RU2026528C1 - Arbalest - Google Patents

Abstract

FIELD: sports weapons. SUBSTANCE: arbalest has stock with handles, throwing unit with bow-string, triggering unit with spring-loaded trigger and arrow located in groove of stock. Triggering unit of arbalest is manufactured in the form of tackle block systems placed on both sides of stock and interconnected with bow-string which ends are anchored on arbalest and of restoring elements coupled on one side to one of shafts of tackle block system with the aid of swing joint and on the other side made fast to stock. Triggering unit is also provided with cam having protrusions, one of which is coupled to trigger and the other one to bow-string. Tackle block system can have even and odd multiplicity. EFFECT: simplified design, improved reliability. 3 cl, 5 dwg

Description

 The invention relates to crossbows, which can be used as sports or hunting weapons.

 Known crossbow (prototype), which is an elongated hollow element having a first and second end sections. To the first of them are attached two side elements that form the bow. There are roller blocks at the ends of the bow through which an endless cable passes. The cable forms two intersecting sections, behind which there is a third section, which serves as a bowstring when starting the arrow. In the hollow element at the midpoint between the end sections, a trigger assembly is formed. This node using the biasing device can be held in its original position, in which the bowstring is stretched and connected with the boom holder. In this case, the front of the boom is located in the nest, and the rear is in contact with the bowstring. The bowstring is released when you pull the trigger with your finger.

 The main disadvantage of the design of the crossbow, taken as a prototype, are quite large dimensions, and the increase in energy characteristics in the prototype leads to an increase in dimensions. This is especially significant when using a crossbow as a hunting weapon.

 The aim of the invention is to reduce the size of the crossbow while increasing its energy characteristics.

 This is achieved due to the fact that in the crossbow, consisting of a box with handles, an arrow and a trigger unit with a trigger, the launch unit, which performs the functions of a bow, is equipped with elastic elements placed on the sides of the box, connected by a flexible connection with chain-link systems, both chain-link systems a common bowstring, the ends of which are rigidly attached to a crossbow, and the middle is hooked by a protrusion of the cam entering the trigger unit. Each tackle system is made in the form of spaced axes of rotation and axes of rotation. On the shaft, oriented perpendicular to the side surface of the bed, a pair of pulleys is mounted for rotation, and two other pulleys are also rotatably mounted on two rotation axes mounted perpendicular to another.

 In FIG. 1 shows the proposed design of the crossbow, side view; in FIG. 2 - the same, top view; figure 3 is a diagram of a four-fold pulley block crossbow system together with elastic elements; figure 4 is a diagram of a double pulley system with elastic elements; figure 5 - trigger node. (In figures 1 and 2, the crossbow is depicted in an unbroken state).

 The design of the proposed crossbow is presented as follows. The base of the crossbow is a box that has two handles 2 and 3 below, located at the ends of the box, for which the shooter holds and fixes the crossbow with his hands in the right position and direction when firing. A launch unit is attached to the side surfaces of the box 1, which acts as a bow and consists of elastic elements 4 made of rubber (maybe any other elastic element, such as a spring) and the bowstring itself 5. The elastic elements 4 are placed on the sides of the box 1 and are held on the lateral surface using brackets 6 mounted on the end of the bed closest to the arrow 1. The elastic elements 4 are connected by a flexible connection 7 to the shafts 8, on which a pair of pulleys 9, 10 are placed. The flexible connection 7 is a nylon hole, the ends of which are rigidly closed are replicated at the ends of the shaft 8, and the middle is at one of the ends of the elastic element 4. At the opposite end of the lodge 1 from the end of the fastening of the elastic elements 4, the pulleys 11 and 12 are rotatably fixed to the last. The pulleys 11 are parallel to the side surface of the lodge 1, pulleys 12 - perpendicular to the pulleys 11. The pulley system 9-12 with the string 5 pulled through them forms a pulley system. The ends of the bowstring 5 are rigidly fixed to the front end of the box 1 of the crossbow. The multislip system can be four-fold, as in the described example, when four branches of the bowstring 5 fit to shaft 8, two-fold, when two branches of the bowstring 5 fit to shaft 8, or with a different multiplicity. Accordingly, the ends of the bowstring, depending on the multiplicity of the chain hoist, are fixed either on the bed or on the loose ends of the elastic elements. Thus, the launch unit of the crossbow is represented by elastic elements 4 connected by a flexible connection 7 with tackle systems, the branches of which are a bowstring 5, passing through its pulley system as follows. At the front end of the box 1, both ends of the bowstring 5 are attached, then both of its branches fit from below to the inner pulleys 9. Then from above to the opposite, parallel side surfaces of the box, pulleys 11 located on the front end of the box 1, then from the bottom to the pulleys 10 placed on the shaft 8 together with the pulleys 9, and then to the pulleys 12 located on the front end of the bed perpendicular to the pulleys 11. The pulleys 12 rotate the branches of the bowstring 5 in the direction of the trigger assembly, i.e. towards the arrow. A groove 13 is made in the middle of the upper surface of the bed 1, into which the boom 14 is mounted. To fix the boom 14 in the guide groove 13 with a cocked crossbow, a flat spring 15 is used, which can rotate around the axis 16. The boom 14, lying in the groove 13, abuts with the rear end in the section of the bowstring 5, which catches when the bowstring is cocked over the protrusion 17 of the cam 18. The cam 18 interacts with the trigger 20 through the protrusion 19, the spring-loaded elastic element 21.

 The crossbow works as follows.

To prepare the crossbow for firing, it is necessary to raise the flat spring 15 and turn it around the axis 16 by 90 ^° , and by pulling the trigger 20 of the trigger, set the cam 18 in such a position that the protrusion 17 of the cam 18 appears above the stock. Then it is necessary to fix the cam 18 in this position, releasing the trigger 20, which is pulled by the elastic element 21. Then, resting the rear end of the box 1 and the rear handle 3 on the arrow body, the index and middle fingers of both hands must simultaneously capture the section of the bowstring located between the horizontal pulleys 12, and hook its center onto the protrusion 17 of the cam 18. Next, take the boom 14, put it in the groove 13 and rest the back end into the bowstring in the place of the protrusion 17 of the cam 18, and then return the flat spring 15 to its original state, so by direct fixing the arrow 14 in the groove 13 in the rest position. To fire a shot, you must pull the trigger 20. The latter releases the protrusion 19 of the cam from the stop, which allows the cam 18 under the action of the bowstring 5 to begin to rotate in the direction of movement of the bowstring 5 to the pulleys 12 with the simultaneous departure of the protrusion 17 of the cam 18 into the body of the box 1 and the bowstring 5 s protrusion 17 of the cam 18. The force from the bowstring 5, previously applied to the protrusion 17 of the cam 18, at this moment is fully applied to the end of the boom 14, starting its acceleration along the groove 13. The dynamics of the interaction of the boom 14, bowstring 5, elastic elements 4 when firing looks as follows m The cocked state of the crossbow corresponds to the maximum stretching of the elastic element 4. The pulleys 9, 10 and 11 are at a minimum distance from each other for the entire shot cycle. The center of the section of the bowstring 5, previously located between the horizontal pulleys 12, at this moment is in engagement with the protrusion 17 of the cam 18. When the bowstring 5 comes off the protrusion 17 of the cam 18, when the trigger 20 is pulled, the entire trigger assembly starts to move with increasing acceleration. The elastic elements 4 begin to contract, releasing the stored energy. The pulleys 9, 10, under the influence of the elastic elements 4, rotating and passing the string 5 through themselves, begin to accelerate to move away from the pulleys 11 towards the elastic elements 4. The center of the string 5, sliding off the protrusion 17 of the cam 18, moving the point of application of force from the protrusion 17 to the end of the boom 14, also starts to move with acceleration to its original position - perpendicular to the bed 1 between the pulleys 12, while accelerating the boom 14, transferring the accumulated energy from the elastic element 4. The final position of the launch unit corresponds to a freer minimum hydrochloric length state elastic members 4, the maximum distance between the pulleys 9, 10 and 11 polispastnoy system, the position of the center of the string 5 between the pulleys 12 perpendicular bed crossbow.

 Thus, the double pulley system allows to reduce the working stroke of the elastic elements in the crossbow by half compared with the boom section of the boom, and four times by four times, which significantly affects the reduction in the size of the crossbow.

Claims (3)

 1. A crossbow, consisting of a box with handles, a launch unit with a bowstring, a trigger unit with a spring-loaded trigger and an arrow placed in the groove of the box, characterized in that the launch unit is made in the form of pulley systems located on the sides of the box and connected by a bowstring, the ends of which are mounted on a crossbow, and elastic elements connected on one side by a flexible connection with one of the shafts of the pulley systems, and on the other, rigidly with the stock, and the trigger assembly is equipped with a cam with protrusions, one of which is connected to the trigger, and the other to bowstring.  2. The crossbow according to claim 1, characterized in that each of the pulley systems is fourfold and contains four pulleys, two of which are mounted for rotation on a shaft placed perpendicular to the side surface of the box and connected with an elastic element, and the other two on two axes of rotation mounted perpendicular to one another, while the bow is mounted on the crossbow bed.  3. The crossbow according to claim 1, characterized in that each of the pulley systems is made of odd multiplicity and contains an odd number of pulleys connected by a bowstring, the end of which is connected to an elastic element.

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