Load cell for a scale with a switching device for changing the state of calibration data write protection

The invention claimed is: 1. A load cell for a scale, the load cell comprising: a monolithically configured measurement body comprising: a force reception section; a force introduction section; and a joint section arranged between the force reception section and the force introduction section; at least one strain gauge coupled to an upper side of the joint section configured to detect a stretching deformation of the measurement body; electronics arranged on the force reception section and at least partly forming a portion of a circuit board, wherein the electronics are electrically coupled to the at least one strain gauge, and wherein the circuit board comprises a hardware interface electrically coupled to the electronics, wherein the electronics further comprise: a memory configured to store data comprising calibration data of the load cell and/or a value for gravity, wherein the memory comprises electronic write protection configured to be transitioned between an activated electronic write protection state wherein the stored data cannot be changed, and a deactivated electronic write protection state wherein the stored data can be changed; and a switching device configured to transition the memory from the activated electronic write protection state and to the deactivated electronic write protection state; a removable cover coupled to the force reception section of the measurement body with a fastening element extending through the removable cover; and a calibration mark coupled to the fastening element and configured so that removal of the fastening element from the removable cover destroys the calibration mark; wherein the hardware interface is electronically coupled to the electronics so the stored data can be changed via the hardware interface when the memory is in the deactivated electronic write protection state; wherein the removable cover and the fastening element are configured to transition the switching device from an inaccessible state to an accessible state, wherein in the inaccessible state the switching device cannot transition the memory from the activated electronic write protection state to the deactivated electronic write protection state, wherein in the accessible state the switching device can transition the memory from the activated electronic write protection state to the deactivated electronic write protection state, wherein with the removable cover coupled to the force reception section with the fastening element the switching device is in the inaccessible state, and wherein removal of the fastening element and the removable cover, or removal of the fastening element from the removable cover cause the calibration mark to be destroyed and cause a transition of the switching device from the inaccessible state to the accessible state. 2. The load cell in accordance with claim 1 , wherein the fastening element is a fastening screw. 3. The load cell in accordance with claim 1 , wherein the switching device is a sensor or a manually actuable switch. 4. The load cell in accordance with claim 3 , wherein the sensor is configured to detect a removal of the fastening element from its fastened position and to output a switching signal to switch the memory from the activated write protection state to the deactivated write protection state after detecting a removal of the fastening element. 5. The load cell in accordance with claim 3 , wherein the fastening element is a fastening screw and the sensor is configured to detect an unscrewing of the fastening screw. 6. The load cell in accordance with claim 4 , wherein the sensor is a light barrier having a transmitter and a receiver that is arranged such that the optical path between the transmitter and the receiver is interrupted when the fastening element is in its fastened position and that is configured to output a switching signal to switch the memory from the activated write protection state to the deactivated write protection state when the optical path between the transmitter and the receiver is no longer interrupted by the fastening element. 7. The load cell in accordance with claim 6 , wherein a diaphragm is provided behind which the light barrier is arranged to keep light incident from the outside away from the light barrier. 8. The load cell in accordance with claim 2 , wherein the fastening screw is screwed into a hole that is formed in the force reception section and that has an internal thread, with the fastening screw extending through a passage hole provided in the cover, through a corresponding passage hole provided in the circuit board, and through a corresponding passage hole provided in a protective cover. 9. The load cell in accordance with claim 1 , wherein the force reception section has a recess at the upper side which is open toward an end of the measurement body at the force reception section, into which the circuit board is inserted horizontally, and which is covered from above by the removable cover. 10. The load cell in accordance with claim 9 , wherein the circuit board is completely sunk into the recess. 11. The load cell in accordance with claim 1 , wherein the hardware interface is arranged at the side of the circuit board facing the end of the measurement body at the force reception section and/or is freely accessible from outside the load cell. 12. The load cell in accordance with claim 11 , wherein the hardware interface projects outwardly beyond the end of the measurement body at the force reception section. 13. The load cell in accordance with claim 11 , wherein the hardware interface is configured as part of a plug-in connection whose plug-in direction extends horizontally. 14. The load cell in accordance with claim 9 , wherein a protective cover is provided for the circuit board, with the circuit board being combined with the protective cover to form a module that is inserted into the recess. 15. The load cell in accordance with claim 14 , wherein the protective cover has at least one fixing spigot projecting in the direction of and beyond the circuit board and the cover has at least one fixing hole for receiving the respective fixing spigot projecting from a protective cover. 16. The load cell in accordance with claim 14 , wherein the circuit board and the protective cover are mechanically connected to one another via a clip connection. 17. The load cell in accordance with claim 16 , wherein the protective cover has a plurality of bending snap-in hooks that project in the direction of the circuit board and that engage behind the circuit board with shape matching in the assembled state to form the clip connection. 18. The load cell in accordance with claim 17 , wherein the protective cover has reception holes for receiving at least some of the bending snap-in hooks projecting from the protective cover and protruding beyond the circuit board. 19. The load cell in accordance with claim 14 , wherein the protective cover has at least one pin that projects in the direction of the circuit board, that extends through a passage opening provided in the circuit board, and that is supported on the protective cover. 20. The load cell in accordance with claim 14 , wherein the force reception section has at least one fastening hole for a respective fastening means for fastening the load cell to a scale, with the protective cover simultaneously also covering the respective fastening hole and/or the respective fastening means. 21. A scale having a lo