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    • 12. 发明申请
    • SELF-CLEANING LOWER CONTACT
    • 自清洁联系方式
    • WO2006020578A2
    • 2006-02-23
    • PCT/US2005/028160
    • 2005-08-08
    • ELECTRO SCIENTIFIC INDUSTRIES, INC.GARCIA, Douglas, J.
    • GARCIA, Douglas, J.
    • G01R31/02
    • B07C5/344G01R1/06705
    • An electrical component handler (2) that tests electrical circuit components and includes a self-cleaning lower contact (100) offers reduced yield loss and mean time between assists. A preferred embodiment of the electrical component handler (2) includes multiple sets of upper and lower contacts (102, 100), each set of which is spatially aligned to electrically contact a single device-under-test (DUT) (14). Each DUT (14) is seated in a test plate (5) that transports the DUT (14) to and from a test measurement position between the upper and lower contacts (102, 100). The lower contact (100) includes a contact tip (116) that a biasing mechanism (130) urges against the electrical component as it undergoes a test process and against a surface of the test plate (5) as it transports the electrical component. The lower contact (100) rubs against the test plate (5), thereby contributing to removal of contaminant material acquired by the contact tip (116) during component handler operation.
    • 测试电路元件并包括自清洁下触点(100)的电子部件处理器(2)提供降低的屈服损失和平均辅助间隔时间。 电气部件处理器(2)的优选实施例包括多组上部和下部触头(102,100),其中每组都在空间上对准以电接触单个测试装置(DUT)(14)。 每个DUT(14)安置在测试板(5)中,测试板(5)将DUT(14)传送到上和下触点(102,100)之间的测试测量位置。 下接触件(100)包括接触尖端(116),当偏移机构(130)运送电气部件时,偏置机构(130)经受测试过程并且抵靠测试板(5)的表面时抵抗电气部件。 下接触件(100)摩擦测试板(5),从而有助于在部件处理器操作期间去除由接触尖端(116)获得的污染物质。
    • 13. 发明申请
    • SORTIEREINRICHTUNG UNTERSCHIEDLICHEN STOFFE MIT HILFE EINES TRANSPORTBANDES UND EINES ELEKTROMAGNETISCHEN STELLGLIEDS
    • 分拣装置不同材料与传送的帮助和色带的电磁致动器
    • WO2005050823A1
    • 2005-06-02
    • PCT/EP2004/013108
    • 2004-11-18
    • SULT GMBHL.S.I. INDUSTRIEELEKTRONIKBOFFO, HansHOFMANN, Alexander
    • BOFFO, HansHOFMANN, Alexander
    • H02K33/18
    • B65G47/766B07C5/344B07C5/36B65G47/50H02K41/0358
    • Die Erfindung betrifft eine Sortiereinrichtung zum Sortieren von unterschiedlichen Stoffen, die ein Transportband (30) sowie mindestens einen dem Transportband (30) zugeordneten Sensor (37), der ortsabhängig Stoffteile auf dem Transportband (30) erfasst, und mindestens ein Stellglied (24), das abhängig von Signalen des mindestens einen Sensors (37) Stoffteile aussondert, aufweist, die dadurch gekennzeichnet ist, dass ein elektromagnetisches Stellglied (24) eingesetzt wird das ein um eine Achse drehbares und mit mindestens einer Spule (10) verbundenes Auswurfteil (15) umfasst. Die Spule (10) befindet sich im Luftspalt zwischen zwei Permanentmagnetpaaren (8, 9, 22) und ist von einer Grundstellung zwischen dem ersten gegenpolig magnetisierten Paar (8) in eine zweite Stellung zwischen dem zweiten gegenpolig magnetisierten Paar (9) drehbar, wobei das Auswurfteil (15) durch Drehbewegung der Spule (10) die betreffenden Stoffteile aussondert.
    • 本发明涉及一种分选装置,用于不同材料的分选,其中传送带(30),并与感测所述传送带上的依赖于位置的材料部件,所述传感器(37)(30)相关联的至少一个传送带(30),和至少一个致动器(24), 所述至少一个传感器的信号(37)单打依赖塑料部件,其特征在于,电磁致动器(24)使用包含排出部件连接的可绕轴旋转并具有至少一个线圈(10)(15) , 线圈(10)位于所述空气间隙的两个永久磁铁对(8,9,22)之间,并且所述第一极性相反的磁耦合之间的基本位置(8)可旋转到第二相反的极磁化对之间的第二位置(9),其中,所述 喷射部(15)由线圈(10)的旋转运动丢弃织物的条问题。
    • 14. 发明申请
    • APPARATUS AND METHOD FOR ESTABLISHING THE POSITIONS OF METAL OBJECTS IN AN INPUT STREAM
    • 在输入流中建立金属物体位置的装置和方法
    • WO2005028129A1
    • 2005-03-31
    • PCT/GB2004/003953
    • 2004-09-16
    • QINETIQ LIMITEDKEENE, Mark, N.MCKIE, Mathew, C.
    • KEENE, Mark, N.MCKIE, Mathew, C.
    • B07C5/344
    • B07C5/344B07C2501/0036B07C2501/0054G01V3/101G01V3/105
    • Apparatus (10) for establishing the positions of metal objects in a mixed input stream of both metal and non-metal objects, the apparatus comprising a differential metal-detecting coil (14A) having a first coil portion wound in a first sense and a second coil portion of generally similar shape and size to the first, wound in a second sense opposite to the first sense, and conveying means (11) for moving objects with respect to, and past, the, differential metal­detecting coil in a plane and in a direction with unit vector â, characterised in that the second coil portion is displaced from the first coil portion by a displacement B having a component in the plane in a direction with unit vector b, wherein 0 -1 â•b 2 , and in that the apparatus further comprises analysing means for analysing the form of the output voltage of the coil as a function of time to establish the position of said metal objects in a direction c in the plane, where c is defined by â • c = 0.
    • 一种用于在金属和非金属物体的混合输入流中建立金属物体的位置的装置(10),该装置包括具有以第一意义缠绕的第一线圈部分的差分金属检测线圈(14A) 线圈部分的形状和尺寸大致相同,以与第一感测相反的第二方向缠绕在第一方向上,以及传送装置(11),用于在平面内以及相对于差速金属检测线圈移动物体并经过差速金属检测线圈 方向,其特征在于,所述第二线圈部分从所述第一线圈部分移位位移B,所述位移B在所述平面中具有单位向量b的方向上的分量,其中0
    • 15. 发明申请
    • AUTOMATED PREVENTION OF TRANSFER OF AN UNSOAKED IC PACKAGE
    • 自动防止未经安装的IC封装传输
    • WO02033432A1
    • 2002-04-25
    • PCT/US2001/030104
    • 2001-09-25
    • B07C5/344G01R31/316
    • B07C5/344
    • For ensuring that each of a plurality of IC (integrated circuit) packages are placed within a temperature soaking chamber for a predetermined time period before being transferred to a testing chamber, an input stopper device (202) is disposed at an input of a track (108) with the track being disposed through the temperature soaking chamber. A prior container holding a prior plurality of IC packages is placed at the input of the track such that the prior plurality of IC packages slides out of the prior container along the track into the soaking chamber when the input stopper device is at a passing position. The prior plurality of IC packages is placed within the soaking chamber for the predetermined time period before each of the prior plurality of IC packages is transferred to the testing chamber when an output stopper device at an output of the track within the soaking chamber is placed to a passing position.
    • 为了确保在传送到测试室之前将多个IC(集成电路)封装中的每一个封装放置在温度均热室中预定的时间段内,输入阻挡装置(202)设置在轨道的输入端 108),轨道通过温度均热室设置。 保持现有多个IC封装的现有容器被放置在轨道的输入处,使得当输入止动装置处于通过位置时,现有的多个IC封装件沿着轨道从现有容器滑出到均热室中。 将先前的多个IC封装放置在浸泡室内预定的时间段,在将先前的多个IC封装中的每一个传送到测试室之前,当在均热室内的轨道的输出处的输出阻挡装置被放置到 一个通过的位置。
    • 16. 发明申请
    • DEVICE AND METHOD FOR SORTING OUT METAL FRACTIONS FROM A STREAM OF BULK MATERIAL
    • DEVICE AND METHOD FOR分拣金属组从电力大
    • WO01054830A1
    • 2001-08-02
    • PCT/DE2001/000108
    • 2001-01-12
    • B03B9/06B07C5/344B07C5/36B07C5/342
    • B07C5/366B03B9/061B07C5/344Y02W30/526Y02W30/528Y10S209/93
    • The invention relates to a device and a method for blowing out metal fractions from a stream of bulk material that is conveyed by bulk material conveying means (10). The device comprises blow-out nozzles (20) which are located on a drop section and which are arranged along a widthwise extension of the stream of bulk material, for blowing against individual particles of bulk material in order to modify the trajectory in such a way as to produce a second sub-stream that branches off. The blow-out nozzles (20) can be controlled according to the sensor coil scanning results relating to the bulk material particles. A plurality of sensor coils (18) is provided underneath an essentially horizontal section of the stream of bulk material in the form of an LC oscillating circuit. Said sensor coils are provided for detecting the eddy currents that are induced. Optoelectronic means (14) are also provided for determining the blow-out position and for determining the location of each of the particles of bulk material.
    • 装置和方法,通过本体促进机构从一个吹出来的金属部分(10)移动的散装材料的流,其具有设置在下落部分吹出喷嘴,其沿着所述散装材料流的宽度延伸设置用于吹塑单个散装材料颗粒,用于修改该轨迹到第二(20), 转向部分电流进入它,由此吹风喷嘴(20)在块体材料的传感器线圈扫描结果的功能,是可控制的,其中多个作为LC谐振电路的传感器线圈(18)中的散装材料流的基本水平部分下提供了用于检测的感应的涡流和上执行 确定所述吹离附加光电装置(14)被提供用于每个Schüttgutteilchens的位置检测。
    • 19. 发明申请
    • PROCESS AND DEVICE FOR RECUPERATING USED BATTERIES
    • 用于重新使用电池的过程和设备
    • WO1991012094A2
    • 1991-08-22
    • PCT/CH1991000033
    • 1991-02-07
    • EGAPRO PATENT AGSCHÜRMANN, Kurt, M.
    • EGAPRO PATENT AG
    • B07C05/344
    • G01R31/3648B07C5/344G01R31/3627
    • A device for recuperating used batteries has a receiving compartment (1) comprising a left sub-compartment (1a) with a baseplate (7) with inset contacts for receiving cylindrical batteries and a right sub-compartment (1b) for receiving right parallelepipedal batteries. In order to check whether an inserted object is a battery, the receiving compartment (1) is closed by a slide (not shown) and locked by a bolt (10), and a mounting (15) is lowered until contact points on a pair of stamps (20a, 20b or 21a, 21b) or a stamp (22a, 22b or 22c) on the mounting touch one of the contacts inset into the base plate (7) of the receiving compartment (1). A test is then carried out to ascertain whether a voltage of at least 20 mV exists between the contact points. If not, the object is subjected to a surge lasting approximately 1 second and a maximum voltage, usually 14 V, and the voltage test is repeated. The base plate (7) is then retracted and, if the results of two voltage tests are negative, the object falls into a return chute, otherwise it falls into a collecting container. The slide is then unlocked.
    • 用于回收废旧电池的装置具有容纳隔室(1),其包括具有底板(7)的左子室(1a),其具有用于接收圆柱形电池的插入触点和用于接收正交平行六面体电池的右子室(1b)。 为了检查插入的物体是否是电池,接收室(1)被滑块(未示出)关闭并被螺栓(10)锁定,并且安装件(15)降低到一对接触点 在所述接触插入到所述接收室(1)的基板(7)中的所述触点之一上的所述触片(20a,20b或21a,21b)或印模(22a,22b或22c)上。 然后进行测试以确定接触点之间是否存在至少20mV的电压。 如果不是,物体经受大约持续1秒的浪涌和最大电压(通常为14V),并重复电压测试。 然后将基板(7)缩回,如果两个电压测试的结果为负,则物体落入回流槽,否则落入收集容器中。 幻灯片然后解锁。