KR20050051620A - Device for detecting the true position for checking of shaft - Google Patents

Abstract

The present invention relates to a true position inspection machine for inspecting the axis of the groove formed in the outer periphery of the shaft (shaft), and more particularly to the axis to be inspected to examine the true position of the groove formed in the shaft The part of the device that makes the fixed and rotating axes rotate, etc. uses the structure of lathe, which is a kind of machine tool as a whole, and the inspection part that directly inspects the groove uses the principle of height gauge. By calculating the inspection value inspected by the inspection unit in the control device with the built-in numerical control program and displaying it on the monitor, it is easy to make the true position checker with simple principle and to accurately check the true position of the groove formed on the shaft. will be.

The present invention is provided on the top of the base plate 2, the tailstock 10 for supporting one end of the shaft 3 to be inspected, the tailstock 10 and the upper side of the base plate 2 facing the tailstock 10 A headstock 20 for supporting the other end of the shaft 3 together with the 10 and rotating the shaft 3 by a necessary angle, and a base plate 2 between the tailstock 10 and the headstock 20. It is provided in the upper portion is made up of the inspection device portion 40 for measuring the groove 4 of the shaft 3 installed between the tail stock 10 and the main shaft 20, the tail stock 10 is centered at the tip The center support 17 into which the 15 is inserted is horizontally movable from side to side by the cylinder 19 on the upper surface of the base plate 2, and the headstock 20 is rotated by the index motor 22. Index chuck 24 is installed to face the tailstock 10, the index chuck 24 is the center of the shaft (3) in the center of the chuck main body 25 is rotated by connecting the rotary shaft 23 and the rear end Center to Support Ends (26) It is installed to be exposed to the front, and the pressing hole 31 for pressing the side end plane portion 5 of the shaft 3 on the front center line of the chuck main body 25, the inspection device portion 40 is the front end portion Direction in which the vertical brackets 50 installed so that the inspection needle 52 for inspecting the grooves 4 of the shaft 3 are raised and lowered by the raising and lowering cylinders 54 and 51 cross each other in a cross shape. Characterized in that installed in the left and right and the front and rear movement means movable.

Description

Device for detecting the true position for checking of shaft

The present invention relates to a true position inspection machine for inspecting the axis of the groove formed in the outer periphery of the shaft (shaft), and more particularly to the axis to be inspected to examine the true position of the groove formed in the shaft The part of the device that makes the fixed and rotating axes rotate, etc. uses the structure of lathe, which is a kind of machine tool as a whole, and the inspection part that directly inspects the groove uses the principle of height gauge. By calculating the inspection value inspected by the inspection unit in the control device with the built-in numerical control program and displaying it on the monitor, it is easy to make the true position checker with simple principle and to accurately check the true position of the groove formed on the shaft. will be.

In general, when the groove is formed at a predetermined angle on the outer periphery of the shaft formed in a cylindrical shape, to determine whether or not the angle of the groove formed on the shaft and the true position and width of the groove are accurately machined, a three-dimensional measuring instrument is used. Each 3D measuring instrument is expensive, expensive equipment, and it takes a lot of time to measure, making it unsuitable for mass production, and comparing the centerline of the shaft with the centerline of the groove for accurate measurement. I had this impossible problem.

The present invention is to solve the above problems is to fix the axis of the groove is formed on the outer periphery, the device portion to operate the rotational movement at an angle that requires the axis fixed in accordance with the position to measure the type of lathe Using the principle of headstock and tailstock, the groove measuring part installs the inspection device using the principle of height gauge instead of the bite installed on the tool bar of the lathe, and the numerical control program is built in the inspection value inspected by the inspection device. It is a technical task to make it possible to precisely inspect the true position of the groove formed in the shaft and to easily manufacture the true position checker by a simple principle by displaying the calculated value on the monitor.

The present invention for achieving the above object, the tailstock for supporting one end of the shaft to be examined on the upper portion of the base plate, and is installed on the upper side of the base plate facing the tailstock to support the other end of the shaft with the tailstock It consists of a headstock for rotating the shaft by the required angle, and the inspection device for measuring the groove of the shaft installed between the tailstock and the headstock between the tailstock and the headstock, the tailstock is inserted into the center at the tip The center support is provided to be horizontally movable from side to side by a cylinder on the upper surface of the base plate, the main shaft is installed so that the index chuck rotating by the index motor facing the tailstock, the index chuck is connected to the rotary shaft and the rear end The center supporting the central end of the shaft is installed in the center of the rotating chuck main body exposed to the front, the front center line of the chuck main body There is a pressing hole for elastically pressing the side end plane portion of the shaft, and the inspection device is a vertical bracket intersected with each other in the shape of a cross (vertical) of the vertical brackets installed to be raised and lowered by the lifting and lowering cylinder to check the groove of the shaft at the front end Characterized in that installed in the left and right and the front and rear movement means movable in the direction.

Hereinafter, with reference to the accompanying drawings for the axis position true position checker according to the present invention 1 to 7a, 7b as follows.

The true position checker 1 of the present invention includes a tailstock 10 supporting one end of the shaft 3 to be inspected on an upper portion of the base plate 2, and a base plate 2 facing the tailstock 10. A main shaft 20 for supporting the other end of the shaft 3 together with the tailstock 10 and rotating the shaft 3 by the required angle, and the tailstock 10 and the main shaft 20. It is made up of the inspection device unit 40 is installed on the base plate (2) between the measuring the groove 4 of the shaft (3) installed between the tailstock 10 and the main shaft (20).

The tailstock 10 has a pedestal 12 having guides 11 formed on both sides of an upper surface thereof, and a sliding shoe 13 guided to the guide portion 11 on the upper surface of the pedestal 12. The slider 14 is installed to be movable horizontally, and the upper part of the slider 14 is provided with a center support 17 provided with a center chuck 16 into which the center 15 is inserted at the distal end. On the base plate 2 between the headstock and the main shaft 20, a cylinder 19, in which the tip rod portion 18 is coupled with the slider 14, is provided.

The main shaft 20 is installed in the case 21, the index motor 22 is installed, the rotary shaft 23 of the index motor 22 is installed to face toward the tail stock 10, the index at the end The chuck 24 is installed outside the case 21 facing the tail stock 10.

As shown in FIGS. 5A, 5B, and 5C, the index chuck 24 has a center 26 supporting a central end of the shaft 3 at the center of the chuck body 25 to which the rotary shaft 23 and the rear end are connected. Is installed to be exposed to, the horizontal groove 27 is formed in the horizontal direction on the front center line of the chuck main body 25, the spring engaging portion 28 is formed on one side of the horizontal groove 27, the spring engaging portion ( 28, the threaded portion 30 of the fastener 29 penetrates through the spring catching portion 28 so as to face the center of the horizontal groove 27 and elastically presses the side end plane portion 5 of the shaft 3 at the end thereof. The main pressing hole 31 is installed with the spring 32 interposed therebetween, and the cover plate 34 formed to pass through the through hole 33 into which the shaft 3 is inserted in the center of the front surface of the chuck main body 25. Is installed.

1 and 3, 4 and 7, the inspection device unit 40 is fixed to the left and right sliding support 41 is fixed to the base plate 2 between the tailstock 10 and the main shaft 20. In addition, the left and right sliding support 41 is guided to the left and right sliding support 41 and horizontally movable left and right screw block 42 is inserted and installed, the base plate on the same length line of the left and right sliding support 41 (2) ) The left and right feed motor 43 is installed, the left and right feed screw 44 installed on the motor shaft of the left and right feed motor 43 is screwed to the left and right screw block 42 and the left and right feed motor 43. According to the rotation, the left and right screw blocks 42 are capable of reciprocating in the horizontal direction.

In addition, the front and rear sliding support 45 is installed on the left and right sliding block 41 in the direction intersecting the left and right sliding support 41 and the cross shape in a cross shape, and the front and rear sliding support 45 at the front and rear. The front and rear transfer screw 46 directly connected to the transfer motor 47 is horizontally installed. The front and rear transfer screw 46 has a front and rear screw block 48 having a bracket 49 mounted thereon to rotate the front and rear transfer motor 47. In accordance with this, the bracket 49 is installed to reciprocate back and forth.

A guide bracket 66 is installed on the side wall of the bracket 49 in a vertical direction, and the guide bracket 66 includes a vertical bracket 50 having a guide shoe 67 which is guided up and down by the guide portion 66. Is installed, the bracket (49) on one side of the guide portion 66, the fixture (65) protrudes laterally, the screw portion 62 is provided on the lower portion of the fastener 65 and the handle 63 is formed on the upper and lower The emphasizing mortar 64 is installed downward in the vertical direction, and a screw bracket 68 in which the screw portion 62 is screwed is installed in the vertical bracket 50 corresponding to the screw portion 62.

In addition, the lowering cylinder 51 is installed at the distal end of the vertical bracket 50 so as to move up and down, and the lifting support 55 formed at the middle side of the vertical bracket 50 so that the operation groove 55 is opened in the middle ( 56 is installed vertically.

In addition, the lower cylinder 54 is installed upward in the lower portion of the elevating support 56 so that the tip rod portion 54a penetrates upward into the operation groove 55, and the upper rod portion 56 is provided at the upper portion of the elevating support 56. The height sensor 57 is provided downward so that the 57a penetrates downwardly into the operation groove 55.

In front of the lifting support 56, the insertion protrusion 59 of a height narrower than the working groove 55 in the rear center is protruded and inserted into the working groove 55 and the rod portion of the lower cylinder 51 on the front upper side ( An elevating part 58 is formed, which is pressed by 51a, and an elevating platform 58 having an inspection needle holder 53 in which an inspection needle 52 is horizontally installed at the front lower side is provided.

At this time, the end portion of the rod portion 54a of the lift cylinder 54 is fixed to the lower portion of the insertion protrusion 59 and the end portion of the rod portion 57a of the height sensor 57 is fixed to the upper portion of the insertion protrusion 59. A spring 61 is elastically installed at an upper portion of the insertion protrusion 59 in the operating groove 55 corresponding to the rod end 54a of the lift cylinder 54.

The working relationship of the present invention configured as described above will be described with reference to FIGS. 1 to 7A and 7B.

First, the true position checker 1 of the present invention examines whether the width (height) of the groove 4 formed on the outer circumferential surface of the shaft 3 and the center line of the groove coincide with the center line of the shaft as shown in FIG. 6. It is a checker used.

When the true position checker 1 of the present invention intends to inspect the shaft as described above, the slider 14 is made to protrude from the rod 18 of the cylinder 19 for horizontally moving the slider 14 of the tail stock 10. ) Is pushed to the left in the drawing.

The center support 17 is also pushed to the left in the drawing as the center support 17 is provided on the top of the slider 14, the main shaft 20 opposite the tail stock 10 Since it is fixed is the gap between the headstock 20 and the tailstock 10 is opened.

In this way, the main shaft 20 and the tail stock 10 in a state in which one end of the shaft 3 is fixed to the index chuck 24, which is shown in Figure 5a, 5b, 5c shaft 3 The center groove 26a formed in a conical shape at the center of the end of the shaft is fitted into the center 26 installed at the center of the index chuck 24, and the side end plane portion 5 is formed in a plane on the outer surface of the end of the shaft 3. Is inserted toward the pressing hole (31).

The shaft 3 to be inserted as described above is positioned on the outer surface of the shaft 3 in a state where the center 26 of the index chuck 24 is pivotally supported by the center groove 26a of the shaft as described above. The short plane portion 5 is formed, and the pressing hole 31 for pressing the side end plane portion 5 is provided on the portion corresponding to the side end plane portion 5 in turn, so that The center groove 26a and the side end plane portion 5 are simultaneously supported.

At this time, the end portion of the pressing hole 31 forms a right angle with the center point of the center 26 so that the center of the center 3 of the shaft 3 supported by the center 26 is exactly right.

As described above, after one end of the shaft 3 is supported by the center 26 and the pressing hole 31, the tailstock 10 on the opposite side is moved to move the center 15 of the tailstock 10 to the shaft 3. To be supported by the center groove (15a) formed in the center of the opposite side. In this way, the center 15 of the tailstock 10 approaches the center groove 15a on the opposite side of the shaft 3 from the cylinder in the opposite direction to the opening of the tailstock 10 and the headstock 20. When the rod part 18 of 19 is retracted, the center support 17 including the slider 14 moves horizontally toward the main shaft 20, and the space | interval between both centers 26 and 15 is narrowed, and the shaft 3 Will be fixed and supported.

After fixing the shaft 3 to be inspected horizontally between the tailstock 10 and the main shaft 20 as described above, the test needle 52 in the groove 4 formed on the outer circumferential surface of the shaft 3. The inspection device unit 40 is moved so that the contact can be made.

When the inspection device 40 rotates the left and right feed motor 43 as shown in FIGS. 1 and 3 and 4, the left and right screw blocks 42 rotate left and right while simultaneously rotating the left and right feed screw 44. 41) is moved horizontally from side to side while guiding to the left and right, the direction in which the front and rear sliding butt 45 crosses the left and right sliding butt 41 and the cross shape in the upper portion of the left and right screw blocks 42 horizontally moved left and right. While the front and rear conveying motor 47 and the front and rear conveying screw 46 are installed in the longitudinal direction of the front and rear sliding support 45, the front and rear conveying screw 46 rotates together by the rotation of the front and rear conveying motor 47. The front and rear screw blocks 48 are horizontally moved in the front and rear directions.

And, as described above, the front and rear screw blocks 48 horizontally moved forward and backward, the bracket 49 is installed, the bracket 49 is installed so that the vertical bracket 50 is raised and lowered by the elevating adjustment device 64, The groove (4) of the shaft (3) to which the test needle (52) is to be inspected by the lifting cylinder (54), the lowering cylinder (51), and the spring (61) in the lifting support (56) installed in the vertical bracket (50). It can be moved in contact with) so that the groove of the shaft can be inspected.

Before inspecting the groove formed in the shaft as described above, as shown in Figs. 7A and 7B, the rod portion 54a of the ascending cylinder 54 is raised and the rod portion 51a of the descending cylinder 51 is pushed down. By pressing the unit 60, the width of the upper and lower portions of the operation groove 55 formed between the elevating support 56 and the insertion protrusion 59 is the same.

In this state, the threaded portion 62 of the elevating adjustment mechanism 64 is screwed to the threaded bracket 68 of the vertical bracket 50 so that the inspection needle 52 is horizontally installed at the lower end of the vertical bracket 50. ), The test needle 52 is placed on the same line as the center of the axis 3 to be inspected, and the position at this time is set as the reference point "0".

Next, the shaft 3 to be inspected is inserted, and the inspection needle 52 is inserted into the groove of the shaft to be inspected by the front and rear screw block 48 moving in the horizontal direction using the front and rear transfer motor 47.

In this state, when the rod portion 54a of the ascending cylinder 54 is lowered, the insertion protrusion 59 inserted into the operation groove 55 by the spring 61 is lowered. When the insertion protrusion 59 is lowered, the insertion protrusion 59 and the inspection needle holder 53 formed in one body and the inspection needle 52 horizontally installed in front of the inspection needle holder 53 are also inspected while being lowered together. The lifting platform 58 including the test needle 52 is prevented from descending while touching the lower bottom surface of the groove 4.

When the stoppage time of the insertion protrusion 59 does not move and passes 3 seconds, the signal of the height sensor 57 is sent to the measurement program to calculate the distance from the initial reference point to the contacted part.

After measuring the distance in this way, when the rod portion 51a of the lowering cylinder 51 is lifted and the pressing portion 60 is released, the lifting platform 58 rises, and the lifting platform 58 thus rises. 3) When the stop state of the lower test needle 52 touches the upper bottom of the groove 3 and the stop state has elapsed for 3 seconds, the distance from the lower side to the upper side (the height of the groove), the distance lowered from the reference point to the lower side and the reference point The distance to the upper side is measured and calculated by the control program so that the numerical value is displayed on the monitor.

Subsequently, in the case where a groove formed at a predetermined angle on the outside of the inspection shaft 3 is to be inspected, the shaft is rotated by the predetermined angle, and then the upper height of the groove 4 in the same manner as above. When the lower distance is measured, the overall height of the groove can be measured, and since the position of the inspection needle 52 is already calibrated to be positioned on the center line of the axis, the secondary height is measured according to the measured distance of the upper and lower sides. It is possible to check whether the center of the measuring groove coincides with the center of the axis.

It is to be understood that the display of information such as the sensing by the control program and the height sensor 57, the communication of the signal, and the numerical conversion of the moving distance of the test needle 52 is displayed using a known technique.

The present invention relates to a true position inspector for operating and fixing the shaft to inspect the groove of the shaft, and relates to a control device using a numerical control program such as calculating and calculating the numerical value inspected by the true position inspector. Therefore, a detailed description of the control device using the numerical control program will be omitted.

As shown in FIG. 6, when the plurality of grooves 4 are radially formed at a predetermined angle on the outer circumference of the shaft 3, the angle required by the index motor 22 installed on the main shaft 20 is required. Since it rotates by as much as possible, the groove can be inspected while rotating the shaft by the angle of the groove.

As described above, the axis position true position inspection machine of the present invention is a machine part of the machine tool which operates to rotate the shaft at an angle that requires a shaft fixed to the outer periphery and a fixed axis according to the position to be measured. Using the principle of the main spindle and tailstock of the lathe, the groove measuring part installs the inspection part using the height gauge principle instead of the bite mounted on the tool bar of the lathe, and the numerical value of the inspection value By using the built-in control device to display on the monitor, it is possible to accurately check the true position of the groove formed on the shaft, and at the same time, it is possible to easily manufacture the true position checker on a simple principle.

1 is a perspective view showing a true position checker according to the present invention.

Figure 2 is a front view showing a true position checker according to the present invention.

Figure 3 is a left side view showing the true position checker according to the present invention.

Figure 4 is a plan view showing a true position checker according to the present invention.

Figures 5a, 5b, 5c is a perspective view, a side view, and a plan sectional view of the index chuck of the components of the present invention.

Figure 6 is a cross-sectional view of the axis to be examined using the present invention.

Figure 7a, 7b is a rear perspective view and a right side view of the inspection device portion of the components of the present invention.

<Explanation of symbols for main parts of drawing>

1: true position checker 2: base plate 3: axis

4: groove 5: side cross section 10: tailstock

11: guide part 12: base 13: sliding shoe

14: slider 15: center 16: center chuck

17: center support 18: rod 19: cylinder

20: headstock 21: case 22: index motor

23: rotating shaft 24: index chuck 40: inspection device

41: left and right sliding support 42: left and right screw block 43: left and right feed motor

44: left and right transfer screw 45: front and rear sliding support 46: front and rear transfer screw

47: Front and rear feed motor 48: Front and rear screw block 49: Bracket

50: vertical bracket 51: descending cylinder 52: inspection needle

53: test needle holder 54: lift cylinder 55: operating groove

56: descent support 57: height sensor 58: descent support

59: insertion projection 60: pressing portion 61: spring

62: screw portion 63: handle 64: lifting device

65: fixture 66: guide portion 67: guide shoe

68: screw bracket

Claims (2)

The true position inspection machine 1 for the shaft inspection includes a tailstock 10 supporting one end of the shaft 3 to be inspected on the upper portion of the base plate 2, and a base plate 2 facing the tailstock 10. A main shaft 20 for supporting the other end of the shaft 3 together with the tailstock 10 and rotating the shaft 3 by the required angle, and the tailstock 10 and the main shaft 20. A shaft characterized in that it is provided on the base plate (2) between the measuring device section 40 for measuring the groove (4) of the shaft (3) provided between the tailstock 10 and the main shaft (20) True position checker for inspection. According to claim 1, The tailstock 10 is provided with a pedestal 12 is formed with a guide portion 11 on both sides of the upper surface, the slider 12 having a sliding shoe 13 formed on the upper surface of the pedestal 12 ( 14 is installed to be movable horizontally, the upper portion of the slider (14) is provided with a center support (17) provided with a center chuck 16, the center 15 is inserted into the tip end, tailstock 10 and the main shaft On the base plate 2 between the base 20, a cylinder 19, in which the tip rod portion 18 is coupled with the slider 14, is installed. The main shaft 20 is provided with an index chuck 24 that rotates by the power of the index motor 22 on the outside of the case 21 on the tailstock side, The index chuck 24 is installed so that the center 26 is exposed to the front side in the center of the chuck main body 25 to which the rotary shaft 23 and the rear end are connected, and a horizontal groove formed horizontally on the front center line of the chuck main body 25. A spring catching portion 28 is formed at one side of the 27, and the screw portion 30 of the fastener 29 penetrates inwardly through the spring catching portion 28, and the pressing hole 31 is spring 32 at the end thereof. Is installed in a state interposed, the front cover plate 34 is installed in the center through the through hole 33, the cover plate 34 is installed, The inspection device unit 40 is installed to the left and right sliding support 41 is fixed to the base plate (2) between the tailstock 10 and the headstock 20, the base plate (2) to the left and right sliding support (41). Left and right screw block 42 to move horizontally from side to side by the left and right feed motor 43 is installed in the insert, The front and rear sliding support 45 is installed on the left and right sliding blocks 41 and the cross shape in a cross shape in a cross shape at the upper part of the left and right screw blocks 42, and the front and rear transfer motor ( Front and rear transfer screw 46 directly connected to the 47) is installed horizontally, and the front and rear transfer screw 46 is installed to reciprocate forward and backward, the front and rear screw block 48 is installed with a bracket 49 at the top, A guide part 66 is installed on the side wall of the bracket 49 in the vertical direction. The guide part 66 is provided with a vertical bracket 50 having a guide shoe 67. The guide part 66 is provided. The bracket (49) on one side of the fixture (65) protrudes laterally, the elevating adjustment device (64) is installed downward in the vertical direction to the fixture (65), the vertical bracket (50) of the elevating adjustment device (64) A screw bracket 68 is installed to which the screw part 62 is fastened, The lowering cylinder 51 is installed at the front end of the vertical bracket 50 so that the lowering and lowering cylinder 51 is provided. Is installed vertically, In the front of the elevating support 56, the insertion projection 59 is inserted into the operation groove 55 in the rear center is protruded and the pressing portion 60 pressed by the rod portion 51a of the lower cylinder 51 in the front upper side Is formed and the lifting platform 58 is provided with a test needle holder 53 is horizontally installed in the front and lower test needle 52 is installed, The rod portion 54a of the lift cylinder 54 is installed upwardly on the lifting support 56 so as to be fixed to the lower portion of the insertion protrusion 59, and the rod 57a of the height sensor 57 is the lifting support ( 56 is installed downward and fixed to the upper portion of the insertion projection 59, the axis inspection for the shaft characterized in that the spring 61 is elastically installed between the upper bottom surface of the operation groove 55 and the upper surface of the insertion projection (59). True position checker.