The present application is a U.S. National Phase of International Application Number PCT/EP2020/075568, filed Sep. 11, 2020, which claims priority to French Application No. 1910116, filed Sep. 13, 2019.
The invention relates to the field of target launching machines for skeet shooting.
It is known, for example from FR 2557283 A1, a target launching machine for skeet shooting. A target, also called clay pigeon, is a plate-shaped part usually about 11 cm in diameter made of fragile material, weighing about 100 g. Such a target is launched into the air to be shot by a shooter, usually with a shotgun. In order to better simulate a hunting action, it is advantageous to be able to vary the trajectories of the targets between two launches. For this, a machine can be movable in a deposit and/or on-site. It is still advantageous to be able to change the initial speed of a target from one launch to the other.
Also, as illustrated in
The machine 1 further comprises a triggering device 4 capable of actuating the projection arm 21. For this, in a first step, the triggering device 4 displaces the proximal end 23 of the projection arm 21 and therewith the first end 32 of the spring 31. In doing so, the spring 31 is loaded, thereby accumulating an elastic energy. In a second step, the triggering device 4 releases the proximal end 23 of the projection arm 21. Under the action of the spring 31 which releases the previously accumulated elastic energy, the projection arm 21 is quickly moved so as to projecting said at least one target.
The triggering is for example obtained by means of a rotary motor 42 driving a first finger 41 eccentric about an axis 43. This first finger 41 hooks a second finger 25 secured to the proximal end 23 of the projection arm 21. In a first portion of its stroke, the first finger 41 loads the spring 31, herein tensioned, and arms the device. By continuing its stroke, the first finger 41 unhooks and releases the second finger 25 and therewith the spring 31 and the projection arm 21. Throughout the triggering, the second end 33 of the spring 31 remains stationary.
In order to change the initial speed of the target during its projection, it is advantageous to change the initial load of the spring 31, by displacing the second end 33 thereof. For this, there is used a preloader device capable of adjusting a preload of the spring 31 by displacing the second end 33 thereof.
According to the prior art, such a preloader device 6 may comprise a rigid blade 62 which can rotate about an axis 64, secured at one end to the second end 33 of the spring 31 and mobilised at the other end thereof, by an eccentric 63 driven by a rotary motor 61.
Such a preloader device 6 is bulky and is very limited in terms of travel conferred on the second end 33 of the spring 31. In addition, the driving thereof, by a rotary motor, which is difficult to identify in angular position, is delicate and therefore difficult to be accurate and/or reproducible. The invention also proposes to revisit the preloader device in order to improve it and at least partially overcome these drawbacks.
According to one aspect, there is proposed a preloader device comprising a linear actuator and flexible transmission means connecting the linear actuator to the second end of the spring.
Also, there is presented a machine for launching at least one target, such as a clay pigeon for skeet shooting, comprising: a launching device comprising a rotary projection arm capable of projecting at least one target, an accumulator device comprising a spring including a first end being secured to a proximal end of the projection arm, a triggering device capable, in a first step, of displacing the proximal end of the projection arm and the first end of the spring by loading the spring so as to accumulate an elastic energy and, in a second step, of releasing the proximal end of the projection arm, which under the action of the spring releasing the previously accumulated elastic energy, projects said at least one target, and a preloader device capable of adjusting a preload of the spring by displacing a second end of the spring, where the preloader device comprises a linear actuator and a flexible transmission member connecting the linear actuator to the second end of the spring.
According to one possibility, the flexible nature of the member allows giving slack to this member before tensioning the spring, in a variable manner, so as to change the load of the spring before launching.
Another aspect relates to a method for adjusting the speed and the distance of shot of a target, comprising changing the tension of a flexible transmission member linked to the spring, in a phase preceding the target projection.
The aims, objects, as well as the features and advantages of the invention will emerge better from the detailed description of an embodiment thereof which is illustrated by the following accompanying drawings in which:
The drawings are given by way of examples and are not limiting to the invention. They constitute schematic representations of principle intended to facilitate the understanding of the invention and are not necessarily at the scale of the practical applications.
Particular features or embodiments, which can be used alone or in combination, are:
The kinematic elements described with reference to
The preloader device according to the invention always interfaces with the second end 33 of the spring 31. The latter is preferably a coil spring; it may be a tension spring. It extends along a longitudinal dimension, typically the winding axis of the coils when it is a coil spring. The preloader device comprises a linear actuator 51. A flexible transmission means or member 52 connects the linear actuator 51 to the second end 33 of the spring 31. Thus the preloader device can apply a preload to the spring 31 by changing the length of the linear actuator 51.
Relative to the prior art, the linear actuator 51 advantageously allows a much more extensive preload stroke, since substantially equal to the stroke of said linear actuator 51. In addition, a linear actuator 51, such as a cylinder, or a ball screw, allows a very accurate monitoring of the developed rod length and thus of the value of the applied preload.
Thus
The use of a flexible transmission means or member 52 is advantageous in several respects. A first advantage is that the linear actuator 51 can expand beyond a rest position of the spring 31, leaving slack in the flexible transmission means 52. This advantageously allows configuring a negative preload for the spring 31. Thus, during the triggering, the start of the loading of the spring 31 is used to absorb said slack and does not immediately load the spring 31. Also during the triggering it is possible to have a load of the spring 31 much lower than for the prior art. Such a slack can thus lead to a force transmitted to the launching device 2 lower than the average force k.L0, where k is the stiffness of the spring 31 and L0 is the triggering amplitude, but rather a force k.(L0-L1), where L1 is the slack length. This allows impelling a much lower initial speed to the target.
Such an expansion of the linear actuator 51, such that the flexible transmission means has slack, is more particularly illustrated in
Another advantage of the use of a flexible transmission means 52 is to allow the use of a deflection pulley 53, disposed on the flexible transmission means 52. This allows folding back the control line of the preload device in order, on the one hand, to better organise the implementation thereof in the machine 1 and on the other hand, to make said line more compact. Such a configuration is more particularly illustrated in
In this figure, it should be noted that the pulley is mounted on the frame of the machine, and that two strands of the member 52 are organised on either side of this frame portion, advantageously symmetrically.
So that the deflection pulley 53 can cooperate effectively with the flexible transmission means 52, and in particular accept a possible slack of the latter, the deflection pulley 53 also advantageously comprises a guide 54 preventing the flexible transmission means 52 from leaving the deflection pulley 53. This guide 54 can take the form of a casing covering the groove of the deflection pulley 53, as illustrated in the Figure. It can also, alternatively or additionally, take the form of guide means 54, such as a hole in a shroud part of the machine 1 surrounding the flexible transmission means 52, as illustrated in
According to another feature, the linear actuator 51 and the deflection pulley 53 are secured to the machine 1 and disposed so that the deflection pulley 53 is substantially equidistant from the spring 31 and the linear actuator 51. Such a configuration advantageously allows, on the one hand, folding back the preload line, allowing substantially reducing the total space requirement of the machine 1 and also allows balancing the implemented forces by distributing them between the different portions of the frame of the machine 1. Such a configuration is more particularly illustrated in
According to another features, the flexible transmission means 52 comprises a cable, a rope or a belt. The term “cable” means any tether, preferably metallic and generally stranded. The term “rope” means any tether, preferably stranded and based on natural or artificial textile fibres (Nylon, Kevlar, etc.). The term “belt” mean any strand, advantageously reinforced with fibres, for example metal fibres, made of an elastomer matrix. Of course, the deflection pulley 53 has a profile and a material adapted to the flexible transmission means 52: grooved pulley, etc. The flexibility of the member 52 reflects its ability to be deformed other than in traction/compression, in at least one bending direction. This deformation being elastically reversible.
According to another feature, the linear actuator 51 comprises a cylinder which can be of any type: pneumatic, hydraulic. According to another feature, the cylinder is preferably electric.
Advantageously, the actuator 51 allows placing the device in any position between its states of deployment and maximum retraction, so that the adjustment is accurate.
After a target projection, the spring 31 is released which can generate vibrations, in particular at the second end 33 thereof. These vibrations could possibly disturb the operation of the invention, by inadvertent movements of the transmission member 52. In this case, the machine of the invention can be improved thanks to a system for guiding the spring 31, in its movements along its long dimension. Thus, when released, the second end 33 is held along the longitudinal axis of the spring and avoids the transverse movements of the member 52.
According to one possibility, as illustrated in
Preferably, the support 73 further comprises a hole 74 for the passage of the member 52; possibly, the hole can be used as a first guide for the member 52 or participate in fastening the end thereof relative to the spring.
According to one possibility, a shouldered shaft 75 is inserted into the spring 31. The extension thereof allows the immobilisation of the support 73, for example via a blocking nut 76. It can further have, at the end thereof, a ring 74 ensuring the connection with the first strand 55. This configuration is represented in
In the position of
The invention has been illustrated and described in detail in the drawings and the preceding description. This must be considered as illustrative and given by way of example and not as limiting the invention to this single description.
1 machine
2 launching device
21 projection arms
22 distal end of 21
23 proximal end of 21
24 axis of rotation of 21
25 finger
3 accumulator device
31 spring
32 first end of 31
33 second end of 31
4 triggering device
41 finger
42 motor
43 axis
51 linear actuator
52 flexible transmission means or member
53 deflection pulley
54 guide
55 first strand
56 second strand
6 preloader device of the prior art
61 axis of rotation
62 rigid blade
63 eccentric
64 axis
71 rod
72 rod
73 support
74 ring
75 shaft
76 nut
Number | Date | Country | Kind |
---|---|---|---|
1910116 | Sep 2019 | FR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2020/075568 | 9/11/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2021/048421 | 3/18/2021 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
806663 | Hardy | Dec 1905 | A |
956117 | Lord | Apr 1910 | A |
1093524 | Best | Apr 1914 | A |
1506992 | North | Sep 1924 | A |
1564884 | North | Dec 1925 | A |
1602471 | Winans | Oct 1926 | A |
2025903 | Roth | Dec 1935 | A |
2135603 | Roth | Nov 1938 | A |
2136034 | Altemus | Nov 1938 | A |
2193266 | Betts | Mar 1940 | A |
2245258 | Darrell | Jun 1941 | A |
2711163 | Richardson | Jun 1955 | A |
2980095 | Hoag | Apr 1961 | A |
3179101 | Luebkeman | Apr 1965 | A |
3470860 | Kane | Oct 1969 | A |
3552371 | Kahelin | Jan 1971 | A |
3601112 | Dale | Aug 1971 | A |
3923033 | Laporte | Dec 1975 | A |
3971357 | LaPorte | Jul 1976 | A |
4481932 | Olson | Nov 1984 | A |
6026796 | LaPorte | Feb 2000 | A |
6062207 | Underhill | May 2000 | A |
6159112 | Ciluffo | Dec 2000 | A |
9605931 | Laporte | Mar 2017 | B2 |
9835421 | Laporte | Dec 2017 | B2 |
10458760 | Liu | Oct 2019 | B1 |
10545011 | Collins | Jan 2020 | B1 |
10746513 | Liu | Aug 2020 | B1 |
11441879 | Dunning | Sep 2022 | B1 |
20060065258 | Lovell | Mar 2006 | A1 |
Number | Date | Country |
---|---|---|
2557283 | Jun 1985 | FR |
Entry |
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Laporte, “185 DTL 60 Owners Manual Installation and operation,” Jun. 30, 2015, pp. 1-12. |
International Search Report issued in corresponding international Application No. PCT/EP2020/075568, dated Dec. 16, 2020, pp. 1-2, European Patent Office, Rijswijk, Netherlands. |
Written Opinion Issued In corresponding international Application No. PCT/EP2020/075568, dated Dec. 16, 2020, pp. 1-9, European Patent Office, Rijswijk, Netherlands. |
Number | Date | Country | |
---|---|---|---|
20220325990 A1 | Oct 2022 | US |