300 to form a body, and then fixing the table surface (not shown) of the multi-processing machine It must be made in advance.

Then, the movable member 500 and the elevating member 400 are continuously inserted into the space portion 340 of the fixing jig 300 and set in an operable state, and then placed in the accommodation space in the fitting groove 330. Each small electrode 120 is inserted.

In this case, the plurality of moving members 500, the elevating member 400, and the small electrode 120 are regularly positioned on the upper support plate 310 constituting the fixing jig 300 along the transverse direction and the longitudinal direction, so as to be energized. Will be.

In this case, the small electrode 120 is always possible to insert even when the cross-sectional area is similar to or smaller than the inner diameter of the fitting groove 330, it is possible to insert a small war of various sizes.

Subsequently, when a forward rotation is performed in a state where an automatic or manual tool such as a screwdriver or a wrench is inserted into the tool groove 410 of the elevating member 400, the spiral protrusion 420 of the elevating member 400 may be formed on the lower support plate 320. Down along the spiral groove 343.

At this time, the first inclined surface 430 of the elevating member 400 and the second inclined surface 510 of the movable member 500 are in surface contact with each other, and the first inclined surface 430.510 in the downward process of the elevating member 400. By the interaction of the moving member 500 is pushed in the direction of the fitting groove 330.

At this time, the upper and lower blade pieces (530.540) formed on both sides of the moving member 500 is slid along the upper and lower guide grooves (151.152) of the space 340, the forward process of the moving member 500 is the upper and lower parts Guided through the guide groove (151.152).

Of course, it is preferable to standardize the downward amount of the elevating member 400 as much as the cross-sectional area of the moving member 500.

Subsequently, when the small electrode 120 is moved backwards and closely adheres to the inner wall of the fitting groove 330 in the advancing process of the moving member 500, since the fixing operation of the small electrode is completed, the lifting operation of the elevating member 400 is performed. Stop

Then, by operating a multi-processing machine (not shown) to process the small electrode 120 in the desired shape according to the preset value set in the controller, a series of working process according to the processing of the small electrode 120 is completed.

If the sludge generated during the processing of the small electrode 120 accumulates in the lower guide groove 341 and the advancement of the moving member 500 is impossible, the pressurized air is directed toward the sludge laminated in the lower guide groove 341. Should be removed by spraying.

At this time, since the moving member 500 is supported by the space part 340 through the upper and lower blade pieces 530.540 formed at both sides of the body, the moving member 500 flows or falls even when the pressurized air is injected to the moving member 500. Do not.

Meanwhile, when the machining operation of the small electrode 120 is completed and a tool such as a wrench or a screwdriver is inserted into the tool groove 410 of the elevating member 400 and rotated in the reverse direction, the body of the elevating member 400 is a spiral groove. It is generally upward along 151.

Of course, when the upward operation of the elevating member 400 is completed, since the small electrode 120 is free from the fitting groove 330, the small electrode 120 is drawn out and then another small electrode 120 is fixed. You do it.

As described above, according to the electrode fixing apparatus of the multi-processing jig according to the present invention, the small electrode is simplified by using a plurality of lifting members and moving members provided in the fixing jig of the multi-processing machine to simplify the process of fixing and separating the small electrode. The work process according to the processing is continuously performed, not only to increase the work productivity due to electrode production, but also to reduce the work load and labor, thereby minimizing various human / material costs due to the processing of small electrodes.

Claims (4)

In forming the electrode fixing device for the multi-processing jig for accommodating and fixing the small electrode 120 of various specifications that are used in the finishing process of the precision mold as well as multi-processing through numerical control, In the multi-processing machine, the upper support plate 310 and the lower support plate 320 are coupled to each other, and a fixing jig 300 constituting a body is installed, and the small electrode 120 is regularly arranged along the longitudinal and transverse directions on the upper support plate 310. A plurality of fitting grooves 330 are formed to accommodate the movement of the small electrode 120 toward the inner wall of the fitting groove 330 during the operation of the elevating member 400 on the side of the fitting groove 330. Electrode fixing device for jig for multi-processing, characterized in that the space portion 340 that accommodates the member 500 is formed. According to claim 1, The elevating member 400, the tool groove 410 is formed in the head of the upper surface of the body, the lower surface of the body is fastened with the spiral groove 343 of the bottom surface of the space 340 Spiral projection (420) is fixed, the electrode fixing device for jig for multi-processing, characterized in that the first inclined surface 430 is formed at a predetermined angle on the circumferential surface upper side toward the lower side. The method of claim 1, wherein the movable member 500, the second inclined surface 510 is formed on one side thereof in the opposite direction to the first inclined surface 430, the small electrode 120 on the other side The vertical surface 520 is in surface contact with one side of the upper surface is formed, the upper blade piece 530 and the lower wing piece 540, respectively, characterized in that the electrode fixing device of the multi-process jig. According to claim 1 to claim 3, The space portion 340, the lower blade piece 540 is inserted into the bottom surface is formed with a lower guide groove 341 which slides, the lower guide groove 341 The upper blade piece 530 is inserted into the upper side of the electrode fixing device for jig for multi-processing, characterized in that the upper guide groove 342 is formed to slide.