Load cell with streamlined structure and overload protection

What is claimed is: 1. A load cell for an electronic balance, comprising: a load receiving member; a main member that comprises: a movable portion, a fixed portion that comprises an end portion and an extending portion that extends forwardly from the end portion toward the movable portion; and a parallel guiding member that connecting the fixed portion to the movable portion, such that the movable portion is movable vertically relative to the fixed portion when a load is applied on the movable portion; and a load transmitting member, formed of a single piece of a solid material with a longitudinally-extending through hole formed therein that extends in a longitudinal direction and has a downward opening when the load cell is in an operational mode, the load transmitting member comprising: a first mounting portion for mounting the load receiving member, a second mounting portion for mounting the load transmitting member to the movable portion; and a parallel guiding connection member for connecting the first mounting portion to the second mounting portion, such that the first mounting portion is movable vertically relative to the second mounting portion when a load being applied on the first mounting portion, and wherein the extending portion of fixed portion serves as a stop portion by preventing the first mounting portion from further moving downwardly, providing protection against overload. 2. The load cell of claim 1 , wherein the load transmitting member is set above the main member when the load cell is in an operational mode. 3. The load cell of claim 2 , wherein the parallel guiding connection member comprises: an upper parallel guiding connection plate, a lower parallel guiding connection plate; and wherein the parallel guiding connection member has a transverse through hole formed therein with an “H”-shape that extends horizontally in a transverse direction between the upper parallel guiding connection plate and the lower parallel guiding connection plate when the load cell is in an operational mode. 4. The load cell of claim 3 , wherein the load transmitting member has a downwardly-extending through hole formed therein and disposed between the first mounting portion and the second mounting portion, the downwardly-extending through hole extending downwardly when the load cell is in an operational mode. 5. The load cell of claim 1 , wherein the parallel guiding connection member comprises: an upper parallel guiding connection plate, a lower parallel guiding connection plate; and wherein the parallel guiding connection member has a transverse through hole formed therein with an “H”-shape that extends horizontally in a transverse direction between the upper parallel guiding connection plate and the lower parallel guiding connection plate when the load cell is in an operational mode. 6. The load cell of claim 1 , wherein the load transmitting member has a downwardly-extending through hole formed therein and disposed between the first mounting portion and the second mounting portion, the through hole extending downwardly when the load cell is in an operational mode. 7. The load cell according to claim 1 , wherein the movable portion comprises: a body portion; and an attaching portion that extends upwardly from the body portion, the load transmitting member being mounted thereon; wherein at least a portion of the attaching portion is disposed in the longitudinally-extending through hole. 8. The load cell of claim 1 , wherein the parallel guiding connection member comprises; an upper parallel guiding connection plate; and a lower parallel guiding connection plate; wherein at least a portion of the lower parallel guiding connection plate is disposed in the longitudinally-extending third through hole. 9. The load cell of claim 1 , wherein: the first mounting portion has two protruding portions extending downwardly therefrom, the two protruding portions disposed on both sides thereof. 10. An electronic balance comprising a load cell according to claim 1 .