RU2200292C1 - Arbalest with unit preparing it for shooting, process of manufacture of bow-string for arbalest and arrow for arbalest - Google Patents

Abstract

FIELD: sports and hunting equipment. SUBSTANCE: arbalest has frame in which front part bow with operational bow-string, lever cocking mechanism hinged to trigger assembly and mechanism setting operational bow-string with auxiliary bow-string, two levers comprising jaws, lever arm and attachment unit of auxiliary string are fixed. Process of manufacture of bow-string consists in formation of continuous strand of bow- string, in enveloping of zone of working part of bowstring and its lop with the use of tubular covering. Formation of continuous strand of bow-string is carried out by running of strand through two ring and three through cylindrical tubes made of thermally shrinking material. Start and finish of strand are fixed, tubes are oriented in points of attachment of loops and in working part of bowstring, then tubes are subjected to reduction with the aid of thermal treatment. Arrow for arbalest includes head, body, back and feathering. Arrow head has blind axial hole, body comes in the form of rod with through groove, is installed in hole in head and rests against its bottom. Feathering is placed in groove of rod and is fixed by back. EFFECT: raised wear resistance of articles, reduced cost and simplified technology of their manufacture. 13 cl, 10 dwg

Description

 The invention relates to sports equipment and hunting equipment and can be used in the manufacture of crossbows.

 The closest in technical essence to the claimed one - the prototype - is a crossbow with a device for preparing it for action, comprising a body with a handle, in front of which a bow with a working bowstring and a lever cocking mechanism are fixed, articulated with a trigger equipped with a fork, made with the possibility interaction with the bowstring, and the mechanism for installing the bowstring with an auxiliary bowstring and two regulators, made in the form of two brackets, tightened by screws (see RF patent 2141618, CL F 41 B 5/00, 5/12, publ. 20.11.99 g ., bull. 32).

 The device of the known crossbow allows you to shoot arrows, with preliminary preparation of the crossbow for shooting in unsuitable conditions, for example in the field without the use of complex additional equipment.

 A disadvantage of the known crossbow is the excessive complexity and laboriousness of manufacturing the regulators, which leads to a rise in the cost of the crossbow as a whole, and low reliability due to the fact that when preparing the crossbow for shooting and pulling the auxiliary bowstring, the screws connecting the brackets of the regulators due to significant mechanical impact on them and decreasing the width of the rays of the bow, bend.

 As a result of plastic deformation, when the screws are removed to remove the regulators, they break.

 These circumstances reduce the operational properties of the crossbow, causing a rise in the cost of its operation.

 In addition, in a known crossbow, when the bowstring is tensioned, the tensioning device must overcome the resistance of the bow rays in an unfavorable alignment of forces at a small angle of tension. The consequence is that the lever mechanism of the platoon with each new tension of the auxiliary string overcomes the same resistance as with the platoon of the working string.

 These circumstances contribute to reducing the service life of the lever mechanism of the cocking of the crossbow and, as a result, reduce the operational reliability of the crossbow as a whole.

 A known method of manufacturing a bowstring, which consists in the fact that the extruded thread is tightly wound on the base of the bowstring and the end of the thread is brought out between adjacent turns (see US patent 3297013, CL 124-90, 1963).

 The disadvantage of this method of manufacturing a bowstring is the lack of resistance to wear due to unwinding of the winding as a result of repeated use, which reduces the period of use of the bowstring. If the winding is additionally treated with glue, then with repeated deformation, the glued winding breaks, exposing the base of the bowstring, leading to its accelerated wear. Premature wear of the bowstring reduces the reliability of the crossbow as a whole.

 The closest to the claimed prototype is a method of manufacturing a bowstring, which consists in forming a continuous strand of strands of bowstring, then the area of the working part of the bowstring and its loops are covered with a tubular coating by multi-layer winding of a thin tape of suitable width (see US patent 2769439, cl 124-90, 04.20.54 g.).

 The known method allows to make a bowstring for a crossbow.

 The disadvantage of this method of manufacturing a bowstring is the excessive complexity of manufacturing a bowstring, which entails an increase in the cost of the crossbow as a whole. In addition, as a result of repeated mechanical influences, an interlayer movement of the coating occurs, which leads to premature peeling of the tape winding, which reduces the operational properties of the bowstring and crossbow as a whole. Frequent replacement of the bowstring leads to the inconvenience and cost of operating a crossbow.

 The closest in technical essence - the prototype to the claimed - is an arrow to a crossbow, the appearance and device of which are given in the magazine "Arms" (5 (10), 1998, p. 18), containing a tip mounted in a tubular body, which closes with a butt plate, and plumage glued to the body.

 The disadvantages of the known arrows to the crossbow are the excessive complexity and the complexity of attaching the plumage and, as a consequence, the excessive cost of the arrow, as well as the impossibility of its multiple use, since with a sliding strike against an obstacle the plumage is attached to the body, which is provided by the contact of a thin strip of plumage plumage with the body, does not withstand the load and collapses. As a result, the arrow loses its plumage.

 In addition, when an arrow hits an obstacle, the tubular body “creeps” onto the tip due to its inertia and the back plate, collapsing in its front part.

 These disadvantages of the known boom do not allow it to be used repeatedly, which reduces the reliability of the crossbow as a whole and increases the cost of its operation due to the increased consumption of arrows.

 If in order to increase the strength of the boom by eliminating the phenomenon of “creep” of the body onto the tip, the body is made of metal, as a result the center of gravity of the arrow is shifted towards its rear, which negatively affects the range of aimed shooting, also reducing the operational properties of the crossbow.

 The objective of the invention is to improve the operational properties of the crossbow and its cheaper.

 The technical result consists in eliminating time-consuming parts and components, the influence of excessive load on which leads to their premature plastic deformation, and also facilitates the load on the platoon mechanism when preparing the crossbow for firing.

 To solve the problem of the invention, in a well-known crossbow containing a housing, in front of which a bow with a working string is fixed, a cocking lever articulated to the trigger mechanism, and a working string installation mechanism with an auxiliary string, two levers are included, consisting of jaws, a lever arm and the attachment point of the auxiliary bowstring.

Moreover:
- the attachment point of the auxiliary bowstring is made in the form of a hinge,
- the lever jaws are made unregulated with a screw clamp,
- the length of the lever arm is not less than the width of the jaws.

 The objective of the invention is to improve the operational properties of the crossbow and its cheaper.

 The technical result is to increase the durability of the bowstring.

 To solve the problem of the invention, in a known method for manufacturing a bowstring, which consists in forming a continuous strand-strand of a bowstring, then the area of the working part of the bowstring and its loops are covered with a tubular coating, the formation of a continuous strand-strand of a bowstring is carried out by threading the strand through two circular and three passage cylindrical tubes made of heat-shrinkable material, fasten the beginning and end of the core, orient the tubes in the places of fastening the loops and in the working part of the bowstring, then the tubes are crimped by heat treatment.

Moreover:
- cylindrical tubes are made of kapron and crimped by exposure to elevated temperature,
- the diameter of the annular cylindrical tubes is less than the diameter of the through tubes,
- straight cylindrical tubes orient two at the edges of the bowstring and one in the center, while the extreme continuous tubes have spanning ends of the annular tubes.

 The objective of the invention is to improve the operational properties of the crossbow and its cheaper.

 The technical result consists in increasing the reliability of mounting of the plumage and reducing the degree of impact of impacts on an obstacle on the destruction of the boom.

 To solve the problem of the invention, in a well-known arrow to a crossbow containing a tip, a body, a back plate and feathering, the tip is made with an axial blind hole, the body is made in the form of a rod with a through groove and is installed in the hole of the tip with an emphasis in its bottom, and the plumage is installed in the groove rod and fixed with a butt plate.

Moreover:
- the body is made of wood,
- the tip hole is made conical, and the rod has a support pad,
- the groove in the rod is made in the form of a cut,
- the plumage is made having a shank covered by a butt plate.

 The invention is illustrated using the drawings, in which Fig. 1 shows a crossbow with a mechanism for preparing it for firing, Fig. 2 shows a crossbow device in the process of preparing it for firing with mounted levers and an auxiliary bowstring, and Fig. 3 shows a crossbow with a tensioned auxiliary bowstring. and a working bowstring installed, in Fig. 4, separately elements of the mechanism for preparing a crossbow for shooting; in Fig. 5, a bowstring; Fig.8 - form the veined strand of the bowstring after the orientation of the tubes, in Fig.9 - the device of the boom, Fig.10 - section of the boom in the area of plumage.

 The crossbow with the device for preparing it for firing contains a housing 1 (Fig. 1), in front of which a bow 2 is fixed, with beams 3 (Fig.2), with a working string 4 (Fig.3), a platoon lever mechanism 5, articulated with the trigger 6, and the installation mechanism of the working 7 bowstring with two levers 8, consisting of jaws 9 of width S, the shoulders of the lever 10 and the node 11 for attaching the auxiliary bowstring (Figure 3).

 The sponges 9 are provided with a fixing screw 12, the trigger mechanism is equipped with a fork 13, interacting with the bowstring.

 A crossbow with a device for preparing it for fire works as follows.

 Before producing shots from a crossbow, a working 4 string is installed, for which levers 8 are mounted on the ends of the rays 3 of bow 2, grasping beams 9 with sponges. The levers are fixed with screws 12. The levers 8 are installed in such a way as to ensure the tension of the auxiliary 7 bowstring draped over on the plug 13 of the trigger 6.

 The crossbow is platooned using the platoon lever mechanism 5, which acts on the auxiliary bowstring by pulling it. In this case, the auxiliary bowstring acts on rays 3, bending them.

 The force acting on the beam 3 is the sum of the forces acting directly on the beam in the direction of movement of the drawn bowstring and the force directed to bend the beam with the lever 8, which is twisted under the influence of the stretched bowstring 7.

 As a result of the fact that a significant proportion of the force directed to the bending of the beam 3 is generated using the lever 8, and due to the fact that the length of the shoulder 10 is greater than the width S of the jaws 9, there is a gain in the amount of force applied to tension the auxiliary string, especially on the initial the tension stage, when the angle between the beam and the bowstring is sharp and the useful component of the force is small, despite the considerable applied force.

 The bending of the beam 3 using the lever 8 allows you to reduce the force exerted on the auxiliary bowstring, distributing them more evenly during the movement of the output mechanism.

 The tension of the auxiliary bowstring is carried out until the distance between the ends of the beams 3 is less than the length of the working string, sufficient for its installation.

 Dress the working string and then loosen the auxiliary string by releasing the platoon mechanism.

 The working bowstring is pulled, keeping beams 3 in a bent position. In this case, the rays 3 are bent enough to remove the levers 8 with the auxiliary bowstring. The crossbow is ready to fire.

 The trigger mechanism is moved to the front position until the fork 13 engages with the bowstring 4. Then, using the lever mechanism 5, the trigger mechanism is shifted to the operating position.

 After installing the boom and aiming act on the trigger and produce a shot.

 To remove the work string, carry out the above operations in reverse order.

 The proposed crossbow with a mechanism for preparing for shooting is more convenient, more reliable than the prototype due to the fact that the rays are more smoothly bent when installing a working bowstring, it is made simpler and cheaper, because the device for attaching levers to beams in the form of jaws of a mechanism for preparing a crossbow for shooting is easier to manufacture and less labor-intensive compared to the system of brackets in the prototype made by milling. In addition, the clamping screws of the screw, the most frequently malfunctioning elements, are excluded. This allows you to increase the operational properties of the crossbow, reducing the cost of maintenance.

 A method of manufacturing a bowstring (FIG. 6) is that first, a continuous strand of strands 15 is formed, passing each core through heat shrink tubes: two ring 16 and three passage 17 (FIG. 7) orient the tubes (FIG. 8), then affect the temperature of the tube of shrink material, carry out their compression (Figure 5). The annular tubes 16 have a diameter smaller than the incoming 17, and the outermost pass through the annular.

 The inventive method is illustrated using an example.

 On a snap, which is a flat surface with two rollers 14 located at a distance not greater than the length of the bowstring (Fig.6) form a continuous strand of strands. In this case, each core is pulled on the rollers, and in the interval between the rollers they are passed through two annular and three straight cylindrical tubes of heat-shrinkable capron.

 The passage tubes are designed to cover the entire strand, and the ring tubes are half of it, therefore the diameter of the passage tubes is larger than the diameter of the ring ones.

 After the formation of a strand of the required thickness, the beginning and end of the core are firmly fastened.

 Then, the tubes are oriented so that the ring tubes cover the strand along its edges, forming loops for attaching the bowstring, the two passage tubes are moved to the edges so that they cover the edges of the ring tubes. One tube is installed in the middle of the bowstring - in its working area.

 Then the tubes are heated by exposure to oil heated to the required temperature. The material of the tubes is compressed, compressing the formed strand of the bowstring.

 At the end of the thermal effect, the bowstring is ready for use.

 The proposed method of manufacturing a bowstring is cheaper and more technological than the prototype, and provides improved strength of the bowstring and its greater durability, which makes it possible to reduce the cost of operation of the crossbow, increasing its operational properties.

 The arrow for a crossbow (Fig. 9) contains a tip 18, a housing 19, a back plate 20 and a plumage 21, while the body is made in the form of a rod with a groove 22 and is installed in the conical holes 23 of the tip and has a thrust pad 24. The butt plate covers the tail 25 of the tail, securely fixing it.

 The arrow to the crossbow works as follows.

 When you hit an obstacle fired from the crossbow of the arrow, the inertia of the core of the body 19 acts on it in the direction of the tip, contributing to its even greater penetration into the hole of the tip 18, as if clogging it. However, there is no possibility of destruction of the housing from bursting with its tip, as in the prototype. Due to this, the body can be made of light material, for example, wood or plastic, which helps to shift the center of gravity forward to the tip, improving the ballistic properties of the boom.

 Since the plumage is made integral and is installed in the groove, and the tail of the plumage is fixed with a butt plate, the plumage is securely held on the body during mechanical impacts from impacts in an obstacle.

 Thus, the claimed arrow is cheaper and more reliable, which allows you to use it repeatedly, and also has better ballistic properties compared to the prototype. The repeated use of the arrow reduces the cost of operation of the crossbow, increasing its operational properties.

Claims (13)

 1. A crossbow with a mechanism for preparing it for firing, comprising a body, in front of which a bow with a working string is fixed, a platoon lever mechanism pivotally connected to the trigger mechanism and the installation mechanism of the working string with an auxiliary string, characterized in that two levers are inserted into it , consisting of sponges, shoulders and the attachment point of the auxiliary bowstring.  2. A crossbow with a mechanism for preparing it for firing according to claim 1, characterized in that the attachment unit of the bowstring is made in the form of a hinge.  3. Crossbow with a mechanism for preparing it for firing according to claim 1 or 2, characterized in that the lever lips are made unregulated with a screw clamp.  4. Crossbow with a mechanism for preparing him for firing according to any one of paragraphs. 1, 2 or 3, characterized in that the length of the lever arm is not less than the width of the jaws.  5. A method of manufacturing a bowstring for a crossbow, which consists in the formation of a continuous strand - a strand of bowstring, then the area of the working part of the bowstring and its loops are covered with a tubular coating, characterized in that the formation of a continuous strand-strand of the bowstring is carried out by passing the strands through two ring and three straight cylindrical tubes of heat-shrink material, fasten the beginning and end of the core, orient the tubes in the places of fastening the loops and in the working part of the bowstring, then the tubes are crimped by heat treatment.  6. A method of manufacturing a bowstring for a crossbow according to claim 5, characterized in that the cylindrical tubes are made of nylon and are crimped by the action of elevated temperature.  7. A method of manufacturing a bowstring for a crossbow according to claim 5 or 6, characterized in that the diameter of the annular cylindrical tubes is less than the diameter of the passage tubes.  8. A method of manufacturing a bowstring for a crossbow according to any one of paragraphs. 5, 6 or 7, characterized in that the passage cylindrical tubes are oriented so that two tubes are at the edges of the bowstring and one in the center, while the extreme passage tubes have spanning ends of the annular tubes.  9. An arrow for a crossbow, including a tip, a body, a back plate and a feathering, characterized in that the tip is made with an axial blind hole, the body is made in the form of a rod with a through groove and is installed in the hole of the tip with an emphasis in its bottom, and the plumage is installed in the groove rod and fixed with a butt plate.  10. An arrow for a crossbow according to claim 9, characterized in that the body is made of wood.  11. An arrow for a crossbow according to claim 9 or 10, characterized in that the tip opening is made conical.  12. Arrow for a crossbow according to any one of paragraphs. 9, 10 or 11, characterized in that the groove in the rod is made in the form of a cut.  13. An arrow for a crossbow according to any one of paragraphs. 9, 10 or 12, characterized in that the plumage is made having a shank covered by a butt plate.

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