CN111256525A - Auxiliary device for quickly filling bullet into magazine and using method thereof - Google Patents

Abstract

The invention discloses an auxiliary device for quickly filling a magazine with bullets, which comprises a bullet equidirectional arrangement assembly and a bullet loading assembly; the bullet equidirectional arrangement assembly is detachably connected with the bullet loading assembly; the bullet equidirectional arrangement assembly is used for arranging the randomly oriented bullets in the same direction, and the loading assembly is used for loading the bullets which are arranged in the same direction into the magazine. The invention also discloses a use method of the auxiliary device for quickly filling the magazine with the bullets, and the auxiliary device for quickly filling the magazine with the bullets realizes that a large number of bullets randomly arranged in the direction are quickly arranged into bullet rows with consistent directions, and then the bullet rows are quickly pushed into the magazine. The whole loading process has the advantages of high efficiency, stable operation, less manual intervention, time saving and labor saving.

Description

Auxiliary device for quickly filling bullet into magazine and using method thereof

Technical Field

The invention relates to the field of bullet filling of a magazine, in particular to an auxiliary device for quickly filling the magazine with bullets and a using method thereof.

Background

Whether in local hot wars in cold wars period, or in anti-terrorism military conflicts in local areas after cold wars, or in ordinary military exercises, drills and training processes, or in shooting sports industry, there is often a need to quickly fill a large number of magazines with bullets. In the above environment, there is usually a lack of perfect basic conditions, technical support and equipment maintenance, relying mainly on manual or portable mechanical means to achieve rapid filling of the magazine with cartridges.

The problem that the bullet filling speed of the magazine type light weapon is far lower than the bullet consumption speed seriously influences the exertion of the fire power of the whole fighting unit. Currently, the single soldier is still mainly relied on to load the magazine carrying the gun by himself. In the prior art, the bullet is carried and used by an individual soldier, or a bullet carried by the individual soldier is pressed into a strip-shaped clamp/fixture prepared by a steel strip in advance and is pressed into a magazine when the magazine needs to be filled. However, it still takes a lot of time to rapidly transfer the originally randomly directed bullets into the bar clamp.

The bullets are pressed into the bullet box by a single soldier in a mode of manually placing one bullet at a time, or the bullets are placed and adjusted in the sliding groove manually, and then the sliding blocks which are matched with the geometric structure and the size in the sliding groove push the rows of bullets which point to the same direction, so that the bullets are pushed into the bullet box. But the defects are that the direction of the bullets still needs to be visually detected one by one in the early stage, and the bullets which do not meet the required direction need to be manually adjusted one by one in a consistent direction.

When a large number of rounds are faced, a lot of time is consumed, which will drastically delay the round filling process. This is not conducive to meeting the need for rapid filling in a timely manner. In general, bullets are packaged in boxes/bags with special packaging paper, and are convenient to transport. The cartridges in the pack/pack are axially parallel to each other but are directed either in unison or, conversely, are significantly random.

The bullets in the bullet box are packaged by the engineering packaging paper in a pack, and how to quickly pack the bullets in the packaging box/pack is the problem which needs to be solved at present by adopting a method which consumes less energy, even no energy, is simple, convenient and quick, and realizes that the bullets with specified quantity are quickly loaded to the magazine.

Disclosure of Invention

In order to solve the above technical problems, a primary object of the present invention is to provide an auxiliary device for quickly loading a magazine with bullets and a method for using the same, which can quickly arrange randomly oriented bullets into bullet rows with consistent directions and cooperate with a bullet guide plate to quickly enter the magazine.

In order to achieve the above object, the present invention adopts the following technical solutions.

The auxiliary device for quickly filling the magazine with the bullets comprises a bullet equidirectional arrangement assembly and a bullet loading assembly; the bullet equidirectional arrangement assembly is detachably connected with the bullet loading assembly; the bullet equidirectional arrangement assembly is used for arranging the randomly oriented bullets in the same direction, and the loading assembly is used for loading the bullets which are arranged in the same direction into the magazine.

Further, the bullet equidirectional arrangement assembly comprises a bullet equidirectional bin and a supporting plate; the bullet homodromous bin is a topless hollow cuboid which comprises a bottom plate, a left side plate, a right side plate, a front side plate and a rear side plate, and is provided with a transverse vertical plane parallel to the front side plate and the rear side plate and a longitudinal vertical plane parallel to the left side plate and the right side plate; an upper inclined sliding plate and a lower inclined sliding plate are connected between the left side plate and the right side plate; the top edge of the upper inclined sliding plate is positioned on the transverse vertical plane of the non-head hollow cuboid, the bottom edge of the upper inclined sliding plate is close to the rear side plate, and a first bullet outlet with the width matched with the diameter of a bullet is formed between the bottom edge of the upper inclined sliding plate and the rear side plate; the lower oblique sliding plate is positioned below the upper oblique sliding plate, the top edge of the lower oblique sliding plate is connected with the front side plate, the bottom edge of the lower oblique sliding plate is close to the rear side plate, and a second bullet outlet with the width matched with the diameter of a bullet is formed between the bottom edge of the lower oblique sliding plate and the rear side plate; the bottom edge of the downward inclined sliding plate extends downwards to the bottom plate to form a bullet baffle plate;

a plurality of partition plates parallel to the longitudinal vertical plane are uniformly arranged in the bullet homodromous bin, the distance between every two adjacent partition plates is matched with the diameter of each bullet, and the bullet homodromous bin is divided into a plurality of parallel trajectories by the partition plates; a supporting plate groove is formed in the bullet equidirectional bin, the supporting plate groove is located above the top edge of the upper inclined sliding plate, and a supporting plate is inserted into the supporting plate groove; the loading assembly comprises a loading plate, a cover plate and a push block; the bullet guide groove is arranged on the bullet loading plate, and the left end part of the bullet guide groove is provided with a magazine fixing part; the cover plate is connected with a push block in a sliding manner along the length direction of the cover plate; the magazine fixing part is a cavity formed by downwards sinking a loading plate and matched with the shape of the magazine, and the cavity is communicated with the bullet guide groove.

Further, the lateral wall of the left side board and the right side board in the bullet syntropy storehouse is provided with the spout, is provided with the sand grip that matches with the spout on the dress bullet board, and the sand grip inserts or extracts the spout and realizes bullet syntropy storehouse and the dismantlement of dress bullet board to be connected.

Further, the bullet syntropy storehouse the left side board, the right side board, preceding curb plate and the back plate upwards extend and form the bounding wall.

Furthermore, the included angle between the upper inclined sliding plate and the horizontal plane is A, and A is more than or equal to 45 degrees and less than or equal to 75 degrees;

the included angle between the downward inclined sliding plate and the horizontal plane is B, and B is more than or equal to 45 degrees and less than or equal to 75 degrees.

Further, the bottom edge of the upper oblique sliding plate extends downwards to form a first bullet outlet guide plate, and a round angle is arranged at the intersection of the upper oblique sliding plate and the upper oblique sliding plate.

Further, the surface of the bullet equidirectional bin is provided with a coating with a low friction coefficient, and the coating is made of polytetrafluoroethylene.

Further, the bottom of each trajectory is provided with a heightening block, the heights of the heightening blocks are not equal to each other, the plurality of consecutive heightening blocks form a continuous arc matched with the magazine, and correspondingly, the bullet guide groove is an arc-shaped groove matched with the magazine.

(II) a method for using the auxiliary device for quickly filling the magazine with the bullets, which is based on the auxiliary device for quickly filling the magazine with the bullets and comprises the following steps:

inserting a convex strip of an elastic loading plate into a sliding groove of a bullet equidirectional bin, connecting an elastic loading assembly with a bullet equidirectional assembly, and inserting a supporting plate into a supporting plate groove;

secondly, taking out the bullets with random directions from the bullet box, longitudinally placing the bullets on the top of the bullet guide bin, vibrating the bullets in the same direction or poking the bullets by using a sledge to enable the bullets to be distributed and fall into a plurality of spaces formed by the partition plates and the supporting plate;

step three, the supporting plate is drawn out, the middle of each bullet is located at the top of the upper inclined sliding plate, the bullets are unbalanced, the bullets with the bullet heads exceeding the front side tip backwards and fall from the first bullet outlet, the bullets with the bullet heads facing backwards tip forwards and fall from the second bullet outlet, and finally the bullet heads of all the bullets face upwards;

step four, turning the bullet homodromous bin and the bullet loading plate by 90 degrees towards the direction of installing the bullet loading plate, and enabling all bullets to fall into a bullet guide groove of the bullet loading plate;

and step five, loading the magazine into the magazine fixing area, separating the magazine loading plate from the bullet in the same direction, covering the bullet guide groove with the cover plate, and pushing the push block to enable the bullet to enter the magazine.

The auxiliary device for quickly filling the magazine with the bullets realizes that a large number of bullets randomly arranged in the direction are quickly arranged into bullet rows with consistent directions, and then the bullet rows are quickly pushed into the magazine. The whole loading process has the advantages of high efficiency, stable operation, less manual intervention, time saving and labor saving.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a perspective view of one embodiment of the auxiliary device for rapid cartridge loading of a magazine of the present invention;

FIG. 2 is a perspective view of the cartridge syntropy magazine and pallet combination of the cartridge syntropy assembly of FIG. 1;

FIG. 3 is a schematic perspective view of the homodromous cartridge of FIG. 1;

figure 4 is a longitudinal cross-sectional view at C-C of the cartridge syntropy;

FIG. 5 is a perspective view of a pallet;

FIG. 6 is an exploded view of the charging assembly;

FIG. 7 is a schematic view of a bullet with its warhead facing forward falling after the pallet is extracted;

FIG. 8 is a schematic view of a bullet with its warhead facing backward falling after the blade is drawn;

figure 9 is a schematic view of the cartridge homodromous assembly and the loading assembly rotated 90 deg. counter-clockwise;

fig. 10 is a schematic view of the loading assembly after the cover plate is closed.

In the above figures:

1, cartridges are in the same direction; 101, an upper oblique sliding plate; 102 a downward sloping slide plate; 103 a first cartridge exit; 104 a second cartridge exit; 105 bullet baffle plates; 106 a partition plate; 107 pallet slots; 108 chutes; 109 enclosing plates; 1010 a first cartridge exit guide plate; 1011 padding up the block;

2, supporting plates;

3, loading a springboard; 301 a magazine fixing portion; 302 raised strips;

4, covering a plate; 5, pushing a block; 6, a magazine; 7 bullets.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, specific details are set forth in order to provide a thorough understanding of the present invention. The invention can be implemented in a number of ways different from those described herein and similar generalizations can be made by those skilled in the art without departing from the spirit of the invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

The cartridges in the magazine are disposed substantially parallel, in the same direction or in opposite horizontal directions, and when used, the cartridges need to be loaded into the magazine quickly, usually manually one by one, and thus are time consuming. Because the center of gravity of the bullets is not coincident with the middle point of the length of the bullets, the bullets are aligned in a row by rotating and sliding through a balance-like structure.

Referring to fig. 1, an auxiliary device for quickly filling a magazine with bullets according to the present invention includes a bullet aligning member and a bullet loading member detachably coupled together; the bullet equidirectional arrangement assembly is used for arranging the randomly oriented bullets 7 in the same direction, and the loading assembly is used for loading the bullets 7 arranged in the same direction into the magazine 6.

Referring to fig. 2, 3, 4 and 5, the bullet aligning member includes a bullet aligning chamber 1 and a pallet 2; the bullet homodromous bin 1 is a topless hollow cuboid which comprises a bottom plate, a left side plate, a right side plate, a front side plate and a rear side plate, and the bullet homodromous bin 1 is provided with a transverse vertical plane parallel to the front side plate and the rear side plate and a longitudinal vertical plane parallel to the left side plate and the right side plate; an upper oblique sliding plate 101 and a lower oblique sliding plate 102 are connected between the left side plate and the right side plate; the top edge of the upper oblique sliding plate 101 is positioned on the transverse vertical plane of the non-top hollow cuboid, the bottom edge of the upper oblique sliding plate 101 is close to the rear side plate, and a first bullet outlet 103 with the width matched with the diameter of the bullet 7 is formed between the bottom edge of the upper oblique sliding plate and the rear side plate; the lower oblique sliding plate 102 is positioned below the upper oblique sliding plate 101, the top edge of the lower oblique sliding plate 102 is connected with the front side plate, the bottom edge of the lower oblique sliding plate 102 is close to the rear side plate, and a second bullet outlet 104 with the width matched with the diameter of the bullet 7 is formed by the lower oblique sliding plate and the rear side plate; the bottom edge of the downhill sliding plate 102 extends downward to the floor to form a bullet-stop plate 105; a plurality of partition plates 106 parallel to the longitudinal vertical plane are uniformly arranged in the bullet homodromous bin 1, the distance between every two adjacent partition plates 106 is matched with the diameter of the bullet 7, and the partition plates 106 divide the bullet homodromous bin 1 into a plurality of parallel ballistic trajectories; a supporting plate groove 107 is formed in the bullet equidirectional bin 1, the supporting plate groove 107 is located above the top edge of the upper oblique sliding plate 101, and a supporting plate 2 is inserted into the supporting plate groove 107;

referring to fig. 6, the loading assembly includes a loading plate 3, a cover plate 4, and a push block 5; the bullet guide groove is arranged on the bullet loading plate 3, and the left end part of the bullet guide groove is provided with a magazine fixing part 301; the magazine fixing part 301 is a cavity formed by downwards sinking the loading plate 3 and matched with the magazine 6 in shape, and the cavity is communicated with the bullet guide groove; the cover plate 4 is connected with a push block 5 in a sliding way along the length direction of the cover plate 4.

Referring to fig. 6 and 7, in the above embodiment of the auxiliary device for fast loading cartridges into a magazine, the cartridges 7 in the same direction can be quickly and uniformly arranged in the same direction by the cartridge 7 in the same direction or in the opposite direction, and the loading assembly can quickly push the cartridges 7 in the same direction into the magazine 6, so that the magazine 6 can be loaded fast and accurately. Specifically, after the pallet 2 is removed, the bullet 7 falls on the top of the upper inclined slide plate 101 in an unbalanced manner, the bullet 7 whose warhead is forward falls from the first bullet outlet 103 by tilting backward, and the bullet 7 whose warhead is backward falls from the second bullet outlet 104 by tilting forward.

Further, fig. 3 and 6, in order to facilitate the quick assembly and disassembly of the bullet 7 homodromous component and the loading component, the outer side walls of the left side plate and the right side plate of the bullet homodromous bin 1 are provided with sliding grooves 108, the loading plate 3 is provided with a convex strip 302 matched with the sliding grooves 108, and the convex strip 302 is inserted into or pulled out of the sliding grooves 108 to realize the detachable connection of the bullet homodromous bin 1 and the loading plate 3.

Further, in order to prevent the cartridges 7 from slipping down when the cartridges 7 are stacked, the cartridges extend upward toward the left, right, front, and rear side plates of the magazine 1 to form a surrounding plate 109. In practice, a collecting frame is arranged below the bullet syntropy bin 1, the bullets 7 placed on the bullet syntropy bin 1 are poked by means of the digging plough, the coaming part arranged on the right side plate can be cancelled, and redundant bullets fall into the collecting frame.

Preferably, the included angle between the upper inclined sliding plate 101 and the horizontal plane is A, and A is more than or equal to 45 degrees and less than or equal to 75 degrees; the included angle between the downward inclined sliding plate 102 and the horizontal plane is B, and B is more than or equal to 45 degrees and less than or equal to 75 degrees.

Preferably, referring to fig. 4, in order to make the bullet 7 fall vertically downwards more smoothly in the falling process, the bottom edge of the upper oblique sliding plate 101 extends downwards to form a first bullet outlet guide plate 1010, and a round angle is arranged at the intersection of the upper oblique sliding plate 101 and the upper oblique sliding plate 101.

Further, in order to reduce the friction force of the bullet 7 in the sliding process, the surface of the bullet equidirectional bin 1 is provided with a coating with a low friction coefficient, and the coating is made of polytetrafluoroethylene. Similarly, the surface of the bullet 7 may be treated with the same surface treatment, such as teflon.

Further, referring to fig. 2 and 3, for some curved magazines 6, a block 1011 is provided at the bottom of each trajectory, the height of the blocks 1011 is not equal to each other, and the consecutive blocks 1011 form a consecutive arc matching the magazine 6, and accordingly, the cartridge guide groove is shaped as an arc groove matching the magazine 6. The cambered magazine can be well matched with the movement of a bullet with a sharp end and a round flat end at one end, so that the feeding stability in the shooting process is good, and the auxiliary device for quickly filling the magazine with the bullet can also be suitable for the cambered magazine 6 by arranging the heightening block 1011.

(II) a method for using an auxiliary device for quickly filling a magazine with bullets, wherein the method for using the auxiliary device for quickly filling the magazine with bullets comprises the following steps:

step one, referring to fig. 1, inserting the convex strips 302 of the loading plate 3 into the slide slots 108 of the bullet syntropy bin 1, connecting the loading assembly and the bullet syntropy assembly, and inserting the supporting plate 2 into the supporting plate slot 107;

step two, taking out a plurality of bullets 7 from the bullet box and placing the bullets 7 at the top of a bullet 7 guide bin, vibrating the bullets in the same direction to the bin 1 or poking the bullets 7 by using a sledge to ensure that the bullets 7 are distributed and fall into a plurality of spaces formed by the partition plates 106 and the supporting plate 2;

step three, referring to fig. 7 and 8, the supporting plate 2 is pulled out, the middle of the bullet 7 falls on the top of the upper inclined sliding plate 101, the bullet 7 is unbalanced, the bullet 7 with the head higher than the front tips backwards and falls from the first bullet outlet 103, the bullet 7 with the head facing backwards tips forwards and falls from the second bullet outlet 104, and finally, the heads of all the bullets 7 point upwards;

step four, referring to fig. 9, turning the bullet syntropy bin 1 and the bullet loading plate 3 by 90 degrees towards the direction of installing the bullet loading plate, and enabling all bullets 7 to fall into bullet guide grooves of the bullet loading plate 3;

step five, referring to fig. 10, the magazine 6 is loaded into the magazine 6 fixing area, the loading plate 3 is separated from the magazine 1 in the same direction as the bullet, the bullet guide groove is covered with the cover plate 4, the push block 5 is pushed, and the bullet 7 enters the magazine 6.

The device of the invention has light weight, needs no external special energy to drive, has less manual intervention action, can quickly arrange a large number of bullets randomly arranged in the direction into bullet rows with consistent direction, and then quickly place the bullets in the bullet guide grooves to quickly press the bullets into the magazine 6.

Although the present invention has been described in detail in this specification with reference to specific embodiments and illustrative embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made thereto based on the present invention. Accordingly, such modifications and improvements are intended to be within the scope of this invention as claimed.

Claims (9)

1. An auxiliary device for quickly filling a magazine with bullets is characterized by comprising a bullet equidirectional arrangement assembly and a bullet loading assembly;

the bullet equidirectional arrangement assembly is detachably connected with the bullet loading assembly;

the bullet equidirectional arrangement assembly is used for arranging the bullets (7) with random directions in the same direction, and the loading assembly is used for loading the bullets (7) arranged in the same direction into the magazine (6).

2. Auxiliary device for the rapid filling of magazines with cartridges according to claim 1, characterized in that the cartridge homodromous arrangement comprises a cartridge homodromous magazine (1) and a pallet (2);

the bullet homodromous bin (1) is a topless hollow cuboid which comprises a bottom plate, a left side plate, a right side plate, a front side plate and a rear side plate, and the bullet homodromous bin (1) is provided with a transverse vertical plane parallel to the front side plate and the rear side plate and a longitudinal vertical plane parallel to the left side plate and the right side plate;

an upper oblique sliding plate (101) and a lower oblique sliding plate (102) are connected between the left side plate and the right side plate;

the top edge of the upper inclined sliding plate (101) is positioned on the transverse vertical plane of the non-top hollow cuboid, the bottom edge of the upper inclined sliding plate (101) is close to the rear side plate, and a first bullet outlet (103) with the width matched with the diameter of the bullet (7) is formed between the bottom edge of the upper inclined sliding plate and the rear side plate;

the lower oblique sliding plate (102) is positioned below the upper oblique sliding plate (101), the top edge of the lower oblique sliding plate (102) is connected with the front side plate, the bottom edge of the lower oblique sliding plate (102) is close to the rear side plate, and a second bullet outlet (104) with the width matched with the diameter of the bullet (7) is formed by the bottom edge of the lower oblique sliding plate and the rear side plate;

the bottom edge of the downward inclined sliding plate (102) extends downwards to the bottom plate to form a bullet baffle plate (105);

a plurality of partition plates (106) parallel to the longitudinal vertical plane are uniformly arranged in the bullet homodromous bin (1), the distance between every two adjacent partition plates (106) is matched with the diameter of a bullet (7), and the bullet homodromous bin (1) is divided into a plurality of parallel ballistic trajectories by the partition plates (106);

a supporting plate groove (107) is formed in the bullet equidirectional bin (1), the supporting plate groove (107) is located above the top edge of the upper inclined sliding plate (101), and a supporting plate (2) is inserted into the supporting plate groove (107);

the loading assembly comprises a loading plate (3), a cover plate (4) and a push block (5);

a bullet guide groove is arranged on the bullet loading plate (3), and a magazine fixing part (301) is arranged at the left end part of the bullet guide groove; the cover plate (4) is connected with a push block (5) in a sliding way along the length direction of the cover plate (4);

the magazine fixing part (301) is a cavity which is formed by downwards sinking the magazine plate (3) and is matched with the shape of the magazine (6), and the cavity is communicated with the bullet guide groove.

3. Auxiliary device for the rapid cartridge loading of a magazine according to claim 2, characterized in that the lateral walls of the left and right lateral plates of the cartridge equidirectional magazine (1) are provided with slide grooves (108), the loading plate (3) is provided with raised strips (302) matching with the slide grooves (108), and the insertion or extraction of the raised strips (302) into or out of the slide grooves (108) realizes the detachable connection of the cartridge equidirectional magazine (1) and the loading plate (3).

4. Auxiliary device for the rapid filling of magazines with cartridges according to claim 2, characterized in that the cartridges extend upwards to form a skirt (109) towards the left, right, front and rear side of the magazine (1).

5. Auxiliary device for the rapid filling of magazines with cartridges according to claim 2, characterized in that the angle between the upper ramp (101) and the horizontal is A, 45 ° -A ≦ 75 °;

the included angle between the downward inclined sliding plate (102) and the horizontal plane is B, and B is more than or equal to 45 degrees and less than or equal to 75 degrees.

6. Auxiliary device for the rapid cartridge filling of a magazine according to claim 2, characterized in that the lower edge of the upper ramp (101) extends downwards to form a first cartridge exit guide (1010), the intersection of the upper ramp (101) and the upper ramp (101) being provided with rounded corners.

7. Auxiliary device for the rapid filling of magazines with cartridges according to claim 2, characterized in that the surface of the cartridge co-chamber (1) is provided with a coating of low friction coefficient, the coating material being polytetrafluoroethylene.

8. Auxiliary device for the rapid filling of magazines with cartridges according to claim 2, characterized in that each trajectory bottom is provided with an elevation block (1011), the elevation blocks (1011) being of unequal height, the successive elevation blocks (1011) forming a successive arc matching the magazine (6), the cartridge guide groove accordingly being an arc groove matching the magazine (6).

9. A method of using an auxiliary device for the rapid cartridge filling of a magazine, based on the cartridge of claim 2, comprising the steps of:

step one, connecting an elastic loading plate and a bullet homodromous bin, and inserting a supporting plate into a supporting plate groove;

secondly, taking out the bullets with random directions from the bullet box, longitudinally placing the bullets on the top of the bullet guide bin, vibrating the bullets in the same direction or poking the bullets by using a sledge to enable the bullets to be distributed and fall into a plurality of spaces formed by the partition plates and the supporting plate;

step three, the supporting plate is pulled out, the middle of each bullet is placed at the top of the upper inclined sliding plate, the bullets are unbalanced, the bullets with the bullet heads exceeding the front are tilted backwards and fall into the trajectory from the first bullet outlet, the bullets with the bullet heads facing backwards are tilted forwards and fall into the trajectory from the second bullet outlet, and the bullet heads of all the bullets in the trajectory face upwards;

step four, turning the bullet homodromous bin and the bullet loading plate by 90 degrees towards the direction of installing the bullet loading plate, and enabling the bullet to fall into a bullet guide groove of the bullet loading plate;

separating the bullet guide plate and the bullet in the same direction, covering the bullet guide groove with a cover plate, loading the magazine into the magazine fixing area, pushing the push block, and enabling the bullet to enter the magazine.

Images