An adjustment device for a splicing display screen includes: a housing including housing walls and an accommodating cavity, the housing walls including first, second, third and fourth housing walls; a piston member including a piston and a piston rod, wherein the piston is slidably connected in the accommodating cavity, a through hole is provided in the fourth housing wall, and the piston rod is slidably connected in the through hole; an elastic pressing portion in the first housing wall, serving as a part of the first housing wall; and a hydraulic sensor in the accommodating cavity. The accommodating cavity is filled with hydraulic fluid, an inner surface of the elastic pressing portion contacts the hydraulic fluid, and the piston member is configured to be driven by the hydraulic fluid to move in an extending direction of the through hole in response to a pressure applied on the elastic pressing portion.

An adjustment device for a splicing display screen includes: a housing including housing walls and an accommodating cavity, the housing walls including first, second, third and fourth housing walls; a piston member including a piston and a piston rod, wherein the piston is slidably connected in the accommodating cavity, a through hole is provided in the fourth housing wall, and the piston rod is slidably connected in the through hole; an elastic pressing portion in the first housing wall, serving as a part of the first housing wall; and a hydraulic sensor in the accommodating cavity. The accommodating cavity is filled with hydraulic fluid, an inner surface of the elastic pressing portion contacts the hydraulic fluid, and the piston member is configured to be driven by the hydraulic fluid to move in an extending direction of the through hole in response to a pressure applied on the elastic pressing portion.

A system and method for measuring the weight of a user using an scale, the scale having an inflatable pouch with a fluid pressure sensor and a temperature sensor placed therein; a processing circuitry connected to the fluid pressure sensor and the temperature sensor; a communication interface connected to the processing circuitry; wherein the fluid pressure sensor is configured to determine an internal pressure from the fluid pressure sensor, and the temperature sensor is configured to determine an internal temperature within the inflatable pouch; wherein the processing circuitry is configured to calculate a weight of an object placed on the inflatable pouch based on the determined internal pressure and internal temperature; and wherein the processing circuitry is configured to relay the calculated weight of the object to a user device via the communication interface.

A system and method for measuring the weight of a user using an scale, the scale having an inflatable pouch with a fluid pressure sensor and a temperature sensor placed therein; a processing circuitry connected to the fluid pressure sensor and the temperature sensor; a communication interface connected to the processing circuitry; wherein the fluid pressure sensor is configured to determine an internal pressure from the fluid pressure sensor, and the temperature sensor is configured to determine an internal temperature within the inflatable pouch; wherein the processing circuitry is configured to calculate a weight of an object placed on the inflatable pouch based on the determined internal pressure and internal temperature; and wherein the processing circuitry is configured to relay the calculated weight of the object to a user device via the communication interface.

A system and method for measuring the weight of a user using an scale, the scale having an inflatable pouch with a fluid pressure sensor and a temperature sensor placed therein; a processing circuitry connected to the fluid pressure sensor and the temperature sensor; a communication interface connected to the processing circuitry; wherein the fluid pressure sensor is configured to determine an internal pressure from the fluid pressure sensor, and the temperature sensor is configured to determine an internal temperature within the inflatable pouch; wherein the processing circuitry is configured to calculate a weight of an object placed on the inflatable pouch based on the determined internal pressure and internal temperature; and wherein the processing circuitry is configured to relay the calculated weight of the object to a user device via the communication interface.

A system and method for measuring the weight of a user using an scale, the scale having an inflatable pouch with a fluid pressure sensor and a temperature sensor placed therein; a processing circuitry connected to the fluid pressure sensor and the temperature sensor; a communication interface connected to the processing circuitry; wherein the fluid pressure sensor is configured to determine an internal pressure from the fluid pressure sensor, and the temperature sensor is configured to determine an internal temperature within the inflatable pouch; wherein the processing circuitry is configured to calculate a weight of an object placed on the inflatable pouch based on the determined internal pressure and internal temperature; and wherein the processing circuitry is configured to relay the calculated weight of the object to a user device via the communication interface.

The vehicle weight measurement device includes a bottom plate in contact with an arm of a suspension device, a piston which presses a diaphragm configuring an oil chamber on an upper surface side of the bottom plate, and a pressure sensor which detects pressure of a measurement fluid in the oil chamber on an lower surface side of the bottom plate. The bottom plate includes a rotation-preventing mechanism with respect to the arm of the suspension device around the pressure sensor. A hanging circumferential edge portion is formed in a flange portion of the piston. A gap is interposed between the flange portion and the bottom plate. A protruding portion of the piston engaged in a cutout of a stopper ring and a protruding portion protruding to an upper surface side and engaged to the cutout so as to be movable in a longitudinal direction are provided.

The vehicle weight measurement device includes a bottom plate in contact with an arm of a suspension device, a piston which presses a diaphragm configuring an oil chamber on an upper surface side of the bottom plate, and a pressure sensor which detects pressure of a measurement fluid in the oil chamber on an lower surface side of the bottom plate. The bottom plate includes a rotation-preventing mechanism with respect to the arm of the suspension device around the pressure sensor. A hanging circumferential edge portion is formed in a flange portion of the piston. A gap is interposed between the flange portion and the bottom plate. A protruding portion of the piston engaged in a cutout of a stopper ring and a protruding portion protruding to an upper surface side and engaged to the cutout so as to be movable in a longitudinal direction are provided.

A load sensing system measures lift cylinder pressure and platform height to estimate platform load. The system functions to prevent overload and is designed to comply with regulatory requirements. The system provides the advantages of a force-based approach using simple, lower cost pressure-based measurement components.

A load sensing system measures lift cylinder pressure and platform height to estimate platform load. The system functions to prevent overload and is designed to comply with regulatory requirements. The system provides the advantages of a force-based approach using simple, lower cost pressure-based measurement components.