Rope load detecting device for detecting the total rope load in multiple elevator ropes

The invention claimed is: 1. A rope load detecting device for detecting total rope load in multiple elevator ropes, the rope load detecting device comprising: a frame held on the multiple elevator ropes, the frame having an opening; and a force sensing element provided in the opening of the frame, wherein the frame is configured to enable a part of each elevator rope passing through the frame to be bent in order to concentrate the force caused by each rope towards the opening of the frame and to the force sensing element, whereby the total rope load in multiple elevator ropes can be detected by the force sensing element. 2. The rope load detecting device according to claim 1 , wherein the force sensing element is a single force sensing element. 3. The rope load detecting device according to claim 1 , wherein the frame includes: a tension beam, the force sensing element being provided in the tension beam; a first connecting bar, a first end of the first connecting bar being fixed to a top end of the tension beam; a second connecting bar, a first end of the second connecting bar being fixed to a bottom end of the tension beam; and a movable member, a first end of the movable member being connected to the tension beam and cooperated with the first and second connecting bars to enable each elevator rope to be bent at a predetermined angle, wherein the first and second connecting bars and the movable member cooperate with each other to enable the force caused by each rope to act on the force sensing element by means of the movable member. 4. The rope load detecting device according to claim 3 , wherein the tension beam is arranged to have a same orientation as the elevator ropes, and the movable member is provided perpendicularly to the tension beam. 5. The rope load detecting device according to claim 4 , wherein the first and second connecting bars are provided parallel to the movable member. 6. The rope load detecting device according to claim 4 , wherein each of the first and second connecting bars and the movable member is formed with a plurality of contact portions spaced apart from each other sequentially along the their length direction away from the tension beam, each of the contact portions respectively contacts one of the multiple elevator ropes at a location spaced from the tension beam, whereby each elevator rope contacts the first and second connecting bars and the movable member at three respective contact portions, and wherein each contact portion in the movable member is located at a position offset from respective contacts portions in the first and second connecting bars in a direction away from the tension beam, so that each elevator rope contacting the contact portions in the first and second connecting bars and the movable member can be bent at a predetermined angle. 7. The rope load detecting device according to claim 6 , wherein the spacing between contact portions in each of the first and second connecting bars and the movable member is/are arranged to match to the spacing between the respective elevator ropes, and wherein the frame is held on the multiple elevator ropes by frictional contact of contact portions in each of the first and second connecting bars and movable member with the respective elevator ropes. 8. The rope load detecting device according to claim 7 , wherein the respective contact portions in the first and second connecting bars are arranged symmetrically or unsymmetrically with respect to the movable member. 9. The rope load detecting device according to claim 3 , wherein each elevator rope is respectively in contact with the surfaces of respective contact portions of the first and second connecting bars toward to the tension beam, and each elevator rope is respectively in contact with the surfaces of respective contact portions of the movable member away from the tension beam. 10. The rope load detecting device according to claim 4 , wherein the opening has an elliptical or rectangular shape and is provided in the tension beam. 11. The rope load detecting device according to claim 10 , wherein the material and stiffness of the tension beam is selected to produce strain as needed for the force sensing element. 12. The rope load detecting device according to a claim 4 , wherein the frame further includes a supporting beam, a top end of the supporting beam is fixedly connected to a second end of the first connecting bar and a bottom end of the supporting beam is fixedly connected to a second end of the second connecting bar, and an aperture is provided between the top and bottom ends of the supporting beam for accommodating second end of the movable member, so that the movable member can freely move toward the tension beam so that exert a pressure on the force sensing element located in the tension beam. 13. The rope load detecting device according to claim 7 , wherein the contact portions are in the form of guiding pins or guiding grooves. 14. The rope load detecting device according to claim 1 , wherein in an elevator with a roping system 1 : 1 , a single rope load detecting device is provided in the position near the end of the elevator ropes fixed on the car side. 15. The rope load detecting device according to claim 14 , wherein the rope load difference detected by the rope load detecting device in the up and down movement direction of elevator car gives an indication of guiding friction of the elevator car. 16. The rope load detecting device according to claim 1 , wherein in an elevator with a roping system 2 : 1 , two rope load detecting devices are respectively provided in the position near the two fixed ends of the elevator ropes. 17. The rope load detecting device according to claim 16 , wherein the total ropes load difference detected respectively by the two rope load detecting devices give an indication of the total friction caused by the guiding friction of the elevator car and counterweight friction and pulleys friction. 18. The rope load detecting device according to claim 2 , wherein the frame includes: a tension beam, the force sensing element being provided in the tension beam; a first connecting bar, a first end of the first connecting bar being fixed to a top end of the tension beam; a second connecting bar, a first end of the second connecting bar being fixed to a bottom end of the tension beam; and a movable member, a first end of the movable member being connected to the tension beam and cooperated with the first and second connecting bars to enable each elevator rope to be bent at a predetermined angle, wherein the first and second connecting bars and the movable member cooperate with each other to enable the force caused by each rope to act on the force sensing element by means of the movable member. 19. The rope load detecting device according to claim 5 , wherein each of the first and second connecting bars and the movable member is formed with a plurality of contact portions spaced apart from each other sequentially along the their length direction away from the tension beam, each of the contact portions respectively contacts one of the multiple elevator ropes at a location spaced from the tension beam, whereby each elevator rope contacts the first and second connecting bars and the movable member at three respective contact portions, and wherein each contact portion in the movable member is located a position offset from respective contact portions in the first and second connecting bars in a direction away from the tension beam, so that each elevator rope conta