Load cell with overload protection

What is claimed is: 1. A load cell comprising: a beam extending from a fixed section to a load section including a deflection section configured to move under a load and a central beam section spaced from the deflection section; at least one strain gauge coupled to the beam for detecting a load on the beam; and a stop element including a bearing surface coupled to the beam and configured such that the bearing surface does not engage the beam in a first position and engages the beam in a second position based on the load on the beam, wherein in the first position the load on the beam is below a threshold load and in the second position the load on the beam is above the threshold load. 2. The load cell of claim 1 , wherein a first channel is formed between the deflection section and the central beam section. 3. The load cell of claim 2 , wherein the stop element is disposed within a bore of the deflection section and partially extends into the first channel in the first position and the bearing surface engages the central beam section in the second position. 4. The load cell of claim 3 , wherein the deflection section is a first deflection section and the stop element is a first stop element, wherein the beam further includes a second deflection section spaced from the central beam section to form a second channel, the load cell further comprising: a second stop element including a bearing surface disposed within a bore of the second deflection section and partially extending into the second channel in a first position of the second stop element and the bearing surface engaging the central beam section in a second position of the second stop element. 5. The load cell of claim 4 , wherein the load section is spaced from the central beam section to form a third channel, the load cell further comprising: a third stop element secured within the central beam section and extending through the third channel into the load section, the third stop element including a bearing surface, wherein in a first position of the third stop element a gap is formed between the bearing surface of the third stop element and the load section and in a second position of the third stop element the bearing surface engages the load section. 6. The load cell of claim 5 , wherein in a third position of the third stop element the bearing surface of the third stop element engages the load section. 7. The load cell of claim 1 , wherein the stop element is secured to the central beam section and extends into the load section, the stop element including a bearing surface, wherein a gap is formed between the bearing surface of the stop element and the load section. 8. The load cell of claim 7 , wherein the stop element is secured to the central beam section by at least one of threading, press fitting, gluing, or staking. 9. The load cell of claim 7 , wherein the bearing surface is tapered to vary the size of the gap between the bearing surface of the stop element and the load section. 10. The load cell of claim 9 , wherein a bore of the load section that receives and engages the bearing surface is tapered. 11. The load cell of claim 1 , wherein the threshold load is the load at which material of the beam yields. 12. The load cell of claim 1 , wherein the at least one strain gauge is within a Wheatstone bridge circuit. 13. The load cell of claim 1 , wherein the stop element is coupled to the beam through at least one of threading, welding, bonding, or staking. 14. A load cell comprising: a beam extending from a fixed section to a load section that is configured to receive a load, the beam including a central beam section spaced from the load section to form a channel between the load section and central beam section; at least one strain gauge coupled to the beam for detecting a load on the beam; and an adjustable stop element secured to the central beam section and extending through the channel into the load section, the adjustable stop element configured to engage the load section above a first threshold load in a first direction and engage the load section above a second threshold load in a second direction. 15. The load cell of claim 14 , wherein the adjustable stop element includes a tapered head element. 16. The load cell of claim 14 , wherein the load section includes a tapered bore that receives the adjustable stop element. 17. The load cell of claim 14 , wherein the adjustable stop element includes threads and as the adjustable stop element is threaded into the central beam section a gap between a bearing surface of the adjustable stop element and the load section decreases in distance. 18. A load cell comprising: a beam extending from a fixed section to a load section including a deflection section configured to move under a load and a central beam section spaced from the deflection section; at least one strain gauge coupled to the beam for detecting a load on the beam; and a first channel formed between the deflection section and the central beam section; wherein the central beam section and deflection section are configured such that when the deflection section is above a threshold load the deflection section moves through the first channel and engages the central beam before the deflection section reaches a yield condition. 19. The load cell of claim 18 , wherein the central beam section is fixed.