Rolling apparatus for flat-rolled metal materials

The invention claimed is: 1. A rolling apparatus for a flat-rolled metal material, the rolling apparatus having at least a pair of upper and lower work rolls and a pair of upper and lower backup rolls, the rolling apparatus comprising: a pair of work roll chocks configured to hold the respective work rolls; housings or project blocks configured to hold the work roll chocks; and one or more load detection devices provided in one of the work roll chocks in a manner that the one or more load detection devices face one of the housings or one of the project blocks, the load detection devices each detecting a load acting on one of the work roll chocks on at least one of an entry side in a rolling direction and an exit side in the rolling direction, wherein each of the work roll chocks has at least one of the load detection devices on each surface facing the housing or the project block in the rolling direction, the load detection devices are disposed in a manner that a roll axis of a corresponding one of the work rolls is located within a range in which the load detection devices are each in contact with the housing or the project block in a draft direction when one load detection device is disposed on each surface of the pair of work roll chocks facing the housing or the project block in the rolling direction, the load detection devices are disposed in a manner that the roll axis of the corresponding one of the work rolls is located within a range between two load detection devices or a range defined by connecting at least three of load detection devices, the range including the surface that is in contact with the housing or the project block in the draft direction, when the plurality of load detection devices are disposed on each surface of the pair of work roll chocks facing the housing or the project block in the rolling direction, a rotation moment generated on each of the work roll chocks caused by the rolling direction force is equal to a counter rotation moment generated by counterforce against the rotation moment by disposing the load detection devices. 2. The rolling apparatus according to claim 1 , wherein the plurality of load detection devices are disposed on each surface of the pair of work roll chocks, at least one of a plurality of the load detection devices is disposed at a position higher than a position of a roll axis of one of the work rolls held by a corresponding one of the work roll chocks, the load detection devices being arranged in a manner that the load detection devices are shifted from each other in the draft direction of the work roll, and wherein at least one of the plurality of the load detection devices is disposed at a position lower than the position of the roll axis of the one of the work rolls held by the corresponding one of the work roll chocks, the load detection devices being arranged in a manner that the load detection devices are shifted from each other in the draft direction of the work roll. 3. The rolling apparatus according to claim 1 , further comprising: a load calculation device configured to calculate a rolling direction force by adding up loads detected by a plurality of the load detection devices provided on the entry side in the rolling direction or the exit side in the rolling direction. 4. The rolling apparatus according to claim 1 , wherein the plurality of load detection devices are disposed on each surface of the pair of work roll chocks, one or more load detection devices other than at least one of the load detection devices out of the plurality of load detection devices are replaced with respective protruding parts, and wherein the at least one of the load detection devices and the protruding parts are disposed in a manner that the at least one of the load detection devices and the protruding parts are shifted in the draft direction so as to be protruded from one of side surfaces that face one of the housings or one of the project blocks of one of the work roll chocks. 5. The rolling apparatus according to claim 4 , wherein a load detection device disposed on the entry side in the rolling direction and a load detection device disposed on the exit side in the rolling direction are located at an identical height with each other in the draft direction, and wherein a protruding part disposed on the entry side in the rolling direction and a protruding part disposed on the exit side in the rolling direction, the protruding parts being disposed in a corresponding manner to the respective load detection devices, are located at an identical height with each other in the draft direction. 6. The rolling apparatus according to claim 4 , further comprising: a load calculation device configured to calculate a rolling direction force on a basis of a load detected by each of the load detection devices, an interval in the draft direction between an axis of a corresponding one of the work rolls held by a corresponding one of the work roll chocks and the load detection device, and an interval in the draft direction between the axis of the work roll and a corresponding one of the protruding parts. 7. A rolling apparatus for a flat-rolled metal material, the rolling apparatus having at least a pair of upper and lower work rolls and a pair of upper and lower backup rolls, the rolling apparatus comprising: a pair of work roll chocks configured to hold the respective work rolls; housings or project blocks configured to hold the work roll chocks; and one or more load detection devices provided in one of the work roll chocks in a manner that the one or more load detection devices face one of the housings or one of the project blocks, the load detection devices each detecting a load acting on one of the work roll chocks on at least one of an entry side in a rolling direction and an exit side in the rolling direction, wherein each of the work roll chocks has at least one of the load detection devices on each surface facing the housing or the project block in the rolling direction, the load detection devices are disposed in a manner that a center of a radial bearing provided to one of the work roll chocks is located within a range in which the load detection devices are each in contact with the housing or the project block in a roll axis direction, when one load detection device is disposed on each surface of the pair of work roll chocks, the load detection devices are disposed in a manner that the center of the radial bearing provided to one of the work roll chocks is located within a range between the two load detection devices or a range defined by connecting at least three of load detection devices, the range including the surface that in contact with the housing or the project block in the roll axis direction, when the plurality of load detection devices are disposed on each surface of the pair of work roll chocks, a rotation moment generated on each of the work roll chocks caused by the rolling direction force is equal to a counter rotation moment generated by counterforce against the rotation moment by disposing the load detection devices. 8. The rolling apparatus according to claim 7 , wherein the plurality of load detection devices are disposed on each surface of the pair of work roll chocks, one or more load detection devices other than at least one of the load detection devices out of the plurality of load detection devices are replaced with respective protruding parts, and wherein the at least one of the load detection devices and the protruding parts are disposed in a manner that the at least one of the load detection devices and the protruding parts are shifted in the roll axis direction so as to be protruded from one of side surfaces that face one of the housings or one of the project blocks of one of the