Overload prevention mechanism

What is claimed is: 1. An overload prevention mechanism comprising: a load receiving part comprising a support part supporting a weighing dish, a side wall continuously provided downward from the support part, and a flange continuously provided sideways from a vicinity of a lower end of the side wall, and having three or more ribs on an upper surface thereof; a pedestal located below the load receiving part and having a fastening hole at a peripheral edge thereof; an elastic body in contact with the load receiving part at one end and with the pedestal at the other end, and biasing the load receiving part and the pedestal in a direction to be apart from each other; and a connection member having grooves engaging with the ribs on a lower surface thereof, having a through hole in the center thereof and having a fastening hole at a bulging portion, the three or more ribs being disposed in such a manner that at least two of the ribs are disposed at each of both sides of a horizontally disposed line passing through at least one of the ribs and intersecting a vertical center line of the load receiving part so as to restrict inclination and rattling in a rotational direction of the load receiving part due to a load applied to the load receiving part, and the side wall being fitted with the through hole, so that the lower part of the side wall is brought into contact with the through hole of the connection member, the connection member and the pedestal being fixed to each other by fastening between the fastening hole of the connection member and the corresponding fastening hole of the pedestal. 2. The overload prevention mechanism according to claim 1 , wherein the three or more ribs are arranged at equal intervals in a circumferential direction around the center of load receiving part. 3. The overload prevention mechanism according to claim 2 , wherein the number of the ribs is an odd number. 4. The overload prevention mechanism according to claim 2 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact. 5. The overload prevention mechanism according to claim 3 , wherein the number of the ribs is three, and the ribs are arranged at equal intervals in a circumferential direction. 6. The overload prevention mechanism according to claim 3 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact. 7. The overload prevention mechanism according to claim 5 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact. 8. The overload prevention mechanism according to claim 1 , wherein the number of the ribs is an odd number. 9. The overload prevention mechanism according to claim 8 , wherein the number of the ribs is three, and the ribs are arranged at equal intervals in a circumferential direction. 10. The overload prevention mechanism according to claim 8 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact. 11. The overload prevention mechanism according to claim 9 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact. 12. The overload prevention mechanism according to claim 1 , wherein sections of upper ends of the ribs have semicircular shapes, the grooves are downward V-shaped grooves, and the ribs and the V-shaped grooves are brought into line contact.