I am a big firearms collector, and I am very fimiliar with the semi-auto trigger groups of many real firearms. This also applies to a few paintguns, but here is my main question:
Why didn't Automags use a disconnector in a real trigger group to eliminate short-stroking?
Some background:
In basic open bolt submachine guns, you usually have only two trigger parts, the trigger and the sear. You pull the trigger, it moves the sear out of the way of the bolt, and it fires until it either runs out of ammunition or you let go of the trigger and the sear catches the bolt again. Its cheap, its simple and it works.
In semi-automatic rifles however, you have a part called the disconnector that litterally disconnects the trigger from the sear so that when the weapon is fired, it pulls the sear and releases the hammer to fire the weapon. after it releases the hammer, the disconnector catches the hammer on it's return and holds it from firing the weapon again. When the trigger is released, the disconnector releases the hammer and allows it to rest on the trigger again when the cycle can be repeated.
The question, expanded:
Now, since the cause of short-stroking is failure to fully cycle the trigger (and thus the sear), why was there not a mechanical system involving a disconnector that would not allow the marker to fire unless the trigger was fully cycled? All you would have to do is figure a way to operate the sear through the disconnector instead of the trigger and you would be set. I will see if I can come up with a diagram to explain what I am talking about to those not fimiliar with semi-auto rifle/subgun trigger groups.
Why didn't Automags use a disconnector in a real trigger group to eliminate short-stroking?
Some background:
In basic open bolt submachine guns, you usually have only two trigger parts, the trigger and the sear. You pull the trigger, it moves the sear out of the way of the bolt, and it fires until it either runs out of ammunition or you let go of the trigger and the sear catches the bolt again. Its cheap, its simple and it works.
In semi-automatic rifles however, you have a part called the disconnector that litterally disconnects the trigger from the sear so that when the weapon is fired, it pulls the sear and releases the hammer to fire the weapon. after it releases the hammer, the disconnector catches the hammer on it's return and holds it from firing the weapon again. When the trigger is released, the disconnector releases the hammer and allows it to rest on the trigger again when the cycle can be repeated.
The question, expanded:
Now, since the cause of short-stroking is failure to fully cycle the trigger (and thus the sear), why was there not a mechanical system involving a disconnector that would not allow the marker to fire unless the trigger was fully cycled? All you would have to do is figure a way to operate the sear through the disconnector instead of the trigger and you would be set. I will see if I can come up with a diagram to explain what I am talking about to those not fimiliar with semi-auto rifle/subgun trigger groups.
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