Patent Number: 
Section: claims

1. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  at least two support members for supporting opposite end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members, wherein at least some of said radiation-absorbing plates are pulled so as to be stretched in a longitudinal direction of said radiation-absorbing plates, and said radiation-absorbing plates are fixed to said support members. 2. The X-ray scatter reducing grid as set forth in  claim 1 , wherein said support members are constructed by two first support members which support the opposite end portions of each of said radiation-absorbing plates and two second support members which connect to said two first support members so that said four support members constitute a rectangular frame. claim 1 3. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed in parallel at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  at least two support members for supporting opposite lengthwise end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members,  wherein said plate-receiving means are constructed by a plurality of slots which receive and support the opposite lengthwise end portions of each of said radiation-absorbing plates, and  wherein at least some of said radiation-absorbing plates are pulled so as to be stretched in a longitudinal direction of said radiation-absorbing plates, and said radiation-absorbing plates are fixed to said support members. 4. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed in parallel at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  at least two support members for supporting opposite lengthwise end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members,  wherein said plate-receiving means are constructed by a plurality of elongated holes which receive and support the opposite lengthwise end portions of each of said radiation-absorbing plates, and  wherein at least some of said radiation-absorbing plates are pulled so as to be stretched in a longitudinal direction of said radiation-absorbing plates, and said radiation-absorbing plates are fixed to said support members. 5. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  at least two support members for supporting opposite lengthwise end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members,  wherein said plate-receiving means is constructed by a plurality of elongated holes which receive and support the opposite end portions of each of said radiation-absorbing plates, and  wherein at least some of said radiation-absorbing plates are pulled so as to be stretched in a longitudinal direction of said radiation-absorbing plates, and said radiation-absorbing plates are fixed to said support members. 6. A method of fabricating an X-ray scatter reducing grid, comprising: inserting lengthwise opposite end portions of each of a plurality of radiation-absorbing plates into plate-receiving means formed in at least two support members, said radiation-absorbing plates being disposed in parallel at predetermined intervals over an entire area to be exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels;  supporting the lengthwise opposite end portions of each of said radiation-absorbing plates by said plate-receiving means;  fixing said radiation-absorbing plates to said plate-receiving means by at least one of adhering, fusing, and press-fitting,  pulling at least some of said radiation-absorbing plates so as to stretch pulled ones of said radiation-absorbing plates in a longitudinal direction of said radiation-absorbing plates; and fixing said pulled ones of said radiation-absorbing plates to said support members. 7. A method of fabrication an X-ray scatter reducing grid, comprising: inserting lengthwise opposite end portions of each of a plurality of radiation-absorbing plates into plate-receiving means formed in at least two support members, said radiation-absorbing plates being disposed in parallel at predetermined intervals over an entire area to be exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels;  supporting the lengthwise opposite end portions of each of said radiation-absorbing plates by said plate-receiving means;  wherein said X-ray scatter reducing grid includes at least one of a ceiling plate and a bottom plate, the method further comprising fixing said radiation-absorbing plates to at least one of said ceiling plate and said bottom plate,  pulling at least some of said radiation-absorbing plates so as to stretch pulled ones of said radiation-absorbing plates in a longitudinal direction of said radiation-absorbing plates; and  fixing said pulled ones of said radiation-absorbing plates to said support members. 8. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed in parallel at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  two support members for supporting opposite end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members,  wherein said radiation-absorbing plates are fixed to said two support member, elastic bodies being interposed between said two support members so that said two support members are urged in a direction in which said radiation-absorbing plates are stretched. 9. The X-ray scatter reducing grid as set forth in  claim 8 , wherein said support members are constructed by two first support members which support the opposite end portions of each of said radiation-absorbing plates and two second support members which connect to said two first support member so that said four support members constitute a rectangular frame. claim 8 10. An X-ray scatter reducing grid comprising: a plurality of radiation-absorbing plates disposed at predetermined intervals over an entire area exposed to radiation, each radiation-absorbing plate comprising a radiation-absorbing substance and having width in a direction in which said radiation travels; and  at least two support members for supporting opposite lengthwise end portions of each of said radiation-absorbing plates, said support members being provided with plate-receiving means which receive said plurality of radiation-absorbing plates, said radiation-absorbing plates being inserted in said plate-receiving means and being supported by said support members,  wherein said plate-receiving means is constructed by a plurality of elongated holes which receive and support the opposite end portions of each of said radiation-absorbing plates, and  wherein said radiation-absorbing plates are fixed to said two support members, elastic bodies being interposed between said two support members so that said two support members are urged in a direction in which said radiation-absorbing plates are stretched.