WO2021143195A1 - 缸盖燃烧室高度自动测量装置 - Google Patents

缸盖燃烧室高度自动测量装置 Download PDF

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Publication number
WO2021143195A1
WO2021143195A1 PCT/CN2020/117272 CN2020117272W WO2021143195A1 WO 2021143195 A1 WO2021143195 A1 WO 2021143195A1 CN 2020117272 W CN2020117272 W CN 2020117272W WO 2021143195 A1 WO2021143195 A1 WO 2021143195A1
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WIPO (PCT)
Prior art keywords
power source
cylinder head
tooling base
lifting
combustion chamber
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PCT/CN2020/117272
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English (en)
French (fr)
Inventor
曾稳平
胡锋
董磊
冯波
任小龙
陈聪猛
葛伟
余秀微
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温州瑞明工业股份有限公司
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Publication of WO2021143195A1 publication Critical patent/WO2021143195A1/zh

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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
    • G01B21/02Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness

Definitions

  • the invention relates to a height measuring device, in particular to a measuring device for the height of a cylinder head combustion chamber.
  • the height dimension of the cylinder head combustion chamber is the key characteristic dimension on the cylinder head, which can directly affect the performance of the automobile engine. As an important dimension, it needs to be 100% tested to ensure that all products provided to customers are qualified products.
  • the traditional method of detecting the height of the cylinder head combustion chamber is to use a coordinate measuring machine for programming measurement. The cycle time for measuring a product is about 180 seconds. For companies that produce large quantities of cylinder heads every day, all of them use three coordinate measurement. Machine measurement is unrealistic, and the measurement efficiency is too slow, which seriously wastes and occupies three-coordinate detection resources.
  • the purpose of the present invention is to overcome the above shortcomings and provide an automatic measuring device for the height of the cylinder head combustion chamber which can quickly, accurately and fully automatically measure the height of the cylinder head combustion chamber.
  • an automatic measuring device for the height of the cylinder head combustion chamber includes a tooling base, in which a lifting power source is installed, and a lifting plate is installed on the lifting power source through the tooling base, so The lifting plate is located above the tooling base, and side control power sources are installed on the tooling base and at the front and rear sides of the lifting plate;
  • the tooling base is equipped with a triangular arrangement of longitudinal limit blocks,
  • the tooling base is equipped with a horizontal limit block on the side of the longitudinal limit block at the top corner.
  • the front and rear limit blocks arranged horizontally in the same row are installed on both sides.
  • Displacement sensors are installed on the tooling base and between the longitudinal limit blocks at the corners of the same row and the front and rear limit blocks.
  • the sensor is connected with a power source for controlling the longitudinal movement of the sensor, and a plurality of through holes corresponding to the respective positions of the longitudinal limit block, the lateral limit block, the front and rear limit blocks, and the displacement sensor are provided on the lifting plate.
  • a transverse guide block and a transverse guide power source are installed on the bottom plate and at the lateral side of the lifting plate.
  • the lifting power source, the side control power source, the lateral movement guide power source, the sensor longitudinal movement control power source, and the displacement sensor are respectively electrically connected with the microcomputer controller and controlled by the microcomputer controller.
  • the present invention After adopting the structure of the present invention, only the cylinder head workpiece needs to be placed on the lifting plate, and the reference position of the cylinder head is positioned by the longitudinal limit block, the lateral limit block, and the front and rear limit blocks through the descending of the lifting plate, and then the displacement
  • the sensor extends to the measurement point of the combustion chamber contacting the cylinder head and transmits it to the microcomputer controller to determine whether the combustion chamber height of the cylinder head is qualified.
  • the cycle of measuring the height of the combustion chamber of the cylinder head is about 30 seconds per piece, which is about 6 times higher than the efficiency of the three-coordinate detection. Therefore, the present invention has the advantages of convenient program operation, high measurement efficiency, and low cost input.
  • Fig. 1 is a schematic structural diagram of an automatic measuring device for the height of a cylinder head combustion chamber of the present invention.
  • Fig. 2 is a top view of Fig. 1.
  • the automatic measuring device for the height of the cylinder head combustion chamber of the present invention includes a tooling base 7, in which a lifting power source 3 (a lifting cylinder) is installed, and the lifting power source 3 passes through
  • the tooling base 7 is equipped with a lifting plate 4, the lifting plate 4 is located above the tooling base 7, on the tooling base 7, and at the front and rear sides of the lifting plate 4 are equipped with a side control power source 8 (for Side control cylinders, two in the same direction);
  • the tooling base 7 is equipped with a triangular arrangement of longitudinal limit blocks 1 (three pieces in a triangular arrangement: one as the top corner, and two as the same row of corners.
  • a transverse limit block 10 (one piece), on the tooling base 7 and at the side of the longitudinal limit block at the top corner is equipped with a transverse limit block 10 (one piece), on the tooling base 7 and at the top corner
  • the longitudinal limit block and the horizontal limit block 10 are equipped with the same row of horizontally arranged front and rear limit blocks 11 (two pieces) at both sides, on the tooling base 7, and in the corners of the same row
  • a displacement sensor 2 (several pieces) is installed between the longitudinal limit block and the front and rear limit blocks 11, the displacement sensor 2 and the sensor longitudinal movement control power source 9 (the sensor longitudinal movement cylinder, which can also be installed on the tooling base 7
  • the upper part is connected with the displacement sensor 2 to form a conjoined structure), and the lifting plate 4 is provided with respective positions corresponding to the longitudinal limit block 1, the transverse limit block 10, the front and rear limit blocks 11, and the displacement sensor 2
  • Several through holes 12 (this through hole is relatively large, so that the longitudinal limit block, the horizontal limit block, the front and rear
  • a transverse guide block 13 and a transverse guide power source 14 are installed on the tool base 7 and at the lateral side of the lifting plate 4.
  • the lifting power source 3, the side control power source 8, the lateral movement guide power source 14, the sensor longitudinal movement control power source 9, and the displacement sensor 2 are respectively electrically connected to the microcomputer controller and controlled by the microcomputer controller.
  • the heights of the longitudinal limit block 1 (as the cylinder head Z reference), the front and rear limit blocks 11 (as the cylinder head Y reference), and the lateral limit blocks 10 (as the cylinder head X reference) are designed according to the cylinder head reference position.
  • the positions of the longitudinal limit block 1, the transverse limit block 10, and the front and rear limit blocks 11 are all set according to the reference position size of the cylinder head product, and are fixed on the tooling base 7 according to the size requirements of the cylinder head drawing.
  • the lifting plate 4 is in a rising state (all above the height of the longitudinal limit block 1, the transverse limit block 10, and the front and rear limit blocks 11).
  • the source 8 is activated to push the cylinder head workpiece to move forward and backward, so that the X and Y references of the cylinder head workpiece respectively contact the lateral limit block 10 (generally, the positioning is done when the cylinder head workpiece is placed), the front and rear limit block 11 ( X, Y reference); the horizontal guide power source 14 is activated and the cylinder head workpiece is fine-tuned through the horizontal guide block 13 to adjust and fix the cylinder head workpiece to ensure that every time the cylinder head workpiece is placed In the same position, so as to ensure the accuracy of the measurement.
  • the sensor longitudinal movement control power source 9 controls the displacement sensor 2 to extend and contact the measurement point of the combustion chamber of the cylinder head workpiece.
  • the displacement sensor reads the data and transmits it to the microcomputer controller.
  • the data will be displayed at this time
  • the measurement results are automatically saved on the computer display.
  • the measured data will be judged whether the result is qualified according to the qualified range set in the microcomputer controller, and the unqualified product will send out an alarm signal.
  • the operator passes the judged cylinder head workpieces to be placed separately.
  • the invention has the functions of quickly detecting the height of the cylinder head combustion chamber, unqualified alarm control and microcomputer program control.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Portable Nailing Machines And Staplers (AREA)
  • Length Measuring Devices With Unspecified Measuring Means (AREA)

Abstract

一种缸盖燃烧室高度自动测量装置,包括工装底座(7),在工装底座(7)内装有升降动力源(3),升降动力源(3)上穿过工装底座(7)装有升降板(4),在工装底座(7)上、并在升降板(4)的前后侧边处装有侧边控制动力源(8);工装底座(7)上装有呈三角排列的纵向限位块(1)以及横向限位块(10)、前后限位块(11)、位移传感器(2),位移传感器(2)与传感器纵移控制动力源(9)相连,在升降板(4)上设有与纵向限位块(1)、横向限位块(10)、前后限位块(11)、位移传感器(2)分别位置对应的若干个通孔(12)。由纵向限位块(1)、横向限位块(10)、前后限位块(11)对缸盖进行基准位置定位,再由位移传感器(2)接触缸盖的燃烧室测量点,以判定此缸盖的燃烧室高度是否合格。具有程序操作便捷、测量效率高、成本投入低的优点。

Description

缸盖燃烧室高度自动测量装置 技术领域
本发明涉及高度测量设备,具体是涉及一种缸盖燃烧室高度的测量装置。
背景技术
缸盖燃烧室高度尺寸是缸盖上的关键特性尺寸,能直接影响到汽车发动机的性能,其作为重要尺寸需要百分之百检测,确保所有提供给客户的产品都是合格品。传统检测缸盖燃烧室高度的方法是用三坐标测量机进行编程测量,测量一件产品的节拍约为180秒,对于每日都大批量生产缸盖的企业来说,全部都用三坐标测量机测量是不现实的,测量效率太慢,严重浪费和占用三坐标检测资源。
技术问题
本发明的目的在于克服上述不足,而提供一种可以快速准确、全自动测量缸盖燃烧室高度的缸盖燃烧室高度自动测量装置。
技术解决方案
本发明的目的通过如下技术方案来实现:缸盖燃烧室高度自动测量装置,包括工装底座,在所述工装底座内装有升降动力源,该升降动力源上穿过工装底座装有升降板,所述升降板处于工装底座的上方,在所述工装底座上、并在该升降板的前后侧边处装有侧边控制动力源;所述工装底座上装有呈三角排列的纵向限位块,在所述工装底座上、并在处于顶角的纵向限位块的侧边处装有横向限位块,在所述工装底座上、并在处于顶角的纵向限位块及横向限位块的两侧边处装有同排水平设置的前后限位块,在所述工装底座上、并在处于同排边角的纵向限位块与前后限位块之间处装有位移传感器,该位移传感器与传感器纵移控制动力源相连,在所述升降板上设有与所述纵向限位块、横向限位块、前后限位块、位移传感器分别位置对应的若干个通孔。
在所述底板上、并在升降板的横向侧边处装有横移导向块及横移导向动力源。所述升降动力源、侧边控制动力源、横移导向动力源、传感器纵移控制动力源、位移传感器均分别与微电脑控制器电连接,由其统一调控。
有益效果
采用本发明结构后,只需将缸盖工件放置到升降板上,通过升降板的下降分别由纵向限位块、横向限位块、前后限位块对缸盖进行基准位置定位,再由位移传感器伸出接触缸盖的燃烧室测量点,传输到微电脑控制器而判定此缸盖的燃烧室高度是否合格。此测量缸盖燃烧室高度的节拍约每件30秒,相对于三坐标检测效率提升了约6倍。因此,本发明具有程序操作便捷、测量效率高、成本投入低等优点。
附图说明
下面结合附图与实施方式对本发明作进一步的详细描述。
图1为本发明缸盖燃烧室高度自动测量装置的结构示意图。
图2为图1的俯视图。
本发明的实施方式
参照图1、图2可知,本发明缸盖燃烧室高度自动测量装置,包括工装底座7,在所述工装底座7内装有升降动力源3(为升降气缸),该升降动力源3上穿过工装底座7装有升降板4,所述升降板4处于工装底座7的上方,在所述工装底座7上、并在该升降板4的前后侧边处装有侧边控制动力源8(为侧边控制气缸,同向两件);所述工装底座7上装有呈三角排列的纵向限位块1(为三件而呈三角排列:一件作为顶角、两件作为同排边角设置),在所述工装底座7上、并在处于顶角的纵向限位块的侧边处装有横向限位块10(为一件),在所述工装底座7上、并在处于顶角的纵向限位块及横向限位块10的两侧边处装有同排水平设置的前后限位块11(为两件),在所述工装底座7上、并在处于同排边角的纵向限位块与前后限位块11之间处装有位移传感器2(若干件),该位移传感器2与传感器纵移控制动力源9(为传感器纵移气缸,其也可装在工装底座7上而与位移传感器2形成连体结构)相连,在所述升降板4上设有与所述纵向限位块1、横向限位块10、前后限位块11、位移传感器2分别位置对应的若干个通孔12(此通孔较大,可使纵向限位块、横向限位块、前后限位块、位移传感器在其中作一定范围内的移动)。
 在所述工装底座7上、并在升降板4的横向侧边处装有横移导向块13及横移导向动力源14(为横移导向气缸)。所述升降动力源3、侧边控制动力源8、横移导向动力源14、传感器纵移控制动力源9、位移传感器2均分别与微电脑控制器电连接,由其统一调控。所述纵向限位块1(作为缸盖Z基准)、前后限位块11(作为缸盖Y基准)、横向限位块10(作为缸盖X基准)的高度根据缸盖基准位置设计。
所述纵向限位块1、横向限位块10、前后限位块11的位置都是根据缸盖产品基准位置尺寸设置的,按缸盖图纸尺寸要求固定在工装底座7上。本发明开始工作时,升降板4处于上升状态(均处于纵向限位块1、横向限位块10、前后限位块11的高度之上),此时放置缸盖工件在升降板上,启动升降动力源3,使升降板下降而使缸盖工件的Z基准接触到透过升降板上的通孔的纵向限位块1(Z基准)上,升降动力源3停止工作、侧边控制动力源8启动,推动缸盖工件作前后运动,使缸盖工件的X、Y基准分别对应接触到横向限位块10(一般在缸盖工件放置时已做好定位)、前后限位块11(X、Y基准)处;横移导向动力源14启动而通过横移导向块13对缸盖工件进行水平导向横移微调,以此调整固定好缸盖工件,保证每次放置缸盖工件时都处于相同位置,从而保证测量的准确性。缸盖工件定位好后,传感器纵移控制动力源9控制位移传感器2伸出而接触缸盖工件的燃烧室测量点,接触时由位移传感器读出数据传给微电脑控制器,此时数据会显示在电脑显示屏上并自动保存好测量结果。测量的数据会根据微电脑控制器内设置的合格范围,判定结果是否合格,不合格品则会发出报警信号。操作员通过判定出的缸盖工件合格与否,分别进行分开放置。
本发明具有快速检测缸盖燃烧室高度、不合格报警控制和微电脑程序控制的功能。

Claims (3)

  1. 缸盖燃烧室高度自动测量装置,包括工装底座(7),其特征在于:在所述工装底座(7)内装有升降动力源(3),该升降动力源(3)上穿过工装底座(7)装有升降板(4),所述升降板(4)处于工装底座(7)的上方,在所述工装底座(7)上、并在该升降板(4)的前后侧边处装有侧边控制动力源(8);所述工装底座(7)上装有呈三角排列的纵向限位块(1),在所述工装底座(7)上、并在处于顶角的纵向限位块的侧边处装有横向限位块(10),在所述工装底座(7)上、并在处于顶角的纵向限位块及横向限位块(10)的两侧边处装有同排水平设置的前后限位块(11),在所述工装底座(7)上、并在处于同排边角的纵向限位块与前后限位块(11)之间处装有位移传感器(2),该位移传感器(2)与传感器纵移控制动力源(9)相连,在所述升降板(4)上设有与所述纵向限位块(1)、横向限位块(10)、前后限位块(11)、位移传感器(2)分别位置对应的若干个通孔(12)。
  2. 根据权利要求1所述的缸盖燃烧室高度自动测量装置,其特征在于:在所述工装底座(7)上、并在升降板(4)的横向侧边处装有横移导向块(13)及横移导向动力源(14)。
  3. 根据权利要求2所述的缸盖燃烧室高度自动测量装置,其特征在于:所述升降动力源(3)、侧边控制动力源(8)、横移导向动力源(14)、传感器纵移控制动力源(9)、位移传感器(2)均分别与微电脑控制器电连接,由其统一调控。
PCT/CN2020/117272 2020-01-18 2020-09-24 缸盖燃烧室高度自动测量装置 WO2021143195A1 (zh)

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CN111174742A (zh) * 2020-01-18 2020-05-19 温州瑞明工业股份有限公司 缸盖燃烧室高度自动测量装置
CN211824333U (zh) * 2020-01-18 2020-10-30 温州瑞明工业股份有限公司 缸盖燃烧室高度自动测量装置

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