The present invention relates in particular to a barrel intended for a target launching machine and precisely to the filling of targets into a barrel of such a launching machine.
A preferred application relates to the shooting sport industry, and more specifically the flying target shooting industry, also known as “ball-trap” in English-speaking countries.
Managers of flying target shooting clubs automatize their stands to reduce operating costs. But some actions are difficult to compress or modify. Loading targets into the machines, for example, requires a time during which the installation must be down, this time varying according to the number of machines and the relative positions thereof.
WO-A-2012/032001 discloses a target launching machine with a support and a barrel mounted with the ability to rotate on the support. The barrel has columns at its periphery wherein targets intended to be launched are stacked. The capacity of the barrels varies according to the height and the number of columns. In the end, the number of targets on a launching machine is limited by several factors.
The most important limiting factor is that only one column is associated with a set of rods forming a compartment, the barrel preferably having several compartments.
However, the need to increase the number of targets in a barrel is growing. For optimization purposes, flying target shooting facilities require increasingly capacitive machines. The reloading of machines is a more or less important constraint, depending on its frequency. For safety reasons, it requires a break in activity, the duration of which is linked to the relative positions of the machines, their distance, the structure that houses them, which can be raised, for example a column, or which can be closed and have a limited space, as well as the number of structures.
Thus, it is desirable that the barrels containing the targets should be of the multi-column type. The low relative strength of the lowest targets in a column limits the height of the associated column and in the case of a closed structure, regulations define the dimensional constraints. It is therefore not possible to increase the height of the columns to load more targets into a barrel of such a launching machine. Moreover, this is made impossible by the housing of such a target launching machine in an often cramped frame, wherein the frame roof is very close to the upper surface of the barrel of the launching machine.
Typically, columns are reloaded by inserting stacks of targets from above into each column. The number of targets per stack to reload the machine is thus limited by the distance between the top of the barrel and, in the case of a machine housed in a structure, the roof of said receiving structure. For most facilities, a stack can consist of 3 to 6 or more targets. Thus, reloading target launching machines is long and laborious. This results in a significant down-time cost.
The issue this invention is based on is, for the barrel of a launching machine comprising at least one column at least partially delimited by a rod, to facilitate the filling of the column with targets.
For this purpose, the present invention relates to a barrel intended to be mounted on a target launching machine, said barrel comprising at least one column for the storage of targets in a stack, said at least one storage column being positioned at least partially by a rod, characterized in that the rod comprises a first portion and a second portion that is configured to be able to move relative to the first portion at least translationally along a longitudinal axis of the rod between a position deployed along the storage column and an at least partially retracted position.
The technical effect is to have a rod for positioning or delimiting at least one column that can be retracted, the retraction being preferably but not restrictively carried out according to at least one translation movement, which also covers the case of a helical slide, and complex movements including preferably a translation. The translation allows a better retraction of the rod than for example, pivoting, with the rod then going out of the barrel in the latter case, which is very disadvantageous when the launching machine is housed in a frame offering a limited working space.
The position deployed along the storage column of the rod(s) ensures that the target stack of the column(s) is properly held in place. Once the barrel is loaded and a position at least partially retracted, each rod clears space and allows targets to be reloaded into the barrel from the outside.
The invention relates to a target launching machine, characterized in that it comprises such a barrel, the targets being stacked by forming said at least one column.
This invention optimizes the size of the barrel, allows the barrel to be loaded in a limited space, which is usually that of a frame housing the machine. The loading rate of the machine filling is increased, resulting in a faster availability of the machine.
Finally, the invention relates to a method for filling a barrel with targets, which is intended to be preferably but not restrictively mounted with the ability to rotate about a central axis of rotation on a target launching machine. Advantageously, said barrel comprises at least one column for the storage of targets in a stack, said at least one storage column being positioned at least partially by a rod extending preferably parallel to the storage column, characterized by a step of at least partially retracting the rod at least by translation along a longitudinal axis of the rod and a step of filling the barrel transversally to the longitudinal direction of the target storage column through a space cleared after at least partial retraction of the rod.
Other characteristics, purposes and advantages of the present invention will appear in the detailed description below, and referring to the appended drawings given as non-exhaustive examples and in which:
The drawings are given as examples and are not restrictive for the invention. They are schematic representations intended to facilitate the understanding of the invention and are not necessarily on the scale of the practical applications. In particular, the dimensions of the different parts are not representative of reality.
In the following, reference is made to all the figures taken in combination. When reference is made to one or more specific figures, the other figures are to be taken in combination with these specific figures for the recognition of designated numerical references not present on these specific figures.
In some figures, for the sake of simplicity, references are not repeated for each of the elements they should refer to.
In
Before going into the details of preferred embodiments of the invention with reference to drawings in particular, other optional features of the invention, which may be implemented in any combination or as an alternative solution are indicated below:
Referring to
The machine 4 for launching targets 7 advantageously includes a chassis 26 used as a support for the barrel 1. The launching machine 4 also includes a launch arm 27 and a launch plate 28.
In
The targets 7 are stored in stacks inside said storage columns 2, 2a. A large portion of the volume of the barrel 1 can thus be filled with columns 2, 2a of targets 7 stacked on top of each other except for a central portion forming an empty space surrounding the central axis of rotation of the barrel 1, this central portion being preferably delimited by a star-shaped central part 20, which is best visible in
Generally speaking, the barrel 1 operates in this example successive rotations configured to deliver the targets 7, at least one per column, from all the columns 2, 2a. A rotation, in several steps, of 360°, corresponds to a complete cycle.
As previously mentioned and with reference in particular to
Generally speaking, the present invention relates to a barrel 1 comprising at least one column 2, 2a for the storage of targets in a stack 7, so not necessarily a set of columns 2, 2a regularly distributed around a circle as shown in
In such a barrel 1, in
This rod 9 is visible in
In
This is not restrictive and the present invention may relate to a barrel 1 equipped with a single column 2, 2a or several columns 2, 2a provided that a rod is associated with the column 2, 2a or columns 2, 2a of the barrel 1.
As shown in particular in
As a result, the length of the rod 9 in the height of the barrel 1 can be reduced. This leaves a space for the lateral introduction of targets 7 into the barrel 1 and simplifies the filling of the barrel 1, the insertion space between a barrel 1 with its substantially vertical axis of rotation and the inner wall of the roof 5 of frame 6 being very small.
In one embodiment of the invention, the rod 9 can be completely retracted. In this case, the complete retraction of the rod 9 is not mandatory. Only a part of the mobile portion of the rod 9 can be retracted. The mobile portions 12 and the stationary portions 11 may be of substantially the same length, which is not restrictive. The part of the mobile portion 12 may, in a non restrictive embodiment of the invention, be retracted from one-fifth to one-half of the total length of the rod 9.
The retracting movement can be a simple translation, for example for a telescopic rod 9 the mobile part retracting without or on the stationary part, being advantageously but not necessarily returned to the deployed position by a return element. Preferably, the retracting movement is a sequence of movements including one or more translation(s) combined with one or more pivoting of the mobile portion about the longitudinal axis 29 of the rod 9. A preferred embodiment will be described in greater details later.
As previously mentioned, with reference in particular to
The first stationary portion 11 of the rod(s) 9 contained in the barrel 1 can thus rest on a base 10 of the barrel 1 by being secured to this base 10. The base 10 of the barrel 1 is substantially circular and includes distribution passages 23 in the form of a cavity with dimensions preferably larger than those of a target 7, respectively. These distribution passages are used to supply targets 7 to the machine 4 starting with the lowest target 7 through the base 10 of the barrel 1, the barrel being then advantageously in a vertical position or close to the vertical.
The barrel 1 includes a face opposite the base 10, called the upper face. This upper face preferably includes a star-shaped central part 20 centred on and remotely surrounding the axis of rotation of the barrel 1. In another embodiment, the different rods 9 can be connected to each other at their vertices by means of rectilinear parts. The purpose of this connection between the tops of the rods 9 is to stiffen the entire barrel 1. In the preferred embodiment comprising a star-shaped part, each branch of the star-shaped central part 20 points radially outwards and is secured to a T-shaped part 21 by the base of the T. Two adjacent T-shaped parts 21 delimit between them a compartment 8 which houses in its interior one or more column(s) 2, 2a and the at least partially retractable rod 9.
The base 10 of the barrel 1 is connected to the T-shaped parts 21 and the star-shaped central part 20 by a series of pillars 22, the pillars 22 being advantageously in the form of rods. There can be four pillars 22 per T-shaped part 21, i.e. two at the ends of the T head, one in the middle of the vertical bar of the T and one at the base of the T. Six compartments 8 i.e. six branches for the star-shaped central part 20 can be defined per barrel 1, one compartment 8 considered being defined by two adjacent T-shaped parts 21, each T-shaped part 21 also defining one compartment 8 adjacent to the compartment 8 considered. A T-shaped part 21 is therefore common to two adjacent compartments 8. Pillars 22 are common to each base 10 of the T-shaped part 21 and each branch of the star-shaped central part 20.
In a preferred embodiment of the target support 7, the pillars 22 and the rod 9 cooperate to hold the columns 2, 2a in each compartment, one compartment 8 comprising several columns 2, 2a and the rod 9 being preferably arranged in the middle of the columns 2, 2a, themselves surrounded by the pillars 22.
In the embodiment of
All these elements give the barrel 1 a substantially cylindrical and mostly hollow shape. For a compartment 8, between two T-shaped parts 21 delimiting it and the pillars 22 of the corresponding ends of the T-head, a lateral opening 25 between the pillars 22 of two T-pieces 21 is kept clear, this lateral opening 25 being advantageously wider than the spacing between two pillars 22 associated with the same T-shaped part 21. The targets 7 can be introduced into each compartment 8 of the barrel 1 through these lateral openings 25 when the rod 9, which is advantageously located in the middle of the compartment 8 and extends from the base 10 to the upper surface of the barrel 1, is at least partially retracted.
In the preferential embodiment of the invention, each compartment 8 may comprise at least three columns 2, 2a, two columns 2 being located at the periphery of the same first circle centred on the axis of rotation of the barrel 1 and the third column 2a being located inside the circle on a circle concentric to the first circle but having a smaller diameter.
In a volume inside each compartment 8 of the barrel 1, the rod 9 can be found in a median longitudinal part of the compartment, the columns 2, 2a being arranged at equal distance from the rod 9 which is parallel thereto.
The outline of the or each compartment 8 is defined by the base 10 of the barrel 1, the only substantially closed element of the compartment, a part of two T-shaped parts 21, namely an end of the T-head and the T-body, and the pillars 22, advantageously six pillars 22 with three pillars 22 per T-shaped part 21, as well as a part inserted between two branches of the star-shaped central part 20.
In one embodiment of the barrel 1, there can be 6 compartments 8 per barrel 1, each compartment 8 comprising 3 columns 2, 2a of targets 7, i. e. 18 columns 2, 2a. However, the numbers of storage columns 2, 2a and of compartments 8 are not restrictive.
All the storage columns 2, 2a of the same barrel 1 can have the same diameter. Thus, the diameter of a storage column 2, 2a is advantageously between 80 mm (mm or 8.10−2 meters) and 130 mm and is preferably between 105 and 115 mm, more precisely 112 mm. The diameter of a barrel 1 for one embodiment with approximately 18 storage columns 2, 2a advantageously is between 400 and 900 mm.
A preferential mode of retraction of one or more rod(s) 9 present in a barrel 1 according to the present invention will now be described. This preferential mode is not restrictive.
In this preferential mode, the second portion 12 of the rod 9 can be able to move at least translationally along the longitudinal axis 29 of the rod 9 and rotationally about the longitudinal axis 29 of the rod 9 relative to the first portion 11. The second portion 12 can penetrate into or at least partially receive the first portion 11 of the rod 9. A second portion 12 that fits into the first portion 11 is preferred. It is possible to provide a stiffening tube 13 housed inside the first and second portions 11, 12 of the rod 9.
In
The other one of the first and second portions 11, 12, in
The bottom of the notch 14 or each notch 14 is therefore recessed relative to the end of this portion, here the first stationary portion 11 opposite the second mobile portion 12. There are as many notches 14 as there are tabs 15 in
In
In
In
In a first alternative solution belonging to the preferential mode, one portion of the first and second portions 11, 12 may include at least two tabs 15 and the other portion includes at least two notches 14. In this case, the second mobile portion 12 is rotated about the longitudinal axis 29 of the rod 9 by at most 90° between the deployed and retracted positions.
In the preferred alternative solution, one portion of the first and second portions 11, 12 may include at least three tabs 15 and the other portion 12 comprises at least three notches 14. In this case, the second mobile portion 12 is rotated about the longitudinal axis 29 of the rod 9 by at most 60° between the deployed and retracted positions.
In this preferential mode, the tab(s) 15, for example three tabs 15, is/are carried by the second mobile portion 12 and notch(es) 14, in a number corresponding to the tabs 15, are advantageously carried by the first stationary portion 11.
The kinematics of passing from a deployed position to an at least partially retracted position during the process 7 of filling a barrel 1 with targets 7 can be the following:
In the deployed position, the stop of each tab 15 carried by a first or a second portion 12 has its second stop 17 inserted into a first housing 18 at one end of the other first or second portion 12. A first translation is then carried out to a larger deployment of the rod 9 to pull out the second stop(s) 17 from their respective first housing 18.
The rod 9 is then pivoted about its longitudinal axis 29, the axis being shown only in
Eventually, a second translation of the second mobile portion 12 is performed towards the first stationary portion 11 with a reduction in the length of the rod 9 in relation to the amplitude of the translation and in the direction opposite the direction of the first translation. This translation is stopped by inserting the second stop(s) 17 into a respective second housing 19 of the notch(es) 14. Simultaneously the first stop(s) 16 penetrate(s) into the first housing(s) 18. The retracted position of the rod 9 is stable as long as the second mobile portion 12 is not driven translationally away from the first mobile portion 11.
More generally, the invention eventually relates to a method for filling a barrel 1 with targets 7 intended to be mounted with the ability to rotate about a median axis of rotation on a target 7 launching machine 4, said barrel 1 comprising at least one column 2, 2a for storing targets 7 in a stack, said at least one storage column 2, 2a being positioned at least partially by a rod 9 extending parallel to the storage column 2, 2a.
The method includes a step of at least partially retracting the rod 9 at least by translation along a longitudinal axis 29 of the rod 9. This step is followed by a step of filling the barrel 1, laterally to the barrel 1, through a space cleared after the at least partial retraction of the rod 9.
In the preferred embodiment of the barrel 1 with compartments 8 housing the rod 9, this is done through the lateral opening 25 provided in each compartment 8 of the barrel 1.
The invention is not limited to the embodiments previously described but extends to all embodiments in accordance with the spirit thereof.
In addition, it is of course understood that all the examples relating to machines 4 with a specific number of storage columns 2, 2a are not restrictive examples in order to specify and explain the invention. Arrangements other than the ring are also possible.
Number | Date | Country | Kind |
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1656645 | Jul 2016 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/066163 | 6/29/2017 | WO | 00 |