The invention relates to a load cell symmetrical about a central vertical axis and comprising first and second mounting surfaces, each on the same horizontal plane and configured for attachment to a support structure and to a loading fixture respectively.

A dynamic weighing system of a vehicle comprises a beam having a hollow longitudinal body; first and second end portions comprising a part of the relative neutral axis of the beam; an upper rest surface for receiving the vehicle wheel in transit; first and second lower rest surfaces; the first and second lower rest surfaces being opposite the upper rest surface and extending on the horizontal plane defined by the neutral axis of the beam. A base beneath the road surface comprises a seat to receive the beam; a plurality of compression load cells interposed between the base and the beam so that a first compression load cell supports the beam at the first lower rest surface and a second compression load cell supports the beam at the second lower rest surface; a plurality of abutments between the beam and the lateral walls of the seat.

Provided is a mass sensor including a four-corner-adjusting-mechanism capable of reducing the sensitivity of four-corner adjustment without reducing the rigidity of a Roberval mechanism. A mass sensor (1) includes a Roberval mechanism (2) in which a floating frame (21) and a fixing frame (22) are connected by upper and lower sub-frames (23, 24) having thin portions (23b) formed thereon, and a four-corner-adjusting-mechanism (4) to perform parallelism adjustment. The four-corner-adjusting-mechanism (4) includes an adjusting screw (41), and an upper elastic member (42u) and a lower elastic member (42d) disposed in series in the vertical direction so as to sandwich the sub-frame (23) to be subjected to parallelism adjustment.

A multiple weighing scale includes a first measuring device and at least a second measuring device; both for detecting masses of objects. The weighing scale includes a single measuring plate, which is shared by all the measuring devices, arranged in contact with the first measuring device at least in an initial operating configuration and at least one first mobile structure, for selectively moving the second measuring device so as to selectively cause the second measuring device to come into contact with the measuring plate, in order to allow the measurement to be performed by the second measuring device instead of the first measuring device.

A weigh module (1) includes a load cell (2), a base plate (3), a top plate (6), a force-transmitting member (8) serving to transmit the weighing force from the top plate (6) to the load cell (2), and movement-restricting means (9, 10) which serve to limit the horizontal floating movement of the top plate (6) relative to the base plate (3) within a confined range of free play and to transmit lateral force components directly from the top plate (6) to the base plate (3). One part of the movement-restricting means (9, 10) has the form of a channel whose top edges (11) are rigidly connected to the top plate (6) and whose flat bottom extends parallel to the base plate (3) at a clear distance from the latter. The other part of the movement-restricting means (9, 10) is a bolt whose shaft (15) is anchored in the base plate (3) and passes with all-around clearance through a passage (14) in the channel bottom (13), and whose head (16) is larger than the passage (14) and arranged above the channel bottom (13) with a vertical clearance gap from the latter.

A force transmission element for a balance or load cell is adapted to be arranged between a load receiving unit, receiving the load to be weighed, and a load application point of a load cell, in order to transmit the load force exerted by the load. The force transmission element is designed at least partly as a framework composed of hollow rods, in particular round rods, wherein the force transmission element, in particular the hollow rods, is/are produced at least partly using 3D printing technology.

A hanging scale sensor apparatus and hanging scale are disclosed. The hanging scale sensor apparatus includes an adapter beam connected to one end of a bottom face of a weighing sensor with a support base is connected to the other end of the bottom face of the weighing sensor. The adapter beam and a support base are positioned directly below the weighing sensor; and a scale pan suspension structure is connected to the adapter beam for positioning the hanging scale sensor apparatus.

The present disclosure relates to an automated peritoneal dialysis (APD) system using gravity to deliver fluid from one or more source dialysate bags to the patient as the destination. The present disclosure further relates to a drain container arrangement for receiving and storing spent dialysis effluent from a patient, wherein the drain containers include self-opening valves activated when the containers are arranged together, and the valves are self-sealing when the containers are disconnected from one another.

A weighing scale has a housing accommodating a load cell, having fixed, deformation, movable portions. The fixed portion is connected to the housing, and the movable portion bears a spider having a platter. The deformation portion has a strain gauge measuring a weight acting on the platter. A strip light is attached to an external wall of the housing. A state machine of a controller depicts states of the weighing scale. The controller either: applies a voltage to the strip light in a pulsed manner when the state machine is in a first state, and applies a voltage to the strip light constantly in a second state; or applies a voltage to a third group of LED lamps of the strip light constantly in the first state, and applies a voltage to a second group of LED lamps of the strip light constantly in the second state.

The present disclosure relates to an automated peritoneal dialysis (APD) system using gravity to deliver fluid from one or more source dialysate bags to the patient as the destination. The present disclosure further relates to a quick release mechanism useful in the assembly and disassembly of components, including a heater unit and a control unit of a peritoneal dialysis system.