A weighing mechanism (1) includes: a hopper (105) configured to store an article; a hanger (2) on which the hopper is hung; a mass weighing instrument (3) configured to weigh the article stored in the hopper; a connection member (4) that connects the hanger and the mass weighing instrument; a main body member (6) having a through hole (5) through which the connection member penetrates; a diaphragm (7) that connects an outer edge of the connection member and an inner edge of the through hole of the main body member; and a waterproof cover (8) that covers at least part of the through hole between the diaphragm and the hanger. The waterproof cover is detachably attached only to the hanger among the main body member and the hanger.

A weighing mechanism (1) includes: a hopper (105) configured to store an article; a hanger (2) on which the hopper is hung; a mass weighing instrument (3) configured to weigh the article stored in the hopper; a connection member (4) that connects the hanger and the mass weighing instrument; a main body member (6) having a through hole (5) through which the connection member penetrates; a diaphragm (7) that connects an outer edge of the connection member and an inner edge of the through hole of the main body member; and a waterproof cover (8) that covers at least part of the through hole between the diaphragm and the hanger. The waterproof cover is detachably attached only to the hanger among the main body member and the hanger.

Systems, devices, and methods are disclosed herein for monitoring physiological data of subjects seated on a toilet, including systems, devices, and methods for monitoring loads and forces on a scale device. In some embodiments, systems, devices, and methods disclosed herein include a set of sensors that can measure loads and forces present at a scale device receiving the feet of an individual seated in a toilet.

Systems, devices, and methods are disclosed herein for monitoring physiological data of subjects seated on a toilet, including systems, devices, and methods for monitoring loads and forces on a scale device. In some embodiments, systems, devices, and methods disclosed herein include a set of sensors that can measure loads and forces present at a scale device receiving the feet of an individual seated in a toilet.

A scale platform mounting assembly, a scale and a method of assembly. The scale may generally include a housing assembly supportable on a surface; a weight sensor supported in the housing assembly; a platform operable to support an object to be weighed, a force on the platform being applied to the weight sensor; and a mounting assembly to removably connect the platform relative to the housing assembly. The mounting assembly may include a stud supported by one of the housing assembly and the platform, the stud having a ball end, and a mount supported by the other of the housing assembly and the platform, the mount defining a recess having an open end, the ball end of the stud being receivable in the recess through the open end to removably connect the platform.

A scale platform mounting assembly, a scale and a method of assembly. The scale may generally include a housing assembly supportable on a surface; a weight sensor supported in the housing assembly; a platform operable to support an object to be weighed, a force on the platform being applied to the weight sensor; and a mounting assembly to removably connect the platform relative to the housing assembly. The mounting assembly may include a stud supported by one of the housing assembly and the platform, the stud having a ball end, and a mount supported by the other of the housing assembly and the platform, the mount defining a recess having an open end, the ball end of the stud being receivable in the recess through the open end to removably connect the platform.

A load detector for detecting a load of a subject on a bed (BD) having a caster (CT) includes: a plate portion (1) which is one-fold and which is to be supported above an installation surface (F), on which the load detector is installed, separately from the installation surface; and a slope portion (SL1, SL2, SL3, SL4) which is provided around the plate portion and which is inclined relative to a surface of the plate portion so as to extend between the surface of the plate portion and the installation surface. The plate portion includes: a peripheral part (13); a placing part (11) on which the caster is to be placed, and which is provided inside relative to the peripheral part separately from the peripheral part; and a linking part (12) which links the placing part and the peripheral part. The load detector further includes a strain sensor (G) attached to the linking part, and the slope portion includes at least two pairs of slopes (SL1, SL2, SL3, SL4) each including a pair of slopes opposed to each other such that the placing part is interposed between the pair of slopes.

A load detector for detecting a load of a subject on a bed (BD) having a caster (CT) includes: a plate portion (1) which is one-fold and which is to be supported above an installation surface (F), on which the load detector is installed, separately from the installation surface; and a slope portion (SL1, SL2, SL3, SL4) which is provided around the plate portion and which is inclined relative to a surface of the plate portion so as to extend between the surface of the plate portion and the installation surface. The plate portion includes: a peripheral part (13); a placing part (11) on which the caster is to be placed, and which is provided inside relative to the peripheral part separately from the peripheral part; and a linking part (12) which links the placing part and the peripheral part. The load detector further includes a strain sensor (G) attached to the linking part, and the slope portion includes at least two pairs of slopes (SL1, SL2, SL3, SL4) each including a pair of slopes opposed to each other such that the placing part is interposed between the pair of slopes.

According to one aspect, this disclosure describes a novel indirect weight sensing device, systems, and related processes. In at least one embodiment, the present systems include one or more springs with known properties, at least one metal plate on which the springs are fastened and through which the container load is transferred from the container to the ground, a spring deformation sensor by which spring deformation is reckoned, a digital level by which general orientation of the upper plate is determined relative to the ground, a computing unit to collect and process data from the spring deformation sensor and digital level, and an antenna or other such hardware to wirelessly connect to another device and interface with the computing unit.

A sensing and digital display type weighing and code scanning integrated machine with a damping and dust-proof smart case includes a case device. A weigher is placed at an upper end of the case device. A code scanning device is fixedly connected to the upper end of the case device. The case device includes a case, a guide hole, a threaded hole, a through groove, a groove, a fan, a case door, a magnet, a guide rod, a first spring, a host base, a first clamping groove, a computer host, a filter cartridge, a circular groove and an efficient filter screen. The case door is hinged to the case. The magnet is fixedly connected to the case door. The guide rod is slidably nested in the case. The host base is fixedly connected to an upper end of the guide rod. The computer host is clamped in the host base.