FR3035877A1 - ASSEMBLY FORMING RING OF MORS, IN PARTICULAR FOR HORSE - Google Patents

Abstract

The present invention relates to a jaw ring assembly (10) comprising a main ring (16) for connection to a mouth (14). The main ring (16) comprises first and second main half-rings (18, 20) articulated together about an articulation axis (22) so as to define an open position of the main ring ( 16) for inserting the mouth (14) into the main ring (16) and a closed position for retaining the mouth (14) on the main ring (16). The jaw ring assembly (10) also includes locking means (24) for the two main half-rings (18, 20) in the closed position.

Description

The present invention relates to a jaw ring assembly, particularly for horses. The bit is the part of a riding harness that gets in and around the horse's mouth. It consists of a mouthpiece that is the piece inserted into the horse's mouth and two sets called jaw rings to connect the mouth to the reins. Conventionally, the mouth is not separable from the jaw rings, each jaw being characterized by a type of mouth and specific jaw rings. The bit is usually connected to a bridle, usually called "net", which is placed on the horse's head. In addition, reins which, in connection with the bit, direct the horse are connected to the net via the bit. The reins are generally detachably attached directly to the rings of the jaw, for example by means of a hook or a loop, to transmit the orders of the rider to the horse. Its positioning on the bit, in particular the angle it constitutes with the mouthpiece, has a direct impact on the horse's mouth due to the presence or the absence of a leverage effect. Indeed, the different parts of the horse's mouth are delicate and fragile. The sensations of the horse vary according to many parameters, for example depending on the shape and the material of the mouth or the relative positions between the reins and the mouth. These are conditioned by the structure and shape of the bit rings. Thus, depending on the effect desired by the rider, many combinations of jaw rings and mouthpieces are desired. Conventionally, for a given horse, about one hundred fifty different combinations, ie one hundred fifty different types of jaws, are generally necessary to communicate with the horse and control the horse satisfactorily. The large number of bits required creates many disadvantages. First of all, it is not always possible or easy to find the different types of jaws desired in the trade. In addition, the transport of a large number of jaws from one place to another and the availability of the rider all the jaws are not always easy, especially since it is sometimes necessary to equipping, for the same type of bit, jaws of different sizes. In addition, it is often better to change regularly the horse's jaw to take into account his state of nervousness or to vary his feelings. The frequent change of regular bits is time consuming. The object of the present invention is to reduce the number of jaws necessary for riding, in particular competitive riding, so as to establish a satisfactory relationship between the rider and the animal, and to reduce also the time needed for a bit change. To this end, the subject of the invention is a jaw ring assembly 5 comprising a main ring intended to be connected to a mouthpiece, characterized in that the main ring comprises first and second main half-rings articulated together, around an axis of articulation, so as to define an open position of the main ring for the introduction of the mouth into the main ring and a closed position of retaining the mouth on the main ring 10 , the jaw ring assembly comprising locking means of the two main half-rings in the closed position. The main ring can open thanks to the joint during a change of mouth. Thus to move from one type of bit to another where only the mouthpiece varies in shape, structure or material, it is sufficient to change only the mouth of the bit without touching the bit ring assemblies. The number of jaws needed for a horse is reduced accordingly by eliminating the reproductions of the same jaw ring assembly associated with different mouths. This makes it possible to reduce the number of jaws needed by the rider to obtain different settings as well as the time required to change grips. In addition, it is possible to combine different shapes and structures of jaw rings corresponding to different types of jaws in a single jaw ring assembly. Thus, depending on where the reins are attached to the bit ring assembly, the type of bit may vary. For example, it is possible to pass from an "adjustable" Pessoa bit to a "Pelham" bit by adding a curb bracelet, for example by means of a pin or a hook, to the bit ring and attaching the reins to different extensions or parts of the main ring of a same jaw ring assembly. The number of jaw types achievable with a jaw ring assembly and a mouthpiece is then increased. According to one embodiment, the locking means comprise a pin rod mounted on the first main half-ring being axially displaceable substantially orthogonal to the axis of articulation between a position of cooperation with a pin striker carried by the second main half-ring and a release position of the pin relative to the pin striker. The pin and the pin striker are simple mechanical structure locking means that do not require complex manipulations during locking or unlocking. Thus the change of a mouth is simple and fast. In addition, these locking means are easy to manufacture and have a reduced production cost. Preferably, the pin is mounted on the first main half-ring by being displaceable substantially radially with respect to the closed main ring. Advantageously, the pin is carried by a pin-carrying extension of the first main half-ring extending substantially parallel to the same plane as the main ring. The shape and the general structure of the main ring are modified little by integrating the pin to an extension of it and not directly to a main half-ring. The advantages of a traditional main ring are thus maintained as well as the usual production techniques and tools. Preferably, the pin-holder extension connects the two ends of the first main half-ring. The pin holder extension is thus stably fixed to the first main half-ring. In addition, it reinforces the latter, especially when the main ring is open. According to one embodiment, the pin holder extension is a secondary ring extending inside the closed main ring. The substantially circular shape of the pin holder extension has symmetries 20 allowing the assembly to better withstand the stresses exerted by the reins and the mouth. In addition, it can be easily molded with the main ring. According to one embodiment, the main half-rings comprise complementary male and female means cooperating with each other when the main ring is in the closed position to maintain the parallelism of the main and secondary rings. The jaw ring assembly is sometimes subjected to high stresses that can cause deformation of the main ring or the secondary ring, which can affect their parallelism. The complementary male and female means of maintaining parallelism make it possible to reduce this risk by maintaining the relative positions of the main and secondary rings when the main ring is in the closed position. Advantageously, the pin-holder extension is a secondary ring extending radially on either side of the first main half-ring. According to one embodiment, the pin striker is formed in a strike-holder extension of the second main half-ring radially offset relative to the closed main ring. The general shape of the main ring is then maintained by resorting to an extension. Preferably, the keeper extension extends within the closed main ring. In this configuration, the cooperation between the pin and the pin striker is easier and the extension does not encumber the space around the main ring, thus reducing the risk of shock or entanglement with the reins, with the rest of the harness or with the horse.

Advantageously, the pin holder extension forms a support for the keeper extension when the main ring undergoes stresses tending to open it. The support of the pin holder extension on the striker extension allows the pin to better withstand the stresses that open the main ring. Indeed, thanks to the support, these stresses are not oriented in a direction of strong stress on the pin, in particular these stresses are not shear stresses that weaken the pin. Preferably, the pin striker is formed in the second main half-ring. Advantageously, the first main half-ring comprises a free end fitted into a junction strut formed in the second main half-ring. The free end fitted into the joint striker keeps the closed position of the main ring, in addition to the locking means. The joint striker reduces the number of degrees of freedom of the free end and opposes certain stresses tending to open the main ring, in particular the stresses applied in a direction parallel to that of the hinge axis. . Preferably, the pin striker has a first through hole in the free end of the first main half-ring and a second hole in the second main half-ring. Engaging the pin keeper, the pin is successively introduced into the two holes. The second hole allows the pin to lock the main ring while the first hole allows the pin to increase the stability of the closed position of the main ring, allowing it to withstand higher stresses tending to the open. According to one embodiment, the second hole and the striker keeper are communicating and substantially perpendicular to one another. By engaging in the second hole, the pin is also introduced into the joint striker. Advantageously, the second hole and the joint striker are angularly offset between them along the second main half-ring. The first main half-ring first fits into the joint striker before the pin engages the first hole of the free end. The invention will be better understood upon reading the following description, given by way of example only and with reference to the drawings in which Figures 1 to 8 show perspective views of the ring assembly. jaw according to first to eighth embodiments of the invention. Figures 1 to 8 show a jaw 10 having a jaw ring assembly 12 and a mouthpiece 14. The jaw ring assembly 12 includes a main ring 16 to be connected to the mouth 14. The main ring 16 comprises a first main half-ring 18 and a second main half-ring 20 hinged together about an articulation axis 22, so as to define an open position of the main ring 16 for the introduction of the mouth 14 into the main ring 16 and a closed position for retaining the mouth 14 on the main ring 16 (position shown in Figures 1 to 8). The jaw ring assembly 12 also comprises locking means 24 of the two main half-rings 18, 20 in the closed position.

The locking means 24 comprise a pin rod 26 mounted on the first main half-ring 18 being axially displaceable substantially orthogonal to the hinge pin 22 between a position of cooperation with a keeper pin 28 carried by the second main half-ring 20 and a release position of the pin 26 relative to the keeper pin 28. The displacement of the pin 26 may be a simple translation or a movement consisting of a rotation and a translation such as a movement of a screw-nut system or any movement that moves the pin 26 in a axial direction substantially orthogonal to the hinge axis 22.

The pin 26 is mounted on the first main half-ring 18 by being displaceable substantially radially with respect to the main ring 16 closed. It is preferably carried by a pin holder extension of the first main half-ring 18 extending substantially parallel to the same plane as the main ring 16..

Referring now to Figure 1 which illustrates a first embodiment of the invention. The pin holder extension is a secondary ring 30 extending inside the main ring 16 closed. The secondary ring 30 is connected to the main ring 16 by radial arms 31a and 31b. The pin 26 mounted on the secondary ring 30 can cooperate with the keeper pin 28 which is formed in a striker extension 32 of the second main half-ring 20 radially offset relative to the main ring 16 closed. The pin striker 28 may be provided over the entire thickness of the striker extension 32 or a portion of the thickness. The pin 26 thus makes it possible to lock the main ring 16 by securing the striker extension 32 to the secondary ring 30, in its position of cooperation with the pin striker 28. In particular, the keeper extension 32 extends inside the main ring 16 closed. Its shape and position are chosen so that it rests on the pin-holder extension, that is to say on the secondary ring 30, when the main ring 16 undergoes constraints tending to open it . These stresses are generally applied by the mouth 14 threaded into the second main half-ring 20 and by a reins 34 attached to a bridge 36, one end of which is connected to the main ring 16 and whose other end is connected to an extension forming a lever arm 38 of the free end EL1 of the first main half-ring 18. These stresses tend to release the free end EL2 of the second main half-ring 20 of the right-of-way of the first main half-ring 18 of in order to open the main ring 16. These stresses generate parallel deformation of the main ring 16 so that the striker extension 32 rests on the secondary ring 30. This support makes it possible to keep the pin 26 in position. its co-operating position with the pin striker 28 instead of disengaging it from the pin striker 28. The main ring 16 closed can thus withstand strong constraints.

The free end EL2 is either in contact with the free end EL1 or inserted therein when the main ring 16 is closed. The main ring 16 comprises a stud ring 42 to which is attached a post 44 for connecting the jaw 10 to the rest of the harness. The lever arm extension 38 has a passage 46 for securing the rein 34 to form another mouthpiece and jaw ring combination and thereby obtain another type of jaw. The operation of the jaw ring assembly 12 upon a change of mouth 14 is now described. First, the pin 26 is pulled in an axial direction substantially orthogonal to the hinge axis 22. , generally radial with respect to the main ring 16. The pin 26 then passes from its position of cooperation with the keeper pin 28 to its release position relative to the latch 28 pin. The main ring 16 is then opened by rotating the second main half-ring 20 about the hinge axis 22, its free end EL2 being released from the right-of-way of the main half-ring 18. The mouth 14 threaded into the second main half-ring 20 can be removed by the free end EL2 and another mouth can be introduced on the second main half-ring 20. Then, the main ring 16 is closed by making a rotating the second main half-ring 20 about the hinge axis 22 in the opposite direction, until the free end EL2 is introduced into the first half-ring 18. Finally, the ring-forming assembly is locked. 10 by moving the pin 26 in its position of cooperation with the pin striker 28. In what follows, the elements common to the various embodiments are identified by the same reference numerals. Only the main differences are described, note that the other elements are similar. Referring now to Figure 2 which illustrates a second embodiment of the invention. This embodiment is substantially similar to the first embodiment. However, it differs in that the pin striker 28 is formed directly in the second main half-ring 20. The pin striker 28 may be formed over the entire thickness of the second main half-ring 20 or a portion of thickness. The mouthpiece 14 is threaded into the first main half-ring 18. The pin rod 26 is carried by the secondary ring 30 which comprises a guide extension 50 which guides the displacement of the pin 26. The guide extension 50 extends in the same direction as the pin 26 and is in particular opposite the pin striker 28 when the main ring 16 is closed. Moreover, in this second embodiment, the functions of the free ends EL1 and EL2 are reversed. Indeed, it is the free end EL1 which is either in contact with the free end EL2 is inserted into it when the main ring (16) is closed.

The operation of the jaw ring assembly 12 according to the second embodiment is similar to that described for the first embodiment. Referring now to Figure 3 which illustrates a third embodiment of the invention. This embodiment is essentially similar to the second embodiment. However, it differs in that the keeper pin 28 has a first hole 51a formed in the free end EL1 of the first main half-ring 18 and a second hole 51b formed in the second main half-ring 20, generally in the vicinity of the free end EL2. The second hole 51b is of smaller section than the first hole 51a. When the main ring 16 is closed, the first 51a and second holes 51b of the pin striker 28 are substantially aligned on the same substantially radial axis. A joint striker GJ is furthermore provided in the free end EL2 of the second main half-ring 20 in which the free end EL1 of the first main half-ring 18 is inserted when the main ring 16 takes its position. closed. The second hole 51b and the junction strike GL are communicating and substantially perpendicular to each other. The pin 26 has an interlocked shoulder end EV having a first large diameter portion introduced into the second hole 51b and a second smaller diameter portion engaging the first hole 51a, the first portion being delimited by a shoulder forming a stop which rests on the first main half-ring 18. The main half-rings 18, 20 comprise complementary male and female means, the two main half-rings 18, 20 cooperating with each other when the ring main 16 is in the closed position to maintain the parallelism of the main ring 16 and secondary 30. In this embodiment, the male and female means are formed respectively by a radial extension 52 of the second main half-ring 20 and a grommet 53 of the When the main ring 16 is in the closed position, the radial extension 52 is inserted into the eyelet 53, which allows the relative positions to be maintained. of the main and secondary rings 16 and 30 in addition to the locking means 24 and the radial arm 31b which connects the secondary ring 30 to the first main half-ring 18. The operation of the jaw ring assembly 12 according to the third embodiment is similar to that described for the first embodiment. More particularly, when the main ring 16 moves from its open position to its closed position, the free end EL1 of the first main half-ring 18 engages in the joint striker GJ until the alignment of the first 51a and second 52b holes of the pin striker 28. The jaw ring assembly 12 is then locked by inserting the pin 26 into the pin keeper 28, the locking end EV successively engaging, in that order, in the second hole 51b and then in the first hole 51a. . The stroke of the pin 26 ends when the abutment shoulder of the locking end EV abuts against the first main half-ring 18.0n now refers to FIG. 4 which illustrates a fourth embodiment of FIG. the invention. This embodiment is essentially similar to the third embodiment. It differs, however, in that the second hole 51b and the GJ joint strike are not communicating, but are angularly offset between them along the second main half-ring 20. The GJ joint strike is formed in an extension forming eyelet 54 of the second main half-ring 20, in the vicinity of the free end EL2. The free end EL1 must pass through the GJ joint strike and then be locked. The first 51a and second 52b holes are substantially of the same size, the locking end EV and the remainder of the pin 26 being substantially of constant section. The operation of the jaw ring assembly 12 according to the fourth embodiment is similar to that described for the first embodiment.

To close the main ring 16, the free end EL1 passes through the joint striker GJ formed in the eyelet extension 54 to the alignment of the first 51a and second 51b holes of the pin striker 28. Then, the pin 26 engages successively, in the reverse order as that of the third embodiment, in the first hole 51a and then in the second hole 52b, locking the jaw ring assembly 12. In FIGS. and 4, the length of the guide extension 50 is exaggerated to facilitate understanding. Concretely, this length is determined so as to ensure a sufficient clearance between the guide extension 50 and the main ring 16 to introduce or remove the mouth 14 when the main ring 16 is in the open position. Referring now to Figure 5 which illustrates a fifth embodiment of the invention. This embodiment is essentially similar to the first embodiment. However, it differs in that the secondary ring 30 extends radially on either side of the first main half-ring 18. The secondary ring 30 coincides with the upright ring on which the upright is suspended. 44. The first half-ring 18 comprises two eyelets 60a and 60b through which is inserted a strap 62. A ring 64 linked to the rein 36 is attached to one end of the strap 62. The other end of the strap 62 is connected in a manner known per se to a net element. Operation of the jaw ring assembly 12 according to the fifth embodiment is similar to that described for the first embodiment. Referring now to Figure 6 which illustrates a sixth embodiment of the invention.

This embodiment is essentially similar to the first embodiment. However, it differs in that the main ring 16 has a plurality of upright rings 70a, 70b and 70c, among which the upright ring 70b plays a role similar to the ring 42 of the first embodiment. The stud rings 70a and 70c are located on either side of the ring 70b and allow the main ring to be connected to different parts of the harness to obtain, in this embodiment, an American jaw or a jaw. type "Hackamore" without mouth. In other embodiments, other jaw models can be formed by varying the location of the different stud rings. The operation of the jaw ring assembly 12 according to the sixth embodiment is similar to that described for the first embodiment.

Referring now to Figure 7 which illustrates a seventh embodiment of the invention. This embodiment is essentially similar to the first embodiment. However, it differs in that eyelets 75, 76, 77 are formed along the lever arm extension 38 in order to be able to vary the lever arm formed by the mouth 14 and the rein 34. In other words, eyelets 75, 76 and 77 make it possible to regulate the stresses exerted on the mouthpiece 14, and therefore on the horse's mouth, as a function of the tension coming from the rein 34. Thus one can obtain different types of jaws by simply changing the position of the reins 34 on the lever arm extension 38. For example, the lever arm 15 formed by the mouth 14 and the reinforcement 34 when the latter is attached to the lever arm extension 38 at the level 77 is more important than that formed when the rein 34 is attached to the lever arm extension 38 at the eyelet 76. A link curb 78 may be hooked to the stile ring 72 by means of a hook 80. The link forma The curb 78 20 is connected to each of the two bit rings, passing under the lower jaw of the horse. The operation of the jaw ring assembly 12 according to the seventh embodiment is similar to that described for the first embodiment. Referring now to Figure 8 which illustrates an eighth embodiment of the invention. In this embodiment, the pin holder extension connects the two ends of the first main half-ring 18. It comprises two parts: a curved portion 90 which extends from the point of articulation of the two main half-rings 18 20 and terminating at a rectilinear portion 92 extending to the free end EL1 of the first main half-ring 18. The pin 26 is disposed in the rectilinear portion 92. The curvature of the curved portion 90 must be sufficient for the pin 26 to slide until unlocked. Its cooperation with the striker 28 is governed by a mechanism similar to that described in the third embodiment, with the exception of the absence of a shoulder at the locking end EV of the pin 26. This embodiment is particularly powerful. Operation of the jaw ring assembly 12 according to the eighth embodiment is similar to that described for the first embodiment. The invention is not limited to the embodiments presented and other embodiments will become apparent to those skilled in the art. It is in particular possible to combine the various embodiments described, in particular by varying the position of the mouthpiece 14 and / or that of the rein 34 on the jaw ring assembly 12 to make all types of jaws existing.

Claims (16)

REVENDICATIONS1. A jaw ring assembly (10) comprising a main ring (16) for connection to a mouth (14) characterized in that the main ring (16) includes first and second main half-rings (18, 20) articulated together about a hinge pin (22) so as to define an open position of the main ring (16) for insertion of the mouth (14) into the main ring (16) and a closed position of retaining the mouth (14) on the main ring (16), the jaw ring assembly (10) further comprising locking means (24) of the two main half-rings (18). , 20) in the closed position. 2. An assembly according to claim 1, wherein the locking means (24) comprise a pin rod (26) mounted on the first main half-ring (18) being axially displaceable substantially orthogonal to the hinge axis ( 22) between a cooperating position with a pin striker (28) carried by the second main half-ring (20) and a release position of the pin (26) with respect to the pin striker (28). 3. The assembly of claim 2, wherein the pin (26) is mounted on the first main half-ring (18) being movable substantially radially relative to the main ring (16) closed. 4. The assembly of claim 2 or 3, wherein the pin (26) is carried by a pin holder extension of the first main half-ring (18) extending substantially parallel to the same plane as the main ring (16). ) 5. The assembly of claim 4, wherein the pin holder extension connects the two ends of the first main half-ring (18). The assembly of claim 4, wherein the pin holder extension is a secondary ring (30) extending within the closed main ring (16). 7. The assembly of claim 6, wherein the first (18) and second (20) main half-rings comprise complementary male means (52) and female (53) cooperating with each other when the main ring (16) is in position. closed position to maintain the parallelism of the main (16) and secondary (30) rings. The assembly of claim 4, wherein the pin holder extension is a secondary ring (30) extending radially on either side of the first main half-ring (18). 9. An assembly according to any one of claims 2 to 8, wherein the keeper (28) pin is formed in a keeper extension (32) of the second main half-ring (20) radially offset relative to the main ring (16) closed. The assembly of claim 9, wherein the keeper extension (32) extends within the closed main ring (16). 11. An assembly according to claims 5 and 10 taken together, wherein the pin holder extension forms a support for the striker extension (32) when the main ring (16) undergoes stresses tending to open it. 12. An assembly according to any one of claims 2 to 8, wherein the striker (28) pin is formed in the second main half-ring (20). 13. An assembly according to any one of the preceding claims, wherein the first main half-ring (18) comprises a free end (EL1) nested in a joint striker (GJ) formed in the second main half-ring (20). . An assembly according to claims 2 and 13 taken together, wherein the pin keeper (28) has a first hole (51a) in the free end (EL1) of the first main half-ring (18) and a second hole (51b) formed in the second main half-ring (20). 15. The assembly of claims 13 and 14 taken together, wherein the second hole (51b) and the joint striker (GJ) are communicating and substantially perpendicular to each other. 16. The assembly of claims 13 and 14 taken together, wherein the second hole (51b) and the joint striker (GJ) are angularly offset between them along the second main half-ring (20).