摘要:
To enhance the precision in balancing measurement, an electronic balance is provided. The electronic balance includes a door open/close detection sensor 3 for detecting the open/close of a door 52; a weighing precision setting unit, for setting a weighing precision; a calculation unit, for calculating an average time for balancing measurement that is as short as possible and satisfies the weighing precision or an average number of pieces of data; and a selection unit, for selecting an average time for weight measurement or an average number of pieces of data when the opening of the door 52 is detected by the sensor 3, and selecting an average time of normal measurement or an average number of pieces of data when the closing of the door 52 is detected by the sensor 3, and an averaging process is performed with the average time or the average number of pieces of data that is being selected.
摘要:
[Problems] To obtain a stable measurement result in both a measuring-out mode and normal mode, and to obtain a weight value eliminating the influence of convection in the windshield.[Means for Solving Problems] An electronic balance with a windshield 51, the windshield surrounding a measuring pan 53 and having an openable/closable door 52, for averaging measurement data in a response time and obtaining a weight value based on it, the electronic balance including: a door open/close detection sensor 3 for detecting an open/close of the door 52; and a mode changer for switching the measurement mode between a measuring-out mode in which the response time is relatively short when the door 52 is open, and a normal mode in which the response time is relatively long when the door 52 is closed. In addition, in a convection time measurement mode, a convection time period since the door is closed with no sample on the measuring pan 53 until the fluctuation of the measurement data is settled down within a predetermined range is measured and memorized. After the memorized convection time has passed after a sample was put on the measuring pan 53 and the door 52 was closed in a normal measurement mode, the measurement data is averaged in a predetermined response time and the weight value is calculated.
摘要:
In electronic balance, an analog computation portion determines at least a differential control signal according to an amount of displacement of a beam. A digital computation portion determines at least an integral control signal is determined by after the amount of displacement of the beam is digital-converted. The control signal component determined by the digital computation portion is analog-converted. Thereafter, a synthetic PID control signal is determined by being synthesized from a resultant signal and the control signal component, which is determined by the analog computation portion. Subsequently, a coil current based on the synthetic PID control signal is passed through the coil. A weight value is obtained according to the control signal component determined by the digital computation portion.
摘要:
In a top scale balance which has a Roberval's chain 10 and a load weight transmitting lever 30 and in which a movable post 13 of the Roberval's chain 10 is connected to a point of force 32 of the lever 30 through an elastic connection fulcrum 51, a horizontal member 12 nearer to the elastic connection fulcrum 51, out of upper and lower horizontal members 11, 12 of the Roberval's chain 10, is greater in rigidity than the other horizontal member 11. Alternately, the upper and lower horizontal members 11, 12 are equal in rigidity and the elastic connection fulcrum 51 is positioned, in the vertical direction, at the center between the upper and lower horizontal members 11, 12. Such an arrangement prevents or reduces the movement of the elastic connection fulcrum 51 in the back-and-forth direction due to an offset placed load. Thus, even though the top scale balance is made in a compact and thin design with the lever ratio increased, the top scale balance is high in precision with a less offset position error.
摘要:
Disclosed is an electromagnetic-force-balancing-type electronic balance having a magnetic circuit which includes a yoke 4, a first permanent magnet 1, a pole piece 3, a second permanent magnet 2 and a cover 5. A connection member 7 made of a magnetic material is disposed in an air-gap region included in the magnetic circuit. The connection member 7 may be disposed between the second permanent magnet 2 and the cover 5 or between the cover 5 and the yoke 4 to facilitate assembling operations. Alternatively, first and second gap-defining members 8, 9 made of a non-magnetic material may be disposed, respectively, between the first permanent magnet 1 and the yoke 4 and between the second permanent magnet 2 and the cover 5, to provide symmetric properties in magnetic sub-circuits so as to counteract an imbalance in hysteresis characteristic. The present invention can suppress adverse influences of a magnetic resistance caused by an air gap existing in the magnetic circuit of the electronic balance.
摘要:
A floor portion separates a weighing chamber encircled by a windshield case and accommodating a weighing pan, and a balance body accommodating a load detecting section, an incorporated weight, etc. A plurality of vents is provided through the floor portion. A movable floor is arranged to be able to move back and forth on supporting members. A plurality of vents is provided through the movable floor on the rear side of the floor portion so that number and center position of the vents of the movable floor is the same as the vents of the floor portion. When a temperature difference between the temperatures within the weighing chamber and within the balance body is large, the movable floor is moved to permit airflow between the weighing chamber and the balance body.
摘要:
Method and apparatus for calibrating the sensitivity and linearity of the weighing means of an electronic balance, wherein a sensitivity calibration is automatically conducted when the ambient temperature has changed a first predetermined amount or a predetermined period of time has passed since the previous calibration was conducted, and when a sensitivity calibration is conducted, it is checked whether or not the temperature change has exceeded a second predetermined amount greater than the first predetermined amount, and only when the temperature change has exceeded the second predetermined amount since the previous linearity calibration was conducted, a linearity calibration is conducted along with the sensitivity calibration.
摘要:
[Problems] To obtain a stable measurement result in both a measuring-out mode and normal mode, and to obtain a weight value eliminating the influence of convection in the windshield.[Means for Solving Problems] An electronic balance with a windshield 51, the windshield surrounding a measuring pan 53 and having an openable/closable door 52, for averaging measurement data in a response time and obtaining a weight value based on it, the electronic balance including: a door open/close detection sensor 3 for detecting an open/close of the door 52; and a mode changer for switching the measurement mode between a measuring-out mode in which the response time is relatively short when the door 52 is open, and a normal mode in which the response time is relatively long when the door 52 is closed. In addition, in a convection time measurement mode, a convection time period since the door is closed with no sample on the measuring pan 53 until the fluctuation of the measurement data is settled down within a predetermined range is measured and memorized. After the memorized convection time has passed after a sample was put on the measuring pan 53 and the door 52 was closed in a normal measurement mode, the measurement data is averaged in a predetermined response time and the weight value is calculated.
摘要:
Disclosed is an electromagnetic-force-balancing-type electronic balance having a magnetic circuit which includes a yoke 4, a first permanent magnet 1, a pole piece 3, a second permanent magnet 2 and a cover 5. A connection member 7 made of a magnetic material is disposed in an air-gap region included in the magnetic circuit. The connection member 7 may be disposed between the second permanent magnet 2 and the cover 5 or between the cover 5 and the yoke 4 to facilitate assembling operations. Alternatively, first and second gap-defining members 8, 9 made of a non-magnetic material may be disposed, respectively, between the first permanent magnet 1 and the yoke 4 and between the second permanent magnet 2 and the cover 5, to provide symmetric properties in magnetic sub-circuits so as to counteract an imbalance in hysteresis characteristic. The present invention can suppress adverse influences of a magnetic resistance caused by an air gap existing in the magnetic circuit of the electronic balance.
摘要:
An electronic balance includes a load transmission mechanism for receiving an object to be measured, a magnetic field generator having a force coil for generating magnetic field, and a balance beam connected at one end to the load transmission mechanism and disposed adjacent to the magnetic field generator with a fulcrum interposed between a portion connected to the weight section and the magnetic field generator. An electromagnetic force generated by supplying current to the force coil is applied to the balance beam to obtain a weight of the object from the current flowing through the force coil in equilibrium with the load. A damper is attached to the balance beam to control vibration in at least one of a longitudinal direction of the balance beam and a horizontal direction perpendicularly intersecting therewith.