KR102491018B1 - Cutting tool moving device capable of adjusting precisely up and down moving distance - Google Patents

Abstract

The present invention relates to a cutting tool vertical feeding device mounted on a machine tool and vertically moving the cutting tool, and more specifically to the cutting tool feeding device capable of adjusting the moving distance. The cutting tool feeding device capable of precisely adjusting the vertical moving distance according to the present invention includes a cutting tool fixing unit (10); a cutting tool base block unit (20); a cutting tool vertical movement control rod (30); and a cutting tool fixing unit support spring (40).

Description

Cutting tool moving device capable of adjusting precisely up and down moving distance}

The present invention relates to a cutting tool vertical transfer device mounted on a machine tool and moving the cutting tool up and down. It is possible to move the cutting tool precisely and precisely for ultra-precision machining, and it is possible to move and fix the cutting tool more quickly for a large amount of cutting in a short time. It relates to a cutting tool transfer device capable of precisely adjusting the vertical movement distance that can prevent vibration.

In general, machine tools such as lathes are configured to selectively replace and use cutting tools such as cutting bites according to the surface roughness of the workpiece or the processing part of the workpiece to be machined, and for the selective use of such cutting tools The cutting tool fixing part that detachably fixes the cutting tool is used as a tool holder.

In general, the cutting tool fixing part is provided to be movable up and down on a cutting tool fixing block formed on a machine tool, etc., and the cutting tool fixing part in which the cutting tool is fixed is provided according to the shape, position, and processing type of the workpiece. After moving the cutting tool up and down according to the processing type of the workpiece, the cutting tool fixing part should be fixed and set in an accurate position,

The conventional cutting tool fixing part, that is, the tool holder, is a form of simply fixing the cutting tool, and there is a problem in that it is difficult to precisely adjust the setting position. It is inconvenient to reset the cutting tool by unscrewing the fixing bolts, etc., especially when the workpiece requires ultra-precision machining in the order of microns, such as a mold for manufacturing a lens, etc. Due to this, it is difficult to precisely move and set the cutting tool.

The present invention was derived to solve the above problems, and the cutability of cutting materials such as nonferrous metals or mold materials for manufacturing lenses is good, but enables detailed and accurate movement of cutting tools for ultra-precision processing in the unit of microns, It makes it possible to move and fix the cutting tool more quickly for a large amount of cutting in a short period of time, and to minimize minute positional movement or vibration during the movement of the cutting tool or during cutting.

In one form of the present invention for solving the above-mentioned problems, one front side is provided with a cutting tool insertion groove 12 into which the cutting tool 11 is inserted and detachably fixedly coupled, and one rear side is provided with a vertical movement control arm. The screw thread 13 is formed to penetrate along the upper and lower longitudinal directions, and the vertical movement guide protrusion 14 is formed to protrude with a predetermined length on the rear left and right sides, respectively, and the support spring is seated on the upper side at a predetermined depth on the lower side. a cutting tool fixing part 10 provided with a groove 15; On the upper side, a cutting tool vertical movement fixing block 21 is provided vertically at a predetermined height, and a vertical movement space 22 is provided in the front of the cutting tool vertical movement fixed block 21 along the vertical longitudinal direction to The cutting tool fixing part 10 is positioned so as to be able to move vertically, and on the left and right sides of the vertical moving space part 22, the vertical movement guide corresponds to the vertical movement guide protrusion 14 of the cutting tool fixing part 10. Grooves 23 are formed, respectively, into which the vertical movement guide protrusions 14 are inserted, and an outer side surface of the vertical movement guide projections 14 is in contact with an inner side surface of the vertical movement guide grooves 23. , It is provided to be movable downward, and a control dial support protrusion 24 is formed to protrude a predetermined distance forward at the upper center, and a control dial rotation support groove 25 is formed in the center of the control dial support protrusion 24 to move up and down. A cutting tool base block portion 20 formed to penetrate; A circular control dial 31 is formed on the upper part, and a vertical movement control rod 32, 30 is provided with a predetermined length on the lower center of the control dial 31, and the control dial 31 moves downward. A rotation locking jaw 33 is formed around the vertical movement control rods 32 and 30 at a predetermined distance apart from each other, and is formed between the lower side of the control dial 31 and the upper side of the rotation locking jaw 33. The control dial support protrusion 24 is interposed so that the lower surface of the control dial 31 and the upper surface of the rotation locking jaw 33 come into contact with the upper and lower surfaces of the control dial support protrusion 24, respectively. The vertical movement control rods 32 and 30 located between the lower surface of the control dial 31 and the upper surface of the rotation locking jaw 33 are inserted into the control dial rotation support groove 25 to be rotatable. Provided, on the outer surface of the vertical movement control rods 32 and 30 located below the rotation locking jaw 33, a vertical movement adjustment male screw thread 34 corresponding to the vertical movement adjustment female screw thread 13 is provided. It is formed to a predetermined length and is screwed, and the lower side of the vertical movement adjusting rod 32, 30 penetrates while being screwed into the vertical movement adjusting female thread 13 to a predetermined lower side of the cutting tool fixing part 10. A cutting tool vertical movement control rod 30 formed to protrude the distance; And, the upper side is seated in the upper seating groove 15 of the support spring of the cutting tool fixing part 10, and the lower end surface is the cutting tool base block portion 20 facing the upper seating groove 15 of the support spring. It is in close contact with the upper side of the inner hollow coil spring, and the inner hollow is screwed into the vertical movement control female screw thread 13 of the cutting tool fixing part 10 and protrudes downward a predetermined distance through the cutting tool. The cutting tool fixing support spring 40 into which the lower side of the tool vertical movement control rod 30 is inserted; It provides a cutting tool feeding device (1) capable of precise vertical movement distance adjustment, characterized in that it is formed by including.

In the cutting tool feeding device 1 capable of precisely adjusting the vertical movement distance according to one embodiment of the present invention, the upper surface of the cutting tool base block 20 has an upper seating groove for the support spring of the cutting tool fixing part 10. At a position opposite to (15), a support spring lower seating groove 26 is formed to a predetermined depth, is formed as an inner hollow, and a seating flange 42 is provided around the lower end to The lower surface and the outer circumferential surface of the seating flange 42 are closely fixed to the inner surface, and the upper side is formed with a protrusion 43 so as to vertically protrude a predetermined distance from the lower seating groove 26 of the support spring, so that the cutting tool fixing part support spring (40) It is inserted into the inner hollow at the lower side, and the outer circumferential surface of the protrusion 43 inserted into the inner hollow at the lower side of the cutting tool fixing part support spring 40 has an inner surface of the lower side of the cutting tool fixing part support spring 40. The cutting tool vertical movement control rod is provided in contact with the inner hollow of the protrusion 43 and penetrates while being screwed into the vertical movement adjustment female thread 13 of the cutting tool fixing part 10 and protrudes downward a predetermined distance. A left and right movement prevention guide cap 41 inserted movably up and down in a state in which the outer surface of the lower side of the (30) is in contact with the inner surface of the inner hollow; It is further formed, and the cutting tool fixing part support spring 40 may be formed as a mold spring having a rectangular cross section,

Preferably, the cutting tool vertical movement fixing block 21 of the cutting tool base block portion 20 is one side of the vertical movement guide grooves 23 provided on the left and right sides of the vertical movement space 22, respectively. In the vertical movement guide groove 23 of the cutting tool, a plurality of pressurizing bolt holes 52 provided at predetermined intervals along the vertical longitudinal direction of the vertical movement fixing block 21 are provided on the outer side of the fixing block 21. In the vertical movement guide groove 23 on the one side, which is formed to pass through the inside of the vertical movement guide groove 23 on one side and through which the plurality of pressurizing bolt holes 52 are formed, the vertical length inside the groove portion. A pressure plate 50 is provided along the direction, and a pressure bolt 53 is screwed into the pressure bolt hole 52 so as to penetrate from the outside to the inside of the groove, and the pressure bolt 53 protrudes through the groove. The end of is in close contact with the rear surface of the pressure plate 50, a sliding coating layer 51 is formed to a predetermined thickness on the pressure front surface of the pressure plate 50 formed toward the inside of the groove, and the pressure bolt 53 ) When the end of the pressing bolt 53 moves forward inward through tightening of the pressing plate 50 so that the pressing front surface of the pressing plate 50 presses and adheres to the outer surface of the vertical movement guide protrusion 14 located inside the groove. In a state in which the outer surface of the vertical movement guide protrusion 14 is in close contact with the pressing front surface, it may be provided so as to be vertically movable.

The cutting tool transfer device capable of precisely adjusting the vertical movement distance according to the present invention enables detailed and accurate movement of the cutting tool for ultra-precision cutting in the order of microns, such as nonferrous metals or mold materials for lens manufacturing, and enables large quantities of For cutting, it is possible to move and fix the cutting tool more quickly, and it is possible to minimize minute positional movement or occurrence of vibration during the movement of the cutting tool or during cutting.

1 is a perspective view showing a cutting tool transfer device capable of precisely adjusting the vertical movement distance according to the present invention;
Figure 2 is a vertical cross-sectional view showing a cutting tool transfer device capable of precisely adjusting the vertical movement distance according to the present invention; and,
Figure 3 is a plan view showing a cutting tool transfer device capable of precisely adjusting the vertical movement distance according to the present invention; to be.

Hereinafter, embodiments of the present invention in which the above object can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiments, the same names and symbols are used for the same components, and additional descriptions accordingly are omitted below.

1 is a perspective view showing a cutting tool feeder 1 capable of precisely adjusting the vertical movement distance according to the present invention, and FIG. 2 is a vertical view showing the cutting tool feeder 1 capable of precisely adjusting the vertical movement distance according to the present invention. 3 is a plan view showing a cutting tool feeding device 1 capable of precisely adjusting the vertical movement distance according to the present invention.

As shown in FIGS. 1 and 2, the cutting tool feeding device 1 capable of precisely adjusting the vertical moving distance according to the present invention includes a cutting tool fixing part 10 functioning as a cutting holder, a machine tool, etc. The cutting tool base block part 20 is provided so that the cutting tool fixing part 10 is movably coupled up and down, and the cutting tool fixing part 10 is moved upward and downward on the cutting tool base block part 20, A cutting tool fixing rod 30 for precisely adjusting the lower movement distance and a cutting tool fixing support spring 40 for elastically supporting the cutting tool fixing section 10 from the lower side to prevent backlash, formed, including

As shown in FIGS. 1 and 2, the cutting tool fixing part 10 is detachably fixed and detachable through fastening such as a fixing bolt (not shown) by inserting a cutting tool 11 on one side of the front side. A cutting tool insertion groove 12 is provided, and on one side of the rear side, a female thread for adjusting the vertical movement is formed to penetrate along the vertical direction, and on the rear left and right sides, vertical movement guide protrusions 14 are formed to a predetermined length. It is formed to protrude and is configured to precisely move up and down while being guided by the up and down movement guide grooves provided on the left and right sides of the cutting tool up and down movement fixing block 21 during up and down movement, and supported at a predetermined depth on one side of the lower part An upper spring seating groove 15 is formed so that the upper side of the cutting tool fixing part support spring 40 is seated and supported elastically.

As shown in FIGS. 1, 2 and 3, the cutting tool base block part 20 is provided with a cutting tool vertical movement fixing block 21 vertically at a predetermined height on the upper side, and the cutting tool In front of the vertical movement fixing block 21, a vertical movement space portion 22 is provided along the vertical longitudinal direction so that the cutting tool fixing portion 10 can move vertically, and the vertical movement space portion 22 On the left and right sides, vertical movement guide grooves 23 are formed corresponding to the vertical movement guide projections 14 of the cutting tool fixing part 10, and the vertical movement guide projections 14 are inserted and coupled. The outer side of the guide protrusion 14 is provided to move up and down in a state in contact with the inner side of the up and down movement guide groove 23, and the control dial support protrusion 24 protrudes forward a predetermined distance from the upper center. ) is formed, and at the center of the control dial support protrusion 24, a control dial rotation support groove 25 is formed to penetrate vertically.

As shown in FIGS. 1 and 2 , the cutting tool vertical movement control rod 30 has a circular control dial 31 formed on the top thereof, and a vertical movement control knob on the center lower side of the control dial 31. The rods 32 and 30 are provided with a predetermined length, and a rotation locking jaw 33 is provided around the vertical movement control rod 32 and 30 at a position spaced a predetermined distance downward from the control dial 31. formed so that the control dial support protrusion 24 is interposed between the lower surface of the control dial 31 and the upper surface of the rotation locking jaw 33, respectively, on the upper and lower surfaces of the control dial support protrusion 24. The lower surface of the control dial 31 and the upper surface of the rotation locking jaw are provided in contact with each other, and the vertical movement control rod 32 positioned between the lower surface of the control dial 31 and the upper surface of the rotation locking jaw 33 ) (30) is inserted into the control dial rotation support groove 25 and is rotatably provided, and the outer circumferential surface of the vertical movement control rod 30 located below the rotation locking jaw 33 is the vertical movement control arm. Corresponding to the screw thread 13, a vertical movement adjustment male screw thread 34 is formed to a predetermined length and is screwed, and the lower side of the vertical movement adjustment rod 32, 30 is screwed to the vertical movement adjustment female screw thread 13 It penetrates while being coupled and is formed to protrude a predetermined distance to the lower side of the cutting tool fixing part 10.

As shown in FIGS. 1 and 2, the cutting tool fixing part support spring 40 is seated in the support spring upper seating groove 15 of the cutting tool fixing part 10, and the lower end surface is It is in close contact with the upper side of the cutting tool base block part 20 facing the upper seating groove 15 of the support spring, and is formed as an internal hollow coil spring, and the upper and lower portions of the cutting tool fixing part 10 are formed in the internal hollow. The lower side of the cutting tool vertical movement control rod 30, which penetrates while being screwed into the movement control female screw thread 13 and protrudes downward a predetermined distance, is inserted, and the cutting tool fixing part 10 and the cutting tool base block part It is interposed between (20) to elastically support the cutting tool fixing part (10), and the backlash phenomenon of the cutting tool vertical movement control rod (30) screwed with the vertical movement adjustment female thread (13) is prevented. It is possible to precisely adjust the upper and lower moving distances of the cutting tool fixing part 10 by preventing this.

As shown in FIGS. 1 and 2, the cutting tool feeding device 1 capable of precisely adjusting the vertical movement distance according to the present invention controls the vertical movement of the cutting tool screwed with the vertical movement adjusting female thread 13. By rotating and moving the control dial 31 of the rod 30, the cutting tool fixing part 10 and the cutting tool 11 can be moved up and down to the desired exact position, and the lower surface and rotation of the control dial Through the configuration of the control dial support projection 24 provided in contact with the upper surface of the locking jaw 33, a predetermined rotational frictional force is generated between the control dial, the rotation locking jaw 33, and the support projection 24, and , The backlash phenomenon is prevented through the cutting tool fixing part support spring 40 that elastically supports the cutting tool fixing part 10 from the lower side, and the control dial, the rotation locking jaw 33, and the support protrusion ( The contact area of 24) and the generated frictional force act as a damping force that allows the user to finely adjust the control dial, enabling precise control of the up and down movement distance.

Preferably, as shown in FIG. 2, on the upper surface of the cutting tool base block portion 20, the lower portion of the support spring is located opposite to the support spring upper seating groove 15 of the cutting tool fixing portion 10. The seating groove 26 is formed to a predetermined depth, and a seating flange 42 is provided around the lower end of the left and right movement prevention guide cap 41 formed as an inner hollow, on the inner surface of the lower seating groove 26 of the support spring. The lower surface and the outer circumferential surface of the seating flange 42 are tightly fixed, and the upper side is formed with a protrusion 43 vertically protruding a predetermined distance from the lower seating groove 26 of the support spring, so that the cutting tool fixing part support spring 40 ) Is inserted into the lower inner hollow, and the inner surface of the lower side of the cutting tool fixing part support spring 40 comes into contact with the outer circumferential surface of the protrusion 43 inserted into the lower inner hollow of the cutting tool fixing part support spring 40 The cutting tool vertical movement control rod 30 is provided, and the cutting tool vertical movement control rod 30 penetrates the inner hollow of the protrusion 43 while being screwed into the vertical movement adjustment female thread 13 of the cutting tool fixing part 10 and protrudes downward a predetermined distance. ) is configured to be movably inserted up and down in a state in which the outer surface of the lower side is in contact with the inner surface of the member hollow, so that the cutting tool vertical movement control rod 30 can be more firmly supported in the vertical direction. When the control dial is operated, it is possible to minimize minute shaking and vibration of the front and rear, left and right, and precise manipulation of the control dial is possible.

In addition, as shown in FIG. 2, the cutting tool fixing part support spring 40 is formed as a mold spring with a rectangular cross section, and compared to a conventional coil spring formed by winding a metal material having a circular cross section in a spiral, the spring compresses and In the process of being stretched, it is possible to minimize the front and back, left and right positional movement and vibration of the spring, so that the cutting tool fixing part 10 can be elastically supported more firmly, and the fine front and back of the cutting tool fixing part 10, Left and right positional movement and vibration can be minimized.

Preferably, as shown in FIGS. 1, 2 and 3, the cutting tool vertical movement fixing block 21 of the cutting tool base block 20 is the left side of the vertical movement space 22, A plurality of pressurizing bolt holes ( 52) is formed to penetrate from the outside of the fixing block 21 to the inside of the vertical movement guide groove 23 on the one side, and the plurality of pressing bolt holes 52 are formed to pass through. The moving guide groove 23 is provided with a pressure plate 50 along the vertical direction inside the groove, and a pressure bolt 53 is provided in the pressure bolt hole 52 from the outside to the inner groove of the fixing block 21. The end of the pressure bolt 53 provided to be screwed to the side and protruded through the groove part is in close contact with the rear surface of the pressure plate 50, and the pressure plate 50 formed toward the inside of the groove part A sliding coating layer 51 is formed to a predetermined thickness on the front surface of the pressing plate, and the end of the pressing bolt 53 advances inward through tightening of the pressing bolt 53 so that the pressing front surface of the pressing plate 50 is grooved. It presses and adheres to the outer surface of the up-and-down movement guide protrusion 14 located inside the unit, so that the cutting tool fixing part 10 can be more firmly fixed from the side, and the cutting tool 11 moves up and down. In addition to being able to prevent minute movements and vibrations during processing or processing, the outer surface of the up-and-down movement guide protrusion 14 is provided so as to be able to move up and down while being in close contact with the front surface of the pressurization, thereby reducing lateral movement, vibration, and backlash. can be prevented, and it is possible to precisely control the vertical movement distance.

As described above, the cutting tool feeding device 1 capable of precisely adjusting the vertical movement distance according to the present invention moves the cutting tool 11 precisely and precisely for ultra-precision cutting in the unit of microns, such as nonferrous metals or mold materials for manufacturing lenses. This is possible, it is possible to move and fix the cutting tool 11 more quickly for a large amount of cutting in a short time, and it is possible to minimize the movement of the cutting tool 11 or the occurrence of vibration during the movement or cutting. there will be

Although several embodiments have been illustratively described above, the fact that the present invention can be embodied in many different forms without departing from its spirit and scope is apparent to those skilled in the art.

Accordingly, the above-described embodiments are to be regarded as illustrative rather than restrictive, and all embodiments coming within the scope of the appended claims and their equivalents are included within the scope of this invention.

1: Cutting tool transfer device capable of precise vertical movement distance adjustment
10: cutting tool fixing part 11: cutting tool
12: cutting tool insertion groove 13: vertical movement adjustment female thread
14: upper and lower guide protrusions 15: support spring upper seating groove
20: cutting tool base block part 21: cutting tool vertical moving fixed block
22: Shanghai East Space Part 23: Shanghai East Guide Home
24: control dial support protrusion 25: control dial rotation support groove
26: Support spring lower seating groove
30: cutting tool vertical movement adjustment rod 31: adjustment dial
32: up and down adjustment rod 33: rotation locking jaw
34: vertical movement adjustment male thread
40: cutting tool fixing support spring 41: left and right movement prevention guide cap
42: seating flange 43: protrusion
50: pressure plate 51: sliding coating layer
52: pressurized bolt hole 53: pressurized bolt

Claims (3)

On one side of the front, a cutting tool insertion groove 12 into which a cutting tool 11 is inserted and detachably fixedly coupled is provided, and on one side of the rear, a female screw thread 13 for vertical movement adjustment is formed to penetrate along the upper and lower longitudinal directions. And, on the rear left and right sides, vertical movement guide protrusions 14 are formed to protrude with a predetermined length, respectively, and a cutting tool fixing unit 10 having an upper seating groove 15 for a support spring with a predetermined depth on one side of the lower part;
On the upper side, a cutting tool vertical movement fixing block 21 is provided vertically at a predetermined height, and a vertical movement space 22 is provided in the front of the cutting tool vertical movement fixed block 21 along the vertical longitudinal direction to The cutting tool fixing part 10 is positioned so as to be able to move vertically, and on the left and right sides of the vertical moving space part 22, the vertical movement guide corresponds to the vertical movement guide protrusion 14 of the cutting tool fixing part 10. Grooves 23 are formed, respectively, into which the vertical movement guide protrusions 14 are inserted, and an outer side surface of the vertical movement guide projections 14 is in contact with an inner side surface of the vertical movement guide grooves 23. , It is provided to be movable downward, and a control dial support protrusion 24 is formed to protrude a predetermined distance forward at the upper center, and a control dial rotation support groove 25 is formed in the center of the control dial support protrusion 24 to move up and down. A cutting tool base block portion 20 formed to penetrate;
A circular control dial is formed on the upper part, and a vertical movement control rod 32, 30 is provided with a predetermined length on the lower center of the control dial, and the vertical movement is located at a position spaced a predetermined distance downward from the control dial. A rotation locking jaw 33 is formed around the control rods 32 and 30, and the control dial support protrusion 24 is interposed between the lower side of the control dial and the upper side of the rotation locking shoulder 33, The lower surface of the control dial and the upper surface of the rotation locking jaw 33 are provided in contact with the upper and lower surfaces of the control dial support protrusion 24, respectively, and the lower surface of the control dial and the rotation locking jaw 33 The vertical movement control rods 32 and 30 located between the upper side surfaces are inserted into the control dial rotation support groove 25 and rotatably provided, and the vertical movement control located below the rotation locking jaw 33 On the outer surface of the rods 32 and 30, a vertical movement adjustment male screw thread 34 is formed to a predetermined length and screwed to correspond to the vertical movement adjustment female thread 13, and the vertical movement adjustment rod 32 ( 30), the cutting tool vertical movement control rod 30 formed to protrude a predetermined distance to the lower side of the cutting tool fixing part 10 by penetrating while being screwed into the vertical movement adjustment female screw thread 13; and,
The upper side is seated in the support spring upper seating groove 15 of the cutting tool fixing part 10, and the lower end surface is the upper portion of the cutting tool base block portion 20 facing the support spring upper seating groove 15. The cutting tool is in close contact with the side surface and is formed of an internal hollow coil spring, and is screwed into the vertical movement adjustment female thread 13 of the cutting tool fixing part 10 in the internal hollow and protrudes a predetermined distance downward through penetration. The cutting tool fixing support spring 40 into which the lower side of the movement control rod 30 is inserted; A cutting tool feeding device (1) capable of precise vertical movement distance adjustment, characterized in that formed by including.
According to claim 1,
On the upper surface of the cutting tool base block portion 20, a support spring lower seating groove 26 is formed at a predetermined depth at a position opposite to the support spring upper seating groove 15 of the cutting tool fixing portion 10,
It is formed as an inner hollow, and a seating flange 42 is provided around the lower end so that the lower surface and outer circumferential surface of the seating flange 42 are closely fixed to the inner surface of the lower seating groove 26 of the support spring, and the upper side is the support A protrusion 43 is formed so as to vertically protrude a predetermined distance from the spring lower seating groove 26 and is inserted into the inner hollow at the lower side of the cutting tool fixing part support spring 40, and the lower part of the cutting tool fixing part support spring 40 The inner surface of the lower side of the cutting tool fixing part support spring 40 is provided in contact with the outer circumferential surface of the protrusion 43 inserted into the inner hollow, and the inner surface of the protruding part 43 is in contact with the cutting tool fixing part 10. Up and down movement in a state where the outer surface of the lower side of the cutting tool vertical movement control rod 30, which is screwed into the vertical movement adjustment female screw thread 13 and protrudes downward a predetermined distance, is in contact with the inner surface of the inner hollow. A guide cap 41 for preventing left and right movement that is possibly inserted; formed by further including
The cutting tool feeder (1) capable of precise vertical movement distance adjustment, characterized in that the cutting tool fixing support spring (40) is formed of a mold spring having a rectangular cross section.
According to claim 1 or 2,
The cutting tool vertical movement fixing block 21 of the cutting tool base block portion 20,
In the vertical movement guide groove 23 on one side of the vertical movement guide grooves 23 provided on the left and right sides of the vertical movement space 22, the vertical longitudinal direction of the cutting tool vertical movement fixing block 21 A plurality of pressurizing bolt holes 52 provided at predetermined intervals are formed to penetrate from the outside of the fixing block 21 to the inside of the vertical movement guide groove 23 on one side,
The vertical movement guide groove 23 on one side, through which the plurality of pressure bolt holes 52 are formed, is provided with a pressure plate 50 along the vertical longitudinal direction inside the groove, and the pressure bolt hole 52 has The pressure bolt 53 is screwed from the outside to the inside of the groove, and the end of the pressure bolt 53 protruding through the groove is in close contact with the rear surface of the pressure plate 50, and toward the inside of the groove. A sliding coating layer 51 is formed to a predetermined thickness on the pressing front surface of the pressing plate 50 formed toward the pressure, and the end of the pressing bolt 53 moves forward inward through the tightening of the pressing bolt 53 so that the pressing When the pressing front surface of the plate 50 presses and adheres to the outer surface of the vertical movement guide protrusion 14 located inside the groove, the outer surface of the vertical movement guide projection 14 is in close contact with the pressing front surface. A cutting tool feeding device (1) capable of precise vertical movement distance adjustment, characterized in that it is provided to be movable up and down in the state.

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