Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
PROBLEM TO BE SOLVED: To provide an insert member which can maintain rigid fixed states of both members even if the insert member is placed in a high-temperature atmosphere, related to the insert member in which different kinds of the members which are different in thermal expansion coefficients are assembled to each other in a normal temperature atmosphere.SOLUTION: An insert member 10 comprises a first member 1 which is relatively small in a thermal expansion coefficient, and has recess 11, and a second member 2 which is relatively large in a thermal expansion coefficient, and has a protrusion 21. The protrusion 21 is pressure-inserted into the recess 11. When a shape, a size and a position of the protrusion 21 with respect to a shape and a size of the recess 11 at a normal temperature are regulated as relative physical amounts of the protrusion at a normal temperature, and a shape, a size and a position of the protrusion 21 with respect to a shape and a size of the recess 11 at a high temperature to which the insert member 10 is exposed are regulated as relative physical amounts of the protrusion at a high temperature, the recess 11 is composed of continuation including the relative physical amounts of the protrusion at the normal temperature, and the relative physical amounts of the protrusion at the high temperature.SELECTED DRAWING: Figure 4
【課題】相互に熱膨張率の異なる異種部材同士が常温雰囲気下で組み付けられてなるインサート部材に関し、このインサート部材が高温雰囲気下に置かれた場合でも双方の部材の強固な固定状態を維持することのできるインサート部材を提供する。【解決手段】熱膨張率が相対的に小さく、凹部11を備えた第一部材1と、熱膨張率が相対的に大きく、凸部21を備えた第二部材2を備え、凹部11に凸部21が圧入されてなるインサート部材10であり、常温時における凹部11の形状および大きさに対する凸部21の形状、大きさおよび位置を、常温時における凸部の相対的な物理量と規定し、インサート部材10が晒される高温時における凹部11の形状および大きさに対する凸部21の形状、大きさおよび位置を、高温時における凸部の相対的な物理量と規定した場合、凹部11は常温時における凸部の相対的な物理量と高温時における凸部の相対的な物理量が含まれる連続からなる。【選択図】図4
PROBLEM TO BE SOLVED: To provide an insert member which can maintain rigid fixed states of both members even if the insert member is placed in a high-temperature atmosphere, related to the insert member in which different kinds of the members which are different in thermal expansion coefficients are assembled to each other in a normal temperature atmosphere.SOLUTION: An insert member 10 comprises a first member 1 which is relatively small in a thermal expansion coefficient, and has recess 11, and a second member 2 which is relatively large in a thermal expansion coefficient, and has a protrusion 21. The protrusion 21 is pressure-inserted into the recess 11. When a shape, a size and a position of the protrusion 21 with respect to a shape and a size of the recess 11 at a normal temperature are regulated as relative physical amounts of the protrusion at a normal temperature, and a shape, a size and a position of the protrusion 21 with respect to a shape and a size of the recess 11 at a high temperature to which the insert member 10 is exposed are regulated as relative physical amounts of the protrusion at a high temperature, the recess 11 is composed of continuation including the relative physical amounts of the protrusion at the normal temperature, and the relative physical amounts of the protrusion at the high temperature.SELECTED DRAWING: Figure 4
【課題】相互に熱膨張率の異なる異種部材同士が常温雰囲気下で組み付けられてなるインサート部材に関し、このインサート部材が高温雰囲気下に置かれた場合でも双方の部材の強固な固定状態を維持することのできるインサート部材を提供する。【解決手段】熱膨張率が相対的に小さく、凹部11を備えた第一部材1と、熱膨張率が相対的に大きく、凸部21を備えた第二部材2を備え、凹部11に凸部21が圧入されてなるインサート部材10であり、常温時における凹部11の形状および大きさに対する凸部21の形状、大きさおよび位置を、常温時における凸部の相対的な物理量と規定し、インサート部材10が晒される高温時における凹部11の形状および大きさに対する凸部21の形状、大きさおよび位置を、高温時における凸部の相対的な物理量と規定した場合、凹部11は常温時における凸部の相対的な物理量と高温時における凸部の相対的な物理量が含まれる連続からなる。【選択図】図4
INSERT MEMBER
インサート部材
YAMASHITA OSAMU (Autor:in)
01.02.2016
Patent
Elektronische Ressource
Japanisch