Abstract: A vehicle system may include an impact screen for reducing damage in a collision involving the vehicle. The impact screen may be disposed in a cavity of the vehicle system between a motor unit and a battery to reduce a likelihood of impact and/or a force of an impact between the motor unit and the battery. The impact screen may be fixed at opposite sides of the vehicle, such that motor unit moves relative to the impact screen during the collision.

Abstract: A load cell that includes a beam extending from a fixed section to a load section including a deflection section that moves under a load and a central beam section spaced from the deflection section. At least one strain gauge is coupled to the beam for detecting movement of the beam. A stop element including a bearing surface is also provided and coupled to the beam and configured such that the bearing surface does not engage the beam in a first position and engages the beam in a second position.

Abstract: The present invention belongs to the technical field of animal weighing. The invention relates to an animal-weighing platform (1) comprising a plate (2) and at least one load cell (5). The platform (1) further includes: an accelerometer (9) fixed on said plate (2); and a processing unit (6) capable of identifying and processing the data provided by at least one load cell (5) and which includes a diagnostic module (14) capable of identifying and processing the data provided by said accelerometer (19). The present invention further relates to an animal-weighing process.

Abstract: A load cell is provided with protection against damage from overload. The load cell has a load receiving member, a main member and a load transmitting member. The main member has a movable portion, a fixed portion and a first parallel guiding member for connecting the fixed portion and the movable portion. The load transmitting member has a first mounting portion for mounting the load receiving member, a second mounting portion for mounting the movable portion and a parallel guiding member for connecting the first mounting portion to the second mounting portion. The first mounting portion is movable vertically relative to the second mounting portion when a load being applied on the first mounting portion. The load-transmitting member is a single piece. The load cell also has a stop portion for preventing the first mounting portion from further moving downwardly for overload protection.

Abstract: The present invention refers to a food processing system presenting a recipient adapted for receiving food ingredients, and a driving arrangement adapted for driving a tool support provided inside of the recipient, and at least one weighing arrangement adapted for weighing the food ingredients. In particular, the weighing arrangement has an elongated structural member and at least one weighing member provided as a single piece that can be directly attached to the recipient or to the driving arrangement thereof.

Abstract: A fixture includes a shelf upon which items may be placed. In one implementation, the shelf is supported by four load cells that provide load cell data that may be used to calculate weight data for the load on the shelf. The load cells are mounted underneath a frame, with an upper portion of a load mount extending upward through the frame and engaged to the shelf. The shelf and the frame include stiffeners to increase rigidity, improving the quality of the load cell data. Electronics and a wiring harness are located underneath the frame. In this configuration, assembly of the fixture may be accomplished completely from the underside, simplifying assembly.

Abstract: Electrical and electronic devices are often installed in so-called racks. Racks of this type are shelf-like frames into which the devices are inserted and can be fastened, for example by means of screws. The racks commonly provide a pair of support rails for each device, upon which rails the device can be placed and can be inserted into the rack. The device can be subsequently fixed to the rack, for example screwed in.

Abstract: A force exerted by a load is determined in a force-measuring device (1) operating under electromagnetic force compensation. The device includes a measurement transducer (18, 118) with a coil (20, 120) movably immersed in a magnet system (19, 119) and a force-transmitting mechanical connection between a load-receiving part (12, 112) and the coil or magnet system. A position sensor (21, 28), also part of the device, determines a displacement of the coil from its settling position relative to the magnet system (19, 119) which occurs when the load is placed on the load-receiving part. An electrical current (24) flowing through the coil generates an electromagnetic force between the coil and the magnet system whereby the coil and the load-receiving part are returned to, and/or held at, the settling position. The magnitude of current and the amount of displacement are used to determine the weight force exerted by the load.

Abstract: The instant disclosure relates to a scale assembly applicable to a mobile device, which includes a touch screen and a software application (app). The scale assembly includes a platform, one or more sensing member, one or more flexible member, and a base. When an object is placed on the platform, the sensing member of the scale assembly presses the touch screen of the mobile device, and the mobile device, based on the app, reads the change associated with a sensing value detected by the touch screen, and converts the obtained sensing value difference into the weight of the object.

Abstract: The invention relates to a symmetrical sensor mounting bracket assembly comprising a first sensor mounting bracket and a second sensor mounting bracket combined together, one above the other in parallel orientation; at least one sensor attachment fixture configured to facilitate attachment of the bracket to a sensor mounting fixture and at least one mounting element configured to facilitate attachment of the bracket to a load bearing plate or a sensor support structure.

Abstract: The invention relates to a sensor mounting bracket comprising a base portion and at least one side wall upstanding from the edge of the at least one base portion; at least one sensor attachment fixture located on the base portion and configured to facilitate attachment of the bracket to a sensor mounting fixture, and at least one mounting element extending outwardly from the side wall configured to facilitate attachment of the bracket to a load bearing plate or a sensor support structure. The invention further relates to a symmetrical mounting bracket comprising a pair of sensor mounting brackets combined one above the other in parallel orientation.

Abstract: A POS-based checkout/scale system including system housing having a vertical housing section with a vertical scanning window, and a horizontal housing section. An electronic weigh scale subsystem is integrated with the system housing, and has a weigh platter supported above the horizontal housing section by a pair of cantilever-type weigh scale arms operably connected to an electronic load cell module. During a first mode of operation a powered support mechanism allows the cantilever-type weigh scale arms to bear the full weight of the weigh platter and any items supported thereon so that the electronic load cell module can accurately measure the weight of items on the weigh platter, and generate weigh data for transmission to the host computer system. During a second mode of operation, the powered support mechanism automatically prevents the electronic load cell module from experiencing the weight of items placed on the weigh platter.

Abstract: A system for transferring a nanostructure from a die to a flat side of a large-area substrate. The system has a substrate holder that receives the substrate on a substrate receiving surface. A structural surface of the die is oriented parallel to and opposite the substrate receiving surface. An adjusting means receives the substrate holder and adjusts the position of the substrate relative to the die in an x-direction, y-direction and a rotational direction. An actuator device includes at least two separately controllable actuators that each independently imposes a force in a direction orthogonal to the substrate receiving surface. A force measuring cell is in each actuator for measuring the force applied on the die or substrate. The forces, in combination, produce a single, controllable resultant force at a predetermined location. The single, resultant force is orientated in a direction orthogonal to the substrate receiving surface of the substrate holder.

Abstract: A checkout system includes a workstation having a data capture arrangement for capturing through a horizontal window a target associated with a product to identify the product being checked out at the workstation, and a scale for weighing the product at the workstation. The scale has a scale mechanism, and a weighing platter on which the product is placed for weighing. The weighing platter is integrated with the horizontal window and overlies the scale mechanism. The weighing platter projects past the scale mechanism and has a front end that overhangs the scale mechanism. Non-threaded, interlocking connectors, which are provided on the weighing platter and the scale mechanism, prevent the weighing platter from tipping if a force is exerted on the front end of the weighing platter. The weighing platter is mounted on, and removed from, the scale mechanism without the aid of tools.

Abstract: The present invention relates to an electronic scale having an air pressure change compensation function, which can precisely measure the weight of an object to be weighed even in an environment in which air pressure changes moment by moment in an airtight space such as in a glove box. According to the present invention, there is provided an electronic scale having an internal air pressure measurement sensor, by which the function of correcting the weight of an object to be weighed is provided even in an environment in which air pressure changes such as in the glove box is provided, thus enabling the weight of a sample to be precisely measured even in an environment in which air pressure changes moment by moment.

Abstract: A device for determining the weight per unit area of a moving material web, in particular a fibrous material web includes at least one microwave sensor that has an element for coupling the microwaves and a reference element. The coupling element and the reference element are located at a distance from one another in such a way that the material web can be moved therebetween. At least one microwave sensor element, the coupling element and/or the reference element can be moved such that the distances between the material web and the elements can be adjusted for or during the measurement of the moving material web.

Abstract: A mounting kit for a weighing cell includes a lower mounting plate, an upper mounting plate, two pressure pieces for receiving a weighing cell and at least one safety element forming an integrated fall-arresting, lifting or limiting safeguard. The safety element (6) has a connecting element and a stop element, and the connecting element and stop element are in positive engagement with one another. The connecting element and the upper pressure piece are connected to the upper mounting plate by adhesive force and the stop element and the lower pressure piece are connected to the lower mounting plate by adhesive force.

Abstract: A weighing lift has a single-piece platform for an electronic balance and a holder into which the platform can be plugged. The platform has a load-receiving area for an object to be weighed, a centering pin and a rotation-blocking element. The rotation-blocking element is arranged between the load-receiving area and the centering pin. The single-piece platform is preferably made from a sheet metal material. The platform can be plugged substantially without loose play into the holder. The holder has at its end a first coupling portion with a wedge-shaped groove serving to receive the rotation-blocking element. It also has a body in which a receiving seat is formed for the centering pin, which serves to position the platform parallel to the load direction of the object.

Abstract: A sealing arrangement is provided for a product weigh scale for a food processing apparatus the weigh scale including a support for supporting a product, a member that carries the support, and a weight sensor that senses vertical load on the member. The sealing arrangement includes a seal surrounding the member beneath the support, the seal having a first sealing surface configured to be sealed against a cabinet, and a second sealing surface. The seal is movable between an inactive position wherein the second sealing surface is out of contact with the support and a sealing position wherein the second sealing surface seals against the support. The seal includes a stationary part having the first sealing surface and a sliding part having the second sealing surface. A plurality of springs urge the sliding part toward the sealing position and a source of pressurized fluid is injected between the sliding part and the stationary part to urge the sliding part toward the inactive position.

Abstract: A seat load measuring apparatus which can be effectively adopted to various kinds of motor vehicles without requiring various load sensors having cables of different lengths according to the kinds of motor vehicles, thereby providing improved installation, maintenance and manufacturing benefits. A seat load measuring apparatus may include a connector of a load sensor is a male connector having terminals projecting downwardly. The entry of the male connector faces the open bottom of a protector. On the other hand, a cable to be connected to an ECU is provided with a cable-side connector. The cable-side connector is composed of a female connector which is detachable relative to the male connector. Therefore, the load sensor and the cable are detachable from each other, thereby achieving the adaptability of the load sensor and the connector casing a relative to various kinds of motor vehicles.

Abstract: An over-travel protection device for mounting an occupant classification sensor having a deflecting member, the sensor being mounted between first and second seat mounting portions, is described. The device has a sensor plate positioned adjacent the occupant classification sensor and a spacer having a land. The spacer is positioned adjacent to the occupant classification sensor. A compliant element is located between the sensor plate and the second seat mounting portion. The land is spaced from the first mounting portion until the deflecting member deflects a predetermined amount, causing the land to abut the first seat mounting portion and thereby preventing further displacement of the deflecting member.

Abstract: A weight scale for a extracorporeal pump controller including: a load cell mounted to a support housing; a spring coupled to the load cell to apply a force to the load cell; a scale beam connected to the spring and at a proximal end connected to the support housing, and an overload protection bore having an aperture through which extends said beam and said aperture having at least one edge in a path of said beam, wherein said edge terminates said path and the beam has maximum rated load position in the path before the edge.

Abstract: This invention relates to a weighing module comprising a weighing cell incorporating strain gauges disposed between a lower platform connected to a body of the module and an upper platform connected to a weighing deck and immobilization means for immobilizing the weighing cell during transport of the module, these immobilization means comprising a first bracket fixed to the lower platform, a second bracket fixed to the upper platform and a single connection stud for fixedly connecting these two brackets.

Abstract: A device for detecting the weight loaded on a vehicle seat with a sensor (22) and a spring body (24) that connects the vehicle seat to an underbody (18) of a corresponding motor vehicle and is connected, in one fastening area (e.g., 28), with a bottom rail (20) of the vehicle seat on the one hand and, in another fastening area (e.g., 26), to the underbody (18) of the corresponding motor vehicle on the other hand. One of the mounting areas is provided with a bore (38) through which a seat fastening screw (30) is engaged. The sensor (22) is provided with a travel sensor which is disposed parallel to the seat fastening screw (30) between the two fastening areas (26, 28) or to these rigidly connected parts (retaining plate 60 for example) and which measures the distance of these fastening areas (26, 28) parallel to the seat fastening screw (30).

Abstract: This invention relates to a weighing module comprising a weighing cell incorporating strain gauges disposed between a lower platform connected to a body of the module and an upper platform connected to a weighing deck and immobilization means for immobilizing the weighing cell during transport of the module, these immobilization means comprising a first bracket fixed to the lower platform, a second bracket fixed to the upper platform and a single connection stud for fixedly connecting these two brackets.

Abstract: A weight scale for a extracorporeal pump controller including: a load cell mounted to a support housing; a spring coupled to the load cell to apply a force to the load cell; a scale beam connected to the spring and at a proximal end connected to the support housing, and an overload protection bore having an aperture through which extends said beam and said aperture having at least one edge in a path of said beam, wherein said edge terminates said path and the beam has maximum rated load position in the path before the edge.

Abstract: A printed circuit board (PCB) is provided for use with electrical apparatus. The PCB has a body with a surface provided for the location of electrical components thereon and electrically conductive tracks are provided for electrically connecting the component in a required arrangement. A portion of the PCB body has a test port thereon for allowing testing of functions of the PCB, electrical conductive tracks and/or electrical components. The testing portion of the PCB body provided with the test ports is detachably attached to the PCB body to allow removal therefrom.

Abstract: A method scale system and transducer used in such system for rapid weighing of items. Said scale system includes: a transducer assembly; said transducer assembly in turn including, a transducer having a first member for supporting said item above a reference level, said first member producing a deflection proportional to said weight of said item, a clamping mechanism for clamping said first member to restrict deflection when activated, and a sensor for sensing said deflection and generating a signal representative of said weight as an output signal proportional to said deflection. Said scale system further includes a transport or platform for supporting said item during weighing, said transport being fixed to said first member, and a controller for controlling activation of said clamping mechanism. Said controller controls said clamping mechanism to clamp said transducer as said item is transported into position for weighing so that disturbances of said transducer are reduced and weighing time is decreased.

Abstract: An attachment structure installs a load sensor between a seating portion of a vehicle seat and a vehicle body through an attachment structure unit. The attachment structure unit includes a first attachment bracket for holding one end of the strain unit, and a second attachment bracket for holding the other end of the strain unit. At least a pair of attachment structure units are arranged at right and left portions of a front side, right and left portions of a back side, or right and left portions of the front and back sides of the seating portion relative to the vehicle seat and the first attachment brackets of the attachment structure units of the right and left are connected to each other through a connecting rod.

Abstract: To provide a seat load measuring device which is capable of reducing production cost and assembly cost and which makes it possible to measure the weight of the person on the seat more accurately. The device measures the load of a seat of a passenger vehicle (including the load of an object placed on the seat), wherein the load of the seat is received at three positions, the load being put together in a load cell and transmitted through a transmission mechanism, load measurement being performed by a load cell or a load measurement plate.

Abstract: A weighing scale has a housing (1) that encloses a force transducer (4). A load-transmitting member (9) is connected to the force transducer (4) and passes through an opening to the outside of the housing to transmit the weighing load to the force transducer. An elastic device is interposed between a fixed part that is attached to the housing (1) and a movable part that is attached to the load-transmitting member (9). The elastic device is preferably hollow and controllably expandable and contractible by injecting and removing a fluid through a conduit system (31-43) with a selectively switchable valve device.

Abstract: A seat weight measuring apparatus having enough strength against load in a direction in which a rear side of the vehicle seat is lifted. The seat weight measuring apparatus includes a base frame with a mounting portion at the rear end side of the base frame. The mounting portion includes two stopper bolts as protective mechanisms for transmitting excessive load from a rear rail bracket to the base frame. One stopper bolt is a front (first) stopper bolt, and the other is a rear (second) stopper bolt. Therefore, the mounting portion has higher capability to withstand load than a mounting portion at the front end side of the base frame.

Abstract: Automotive load cells having centralized, multi-axis, loose tolerance overload/limit stops provide improved strain gauge response. The modular, integrated stop assemblies magnify sensor substrate deflection by use of opposed concave (Belleville) springs are used in direct contact with the substrate to accommodate ±Z axis deflection and Mx/My moment angular rotation. A flanged guide member on the load stud permits a wide range of geometries. The substrate is thickened around the load stud hole and the outboard support bolt holes. Hollow rivets assist in design modularity. Strain gauges are placed at the yield zones symmetrically with respect to the X axis. The substrate hole Mx/My gap is larger than the stop bracket hole to insure a positive stop for Mx/My moments prior to yield. The inventive multi-axis stop assembly is used in any type load cell, including rectangular, thinned, notched, necked/dogbone, or cantilever substrates with any strain gauge layout configuration.

Abstract: A method and system for determining if a mail piece contains a loose particulate matter is disclosed. The mass of each mail piece is determined twice utilizing a vibrating tray scale. During one determination, the mass of everything contained within the mail piece, including any type of loose particulate matter, is included. During the other determination, the mass of any loose particulate matter contained within the mail piece is not included. If the mail piece contains any type of loose particulate matter, there will be a difference in the masses of the mail piece as determined by the vibrating tray scale, indicating the mail piece may contain a lose particulate matter. The mail piece can then be diverted from the normal processing path for further inspection, thereby preventing cross-contamination of other mail pieces and processing equipment.

Abstract: A scale 1 for weighing moving loads 17 includes a weighing platform 3 having an entrance end 5 and an exit end 7. The platform 3 is pivotal about a transverse axis 9 between the entrance end 5 and exit end 7. A first limit stop 13 is engageable to limit downward movement of the entrance end 5 and a second limit stop 15 is engageable to limit downward movement of the exit end 7. A weighing device 11 is connected to the platform 3 and is operable to provide an indication of the weight of a load 17 supported on the platform 3 when neither the first limit stop 13 nor the second limit stop 15 is engaged.

Abstract: A liquefied gas amount measuring device includes an electronic display, a retractable cylinder, a grip element, and a hooking lug. The retractable cylinder includes a cylinder body having a retractable rod fitted with a spring at an intermediate section thereof placed therein. One end of the retractable rod extends out of the cylinder body for suspension of the hooking lug to pull out the retractable rod so as to compress the spring in the cylinder body to generate a resilient force after release of pulling force. The other end of the retractable rod that extends out of the cylinder body has a conductive elastic plate bent therefrom at a suitable position. A detecting circuit board is erected in the cylinder corresponding to range of displacement of the elastic plate moved by the retractable rod when pulled. A plurality of detecting circuits on the circuit board are connected when pressed by the elastic plate.

Abstract: A tank weigh module includes a bottom plate that has two lower stop blocks protruding upwardly therefrom, and a top plate that has an upper stop block protruding downwardly therefrom into a space between the two upper stop blocks with a block free play clearance therebetween. A restraining pin is arranged to extend through aligned pin receiving holes in all of the stop blocks. In the lower stop blocks, the holes provide a tight friction fit for the pin, while the hole in the upper stop block has a larger diameter and provides a pin free play clearance. Motion of the top plate relative to the bottom plate in the back-and-forth Y-direction is limited to the extent of the block free play clearance. Travel of the top plate in the side-to-side X-direction and in the uplift Z-direction is restrained by the extent of the pin free play clearance. Tilting and twisting about the X-, Y-, and Z-axes are also limited by the pin interacting with the blocks and the blocks interacting with each other.

Abstract: To provide a seat weight measuring apparatus capable of improving the safety against an abnormal force acting on the seat. A seat weight measuring apparatus (5) includes seat connecting mechanisms (17) arranged between seat fixing portions (19) of a vehicle and a seat (3), and load sensors (13) which detect the seat weight loaded on the mechanisms. It further includes displacement restriction mechanisms (25) that restrict the displacement of the seat (3) relative to the seat fixing portions (19). When the load sensors receive a force exceeding a predetermined level, the excess load is borne by the displacement restriction mechanisms instead of the load sensors.

Abstract: A top-loading balance with a housing, a weighing pan, and a load receptor, wherein the load receptor is connected with a system carrier by a parallel guidance having an upper guide and a lower guide. The system carrier is fixed relative to the housing. One of the guides is divided into two part-guides which, seen in plan view, are disposed preferably on either side of the undivided guide so that the guides do not overlap. In addition, the load receptor, the guides and the system carrier preferably form an integral component. The top-loading balance also includes strain gauges on at least one of the guides to generate a load-dependent electrical signal, which can be measured and converted into e.g. a visual display of the mass. The integral component has two cavities for batteries and the system carrier extends between the two battery cavities. Furthermore, the load receptor is constructed to be approximately U-shaped and the two limbs of the U are disposed laterally near the battery cavities.

Abstract: The digital force sensor (1) includes a measuring cell (2) which is able to be deformed elastically, the deformation of said cell (2) directly resulting from the force with which a robot arm approaches a discrete electronic component (11) in a magazine, then mounts it onto a printed circuit, and digital means (3) for measuring a displacement representative of the deformation of said cell (2), then supplying in response to said displacement a digital signal corresponding to the direct measurement of the force with which the robot arm approaches, then mounts the electronic component onto the printed circuit.

Abstract: A seat weight measuring apparatus measures a seat weight including a weight of a passenger sitting on an automotive seat. The seat weight measuring apparatus is formed of seat connecting mechanisms with arms for connecting the seat to seat fixing portions located on a car body, load sensor mechanisms for receiving and detecting the seat weight applied between the car body and the seat, and displacement restriction mechanisms for restricting displacement of the seat relative to the seat fixing portions within a predetermined range. Each arm of the seat connecting mechanisms has a seat side end and a car body side end, and one or both ends is pivotally supported on pivots. The characteristic of the weight applied to the load sensor is simplified to easily and accurately measure the weight of the passenger on the seat.

Abstract: A method and apparatus is disclosed for supplying a predefined quantity of bulk material to a packaging system. An amount of bulk material which closely approximates the desired package weight is discharged from a surge bin into a loss-in-weight feeder. Accurate single package weight loading of the loss-in-weight feeder yields a lower percentage of weight variance during feeder discharge than more heavily loaded feeders. In addition, the apparatus includes weight bearing springs mounted within the weighing mechanisms of the loss-in-weight feeder such that the weighing mechanisms are not damaged by overloading. The method of accurate filling of the loss-in-weight feeder prior to discharge and the spring protected loss-in-weight feeder cause package portions having optimal weight variance to be supplied for packaging.

Abstract: A thermogravimetric instrument for measuring variations in the weight of a sample caused by temperature variations of the sample. The instrument is equipped with a stopper mechanism for protecting the pivot to facilitate replacing a balance beam. A thermogravimetric instrument comprising: a balance beam 1 placed horizontally; a sample holder 9 located at one end of said balance beam; a torsion wire 3 mounted as a pivot and connected with the other end; a junction portion permitting a sample container side of the balance beam to be detached; and one or more stopper mechanisms using fixed stoppers 4 and metal plates 5. The stopper mechanisms limit relative movement between a supported portion of the torsion wire and the balance beam to within a prescribed amount to limit force applied to the torsion wire during detachment of the balance beam.

Abstract: A shock protection device for a force measuring apparatus, particularly a balance, which includes a material block with a stationary parallelogram side member, a deflectable parallelogram side member serving for receiving the force to be measured, two guide members which are bending-elastic in the plane of the parallelogram and which connect the two parallelogram side members, and at least one lever which is connected through a coupling member to the deflectable parallelogram side member. The shock protection device includes a safety bolt inserted into a bore extending at least partially through the force measuring apparatus, wherein the safety bolt is connected without play to one of the components forming the force measuring apparatus, while the safety bolt has radial play relative to the remaining components through which the bolt extends.

Abstract: A securing system is provided for securing a central, load-supporting, movable platform to a fixed peripheral framework base of a weigh scale, in a torque arm mounting for weigh scales. The securing system includes at least one securing element disposed between the central inner movable load-supporting platform constituted by inner upper and inner lower platforms, between the outer lower frame member and the fixed peripheral mounting frame. Aligned-through holes pass through the central inner lower platform and the outer lower frame member. A dead-end cylindrical bore extends from the upper face of the inner upper platform. A compression spring is seated within such dead-end cylindrical bore. A hole pierces the bottom of the dead-end cylindrical bore. A third aligned through-hole passes through the compression spring. A securing bolt extends concentrically through the three aligned through-holes, and the compression spring and is threadably secured to the mounting frame.

Abstract: A precision balance of the type having a short-stroke measuring system includes a load receptor connected to the measuring system by means of a hanger. The load receptor has the shape of a yoke and extends around the hanger. The yoke-shaped load receptor rests on the ends of two arms of a receiving element, wherein the arms are attached to the bottom of the hanger and elastically prestressed to press against the hanger. The yoke-shaped load receptor is held at the upper part of the hanger in a manner allowing guided sideways movement of the load receptor.

Abstract: A load cell assembly for measuring force loads between two elements includes a four-bar linkage with connection arms mounted at opposite corners. Each of the connection arms include a first end rigidly connected to the four-bar linkage and a free end. An overload stop assembly rigidly connected to the four-bar linkage selectively limits displacement of at least one of the free ends when excessive force loads are present.

Abstract: A weight-sensing member is made from material with good toughness and elastic deformability characteristics and has a top end, a bottom end and a broadened portion located between and integral with the first and second ends. The broadened portion has a pair of opposed peripheries between the top and bottom ends, a horizontally extending through-hole, and a pair of S-shaped slots formed symmetrically on both sides of the through-hole. Each of the slots begins with an open end at a respective one of the opposed peripheries adjacent to a corresponding one of the top and bottom ends and terminates with a closed end near the through-hole. Each S-shaped slot divides partially the weight-sensing member into two separated parts, namely a higher part near the top end and a lower part near the bottom end. The lower part has a higher portion with a protrusion that extends into an opening that is formed in the higher part.

Abstract: An electronic scale is disclosed which has multiple overload protection features for protecting the load cell and a weight distribution plate from excessive strain due to vertical overload on the scale or from twisting resulting from an article being placed thereon which exceeds the load capacity of the scale, or from excessive forces due to mishandling of the scale. A first overload protection is in the form of a boss molded into the base of the scale on which the free end of the load cell abuts if an excessive load is placed on the platter of the scale. A second overload protection is in the form of a peripheral depending flange on the platter which abuts a peripheral portion of the a top cover to prevent excessive strain on the load cell and a weight distribution plate from excessive loading or mishandling of the scale.

Abstract: A balance with a weighing system protected against overloading includes a load receiving member and a weighing dish placed on the load receiving member. The weighing dish rests on dampening elements which are mounted at ends of two U-shaped levers which are supported in a central yoke. The yoke includes abutments which hold the two levers in a horizontal position in an articulated manner. When a load which is within the weighing range is applied to the weighing dish, the two levers and the yoke form a rigid unit. If an excess load is placed on the weighing dish, either dynamically or statically, the two levers are pivoted and tension a stack of springs mounted in the abutments. In addition to dampening by the pivoting of the two levers and tensioning of the stack of springs, additional dampening is effected by dampening elements between the lever ends and the weighing dish.