Method for manufacturing sensor intermediate product and method for manufacturing sensor

What is claimed is: 1. A method for manufacturing a sensor intermediate product, comprising: a preparation step of: disposing a tubular holder and a tubular compact in a tubular metallic shell, the tubular holder defining a first insertion hole, the tubular compact comprising compacted powder and defining a second insertion hole, the tubular metallic shell defining a through hole, having an inner wall surface with a circumference, and including a step portion projecting inward along the circumference of the inner wall surface, in such a manner that the tubular holder engages the step portion and the tubular compact is stacked on a side of the tubular holder opposite the step portion, and inserting a metallic pin into the first insertion hole of the tubular holder and the second insertion hole of the tubular compact; a pre-compression step of compressing the tubular compact so as to form a filling member intermediate having a shape which brings the filling member intermediate into pressure contact with the inner wall surface of the tubular metallic shell and allows removal of the metallic pin from the second insertion hole; a pin pulling out step of pulling out the metallic pin from the first insertion hole and the second insertion hole; an insertion step of inserting a sensor element into the first insertion hole and the second insertion hole, the sensor element extending axially; and a main compression step of compressing the filling member intermediate to thereby form a filling member which fixes the sensor element inside of the tubular metallic shell. 2. The method for manufacturing a sensor intermediate product according to claim 1 , wherein the sensor element has a forward end side and a rear end side, and includes: a detection section provided on the forward end side and adapted to detect a specific gas component contained in a gas to be detected, and a protection layer provided on the forward end side and covering the detection section; and in the insertion step, a portion of the sensor element located on the rear end side of the sensor element is inserted into the first insertion hole and the second insertion hole from a forward end side of the tubular metallic shell. 3. The method for manufacturing a sensor intermediate product according to claim 1 , wherein the pin pulling out step further includes adjusting an axial position to which the metallic pin is pulled out such that a forward end of the metallic pin will come into contact with an end of the sensor element in the insertion step; and the insertion step further includes bringing the end of the sensor element into contact with the forward end of the metallic pin. 4. The method for manufacturing a sensor intermediate product according to claim 1 , wherein the sensor element has a shape of a plate having a rectangular cross section and extending in a longitudinal direction. 5. A method for manufacturing a sensor comprising: a preparation step of: disposing a tubular holder and a tubular compact in a tubular metallic shell, the tubular holder defining a first insertion hole, the tubular compact comprising compacted powder and defining a second insertion hole, the tubular metallic shell defining a through hole, having an inner wall surface with a circumference, and including a step portion projecting inward along the circumference of the inner wall surface, in such a manner that the tubular holder engages the step portion and the tubular compact is stacked on a side of the tubular holder opposite the step portion, and inserting a metallic pin into the first insertion hole of the tubular holder and the second insertion hole of the tubular compact; a pre-compression step of compressing the tubular compact so as to form a filling member intermediate having a shape which brings the filling member intermediate into pressure contact with the inner wall surface of the tubular metallic shell and allows removal of the metallic pin from the second insertion hole; a pin pulling out step of pulling out the metallic pin from the first insertion hole and the second insertion hole; an insertion step of inserting a sensor element into the first insertion hole and the second insertion hole, the sensor element extending axially; a main compression step of compressing the filling member intermediate to thereby form a filling member which fixes the sensor element inside of the tubular metallic shell; and an assembly step of fixing a protection sleeve to a rear end portion of the tubular metallic shell, wherein the sensor element extends in a direction of an axis and has a shape of a plate, the tubular metallic shell surrounds the sensor element in such a manner that a forward end of the sensor element projects from the tubular metallic shell, and the tubular holder and the filling member are disposed between the tubular metallic shell and the sensor element. 6. A method for manufacturing a sensor intermediate product, comprising: disposing a tubular holder and a tubular compact in a tubular metallic shell defining a through hole, the tubular holder defining a first insertion hole, and the tubular compact defining a second insertion hole; preparing a preliminary assembly in which a pin is inserted into the first insertion hole and the second insertion hole; compressing the compact so as to form a filling member intermediate having a shape which brings the compact into pressure contact with an inner wall surface of the metallic shell and allows removal of the pin from the second insertion hole; pulling out the pin from the first insertion hole and the second insertion hole, adjusting a position to which the pin is pulled out, and inserting a sensor element into the first insertion hole and the second insertion hole such that a forward end of the pin will come into contact with an end of the sensor element; and compressing the filling member intermediate to thereby fix the sensor element inside of the metallic shell. 7. A method for manufacturing a sensor intermediate product, comprising: disposing a tubular holder and a tubular compact in a tubular metallic shell defining a through hole, the tubular holder defining a first insertion hole, and the tubular compact defining a second insertion hole; preparing a preliminary assembly in which a pin is inserted into the first insertion hole and the second insertion hole; compressing the compact so as to form a filling member intermediate having a shape which brings the compact into pressure contact with an inner wall surface of the metallic shell and allows removal of the pin from the second insertion hole; pulling out the pin from the first insertion hole and the second insertion hole and inserting a sensor element into the first insertion hole and the second insertion hole such that a forward end of the pin will come into contact with an end of the sensor element; and compressing the filling member intermediate to thereby fix the sensor element inside of the metallic shell, wherein the sensor element includes a detection section provided on a forward end side and adapted to detect a specific gas component contained in a gas to be detected and the sensor element includes a protection layer covering the detection section, and the sensor element is inserted such that a rear end portion of the protection layer is disposed on a rear end side with respect to a forward end of the metallic shell.