KR101925005B1 - Milling Machine Jig for Precision Parts - Google Patents

Abstract

The present invention relates to a fine adjustment jig for a milling machine. More specifically, when constructing a private fixture to be mounted on a bite chuck, it is possible to replace and mount precision parts of various sizes conveniently using one private fixture rather than a combination fixture. In addition, it is possible to adjust the position of the dedicated jig of the bite chuck by adjusting x-axis and y-axis as well as Z-axis lift control. In addition, when a rotary knob is broken, removal of the private fixture and removal of precision parts are possible for emergency use.

Description

{Milling Machine Jig for Precision Parts} for milling machine for precision parts machining

The present invention relates to a jig for a milling machine. More particularly, the present invention relates to a jig for a milling machine, and more particularly to a jig for a milling machine for precision parts machining, which enables easy and robust adjustment of precision parts of various sizes, .

A milling machine is a machine tool that rotates a milling cutter fixed on a spindle and cuts the workpiece into the required shape by imparting cutting depth and feed to the workpiece fixed on the table. It is also referred to as price plate. It can be used for complicated cutting such as flat cutting, grooving and cutting by using a suitable milling cutter. The milling machine has a spindle (main spindle) with a milling cutter installed and a table for transferring workpieces, and it is classified into a nipple type (knee type) and a bed type according to its structure. In addition, the horizontal axis is horizontal and the vertical axis is vertical.

In general, when an initial workpiece is formed by casting, parts that are used in cutting tools, precision parts used in various machines, and automobile engines are finished by machining the formed workpiece with a machine tool such as a milling machine. These precision parts are often machined to very fine dimensions and often do not work well with small errors. Therefore, the precision part workpiece is fixed using a jig so that the work can be accurately performed by the milling machine. Normally, the work is placed on the upper surface of the bed of the milling machine. However, when detailed work such as manufacturing a small-sized or radial-shaped groove such as a precision part is required, the jig is first fixed to the upper surface of the bed, To the jig.

However, since the conventional jig was manufactured and used for one product, there were some problems. First, when the workpiece is fixed to the jig, the bed is fixed to the milling machine, so that it is impossible to move in the x- and y-axis directions. Further, in the case of machining a workpiece several times, it takes a lot of time to set the workpiece again on the newly manufactured jig because the jig suitable for each machining must be prepared separately. . In addition, in the operation of machining the outer surface of a workpiece having a small size such as a precision part, securing of the cutting position is not accurately maintained and efficient machining is not performed.

In order to solve the above problems, it is possible to smoothly adjust the position of precision components fixed to the bite chuck by adjusting the x-axis and y-axis of the bite chuck, and particularly, A jig for a milling machine has been proposed.

However, the above-mentioned jig has a problem in that the work efficiency is deteriorated due to the inconvenience that the size of the jig block becomes inconvenient because the dedicated jig selects and uses a plurality of jig blocks in combination.

In addition, the convenience of adjusting the x and y axes of the precision component fixed to the bite chuck can be brought about, but the adjustment of the top and bottom height is not performed at all, and the position adjustment problem has appeared.

Korean Patent Registration No. 10-1209826.

The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide an exclusive fixture mounted on a bite chuck, The object of the present invention is to provide a fine adjustment jig for a milling machine for precision parts machining.

In addition, it is possible to adjust the position of the dedicated teeth mounted on the bite chuck, as well as to adjust the x-axis and y-axis as well as the Z-axis lift and elevation. For milling machines for precision parts machining Another object of the present invention is to provide a fine adjustment jig.

Another object of the present invention is to provide a fine adjustment jig for a milling machine for machining a precision part so as to enable removal of a dedicated jig and removal of a precision part in case of a failure or the like of a rotary knob.

In order to achieve the above-mentioned object, there is a specific means for achieving the above object, which comprises a base having a linear motion guide structure, a base mounted on the base and operated in the Y-axis linear motion by a rolling bearing operation, A jig for a milling machine comprising a bite chuck for mounting a dedicated jig, a linear motion driving portion for interrupting the X-axis linear motion of the bite chuck by hydraulic operation, and a control box for controlling the operation of the linear motion driving portion,

The dedicated jig,

A first fixing groove is formed at one end of the first side surface, and a first tilting screw groove having a diameter of 1/2 of the diameter is formed at the other end of the side surface. A first jig block having a first spring groove formed at one side thereof and a first fixing bolt vertically threaded by a first fixing groove formed at an upper portion thereof;

A second fixing groove corresponding to the first fixing groove and the first inclined screw groove and a second inclined screw groove having the other half shape are formed on the corresponding surface of the first fixing groove, A second jig block having a guide pin and a second spring groove corresponding to the guide groove and the first spring groove and having a second fixing bolt coupled to the upper portion thereof by a second fixing groove;

A tensile spring fixed at both ends to the first spring groove and the second spring groove to give an elastic force to pull the first jig block and the second jig block; And

And an inclination adjusting bolt which is formed to have a diameter gradually widening from the front end to the rear end and which is screwed to the first inclined screw groove and the second inclined screw groove so as to give an external force to open both first and second fixture blocks when fastened It can be achieved.

As described above, according to the present invention, the fine jig for a milling machine for milling machine comprises a first and a second jig block, both ends of which are connected to each other by a tension spring, It is possible to fix the precision parts through the fixing bolt. By using one exclusive jig, it is possible to control the expansion of the mounting groove on which the precision parts are mounted. Thus, by using one exclusive jig, It is possible to obtain an effect of mounting work and quick and convenient operation.

Further, it is possible to adjust the up and down movement in the Z-axis by the engagement operation of the pinion formed on the pressure fixing table and the rack formed on the exclusive jig, and it is possible to control the X, Y, Z three- A controllable effect can be obtained.

In addition, the pressure release shaft is capable of forcibly releasing the pressing force of the pressure fixing table. This makes it possible to easily remove the special fixture in an emergency, such as a failure of the rotary knob for pressing and releasing the exclusive jig.

1 is an overall perspective view of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
2 is an overall plan view of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
Fig. 3 is a perspective view of a dedicated jig for a fine adjustment jig for a milling machine for machining a precision part of the present invention. Fig.
4 is a cross-sectional view of a dedicated jig main part of a fine adjustment jig for a milling machine for machining a precision part of the present invention.
5 shows another embodiment of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
6 is a perspective view of still another embodiment of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
7 is a sectional view of still another embodiment of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
8 is a state in which a dedicated jig is used for a fine adjustment jig for a milling machine for machining a precision part of the present invention.
9 is a use state diagram according to another embodiment of a fine adjustment jig for a milling machine for machining precision parts of the present invention.
10 is a use state diagram according to still another embodiment of a fine adjustment jig for a milling machine for machining precision parts of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall perspective view of a fine adjustment jig for a milling machine for machining precision parts of the present invention, and FIG. 2 is a whole plan view of a fine adjustment jig for a milling machine for machining precision parts of the present invention.

1 and 2, the fine adjustment jig 1 for a milling machine for machining a precision part of the present invention comprises a base 100 having a linear motion guide structure, A bite chuck 200 for mounting a dedicated jig 300 on which a pressing fixture 220 is moved by the operation of a rotary knob 221 to move a precise part by the operation of the rotary knob 221, A linear motion driving unit 400 for interrupting the X axis linear motion of the bite chuck 200 and a control box 500 for controlling the operation of the linear motion driving unit 400,

The structural improvement of the milling machine jig (1) of the present invention makes it easier and more robust to mount and replace in mounting the precision component to the jig (1).

First, the fine adjustment jig 1 for a milling machine for machining a precision part according to the present invention facilitates the replacement and mounting of various precision parts with one dedicated jig 300 through the structural simplification of the dedicated jig 300.

3 and 4, the dedicated jig 300 comprises a first jig block 310, a second jig block 320, a tension spring 330, and a tilt adjustment bolt 340 .

First, the first jig block 310 is formed into a plate-shaped square block having a predetermined thickness.

At this time, the first fixture block 310 is formed with a first fixation groove 311 at one side of which one half of the precision component is accommodated at one end in the horizontal direction. The first fixation groove 311 has an end And a " C "-shaped groove opening to the side.

The first fixture block 310 has a first inclined screw groove 312 formed at the other end of the first fixing groove 311 and a first inclined screw groove 312 formed at the other end of the first fixture block 310, And has a half diameter in a planar semi-circular groove shape.

The first jig block 310 is formed with a plurality of guide grooves 313 at one side thereof, and two guide grooves 313 are formed at the center in the present invention.

The first jig block 310 has a first fixing groove 311 and a plurality of first spring grooves 312 at a position where the first fixing groove 311 and the first tilting screw groove 312 and the guide groove 313 are not interfered, 314). In the present invention, the first spring groove 314 is constituted by four pairs of upper, lower, left, and right.

The first fixture block 310 is formed with a first fixing bolt 315 screwed vertically to an upper portion of the first fixture block 310. The first fixing bolt 315 penetrates into the first fixing groove 311 do.

The second jig block 320 is formed in the shape of a square block having a predetermined thickness corresponding to the first jig block 310 and is formed as a pair with the first jig block 310 .

At this time, the first fixture groove 311 is formed on one side of the second fixture block 320, that is, on one side of the first fixture block 310 in the horizontal direction, The second fixing groove 321 is formed in a shape of a " C "-shaped opening to the end and the side surface. When the second fixing groove 321 is in contact with the first fixing groove 311, Shaped "grooves.

The second fixture block 320 has a second inclined screw groove 322 corresponding to the first inclined screw groove 312 and a second inclined screw groove 322 corresponding to the other end of the second fixing groove 321, The second inclined screw groove 322 is inclined to become narrower toward the inner side from the other end and is formed to have a half diameter in a planar semicircular groove shape. When the second inclined screw groove 322 is in contact with the first inclined screw groove 312 And has a tapered groove shape in a circular shape in cross section.

The second jig block 320 has a plurality of guide grooves 313 corresponding to the guide grooves 313 on its corresponding surface. In the present invention, two guide grooves 313 are formed, As shown in Fig.

The second jig block 320 is provided with a first spring groove 314 at a position where the second jig screw groove 322 and the guide pin 323 are not interfered with the second fixing groove 321, The second spring groove 324 is configured to form a set of four upward, downward, leftward and rightward directions. The second spring groove 324 corresponds to the second spring groove 324.

The second fixture block 320 includes a second fixing bolt 325 screwed vertically to the upper portion thereof and the second fixing bolt 325 is configured to penetrate the inside of the second fixing groove 321 do.

The first and second fixture blocks 310 and 320 are formed to correspond to each other and the first and second fixture blocks 310 and 320 are formed by sliding engagement of the guide groove 313 and the guide pin 323. [ The first fixing groove 311 and the second fixing groove 321 and the corresponding state between the first tilting screw groove 312 and the second tilting screw groove 322 are maintained in the process of narrowing or widening the gap between the first fixing groove 311 and the second fixing groove 321, do.

The tension spring 330 is configured to connect the first jig block 310 and the second jig block 320 together.

At this time, the tension spring 330 is configured to have a pulling elastic force, and corresponds to each of the first and second spring grooves 314 and 324. In the construction, both ends of the first spring groove 314 and the 2 spring grooves 324 through pins or the like so as to pull the first and second jig blocks 310 and 320 on both sides by the tensile force.

That is, the tension spring 330 is formed in each of the first and second spring grooves 314 and 324 so as to give elasticity to pull the first and second fixture blocks 310 and 320 on both sides, In the present invention, the first and second spring grooves 314 and 324 are formed such that a gap is generated between the first and second jig blocks 310 and 320 due to the tension spring 330 .

The inclination adjusting bolt 340 is composed of a tapered screw having a diameter gradually increasing from the front end to the rear end. In the present invention, the first inclined screw groove 312 and the second inclined screw groove 322 are screwed .

At this time, the inclination adjusting bolt 340 is formed to have a predetermined diameter larger than the diameter of the first and second inclined screw grooves 312 and 322, and preferably has the same thread.

That is, the inclination adjusting bolt 340 is configured to open the first and second fixture blocks 310 and 320 pulled by the tension spring 330 to the opposite sides. When the inclination adjusting bolt 340 is fastened The first and second fixture blocks 310 and 320 can be opened to expand the first and second fixing grooves 311 and 321 at the same time as the first and second inclined screw grooves 312 and 322 are drilled. The first and second fixture blocks 310 and 320 are restored by the pulling force of the tension spring 330 so that the widths of the first and second fixing grooves 311 and 321 are reduced do.

1 to 4, according to the interval between the first and second fixture blocks 310 and 320, the first and second fixation grooves 300 and 320 are formed in the first and second fixture blocks 310 and 320, (311) and (321) can be adjusted, and it becomes possible to accommodate precision components having various widths.

That is, the first and second jig blocks 310 and 320 are brought into contact with each other due to the pulling force of the tension spring 330. At this time, the first and second fixing grooves 311 and 321, The precision component 10 having the narrowest width as shown in (a) of FIG. 5A may be inserted and fastened by fastening the first and second fixing bolts 315 and 325.

8 (b), when the width of the precision component 10 to be mounted is larger than the width of the first and second fixing grooves 311 and 321 on both sides, the inclination adjusting bolt 340 is inserted into the first The first and second jig blocks 310 and 320 are extended to both sides while pulling up the pulling force of the tension spring 330. At the same time, The width of the two fixing grooves 311 and 321 is enlarged to allow the precision component 10 to be accommodated.

When the tilt adjusting bolt 340 is loosened in a state in which the precision component 10 is accommodated as described above, the first and second jig blocks 310 and 320 of the first and second fixing blocks 320 and 320 are pulled together by the pulling force of the tension spring 330 In this process, both sides of the precision component 10 can be pressed and fixed, and the press-fixed precision component is pressed by the fastening of the first and second fixing bolts 315 and 325, It becomes possible to fix it.

That is, in the present invention, the exclusive fixture 300 is adjusted by the action of the inclination adjusting bolt 340 and the tension spring 330 to adjust the interval of the first and second fixture blocks 310 and 320, (311) and (321) can be adjusted. Therefore, it is possible to easily and quickly mount precision parts of various sizes using a single exclusive jig 300.

5, fine adjustment of the position of the exclusive jig 300 in the upper and lower Z-axis directions may be performed in accordance with another embodiment of the fine adjustment jig 1 for forming a milling machine for machining a precision part of the present invention, It is possible to configure it.

To this end, the presser bar 220 is provided with a vertical adjustment member 222.

The upper and lower regulating member 222 is formed in a circular pin shape and is inserted from the side of the pressure fixing table 220. The rear end of the upper and lower adjusting member 222 protrudes outward from the pressure fixing table 220, And is rotatably adjustable.

The upper and lower adjusting member 222 is formed with a pinion 223 protruding from a pressing surface for pressing the exclusive fixture 300.

The first jig block 310 further includes a vertical rack 316 which is engaged with the pinion 223 on an outer surface of the first jig block 310, that is, a surface corresponding to the pressing surface of the pressure fixing table 220, At this time, the rack 316 is recessed by the protrusion of the pinion 223 on the outer surface of the first jig block 310, so that the pressing surface and the first jig block 310 can contact with each other.

In the present invention, as in a normal jig, hydraulic pressure is transmitted from the hydraulic assembly 410 of the linear motion driving part 400 to the bite chuck 200, and the bite chuck 200 moves linearly by the operation of the hydraulic cylinder 420 And also performs linear motion by the rolling force of the rolling bearing 210.

In the present invention, referring to FIG. 5, as shown in FIG. 9, when a predetermined pressing force is applied and fixed by the pressure fixing table 220, the exclusive jig 300 is rotated by the rotational operation of the vertical adjustment member 222 The upper and lower Z-axis position can be adjusted.

That is, when the rotational force is applied to the vertically adjusting member 222, the rack 316 engaged with the pinion 223 moves up and down with the rotation of the pinion 223. In this process, 300 can be moved upward and downward to adjust the position of the fine adjustment jig for the precision machining of the present invention, as well as to adjust the linear position of the fine adjustment jig for the milling machine in the horizontal direction, The fine adjustment of the position becomes possible.

It will be appreciated that after the position adjustment as described above, the pressing force of the pressure fixing table 220 is applied to fix the exclusive fixture 300 firmly.

6 and 7, in the construction of the fine adjustment jig 1 for a milling machine for machining a precision part of the present invention, a failure of the dedicated jig 300, that is, It is possible to easily remove the exclusive jig 300 fixed to the bite chuck 200 when the jig 300 can not be removed.

The auxiliary pressurizing unit 350 includes an auxiliary block 351 and a pressure release shaft 355. The auxiliary pressurizing unit 350 includes an auxiliary block 351, .

The outer side of the first jig block 310 of the exclusive jig 300 is inserted into the one side of the auxiliary block 351 to be inserted into the auxiliary block 351. The auxiliary block 351 has a shape of a plate- A dedicated fixture mounting groove 352 is formed to have a sectional shape of "C"

A plurality of pushing projections 353 which protrude and retract outwardly are formed on the opposite side of the exclusive fixture mounting groove 352 while being engaged with the inside of the auxiliary block 351. In the present invention, It is preferable that the pushing protrusion 353 is constituted of a pair of left and right and constitutes upper and lower pairs.

A guide hole 354 interfering with the inner surface of the pushing protrusion 353 is formed in the side surface of the sub block 351. The guide hole 354 corresponds to the pushing protrusion 353 of the two sets Upper and lower rows.

The outer surfaces of the first jig block 310 and the corresponding jig mounting grooves 352 of the auxiliary block 351 are further formed with magnet plates 319 and 359 having mutually different polarities and having an adhesive force to each other. At this time, the surfaces of the magnetic plates 319 and 359 are preferably buried in the same plane as the first fixture block 310 and the exclusive fixture mounting groove 352, respectively.

The pressure release shaft 355 has a circular pin shape and is configured to be inserted into each guide hole 354 of the auxiliary block 351 and to have both ends protruded.

The protruding and demounting interlock protruding portion 356 is formed around each of the press releasing axes 355 so as to surround the press releasing axle 355 It is preferable that each of the protruding and detaching interlocking protrusions 356 has a tapered shape with both ends tapering toward the outer side.

That is, when the protruding and detaching interlocking protrusion 356 is in contact with the rear surface of the pushing protrusion 353, the pushing protrusion 353 protrudes to the outside of the auxiliary block 351. When the protruding and detaching interlocking protrusion 356 is in contact with the pushing protrusion 353, The pushing protrusion 353 is detached from the side wall 353 by the external force.

6 and 7, the auxiliary pressing unit 350 uses the auxiliary block 351 to mount the dedicated jig 300 on the bite chuck 200, The outer side of the first jig block 310 is inserted and fixed to the dedicated jig mounting groove 352 of the first jig 351 through the magnet plates 319 and 359.

The pushing-off shaft 355 is in a state in which the protruding and detaching interlocking protrusion 356 is supported on the rear side of the pushing protrusion 353 from the inside of the guide hole 354 so that the pushing protrusion 353 is supported by the sub- As shown in Fig.

The auxiliary jig 300 is mounted on the bite chuck 200 together with the auxiliary block 351. The auxiliary block 351 is brought into contact with the pressing jig 220 to apply a pressing force thereto. The pressing projection 353 of the auxiliary block 351 is brought into contact with the pressure fixing table 220 and a pressing force is applied thereto so that the exclusive fixture 300 is mounted.

In a state in which the exclusive jig 300 is mounted as described above, if the rotary knob 221 malfunctions, the pressing jig 220 can not be operated and the exclusive jig 300 can not be removed The auxiliary jig 350 can be removed by the operation of the auxiliary pressing means 350. In this case,

That is, when a striking external force is applied to the protruding end of the push-off shaft 355 of the auxiliary pushing means 350 using a hammer or the like, the push-off shaft 355 is moved to one side, At this time, the protruding and detaching interlocking protrusion 356 of the pressure release shaft 355 releases the supporting force of the pushing protrusion 353.

In this process, a gap is generated between the pressing protrusion 353 and the pressing block 220, and a gap is formed between the pressing block 220 and the auxiliary block 351 So that the exclusive jig 300 can be removed.

As described above, according to the present invention, the fine adjustment jig for a milling machine for machining a precision part is capable of mounting and using various precision parts by using one exclusive jig. Especially, the adjustment according to the horizontal straight flow, So that it is possible to adjust the position more precisely. Further, when the bite chuck malfunctions, it is possible to easily remove the dedicated jig and the use efficiency can be further increased.

100: Base 200: Byte Chuck
210: Rolling bearing 220: Pressure holder
221: rotary knob 222: upper and lower adjustment member
223: pinion 300: exclusive jig
310: first jig block 311: first fixing groove
312: first inclined screw groove 313: guide groove
314: first spring groove 315: first fixing bolt
316: rack 319: magnetic plate
320: second jig block 321: second fixing groove
322: second inclined screw groove 323: guide pin
324: second spring groove 325: second fixing bolt
330: Tension spring 340: Tilt adjustment bolt
350: auxiliary pressing means 351: auxiliary block
352: dedicated fixture mounting groove 353: pressing projection
354: guide ball 355: pressure release shaft
356: protruding and detaching contraction protrusion 359: magnet plate
400: linear motion driving part 410: hydraulic assembly
420: Hydraulic cylinder
500: Control box

Claims (3)

A linear motion guide structure; a base 100 mounted on the base 100 and operated in a Y-axis linear motion by the operation of a rolling bearing 210 and operated by a rotary knob 221, A linear motion driving unit 400 for interrupting the X axis linear motion of the bite chuck 200 by hydraulic operation and a linear motion driving unit 400 for controlling the linear motion of the bite chuck 200, A jig for a milling machine comprising a control box (500) for controlling operation,
The dedicated jig (300)
A first fixing groove 311 is formed at one end of the first side surface, and a first tapered screw groove 312 having a diameter that is reduced from the end toward the inner side is formed at the other end of the first side, A plurality of guide grooves 313 and four first spring grooves 314 are formed on the side surface and a first fixture bolt 315 formed on the upper portion by vertically screwing the first fixture grooves 311, (310);
A second fixing groove 321 corresponding to the first fixing groove 311 and the first inclined screw groove 312 and a second fixing groove 321 corresponding to the first fixing groove 311 and the first inclined screw groove 312 are formed in correspondence with the first jig block 310, A second inclined screw groove 322 is formed and a guide pin 323 and a second spring groove 324 corresponding to the guide groove 313 and the first spring groove 314 are formed on the corresponding surface, A second fixture block 320 having a second fixation bolt 325 vertically threaded into a second fixation groove 321;
A tension spring 330 fixed to the first spring groove 314 and the second spring groove 324 at both ends to impart elastic force to pull the first jig block 310 and the second jig block 320; And
The first and second fixture blocks 310 and 320 are fastened to the first and second tapered screw grooves 312 and 322 so that the first and second fixture blocks 310 and 320 are fastened to each other when fastened. And an inclination adjusting bolt (340) for exerting an external force to open the fine adjustment jig for a milling machine.
The method according to claim 1,
In the pressure fixing table 220,
And a pinion 223 protruding from a pressing surface of the exclusive fixture 300 is formed at the end of the insert pin, and the up and down adjusting member 222 imparts up and down rotational force,
In the first jig block 310,
And a vertical rack (316) formed on the outer side of the pinion (223) and engaged with the pinion (223)
The upper and lower adjustment members 222 are configured to be capable of adjusting the up and down lifting and lowering of the exclusive jig 300 by engaging the pinion 223 and the rack 316. [ Fine adjustment jig.
The method according to claim 1,
(350) capable of mounting and pressing the exclusive fixture (300)
The auxiliary pressurizing means (350)
The outer side of the first jig block 310 is provided with a pressing force of the insertion and presser fixing table 220 and the inner side of the opposite side of the jig mounting groove 352 An auxiliary block 351 through which a plurality of pushing projections 353 which work in a projecting and retracting state are formed to pass through and a guide hole 354 penetrating through the side surface of the pushing protrusion 353 to interfere with the inner surface of the pushing protrusion 353; And
And a pressure release shaft 355 having a protruding and detaching interlocking protruding portion 356 interfering with the rear surface of the press protrusion 353 and interrupting the protrusion and withdrawal of the press protrusion 353 is formed around the guide hole 354, ),
The protruding and detaching interlocking protrusion 356 protrudes from the rear of the pushing protrusion 353 in the process of insertion of the press releasing shaft 355 into the guide hole 354 and when the pushing protrusion 353 is interfered with the pushing protrusion 353, The pushing protrusion 353 is retracted when the interference between the protruding and detaching interlocking protrusion 356 and the pushing protrusion 353 is canceled by hitting one end of the pushing releasing axis 355, So that the pressing force of the pressing member is forcibly released,
The magnet plates 319 and 359 having different polarities and having an adhesive force are further embedded in the outer surface of the first jig block 310 and the special jig mounting groove 352 of the auxiliary block 351 Fine adjustment jigs for milling machines for precision parts machining.

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