The present disclosure pertains to a wireless scale, interface and release system for recreational and commercial weighing of items of any kind in a uniform and secure manner, furthermore designed for use on any form of bodies of water, tributaries, ocean, vehicle or land. The present disclosure comprises, scale inside of a waterproof housing, and a user interface to prompt the user through the weighing and release of the item or animal.

The present disclosure pertains to a wireless scale, interface and release system for recreational and commercial weighing of items of any kind in a uniform and secure manner, furthermore designed for use on any form of bodies of water, tributaries, ocean, vehicle or land. The present disclosure comprises, scale inside of a waterproof housing, and a user interface to prompt the user through the weighing and release of the item or animal.

A fluid container measurement system is disclosed. The fluid container measurement system is configured to suspend a load measurement assembly a distance above a support surface. The load measurement assembly houses a load cell and a measurement control circuit. The measurement control circuit is coupled to the load cell and configured to receive electrical signals indicative of a force imposed on the load cell. Electrical signals generated by the load cell indicative of the force exerted on the load cell can be used to measure the fluid container attached to the load cell linkage member.

A fluid container measurement system is disclosed. The fluid container measurement system is configured to suspend a load measurement assembly a distance above a support surface. The load measurement assembly houses a load cell and a measurement control circuit. The measurement control circuit is coupled to the load cell and configured to receive electrical signals indicative of a force imposed on the load cell. Electrical signals generated by the load cell indicative of the force exerted on the load cell can be used to measure the fluid container attached to the load cell linkage member.

A work vehicle includes a working device which is configured to excavate and unload soil, a load meter which is configured to measure weight of the soil loaded by the working device, a transport vehicle specifier which is configured to specify a transport vehicle to be loaded with the soil, a vehicle weight acquirer which is configured to acquire vehicle weight information on loadable weight of the transport vehicle, a load weight calculator which calculates load weight of the soil loaded on the transport vehicle, according to the weight measured by the load meter, and an output unit which is configured to output information on a remaining loading capacity of the transport vehicle obtained from the vehicle weight information and the load weight.

A work vehicle includes a working device which is configured to excavate and unload soil, a load meter which is configured to measure weight of the soil loaded by the working device, a transport vehicle specifier which is configured to specify a transport vehicle to be loaded with the soil, a vehicle weight acquirer which is configured to acquire vehicle weight information on loadable weight of the transport vehicle, a load weight calculator which calculates load weight of the soil loaded on the transport vehicle, according to the weight measured by the load meter, and an output unit which is configured to output information on a remaining loading capacity of the transport vehicle obtained from the vehicle weight information and the load weight.

A weight measurement system able to hold a plurality of articles and measure the respective weight thereof. A weight measurement system includes a robot arm, a weight measurement device attached to the robot arm, a plurality of hand movement mechanisms attached to the weight measurement device, and a plurality of hands separately moved by respective motions of the plurality of hand movement mechanisms, wherein the weight measurement device measures a weight of a first article held by a first of the hands moved by a motion of a first of the hand movement mechanisms and a weight of a second article held by a second of the hands moved by a motion of a second of the hand movement mechanisms.

A weight measurement system able to hold a plurality of articles and measure the respective weight thereof. A weight measurement system includes a robot arm, a weight measurement device attached to the robot arm, a plurality of hand movement mechanisms attached to the weight measurement device, and a plurality of hands separately moved by respective motions of the plurality of hand movement mechanisms, wherein the weight measurement device measures a weight of a first article held by a first of the hands moved by a motion of a first of the hand movement mechanisms and a weight of a second article held by a second of the hands moved by a motion of a second of the hand movement mechanisms.

A hydraulic excavator (1) including a controller (21) having a load computing section (52) configured to compute a load of a work target material on the basis of thrust information about a boom cylinder (16) during the period when a front work implement (12) is performing a transporting operation of a work target material, the controller (21) further including: a velocity limiting value computing section (55) configured to compute a limiting value (Vlim) of a velocity of a boom cylinder (16) on the basis of posture information about the work implement (12) at a time of starting the transporting operation; a velocity command correction section (50) configured to correct a velocity command in such a manner that the velocity of the boom cylinder is equal to the limiting value (Vlim) when the velocity of the boom cylinder exceeds the limiting value and output the corrected velocity command; and a drive signal generation section (51) configured to generate and output a drive signal for the boom cylinder on the basis of the velocity command output from a velocity command correction section.

A hydraulic excavator (1) including a controller (21) having a load computing section (52) configured to compute a load of a work target material on the basis of thrust information about a boom cylinder (16) during the period when a front work implement (12) is performing a transporting operation of a work target material, the controller (21) further including: a velocity limiting value computing section (55) configured to compute a limiting value (Vlim) of a velocity of a boom cylinder (16) on the basis of posture information about the work implement (12) at a time of starting the transporting operation; a velocity command correction section (50) configured to correct a velocity command in such a manner that the velocity of the boom cylinder is equal to the limiting value (Vlim) when the velocity of the boom cylinder exceeds the limiting value and output the corrected velocity command; and a drive signal generation section (51) configured to generate and output a drive signal for the boom cylinder on the basis of the velocity command output from a velocity command correction section.