Knock-type electronic pen including first and second position indicators located at different ends of a tubular casing

The invention claimed is: 1. A knock-type electronic pen comprising: a tubular casing; a first position indicator disposed such that a tip of the first position indicator for position indication is located on a side of an opening at a first end in an axial direction of the tubular casing; a second position indicator disposed such that a tip of the second position indicator for position indication is located on a side of an opening at a second end in the axial direction of the tubular casing; a knock cam mechanism which includes a knock portion including a part protruding outward from the opening at the second end in the axial direction of the tubular casing and which alternately produces, in response to a knock operation on the knock portion, a state in which at least a core rod body at the tip of the first position indicator protrudes from the opening at the first end of the tubular casing and a state in which the first position indicator including the tip of the first position indicator is housed in the tubular casing, wherein the second position indicator is housed in the knock cam mechanism such that at least a core rod body at the tip of the second position indicator is housed in the part of the knock portion protruding outward from the opening at the second end of the tubular casing; and a holding mechanism which, in the state in which at least the core rod body of the first position indicator protrudes from the opening at the first end of the tubular casing by the knock operation on the knock portion, returns the knock portion pushed into the tubular casing by the knock operation to a state of protruding outward from the opening at the second end in the axial direction of the tubular casing and holds the knock portion in the protruding state, wherein the holding mechanism includes another knock cam mechanism which is different from the knock cam mechanism and which operates in response to the knock operation on the knock portion. 2. The knock-type electronic pen according to claim 1 , wherein, when a pressing force at a time of the knock operation on the knock portion is equal to or less than a predetermined value, the holding mechanism holds the knock portion such that the knock portion protrudes outward from the opening at the second end in the axial direction of the tubular casing, and when the pressing force at the time of the knock operation on the knock portion exceeds the predetermined value, the holding mechanism releases the holding of the knock portion to allow an operation of the knock cam mechanism to start. 3. The knock-type electronic pen according to claim 1 , wherein, even in the state in which the first position indicator including the tip of the first position indicator is housed in the tubular casing, the holding mechanism holds the knock portion of the knock cam mechanism such that the knock portion protrudes outward from the opening at the second end in the axial direction of the tubular casing. 4. The knock-type electronic pen according to claim 1 , wherein the knock cam mechanism includes: a rotor to which a rear end of the first position indicator opposite to the tip of the first position indicator is fitted, and a rotor drive portion which moves in the axial direction in response to the knock operation on the knock portion and rotates the rotor in response to the knock operation, wherein the second position indicator is disposed in a hollow portion in an axial direction of the rotor drive portion, and the holding mechanism includes an urging member elastically urging the rotor drive portion toward the second end in the axial direction of the tubular casing. 5. The knock-type electronic pen according to claim 4 , wherein, in the hollow portion of the rotor drive portion, the second position indicator is elastically urged toward the second end in the axial direction of the tubular casing by an elastic member. 6. The knock-type electronic pen according to claim 5 , wherein the rotor drive portion includes a first portion and a second portion coupled to each other in the axial direction in a state in which the rotor drive portion is movable in the axial direction against an urging force of the elastic member, the hollow portion of the rotor drive portion is formed by a hollow portion communicating between the first portion and the second portion coupled to each other in the axial direction, an end in the axial direction of the first portion opposite to a side where the first portion is coupled to the second portion is engaged with the rotor and rotates the rotor, while an end in the axial direction of the second portion opposite to a side where the second portion is coupled to the first portion serves as the knock portion protruding outward from the opening at the second end in the axial direction of the tubular casing, when a pressing force at a time of the knock operation on the knock portion is equal to or less than an elastic force of the elastic member, the holding mechanism holds the knock portion such that the knock portion protrudes outward from the opening at the second end in the axial direction of the tubular casing, and when the pressing force at the time of the knock operation on the knock portion exceeds the elastic force of the elastic member, the holding mechanism releases the holding of the knock portion to allow an operation of the knock cam mechanism to start. 7. The knock-type electronic pen according to claim 6 , wherein a rotor of the another knock cam mechanism is disposed in such a manner as to be slidable on an outer circumferential side of the first portion and is engaged with an edge of the second portion on the side where the second portion is coupled to the first portion, and is caused to rotate by receiving the pressing force in the axial direction in response to the knock operation on the knock portion of the second portion, when the pressing force at the time of the knock operation on the knock portion is equal to or less than the elastic force of the elastic member, the rotor of the another knock cam mechanism holds the knock portion, which is prevented from moving in the axial direction, such that the knock portion protrudes outward from the opening at the second end in the axial direction of the tubular casing, and when the pressing force at the time of the knock operation on the knock portion exceeds the elastic force of the elastic member, the rotor of the another knock cam mechanism rotates and stops preventing the knock portion from moving in the axial direction to allow the operation of the knock cam mechanism to start. 8. The knock-type electronic pen according to claim 7 , wherein the urging member elastically urges the rotor drive portion toward the second end in the axial direction of the tubular casing via the rotor of the another knock cam mechanism. 9. The knock-type electronic pen according to claim 7 , wherein the rotor of the another knock cam mechanism includes a plurality of first protrusions disposed at predetermined intervals in a circumferential direction, a plurality of second protrusions are formed in a circumferential direction of an inner wall surface of the tubular casing and are engaged with the plurality of first protrusions of the rotor of the another knock cam mechanism, when the pressing force at the time of the knock operation on the knock portion is equal to or less than the elastic force of the elastic member, the plurality of first protrusions of the rotor of the another knock cam mechanism abut against the plurality of second protrusions on the inner wall surface of the tubular casing and hold the knock portion such that the knock portion protrudes outward from the opening at the second end in the axial direction of the