Method for manufacturing slide lock structure for slide rail device

The invention claimed is: 1. A method for manufacturing a slide lock structure for a slide rail device including a linear rail extending in a lengthwise direction, and having a channel cross section including a first side wall and a second side wall that are separated from and oppose each other in a lateral direction, each side wall being provided with a plurality of slots arranged along the lengthwise direction thereof, and a slider slidably engaging the linear rail, the method comprising: attaching a casing to the slider such that the casing includes a part located between the first side wall and the second side wall; providing a first lock member and a second lock member on the casing, such that each of the first look member and the second look member is provided with a cam surface formed on an outer side thereof, and at least one engagement projection projecting laterally outward, the at least one engagement projection being laterally movable between an engaged position in which the at least one engagement projection is received in one of the slots, and a disengaged position in which the at least one engagement projection is dislodged from the slots; providing a first biasing member urging the first lock member and the second lock member toward the engaged position; and providing an operating member on the casing in a movable manner, the operating member being provided with a cooperating cam surface slidably engaging the cam surface such that the first lock member and the second lock member are moved to the disengaged position against a biasing force of the first biasing member as the operating member is moved in a prescribed direction, wherein the method further comprises providing a second biasing member urging the operating member upward relative to the casing, wherein the operating member is movable in a downward direction against a biasing force of the second biasing member, and wherein the cam surface includes an inclined outer surface inclining outward from an upper end thereof toward a lower end thereof, and the cooperating cam surface includes an inclined inner surface inclining outward from an upper end thereof toward a lower end thereof so that the first lock member and the second lock member are caused to move to the disengaged position against a biasing force of the first biasing member as the operating member is pushed downward. 2. The method for manufacturing the slide lock structure according to claim 1 , wherein the at least one engagement projection of each of the first lock member and the second lock member includes a plurality of engagement projections arranged with an interval in the lengthwise direction which is an integer multiple of an interval between the adjacent slots. 3. The method for manufacturing the slide lock structure according to claim 2 , wherein the inclined outer surface of each of the first lock member and the second lock member includes a pair of inclined outer surfaces arranged one behind another in the lengthwise direction in a mutually spaced relationship, and the inclined inner surface of the operating member includes two pairs of inclined inner surfaces corresponding to the inclined outer surfaces, respectively. 4. The method for manufacturing the slide lock structure according to claim 3 , wherein the inclined outer surfaces of the first lock member and the second lock member are each provided on a bottom surface of one of grooves each defined between corresponding two adjoining engagement projections of the plurality of engagement projections, and the inclined inner surfaces are formed on inner end surfaces of each of a pair of plate members that are received in corresponding ones of the grooves in a vertically movable manner. 5. The method for manufacturing the slide lock structure according to claim 4 , wherein the first lock member and the second lock member are provided with inner surfaces opposing each other, and the first biasing member includes a compression coil spring interposed between the opposing inner surfaces so as to be adjacent to one of the pair of plate members from outside or inside in the lengthwise direction. 6. The method for manufacturing the slide lock structure according to claim 5 , wherein the operating member includes a rod member projecting upward so as to be configured to be pressed from outside in an intermediate part of the operating member between the two plate members in the lengthwise direction. 7. The method for manufacturing the slide lock structure according to claim 6 , wherein the second biasing member includes a compression coil spring interposed between the casing and the intermediate part of the operating member. 8. The method for manufacturing the slide lock structure according to claim 1 , wherein the slots in the linear rail each form a part of a female thread, and the at least one engagement projection each form a part of a male thread configured to thread with the female thread. 9. A method for manufacturing a slide lock structure for a slide rail device including a linear rail extending in a lengthwise direction, and having a channel cross section including a first side wall and a second side wall that are separated from and oppose each other in a lateral direction, each side wall being provide with plurality of slots arranged along the lengthwise direction thereof, and a slider slidably engaging the linear rail, the method comprising: attaching a casing to the slider such that the casing includes a part located between the first side wall and the second side wall; providing a first lock member and a second lock member on the casing, such that each of the first lock member and the second lock member is provided with a cam surface formed on an outer side thereof, and at least one engagement projection projecting laterally outward, the at least one engagement projection being laterally moveable between an engaged position in which the at least one engagement projection is received in one of the slots, and a disengaged position in which the at least one engagement projection is dislodged from the slots; providing an operating member on the casing in a movable manner, the opening member being provided with a cooperating cam surface slidably engaging the cam surface such that the first lock member and the second lock member are moved to the disengaged position against a biasing force of the first biasing member as the operating member is moved in a prescribed direction, wherein the casing is provided with a restricting portion that limits an outward movement of the first lock member and the second lock member relative to the casing. 10. The method for manufacturing the slide lock structure according to claim 9 , wherein the restricting portion includes a pair of restricting plate members detachably retained to the casing in front of and behind the first lock member and the second lock member, a laterally elongated slot formed in each plate member, and four protrusions projecting in the lengthwise direction from end surfaces of the first lock member and the second lock member and received by the corresponding laterally elongated slots. 11. The method for manufacturing a slide lock structure for a slide rail device including a linear rail extending in a lengthwise direction, and having a channel cross section including a first side wall and a second side wall that are separated from and oppose each other in a lateral direction, each side wall being provide with plurality of slots arranged along the lengthwise direction thereof, and a slider slidably engaging the linear rail, the method comprising: attaching a casing to the slider such that the casing includes a part located between the first side wall and the s