Delay mechanism suitable for compact automatic injection device

We claim: 1 . In an automatic injection device including a housing and a medication filled syringe having a barrel, a piston, and an injection needle, the device operable for moving the syringe in a first direction relative to the housing to extend the injection needle beyond the housing, a delay mechanism comprising: a shuttle rotatably fixed relative to the housing and configured for engaging the syringe for retraction; a follower adapted for shifting said shuttle in a direction opposite to the first direction, said follower keyed with the housing for movement from a first position on the housing to a second position on the housing, said second position axially spaced from said first position in said direction opposite to the first direction, said second position rotationally spaced from said first position; a damping compound between surfaces of said follower and at least one of said shuttle and the housing to dampen rotation of said follower; at least one biasing member providing a force urging said follower from said first position to said second position; a biased plunger element adapted to drive the piston within the barrel to force medication through the injection needle for an injection, said biased plunger element biased in the first direction within the housing from a first location to a second location, said plunger element rotatably fixed relative to the housing; and said follower prevented from moving from said first position toward said second position when said plunger element is in said first location, said follower freed to move from said first position toward said second position when said plunger element moves from said first location to said second location such that said at least one biasing member shifts said follower from said first position to said second position to thereby move said shuttle for retracting the injection needle into the housing after injection. 2 . The delay mechanism of claim 1 wherein said follower includes a collar through which axially extends a rod of the housing. 3 . The delay mechanism of claim 2 wherein said collar includes at least one key that fits within at least one keyway on said rod, wherein said at least one keyway guides said follower to move strictly rotationally relative to said rod and then strictly in the direction opposite to the first direction along said rod when said follower moves from said first position to said second position. 4 . The delay mechanism of claim 1 wherein said follower is keyed with said plunger element when said plunger element is in said first location to prevent relative rotational motion, said follower being unkeyed from said plunger element to allow relative rotational motion when said plunger element moves from said first location to said second location. 5 . The delay mechanism of claim 4 wherein said plunger element includes at least one key that fits within at least one keyway of said follower to engage said follower and said plunger element when said plunger element is in said first location to prevent relative rotational motion. 6 . The delay mechanism of claim 1 wherein said plunger element includes a tube portion shaped to fit within the syringe barrel, wherein at least a portion of said follower fits within an interior hollow of said tube portion. 7 . The delay mechanism of claim 6 wherein said follower is keyed with said plunger element when said plunger element is in said first location to prevent relative rotational motion, said follower being unkeyed from said plunger element to allow relative rotational motion when said plunger element moves from said first location to said second location, said plunger element including at least one key that fits within at least one keyway of said follower to engage said follower and said plunger element when said plunger element is in said first location to prevent relative rotational motion 8 . The delay mechanism of claim 7 wherein said at least a portion of said follower that fits within said interior hollow comprises legs defining said at least one keyway of said follower, said at least one key of said plunger element protruding into said interior hollow. 9 . The delay mechanism of claim 3 wherein said at least one key of said collar includes a pair of diametrically opposed keys, and wherein said at least one keyway includes a pair of recess regions with channels extending therefrom on opposite sides of said rod 10 . The delay mechanism of claim 1 wherein said at least one biasing member acts directly between a center rod of the housing and said follower. 11 . The delay mechanism of claim 1 wherein said shuttle comprises a collar with an annular pocket that opens in the first direction, wherein said follower comprises at least one fin that fits within said pocket, and wherein said damping compound is disposed within said pocket between said collar and said at least one fin. 12 . The delay mechanism of claim 11 wherein said fin consists of a single, continuous ring-shaped member. 13 . The delay mechanism of claim 1 wherein said shuttle comprises a surface against which directly acts a biasing element that biases said plunger element in the first direction within the housing, said follower disposed radially inward of said shuttle surface. 14 . The delay mechanism of claim 13 wherein said biasing element is a coiled spring and said follower includes legs that fit within said coiled spring. 15 . The delay mechanism of claim 1 wherein said follower is further keyed with the housing for movement from said second position on the housing to a third position on the housing, said third position rotationally spaced from said second position, said follower cooperatively configured with the housing at said third position to prevent movement of said follower in the first direction, whereby the injection needle retracted into the housing is axially locked from moving in the first direction. 16 . The delay mechanism of claim 15 wherein said third position is rotationally spaced from said first position. 17 . The delay mechanism of claim 16 wherein said at least one biasing member provides a torsional force to move said follower from said second position to said third position. 18 . The delay mechanism of claim 1 wherein said plunger element and said shuttle each include angularly spaced legs, said legs of said plunger element and said legs of said shuttle interfitting to rotationally lock together said plunger element and said shuttle while permitting axially motion therebetween. 19 . The delay mechanism of claim 18 wherein each of said follower, said shuttle and said plunger element include axially extending legs, wherein said legs of said follower are concentrically disposed around a rod of the housing, and wherein said legs of said shuttle element and said legs of said plunger element are concentrically disposed around said follower. 20 . The delay mechanism of claim 19 wherein a coiled spring that biases said plunger element in the first direction is concentrically disposed around all of said rod of the housing, said legs of said follower, and said legs of said shuttle element and said legs of said plunger element. 21 . A delay mechanism for an automatic injection device having a housing and a syringe, the delay mechanism comprising: a shuttle for retracting the syringe in a first direction within the housing; a follower; means for moving said follower relative to the housing from a first position to a second position