Reducing elongation of roping or belting of an elevator by pretensioning the roping or belting of the elevator

The invention claimed is: 1. An elevator, comprising: an elevator car configured to transport a load; a counterweight; at least one roping or belting travelling over a top pulley assembly so as to connect the elevator car and the counterweight to each other via the top pulley assembly; at least one roping or belting travelling over a bottom pulley assembly so as to connect the elevator car and the counterweight to each other via the bottom pulley assembly; a tensioning device configured to pretension the at least one roping or belting travelling over the bottom pulley assembly to a force equal to or greater than a weight of a nominal load of the elevator car such that the at least one roping or belting is pretensioned prior to loading the elevator car; and at least one brake configured to increase a spring constant associated with at least one of the at least one roping or belting travelling over the top pulley assembly and the at least one roping or belting travelling over the bottom pulley assembly while loading the elevator car by preventing a rotation of the at least one of the top pulley assembly and the bottom pulley assembly while the tensioning device pretensions the at least one roping or belting travelling over the bottom pulley assembly. 2. The elevator according to claim 1 , wherein the tensioning device includes a lock and a spring. 3. An improvement for reducing movement of the elevator car incident to elongation of the at least one roping or belting of the elevator during loading of the elevator car, wherein the elevator according to claim 1 is used so that the pretensioned at least one roping or belting traveling via the bottom pulley assembly and the at least one roping or belting traveling via the top pulley assembly interact with each other and provide a reduction of the movement of the elevator car during the loading of the elevator car incident to elasticities of the at least one roping or belting travelling via the top pulley assembly and the at least one roping or belting traveling via the bottom pulley assembly as compared to when the at least one roping or belting traveling via the bottom pulley assembly is not pretensioned. 4. The elevator according to claim 1 , wherein, for different loads, the pretensioning of the at least one roping or belting traveling via the bottom pulley assembly is pretensioned to different forces based on the different loads. 5. The elevator according to claim 1 , wherein the pretensioning of the at least one roping or belting is configured to act on a section of the at least one roping or belting between the elevator car and the bottom pulley assembly. 6. The elevator of claim 1 , wherein the at least one brake comprises: a top brake configured to prevent the rotation of the top pulley assembly while loading the elevator car; and a bottom brake configured to prevent the rotation of the bottom pulley assembly while loading the weight of the load into the elevator car. 7. The elevator of claim 1 , wherein, while the tensioning device pretensions the at least one roping or belting travelling over the bottom pulley assembly, the at least one brake is configured to, increase a spring constant associated with the top pulley assembly while loading the elevator car, when the at least one brake prevents the rotation of the top pulley assembly, increase a spring constant associated with bottom top pulley assembly while loading the elevator car, when the at least one brake prevents the rotation of the bottom pulley assembly, and increase spring constants associated with the top pulley assembly and the bottom pulley assembly while loading the elevator car, when the at least one brake prevents the rotation of both the top pulley assembly and the bottom pulley assembly. 8. A method of pretensioning of at least one roping or belting traveling over a bottom pulley assembly, the method comprising: moving reciprocally an elevator car and a counterweight; connecting the elevator car and the counterweight to each other via a top pulley assembly; connecting the elevator car and the counterweight to each other via the bottom pulley assembly; pretensioning the at least one roping or belting travelling over the bottom pulley assembly using a tensioning device, such that the pretensioning pretensions to a force equal to or greater than a weight of a nominal load of the elevator car such that the at least one roping or belting is pretensioned prior to loading the elevator car; and increasing a spring constant associated with at least one of the at least one roping or belting travelling over the top pulley assembly and the at least one roping or belting travelling over the bottom pulley assembly while loading the elevator car by preventing a rotation, using at least one brake, of the at least one of the top pulley assembly and the bottom pulley assembly of the at least one roping or belting while the elevator car is loaded. 9. The method according to claim 8 , wherein, the preventing the rotation is performed at least in part by a brake device. 10. The method according to claim 8 , wherein, the preventing the rotation includes preventing a rotation of two or more pulleys of the top pulley assembly or the bottom pulley assembly at least in part by the at least one brake. 11. The method according to claim 10 , wherein, the preventing the rotation includes preventing a rotation of at least one pulley of the top pulley assembly and a rotation of at least one pulley of the bottom pulley assembly. 12. A method of operating an elevator, the elevator including an elevator car connected to a counterweight via a top pulley assembly using a first rope, and a bottom pulley assembly using a second rope and a tensioning device, the method comprising: pretentioning, using the tensioning device, the second rope, to a force equal to or greater than a nominal weight of the elevator car such that the second rope is pretensioned prior to loading the elevator car; and increasing a spring constant associated with at least one of the first rope and the second rope while loading the elevator car by preventing a rotation, using at least one brake, of at least one of the top pulley assembly and the bottom pulley assembly while the elevator car is loaded. 13. The method according to claim 12 , wherein the increasing the spring constant includes preventing the rotation of both the top pulley assembly and the bottom pulley assembly while loading the elevator car.