A monolithic weighing block is produced according to the principle of additive manufacturing, that is, 3D printing.

Provided is a weighing apparatus and a method capable of quantifying a failure risk based on an impact load and proposing an inspection content according to an impact. In order to achieve the object described above, a weighing apparatus includes a weighing sensor, an impact load quantifying unit configured to quantify an impact load from an acceleration of a load transmitting unit configured to transmit a load of a weighing object to the weighing sensor, and a failure risk level calculating unit configured to calculate an impact level based on a numerical value of the impact load, and calculate a failure risk level from the number of detections of the impact level in a predetermined period of time from past to present and a weighting coefficient according to the impact level.

A foldable weighing scale includes first and second steel frames, connecting rods fastened at bottoms of the first and second steel frames, first pressure sensors fastened at ends of the connecting rods away from the first frame, second pressure sensors fastened at ends of the connecting rods away from the second frame, a display fastened on the first steel frame, and a power supply box fastened on the first steel frame. The display and the first and second pressure sensors are battery powered. There is further provided a switch button connected to a power supply box, and a rotating connection component between the first steel frame and second steel frame. The rotating connection component includes a first connector for rotating in the first steel frame and a second connector fastened on the second steel frame. Part between the first connector and second connector can rotate and is detachable.

A foldable weighing scale includes first and second steel frames, connecting rods fastened at bottoms of the first and second steel frames, first pressure sensors fastened at ends of the connecting rods away from the first frame, second pressure sensors fastened at ends of the connecting rods away from the second frame, a display fastened on the first steel frame, and a power supply box fastened on the first steel frame. The display and the first and second pressure sensors are battery powered. There is further provided a switch button connected to a power supply box, and a rotating connection component between the first steel frame and second steel frame. The rotating connection component includes a first connector for rotating in the first steel frame and a second connector fastened on the second steel frame. Part between the first connector and second connector can rotate and is detachable.

A weight sensor comprises a sensing system including a target piece and a sensing element, configured to provide changes of a magnetic field, being generated by motion of the target piece. The sensing element senses these changes and provides a signal representative of the position of the target piece. An integrated circuit with processing means can process signals from the sensing element. The flexible piece receives a force stimulus, so that upon exerting a force on the flexible piece by a product due to the weight of said product, the displacement of the target piece with respect to sensing elements can be sensed.

A weight sensor comprises a sensing system including a target piece and a sensing element, configured to provide changes of a magnetic field, being generated by motion of the target piece. The sensing element senses these changes and provides a signal representative of the position of the target piece. An integrated circuit with processing means can process signals from the sensing element. The flexible piece receives a force stimulus, so that upon exerting a force on the flexible piece by a product due to the weight of said product, the displacement of the target piece with respect to sensing elements can be sensed.

A device and method for detection of an overload on a scale which operates by the principle of electromagnetic force compensation The device and method employing, in addition to the measurement voltage arising across a measurement resistor of the scale, an auxiliary voltage that is different from the measurement voltage. The auxiliary voltage being tapped at the input to the compensation coil of the scale or at the output of the compensation coil.

A device and method for detection of an overload on a scale which operates by the principle of electromagnetic force compensation The device and method employing, in addition to the measurement voltage arising across a measurement resistor of the scale, an auxiliary voltage that is different from the measurement voltage. The auxiliary voltage being tapped at the input to the compensation coil of the scale or at the output of the compensation coil.

A pot magnet (20) for a moving coil (10) of an electronic balance operating using the electromagnetic compensation principle includes: —a pot base (24) and a pot wall (22) rising vertically from the pot base, and —a permanent magnet structure (26) disposed within the pot wall and having an annular gap thereto, which structure has a permanent magnet body (261) arranged on the pot base side and a pole plate (262) connected to the surface thereof facing away from the pot base side. The pole plate is fixed by a rigid mechanical connection independent of the permanent magnet body to the pot base at a predetermined distance therefrom and the permanent magnet body is bonded to the pole plate on a surface facing the pot base without contacting the pot base.

A pot magnet (20) for a moving coil (10) of an electronic balance operating using the electromagnetic compensation principle includes: —a pot base (24) and a pot wall (22) rising vertically from the pot base, and —a permanent magnet structure (26) disposed within the pot wall and having an annular gap thereto, which structure has a permanent magnet body (261) arranged on the pot base side and a pole plate (262) connected to the surface thereof facing away from the pot base side. The pole plate is fixed by a rigid mechanical connection independent of the permanent magnet body to the pot base at a predetermined distance therefrom and the permanent magnet body is bonded to the pole plate on a surface facing the pot base without contacting the pot base.