WO2019155535A1 - Dispositif d'inspection de pièce à travailler - Google Patents

Dispositif d'inspection de pièce à travailler Download PDF

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Publication number
WO2019155535A1
WO2019155535A1 PCT/JP2018/004110 JP2018004110W WO2019155535A1 WO 2019155535 A1 WO2019155535 A1 WO 2019155535A1 JP 2018004110 W JP2018004110 W JP 2018004110W WO 2019155535 A1 WO2019155535 A1 WO 2019155535A1
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WO
WIPO (PCT)
Prior art keywords
pair
workpiece
adjustment
workpiece inspection
inspection device
Prior art date
Application number
PCT/JP2018/004110
Other languages
English (en)
Japanese (ja)
Inventor
福岡大祐
Original Assignee
株式会社Fuji
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社Fuji filed Critical 株式会社Fuji
Priority to JP2019570185A priority Critical patent/JP6949148B2/ja
Priority to PCT/JP2018/004110 priority patent/WO2019155535A1/fr
Publication of WO2019155535A1 publication Critical patent/WO2019155535A1/fr

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B5/00Measuring arrangements characterised by the use of mechanical techniques
    • G01B5/08Measuring arrangements characterised by the use of mechanical techniques for measuring diameters
    • G01B5/12Measuring arrangements characterised by the use of mechanical techniques for measuring diameters internal diameters

Definitions

  • the present invention relates to a workpiece inspection apparatus capable of easily changing and adjusting the distance between a pair of contacts.
  • machining dimension measurement for a workpiece is performed by a workpiece inspection device incorporated in the processing machine or in an independent inspection machine.
  • Patent Document 1 discloses a conventional example of such a workpiece inspection device.
  • This inspection apparatus measures a dimension by a pair of contacts contacting a workpiece. Specifically, a pair of arms is provided in the apparatus main body, and contacts that contact the workpiece are assembled to the ends of the arms. The pair of arms are attached via a leaf spring, and a contactor at the time of measurement is structured to be movable by bending of the leaf spring. Then, the amount of movement of the pair of contacts is detected as an electrical signal by the differential transformer, and the detected signal is sent to the arithmetic device to perform inspection of the workpiece.
  • an object of the present invention is to provide a workpiece inspection device that easily changes and adjusts a pair of contacts in order to solve such a problem.
  • a pair of measurement heads each including a contact for measuring a distance between two points by contact with an object, and the pair of measurement heads are integrally provided.
  • the two adjusting slides, the guide rails in which the two adjusting slides are movably assembled, a spacer member having a size corresponding to a measurement dimension performed by the pair of contacts, and the spacer member being sandwiched A positioning mechanism for stopping the movement of the two adjusting slides.
  • the measurement head moves integrally with the adjustment slide, and a spacer having a size corresponding to the measurement dimension between the pair of measurement heads
  • FIG. 1 is a side view of a detector equipped with the workpiece inspection device of the present embodiment.
  • the inspection machine 1 is arranged with a machine tool such as a lathe, and a workpiece W after being processed is conveyed from the machine tool by an automatic workpiece transfer machine.
  • a support column 4 standing vertically is fixed on a table 3 having legs with an adjuster function, and an elevating slide 6 is attached to a guide rail 5 formed on the front surface of the support column 4.
  • the workpiece inspection device 7 of the present embodiment is attached to the lift slide 6 and is movable between an elevated retracted position and a lowered inspection position shown in the figure by an expansion / contraction operation of the air cylinder 8.
  • the inspection machine 1 is provided with a work table 11 on a table 3 so that a work W conveyed by an automatic work conveyance machine can be received.
  • a beam member 12 is fixed to the front of the machine body (right side in the drawing) perpendicular to the column 4, and a guide rail 13 is provided thereon.
  • a horizontal slide 14 is attached to the guide rail 13, and a work table 11 is fixed thereon.
  • the piston rod of the air cylinder 15 is also connected to the horizontal slide 14, and the position of the work table 11 is switched by the expansion / contraction operation.
  • the extension operation of the air cylinder 15 moves to the workpiece receiving position at the front of the machine, and the contraction action moves to the measurement position at the rear of the machine.
  • FIGS. 2 to 4 are a side view, a front view, and a plan view showing the workpiece inspection device 7.
  • the workpiece inspection device 7 is provided with a pair of measurement heads 22 in the left-right width direction, and contacts 21 are attached to the measurement heads 22 respectively downward.
  • the two measuring heads 22 are attached to the slide mechanism via different brackets 23, respectively, and have a structure capable of independent movement in the left-right width direction.
  • a support block 25 standing in the vertical direction is fixed to the elevating slide 6, and a guide rail 26 is fixed to the front surface of the support block 25 in a horizontal state.
  • a pair of adjustment slides 27 are slidably attached to the guide rail 26.
  • the adjustment slide 27 is a guide block that constitutes a guide rail 26 and a bearing slide. Therefore, the workpiece inspection apparatus 7 can change and adjust the distance between the pair of contactors 21 without changing the vertical posture by moving the pair of adjustment slides 27 left and right on the horizontal guide rail 26. It has become.
  • FIGS. 5 and 6 are views showing a state in which the inner diameter of the workpiece W is measured by the pair of contacts 21.
  • the workpiece W1 in FIG. 5 has an inner diameter of 20 mm
  • the workpiece W2 in FIG. 6 has an inner diameter of 78 mm.
  • the contact 21 slightly swings in the width direction when viewed from the front side of the workpiece inspection device 7, and the tip of the contact 21 abuts against the inner surface of the workpiece W as shown in the figure.
  • the displacement amount from the position is configured to be detected.
  • the measuring head 22 has a movable part in which a pair of contacts 21 are swung outward (in a direction away) by a spring inside the main body.
  • the movable portion is also provided with a piston for swinging the pair of contacts 21 inward against the spring force.
  • the piston is operated by supplying and exhausting compressed air, and measurement for the contact 21 is performed by air pressure control.
  • the measuring head 22 is provided with a detection sensor for detecting the displacement amount of the contact 21, and is configured to transmit a detection signal to the arithmetic processing unit of the inspection machine 1 that executes the inspection processing of the workpiece. Yes.
  • the workpiece inspection device 7 adjusts the reference position at the time of measurement for the assembled measurement head 22.
  • a setting is performed in which the master work is set on the work table 11 and the position where the tip of the contact 21 is applied to the inner surface thereof is set as the reference position.
  • the accuracy of measuring a tolerance of about 0.5 mm is high, and the alignment of the measuring head 22 is a difficult task. Therefore, since the conventional workpiece inspection device has a structure in which the measurement head is replaced, fine adjustment is difficult.
  • the handling of the signal line connected to the detection sensor and the air pipe for operating the contactor is a laborious operation.
  • the measurement head 22 is mounted on the adjustment slide 27 in order to eliminate such removal. That is, even if the size of the workpiece W to be processed changes, the pair of measuring heads 22 can be used as they are by changing and adjusting the reference position. Furthermore, in order to facilitate the adjustment of the reference position described above, a configuration is adopted in which an adjustment spacer 28 is sandwiched between the brackets 23. The adjustment spacer 28 determines the distance between the pair of measuring heads 22, that is, the pair of contacts 21.
  • the distance between the pair of contacts 21 is determined by the closest state in which the pair of adjustment slides 27 sandwich the adjustment spacer 28. At that time, in order to improve accuracy, the pair of adjustment slides 27 are positioned so as to press each other. Since the position is shifted only by sandwiching the adjustment spacer 28 between the pair of adjustment slides 27, a positioning mechanism for stopping the movement of the adjustment slide 27 is provided. However, since the adjustment slide 27 is a guide block that constitutes a bearing slide, it is not preferable to apply a strong force for restricting movement.
  • the adjustment spacer 28 is sandwiched between the brackets 23, and a positioning mechanism that restricts movement with respect to the brackets 23 is configured.
  • the positioning mechanism is screwed to the upper end of the support block 25 in an upright posture in a cantilevered state so that the stop plate 31 protrudes forward.
  • the stop plate 31 has a notch 311 formed at the attachment position of the adjustment spacer 28 and is disposed above the pair of left and right brackets 23 as shown in FIG.
  • the bracket 23 is arranged so that a plate-like vertical block 231 that is screwed to the adjustment slide 27 and a plate-like horizontal block 232 to which the measurement head 22 is attached are joined in an L shape and are orthogonal to both.
  • the support plate 233 is joined.
  • a long hole 235 is formed in the horizontal block 232 in the longitudinal direction of the machine body, and the measuring head 22 is fixed to the lower side by a bolt 33 that passes through the long hole 235.
  • the measuring head 22 of the present embodiment includes the contact 21 that measures the inner diameter of the workpiece W.
  • the workpiece inspection device 7 includes a contact corresponding to the outer diameter measurement of the workpiece W and the like. It is also possible to replace the measuring head.
  • the long plate 312 that is long in the left-right width direction is formed in the stopper plate 31.
  • the long holes 312 are formed corresponding to the movement range of the measuring head 22, and a pair of lever clamps 32 each having a threaded portion 321 passing through the long holes 312 are provided on the top of the stop plate 31. Yes.
  • the screw portion 321 of the lever clamp 32 that penetrates the long hole 312 is screwed into the female screw portion formed in the vertical block 231 of the bracket 23.
  • the lever clamp 32 serrations are formed in the threaded portion 321. Normally, the rotation of the lever portion is transmitted to the threaded portion 321 by meshing of the groove. The rotation is not transmitted.
  • the positioning mechanism when the screw portion 321 is rotated in the tightening direction by the lever operation of the lever clamp 32, the distance from the vertical block 231 is shortened, and the cantilever supporting stop plate 31 is pressed downward to bend. ing.
  • the stop plate 31 is pressed against the upper surface of the vertical block 231 by bending because there is only a slight gap of about 0.4 mm between the stop plate 31 and the vertical block 231 in a normal horizontal posture. Therefore, the movement of the adjustment slide 27 is limited by the frictional resistance between the pressing plate 31 and the vertical block 231 pressed against each other.
  • FIG. 7 is a diagram showing a part of the positioning mechanism, and shows three types of examples A, B, and C having different workpiece W sizes.
  • the adjustment spacers 28 (28a, 28b, 28c) made according to the respective sizes are exchanged as necessary.
  • Each of the adjustment spacers 28 is formed with a main body portion 281 that is sandwiched by a pair of brackets 23 (vertical blocks 231) from both the left and right sides, and a grip portion 282 in which a tidy catching hole is opened.
  • a gourd-shaped positioning hole 283 is formed in the main body portion 281.
  • a positioning bolt 34 screwed at the tip is attached to the guide rail 26 at the position shown in FIG.
  • the adjustment spacer 28 is attached so that the head portion of the bolt 34 passes through the positioning hole 283.
  • the processed workpiece W is transferred from the machine tool by the automatic workpiece transfer machine.
  • the work table 11 on the horizontal slide 14 is at the work receiving position in the front of the machine body by the extension operation of the air cylinder 15, and the processed work W is transferred to the work table 11 there.
  • the air cylinder 15 is contracted to move the workpiece W to the inspection position shown in FIG.
  • the workpiece inspection device 7 is moved from the raised retreat position to the lowered detection position shown in FIG. At this time, the displacement amount when the contact at the lower end of the contact-type displacement measuring head 29 extending downward hits the upper surface of the workpiece W is detected, and the thickness of the workpiece W is calculated.
  • the workpiece inspection device 7 moved to the inspection position can be measured by inserting a pair of contacts 21 into the workpiece W (W1, W2).
  • the measuring head 22 at the time of insertion receives a force from a piston operated by compressed air, swings in a direction in which the pair of contacts 21 approach, and is inserted into the work W in a closed state. Then, after insertion, the compressed air is released to swing the pair of contacts 21 in a direction away from each other by a spring force, and the leading end is applied to the inner surface of the work as shown.
  • the position of the contactor 21 at this time is detected by a detection sensor in the measuring head 22, and the detection signal is sent to the arithmetic processing unit of the detector 1 to calculate the inner diameters of the workpieces W1 and W2 and the machining dimensions. Inspection is performed.
  • the contact 21 swings and contacts the workpiece W.
  • the adjustment adjustment of the attachment position of the measurement head 22 is performed as follows. Specifically, the positioning mechanism shown in FIG. 7 is rearranged from the A type to the C type. First, the lever clamp 32 is rotated in the direction in which the screw portion 321 is loosened. Then, the cantilever support stop plate 31 released from the load returns to a horizontal state and is in a non-contact state away from the vertical block 231.
  • the pair of adjustment slides 27 moves along the guide rail 26 in the left and right direction, the adjustment spacer 28a is removed, and the adjustment spacer 28c is attached instead.
  • the screw portion 321 of the lever clamp 32 moves in the elongated hole 312, and the adjustment slide 27, the bracket 23, and the measurement head 22 move together.
  • the pair of adjustment slides 27 are brought close to each other, and the adjustment spacers 28 c are sandwiched between the vertical blocks 231.
  • the lever clamp 32 is rotated in the direction in which the screw portion 321 is tightened in a state where the adjustment spacer 28 c is pressed from both sides by the vertical block 231.
  • the cantilever supporting stop plate 31 is bent and pressed against the vertical block 231, and the movement of the adjusting slide 27 is limited by the frictional resistance.
  • the adjustment adjustment of the attachment position of the measurement head 22 does not require the measurement head 22 to be removed, so that it is not necessary to remove a signal line or an air pipe connected to the measurement head 22, and the work load of the setup change Is greatly reduced. Further, since no tools are used for the setup change, the work is easy and the time can be shortened. In addition, since the measurement head 22 is not attached or detached, it is possible to avoid the occurrence of a malfunction due to the contact 21 being brought into contact with something at the time of replacement as in the prior art.
  • the adjustment spacer 28 can be easily attached to a predetermined position by inserting the positioning bolt 34 into the gourd-type positioning hole 283.
  • the interval between the pair of contacts 21 is uniquely determined by the adjustment spacer 28 used. Therefore, even if extremely fine adjustment is required as described above, the change adjustment of the measurement head 22 can be performed accurately and easily.
  • the lever clamp 32 needs to be tightened in a state where the adjustment spacer 28 is correctly sandwiched between the pair of vertical blocks 231. In this respect, since the movement of the adjustment slide 27 is limited by the frictional resistance when the stopper plate 31 is slightly bent, the screw portion 321 of the lever clamp 32 is not strongly tightened, and a shift that occurs at the time of tightening. Can be suppressed.
  • the workpiece inspection device 7 that does not use a tool can also perform sandwiching by a pair of vertical blocks 231 while an operator holds the support plates 233 with respect to both brackets 23 while holding them. Therefore, the positioning can be performed correctly so that there is no gap between the vertical block 231 and the adjustment spacer 28.
  • a jig may be used to press the support plates 233 together.
  • the vertical block 231 may be separated from the adjustment spacer 28 due to the backlash of the screw portion 321, and the accuracy required for the measurement may not be obtained.
  • one of the screw portions 321 constituting the pair of lever clamps 32 is a right-hand thread and the other is a left-hand thread, so that the movement of the vertical block 231 due to the backlash becomes the adjustment spacer 28 side when tightened.
  • the vertical block 231 is pressed against the adjustment spacer 28 by the amount of play in the screw portion 321. Accurate positioning is possible.
  • the lever clamp 32 using screw tightening is used as a configuration in which the cantilever-supporting stop plate 31 is pressed against the vertical block 231.
  • a lever is used instead of the lever clamp 32.
  • a cam lever may be used.
  • the workpiece inspection device 7 according to the embodiment is configured such that the operator manually moves the adjustment slide 27 and tightens the screw portion 321. These movements are performed using a servo motor or the like. You may make it automate.

Abstract

L'invention concerne un dispositif d'inspection de pièce à travailler apte à modifier et régler facilement une paire de contacts, le dispositif d'inspection de pièce à travailler comprenant : une paire de têtes de mesure, dont chacune est équipée d'un contact permettant de mesurer, par contact avec un objet, la distance entre deux points ; deux glissières de réglage formées d'un seul tenant avec les têtes de mesure respectives ; un rail de guidage sur lequel les deux glissières de réglage sont montées mobiles ; un élément d'espacement présentant une taille qui correspond à la dimension de mesure d'une mesure effectuée par la paire de contacts ; et un mécanisme de positionnement permettant d'arrêter le mouvement des deux glissières de réglage entre lesquelles l'élément d'espacement est pris en sandwich.
PCT/JP2018/004110 2018-02-07 2018-02-07 Dispositif d'inspection de pièce à travailler WO2019155535A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP2019570185A JP6949148B2 (ja) 2018-02-07 2018-02-07 ワーク検測装置
PCT/JP2018/004110 WO2019155535A1 (fr) 2018-02-07 2018-02-07 Dispositif d'inspection de pièce à travailler

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2018/004110 WO2019155535A1 (fr) 2018-02-07 2018-02-07 Dispositif d'inspection de pièce à travailler

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WO2019155535A1 true WO2019155535A1 (fr) 2019-08-15

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WO (1) WO2019155535A1 (fr)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03231109A (ja) * 1990-02-06 1991-10-15 Ando Electric Co Ltd 内径測定器の測定寸法変更機構
US6546642B1 (en) * 1998-03-13 2003-04-15 Marposs Societa' Per Azioni Head, apparatus and method for the linear dimension checking of mechanical pieces
JP2009014552A (ja) * 2007-07-05 2009-01-22 Tokyo Seimitsu Co Ltd 測定ヘッド及び測定ヘッドの調整確認方法

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03231109A (ja) * 1990-02-06 1991-10-15 Ando Electric Co Ltd 内径測定器の測定寸法変更機構
US6546642B1 (en) * 1998-03-13 2003-04-15 Marposs Societa' Per Azioni Head, apparatus and method for the linear dimension checking of mechanical pieces
JP2009014552A (ja) * 2007-07-05 2009-01-22 Tokyo Seimitsu Co Ltd 測定ヘッド及び測定ヘッドの調整確認方法

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JP6949148B2 (ja) 2021-10-13
JPWO2019155535A1 (ja) 2020-10-22

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