Dynamometer device

The invention claimed is: 1. A dynamometer device comprising: a dynamometer in which a tip end of a main shaft projects from a housing; a torque meter that is disposed between the main shaft and a test-piece connection section; a heat insulation plate as a separate member that is inserted between two flange surfaces in any flange coupling positioned between the main shaft and the torque meter; a thermally sprayed ceramic layer provided on at least one flange surface that is in contact with the heat insulation plate wherein the thermally sprayed ceramic layer enables the heat insulation plate to be thin; a cover that is formed to surround at least a periphery of the torque meter between an end surface of the housing and the test-piece connection section; and an air conditioner that supplies a temperature-controlled wind to an inside space of the cover. 2. The dynamometer device as claimed in claim 1 , wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; and wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate. 3. The dynamometer device as claimed in claim 2 , wherein the heat insulation plate is formed into a ring shape to have a circular opening section at a center thereof; and wherein a circular projection section formed on an inner peripheral part of one of the first rotation member and the second rotation member and a circular recess section formed on an inner peripheral part of the other are fit to each other through the opening section. 4. The dynamometer device as claimed in claim 3 , wherein the thermally sprayed ceramic layer is provided on at least one contact surface of the projection section and the recess section that are fit to each other. 5. The dynamometer device as claimed in claim 1 , wherein the cover extends from the end surface of the housing to a front end surface of the test-piece connection section; and wherein the cover is formed at a front wall along a front end surface of the test-piece connection section with a circular opening section through which the test-piece connection section is exposed. 6. The dynamometer device as claimed in claim 5 , wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; and wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate. 7. The dynamometer device as claimed in claim 1 , wherein a second heat insulation plate is provided at any flange coupling that is positioned on a side of the test-piece connection section of the torque meter. 8. The dynamometer device as claimed in claim 7 , wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; and wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate. 9. A dynamometer device comprising: a dynamometer in which a tip end of a main shaft projects from a housing; a torque meter that is disposed between the main shaft and a test-piece connection section; a heat insulation plate as a separate member that is inserted between two flange surfaces in any flange coupling positioned between the main shaft and the torque meter; a thermally sprayed ceramic layer provided on at least one flange surface that is in contact with the heat insulation plate; a cover that is formed to surround at least a periphery of the torque meter between an end surface of the housing and the test-piece connection section; and an air conditioner that supplies a temperature-controlled wind to an inside space of the cover; wherein a second heat insulation plate is provided at any flange coupling that is positioned on a side of the test-piece connection section of the torque meter; wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate; wherein the heat insulation plate is formed into a ring shape to have a circular opening section at a center thereof; and wherein a circular projection section formed on an inner peripheral part of one of the first rotation member and the second rotation member and a circular recess section formed on an inner peripheral part of the other are fit to each other through the opening section. 10. The dynamometer device as claimed in claim 9 , wherein the thermally sprayed ceramic layer is provided on at least one contact surface of the projection section and the recess section that are fit to each other. 11. The dynamometer device as claimed in claim 7 , wherein the cover extends from the end surface of the housing to a front end surface of the test-piece connection section; and wherein the cover is formed at a front wall along a front end surface of the test-piece connection section with a circular opening section through which the test-piece connection section is exposed. 12. The dynamometer device as claimed in claim 11 , wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; and wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate. 13. The dynamometer device as claimed in claim 1 , wherein the air conditioner controls temperature of the temperature-controlled wind in accordance with a temperature detected by the torque meter. 14. The dynamometer device as claimed in claim 13 , wherein the torque meter is equipped with a pair of flanges; wherein the heat insulation plate is disposed between a flange surface of a first rotation member at a tip end section of the main shaft and a flange surface of a second rotation member to which one of the flanges of the torque member is attached; and wherein the first rotation member and the second rotation member are connected with each other by a plurality of bolts that pass through the heat insulation plate. 15. A dynamometer device comprising: a dynamometer in which a tip end of a main shaft projects from a housing; a torque meter that is disposed between the main shaft and a test-piece connection section; a heat insulation plate as a separate member that is inserted between two flange surfaces in any flange