CN109443288B - Mould cup examines utensil and mould cup - Google Patents

Mould cup examines utensil and mould cup Download PDF

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Publication number
CN109443288B
CN109443288B CN201811333446.0A CN201811333446A CN109443288B CN 109443288 B CN109443288 B CN 109443288B CN 201811333446 A CN201811333446 A CN 201811333446A CN 109443288 B CN109443288 B CN 109443288B
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China
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point
dot
upper limit
lower limit
curved surface
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CN201811333446.0A
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CN109443288A (en
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黄嘉敏
梁捷敏
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Guangdong Sunny Underwear Group Co ltd
Guangdong Xinyi Underwear Technology Co ltd
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Guangdong Sunny 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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    • 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 application discloses a mold cup checking fixture and a mold cup, wherein a detection surface is arranged on the mold cup checking fixture, and falls between an upper limit curved surface and a lower limit curved surface; the boundaries of the upper limit curved surface and the lower limit curved surface are determined by edge curves; the shapes of the upper limit curved surface and the lower limit curved surface are determined through the edge points and the discrete points, the shape of the detection surface is determined in the same mode as that of the detected mold cup, namely, the detection surface is determined in a mode that the ratio of a series of distances between the corresponding points of the upper limit curved surface and the lower limit curved surface is a certain value, and the precision of using the mold cup detection tool can be ensured; when the mold cup checking fixture is used, the outer side face of the corresponding mold cup is placed on the mold cup checking fixture, and the distance between the mold cup checking fixture and the mold cup is observed to determine whether the mold cup meets the requirements. The application relates to the field of underwear, in particular to a mold cup checking fixture and a mold cup.

Description

Mould cup examines utensil and mould cup
Technical Field
The application relates to the field of underwear, in particular to a mold cup checking fixture and a mold cup.
Background
The bra is also called bra, and is the last underwear for women. The chest of a woman is mostly adipose tissue, with some ligaments and skin providing internal lifting, but these lifting are sometimes inadequate to lift the chest (especially for elderly women) or not allow the chest to move, thus causing pain and discomfort. The bra has the function of shaping the bra, the mold cup is used as the main component of female underwear such as the bra, and the shape of the bra has great influence on the comfort level and the air permeability of lifting.
Most of the existing production mold cups are in a hot pressing mode, and quality inspection is required to be carried out on finished mold cups in the production process so as to ensure the stability of the quality of the mold cups. In the conventional inspection method, since the shape of the mold cup is a specific curved surface, it is difficult for a general size detection means to detect whether the shape of the mold cup meets the standard.
Disclosure of Invention
The application aims to solve the technical problems that: the mold cup checking fixture can be used for rapidly detecting whether the shape of the mold cup meets the requirements.
The application solves the technical problems as follows:
the mold cup checking fixture comprises a base, wherein a detection surface is arranged on the upper side of the base, and falls between or coincides with an upper limit curved surface and a lower limit curved surface; the base is made of transparent material; the upper limit curved surface comprises an upper limit upper edge, an upper limit lower edge, an upper limit left edge, an upper limit right edge and an upper limit discrete point group, wherein the upper limit upper edge, the upper limit lower edge, the upper limit left edge and the upper limit right edge determine the boundary of the upper limit curved surface, and the upper limit discrete point group determines the shape of the upper limit curved surface; the lower limit curved surface comprises a lower limit upper edge, a lower limit lower edge, a lower limit left edge, a lower limit right edge and a lower limit discrete point group, wherein the lower limit upper edge, the lower limit lower edge, the lower limit left edge and the lower limit right edge determine the boundary of the lower limit curved surface, and the lower limit discrete point group determines the shape of the lower limit curved surface; the upper limit curved surface and the lower limit curved surface are both positioned in a space coordinate system, the space coordinate system comprises a coordinate origin O, X axis, a Y axis and a Z axis, the projection of the upper limit curved surface on an XY plane is taken as an upper limit projection, the projection of the lower limit curved surface on the XY plane is taken as a lower limit projection, the included angles between the projection of the upper limit left edge and the lower limit left edge on the XY plane and the Y axis are both 9 degrees, the included angles between the projection of the upper limit right edge and the lower limit right edge on the XY plane and the Y axis are both 62 degrees, the upper limit left edge and the upper limit right edge are tangential with the upper limit upper edge, and the lower limit left edge and the lower limit right edge are tangential with the lower limit lower edge; the XY plane is provided with an interval circle group, the interval circle group comprises a plurality of concentric circles which take the origin of coordinates as the center of a circle, the radius of the smallest concentric circle is 1cm, and every two adjacent concentric circles are separated by 1cm; the XY plane is also provided with a ray group, the ray group comprises a plurality of rays which take the origin of coordinates as a ray starting point, one of the rays is overlapped with the Y axis, and every two adjacent rays are separated by 22.5 degrees; the projection of the interval circle group on the upper limit curved surface is an upper limit projection circle group, the projection of the ray group on the upper limit curved surface is an upper limit projection ray group, and the intersection point of the upper limit projection circle group and the upper limit projection ray is an upper limit discrete point group; the projection of the interval circle group on the lower limit curved surface is a lower limit projection circle group, the projection of the ray group on the lower limit curved surface is a lower limit projection ray group, and the intersection point of the lower limit projection circle group and the lower limit projection ray is a lower limit discrete point group; the upper edge of the upper limit is formed by fitting a point UO4 (24.8,24.8, -10.8), a point UP4 (13.4,32.3, -11.3), a point UA4 (0,35, -12.5), a point UB4 (-13.3,32.3, -14.4), a point UC4 (-24.7,24.7, -16.7) and a point UD4 (-32.3,13.4, -18.4); the upper left edge is fitted by points UD4 (-32.3,13.4, -18.4), UE4 (-35.3,0, -18.3), UF5 (-37.8, -15.6, -21.3), UG7 (-42, -42, -37), UQ10 (-45.1, -62.5, -56.2); the upper and lower edges are fitted by points UQ10 (-45.1, -62.5, -56.2), UH10 (-30.9, -74.6, -52.9), UI11 (0, -88.7, -50), UJ11 (36, -86.7, -51.9), UK11 (66, -66, -59.3), UL12 (85.2, -35.3, -71.4), UR12 (89.4, -25.8, -75.6); the upper right edge is formed by fitting points UR12 (89.4, -25.8, -75.6), UM7 (56.5,0, -28.2), UN5 (37,15.3, -14.2) and UO4 (24.8,24.8, -10.8);
the upper limit discrete point group further includes: 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, -2.7.7), point UJ2 (3.972.3.3); 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), 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 (69, -10.8), point UP4 (43.983). 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 is formed by fitting a point DO3 (17.8,17.8, -5.8), a point DP3 (9.5,23, -7.3), a point DA3 (0,26, -10), a point DB3 (-10,24.2, -12.5), a DC3 (-17.6,17.6, -13) and a point DD3 (-23,9.5, -13.5); the lower left edge is formed by fitting points DD3 (-23,9.5, -13.5), points DE3 (-25.5,0, -12.9), points DF4 (-27.8, -11.5, -14.4), points DG5 (-31.9, -31.9, -25) and points DQ9 (-36.5, -55, -46.5); the lower edge is fitted by points DQ9 (-36.5, -55, -46.5), DH9 (-26.5, -64, -44), DI9 (0, -76.3, -40), DJ10 (31.2, -75.3, -41.3), DK10 (57.6, -57.6, -47.6), DL10 (74, -30.7, -57.6), DR11 (75.4, -27.3, -58.7); the lower right edge is formed by fitting a point DR11 (75.4, -27.3, -58.7), a point DM4 (40.5,0, -13.7), a point DN3 (26.5,11, -6.6) and a point DO3 (17.8,17.8, -5.8);
the lower limit discrete point group further includes:
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 2 (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); dot DQ6 (-28.2, -42.5, -27.6), dot DH6 (-20, -48.5, -25.2), dot DI6 (0, -54.4, -21.5), dot DJ6 (21, -50.8, -20), dot DK6 (38.2, -38.2, -21.6), dot DL6 (48.8, -20.2, -23.6), dot DR6 (49.6, -18, -23.8);
the upper limit curved surface, the lower limit curved surface and the detection surface are uniformly distributed with the same number of nodes, the ratio of the distances from each node on the detection surface to each corresponding node on the upper limit curved surface to each corresponding node on the lower limit curved surface is taken as a standard ratio, each detection surface corresponds to a unique standard ratio, and the ratio of the distances from each node on the detection surface to each corresponding node on the upper limit curved surface to each corresponding node on the lower limit curved surface is between 0.95 times of the standard ratio and 1.05 times of the standard ratio.
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 (0.7, -6, -9.7), point UJ1 (3.8, -3.7), point UJ1 (3.35, -3.7), point UJ1 (3.7, -3.3), point UJ1 (3.7, -3, point UJ1 (6, -6.7, 35.7); the lower limit discrete point group further includes: dot DA1 (0,9.8, -1.8), dot DB1 (-3.7,8.9, -2.4), dot DC1 (-6.8,6.8, -2.8), dot DD1 (-8.8,3.6, -2.8), dot DE1 (-9.6,0, -2.5), dot DF1 (-9, -3.7, -2), dot DG1 (-7, -7, -1.4), dot DQ1 (-5.5, -8.2, -1), dot DH1 (-3.8, -9.2, -0.7), dot DI1 (0, -10, -0.15), dot DJ1 (3.8, -9.2,0.2), dot DK1 (7, -7,0.3), dot DL1 (9.2, -3.8,0.2), dot DR1 (9.4, -3.4,0.2), dot DR11 (75.4, -27.3, -58.7), dot DM1 (10,0,0.1), dot DN1 (9.2,3.8, -0.2), dot DO1 (7, -0.8), dot DP1 (3.8,9.1, -1.2).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 includes: dot DG5 (-31.9, -31.9, -25), dot DQ5 (-24.5, -36.9, -20.2), dot DH5 (-17.3, -41.8, -18.3), dot DI5 (0, -46.4, -15.5), dot DJ5 (17.9, -43, -14.4), dot DK5 (32.6, -32.6, -15.4), dot DL5 (41.9, -17.3, -17), dot DR5 (42.6, -15.4, -17.1).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 UG3 (28.8,0, -6.6), point UN3 (26.6,11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5.8582). The lower limit discrete point group further includes: dot DA3 (0,26, -10), dot DB3 (-10,24.2, -12.5), dot DC3 (-17.6,17.6, -13), dot DD3 (-23,9.5, -13.5), dot DE3 (-25.5,0, -12.9), dot DF3 (-25, -10.3, -11.7), dot DG3 (-20, -20, -9.2), dot DQ3 (-15.8, -23.8, -8), dot DH3 (-11, -26.6, -7), dot DI3 (0, -29.1, -5.4), dot DJ3 (11.1, -27, -4.8), dot DK3 (20.5, -20.5, -5.1), dot DL3 (26.7, -11, -5.7), dot DR3 (27.1, -9.8, -5.8), dot DM3 (28.8,0, -6.2), dot DN3 (26.5,11, -6.6), dot DO3 (17.8,17.8, -5.8), dot DP3 (9.5,23, -7.3).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 includes: points DQ7 (-31.7, -47.8, -35.3), DH7 (-22.7, -54.8, -32.5), DI7 (0, -62.1, -27.8), DJ7 (24.1, -58.2, -26), DK7 (43.5, -43.5, -28.2), DL7 (55.2, -22.9, -30.8), DR7 (56.1, -20.3, -31).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 includes: dot DQ9 (-36.5, -55, -46.5), dot DH9 (-26.5, -64, -44), dot DI9 (0, -76.3, -40), dot DJ9 (30, -72.5, -38.7), dot DK9 (53.7, -53.7, -42.1), dot DL9 (66.9, -27.7, -46.3), dot DR9 (67.7, -24.66, -46.6).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 includes: points DQ8 (-35.1, -52.9, -43.3), DH8 (-25.2, -60.8, -40), DI8 (0, -69.7, -34), DJ8 (27.1, -65.4, -32.3), DK8 (48.6, -48.6, -35.2), DL8 (61.3, -25.3, -38.3), DR8 (62.1, -22.5, -38.6).
As a further improvement of the above technical solution, the upper limit discrete point group further includes: 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 includes: 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 technical scheme, a plurality of detection points are further arranged on the detection surface, and distance sensors are arranged at the detection points.
The mold cup comprises the mold cup checking fixture in any one of the technical schemes, wherein the mold cup is positioned on the detection surface, and the distance between the outer side surface of the mold cup and the detection surface is not more than 0.8mm.
The beneficial effects of the application are as follows: the utility model provides a mould cup examines utensil, the detection surface on this mould cup examine utensil passes through the determination of upper limit curved surface, lower limit curved surface, and the shape of the curved surface that needs to detect on the corresponding mould cup confirms the mode the same to the precision is higher when this mould cup examines utensil and detects corresponding mould cup, only needs to place the mould cup on the detection surface when using this mould cup examine utensil, detects the clearance between mould cup and the detection surface, can confirm whether the shape of mould cup accords with the requirement, and does not need to go through complicated three-dimensional appearance mode of getting the point and confirm.
The application relates to the field of underwear, in particular to a mold cup checking fixture and a mold cup.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the application, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.
FIG. 1 is a front cross-sectional view of an embodiment of the present application;
FIG. 2 is a schematic view of projection lines of an upper limit curved surface, a lower limit curved surface and an outer side surface according to an embodiment of the present application;
FIG. 3 is a schematic view of an upper curved surface and a lower curved surface according to an embodiment of the present application;
FIG. 4 is a projection view of the XY plane of the upper limit curved surface according to an embodiment of the present application;
fig. 5 is a projection view of the XY plane of the lower limit curved surface according to the embodiment of the present application.
Detailed Description
The conception, specific structure, and technical effects produced by the present application will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present application. It is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present application based on the embodiments of the present application. In addition, all connections or connection relationships mentioned herein do not refer to direct connection of the components, but rather to the fact that, depending on the particular implementation, a better connection structure may be formed by adding or subtracting connection aids. The technical features of the application can be interactively combined on the premise of no contradiction and conflict.
For example, referring to fig. 1 to 5, a mold cup checking fixture includes a base 6, a detection surface 61 is provided on an upper side of the base 6, and the detection surface 61 falls between an upper limit curved surface 1 and a lower limit curved surface 2 or coincides with the upper limit curved surface 1 or the lower limit curved surface 2; the base 6 is made of a transparent material; the upper limit curved surface 1 comprises an upper limit upper edge 11, an upper limit lower edge 13, an upper limit left edge 12, an upper limit right edge 14 and an upper limit discrete point group, wherein the upper limit upper edge 11, the upper limit lower edge 13, the upper limit left edge 12 and the upper limit right edge 14 determine the boundary of the upper limit curved surface 1, and the upper limit discrete point group determines the shape of the upper limit curved surface 1; the lower limit curved surface 2 comprises a lower limit upper edge 21, a lower limit lower edge 23, a lower limit left edge 22, a lower limit right edge 24 and a lower limit discrete point group, wherein the lower limit upper edge 21, the lower limit lower edge 23, the lower limit left edge 22 and the lower limit right edge 24 determine the boundary of the lower limit curved surface 2, and the lower limit discrete point group determines the shape of the lower limit curved surface 2; the upper limit curved surface 1 and the lower limit curved surface 2 are both positioned in a space coordinate system, the space coordinate system comprises a coordinate origin O, X axis, a Y axis and a Z axis, the projection of the upper limit curved surface 1 on an XY plane is taken as an upper limit projection, the projection of the lower limit curved surface 2 on the XY plane is taken as a lower limit projection, the included angles between the projection of the upper limit left edge 12 and the lower limit left edge 22 on the XY plane and the Y axis are both 9 degrees, the included angles between the projection of the upper limit right edge 14 and the lower limit right edge 24 on the XY plane and the Y axis are both 62 degrees, the upper limit left edge 12 and the upper limit right edge 14 are tangent to the upper limit upper edge 11, and the lower limit left edge 22 and the lower limit right edge 24 are tangent to the lower limit lower edge 23; the XY plane is provided with an interval circle group, the interval circle group comprises a plurality of concentric circles which take the origin of coordinates as the center of a circle, the radius of the smallest concentric circle is 1cm, and every two adjacent concentric circles are separated by 1cm; the XY plane is also provided with a ray group, the ray group comprises a plurality of rays which take the origin of coordinates as a ray starting point, one of the rays is overlapped with the Y axis, and every two adjacent rays are separated by 22.5 degrees; the projection of the interval circle group on the upper limit curved surface 1 is an upper limit projection circle group, the projection of the ray group on the upper limit curved surface 1 is an upper limit projection ray group, and the intersection point of the upper limit projection circle group and the upper limit projection ray is an upper limit discrete point group; the projection of the interval circle group on the lower limit curved surface 2 is a lower limit projection circle group, the projection of the ray group on the lower limit curved surface 2 is a lower limit projection ray group, and the intersection point of the lower limit projection circle group and the lower limit projection ray is a lower limit discrete point group;
the upper limit upper edge 11 is formed by fitting a point UO4 (24.8,24.8, -10.8), a point UP4 (13.4,32.3, -11.3), a point UA4 (0,35, -12.5), a point UB4 (-13.3,32.3, -14.4), a point UC4 (-24.7,24.7, -16.7) and a point UD4 (-32.3,13.4, -18.4); the upper left edge 12 is formed by fitting points UD4 (-32.3,13.4, -18.4), UE4 (-35.3,0, -18.3), UF5 (-37.8, -15.6, -21.3), UG7 (-42, -42, -37) and UQ10 (-45.1, -62.5, -56.2); the upper limit lower edge 13 is formed by fitting a point UQ10 (-45.1, -62.5, -56.2), a point UH10 (-30.9, -74.6, -52.9), a point UI11 (0, -88.7, -50), a point UJ11 (36, -86.7, -51.9), a point UK11 (66, -66, -59.3), a point UL12 (85.2, -35.3, -71.4) and a point UR12 (89.4, -25.8, -75.6); the upper right edge 14 is formed by fitting points UR12 (89.4, -25.8, -75.6), UM7 (56.5,0, -28.2), UN5 (37,15.3, -14.2) and UO4 (24.8,24.8, -10.8);
the upper limit discrete point group further includes:
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, -2.7.7), point UJ2 (3.972.3.3);
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 is formed by fitting a point DO3 (17.8,17.8, -5.8), a point DP3 (9.5,23, -7.3), a point DA3 (0,26, -10), a point DB3 (-10,24.2, -12.5), a DC3 (-17.6,17.6, -13) and a point DD3 (-23,9.5, -13.5); the lower left edge 22 is formed by fitting points DD3 (-23,9.5, -13.5), points DE3 (-25.5,0, -12.9), points DF4 (-27.8, -11.5, -14.4), points DG5 (-31.9, -31.9, -25) and points DQ9 (-36.5, -55, -46.5); the lower edge 23 is fitted by points DQ9 (-36.5, -55, -46.5), DH9 (-26.5, -64, -44), DI9 (0, -76.3, -40), DJ10 (31.2, -75.3, -41.3), DK10 (57.6, -57.6, -47.6), DL10 (74, -30.7, -57.6), DR11 (75.4, -27.3, -58.7); the lower right edge 24 is formed by fitting a point DR11 (75.4, -27.3, -58.7), a point DM4 (40.5,0, -13.7), a point DN3 (26.5,11, -6.6) and a point DO3 (17.8,17.8, -5.8); the lower limit discrete point group further includes: 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 2 (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); dot DQ6 (-28.2, -42.5, -27.6), dot DH6 (-20, -48.5, -25.2), dot DI6 (0, -54.4, -21.5), dot DJ6 (21, -50.8, -20), dot DK6 (38.2, -38.2, -21.6), dot DL6 (48.8, -20.2, -23.6), dot DR6 (49.6, -18, -23.8); the upper limit curved surface 1, the lower limit curved surface 2 and the detection surface 61 are uniformly distributed with the same number of nodes, the ratio of the distances from each node on the detection surface 61 to each corresponding node on the upper limit curved surface 1 to each corresponding node on the lower limit curved surface 2 is taken as a standard ratio, each detection surface 61 corresponds to a unique standard ratio, and the ratio of the distances from each node on the detection surface 61 to each corresponding node on the upper limit curved surface 1 to each corresponding node on the lower limit curved surface 2 is between 0.95 times of the standard ratio and 1.05 times of the standard ratio.
The application detects the outer side surface of the mold cup because the outer side surface of the mold cup is connected with the cloth of the bra when the mold cup is actually used, the force for actually supporting the mold cup is firstly transmitted to a human body from the outer side surface of the mold cup through the hanging strip on the bra, and the influence of the outer side surface of the mold cup on the supporting function of the mold cup is main rather than the inner side surface, thereby overcoming the prejudice that the inner side surface of the mold cup is mainly supporting in the prior art.
Specifically, the detected mold cup is determined in a row by firstly determining an upper limit curved surface and a lower limit curved surface, and then determining a certain value by enabling the ratio of the distance from a point on the outer side surface of the mold cup to the upper limit curved surface and the lower limit curved surface to be a certain value, wherein the certain value is different according to different outer side surfaces; the detection surface on the mold cup detection tool is the same as the shape determination mode of the curved surface to be detected on the corresponding mold cup, so that the mold cup detection tool has higher precision in detecting the corresponding mold cup, and the mold cup detection tool can be used for determining whether the shape of the mold cup meets the requirements or not by only placing the mold cup on the detection surface and detecting the gap between the mold cup and the detection surface. More preferably, the base is made of transparent material or a plurality of detection points are arranged on a detection surface of the base, the detection points are provided with distance sensors which are arranged along the normal direction of the detection surface, the distance sensors can be grating distance sensors, laser distance sensors and ultrasonic distance sensors, and the distance between the detected mold cup and the detection surface can be measured through the distance sensors.
Further, the upper limit discrete point group further includes: 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 (0.7, -6, -9.7), point UJ1 (3.8, -3.7), point UJ1 (3.35, -3.7), point UJ1 (3.7, -3.3), point UJ1 (3.7, -3, point UJ1 (6, -6.7, 35.7);
the lower limit discrete point group further includes: dot DA1 (0,9.8, -1.8), dot DB1 (-3.7,8.9, -2.4), dot DC1 (-6.8,6.8, -2.8), dot DD1 (-8.8,3.6, -2.8), dot DE1 (-9.6,0, -2.5), dot DF1 (-9, -3.7, -2), dot DG1 (-7, -7, -1.4), dot DQ1 (-5.5, -8.2, -1), dot DH1 (-3.8, -9.2, -0.7), dot DI1 (0, -10, -0.15), dot DJ1 (3.8, -9.2,0.2), dot DK1 (7, -7,0.3), dot DL1 (9.2, -3.8,0.2), dot DR1 (9.4, -3.4,0.2), dot DR11 (75.4, -27.3, -58.7), dot DM1 (10,0,0.1), dot DN1 (9.2,3.8, -0.2), dot DO1 (7, -0.8), dot DP1 (3.8,9.1, -1.2).
Further, the upper limit discrete point group further includes: 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 includes: dot DG5 (-31.9, -31.9, -25), dot DQ5 (-24.5, -36.9, -20.2), dot DH5 (-17.3, -41.8, -18.3), dot DI5 (0, -46.4, -15.5), dot DJ5 (17.9, -43, -14.4), dot DK5 (32.6, -32.6, -15.4), dot DL5 (41.9, -17.3, -17), dot DR5 (42.6, -15.4, -17.1).
Further, the upper limit discrete point group further includes: 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 UG3 (28.8,0, -6.6), point UN3 (26.6,11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5.8582).
The lower limit discrete point group further includes: dot DA3 (0,26, -10), dot DB3 (-10,24.2, -12.5), dot DC3 (-17.6,17.6, -13), dot DD3 (-23,9.5, -13.5), dot DE3 (-25.5,0, -12.9), dot DF3 (-25, -10.3, -11.7), dot DG3 (-20, -20, -9.2), dot DQ3 (-15.8, -23.8, -8), dot DH3 (-11, -26.6, -7), dot DI3 (0, -29.1, -5.4), dot DJ3 (11.1, -27, -4.8), dot DK3 (20.5, -20.5, -5.1), dot DL3 (26.7, -11, -5.7), dot DR3 (27.1, -9.8, -5.8), dot DM3 (28.8,0, -6.2), dot DN3 (26.5,11, -6.6), dot DO3 (17.8,17.8, -5.8), dot DP3 (9.5,23, -7.3).
Further, the upper limit discrete point group further includes: 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 includes: points DQ7 (-31.7, -47.8, -35.3), DH7 (-22.7, -54.8, -32.5), DI7 (0, -62.1, -27.8), DJ7 (24.1, -58.2, -26), DK7 (43.5, -43.5, -28.2), DL7 (55.2, -22.9, -30.8), DR7 (56.1, -20.3, -31).
Further, the upper limit discrete point group further includes: 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 includes: dot DQ9 (-36.5, -55, -46.5), dot DH9 (-26.5, -64, -44), dot DI9 (0, -76.3, -40), dot DJ9 (30, -72.5, -38.7), dot DK9 (53.7, -53.7, -42.1), dot DL9 (66.9, -27.7, -46.3), dot DR9 (67.7, -24.66, -46.6).
Further, the upper limit discrete point group further includes: 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 includes: points DQ8 (-35.1, -52.9, -43.3), DH8 (-25.2, -60.8, -40), DI8 (0, -69.7, -34), DJ8 (27.1, -65.4, -32.3), DK8 (48.6, -48.6, -35.2), DL8 (61.3, -25.3, -38.3), DR8 (62.1, -22.5, -38.6).
Further, the upper limit discrete point group further includes: 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 includes: 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, the detection surface 61 is further provided with a plurality of detection points, and the detection points are provided with distance sensors.
A mold cup comprises the mold cup checking fixture in any embodiment, wherein the mold cup is positioned on a detection surface 61, and the distance between the outer side surface of the mold cup and the detection surface 61 is not more than 0.8mm. The spacing value is the lowest level and the grade when being within 0.8mm, the spacing value is the second level and the grade when being within 0.6mm, and the spacing value is the third level and the grade when being within 0.4 mm. The smaller the distance value is, the higher the level is, so that the corresponding mold cup is better attached to the body, and the upper body effect is better. When the gauge is used, the outer side face of the detected die cup is placed on the detection face, and when the distance value is detected, the distance value between the die cup at the origin of coordinates and the gauge is preferentially detected. When detecting the distance value between the die cup and the gauge at the origin of coordinates, the outer side surface of the die cup is adhered to the gauge from outside to inside.
While the preferred embodiment of the present application has been described in detail, the present application is not limited to the embodiments described above, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the present application, and these equivalent modifications and substitutions are intended to be included in the scope of the present application as defined in the appended claims.

Claims (8)

1. Mould cup examines utensil, includes base (6), its characterized in that: a detection surface (61) is arranged on the upper side of the base (6), and the detection surface (61) falls between the upper limit curved surface (1) and the lower limit curved surface (2) or is overlapped with the upper limit curved surface (1) or the lower limit curved surface (2); the base (6) is made of a transparent material;
the upper limit curved surface (1) comprises an upper limit upper edge (11), an upper limit lower edge (13), an upper limit left edge (12), an upper limit right edge (14) and an upper limit discrete point group, wherein the upper limit upper edge (11), the upper limit lower edge (13), the upper limit left edge (12) and the upper limit right edge (14) determine the boundary of the upper limit curved surface (1), and the upper limit discrete point group determines the shape of the upper limit curved surface (1);
the lower limit curved surface (2) comprises a lower limit upper edge (21), a lower limit lower edge (23), a lower limit left edge (22), a lower limit right edge (24) and a lower limit discrete point group, wherein the lower limit upper edge (21), the lower limit lower edge (23), the lower limit left edge (22) and the lower limit right edge (24) determine the boundary of the lower limit curved surface (2), and the lower limit discrete point group determines the shape of the lower limit curved surface (2);
the upper limit curved surface (1) and the lower limit curved surface (2) are both positioned in a space coordinate system, the space coordinate system comprises a coordinate origin O, X axis, a Y axis and a Z axis, the projection of the upper limit curved surface (1) on an XY plane is taken as an upper limit projection, the projection of the lower limit curved surface (2) on the XY plane is taken as a lower limit projection, the included angles between the projections of the upper limit left edge (12) and the lower limit left edge (22) on the XY plane and the Y axis are both 9 degrees, the included angles between the projections of the upper limit right edge (14) and the lower limit right edge (24) on the XY plane and the Y axis are both 62 degrees, and the upper limit left edge (12) and the upper limit right edge (14) are tangential to the upper limit upper edge (11), and the lower limit left edge (22) and the lower limit right edge (24) are tangential to the lower limit lower edge (23);
the XY plane is provided with an interval circle group, the interval circle group comprises a plurality of concentric circles which take the origin of coordinates as the center of a circle, the radius of the smallest concentric circle is 1cm, and every two adjacent concentric circles are separated by 1cm; the XY plane is also provided with a ray group, the ray group comprises a plurality of rays which take the origin of coordinates as a ray starting point, one of the rays is overlapped with the Y axis, and every two adjacent rays are separated by 22.5 degrees; the projection of the interval circle group on the upper limit curved surface (1) is an upper limit projection circle group, the projection of the ray group on the upper limit curved surface (1) is an upper limit projection ray group, and the intersection point of the upper limit projection circle group and the upper limit projection ray is an upper limit discrete point group; the projection of the interval circle group on the lower limit curved surface (2) is a lower limit projection circle group, the projection of the ray group on the lower limit curved surface (2) is a lower limit projection ray group, and the intersection point of the lower limit projection circle group and the lower limit projection ray is a lower limit discrete point group;
the upper limit upper edge (11) is formed by fitting a point UO4 (24.8,24.8-10.8), a point UP4 (13.4,32.3-11.3), a point UA4 (0,35-12.5), a point UB4 (-13.3,32.3-14.4), a point UC4 (-24.7,24.7-16.7) and a point UD4 (-32.3,13.4-18.4);
the upper left edge (12) is formed by fitting points UD4 (-32.3,13.4, -18.4), UE4 (-35.3,0, -18.3), UF5 (-37.8, -15.6, -21.3), UG7 (-42, -42, -37) and UQ10 (-45.1, -62.5, -56.2);
the upper limit lower edge (13) is formed by fitting a point UQ10 (-45.1, -62.5, -56.2), a point UH10 (-30.9, -74.6, -52.9), a point UI11 (0, -88.7, -50), a point UJ11 (36, -86.7, -51.9), a point UK11 (66, -66, -59.3), a point UL12 (85.2, -35.3, -71.4) and a point UR12 (89.4, -25.8, -75.6);
the upper right edge (14) is formed by fitting points UR12 (89.4-25.8-75.6), UM7 (56.5,0-28.2), UN5 (37,15.3-14.2) and UO4 (24.8,24.8-10.8);
the upper limit discrete point group further includes:
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, -2.7.7), point UJ2 (3.972.3.3);
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);
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 (0.7, -6, -9.7), point UJ1 (3.8, -3.7), point UJ1 (3.35, -3.7), point UJ1 (3.7, -3.3), point UJ1 (3.7, -3, point UJ1 (6, -6.7, 35.7);
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 upper edge (21) is formed by fitting a point DO3 (17.8,17.8-5.8), a point DP3 (9.5,23-7.3), a point DA3 (0,26-10), a point DB3 (-10,24.2-12.5), a DC3 (-17.6,17.6-13) and a point DD3 (-23,9.5-13.5);
the lower left edge (22) is formed by fitting points DD3 (-23,9.5, -13.5), points DE3 (-25.5,0, -12.9), points DF4 (-27.8, -11.5, -14.4), points DG5 (-31.9, -31.9, -25) and points DQ9 (-36.5, -55, -46.5);
the lower edge (23) is fitted by points DQ9 (-36.5, -55, -46.5), DH9 (-26.5, -64, -44), DI9 (0, -76.3, -40), DJ10 (31.2, -75.3, -41.3), DK10 (57.6, -57.6, -47.6), DL10 (74, -30.7, -57.6), DR11 (75.4, -27.3, -58.7);
the lower right edge (24) is formed by fitting a point DR11 (75.4, -27.3, -58.7), a point DM4 (40.5,0, -13.7), a point DN3 (26.5,11, -6.6) and a point DO3 (17.8,17.8, -5.8);
the lower limit discrete point group further includes:
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 2 (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);
dot DQ6 (-28.2, -42.5, -27.6), dot DH6 (-20, -48.5, -25.2), dot DI6 (0, -54.4, -21.5), dot DJ6 (21, -50.8, -20), dot DK6 (38.2, -38.2, -21.6), dot DL6 (48.8, -20.2, -23.6), dot DR6 (49.6, -18, -23.8);
dot DA1 (0,9.8, -1.8), dot DB1 (-3.7,8.9, -2.4), dot DC1 (-6.8,6.8, -2.8), dot DD1 (-8.8,3.6, -2.8), dot DE1 (-9.6,0, -2.5), dot DF1 (-9, -3.7, -2), dot DG1 (-7, -7, -1.4), dot DQ1 (-5.5, -8.2, -1), dot DH1 (-3.8, -9.2, -0.7), dot DI1 (0, -10, -0.15), dot DJ1 (3.8, -9.2,0.2), dot DK1 (7, -7,0.3), dot DL1 (9.2, -3.8,0.2), dot DR1 (9.4, -3.4,0.2), dot DR11 (75.4, -27.3, -58.7), dot DM1 (10,0,0.1), dot DN1 (9.2,3.8, -0.2), dot DO1 (7, -0.6), dot DI1 (0, -10, -0.15), dot DJ1 (3.8, -3.8,9.1, -1.2);
dot DG5 (-31.9, -31.9, -25), dot DQ5 (-24.5, -36.9, -20.2), dot DH5 (-17.3, -41.8, -18.3), dot DI5 (0, -46.4, -15.5), dot DJ5 (17.9, -43, -14.4), dot DK5 (32.6, -32.6, -15.4), dot DL5 (41.9, -17.3, -17), dot DR5 (42.6, -15.4, -17.1);
the upper limit curved surface (1), the lower limit curved surface (2) and the detection surface (61) are uniformly distributed with the same number of nodes, the ratio of the distances from each node on the detection surface (61) to each corresponding node on the upper limit curved surface (1) to each corresponding node on the lower limit curved surface (2) is taken as a standard ratio, each detection surface (61) corresponds to a unique standard ratio, and the ratio of the distances from each node on the detection surface (61) to each corresponding node on the upper limit curved surface (1) to each corresponding node on the lower limit curved surface (2) is between 0.95 times of the standard ratio and 1.05 times of the standard ratio.
2. The mold cup gauge according to claim 1, wherein:
the upper limit discrete point group further includes:
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 UG3 (28.8,0, -6.6), point UN3 (26.6,11, -6.6), point UO3 (20.4,20.4, -6.8), point UP3 (11,26.5.8582).
The lower limit discrete point group further includes:
dot DA3 (0,26, -10), dot DB3 (-10,24.2, -12.5), dot DC3 (-17.6,17.6, -13), dot DD3 (-23,9.5, -13.5), dot DE3 (-25.5,0, -12.9), dot DF3 (-25, -10.3, -11.7), dot DG3 (-20, -20, -9.2), dot DQ3 (-15.8, -23.8, -8), dot DH3 (-11, -26.6, -7), dot DI3 (0, -29.1, -5.4), dot DJ3 (11.1, -27, -4.8), dot DK3 (20.5, -20.5, -5.1), dot DL3 (26.7, -11, -5.7), dot DR3 (27.1, -9.8, -5.8), dot DM3 (28.8,0, -6.2), dot DN3 (26.5,11, -6.6), dot DO3 (17.8,17.8, -5.8), dot DP3 (9.5,23, -7.3).
3. The mold cup gauge according to claim 1, wherein:
the upper limit discrete point group further includes:
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 includes:
points DQ7 (-31.7, -47.8, -35.3), DH7 (-22.7, -54.8, -32.5), DI7 (0, -62.1, -27.8), DJ7 (24.1, -58.2, -26), DK7 (43.5, -43.5, -28.2), DL7 (55.2, -22.9, -30.8), DR7 (56.1, -20.3, -31).
4. The mold cup gauge according to claim 1, wherein:
the upper limit discrete point group further includes:
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 includes:
dot DQ9 (-36.5, -55, -46.5), dot DH9 (-26.5, -64, -44), dot DI9 (0, -76.3, -40), dot DJ9 (30, -72.5, -38.7), dot DK9 (53.7, -53.7, -42.1), dot DL9 (66.9, -27.7, -46.3), dot DR9 (67.7, -24.66, -46.6).
5. The mold cup gauge according to claim 1, wherein:
the upper limit discrete point group further includes:
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 includes:
points DQ8 (-35.1, -52.9, -43.3), DH8 (-25.2, -60.8, -40), DI8 (0, -69.7, -34), DJ8 (27.1, -65.4, -32.3), DK8 (48.6, -48.6, -35.2), DL8 (61.3, -25.3, -38.3), DR8 (62.1, -22.5, -38.6).
6. The mold cup gauge according to claim 1, wherein: the upper limit discrete point group further includes:
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 includes:
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).
7. A mold cup gauge according to any one of claims 1-6, wherein: the detection surface (61) is also provided with a plurality of detection points, and the detection points are provided with distance sensors.
8. A mold cup, characterized in that: mould cup inspection tool comprising any one of claims 1-7, wherein the mould cup is positioned on the detection surface (61), and the distance between the outer side surface of the mould cup and the detection surface (61) is not more than 0.8mm.
CN201811333446.0A 2018-11-09 2018-11-09 Mould cup examines utensil and mould cup Active CN109443288B (en)

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Citations (6)

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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
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