KR100510179B1 - An empty cartridge for blank shot - Google Patents

Abstract

The present invention relates to a casing for terror bombs, which is manufactured almost entirely in a biodegradable resin, which is less expensive than brass, so that the loss of cost is minimized even if the used casing is not collected. It is possible to maximize the effectiveness of training by enabling advanced tactical training without waste, and to eliminate waste of manpower and time for collecting shells.

The front end is formed of biodegradable resin which is blocked and the rear end is opened. A plurality of incision grooves are formed at the front end, and a binding groove is formed at the inner circumferential surface of the rear end, and the recess is formed at the inner circumferential surface of the rear end from the inner end of the inner upper surface of the binding groove. The body member has a support wall extended downwardly around the inner circumferential surface of the part, and is processed in brass, and the tip portion is interposed between the inner circumferential surface of the lower end of the body member and the space formed between the support wall, On the outer circumferential surface, a binding protrusion coupled to the binding groove is formed in a round shape, and the interior cavity partitions the cavity into a front and rear compartments, and a shell member is formed of a primer member having a partition wall having a distribution hole.

Description

Dread bullet casings {An empty cartridge for blank shot}

The present invention relates to a bomb shell for a bomb shell, and more particularly, to a bomb shell shell for minimizing the loss of cost without being able to maximize the training effect as well as after use.

In general, the dread bullets are made for terror shooting and are mainly used for combat training. The only example used for combat is when firing a rifle grenade.

In addition, the casings of the dread bombs are expensive brass as well as the casings of the bullet shells. As shown in FIG. 1, the trunk portion 1 and the primer portion 2 are manufactured in a single body, and the manufacturing process is complicated, complicated, and expensive. Because it is very expensive, the unused collection of used casings results in a huge loss of resources and costs.

Therefore, in order to prevent the loss of resources and costs in the past, since the used casings were artificially collected one by one, it took a lot of manpower and time, and in some cases side effects such as wasting training time. Occurred.

In addition, in order to facilitate the collection of casings, not only the training place but also the training time was limited, so there was a problem that the effect of training could not be sufficiently obtained.

In addition, since the weight of the casing is relatively heavy, it was also very cumbersome and inconvenient to carry and use.

The present invention has been invented in view of the above problems, the object of which is to provide a casing for terror bombs that can maximize the effect of training as well as easy to carry and use.

It is another object of the present invention to provide a bomb shell for a bomb shell that is very simple and easy to manufacture, and minimizes the loss of resources and costs even if the used shell is not collected and is not contaminated with the natural environment.

The above objects of the present invention can be provided at a low price and because it does not pollute the natural environment without collection, it is achieved by providing a casing for terror bombs that can be highly tactical training regardless of the place and time, The body member, except for the primer member, is molded from biodegradable resin which is cheaper than brass.

The biodegradable resin should be excellent in impact resistance in consideration of the expansion force generated when the explosive charge filled inside is about 50,000 psi, and should not have any change in physical properties during the cold season, such as Alaska or polar regions. In addition, the melting point should be about 80 ℃ or higher to prevent thermal deformation due to the temperature rise of the chamber caused by the continuous firing of firearms. It should not be decomposed into water and carbon dioxide and pollute nature.

Therefore, in the present invention, the melting point of the copolymer obtained through the change of dicarboxylic acid or aliphatic diol based on polybutylene succinate, which can satisfy the above conditions, is 80 ° C or higher and the glass transition temperature is -30. Biodegradable aliphatic polyesters with elongation of 300% or less are used for impact resistance below < RTI ID = 0.0 >

In addition, the primer member is preferably made of brass in order to smoothly ignite the internal initiator when triggered, but may be composed of an outer shell molded from a biodegradable resin and an inner shell processed from brass. The cost is further reduced and the weight of the entire shell is reduced.

Hereinafter, described in detail with reference to the accompanying drawings for terrorism casings according to an embodiment of the present invention.

Figure 2 is a side view of the casing according to the first embodiment of the present invention, Figure 3 is an enlarged cross-sectional view of the copper casing, Figure 4 is an enlarged separated cross-sectional view of a portion of the copper casing, Figure 5a and 5b is the copper casing Fig. 6 is a cross-sectional view showing an enlarged view of the rear end of the shell casing, and Fig. 7 is an enlarged cross-sectional view of the bomb shell made of the shell casing.

The casing of the dread bomb according to the embodiment of the present invention is composed of a body member 10 whose front end is blocked and the rear end is open and coupled to the open rear end of the body member to seal the rear end.

The body member is injection-molded with a biodegradable resin, and the tip portion 11 has a thickness T ₁ of about half of the thickness T of the intermediate portion 12 and the diameter l is the apex of the sealed tip. Towards this end, the cone becomes narrower gradually.

The biodegradable resin should be excellent in impact resistance in consideration of the expansion force generated when the explosive charge filled inside is about 50,000 psi, and should not change the physical properties in the cold as well as in winter, as well as continuous firearms The melting point should be about 80 ℃ or higher to prevent thermal deformation due to the rise of the chamber temperature due to the launch, and it is stable in the air, but after a certain period of time in the natural environment, it will be free from water and by-products due to the action of microorganisms. It should not be broken down into carbon dioxide and pollute nature.

Therefore, in the present invention, the melting point of the copolymer obtained through the change of dicarboxylic acid or aliphatic diol based on polybutylene succinate to satisfy the above conditions is 80 ° C or higher and the glass transition temperature is -30 ° C. Biodegradable aliphatic polyester having an elongation of 300% or more was used for impact resistance.

Of course, the above biodegradable aliphatic polyester is not limited thereto as one example thereof, and any biodegradable resin may be used as long as the above conditions can be satisfied, so that the biodegradable aliphatic polyester falls within the scope of the present invention.

Then, a plurality of cutting grooves 13 are formed on the outer surface or the inner surface of the tip portion 11.

The incision grooves are arranged radially to extend from the apex of the tip to the middle of the tip portion 11, the arrangement state is made of "+" shape and the depth (d) of the thickness (T) of the tip portion 11 It is preferable to make it about 2/3.

In this way, the tip portion 11 is appropriately opened in a timely manner by the expansion force generated when the gunpowder 30 filled in the explosion explodes, so that the explosive force and flame as well as the explosion sound and high heat are ejected through the tip portion only. It is to.

On the other hand, the depth (d) of the cutting groove 13 does not penetrate all the thickness (T ₁ ) of the tip portion 11, the manufacturing process, distribution or handling if the thickness of the tip portion is completely cut by the cutting groove When the external force is applied in the process, the gunpowder is easily opened and prevents the leakage of the gunpowder, and if the tip portion is opened too fast due to the expansion force generated by the explosion, the explosion sound is relatively reduced and falls short of the Ministry of Defense's reference level of 100db. This is because a phenomenon occurs.

Of course, the thickness of the tip portion 11 along with the depth of the incision groove 13 is also important in order to meet the above-mentioned explosive sound, which is thin, and the incision groove is easily opened, the explosion sound is low, and conversely, the thickness is too thick This is because if the incision groove is shallow, there is a risk that cracks are irregularly generated at other portions of the body member 10 or pieces are fired due to partial rupture before the tip portion is opened during the explosion.

Therefore, in the present invention, as a result of repeated experiments in view of the above points, it is most preferable to design the thickness (T ₁ ) of the tip portion 11 and the depth (d) of the incision groove 13 as described above. It was confirmed.

And the front end of the trunk member 10 is blocked and the rear end is opened by injection molding with resin.

In other words, the conventional monolithic dread bullets, in which the casings are made of brass, are filled with gunpowder through the open ends, and then compressed by pressing the main surface of the tip with a press so that the ends are firmly sealed and do not open arbitrarily. If the molded part is not compressed, it is impossible to seal the tip part by pressing, and of course, it is not possible to seal the tip part by heat bonding in the state where the gunpowder 30 is filled, and if the end part is blocked, the resin cannot form a primer. to be.

Therefore, molding the body member 10 to open the rear end by filling the gunpowder 30 and pressing the brass primer member 20 to be pressed to the open rear end, thereby fixing the body member to the resin Even if it is molded, it is for enabling the same performance as the conventional terror bullet.

However, after the primer member 20 is coupled to the trunk member 10 as described above, they should not be separated arbitrarily.

Of course, for this purpose, the primer member 20 may be bonded to the open rear end of the trunk member 10 by using an adhesive, but in this case, the increase in the cost of the work process and the use of the adhesive increases. Even with the exception, especially due to the volatility of the adhesive, there is a high risk of inadvertent explosion of the powder during the manufacturing process or during the drying process of the adhesive.

In addition, since resin and brass are not easily adhered, the incidence of defective products becomes high, and after a certain period of time, the adhesive force is weakened, so that the body member 10 and the primer member 20 are easily separated, so they cannot be used. In addition, since the time required for the adhesive to harden, various problems such as a lot of manufacturing time are generated.

Accordingly, in the embodiment of the present invention, if the primer member 20 is coupled to the trunk member 10 without using an adhesive, the trunk member and the primer member may be exploded even when the charged gunpowder 30 explodes due to a trigger. It was not separated.

To this end, a binding groove 14 is formed in the inner circumferential surface of the rear end portion 11 'of the trunk member 10 in a position isolated from the rear end, and the outer circumferential surface of the distal end portion 21 of the primer member 20 A binding protrusion 22 having a shape matching with the binding groove is formed round.

The binding groove and the binding protrusion are formed to have a square side cross section so as to be firmly coupled to each other, and the rear end side edge portion 141 of the inner circumferential surface of the binding groove can more easily separate the molded body member 10 from the mold. In order to be able to be formed, it is preferable to form the curved.

In addition, the inner wall of the rear end portion 11 ′ of the trunk member 10 is separated from the inner circumferential surface of the inner end surface of the binding groove 14 so as to be separated from the inner circumferential surface by a width narrower than the width f of the binding groove 15. ) Extends round to the rear end.

Therefore, a space 16 having a width f ₁ narrower than the binding groove 14 is formed between the inner circumferential surface of the rear end portion and the outer circumferential surface of the support wall.

The space portion is a passage for coupling the binding protrusion 22 of the primer member 20 to the binding groove 14 of the trunk member 10. When the space portion is coupled, the width of the upper end of the space where the binding protrusion is formed Since the upper end is larger than the width f ₁ , the upper end is inserted through the space part by force fitting so that the binding protrusion is coupled to the binding groove, and when the coupling is completed, the tip portion 21 of the primer member is supported by the support wall 15. It is interposed in space part in the state to become.

In addition, since the thickness T ₃ of the support wall 15 is thinner than the thickness T ₂ of the rear end 11 ′, when the binding protrusion 22 passes through the space 16, it is proportional to the width difference thereof. When the support wall is retracted inwards and passes through it, it is opened by the action of restoring force by its own elasticity, so that the binding protrusion as well as the tip portion 21 of the primer member 20 are coupled by the restoring force of the support wall. As it is more firmly held, it is firmly fixed simply by bonding without using an adhesive.

In addition, since the expansion force generated by the explosion of the gunpowder 30 filled therein also serves to open the support wall 15 to the outside, the binding state of the binding groove 14 and the binding protrusion 22 is more firmly maintained. Therefore, the primer member 20 is not separated even when used.

This point, the inner diameter of the support wall 15 is gradually extended narrower toward the rear end so that the greater the expansion force acts toward the rear end, the greater the effect is obtained.

On the other hand, the cavity inside the primer member 20 is partitioned into compartments 23a and 23b at the front and rear by the partition 23 having a distribution hole 231 formed at the center thereof, and is supported on the inner circumference of the compartment 23a. Since the wall 15 is located, the tip 21 of the primer member 20 is inserted into the rear end of the trunk member while the rear end 21 'is exposed to the outside.

The compartment 23b is filled with the initiator 31 and the primer 24 is coupled. Then, the inner circumference is pressurized by pressing a portion adjacent to the inner circumference of the rear end of the bottom surface of the primer member 20 like a conventional casing. When closed, the primer is firmly fixed so as not to break off, and at the same time, it prevents the open rear end.

Therefore, when manufacturing a dread bullet with the casing according to the embodiment of the present invention, first filled with gunpowder 30 in the body member 10 through the open rear end and then the primer 24 is coupled to the fixed primer member 20 is coupled You can do it.

The bombs of the present invention manufactured as described above are loaded into the chamber of the rifle during use, and the trigger is advanced when the trigger is advanced and the trigger is pulled to strike the primer 24 so that the initiator 31 filled in the compartment 23b is ignited. , The flame is immediately delivered to the compartment 23a through the distribution hole 231 to ignite the gunpowder 30 filled in the body member 10.

In this case, since the incision groove 13 is formed in the tip portion 11, the incision groove is first broken and the tip portion is opened before the expansion force generated by the explosion of the powder acts on another part, so that the flame and the binge generated by the explosion And the high heat lamp is fired through the muzzle via the gaping tip, and the casing is ejected from the chamber by the backing bolt.

FIG. 8 is an enlarged cross-sectional view of a casing according to a second embodiment of the present invention, FIG. 9 is an enlarged cross-sectional view taken from a rear end portion of the casing, FIG. 10 is an enlarged cross-sectional view in which part of the copper casing is omitted, and FIG. An enlarged cross-sectional view of a dread bullet made of copper shells.

The primer member 20 according to this embodiment is composed of an inner shell material 20a processed with brass and an outer shell material 20b molded from a biodegradable resin.

The inner shell material is to be processed as thin as possible (t ₁ ), the outer periphery of the tip portion 21 forms a binding protrusion 22 is coupled to the binding groove 14 of the body member 10, the middle portion The diameter l ₁ is narrower than the diameter l ₂ (l ₃ ) of the front and rear ends 21, 21 ′, so that the binding groove 25 is formed around the outside to form a recess. 231 is formed.

The outer shell material has a thickness t ₂ of which the thickness t ₁ is equal to the thickness t ₁ of the inner shell material among the total thickness t of the primer member 20, and is coupled to the binding groove 25 at the inner circumference of the tip. Protruding portion 26 is formed around the inside of the rear end 21 'of the primer member is formed to be coupled.

In other words, the outer shell material is formed to match the outer shape from the binding groove 25 of the inner shell material to the rear end portion 21 ', so that they are combined with each other like a body so as not to be separated.

Of course, the outer shell material 20b may be separately molded and combined with the inner shell material 20a. However, in order to ensure that the outer shell material 20b is combined in the same state as the body, the outer shell material 20b is formed by mounting the inner shell material on a mold for injection molding the outer shell material. It is desirable to.

As such, if the primer member 20 is manufactured separately from the inner and outer shell materials 20a and 20b, the amount of expensive brass can be minimized, so that the cost can be reduced to the maximum and the weight of the casing is further increased. There is also the advantage of being reduced.

Then, after the primer 24 is engaged in the rear end portion 21 'of the inner shell material 20a, the primer is firmly fixed by pressing the rear end of the rear end portion round and round.

On the other hand, the primer member 20 may be molded in the entire biodegradable resin except for the primer 24, but in this case when filling the initiator 31 in the compartment (23b) when manufacturing the dread bomb and combine the primer after use This is because it is not possible to fix the detonator even when the gunpowder explodes due to the trigger, due to the structure of the dread bomb or the manufacturing process.

Accordingly, in view of these points, in this embodiment of the present invention, the inner shell material 20a is processed by brass without forming the entire primer member 20 from a biodegradable resin. Of course, it will not be arbitrarily deformed even after death, and will have a minimum thickness that allows the primer 24 to be firmly fixed.

Since the casings of the dread bombs according to the embodiment of the present invention are almost all made of biodegradable resins which are inexpensive compared to brass, the loss of cost is minimized even without collecting the used casings. After a certain period of time, it does not pollute the natural environment because it is decomposed into water and carbon dioxide without harmful by-products.

In particular, since it is not necessary to collect casings, training can be conducted regardless of the location and time of day, such as high-level tactical training at night as well as in rough mountainous terrain, thereby maximizing the effectiveness of the training. There is an advantage such that the waste of manpower and time is eliminated.

In addition, since the body member is manufactured by injection molding without a complicated and complicated manufacturing process, the manufacturing process is shortened and the manufacturing cost is greatly reduced, and the weight of the casing is light and it is very easy to carry and use.

1 is an enlarged cross-sectional view of a conventional dread bomb

2 is a side view of a casing according to the first embodiment of the present invention;

3 is an enlarged cross-sectional view of the copper casing

4 is an enlarged sectional view in which a part of the copper casing is omitted.

5A is an enlarged cross-sectional view of the front end of the casing;

5B is a plan view taken from the tip of the casing;

6 is an enlarged cross-sectional view of the rear end of the casing;

7 is an enlarged cross-sectional view of the dread bomb made of copper casings;

8 is an enlarged cross-sectional view of a casing according to a second embodiment of the present invention;

9 is an enlarged cross-sectional view of the rear end of the casing;

10 is an enlarged sectional view in which part of the copper casing is omitted.

11 is an enlarged cross-sectional view of a dread bomb made of copper casings;

* Description of the symbols for the main parts of the drawings

10; Trunk

11; Tip 12; Middle section

13; Incision groove 14; Binding groove

15; Support wall 16; Space

20; Primer

20a; Inner skin 20b; Shell material

21; Tip 22; Binding protrusion

23; Bulkhead 24; primer

25; Binding groove 26; Binding protrusion

27; Receptacle

Claims (11)

The tip is blocked, the rear end is opened, and the inside is empty, and a plurality of incision grooves are formed selectively on any one of the inner surface or the outer surface of the distal end so as to be arranged radially from the apex of the distal end, and the recess is formed on the inner circumferential surface of the rear end. A biodegradable resin body member having a binding groove, and a support wall extending around the rear end from the inner end of the inner end surface of the binding groove so as to be separated from the inner circumferential surface of the rear end; A front end and a rear end are formed to be opened, and the front end part is interposed between the inner peripheral surface of the lower end of the trunk member and the support wall and is formed in a space, and a binding protrusion formed around the outer peripheral surface of the front end to be coupled to the binding groove, A bullet casing for terrorism, which consists of a primer member having a partition formed with a distribution hole in the center, which divides the empty interior into compartments in the front and rear. The method of claim 1, The tip portion of the body member is a conical shape, the diameter gradually narrower toward the top of the tip, the thickness is about half of the thickness of the middle portion. The method of claim 1, The incision is a bomb shell for terrorism, characterized in that the "+" type. The method according to claim 1 or 3, And the incision groove extends from the apex of the tip to a middle portion of the tip, the depth of which is 2/3 of the thickness of the tip. The method of claim 1, The binding groove and the binding projections for the bomb shell, characterized in that the side cross-section is each rectangular. The method of claim 1, The spacing between the outer circumferential surface of the support wall and the inner circumferential surface of the trunk member is narrower than the binding groove. The method according to claim 1 or 6, The support wall is a bomb shell for a bomb shell, characterized in that the inner diameter is gradually extended to the rear end. The method of claim 1, The primer member is made of brass, characterized in that the bullet casings are made of brass. The method of claim 1, The primer member is made of a brass shell material having a thin thickness and a shell shell made of biodegradable resin, wherein the shell material is formed thicker than the shell material. The method of claim 1, The primer member is formed in a thin thickness and the outer periphery of the tip is formed around the binding protrusion coupled to the binding groove of the body member and the middle portion of the narrow narrow diameter of the outer groove is formed around the recess recess The inner shell material made of brass in which the distribution hole which connects the compartment of the partitioned wire and the back is formed inside, The thickness is made of the total thickness of the primer member excluding the thickness of the endothelial material, and the inner periphery of the front end is formed of a binding protrusion coupled to the binding groove portion is formed biodegradable resin is formed so that the rear end of the endothelial material is combined The casing for terrorism, characterized in that consisting of a shell material. The method according to any one of claims 1 or 9 to 10, Said biodegradable resin is a bullet shell for terrorism, characterized in that the melting point is 80 ℃ or more, the glass transition temperature is -30 ℃ or less and biodegradable aliphatic polyester of 300% elongation for impact resistance.