Abstract: An electronic component analyzing apparatus is provided with a fixing part configured to hold a substrate to which an electronic component is soldered; a gripper configured to grip the electronic component; a transmission part coupled to the gripper, and configured to transmit an external force to the gripper as a force acting in a direction away from the substrate; and a support part configured to pivotally support the transmission part.

Abstract: A method and apparatus using a sample test container filled with beverage, a penetrator holder, a penetrator and release means is disclosed. In the method a sample, is drawn into the test container and the penetrator dropped into the sample, and a reading of the stiffness of the sample is made based on the depth of penetration of the penetrator onto the sample.

Abstract: An electronic component analyzing apparatus is provided with a fixing part configured to hold a substrate to which an electronic component is soldered; a gripper configured to grip the electronic component; a transmission part coupled to the gripper, and configured to transmit an external force to the gripper as a force acting in a direction away from the substrate; and a support part configured to pivotally support the transmission part.

Abstract: The present invention relates to a test specimen for visualizing mechanical impact in a mass production process, wherein the specimen comprises of a body, at least one impact detection means at least partially covering a carrier structure of the body and adapted to visualize mechanical impact impinging on the body. A protective coating or layer covers the impact detection means entirely.

Abstract: An apparatus is provided for recording information about an event resulting in application of a force to a body. The apparatus comprises data recording means for recording the information, sensor means for sensing a parameter which enables a predetermined source of force to be distinguished from another, predetermined source of force, and control means responsive to the sensed parameter for controlling the data recording means. The sensor means may comprise a pressure sensor for sensing shockwaves resulting from an explosive force and the resulting signal used to distinguish from other events, such as blunt impacts. The pressure signal may be used to control the storage of acceleration data for injury analysis.

Abstract: An impact testing device used for testing impact resistance of electronic devices is provided. The impact testing device includes a main body, a pneumatic pump connecting to one end of the main body and communicating with the main body, a transmitting element connecting to the other end of the main body and communicating with the main body, and an impact head fastened on the transmitting element. The pneumatic pump renders the main body a pressure to drive the transmitting element and make the impact head move to hit the testing point of the electronic device.

Abstract: An impacting head using in an impact testing device comprises a substrate made of aluminum or aluminum alloy and a rubber head made of polyurethane resin, the substrate and the rubber head are bonded together by adhesive layer mainly containing epoxy resin. The impacting head has low cost and a long service life. Furthermore, the impacting head produces a display of trapezoidal waves following impact tests which meets the requirements of the IEC 60068-2-27 2008 standard.

Abstract: An impact test system includes an impact body, a rotating device and a stationary device. The rotating device is configured to rotate around a central axis holding a test object. The stationary device supports an impact body and can move the impact body into the circular path of the test object. Each of the test object and the impact body can be held by the rotating device, and each of the test object and the impact body is capable of being fixed on the stationary device.

Abstract: A device for generating impacts on a structure has a projectile head. The head includes a main body on which an impact element is mounted so it projects. The device includes a mechanical propulsion element to set the projectile head in motion, and the propulsion element can move between an initial resting position where the propulsion element is immobile and the projectile head is held against the propulsion element by at least one retaining element, and a second position where after the propulsion element comes to a stop against stop elements, the projectile head moves alone in translation toward the structure guided by guidance elements. The device also includes an anti-rebound system to prevent any rebound by the projectile head after impact on the structure.

Abstract: This invention deals with a testing instrument that is used to investigate failure behavior of items subject to impact and sliding forces. The testing instrument produces an impact motion and a sliding motion in each testing cycle with maximum contact pressure similar to actual stresses applied to the items during real applications. The invented instrument simulates wear conditions and failure behaviors of biomedical implants, components, tools and coatings which are observed in practical applications.

Abstract: An impact generating assembly comprises an impact platform and a plurality of impact generating units is provided. Each of the impact generating units comprises a holder portion, a fixture device and an impact generating portion. The holder portion comprises a first inclined plane and a second inclined plane opposite the first inclined plane. The fixture device is disposed on the holder portion. The impact generating portion is disposed on the holder portion for providing a reciprocating motion. Each of the impact generating units is mounted to the impact platform by the fixture device, and the impact generating portion is adapted to produce a synchronous vibration on the impact platform through the impact platform.

Abstract: A measuring device for detecting and evaluating an impact, jolt or the like is formed with an impact face, against which the impact, jolt or pulse which is to be evaluated strikes. A sensor, for example a force sensor, detects values of the force which act on the impact face as a result. A sensor, for example an acceleration sensor, detects values of the acceleration which act on the impact face as a result. An evaluation unit processes the determined force and acceleration values.

Abstract: An apparatus for mounting to a head protector including a housing having a plurality of parts each defining a portion of the housing, one or more components to be accommodated in the housing, and one or more apertures in the housing for introducing a compound for securing the one or more components in the housing, a protrusion on the exterior surface of the housing for abutting against the exterior surface of the head protector, and a sensor and a coupling for mechanically coupling the sensor to the protrusion to minimize relative movement between the head protector and the sensor.

Abstract: An impact detector includes a circular weight, a case containing the weight, in which a transition path for the weight is formed, a planar elastic member extending in the case with a first end oriented in a direction in which the weight move upon an impact in a first direction, a fixing member fixing the planar member to the case. The planar elastic member includes a folded portion disposed on a second end of the planar elastic member, and a first arm and a second arm both extending from the folded portion. An end portion of the first arm holds the weight at an initial position, and the first arm deforms to release the weight upon the impact in the first direction. The fixing member includes a sandwiching portion sandwiching the folded portion and a contact portion in contact with both the first arm and the second arm.

Abstract: A sensor system for detecting a collision between first and second parts moving relative to each other. The sensor system comprises at least one sensor for detecting a collision between the first and second parts, the sensor comprising first and second elongate conductive elements and a non-conducting spacing element partially extending between the first and second elongate conductive elements to separate the conductive elements from each other and to define spaced, adjacent portions of the conductive elements. A signal transmitting wire is in communication with each elongate conductive element. A housing retains the sensor for mounting in a region between the first and second parts such that any collision between the parts will tend to deform the spaced, adjacent portions of the conductive elements into contact with each other at the point of collision to complete a circuit via the signal transmitting wires to indicate the collision has occurred.

Abstract: A testing stylus used for testing a keyboard, includes a sleeve, a resisting member and an elastic member, the resisting member be conductive and have an engageable end and an opposite resisting end, the resisting end is used to resist against the keyboard. The resisting member and the elastic member are assembled in the sleeve, the elastic member resists against the engageable end, to allow the resisting end to be exposed to the outside from the sleeve, the resisting end is withdrawn into the sleeve by pressing the sleeve.

Abstract: An impact detecting apparatus that is configured to be attached to an object and includes a drop-impact display unit configured to display a direction of drop impact when the object is dropped; and a tilt display unit configured to display a direction of tilting when the object is tilted. The drop-impact display unit and the tilt display unit displays the direction of drop impact and the direction of tilting at the same time.

Abstract: An impact testing device is provided. The impact testing device comprises a plate and an impact generating module. The plate has a first surface for loading a test object. The impact generating module is fastened to the plate to apply an impact to the plate and actuate the plate along the first direction, the second direction and the third direction independently. Thereby, the impact testing device of this invention is adapted to apply the impact to the test object along any direction under control.

Abstract: An impact detector includes a case, an impact indicator disposed on a front side of the case, to indicate an impact history of the impact detector, a first weight that moves inside the case to a side to which the case falls, causing the impact indicator to indicate the impact history by moving through at least one of a first transition path and a second transition path, a first guide member to guide the first weight to a first impact detection position along the first transition path when the case falls in a first direction, and a second guide member to guide the first weight to the second impact detection position along the second transition path when the case falls in a second direction. The first transition path at least partly overlaps with the second transition path on a projection plane on the front side of the case.

Abstract: In one embodiment a damage impactor comprises a housing defining a passage, an impact assembly, an actuator assembly, and an engagement assembly. In one embodiment the impact assembly comprises a guide rod comprising an impact head, and a bias mechanism to bias the guide rod in a first direction. The actuator assembly comprises an actuator, and an actuator rod coupled to the actuator. The engagement assembly selectively couples the impact assembly to the actuator assembly by driving the actuator rod in the first direction to an engagement position where the engagement assembly couples the actuator rod to the guide rod, retracting the actuator rod in a second direction, opposite the first direction, to a release position and releasing the guide rod from the actuator rod. Other embodiments are also disclosed.

Abstract: This invention deals with a testing instrument that is used to investigate failure behavior of items subject to impact and sliding forces. The testing instrument produces an impact motion and a sliding motion in each testing cycle with maximum contact pressure similar to actual stresses applied to the items during real applications. The invented instrument simulates wear conditions and failure behaviors of biomedical implants, components, tools and coatings which are observed in practical applications.

Abstract: An impact detection sensor is attached to a packaging container. When the packaging container is subjected to impacts downward in a vertical direction twice, i.e., a bottom surface of the packaging container is subjected to impacts twice, a weight moves downward in the vertical direction by the application of the first impact, and is seen through a weight indicator unit located on the bottom of an impact detection sensor. At the time of the application of the second impact, the weight moved downward in the vertical direction is prevented from moving back to. an initial position by a pressing portion, and seen through the same bottom weight indicator unit.

Abstract: A performance test apparatus includes a control unit, an image taking device, and a base having a table and a frame mounted to the table. The image taking device includes at least one image taker and at least one parallel light source. The at least one image taker is movably mounted to the frame and electrically connected to the control unit. The at least one parallel light source faces the table and is electrically connected to the control unit. The least one parallel light source includes a plurality of spot light sources. The control unit controls on/off of the at least one parallel light source, so that the at least one parallel light source flickers at a high frequency.

Abstract: An impact detection device, as well as a system that includes such a device for simulation of a combat sport, or more generally for use in a sport in which the user creates an impact by striking an adversary or an object. This device includes a sensor that detects an impact and its intensity, which is mounted on a printed circuit, together with an indicator that activates when the detector detects an impact and/or in order to indicate to a user that the user must generate an impact. The indicator is imbedded in a protective covering so that it is located near the surface of its embedding material. The indicating means are mounted directly on the printed circuit, so that the embedding material also covers the printed circuit and the sensor.

Abstract: A jig frame for a drop test of a flat panel display, which is designed to allow a tester to effectively identify if the flat panel display is damaged and to easily adjust its weight and degree of deformation is provided. The jig frame for a drop test of a flat panel display includes a base plate having a groove for receiving the flat panel display and a cover plate fixing the flat panel display by covering the flat panel display and being coupled to the base plate. The cover plate is formed of transparent material so that the flat panel display installed in the jig frame is visible to outside of the cover plate.

Abstract: An impact generator and an impact testing platform using the impact generator are provided. The impact generator has an axial direction, a radial direction and a tangential direction, which are substantially orthogonal to each other. The impact generator comprises a coil and a magnetic device. The coil winds around along the axial direction. The magnetic device is adjacent to the coil and configured to construct a magnetic field so that a plurality of magnetic field lines of the magnetic field all pass through the coil substantially along the radial direction. The current flows along the tangential direction in the coil substantially so that the magnetic device is actuated by a force along the axial direction and generates an impact outwards while a current is conducted into the coil.

Abstract: An impact detection system according to the present invention includes an impact sensor, damage sensors and an electronics package. The impact sensor includes a fiber optic grid preferably attached to a target object to detect impact locations on the target. The damage sensors measure damage sustained by the object, while the electronics package monitors the fiber optic grid, records the impact location and sends information pertaining to the impact location and target damage through a telemetry link with limited bandwidth to a receiving station. In order to ensure transmission of desired information, the electronics package allocates telemetry bandwidth to sensor information most relevant to impact location and target damage to enable transmission in the limited time interval available prior to target destruction or impact detection system disablement. This is accomplished by dynamically allocating reporting priority to different sensors during an impact.

Abstract: A method for designing clothing and equipment for protecting law enforcement officers comprising the following steps: equipping a dummy with cinematic and/or load sensors, —positioning an impact application device to apply impacts on a target zone of the impact dummy, and the apply these impacts without the protection and the recording of the resulting measurements, the mounting of a form of protection on the target zone of the dummy, —the application of these impacts on the protected dummies, and the reading of the ensuing measurements, —the deduction of the energy absorbed from the measurements the value and/or attenuation of the impact force by the protection, —if the value(s) are superior to the threshold values, the clothing or equipment can be tagged as acceptable, —otherwise, structural modifications must be made to the protective clothing or equipment with the purpose of improving these values.

Abstract: In one embodiment a damage impactor comprises a housing defining a passage, an impact assembly, an actuator assembly, and an engagement assembly. In one embodiment the impact assembly comprises a guide rod comprising an impact head, and a bias mechanism to bias the guide rod in a first direction. The actuator assembly comprises an actuator, and an actuator rod coupled to the actuator. The engagement assembly selectively couples the impact assembly to the actuator assembly by driving the actuator rod in the first direction to an engagement position where the engagement assembly couples the actuator rod to the guide rod, retracting the actuator rod in a second direction, opposite the first direction, to a release position and releasing the guide rod from the actuator rod. Other embodiments are also disclosed.

Abstract: A method for crash testing a motor vehicle is disclosed. The method provides a crash test routine where an inflatable restraint is deployed using a single deployment pattern throughout at least one government regulation zone. This helps to prevent overlap of a transition zone and can help make the deployment of the inflatable restraint more predictable. This can increase occupant safety and simply testing.

Abstract: An impact testing apparatus for includes a workbench, a bracket defining a vertical passage, a hammer slidably received in the passage of the bracket, a fastening mechanism slidably mounted to the bracket and an anvil for supporting a workpiece to be tested. The workbench includes a horizontal platform. The bracket is arranged over the platform. The fastening mechanism is configured to be selectively fixed to different heights of the bracket relative to the platform, and includes a retaining member capable of being biased between a fist position to hold the hammer and a second position to release the hammer. The anvil is disposed on the platform and aligns with the hammer.

Abstract: An apparatus includes a positioner. The apparatus includes a striker axially movable in the positioner. The striker includes a striker inner end. The apparatus includes a force gauge axially movable in the positioner. The force gauge includes a force gauge inner end. The force gauge inner end is in communication with the striker inner end. Optionally, the striker defines at least one fluid passage axially therethrough.

Abstract: This invention relates to impact sports, and to articles of clothing and for detection systems used to monitor and registering the intensity, location and sources of impacts in contact sports such as boxing, martial arts, fencing, and so forth.

Abstract: A multi-functional sensor for deriving information on a recording sheet material comprising an impact-applying unit for applying an external mechanical force onto the recording sheet material, a signal-detecting unit for detecting a signal of response of the recording sheet material to the external mechanical force, a signal-processing unit for processing the signal, and a signal-judging unit for deriving a property of the recording sheet material by comparison of a signal from the signal-detecting unit or the signal processing unit with information memorized preliminarily, wherein the signal-processing unit comprises a separation section for separating the signal from the signal-detecting unit into output signals on the properties of the recording sheet material, and a processing section for deriving, by statistical treatment, a correlation equation showing a correlation between the separated output signal and the properties of the recording sheet material.

Abstract: An impact testing device is provided. The impact testing device comprises a plate and an impact generating module. The plate has a first surface for loading a test object. The impact generating module is fastened to the plate to apply an impact to the plate and actuate the plate along the first direction, the second direction and the third direction independently. Thereby, the impact testing device of this invention is adapted to apply the impact to the test object along any direction under control.

Abstract: A shock sensor comprises a substrate and at least one flexure coupled to the substrate and configured to deflect upon an application of force to the shock sensor sufficient to deflect the flexure. Deflection of the at least one flexure produces a detectable change in an electrical property of the shock sensor. Examples of detectable changes in an electrical property of the shock sensor include an open circuit condition, a closed circuit condition, and a variation in voltage of a piezo-electric detector. In some embodiments, the change in the electrical property of the shock sensor may be remotely read by interrogation of a radio frequency identification transponder positioned on the substrate using a remote radio frequency identification transceiver. The disclosure also relates to a shock sensing system and method of shock detection.

Abstract: A test apparatus applies high speed impact load to a sample to test the shear strength of attachment of a component part to the sample, by use of a rotary drive mechanism driving an impact tip. A support mechanism provides alignment between the impact tip and a portion of the sample to receive a test force, and prevents relative movement of at least one of the sample and the impact tip. The rotary drive mechanism establishes a impact force between the impact tip and the sample, and a force transducer receives the resultant force and providing a corresponding output. In one example the force transducer uses a piezoelectric film for sensing. The testing may be used, for example, to provide stable impact speed to a solder ball, and provide, as an output a force and displacement relationship curve. The stable speed can be acquired by clutch, and the data collection.

Abstract: A remote-controlled dynamoelectric machine inspection vehicle that can fit and travel within a narrow air gap between a stator and rotor of a dynamoelectric machine. The inspection vehicle has an effectuator that can remotely activate a hammer driven by a high pressure pneumatic three-stage miniature piston that propels the hammer against a stator slot wedge creating an impact force that causes the wedge to vibrate. The vibrations are sensed to determine the tightness of the wedge.

Abstract: Determining shot peening intensity by affixing a Almen test strip to a shot peening surface, removing the peened strip from the shot peening surface, measuring an arc height of the shot peened strip, and determining peening intensity on the surface from the measured arc height. The strip may be affixed with an adhesive such as rubber cement and may be a sub-size strip cut from a full size Almen strip. The arc heights of the sub-size strip may be correlated to arc heights of the standard strips. A sub-size strip may be affixed to and a full size standard strip may be mounted on a peening surface of a block and be simultaneously shot peened. Arc heights may be measured on a gage having support means for holding both strips.

Abstract: A dual mode contact sensor for an automotive vehicle includes an impact-responsive tubular sensing member, and a first linear contact which is closed with the outer surface of the tubular sensing member. A second linear contact is mounted within the tubular sensing member such that a higher force impact, sufficient to cause plastic deformation of the tubular sensing member will cause a circuit to be closed with the second linear contact.

Abstract: A remote-controlled dynamoelectric machine inspection vehicle that can fit and travel within a narrow air gap between a stator and rotor of a dynamoelectric machine. The inspection vehicle has an effectuator that can remotely activate a hammer driven by a high pressure pneumatic three-stage miniature piston that propels the hammer against a stator slot wedge creating an impact force that causes the wedge to vibrate. The vibrations are sensed to determine the tightness of the wedge.

Abstract: A method and apparatus for testing a container for puncture resistance using a structure having a means to guide a dropper as the dropper freefalls and impacts with a pressurized container or a pressurized container freefalls and impacts with an impact target. An improved method of manufacturing a steel sheet having an isotropic metallurgical microstructure, the steel sheet being used to form a pressurized container with increased puncture resistance, wherein the improvement comprises heat treatment also is disclosed.

Abstract: A test equipment system and method for testing a component of an article wherein the system comprises a force element arranged to move from a first position to a second position, a striker element connected to the force element arranged at one end of the force element, a frame structure arranged to guide and support the force element between the two positions, the second end of the force element being connected to the frame structure, wherein the force element in the first position is in an energised state and the force element in the second position is arranged to impact the striker element against the component.

Abstract: A process for the non-destructive testing of a refractory lined process vessel including the steps of: (a) striking an external wall of a process vessel internally lined with a refractory material with an impulse hammer; (b) measuring selected frequency characteristics of the refractory lined process vessel; and (c) analysing the measured frequency characteristics and determining the integrity of the internal lining of refractory material from the measured frequency characteristics.

Abstract: A jig frame for a drop test of a flat panel display, which is designed to allow a tester to effectively identify if the flat panel display is damaged and to easily adjust its weight and degree of deformation is provided. The jig frame for a drop test of a flat panel display includes a base plate having a groove for receiving the flat panel display and a cover plate fixing the flat panel display by covering the flat panel display and being coupled to the base plate. The cover plate is formed of transparent material so that the flat panel display installed in the jig frame is visible to outside of the cover plate.

Abstract: A device for simulating a collision of a motor vehicle by a laterally hitting impactor. The device comprises a seat carriage (3) which can be displaced in the transversal direction of the vehicle and on which a seat (5) is mounted, a lateral part carriage (10) on which a lateral part (13) of a motor vehicle body is mounted, and the impactor (20) that acts upon the lateral part (13) and is provided with an acceleration mechanism (21). The seat carriage (3) and the lateral part carriage (10) can be displaced independently of each other. In order to create a testing device which dispenses with the need for expensive and time-consuming preliminary tests to determine the settings for the tests, the impactor (20) is equipped with an acceleration mechanism (21) which can perform both positively and negatively accelerated movements in a controlled manner while an additional impactor (30) is provided that acts upon the seat carriage (3).

Abstract: A test apparatus applies high speed impact load to a sample to test the shear strength of attachment of a component part to the sample, by use of a rotary drive mechanism driving an impact tip. A support mechanism provides alignment between the impact tip and a portion of the sample to receive a test force, and prevents relative movement of at least one of the sample and the impact tip. The rotary drive mechanism establishes a impact force between the impact tip and the sample, and a force transducer receives the resultant force and providing a corresponding output. In one example the force transducer uses a piezoelectric film for sensing. The testing may be used, for example, to provide stable impact speed to a solder ball, and provide, as an output a force and displacement relationship curve.

Abstract: An impulse sensor having: a long elastic structure formed of a material to be deformed according to an impulse; a cable insertion hole formed in the elastic structure; and a cable inserted through the cable insertion hole, the cable being operable to cause a variation in propagation energy due to its deformation. A distance from a central line of the cable to an outer surface of the elastic structure is varied in a longitudinal direction of the elastic structure.

Abstract: A sensor is able to perform identification of an impact acting on a support and resonance plate (2) and send a signal to a measuring and recording station (4). The sensor (1) is provided with an intermediate apparatus (3) which, after analyzing the characteristics of the effects produced by the impact and comparing them with the characteristics produced by the impact of a non-lethal projectile, sends the signal to the measuring and recording station (4) only in the case where these characteristics coincide substantially.

Abstract: A flexible printed circuit cabling system for a crash test dummy includes at least one centralized data-receiving unit. The flexible printed circuit cabling system also includes a plurality of sensors arranged remotely from the at least one centralized data receiving unit to generate electrical signals of data pertaining to a vehicular collision. The flexible printed circuit cabling system further includes a plurality of flexible printed circuit cables electrically interconnecting the sensors and the at least one centralized data receiving unit to transmit the electrical signals from the sensors to the at least one centralized data receiving unit.