CN109443288A - A kind of mold cup cubing and a kind of mold cup - Google Patents

A kind of mold cup cubing and a kind of mold cup Download PDF

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Publication number
CN109443288A
CN109443288A CN201811333446.0A CN201811333446A CN109443288A CN 109443288 A CN109443288 A CN 109443288A CN 201811333446 A CN201811333446 A CN 201811333446A CN 109443288 A CN109443288 A CN 109443288A
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CN
China
Prior art keywords
point
upper limit
lower limit
curved surface
mold cup
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CN201811333446.0A
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Chinese (zh)
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CN109443288B (en
Inventor
黄嘉敏
梁捷敏
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GUANGDONG XINYI UNDERWEAR GROUP Co Ltd
Guangdong Xinyi Underwear Technology Co Ltd
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GUANGDONG XINYI UNDERWEAR GROUP Co Ltd
Guangdong Xinyi Underwear Technology Co Ltd
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Priority to CN201811333446.0A priority Critical patent/CN109443288B/en
Publication of CN109443288A publication Critical patent/CN109443288A/en
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Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B21/00Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
    • G01B21/20Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring contours or curvatures, e.g. determining profile
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41CCORSETS; BRASSIERES
    • A41C3/00Brassieres
    • A41C3/12Component parts
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

Abstract

The invention discloses a kind of mold cup cubing and a kind of mold cup, detection faces are provided in the mold cup cubing, the detection faces are fallen between upper limit curved surface and lower limit curved surface;The upper limit curved surface, lower limit curved surface boundary determined by edge curve;The shape of upper limit curved surface Yu lower limit curved surface is determined by edge point and discrete point, the shape of detection faces is determined using mode identical with detected mold cup, it is determined by way of certain value using a series of ratios to distance between upper limit curved surface and lower limit curved surface respective point, can guarantee the precision using mold cup cubing;When using the mold cup cubing, the lateral surface of corresponding mold cup is placed in mold cup cubing, observes the distance between mold cup cubing and mold cup to determine whether the mold cup meets the requirements.The present invention relates to underwear field, especially a kind of mold cup cubing and a kind of mold cup.

Description

A kind of mold cup cubing and a kind of mold cup
Technical field
The present invention relates to underwear field, especially a kind of mold cup cubing and a kind of mold cup.
Background technique
Brassiere is also known as brassiere, is last part underwear of women.The chest of women is largely adipose tissue, is had some tough Band and skin provide it is internal lift, but these lift sometimes not enough lift chest (especially for older women) or It does not allow chest mobile, therefore causes pain uncomfortable.Brassiere has the function of moulding chest type, and mold cup is as women underwears such as brassieres Chief component, shape have very big influence to the comfort level and gas permeability lifted.
Existing production mold cup majority is to need to carry out quality examination to finished product mold cup in production process by way of hot pressing To guarantee the stability of mold cup quality.Existing test mode, since the shape of mold cup is specific curved surface, general size detection Whether the shape that means are difficult to detect the mold cup complies with standard.
Summary of the invention
The technical problem to be solved by the present invention is provide a kind of mold cup cubing, can quickly detect mold cup shape whether It meets the requirements.
The solution that the present invention solves its technical problem is:
A kind of mold cup cubing, including pedestal, the upside of the pedestal are equipped with detection faces, and the detection faces fall in upper limit song It is overlapped between face, lower limit curved surface or with upper limit curved surface or lower limit curved surface;The pedestal is made of clear material;The upper limit curved surface Including upper limit upper edge, upper limit lower edge, upper limit left margin, on the right of the upper limit along, upper limit discrete point group, the upper limit upper edge, Upper limit lower edge, upper limit left margin, upper limit the right are along the boundary of the determination upper limit curved surface, the upper limit discrete point group determination Limit the shape of curved surface;The lower limit curved surface includes lower limit upper edge, lower limit lower edge, lower limit left margin, lower limit the right edge, lower limit Discrete point group, the lower limit upper edge, lower limit lower edge, lower limit left margin, lower limit the right are along the boundary for determining lower limit curved surface, institute State the shape that lower limit discrete point group determines lower limit curved surface;The upper limit curved surface, lower limit curved surface are respectively positioned in space coordinates, described Space coordinates include coordinate origin O, X-axis, Y-axis, Z axis, with the upper limit curved surface on X/Y plane be projected as upper limit projection, Lower limit curved surface is projected as lower limit projection, the upper limit left margin, projection of the lower limit left margin on X/Y plane on X/Y plane Angle between Y-axis is 9 °, and edge, lower limit the right are along the folder between the projection and Y-axis on X/Y plane on the right of the upper limit Angle is 62 °, the upper limit left margin, on the right of the upper limit along with upper limit upper edge is tangent, on the right of the lower limit left margin, lower limit Along tangent with lower limit lower edge;X/Y plane, which is equipped with, is spaced circle group, and the interval circle group includes several with coordinate origin For the concentric circles in the center of circle, the radius of the smallest concentric circles is 1cm, is separated by 1cm between every two adjacent concentric circles;On X/Y plane also Equipped with ray groups, the ray groups include several using coordinate origin as the ray of ray starting point, have one and Y-axis in ray It is overlapped, every two adjacent rays are separated by 22.5 °;The upper limit that is projected as that circle group is spaced on upper limit curved surface projects circle group, institute It states ray groups and is projected as upper limit projection ray group, the friendship of the upper limit projection circle group and upper limit projection ray on upper limit curved surface Point is upper limit discrete point group;The lower limit that is projected as that circle group is spaced on lower limit curved surface projects circle group, and the ray groups are under It is projected as lower limit projection ray group on limit curved surface, the intersection point of the lower limit projection circle group and lower limit projection ray is that lower limit is discrete Point group;The upper limit upper edge by point UO4 (24.8,24.8, -10.8), point UP4 (13.4,32.3, -11.3), point UA4 (0, 35, -12.5), point UB4 (- 13.3,32.3, -14.4), point UC4 (- 24.7,24.7, -16.7), point UD4 (- 32.3,13.4, - 18.4) it is fitted;The upper limit left margin is by point UD4 (- 32.3,13.4, -18.4), point UE4 (- 35.3,0, -18.3), point UF5 (- 37.8, -15.6, -21.3), point UG7 (- 42, -42, -37), point UQ10 (- 45.1, -62.5, -56.2) are fitted; The upper limit lower edge is by point UQ10 (- 45.1, -62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), point UI11 (0, -88.7, -50), point UJ11 (36, -86.7, -51.9), point UK11 (66, -66, -59.3), point UL12 (85.2, -35.3, - 71.4), point UR12 (89.4, -25.8, -75.6) is fitted;On the right of the upper limit along by point UR12 (89.4, -25.8, - 75.6), point UM7 (56.5,0, -28.2), point UN5 (37,15.3, -14.2), point UO4 (24.8,24.8, -10.8) fitting and At;
The upper limit discrete point group further include: point UA2 (0,19.5, -3.8), point UB2 (- 7.4,17.8, -4.7) point UC2 (- 13.5,13.5, -5.4), point UD2 (- 17.5,7.3, -5.7), point UE2 (- 19,0, -5.5), point UF2 (- 17.8, -7.4, - 4.8), point UG2 (- 13.8, -13.8, -3.9), point UH2 (- 7.5, -18.1, -3.1), point UI2 (0, -19.7, -2.6), point UJ2 (7.5, -18.2, -2.5), point UK2 (13.9, -13.9, -2.6), point UL2 (18.1, -7.5, -2.7), point UM2 (19.7,0, - 2.6), point UN2 (18.2,7.5, -2.6), point UP2 (7.5,18.1, -3.2), point UQ2 (- 11.5, -15.9, -3.5), point UR2 (18.9, -5.4, -2.7), point UO2 (13.9,13.9, -2.8), UP2 (7.5,18.1, -3.2);Point UA4 (0,35, -12.5), Point UB4 (- 13.3,32.3, -14.4), point UC4 (- 24.7,24.7, -16.7), point UD4 (- 32.3,13.4, -18.4), point UE4 (- 35.3,0, -18.3), point UF4 (- 33, -13.7, -16), point UG4 (- 26.1, -26.1, -13.5), point UQ4 (- 21.9, - 30.2, -12.6), point UH4 (- 14.4, -34.8, -11.5), point UI4 (0, -38, -10.5), point UJ4 (14.6, -35.2, - 10.2), point UK4 (26.7, -26.7, -10.8), point UL4 (34.6, -14.3, -11.6), point UR4 (36,10.3, -11.7), point UM4 (37.3,0, -11.8), point UN4 (34.3,14.2, -12.1), point UO4 (24.8,24.8, -10.8), point UP4 (13.4, 32.3,-11.3);Point UG7 (- 42, -42, -37), point UQ7 (- 34.6, -47.9, -33.1), point UH7 (- 23.2, -56, - 30.7), point UI7 (0, -62.7, -27.6), point UJ7 (24.2, -58.4, -26.7), point UK7 (43.8, -43.8, -28.5), point UL7 (55.8, -23.1, -30.8), point UR7 (57.8, -16.7, -31.2), point UM7 (56.5,0, -28.2);
The lower limit upper edge by point DO3 (17.8,17.8, -5.8), point DP3 (9.5,23, -7.3), point DA3 (0,26, - 10), point DB3 (- 10,24.2, -12.5), DC3 (- 17.6,17.6, -13), point DD3 (- 23,9.5, -13.5) are fitted;Institute State lower limit left margin by point DD3 (- 23,9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF4 (- 27.8, -11.5, - 14.4), point DG5 (- 31.9, -31.9, -25), point DQ9 (- 36.5, -55, -46.5) are fitted;The lower limit lower edge by Point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, -44), point DI9 (0, -76.3, -40), point DJ10 (31.2, - 75.3, -41.3), point DK10 (57.6, -57.6, -47.6), point DL10 (74, -30.7, -57.6), point DR11 (75.4, - 27.3, -58.7) it is fitted;On the right of the lower limit along by point DR11 (75.4, -27.3, -58.7), point DM4 (40.5,0, - 13.7), point DN3 (26.5,11, -6.6), point DO3 (17.8,17.8, -5.8) are fitted;
The lower limit group discrete point further include:
Point DA2 (0,19, -5.7), point DB2 (- 7.1,17.2, -6.8), point DC2 (- 12.9,12.9, -7.5), point DD2 (- 16.8,7, -7.7), point DE2 (- 18.5,0, -7.2), point DF2 (- 17.4, -7.2, -6), point DG2 (- 13.6, -13.6, - 4.5), point DQ2 (- 10.8, -16.2, -3.8), point DH2 (- 7.5, -18.1, -3.1), point DI2 (0, -19.8, -2), point DJ2 (7.6, -18.3, -1.5), point DK2 (14, -14, -1.5), point DL2 (18.2, -7.5, -1.8), point DR2 (18.5, -6.7, - 1.8), point DM2 (19.7,0, -2.2), point DN2 (18.1,7.5, -2.5), point DO2 (13.8,13.8, -3.2), point DP2 (7.4, 17.8,-4.4);Point DF4 (- 27.8, -11.5, -14.4), point DG4 (- 25.5, -25.5, -15.3), point DQ4 (- 20.4, - 30.7, -13.6), point DH4 (- 14.3, -34.5, -12.1), point DI4 (0, -38, -10), point DJ4 (14.6, -35.2, -9.2), Point DK4 (26.8, -26.8, -10), point DL4 (34.6,14.3, -10.9), point DR4 (35.1, -12.7, -11), point DM4 (40.5,0,-13.7);Point DQ6 (- 28.2, -42.5, -27.6), point DH6 (- 20, -48.5, -25.2), point DI6 (0, - 54.4, -21.5), point DJ6 (21, -50.8, -20), point DK6 (38.2, -38.2, -21.6), point DL6 (48.8, -20.2, - 23.6), (49.6, -18, -23.8) point DR6;
Upper limit curved surface, lower limit curved surface are evenly equipped with the identical node of quantity in detection faces, with each section in the detection faces Point is marked to the ratio between the distance between each corresponding node on the upper limit curved surface and corresponding node each on lower limit curved surface Quasi- ratio, each detection faces are corresponding with unique standard ratio, each on each node to the upper limit curved surface in detection faces The ratio between the distance between a corresponding node and corresponding node each on lower limit curved surface are marked in 0.95 times of standard ratio to 1.05 times Between quasi- ratio.
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UA1 (0,9.9 ,- 1.1), point UB1 (- 3.8,9.1, -1.4), point UC1 (- 6.9,6.9, -1.7), point UD1 (- 9,3.7, -1.8), point UE1 (- 9.8, 0, -1.75), point UF1 (- 9.1, -3.8, -1.5), point UG1 (- 7, -7, -1.1), point UQ1 (- 5.8, -8, -1), point UH1 (- 3.8, -9.2, -0.8), point UI1 (0, -9.9, -0.5), point UI11 (0, -88.7, -50), point UJ1 (3.8, -9.2, -0.4), point UJ11 (36, -86.7, -51.9), point UK1 (7, -7, -0.3), point UK11 (66, -66, -59.3), point UL1 (9.2, -3.8, - 0.3), point UL11 (79.1, -32.7, -61.8), point UR1 (9.6, -2.7, -0.3), point UR11 (81.3, -23.4, -62.7), Point UM1 (9.9,0, -0.3), point UN1 (9.2,3.8, -0.4), point UO1 (7,7, -0.5), point UP1 (3.8,9.2, -0.7);Institute State lower limit discrete point group further include: point DA1 (0,9.8, -1.8), point DB1 (- 3.7,8.9, -2.4), point DC1 (- 6.8,6.8, - 2.8), point DD1 (- 8.8,3.6, -2.8), point DE1 (- 9.6,0, -2.5), point DF1 (- 9, -3.7, -2), point DG1 (- 7, -7, - 1.4), point DQ1 (- 5.5, -8.2, -1), point DH1 (- 3.8, -9.2, -0.7), point DI1 (0, -10, -0.15), point DJ1 (3.8, - 9.2,0.2), point DK1 (7, -7,0.3), point DL1 (9.2, -3.8,0.2), point DR1 (9.4, -3.4,0.2), point DR11 (75.4, -27.3, -58.7), point DM1 (10,0,0.1), point DN1 (9.2,3.8, -0.2), point DO1 (7,7, -0.8), point DP1 (3.8,9.1,-1.2)。
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UF5 (- 37.8 ,- 15.6, -21.3), point UG5 (- 31.5, -31.5, -20), point UQ5 (- 26.5, -36.6, -18.7), point UH5 (- 17.6, - 42.4, -17.3), point UI5 (0, -46.6, -15.7), point UJ5 (17.9, -43.2, -15.2), point UK5 (32.7, -32.7, - 16.2), point UL5 (42.1, -17.4, -17.4), point UR5 (43.7, -12.6, -17.6), point UM5 (45.3,0, -17.9), point UN5(37,15.3,-14.2);The lower limit discrete point group further include: point DG5 (- 31.9, -31.9, -25), point DQ5 (- 24.5, -36.9, -20.2), point DH5 (- 17.3, -41.8, -18.3), point DI5 (0, -46.4, -15.5), point DJ5 (17.9, - 43, -14.4), point DK5 (32.6, -32.6, -15.4), point DL5 (41.9, -17.3, -17), point DR5 (42.6, -15.4, - 17.1)。
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UA3 (0,28.5 ,- 8.2), point UB3 (- 10.7,26, -9.4), point UC3 (- 19.5,19.5, -10.8), point UD3 (- 25.2,10.4, -11.3), point UE3 (- 27.4,0, -11), point UF3 (- 25.8, -10.7, -9.8), point UG3 (- 20.2, -20.2, -8.1), point UQ3 (- 16.8, -23.3, -7.5), point UH3 (- 11, -26.8, -6.7), point UI3 (0, -29.1, -6), point UJ3 (11.1, -26.9, - 5.9), point UK3 (20.5, -20.5, -6.2), point UL3 (26.7, -11, -6.6), point UR3 (27.7, -8, -6.6), point UM3 (28.8,0, -6.6), point UN3 (26.6,11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5, -7.2); The lower limit discrete point group further include: point DA3 (0,26, -10), point DB3 (- 10,24.2, -12.5), point DC3 (- 17.6, 17.6, -13), point DD3 (- 23,9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF3 (- 25, -10.3, -11.7), point DG3 (- 20, -20, -9.2), point DQ3 (- 15.8, -23.8, -8), point DH3 (- 11, -26.6, -7), point DI3 (0, -29.1, - 5.4), point DJ3 (11.1, -27, -4.8), point DK3 (20.5, -20.5, -5.1), point DL3 (26.7, -11, -5.7), point DR3 (27.1, -9.8, -5.8), point DM3 (28.8,0, -6.2), point DN3 (26.5,11, -6.6), point DO3 (17.8,17.8, - 5.8), (9.5,23, -7.3) point DP3.
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UQ6 (- 30.7 ,- 42.5, -25.7), point UH6 (- 20.5, -49.5, -23.7), point UI6 (0, -54.8, -21.5), point UJ6 (21.1, -50.9, - 20.7), point UK6 (38.4, -38.4, -22.2), point UL6 (49.2, -20.4, -24), point UR6 (51, -14.7, -24.2);Institute State lower limit discrete point group further include: point DQ7 (- 31.7, -47.8, -35.3), point DH7 (- 22.7, -54.8, -32.5), point DI7 (0, -62.1, -27.8), point DJ7 (24.1, -58.2, -26), point DK7 (43.5, -43.5, -28.2), point DL7 (55.2, - 22.9, -30.8), (56.1, -20.3, -31) point DR7.
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UQ10 (- 45.1 ,- 62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), point UI10 (0, -85.5, -47.1), point UJ10 (33.1, - 79.9, -45.6), point UK10 (59.1, -59.1, -49.1), point UL10 (73.7, -30.5, -53.7), point UR10 (76, - 21.9,-54.4);The lower limit discrete point group further include: point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, - 44), point DI9 (0, -76.3, -40), point DJ9 (30, -72.5, -38.7), point DK9 (53.7, -53.7, -42.1), point DL9 (66.9, -27.7, -46.3), point DR9 (67.7, -24.66, -46.6).
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UQ8 (- 38.3, -53, - 40.9), point UH8 (- 25.8, -62.4, -38), point UI8 (0, -70.4, -33.9), point UJ8 (27.2, -65.6, -32.8), point UK8 (49.1, -49.1, -35.2), point UL8 (62.2, -25.7, -38.1), point UR8 (64.3, -18.5, -38.5);Under described Limit discrete point group further include: point DQ8 (- 35.1, -52.9, -43.3), point DH8 (- 25.2, -60.8, -40), point DI8 (0, - 69.7, -34), point DJ8 (27.1, -65.4, -32.3), point DK8 (48.6, -48.6, -35.2), point DL8 (61.3, -25.3, - 38.3), (62.1, -22.5, -38.6) point DR8.
As a further improvement of the above technical scheme, the upper limit discrete point group further include: point UI11 (0, -88.7, - 50), point UJ11 (36, -86.7, -51.9), point UK11 (66, -66, -59.3), point UL11 (79.1, -32.7, -61.8), point UR11(81.3,-23.4,-62.7);Point UL12 (85.2, -35.3, -71.4), point UR12 (89.4, -25.8, -75.6);It is described Lower limit discrete point group further include: point DJ10 (31.2, -75.3, -41.3), point DK10 (57.6, -57.6, -47.6), point DL10 (74, -30.7, -57.6), point DR10 (73, -26.5, -55);Point DR11 (75.4, -27.3, -58.7).
As a further improvement of the above technical scheme, several test points, the detection are additionally provided in the detection faces Range sensor is equipped at point.
A kind of mold cup, including mold cup cubing described in any of the above-described technical solution, the mold cup is located in detection faces, institute The spacing between the lateral surface of mold cup and detection faces is stated no more than 0.8mm.
The beneficial effects of the present invention are: provide a kind of mold cup cubing, the detection faces in the mold cup cubing by upper limit curved surface, The determination of lower limit curved surface, it is identical as the shape method of determination for the curved surface for needing to detect in corresponding mold cup, thus the mold cup cubing Precision is higher when detecting corresponding mold cup, and only mold cup need to be placed in detection faces using when the mold cup cubing, detection mold cup with Gap between detection faces, that is, can determine whether the shape of mold cup meets the requirements, without being taken by complicated three-coordinate instrument The mode of point goes to determine.
The present invention relates to underwear field, especially a kind of mold cup cubing and a kind of mold cup.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described.Obviously, described attached drawing is a part of the embodiments of the present invention, rather than is all implemented Example, those skilled in the art without creative efforts, can also be obtained according to these attached drawings other designs Scheme and attached drawing.
Fig. 1 is the elevational cross-sectional view of the embodiment of the present invention;
Fig. 2 is the upper limit curved surface, lower limit curved surface, lateral surface projection line schematic diagram of the embodiment of the present invention;
Fig. 3 is the upper limit curved surface of the embodiment of the present invention, lower limit curved surface schematic diagram;
Fig. 4 is the upper limit curved surface X/Y plane perspective view of the embodiment of the present invention;
Fig. 5 is the lower limit curved surface X/Y plane perspective view of the embodiment of the present invention.
Specific embodiment
It is carried out below with reference to technical effect of the embodiment and attached drawing to design of the invention, specific structure and generation clear Chu is fully described by, to be completely understood by the purpose of the present invention, feature and effect.Obviously, described embodiment is this hair Bright a part of the embodiment, rather than whole embodiments, based on the embodiment of the present invention, those skilled in the art are not being paid Other embodiments obtained, belong to the scope of protection of the invention under the premise of creative work.In addition, be previously mentioned in text All connections or connection relationship not singly refer to that component directly connects, and referring to can be added deduct according to specific implementation situation by adding Connect auxiliary less, Lai Zucheng more preferably connection structure.Each technical characteristic in the present invention, in the premise of not conflicting conflict Under can be with combination of interactions.
Embodiment is as follows, and referring to figs. 1 to Fig. 5, a kind of mold cup cubing, including pedestal 6, the upside of the pedestal 6 are equipped with inspection Survey face 61, the detection faces 61 fall between upper limit curved surface 1, lower limit curved surface 2 or are overlapped with upper limit curved surface 1 or lower limit curved surface 2;Institute Pedestal 6 is stated to be made of clear material;The upper limit curved surface 1 includes upper limit upper edge 11, upper limit lower edge 13, upper limit left margin 12, along 14, upper limit discrete point group, the upper limit upper edge 11, upper limit lower edge 13, upper limit left margin 12, the upper limit on the right of the upper limit The boundary that the right determines the upper limit curved surface 1 along 14, the upper limit discrete point group determine the shape of upper limit curved surface 1;The lower limit Curved surface 2 includes lower limit upper edge 21, lower limit lower edge 23, lower limit left margin 22, lower limit the right along 24, lower limit discrete point group, institute Lower limit upper edge 21, lower limit lower edge 23, lower limit left margin 22, the boundary for determining lower limit curved surfaces 2 along 24 on the right of lower limit are stated, it is described Lower limit discrete point group determines the shape of lower limit curved surface 2;The upper limit curved surface 1, lower limit curved surface 2 are respectively positioned in space coordinates, institute Stating space coordinates includes coordinate origin O, X-axis, Y-axis, Z axis, is thrown with the be projected as upper limit of the upper limit curved surface 1 on X/Y plane Shadow, lower limit curved surface 2 are projected as lower limit projection on X/Y plane, and the upper limit left margin 12, lower limit left margin 22 are in X/Y plane On projection and Y-axis between angle be 9 °, on the right of the upper limit on the right of 14, lower limit along 24 projection on X/Y plane with Angle between Y-axis is 62 °, the upper limit left margin 12, on the right of the upper limit along 14 with upper limit upper edge 11 it is tangent, it is described under Limit left margin 22, on the right of lower limit along 24 with lower limit lower edge 21 it is tangent;X/Y plane, which is equipped with, is spaced circle group, the interval circle group Including several using coordinate origin as the concentric circles in the center of circle, the radius of the smallest concentric circles is 1cm, every two adjacent concentric circles Between be separated by 1cm;Ray groups are additionally provided on X/Y plane, the ray groups include several using coordinate origin as ray starting point Ray has one to be overlapped with Y-axis in ray, and every two adjacent rays are separated by 22.5 °;The interval circle group is on upper limit curved surface 1 The upper limit that is projected as project circle group, the ray groups are projected as upper limit projection ray group on upper limit curved surface 1, and the upper limit is thrown The intersection point of shadow circle group and upper limit projection ray is upper limit discrete point group;The interval circle group is under being projected as on lower limit curved surface 1 Limit projects circle group, and the ray groups are projected as lower limit projection ray group on lower limit curved surface 2, and the lower limit projection circle group is under The intersection point for limiting projection ray is lower limit discrete point group;
The upper limit upper edge 11 is by point UO4 (24.8,24.8, -10.8), point UP4 (13.4,32.3, -11.3), point UA4 (0,35, -12.5), point UB4 (- 13.3,32.3, -14.4), point UC4 (- 24.7,24.7, -16.7), point UD4 (- 32.3, 13.4, -18.4) it is fitted;The upper limit left margin 12 by point UD4 (- 32.3,13.4, -18.4), point UE4 (- 35.3,0, - 18.3), point UF5 (- 37.8, -15.6, -21.3), point UG7 (- 42, -42, -37), point UQ10 (- 45.1, -62.5, -56.2) are quasi- It closes;The upper limit lower edge 13 by point UQ10 (- 45.1, -62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), Point UI11 (0, -88.7, -50), point UJ11 (36, -86.7, -51.9), point UK11 (66, -66, -59.3), point UL12 (85.2, - 35.3, -71.4), point UR12 (89.4, -25.8, -75.6) is fitted;On the right of the upper limit along 14 by point UR12 (89.4 ,- 25.8, -75.6), point UM7 (56.5,0, -28.2), point UN5 (37,15.3, -14.2), point UO4 (24.8,24.8, -10.8) are quasi- It closes;
The upper limit discrete point group further include:
Point UA2 (0,19.5, -3.8), point UB2 (- 7.4,17.8, -4.7) point UC2 (- 13.5,13.5, -5.4), point UD2 (- 17.5,7.3, -5.7), point UE2 (- 19,0, -5.5), point UF2 (- 17.8, -7.4, -4.8), point UG2 (- 13.8, -13.8, - 3.9), point UH2 (- 7.5, -18.1, -3.1), point UI2 (0, -19.7, -2.6), point UJ2 (7.5, -18.2, -2.5), point UK2 (13.9, -13.9, -2.6), point UL2 (18.1, -7.5, -2.7), point UM2 (19.7,0, -2.6), point UN2 (18.2,7.5, - 2.6), point UP2 (7.5,18.1, -3.2), point UQ2 (- 11.5, -15.9, -3.5), point UR2 (18.9, -5.4, -2.7), point UO2 (13.9,13.9,-2.8),UP2(7.5,18.1,-3.2);
Point UE4 (- 35.3,0, -18.3), point UF4 (- 33, -13.7, -16), point UG4 (- 26.1, -26.1, -13.5), point UQ4 (- 21.9, -30.2, -12.6), point UH4 (- 14.4, -34.8, -11.5), point UI4 (0, -38, -10.5), point UJ4 (14.6, -35.2, -10.2), point UK4 (26.7, -26.7, -10.8), point UL4 (34.6, -14.3, -11.6), point UR4 (36, 10.3, -11.7), point UM4 (37.3,0, -11.8), point UN4 (34.3,14.2, -12.1), point UO4 (24.8,24.8, - 10.8), point UP4 (13.4,32.3, -11.3);
Point UG7 (- 42, -42, -37), point UQ7 (- 34.6, -47.9, -33.1), point UH7 (- 23.2, -56, -30.7), point UI7 (0, -62.7, -27.6), point UJ7 (24.2, -58.4, -26.7), point UK7 (43.8, -43.8, -28.5), point UL7 (55.8, -23.1, -30.8), point UR7 (57.8, -16.7, -31.2), point UM7 (56.5,0, -28.2);
The lower limit upper edge 21 by point DO3 (17.8,17.8, -5.8), point DP3 (9.5,23, -7.3), point DA3 (0, 26, -10), point DB3 (- 10,24.2, -12.5), DC3 (- 17.6,17.6, -13), point DD3 (- 23,9.5, -13.5) fitting and At;The lower limit left margin 22 by point DD3 (- 23,9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF4 (- 27.8, - 11.5, -14.4), point DG5 (- 31.9, -31.9, -25), point DQ9 (- 36.5, -55, -46.5) are fitted;Under the lower limit Edge 23 is by point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, -44), point DI9 (0, -76.3, -40), point DJ10 (31.2, -75.3, -41.3), point DK10 (57.6, -57.6, -47.6), point DL10 (74, -30.7, -57.6), point DR11 (75.4, -27.3, -58.7) are fitted;Along 24 by point DR11 (75.4, -27.3, -58.7), point DM4 on the right of the lower limit (40.5,0, -13.7), point DN3 (26.5,11, -6.6), point DO3 (17.8,17.8, -5.8) are fitted;The lower limit group from Scatterplot further include: point DA2 (0,19, -5.7), point DB2 (- 7.1,17.2, -6.8), point DC2 (- 12.9,12.9, -7.5), point DD2 (- 16.8,7, -7.7), point DE2 (- 18.5,0, -7.2), point DF2 (- 17.4, -7.2, -6), point DG2 (- 13.6, - 13.6, -4.5), point DQ2 (- 10.8, -16.2, -3.8), point DH2 (- 7.5, -18.1, -3.1), point DI2 (0, -19.8, -2), Point DJ2 (7.6, -18.3, -1.5), point DK2 (14, -14, -1.5), point DL2 (18.2, -7.5, -1.8), point DR2 (18.5, - 6.7, -1.8), point DM2 (19.7,0, -2.2), point DN2 (18.1,7.5, -2.5), point DO2 (13.8,13.8, -3.2), point DP2 (7.4,17.8,-4.4);Point DF4 (- 27.8, -11.5, -14.4), point DG4 (- 25.5, -25.5, -15.3), point DQ4 (- 20.4, -30.7, -13.6), point DH4 (- 14.3, -34.5, -12.1), point DI4 (0, -38, -10), point DJ4 (14.6, - 35.2, -9.2), point DK4 (26.8, -26.8, -10), point DL4 (34.6,14.3, -10.9), point DR4 (35.1, -12.7, - 11), (40.5,0, -13.7) point DM4;Point DQ6 (- 28.2, -42.5, -27.6), point DH6 (- 20, -48.5, -25.2), point DI6 (0, -54.4, -21.5), point DJ6 (21, -50.8, -20), point DK6 (38.2, -38.2, -21.6), point DL6 (48.8, - 20.2, -23.6), (49.6, -18, -23.8) point DR6;Upper limit curved surface 1, lower limit curved surface 2 are evenly equipped with quantity phase in detection faces 61 Same node, with each corresponding node on each node in the detection faces 61 to the upper limit curved surface 1 and lower limit curved surface 2 The ratio between the distance between upper each corresponding node is standard ratio, and each detection faces 61 are corresponding with unique standard ratio, Each corresponding node and corresponding section each on lower limit curved surface 2 on each node to the upper limit curved surface 1 in detection faces 61 The ratio between the distance between point is in 0.95 times of standard ratio between 1.05 times of standard ratios.
Why the present invention detects the lateral surface of mold cup, is because the lateral surface of mold cup mold cup in actual use is It links together with the cloth of brassiere, practical is by the suspender belt on brassiere first from mould to the power that mold cup is played a supporting role The lateral surface of cup is transferred to human body, and influence of the lateral surface of mold cup to the supporting role that the mold cup plays is only main thus Rather than medial surface, it overcomes and thinks that the medial surface of mold cup is only the prejudice for playing the role of main support in the prior art.
Specifically, detected mold cup is that the shape of one column is determined by following mode, specially first really Determine upper limit curved surface, lower limit curved surface, then the point on the lateral surface by making mold cup to upper limit curved surface at a distance from lower limit curved surface it Than determining value for one, the determination value is different according to different lateral surfaces;Detection faces in the mold cup cubing and corresponding mold cup The shape method of determination of the upper curved surface for needing to detect is identical, so that precision is higher when the mold cup cubing detects corresponding mold cup, makes Mold cup need to be only placed in detection faces with when the mold cup cubing, detect the gap between mold cup and detection faces, that is, can determine mould Whether the shape of cup meets the requirements.More preferably, the pedestal is using being disposed with several in the detection faces of transparent material or the pedestal Test point, the range sensor being arranged along detection faces normal direction is equipped at test point, and range sensor can be grating Distance-sensing Device, laser distance sensor, ultrasonic distance sensor can be measured between tested mold cup and detection faces by range sensor Distance.
Further, the upper limit discrete point group further include: point UA1 (0,9.9, -1.1), point UB1 (- 3.8,9.1, -1.4), Point UC1 (- 6.9,6.9, -1.7), point UD1 (- 9,3.7, -1.8), point UE1 (- 9.8,0, -1.75), point UF1 (- 9.1, -3.8, - 1.5), point UG1 (- 7, -7, -1.1), point UQ1 (- 5.8, -8, -1), point UH1 (- 3.8, -9.2, -0.8), point UI1 (0, -9.9, - 0.5), point UI11 (0, -88.7, -50), point UJ1 (3.8, -9.2, -0.4), point UJ11 (36, -86.7, -51.9), point UK1 (7, -7, -0.3), point UK11 (66, -66, -59.3), point UL1 (9.2, -3.8, -0.3), point UL11 (79.1, -32.7, - 61.8), point UR1 (9.6, -2.7, -0.3), point UR11 (81.3, -23.4, -62.7), point UM1 (9.9,0, -0.3), point UN1 (9.2,3.8, -0.4), point UO1 (7,7, -0.5), point UP1 (3.8,9.2, -0.7);
The lower limit discrete point group further include: point DA1 (0,9.8, -1.8), point DB1 (- 3.7,8.9, -2.4), point DC1 (- 6.8,6.8, -2.8), point DD1 (- 8.8,3.6, -2.8), point DE1 (- 9.6,0, -2.5), point DF1 (- 9, -3.7, -2), point DG1 (- 7, -7, -1.4), point DQ1 (- 5.5, -8.2, -1), point DH1 (- 3.8, -9.2, -0.7), point DI1 (0, -10, -0.15), point DJ1 (3.8, -9.2,0.2), point DK1 (7, -7,0.3), point DL1 (9.2, -3.8,0.2), point DR1 (9.4, -3.4,0.2), point DR11 (75.4, -27.3, -58.7), point DM1 (10,0,0.1), point DN1 (9.2,3.8, -0.2), point DO1 (7,7, -0.8), point DP1(3.8,9.1,-1.2)。
Further, the upper limit discrete point group further include: point UF5 (- 37.8, -15.6, -21.3), point UG5 (- 31.5, - 31.5, -20), point UQ5 (- 26.5, -36.6, -18.7), point UH5 (- 17.6, -42.4, -17.3), point UI5 (0, -46.6, - 15.7), point UJ5 (17.9, -43.2, -15.2), point UK5 (32.7, -32.7, -16.2), point UL5 (42.1, -17.4, - 17.4), point UR5 (43.7, -12.6, -17.6), point UM5 (45.3,0, -17.9), point UN5 (37,15.3, -14.2);
The lower limit discrete point group further include: point DG5 (- 31.9, -31.9, -25), point DQ5 (- 24.5, -36.9, - 20.2), point DH5 (- 17.3, -41.8, -18.3), point DI5 (0, -46.4, -15.5), point DJ5 (17.9, -43, -14.4), point DK5 (32.6, -32.6, -15.4), point DL5 (41.9, -17.3, -17), point DR5 (42.6, -15.4, -17.1).
Further, the upper limit discrete point group further include: point UA3 (0,28.5, -8.2), point UB3 (- 10.7,26, - 9.4), point UC3 (- 19.5,19.5, -10.8), point UD3 (- 25.2,10.4, -11.3), point UE3 (- 27.4,0, -11), point UF3 (- 25.8, -10.7, -9.8), point UG3 (- 20.2, -20.2, -8.1), point UQ3 (- 16.8, -23.3, -7.5), point UH3 (- 11, -26.8, -6.7), point UI3 (0, -29.1, -6), point UJ3 (11.1, -26.9, -5.9), point UK3 (20.5, -20.5, - 6.2), point UL3 (26.7, -11, -6.6), point UR3 (27.7, -8, -6.6), point UM3 (28.8,0, -6.6), point UN3 (26.6, 11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5, -7.2);
The lower limit discrete point group further include: point DA3 (0,26, -10), point DB3 (- 10,24.2, -12.5), point DC3 (- 17.6,17.6, -13), point DD3 (- 23,9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF3 (- 25, -10.3, - 11.7), point DG3 (- 20, -20, -9.2), point DQ3 (- 15.8, -23.8, -8), point DH3 (- 11, -26.6, -7), point DI3 (0, - 29.1, -5.4), point DJ3 (11.1, -27, -4.8), point DK3 (20.5, -20.5, -5.1), point DL3 (26.7, -11, -5.7), Point DR3 (27.1, -9.8, -5.8), point DM3 (28.8,0, -6.2), point DN3 (26.5,11, -6.6), point DO3 (17.8, 17.8, -5.8), point DP3 (9.5,23, -7.3).
Further, the upper limit discrete point group further include: point UQ6 (- 30.7, -42.5, -25.7), point UH6 (- 20.5, - 49.5, -23.7), point UI6 (0, -54.8, -21.5), point UJ6 (21.1, -50.9, -20.7), point UK6 (38.4, -38.4, - 22.2), point UL6 (49.2, -20.4, -24), point UR6 (51, -14.7, -24.2);
The lower limit discrete point group further include: point DQ7 (- 31.7, -47.8, -35.3), point DH7 (- 22.7, -54.8, - 32.5), point DI7 (0, -62.1, -27.8), point DJ7 (24.1, -58.2, -26), point DK7 (43.5, -43.5, -28.2), point DL7 (55.2, -22.9, -30.8), point DR7 (56.1, -20.3, -31).
Further, the upper limit discrete point group further include: point UQ10 (- 45.1, -62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), point UI10 (0, -85.5, -47.1), point UJ10 (33.1, -79.9, -45.6), point UK10 (59.1, -59.1, -49.1), point UL10 (73.7, -30.5, -53.7), point UR10 (76, -21.9, -54.4);
The lower limit discrete point group further include: point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, -44), point DI9 (0, -76.3, -40), point DJ9 (30, -72.5, -38.7), point DK9 (53.7, -53.7, -42.1), point DL9 (66.9, - 27.7, -46.3), (67.7, -24.66, -46.6) point DR9.
Further, the upper limit discrete point group further include: point UQ8 (- 38.3, -53, -40.9), point UH8 (- 25.8, - 62.4, -38), point UI8 (0, -70.4, -33.9), point UJ8 (27.2, -65.6, -32.8), point UK8 (49.1, -49.1, - 35.2), point UL8 (62.2, -25.7, -38.1), point UR8 (64.3, -18.5, -38.5);
The lower limit discrete point group further include: point DQ8 (- 35.1, -52.9, -43.3), point DH8 (- 25.2, -60.8, - 40), point DI8 (0, -69.7, -34), point DJ8 (27.1, -65.4, -32.3), point DK8 (48.6, -48.6, -35.2), point DL8 (61.3, -25.3, -38.3), point DR8 (62.1, -22.5, -38.6).
Further, the upper limit discrete point group further include: point UI11 (0, -88.7, -50), point UJ11 (36, -86.7, - 51.9), point UK11 (66, -66, -59.3), point UL11 (79.1, -32.7, -61.8), point UR11 (81.3, -23.4, -62.7); Point UL12 (85.2, -35.3, -71.4), point UR12 (89.4, -25.8, -75.6);
The lower limit discrete point group further include: point DJ10 (31.2, -75.3, -41.3), point DK10 (57.6, -57.6, - 47.6), point DL10 (74, -30.7, -57.6), point DR10 (73, -26.5, -55);Point DR11 (75.4, -27.3, -58.7).
Further, it is additionally provided with several test points in the detection faces 61, is equipped with range sensor at the test point.
A kind of mold cup, including the mold cup cubing in any embodiment, the mold cup is located in detection faces 61, the mould Spacing between the lateral surface and detection faces 61 of cup is not more than 0.8mm.The distance values are that minimum level-one is passed when being within 0.8mm Product, it is second level qualifying product which, which is within 0.6mm, and it is third level qualifying product which, which is within 0.4mm,.Its spacing It is worth smaller, rank is higher, then corresponding mold cup and being bonded for body are more preferable, and upper body effect is more preferable.When using the cubing, it will be detected The lateral surface of mold cup is placed in detection faces, when detecting its spacing value, it is preferential detect mold cup at coordinate origin between cubing Distance values.When detecting the distance values between cubing of mold cup at coordinate origin, the lateral surface of mold cup pastes from outer to inner with cubing It closes.
Better embodiment of the invention is illustrated above, but the present invention is not limited to the embodiment, Those skilled in the art can also make a variety of equivalent modifications or replacement on the premise of without prejudice to spirit of the invention, this Equivalent variation or replacement are all included in the scope defined by the claims of the present application a bit.

Claims (10)

1. a kind of mold cup cubing, including pedestal (6), it is characterised in that: the upside of the pedestal (6) is equipped with detection faces (61), institute Detection faces (61) are stated to fall between upper limit curved surface (1), lower limit curved surface (2) or be overlapped with upper limit curved surface (1) or lower limit curved surface (2); The pedestal (6) is made of clear material;
The upper limit curved surface (1) includes upper limit upper edge (11), upper limit lower edge (13), upper limit left margin (12), upper limit the right Along (14), upper limit discrete point group, the upper limit upper edge (11), upper limit lower edge (13), upper limit left margin (12), upper limit the right The boundary of the upper limit curved surface (1) is determined along (14), the upper limit discrete point group determines the shape of upper limit curved surface (1);
The lower limit curved surface (2) includes lower limit upper edge (21), lower limit lower edge (23), lower limit left margin (22), lower limit the right Along (24), lower limit discrete point group, the lower limit upper edge (21), lower limit lower edge (23), lower limit left margin (22), lower limit the right The boundary of lower limit curved surface (2) is determined along (24), the lower limit discrete point group determines the shape of lower limit curved surface (2);
The upper limit curved surface (1), lower limit curved surface (2) are respectively positioned in space coordinates, and the space coordinates include coordinate origin O, X-axis, Y-axis, Z axis are projected as upper limit projection, lower limit curved surface (2) in X/Y plane on X/Y plane with the upper limit curved surface (1) On be projected as lower limit projection, the upper limit left margin (12), lower limit left margin (22) are between the projection and Y-axis on X/Y plane Angle be 9 °, the angle on the right of the upper limit on the right of (14), lower limit along (24) between the projection and Y-axis on X/Y plane It is 62 °, along (14) tangent, the described lower limit left side with upper limit upper edge (11) on the right of the upper limit left margin (12), the upper limit It is tangent with lower limit lower edge (21) along (24) on the right of (22), lower limit;
X/Y plane, which is equipped with, is spaced circle group, and the interval circle group includes several using coordinate origin as the concentric circles in the center of circle, most The radius of small concentric circles is 1cm, is separated by 1cm between every two adjacent concentric circles;Ray groups are additionally provided on X/Y plane, it is described to penetrate Line group includes several has one to be overlapped with Y-axis using coordinate origin as the ray of ray starting point in ray, and every two adjacent penetrate Line is separated by 22.5 °;The upper limit that is projected as that circle group is spaced on upper limit curved surface (1) projects circle group, and the ray groups are in the upper limit Be projected as upper limit projection ray group on curved surface (1), the intersection point of the upper limit projection circle group and upper limit projection ray be the upper limit from Scatterplot group;The lower limit that is projected as that circle group is spaced on lower limit curved surface (1) projects circle group, and the ray groups are in lower limit curved surface (2) it is projected as lower limit projection ray group on, the intersection point of the lower limit projection circle group and lower limit projection ray is lower limit discrete point Group;
The upper limit upper edge (11) is by point UO4 (24.8,24.8, -10.8), point UP4 (13.4,32.3, -11.3), point UA4 (0,35, -12.5), point UB4 (- 13.3,32.3, -14.4), point UC4 (- 24.7,24.7, -16.7), point UD4 (- 32.3, 13.4, -18.4) it is fitted;
The upper limit left margin (12) by point UD4 (- 32.3,13.4, -18.4), point UE4 (- 35.3,0, -18.3), point UF5 (- 37.8, -15.6, -21.3), point UG7 (- 42, -42, -37), point UQ10 (- 45.1, -62.5, -56.2) are fitted;
The upper limit lower edge (13) by point UQ10 (- 45.1, -62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), Point UI11 (0, -88.7, -50), point UJ11 (36, -86.7, -51.9), point UK11 (66, -66, -59.3), point UL12 (85.2, - 35.3-71.4), point UR12 (89.4 ,-25.8 ,-75.6) is fitted;
Along (14) by point UR12 (89.4, -25.8, -75.6), point UM7 (56.5,0, -28.2), point UN5 on the right of the upper limit (37,15.3, -14.2), point UO4 (24.8,24.8, -10.8) are fitted;
The upper limit discrete point group further include:
Point UA2 (0,19.5, -3.8), point UB2 (- 7.4,17.8, -4.7) point UC2 (- 13.5,13.5, -5.4), point UD2 (- 17.5,7.3, -5.7), point UE2 (- 19,0, -5.5), point UF2 (- 17.8, -7.4, -4.8), point UG2 (- 13.8, -13.8, - 3.9), point UH2 (- 7.5, -18.1, -3.1), point UI2 (0, -19.7, -2.6), point UJ2 (7.5, -18.2, -2.5), point UK2 (13.9, -13.9, -2.6), point UL2 (18.1, -7.5, -2.7), point UM2 (19.7,0, -2.6), point UN2 (18.2,7.5, - 2.6), point UP2 (7.5,18.1, -3.2), point UQ2 (- 11.5, -15.9, -3.5), point UR2 (18.9, -5.4, -2.7), point UO2 (13.9,13.9,-2.8),UP2(7.5,18.1,-3.2);
Point UE4 (- 35.3,0, -18.3), point UF4 (- 33, -13.7, -16), point UG4 (- 26.1, -26.1, -13.5), point UQ4 (- 21.9, -30.2, -12.6), point UH4 (- 14.4, -34.8, -11.5), point UI4 (0, -38, -10.5), point UJ4 (14.6, - 35.2, -10.2), point UK4 (26.7, -26.7, -10.8), point UL4 (34.6, -14.3, -11.6), point UR4 (36,10.3, - 11.7), point UM4 (37.3,0, -11.8), point UN4 (34.3,14.2, -12.1), point UO4 (24.8,24.8, -10.8), point UP4 (13.4,32.3,-11.3);
Point UG7 (- 42, -42, -37), point UQ7 (- 34.6, -47.9, -33.1), point UH7 (- 23.2, -56, -30.7), point UI7 (0, -62.7, -27.6), point UJ7 (24.2, -58.4, -26.7), point UK7 (43.8, -43.8, -28.5), point UL7 (55.8, - 23.1, -30.8), point UR7 (57.8, -16.7, -31.2), point UM7 (56.5,0, -28.2);
The lower limit upper edge (21) by point DO3 (17.8,17.8, -5.8), point DP3 (9.5,23, -7.3), point DA3 (0,26, - 10), point DB3 (- 10,24.2, -12.5), DC3 (- 17.6,17.6, -13), point DD3 (- 23,9.5, -13.5) are fitted;
The lower limit left margin (22) by point DD3 (- 23,9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF4 (- 27.8, -11.5, -14.4), point DG5 (- 31.9, -31.9, -25), point DQ9 (- 36.5, -55, -46.5) are fitted;
The lower limit lower edge (23) by point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, -44), point DI9 (0, - 76.3, -40), point DJ10 (31.2, -75.3, -41.3), point DK10 (57.6, -57.6, -47.6), point DL10 (74, -30.7, - 57.6), point DR11 (75.4, -27.3, -58.7) is fitted;
Along (24) by point DR11 (75.4, -27.3, -58.7), point DM4 (40.5,0, -13.7), point DN3 on the right of the lower limit (26.5,11, -6.6), point DO3 (17.8,17.8, -5.8) are fitted;
The lower limit group discrete point further include:
Point DA2 (0,19, -5.7), point DB2 (- 7.1,17.2, -6.8), point DC2 (- 12.9,12.9, -7.5), point DD2 (- 16.8,7, -7.7), point DE2 (- 18.5,0, -7.2), point DF2 (- 17.4, -7.2, -6), point DG2 (- 13.6, -13.6, - 4.5), point DQ2 (- 10.8, -16.2, -3.8), point DH2 (- 7.5, -18.1, -3.1), point DI2 (0, -19.8, -2), point DJ2 (7.6, -18.3, -1.5), point DK2 (14, -14, -1.5), point DL2 (18.2, -7.5, -1.8), point DR2 (18.5, -6.7, - 1.8), point DM2 (19.7,0, -2.2), point DN2 (18.1,7.5, -2.5), point DO2 (13.8,13.8, -3.2), point DP2 (7.4, 17.8,-4.4);
Point DF4 (- 27.8, -11.5, -14.4), point DG4 (- 25.5, -25.5, -15.3), point DQ4 (- 20.4, -30.7, - 13.6), point DH4 (- 14.3, -34.5, -12.1), point DI4 (0, -38, -10), point DJ4 (14.6, -35.2, -9.2), point DK4 (26.8, -26.8, -10), point DL4 (34.6,14.3, -10.9), point DR4 (35.1, -12.7, -11), point DM4 (40.5,0, - 13.7);
Point DQ6 (- 28.2, -42.5, -27.6), point DH6 (- 20, -48.5, -25.2), point DI6 (0, -54.4, -21.5), point DJ6 (21, -50.8, -20), point DK6 (38.2, -38.2, -21.6), point DL6 (48.8, -20.2, -23.6), point DR6 (49.6,-18,-23.8);
Upper limit curved surface (1), lower limit curved surface (2) are evenly equipped with the identical node of quantity in detection faces (61), with the detection faces (61) On each node to the upper limit curved surface (1) on each corresponding node and each corresponding node on lower limit curved surface (2) it Between ratio of distances constant be standard ratio, each detection faces (61) are corresponding with unique standard ratio, each in detection faces (61) On a node to the upper limit curved surface (1) between each corresponding node and each corresponding node on lower limit curved surface (2) away from From the ratio between in 0.95 times of standard ratio between 1.05 times of standard ratios;Spacing between first medial surface and detection faces (61) is certainly Detection faces (61) are gradually reduced around close to the side of coordinate origin.
2. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UA1 (0,9.9, -1.1), point UB1 (- 3.8,9.1, -1.4), point UC1 (- 6.9,6.9, -1.7), point UD1 (- 9, 3.7, -1.8), point UE1 (- 9.8,0, -1.75), point UF1 (- 9.1, -3.8, -1.5), point UG1 (- 7, -7, -1.1), point UQ1 (- 5.8, -8, -1), point UH1 (- 3.8, -9.2, -0.8), point UI1 (0, -9.9, -0.5), point UI11 (0, -88.7, -50), point UJ1 (3.8, -9.2, -0.4), point UJ11 (36, -86.7, -51.9), point UK1 (7, -7, -0.3), point UK11 (66, -66, -59.3), Point UL1 (9.2, -3.8, -0.3), point UL11 (79.1, -32.7, -61.8), point UR1 (9.6, -2.7, -0.3), point UR11 (81.3, -23.4, -62.7), point UM1 (9.9,0, -0.3), point UN1 (9.2,3.8, -0.4), point UO1 (7,7, -0.5), point UP1(3.8,9.2,-0.7);
The lower limit discrete point group further include:
Point DA1 (0,9.8, -1.8), point DB1 (- 3.7,8.9, -2.4), point DC1 (- 6.8,6.8, -2.8), point DD1 (- 8.8, 3.6, -2.8), point DE1 (- 9.6,0, -2.5), point DF1 (- 9, -3.7, -2), point DG1 (- 7, -7, -1.4), point DQ1 (- 5.5, - 8.2, -1), point DH1 (- 3.8, -9.2, -0.7), point DI1 (0, -10, -0.15), point DJ1 (3.8, -9.2,0.2), point DK1 (7, -7,0.3), point DL1 (9.2, -3.8,0.2), point DR1 (9.4, -3.4,0.2), point DR11 (75.4, -27.3, -58.7), Point DM1 (10,0,0.1), point DN1 (9.2,3.8, -0.2), point DO1 (7,7, -0.6), point DP1 (3.8,9.1, -1.2).
3. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UF5 (- 37.8, -15.6, -21.3), point UG5 (- 31.5, -31.5, -20), point UQ5 (- 26.5, -36.6, -18.7), Point UH5 (- 17.6, -42.4, -17.3), point UI5 (0, -46.6, -15.7), point UJ5 (17.9, -43.2, -15.2), point UK5 (32.7, -32.7, -16.2), point UL5 (42.1, -17.4, -17.4), point UR5 (43.7, -12.6, -17.6), point UM5 (45.3,0, -17.9), point UN5 (37,15.3, -14.2);
The lower limit discrete point group further include: point DG5 (- 31.9, -31.9, -25), point DQ5 (- 24.5, -36.9, -20.2), point DH5 (- 17.3, -41.8, -18.3), point DI5 (0, -46.4, -15.5), point DJ5 (17.9, -43, -14.4), point DK5 (32.6, -32.6, -15.4), point DL5 (41.9, -17.3, -17), point DR5 (42.6, -15.4, -17.1).
4. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UA3 (0,28.5, -8.2), point UB3 (- 10.7,26, -9.4), point UC3 (- 19.5,19.5, -10.6), point UD3 (- 25.2,10.4, -11.3), point UE3 (- 27.4,0, -11), point UF3 (- 25.8, -10.7, -9.8), point UG3 (- 20.2, - 20.2, -8.1), point UQ3 (- 16.8, -23.3, -7.5), point UH3 (- 11, -26.8, -6.7), point UI3 (0, -29.1, -6), point UJ3 (11.1, -26.9, -5.9), point UK3 (20.5, -20.5, -6.2), point UL3 (26.7, -11, -6.6), point UR3 (27.7, - 8, -6.6), point UM3 (28.8,0, -6.6), point UN3 (26.6,11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5,-7.2);
The lower limit discrete point group further include:
Point DA3 (0,26, -10), point DB3 (- 10,24.2, -12.5), point DC3 (- 17.6,17.6, -13), point DD3 (- 23, 9.5, -13.5), point DE3 (- 25.5,0, -12.9), point DF3 (- 25, -10.3, -11.7), point DG3 (- 20, -20, -9.2), point DQ3 (- 15.8, -23.8, -8), point DH3 (- 11, -26.6, -7), point DI3 (0, -29.1, -5.4), point DJ3 (11.1, -27, - 4.8), point DK3 (20.5, -20.5, -5.1), point DL3 (26.7, -11, -5.7), point DR3 (27.1, -9.8, -5.8), point DM3 (28.8,0, -6.2), point DN3 (26.5,11, -6.6), point DO3 (17.8,17.8, -5.8), point DP3 (9.5,23, -7.3).
5. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UQ6 (- 30.7, -42.5, -25.7), point UH6 (- 20.5, -49.5, -23.7), point UI6 (0, -54.8, -21.5), point UJ6 (21.1, -50.9, -20.7), point UK6 (38.4, -38.4, -22.2), point UL6 (49.2, -20.4, -24), point UR6 (51,-14.7,-24.2);
The lower limit discrete point group further include:
Point DQ7 (- 31.7, -47.8, -35.3), point DH7 (- 22.7, -54.8, -32.5), point DI7 (0, -62.1, -27.8), point DJ7 (24.1, -58.2, -26), point DK7 (43.5, -43.5, -28.2), point DL7 (55.2, -22.9, -30.8), point DR7 (56.1,-20.3,-31)。
6. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UQ10 (- 45.1, -62.5, -56.2), point UH10 (- 30.9, -74.6, -52.9), point UI10 (0, -85.5, - 47.1), point UJ10 (33.1, -79.9, -45.6), point UK10 (59.1, -59.1, -49.1), point UL10 (73.7, -30.5, - 53.7), (76, -21.9, -54.4) point UR10;
The lower limit discrete point group further include:
Point DQ9 (- 36.5, -55, -46.5), point DH9 (- 26.5, -64, -44), point DI9 (0, -76.3, -40), point DJ9 (30, - 72.5, -38.7), point DK9 (53.7, -53.7, -42.1), point DL9 (66.9, -27.7, -46.3), point DR9 (67.7, - 24.66,-46.6)。
7. a kind of mold cup cubing according to claim 1, it is characterised in that:
The upper limit discrete point group further include:
Point UQ8 (- 38.3, -53, -40.9), point UH8 (- 25.8, -62.4, -38), point UI8 (0, -70.4, -33.9), point UJ8 (27.2, -65.6, -32.8), point UK8 (49.1, -49.1, -35.2), point UL8 (62.2, -25.7, -38.1), point UR8 (64.3,-18.5,-38.5);
The lower limit discrete point group further include:
Point DQ8 (- 35.1, -52.9, -43.3), point DH8 (- 25.2, -60.8, -40), point DI8 (0, -69.7, -34), point DJ8 (27.1, -65.4, -32.3), point DK8 (48.6, -48.6, -35.2), point DL8 (61.3, -25.3, -38.3), point DR8 (62.1,-22.5,-38.6)。
8. a kind of mold cup cubing according to claim 1, it is characterised in that: the upper limit discrete point group further include:
Point UI11 (0, -88.7, -50), point UJ11 (36, -86.7, -51.9), point UK11 (66, -66, -59.3), point UL11 (79.1, -32.7, -61.8), point UR11 (81.3, -23.4, -62.7);Point UL12 (85.2, -35.3, -71.4), point UR12 (89.4,-25.8,-75.6);
The lower limit discrete point group further include:
Point DJ10 (31.2, -75.3, -41.3), point DK10 (57.6, -57.6, -47.6), point DL10 (74, -30.7, -57.6), Point DR10 (73, -26.5, -55);Point DR11 (75.4, -27.3, -58.7).
9. according to right want 1-8 any one described in a kind of mold cup cubing, it is characterised in that: on the detection faces (61) also Equipped with several test points, range sensor is equipped at the test point.
10. a kind of mold cup, it is characterised in that: including the mold cup cubing as described in any one in claim 1-9, the mold cup On detection faces (61), the spacing between the lateral surface and detection faces (61) of the mold cup is not more than 0.8mm.
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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2503120A1 (en) * 2004-04-20 2005-10-20 Airbus France Three-dimensional measurement system
CN201094013Y (en) * 2007-07-31 2008-07-30 比亚迪股份有限公司 Automobile glass checking tool
CN102494657A (en) * 2011-12-12 2012-06-13 北京建筑工程学院 Measuring head radius compensation method for curve surface profile measuring and detecting
KR101188357B1 (en) * 2011-04-21 2012-10-08 정제교 Method for three dimensional recognition by two dimensional detection of multi projected light with predetermined magnification angle
CN103017701A (en) * 2012-12-06 2013-04-03 山东捷众汽车零部件有限公司 Measuring method and device of three-coordinate according to relative position relationships
CN106553086A (en) * 2016-10-27 2017-04-05 大连理工大学 The complex-curved drilling point law vector measuring method of quick high accuracy

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2503120A1 (en) * 2004-04-20 2005-10-20 Airbus France Three-dimensional measurement system
CN201094013Y (en) * 2007-07-31 2008-07-30 比亚迪股份有限公司 Automobile glass checking tool
KR101188357B1 (en) * 2011-04-21 2012-10-08 정제교 Method for three dimensional recognition by two dimensional detection of multi projected light with predetermined magnification angle
CN102494657A (en) * 2011-12-12 2012-06-13 北京建筑工程学院 Measuring head radius compensation method for curve surface profile measuring and detecting
CN103017701A (en) * 2012-12-06 2013-04-03 山东捷众汽车零部件有限公司 Measuring method and device of three-coordinate according to relative position relationships
CN106553086A (en) * 2016-10-27 2017-04-05 大连理工大学 The complex-curved drilling point law vector measuring method of quick high accuracy

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