Retractable arrow-support device for a bow

Retractable arrow-support device for a bow, this device being intended to be fixed on the shaft of a bow in the proximity of the area in which the arrow is held at the time of its firing, this device comprising an arrow support movable under the action of a spring and a heavy weight movable in such a way as to be sensitive to the reaction forces produced by the bow upon firing of the arrow, this heavy weight constituting a lock for retaining the arrow support in the active position counter to the spring and for releasing it upon firing of the arrow in order to retract it, the device being characterized in that the arrow support (3, 4) consists of a rod (14) mounted slideably under the action of this spring (15).

The invention relates to a retractable arrow-support device for a bow. 
Retractable arrow-rests are already known which are fixed on the shaft of 
the bow in the proximity of the area in which the arrow is held, in order 
to support the arrow during aiming, and then to retract as soon as the 
firer releases the bowstring. These devices prevent the arrow from being 
deflected from its trajectory, particularly when the feathering of the 
arrow draws level with the arrow-rest. 
These known devices are composed (see, for example, U.S. Pat. No. 
4,344,409) of a heavy weight which slides counter to a spring and an 
arrow-rest mounted pivotably likewise counter to the spring. The heavy 
weight, sensitive to the reaction forces produced by the bow upon firing 
of the arrow, constitutes a lock for maintaining the arrow-rest in the 
active position and, on the other hand, for releasing this arrow-rest upon 
firing of the arrow, in order to retract it under the action of its 
spring. 
It is of course understood that the release of the arrow-rest must be 
extremely fast, since it must be effected in a time shorter than the time 
it takes for the arrow to pass the shaft of the bow. It is now apparent 
that with the known device hereinabove it is not possible for this result 
to be achieved in a reliable manner. In addition, it completely lacks 
sensitivity and is the centre of vibrations which lead to the arrow-rest 
oscillating upon firing of the arrow. 
The aim of the present invention is in particular to overcome these 
disadvantages and, to this end, it relates to a retractable arrow-support 
device characterized in that the arrow support consists of a rod sliding 
under the action of its spring. 
According to another characteristic of the invention, the sliding rod and 
the pivoting axle of the heavy weight are arranged essentially in one and 
the same plane. 
According to another characteristic of the invention, the sliding rod 
constitutes an arrow-rest and is arranged slightly obliquely relative to 
the aiming plane of the bow. 
According to another characteristic of the invention, the heavy weight is 
provided with an opening which passes right through it and through which 
the sliding rod passes with play, the rod being provided with a lateral 
projection coming to bear, under the action of its spring, against the 
edge of the opening, the width of the rod at the level of the projection 
being less than that of the opening.

The aim of the present invention is consequently to produce a retractable 
arrow-support device which is strong, fast and accurate, this device in 
addition not being the centre of parasitic oscillations capable of 
interfering with its functioning. 
FIG. 1 shows the shaft 1 of a bow, the hand grip of which is situated at 
1.sub.1. This bow receives an arrow 2. 
The arrow is positioned on the shaft 1, on the one hand, by an arrow spacer 
3 and, on the other hand, by an arrow-rest 4. 
This arrow-rest 4 is composed of a hollow casing 5 of general cylindrical 
form, which is provided with a threaded extension 6 serving for fixing the 
casing 5 on the shaft 1 by means of a screw 7, a counternut 8 and a 
support plate 9. 
Arranged inside the hollow casing 5 is a heavy weight 10, likewise of 
general cylindrical form, which is mounted pivotably on an upper axle 11 
of the casing, this axle being arranged in a plane passing through the 
sliding rod. This heavy weight 10 is provided with an opening 12 of 
general conical form which passes right through it. 
The casing 5 is provided, on either side of the heavy weight 10, with two 
openings 13.sub.1 and 13.sub.2 which slideably receive a rod 14. this rod 
14 constitutes the actual arrow-rest and passes right through the casing 5 
so that, in one of its positions (shown in FIG. 1), the arrow 2 can come 
to rest on the rod 14. This rod 14 is mounted slideably in the casing 5 
under the action of a coil spring 15 which is arranged in the extension 6 
around the rod 14. This rod 14 is also provided with a projection 16 
fashioned in the form of an annular collar and on which there bears one of 
the ends of the spring 15. The internal diameter of the spring 16 is less 
than the diameter of the collar. The collar 16 is of a diameter less than 
the diameter of the small base of the conical opening 12 and, in the 
locking position shown in FIG. 1, the axis of the opening 12 is offset 
relative to that of the rod 14, in such a way that the collar 16 comes to 
bear against one of the faces of the heavy weight 10 at the edge of the 
opening 12. 
The heavy weight 10 also comprises a bore 17 (see FIG. 2) inside which 
there is mounted a coil spring 18 forcing back a finger 19. This finger 
moreover bears against the inside wall of the hollow casing 5. This 
spring, whose axis 18.sub.1 is situated essentially parallel to the plane 
20 containing the pivoting axle 11 and the sliding rod 14, maintains the 
heavy weight 10 bearing laterally against the inside wall of the hollow 
casing 5. 
Upon firing of the arrow 2, the reaction forces created on the shaft of the 
bow by the string of this bow produce the pivoting of the heavy weight 10 
about the axle 11 counter to the spring 18. The effect of this is to 
position the conical opening 11 in alignment with the collar 16 in such a 
way that the spring 15 suddenly forces the rod 14 back until this 
projection 16 comes to bear in an opposite seat 5.sub.1 of the casing 5. 
In this position, the rod 14 is completely retracted inside the extension 
6 and the arrow can continue its trajectory without risk of being 
deflected by its feathering coming into contact with this rod 14. 
In order to effect the reloading of this arrowrest, it suffices to exert a 
pressure on the end 14.sub.1, the effect of this being to pivot the heavy 
weight 10 counter to the spring 18, as a result of the sliding of the 
projection 16 against the conical wall of the opening 12. This movement 
continues until the projection 16 assumes a position beyond the heavy 
weight 10. At this moment, the spring 18 returns the heavy weight 10 to 
the position shown in FIG. 2, and it is then possible to relax the 
pressure exerted on the rod 14, in such a way that the collar 16 comes to 
bear once again on the lateral face of the heavy weight 10. 
As indicated in FIG. 1, the casing 5 is fixed by means of its extension 6 
on the shaft 1 of the bow, in such a way that the sliding rod 14 is 
slightly inclined relative to the aiming plane 21. The effect of this 
arrangement is to improve the support of the arrow on the sliding rod 14, 
tending to make it slide towards the spacer 3 in order to prevent it 
falling from the sliding rod. 
In FIG. 3 an arrow support has been shown which is also produced on the 
same construction principle but which in this case constitutes an arrow 
spacer, also called "button shepherd". 
In this case the cylindrical casing 22 is provided with an extension 23 via 
which it is fixed, to the shaft 1 of the bow, by means of a threaded ring 
24 and a blocking piece 25 with a binding screw 26. 
The casing 22 comprises a pivoting axle 27 for a pivoting weight 28. This 
weight is provided with an opening 29 through which passes a rod 30 
mounted slideably on either side of the heavy weight 28 in orifices 
22.sub.1 and 22.sub.2 of the casing. 
The rod 30 is made in two parts, 31 and 32, sliding coaxially with respect 
to each other, counter to an absorbing spring 33 which constantly tends to 
maintain the end 32.sub.1 of the internal part 32 against an internal 
projection of the external part 33. 
The pressure force of this spring 33 can be controlled by a first screw 34 
blocked by a second screw 35. 
The part 32 of the rod is provided, at its free end, with a piece 32.sub.2 
on the end of which there bears the arrow 2, in order to hold it spaced 
from the shaft of the bow 1. 
The part 31 of the sliding rod 30 is provided with an external circular 
collar 36 whose diameter is slightly less than that of the truncated 
opening 29 of the heavy weight 28. 
This collar 36 moreover serves as a bearing for a coil spring 37 arranged 
coaxially outside the part 31, so that this spring 37 constantly tends to 
maintain the projection 36 against the edge of the truncated opening 29. 
The functioning of this device is as follows. 
When an arrow is fired, the sudden acceleration to which it is subjected 
results in a slight curving of the shaft of the arrow, which could result 
in a deviation in its trajectory. However, this deviation is prevented by 
the arrow spacer according to the invention, since the part 32 of the rod 
30 slides counter to the absorbing spring 33 in order to take into 
consideration the flexion of the arrow support, thus avoiding a deviation 
in its trajectory. Simultaneously to this absorbing, the reaction forces 
created when the string is let go result in a pivoting of the heavy weight 
28 until the collar 36 slips away from the edge of the heavy weight 28. 
The spring 37 then suddenly drives back the assembly of the rod 30, 
retracting the end 32.sub.2 inside the extension 23. 
The arrow spacer is returned to the active position in the same way as for 
the arrow-rest, by pushing the rod 30 back counter to the spring 37 until 
the collar 36 comes to bear against the edge of the opening 29 of the 
heavy weight 28. 
In the exemplary embodiment in FIG. 4, an arrow support device has been 
shown which comprises, in combination, the arrow-rest 4 and the 
arrow-spacer 3. In this case the casing 40 contains two heavy weights 41 
and 42 which pivot on one and the same axle 43 and of which one 41 
constitutes the lock for the sliding rod 14 of the arrow-rest 4, and the 
other 42 the locking means for the sliding rod 30 of the arrow spacer 3. 
The heavy weight 41 is provided with a conical opening 12 whose edge forms 
the locking abutment for the collar 16. This heavy weight 41 also 
comprises a second opening 44 which forms a passage for the external part 
31 of the sliding rod 30. This opening 44 is of dimensions which are 
sufficient to ensure that the heavy weight 41 never comes into contact 
with this part 31, whatever its angular position. In contrast, the heavy 
weight 42 comprises an opening 45 against the edge of which the collar 36 
bears when the arrow spacer 3 is in the active position. This opening 45 
extends as far as the periphery of the heavy weight 42 in order to 
likewise permit the passage of the sliding rod 14, without however 
affecting the clearance of this rod. 
O-rings of self-lubricating material 46 can be provided around the sliding 
rods 30 and 14 in order to perfect their guidance. 
Equally, the lateral guidance of the heavy weights 10, 28, 41 and 42 can be 
improved by providing roller balls 47 (see FIGS. 1 and 3). 
In all these embodiments, the force of the springs will be preferably 
adjustable, in order to adapt it to the reaction force produced, this 
reaction force itself being a function of the power of the bow. 
Also, according to the embodiments in FIGS. 1 to 6, the heavy weight is 
mounted pivotably. In contrast, according to the embodiment in FIGS. 7 to 
9, the heavy weight is mounted pivotably along an axis perpendicular to 
the sliding rod. Thus, in this case, the heavy weight 50 is produced in 
the form of a cylinder of circular cross-section and is provided with an 
axial orifice serving as a passage for the sliding rod 52 whose end 53 
forms the arrow-rest. The heavy weight 50 is mounted pivotably in the 
vicinity of one of its ends on the axle portions 57 formed at the end of 
screws 56 screwed into the wall of the casing 54 in such a way that these 
axle portions 57 are oriented perpendicular to the rod 52. The axial 
orifice 51 is provided with an end 51.sub.1 of narrowed cross-section, 
against which an O-ring 58 bears. This narrowed part 51.sub.1 is intended 
to constitute an abutment for the lateral projection 59 of the sliding rod 
52 on which the helical spring 60 acts. 
The casing 54 is closed by a cover 61 against which there bears one of the 
ends of a spring 62 accommodated in a hole in the end of the heavy weight 
50. 
The functioning of this device is similar to that of the embodiment in 
FIGS. 1 to 6. Thus, when the bowstring is let go, the reaction forces 
created product the pivoting of the weight 50 around the axle portions 57 
until the orifice 51 takes up a position coaxial to the projection 59. At 
this moment the spring 60 causes the rod 52 to suddenly slide, so that its 
arrow-rest end 53 is retracted inside the threaded extension 55 of the 
casing 54. 
The reloading of the arrow-rest is effected by the reverse manoeuvre, by 
bearing on the rear end of the sliding rod 52 counter to the spring 60.