This application claims priority to Brazilian Patent Application No. 10 2016 003967-3 filed Feb. 24, 2016, the disclosure of which is hereby incorporated in its entirety by reference.
Field of the Invention
The present invention relates to an impeller for a revolver cylinder and, more particularly, to a cylinder impeller comprising two parts that moves therebetween.
Description of Related Art
Revolvers are defined as revolving cylinder firearms containing multiple chambers where ammunition cartridges are housed. When a shot is fired the cylinder revolves to an angle corresponding to the distance between two consecutive chambers in order to align a new chamber (with new ammunition cartridge) to the gun's barrel.
The configuration adopted by revolver manufacturers, especially double-action revolvers, comprises of a cylinder impeller pulled by the gun's trigger. In particular, and as shown in
The cylinder impeller functions are basically two:
Although this operation mechanism has been used for long time, it is not free from drawbacks. To properly secure the above mentioned performances, the cylinder impeller must act likewise on each extractor teeth. The number of these teeth can reach ten depending on the revolver model.
It is the first drawback of the current system to ensure that each tooth is in the same position at the time of positioning and keying the cylinder. To achieve this, it is necessary to work with very strict machining tolerances, increasing the cost of the process, or to set up, for said teeth, manual adjustment levels. This manual adjustment, which must be properly done in each one of the teeth, also makes more expensive the process, besides causing, with some frequency, exceeding adjustment problems. The removal of material more than what is necessary disables the extractor, since it creates air-gaps in the system.
Therefore, it is a first object of the present invention an impeller designed to revolve, put in position and keyed the cylinder before each shot, said impeller being able to compensate for any air-gaps or dimensional inaccuracies in the cylinder extractor teeth.
It is a further object of the present invention a revolver provided with a cylinder impeller, which, by pulling the trigger, is able to revolve, to put in position and to lock in a key way the cylinder before each shot, compensating for any air-gaps or dimensional inaccuracies in the revolver firing mechanism.
These and other objects are achieved from a revolver provided with a cylinder impeller, designed to cause, from a trigger pulling movement, a cylinder revolving, said impeller comprising: a cover provided, on its upper portion, with a protrusion acting on the cylinder teeth and defining inside it a track; a one-piece body comprising a plate and a slider, said plate receiving the impeller pivoting pin in the trigger and said slider being able to slide within and in relation to the cover; and a spring disposed between the upper end of the body slider and the surface defining the upper limit of the cover track.
Furthermore, said impeller cover is provided, on its lower end, with an oblong opening and the body slider has a hole capable of receiving the pin, said pin limiting the body's course towards the cover by mechanical interference against the oblong borders.
In other words, to overcome the mentioned drawbacks it is proposed a cylinder impeller capable of absorbing the dimensional variations between the multiple extractor teeth. Therefore, the present invention comprises a non-rigid cylinder impeller which has two parts engaged each other and biased by a spring. One of these parts, named body, it is jointed to the trigger by means of a pin and the other part, named cover, acts on the extractor teeth. The second part, the cover, is movable relative to the body and contains the driving end. The two parts and the spring, which acts between them, form a not-rigid cylinder impeller, i.e. that it can vary along its overall length.
The present invention will be better understood hereinafter from the following detailed description of a preferred embodiment of the invention, which is illustrated, by way of an indicative but not limitative example, in the accompanying drawings, where:
As known, a revolver (see
Finally, in the lower portion of the frame is fixed, in a hinged manner, the trigger 103. Said trigger, when pulled by the user, moves the cylinder impeller, causing the cylinder's revolving as well as retreating the hammer against the hammer spring action.
More specifically, said cover 2 has the shape of a plate 21 having on its side an edge 22. The inside portion of said edge 22 defines a cross-section track 23 preferably triangular (see
On the other hand, the body 3 is a one-piece structure comprising a plate 31 opposed to a slider 32. In particular, said slider 32 has size and side edges allowing it to slide inside the cover 2, in particular along the track 23. In addition, the slider 32 further has a hole 33, facing the inner surface of the cover 2 and able to receive the pin 5. Therefore, when pin 5 is inserted into the hole 33, the oblong opening 24 limits the travel of the body 3 relative to cover 2.
Furthermore, the body 3 plate 31 has, in its lower portion, a seat (not shown) for receiving the impeller hinging pin 102 of the invention impeller with the trigger 103 of the firing mechanism of the revolver of the invention.
Finally, and as an important feature of the impeller of the invention, the upper portion of the body 3 slider 32 has a protrusion 34 to receive and center the lower end of the spring 4. Preferably, said spring 4 is a coil spring. The upper end of said spring 4 is opposed by a surface 26 which defines the upper limit of the cover 2 track 23. As a result of the position of the spring 4, between the cover 2 and the body 3, said cover and body assume, at rest, a maximum detachment position between the cover 2 protrusion 25 and the hinging pin 102 of the impeller in relation to the trigger 103. In other words, the impeller of the invention, at rest, assumes its longest possible length setting, this length being limited by the pin 5 path inside the oblong opening 24.
In operation, the impeller 1, according to the present invention acts like a conventional cylinder impeller (see
Number | Date | Country | Kind |
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10 2016 003967-3 | Feb 2016 | BR | national |
Number | Name | Date | Kind |
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3701213 | Lewis | Oct 1972 | A |
4102241 | Magardo | Jul 1978 | A |
4218839 | Brouthers | Aug 1980 | A |
4397110 | Landry | Aug 1983 | A |
20150338177 | Assis | Nov 2015 | A1 |
Number | Date | Country | |
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20170241725 A1 | Aug 2017 | US |