RU2021572C1 - Arbalest - Google Patents

Abstract

FIELD: mechanical weapons. SUBSTANCE: arbalest has gun stock 1 and forestock 2, to which handle 9, mechanism 5 for retaining bow-string and arrow, arrow guide 7 are fastened, as well as trigger mechanism provided with trigger 10, sight 8, bow 3 and units 4, attached to the ends of the bow, tension mechanism made in form of lever 12, and bow-string 13, which is passed over blocks. The trigger is connected with trigger mechanism by means of rod. Tension mechanism is attached with one its end to lower part of forestock. Bow-string is made in form of a loop and connected with the lever. Bow-string has length being equal to doubled distance between blocks. EFFECT: simplified construction of tension mechanism and arbalest. 2 cl, 2 dwg

Description

 The invention relates to weapons, in particular mechanical weapons, and can be used in sports shooting.

 The most common crossbow design [1] is known, consisting of a body to which a bowstring retention mechanism, a trigger mechanism, a sight and a bow with a bowstring are attached. This design has two drawbacks. Firstly, for the tension of the bowstring, an additional device is required: a hook-block. Secondly, the course of the bowstring is small. Therefore, accuracy and range are small.

 To a large extent, the design of the crossbow adopted for the prototype is free from these shortcomings [2]. It consists of a bed (butt) and forend, to which the following devices are attached: a handle, a mechanism for holding a bowstring and an arrow, a guiding arrow, a trigger, a sight, a bow with blocks attached to its ends, a lever tensioner. A bowstring is thrown through the blocks, the ends of which are tied to the opposite ends of the bow. This eliminates the second drawback of the analogue, since the course of the bowstring is approximately doubled. The first drawback is partially eliminated by the use of a lever tensioning mechanism. The disadvantage is the complicated design of the tensioning mechanism and the crossbow itself: the bed and forend are separate and one slides along the other. In addition, the tension of the bowstring takes a long time, for several movements of the lever, and the trigger is under the trigger. Therefore, in order not to experience inconvenience when shooting due to the close proximity of the hand to the right shoulder, you have to lengthen the butt.

 The invention allows to simplify the design of the tensioning mechanism and the crossbow as a whole, speed up the preparation for shooting and increase its convenience with the constant dimensions of the crossbow.

 Simplification of the design is achieved by the fact that the tension mechanism consists of one lever, which is fixed in the lower part of the fore-end and ensures independence of the procedures for tensioning and lowering the bowstring: the lower half of the bowstring is pulled, and its upper half is lowered. The box and forend are made as a whole. After the bowstring is inserted into the mechanism holding it, it is enough to perform one movement - pull the lever all the way to itself. Improving the convenience of shooting is achieved by the fact that with a constant length of the crossbow, the trigger is located at a distance from the bed rest, which is usual for a shooter.

 Comparative analysis with the prototype allows us to conclude that the proposed device is characterized in that the tension mechanism is made in the form of a lever, mounted in the lower part of the forearm. A bowstring made in the form of a loop is connected to this lever, and the trigger is connected to the trigger mechanism by a rod.

 Thus, the invention meets the criterion of "novelty." Analysis of known technical solutions (analogues) in the studied area, i.e. in the field of mechanical weapons, it can be concluded that they lack features similar to the essential distinguishing features of the proposed device, and recognize the invention as meeting the criterion of "inventive step".

 The invention consists in the following.

The body of the crossbow consists of a stock (stock) and forend made as a single unit. At the front of the forearm is a bow, at the ends of which blocks are fixed. In the back of the forearm are the retention mechanism of the bowstring and arrow, as well as the trigger mechanism. An arrow guide in the form of a groove and / or tube passes along the top of the forearm. On the top of the forearm is a sight. A handle is attached to the bottom of the fore-end for gripping it with the right (left-handed - left) hand. There is also a trigger with a safety clip. It is connected to the trigger rod. Its length is selected so that the distance from the handle to the stop of the bed (butt) is convenient for the shooter (30-50 cm). A tension lever is attached to the lower part of the fore-end. He strengthened tiltable along the forearm within ≈180 ^about so that while it is not limited by the handle, the bow or bail. The bowstring, forming a loop and thrown over the block, is connected with the lever at a point located approximately in its middle.

 In FIG. 1 shows a crossbow, general view; figure 2 is an illustration of an example implementation of the mechanisms for holding and lowering the bowstring and arrow.

 The body of the crossbow consists of a bed (butt) 1 and forearm 2, made as a whole. A bow 3 is fixed in front of the forearm, at the ends of which blocks 4 are fixed. At the back of the forearm there is a mechanism 5 for holding the bowstring and arrow, as well as a trigger mechanism 6. The guide arrow in the form of a groove and / or tube 7 passes along the top of the forearm. the honor of the forearm is a sight 8. To the lower part of the forearm there is a handle 9 and a trigger with a safety clip 10. It is connected to the trigger 6 through the rod 11, passing inside the crossbow. A tension lever 12 is attached to the lower part of the fore-end. A string 13 is thrown through the blocks 4, connected with the lever 12 at a point near its middle. It can pass through the hole in the lever or be attached to it. Before shooting, an arrow 14 is placed in the guide 7.

 The crossbow works as follows. The lever 12 is deflected to the front position (from stock 1). Then the string 13 (its part located above the forearm) is pulled until it is caught by the holding mechanism 5. The entire design of the crossbow is preliminarily calculated so that this operation can be performed without any additional devices. After that, the lever 12 with force is transferred to the rear position (to butt 1), thus performing the full tension of the bowstring 13. In this position, the lever is fixed either by a latch (not shown) or (Fig. 1) by the tension of the bowstring 13. For this, the emphasis the lever is designed in such a way that when pulling the lever passes the point at which the bowstring tension is maximum. In addition, the lever 12 is additionally fixed by the hand of the arrow holding the handle 9. After tensioning the bowstring, the arrow 14 is placed on the guide 7 so that the blunt end of the arrow is held by the mechanism 5 and the sharp end enters the tube 7. When firing, pull the trigger 10. The force through the rod 11 is transmitted to the trigger 6, the bowstring is released and pushes the arrow 14.

 The drawing shows an example of a specific implementation of the crossbow. The design of the sight, the design of the holding and trigger mechanisms can be arbitrary. The holding device comprises a shelf rigidly fastened to the crossbow body. It is located above the guide so that the arrow enters between them with some effort. A cutout is made under the shelf in the crossbow case so that the bowstring is fixed, catching on the ledge. The main part of the trigger mechanism is a rectangular die with an inclined slot. When you press the hook 10, the rod 11 is translationally moving and transfers the force to the axis passing through the slot of the die, which has the ability to move vertically in the crossbow body. As a result, the plate rises and pushes the bowstring until it is released. After the trigger is released, the spring connected to the rod 11 brings the trigger to its original position. After the shot the bowstring weakens, the lever 12 is released and under the influence of its own weight deviates down. To perform the next cycle of work, it must be deflected forward. However, this operation can be avoided if the total length of the bowstring is equal to twice the distance between the blocks 4. In this case, even when the crossbow is discharged, the bowstring is slightly stretched, and the lever 12 is pulled towards the front position. The length of the lever 12 and the position of the point at which the bowstring 13 is connected are determined by the parameters of the crossbow: its length, the length of the bow and its elasticity, the course of the bow, etc.

 Compared with the prototype, the proposed crossbow is 15-20 cm shorter with the same range and accuracy, and it takes 2-3 times less time to load it.

Claims (2)

 1. A crossbow, consisting of a bed and fore-end, to which a handle is attached, a bow and arrow retention mechanism, a boom guide, a trigger with a trigger, a sight, a bow with blocks fixed at its ends, a tension mechanism in the form of a lever, as well as a bowstring, thrown over the blocks, characterized in that the trigger is connected to the trigger mechanism via a rod, and the tension mechanism is attached at one end to the lower part of the forend, and the bowstring, made in the form of a loop, is connected with a lever.  2. Crossbow under item 1, characterized in that the bowstring has a length equal to twice the distance between the blocks.

Images