Platform scale and load detection unit
First Claim
1. A platform scale for weighing an object to be weighed by supporting it with one or a plurality of load detection section characterized in that the load detection section comprises:
- a load sensor including a tuning fork vibrator and a block body coupled to the tuning fork vibrator for transmitting an applied load by reducing the load;
a circuit board mounting thereon circuitry for converting a signal from the tuning fork vibrator into a digital signal; and
a sensor case for accommodating the load sensor and the circuit board;
wherein the sensor case is made of casting stainless material by a lost wax process and is directly coupled to parallel base frames in a manner to maintain the distance between the base frames, wherein said sensor case and said parallel base frames together form a substantially rigid base, with said sensor case having sufficient rigidity to serve as a structural member for maintaining the distance between the base frames;
wherein the sensor case comprises a load sensor chamber for containing the load sensor, a circuit board chamber for containing the circuit board and an isolation wall for preventing air flow between the load sensor chamber and the circuit board chamber and ventilation of the load sensor chamber is carried out only through an air hole in the bottom of the load sensor chamber.
1 Assignment
0 Petitions
Accused Products
Abstract
(Problem)
To provide a high precision platform scale
(Means to Solve the Problem)
A platform scale for weighing an object to be weighed by supporting it by a plurality of load detection sections, wherein the load detection section comprises a load sensor 40 having a block body 42 for transmitting an applied load to a tuning fork vibrator 41 coupled to the block body 42 by reducing the load, a circuit board having fabricated thereon circuitry for converting a signal from the tuning fork vibrator into a digital signal and a sensor case 33 for accommodating the load sensor and the circuit board. The sensor case 33 is made by casting stainless material by a lost wax process and is directly coupled to parallel base frames 20 for maintaining the distance between the base frames. The sensor case has sufficient mechanical strength and also acts as a structural member for the base frames, thereby reducing the number of components and the height of a weighing table.
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Citations
5 Claims
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1. A platform scale for weighing an object to be weighed by supporting it with one or a plurality of load detection section characterized in that the load detection section comprises:
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a load sensor including a tuning fork vibrator and a block body coupled to the tuning fork vibrator for transmitting an applied load by reducing the load; a circuit board mounting thereon circuitry for converting a signal from the tuning fork vibrator into a digital signal; and a sensor case for accommodating the load sensor and the circuit board; wherein the sensor case is made of casting stainless material by a lost wax process and is directly coupled to parallel base frames in a manner to maintain the distance between the base frames, wherein said sensor case and said parallel base frames together form a substantially rigid base, with said sensor case having sufficient rigidity to serve as a structural member for maintaining the distance between the base frames; wherein the sensor case comprises a load sensor chamber for containing the load sensor, a circuit board chamber for containing the circuit board and an isolation wall for preventing air flow between the load sensor chamber and the circuit board chamber and ventilation of the load sensor chamber is carried out only through an air hole in the bottom of the load sensor chamber. - View Dependent Claims (2, 3)
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4. A load detection unit to be used with a platform scale for weighing an object to be weighed, comprising:
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a load sensor including a tuning fork vibrator and a block body coupled to the tuning fork vibrator for transmitting an applied load by reducing the load; a circuit board mounted thereon circuitry for converting a signal from the tuning fork vibrator into a digital signal; and a sensor case for accommodating the load sensor and the circuit board, wherein the sensor case is made by casting stainless material by a lost wax process and comprises a load sensor chamber containing the load sensor therein, a circuit board chamber containing said circuit board therein, and an isolation wall preventing air flow between the load sensor chamber and the circuit board chamber, wherein said isolation wall has a low heat conductivity as compared to aluminum such as to limit heat conduction to the load sensor chamber from the circuit board chamber, and wherein air in the load sensor chamber is ventilated only through an air hole in the bottom of the load sensor chamber. - View Dependent Claims (5)
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Specification