Patent Publication Number: US-11662167-B2

Title: Ammunitions container

Description:
CROSS-REFERENCE 
     The present United States Patent Application is a continuation of and claims priority under 35 U.S.C. § 120 to U.S. patent application Ser. No. 17/098,347, filed Nov. 14, 2020, which &#39;347 Application is a continuation of and claims priority under 35 U.S.C. § 120 to U.S. patent application Ser. No. 15/883,236, filed Jan. 30, 2018, which &#39;236 Application is a non-provisional patent application that relates to and claims priority under 35 U.S.C. 119(e) to U.S. Provisional Patent Application No. 62/451,919, filed Jan. 30, 2017. All these documents are incorporated herein by reference in their entireties. 
    
    
     FIELD OF THE INVENTION 
     This invention generally relates to an ammunition magazine loader. More precisely, the invention relates to an ammunition magazine loader with mechanisms for filling magazines with ammunitions, in batch, and adaptors for moving ammunitions from ammunitions containers to the ammunition magazine loader. 
     BACKGROUND OF THE INVENTION 
     Ammunitions are packaged in strips thereof, boxes thereof or ammunitions containers. Rounds are individually loaded in each magazine. Manual magazines loading is time consuming and can be difficult to load. 
     The transport of ammunitions has not significantly evolved since the invention of the bullets for firearms. The majority of combat rifles currently in service around the world use thirty ammunitions (rounds) magazines. When not loaded in a magazine, ammunitions are conserved and carried in boxes. The process of loading individual ammunitions into a magazine is slow and requires the user to have fine motor skills and sufficient strength. The user needs to be concentrated and undisturbed to be efficient during the process. In a combat environment where the user is under intense pressure the reloading process of the magazine becomes longer, slower and is subjected to interruption. Further, speed in readying a weapon in a combat environment is important; the slowness of the reloading process delays the readiness of a firearm. In a training environment, or in civilian use, reloading the magazines remains a time-consuming process and a waste of time. Past attempts to facilitate the magazines reloading do not allow to quickly and efficiently reload a regular combat magazine. 
     Therefore, there exists a need in the art for an improved ammunitions magazine loader over the existing art. There is a need in the art for a magazine loader that is fast and reliable to use. A need has also been felt in the art for a magazine loader that reduces the complexity of magazines ammunitions loading. There is also a need for such a magazine loader that can be easily and economically manufactured. 
     SUMMARY OF THE INVENTION 
     It is one aspect of the present invention to alleviate one or more of the drawbacks of the background art by addressing one or more of the existing needs in the art. 
     Accordingly, embodiments of this invention are concerned with an ammunitions magazine loader. 
     An aspect of one or more embodiments of the invention provides a magazine loader that can rapidly and efficiently load ammunitions in magazines. 
     An aspect of one or more embodiments of the invention provides a magazine loader that simultaneously load a plurality of ammunitions in a magazine. 
     An aspect of one or more embodiments of the invention provides a magazine loader that simultaneously load a magazine at once. 
     An aspect of one or more embodiments of the invention provides a magazine loader adapted to be carried and used in combat zones. 
     An aspect of one or more embodiments of the invention provides a magazine loader containing more than two full magazines of any type of ammunitions with the ability to fully load a magazine. 
     An aspect of one or more embodiments of the invention provides a gravity fed system with the ability to stabilize the movement of the ammunition within the magazine loader apparatus. 
     An aspect of one or more embodiments of the invention provides a resupply box with the ability to load the magazine loader with one motion. 
     An aspect of one or more embodiments of the invention provides a method to separate ammunitions for filling a full magazine from its bullets container to a loading compartment with a linear motion. 
     An aspect of one or more embodiments of the invention provides a plurality of bullet-shape holes to proper direct the ammunitions into the magazine loader. 
     An aspect of one or more embodiments of the invention provides a method to disperse compact ammunitions into the magazine loader. 
     An aspect of one or more embodiments of the invention provides a magazine loader that can receive an ammunitions container thereon to transfer ammunitions from the container to the magazine loader. 
     An aspect of one or more embodiments of the invention provides an adaptor configured to adapt ammunitions containers of different configurations to the magazine loader. 
     An aspect of one or more embodiment of the invention provides an adaptor that can be manufactured with different dimensions to accommodate ammunitions containers of different sizes. 
     An aspect of one or more embodiment of the invention provides an adaptor that can be manufactured with different dimensions and characteristics to accommodate different calibers of ammunitions. 
     An aspect of one or more embodiments of the invention provides a magazine loader that can be manufactured with different dimensions to accommodate different calibers of ammunitions 
     An aspect of one or more embodiments of the invention provides a magazine loader including a plurality of internal bullets-receiving channels. 
     An aspect of one or more embodiments of the invention provides a magazine loader that can be filled with ammunitions by gravity. 
     An aspect of one or more embodiments of the invention provides a magazine loader including an air gap between adjacent bullets-receiving channels. 
     An aspect of one or more embodiments of the invention provides a magazine loader including a bullet riser portion. 
     An aspect of one or more embodiments of the invention provides a magazine loader for loading bullets in a magazine is presented, the magazine loader comprising a body including a first opening for inserting bullets in the magazine loader and a second opening for loading bullets in a magazine, when the magazine loader is used in conjunction with the magazine, a plurality of channels inside the body for receiving therein bullets, when the magazine loader is used in conjunction with a plurality of bullets, the lower bullets in the channels forming a row of bullets and an actuator for moving the row of bullets out of the magazine loader through a magazine receptacle. 
     Another aspect of one or more embodiments of the invention provides a method of loading bullets in a magazine, the method comprising inserting a plurality of bullets in a magazine loader, the magazine loader including a plurality of channels therein for receiving the bullets, aligning a succession of bullets in the magazine loader, securing a magazine in a position adapted to receive therein the succession of bullets and pushing the succession of bullets in the magazine. 
     Other embodiments and further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description. 
     Additional and/or alternative advantages and salient features of the invention will become apparent from the following detailed description, which, taken in conjunction with the annexed drawings, disclose preferred embodiments of the invention. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       Referring now to the drawings which form a part of this original disclosure: 
         FIG.  1    is an isometric view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  2    is a top plan view the magazine loader of  FIG.  1   , in accordance with at least one embodiment thereof; 
         FIG.  3    is a side elevational view of the magazine loader of  FIG.  1   , in accordance with at least one embodiment thereof; 
         FIG.  4    is a front elevational view of the magazine loader of  FIG.  1   , in accordance with at least one embodiment thereof; 
         FIG.  5    is a top plan view of a bullets container, in accordance with at least one embodiment thereof; 
         FIG.  6    is a side elevational view of the bullets container of  FIG.  5   , in accordance with at least one embodiment thereof; 
         FIG.  7    is a top plan view of the bullets container of  FIG.  5   , in accordance with at least one embodiment thereof; 
         FIG.  8    is an isometric view of a magazine loader, a bullets container and an adaptor, in accordance with at least one embodiment thereof; 
         FIG.  9    is an isometric view of the magazine loader, the bullets container, with the lid opened, and the adaptor of  FIG.  8   , in accordance with at least one embodiment thereof; 
         FIG.  10    is an isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , the adaptor being installed on top of the bullets container, in accordance with at least one embodiment thereof; 
         FIG.  11    is an isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , where the bullets container is assembled to the adaptor and the adaptor is assembled to the magazine loader in an operating configuration, in accordance with at least one embodiment thereof; 
         FIG.  12    is an isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , where the bullets container is assembled to the adaptor and the adaptor is assembled to the magazine loader in an operating configuration, in accordance with at least one embodiment thereof; 
         FIG.  13    is a magnified portion of the isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , where the bullets container is assembled to the adaptor and the adaptor is assembled to the magazine loader in an operating configuration, in accordance with at least one embodiment thereof; 
         FIG.  14    is an isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , where the bullets container is assembled to the adaptor and the adaptor is assembled to the magazine loader in an operating configuration with the bullets moved down in the magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  15    is a magnified portion of the isometric view of the magazine loader, the bullets container and the adaptor of  FIG.  8   , where the bullets container is assembled to the adaptor and the adaptor is assembled to the magazine loader in an operating configuration with the bullets moved down in the magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  16    is an isometric view of the magazine loader of  FIG.  1   , full of bullets, in accordance with at least one embodiment thereof; 
         FIG.  17    is an exploded isometric view of internal components of the magazine loader of  FIG.  1   , in accordance with at least one embodiment thereof; 
         FIG.  18    is an isometric view of internal components of the magazine loader of  FIG.  1   , in accordance with at least one embodiment thereof; 
         FIG.  19    is an exploded isometric view of a bullets ram support, in accordance with at least one embodiment thereof; 
         FIG.  20    is an isometric view of a bullets ram support, in accordance with at least one embodiment thereof; 
         FIG.  21    is an isometric view of a bullets ram support, in accordance with at least one embodiment thereof; 
         FIG.  22    is an isometric view of a bullets ram support operatively assembled to a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  23    is an isometric view of a bullets ram support operatively assembled to a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  24    is an isometric view of a bullets ram support operatively assembled to a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  25    is an isometric view of a bullets ram support operatively assembled to a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  26    is an isometric view of a bullets ram support operatively assembled to a magazine loader in the process of pushing down the bullets in the magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  27    is an isometric view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  28    is an isometric view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  29    is a partial front elevation view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  30    is an isometric view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  31    is a partial front elevation view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  32    is an isometric view of a portion of a magazine loader with an opened front door thereof, in accordance with at least one embodiment thereof; 
         FIG.  33    is an isometric view of a portion of a magazine loader with a magazine secured in an operating configuration thereof, in accordance with at least one embodiment thereof; 
         FIG.  34    is an isometric view of a magazine loader with a magazine secured in an operating configuration thereof, in accordance with at least one embodiment thereof; 
         FIG.  35    is an isometric view of a magazine loader with a magazine secured in an operating configuration thereof, in accordance with at least one embodiment thereof; 
         FIG.  36    is a partial front elevation view of a magazine loader, in accordance with at least one embodiment thereof; 
         FIG.  37    is an isometric view of a magazine loader with a detached magazine full of bullets, in accordance with at least one embodiment thereof. 
         FIG.  38    is flow chart describing the steps in the process of loading the magazine loader with a bullet container and an adaptor; 
         FIG.  39    is flow chart describing the steps in the process of loading the magazine loader with a bullet ram support; 
         FIG.  40    is a flow chart describing the steps to load a magazine with the magazine loader; 
         FIG.  41    is an exploded isometric view of a magazine loader, in accordance with an embodiment thereof; 
         FIG.  42    is a view of a magazine loader, in accordance with an embodiment thereof; 
         FIG.  43    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  44    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  45    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  46    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  47    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  48    is a flow chart illustrating a method of use of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  49    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  50    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  51    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  52    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  53    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  54    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  55    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  56    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  57    is a partial isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  58    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  59    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  60    is a flow chart illustrating a possible method of use of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  61    is a semi-assembled isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  62    is an isometric view of the magazine loader, in accordance with an embodiment thereof; 
         FIG.  63    is an isometric view of the magazine loader with a bullets container, in accordance with an embodiment thereof; 
         FIG.  64    is an isometric view of the magazine loader with a bullets container, in accordance with an embodiment thereof; 
         FIG.  65    is an isometric view of the magazine loader with a bullets container, in accordance with an embodiment thereof; 
         FIG.  66    is a partial isometric view of the magazine loader with a bullets container, in accordance with an embodiment thereof; 
         FIG.  67    is a partial isometric view of the magazine loader with a bullets container, in accordance with an embodiment thereof; and 
         FIG.  68    is a flow chart illustrating a possible method of use of the magazine loader, in accordance with an embodiment thereof. 
     
    
    
     DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
     A preferred embodiment of the present invention is described below with reference to the drawings. 
     A magazine loader  10  in accordance with an embodiment of the invention is exemplified in  FIG.  1    throughout  FIG.  4   . The magazine loader  10  is generally used to receive therein a plurality of bullets  74  and is equipped with a mechanism adapted to load a magazine  230  with the bullets  74 . The magazine loader  10  is generally made of strong material, such as steel, and is equipped with at least one opening  14  thereof. The illustrated embodiment includes a top opening  18  and a front opening  22  that are selectively closed with a hingedly connected top cover  26  and a hingedly connected front cover  30 . The top cover  26  and the front cover  30  are respectively secured in a closed position thereof in  FIG.  1    with a top locking mechanism  34  and a front locking mechanism  38 . The magazine loader  10  includes an optional handle  42  disposed on the top cover  26 , as embodied. It can be appreciated the exact shape, size and configuration of the magazine loader  10  can vary without departing from the scope of the invention. The magazine loader  10  is going to be discussed in greater details below. 
     A bullets container  50  in accordance with an embodiment of the invention is exemplified in  FIG.  5    throughout  FIG.  7   . The bullets container  50  is generally used to house and transport a plurality of bullets  74 . The bullets container  50  is generally made of strong material, such as steel, and is equipped with at least one opening  54 . The illustrated embodiment includes a top opening  58  selectively closed with a hingedly connected top cover  62 . The top cover  62  is secured in a closed position thereof with a locking mechanism  66  to prevent bullets  74  to exit the bullets container  50 . The bullets container  50  includes an optional handle  70  disposed on the top cover  62 , as embodied. The bullets container  50  has generally a standardized format used to store and transport bullets  74  therein. The exact shape, size and configuration of the bullets container  50  can vary without departing from the scope of the invention. Other types of bullets containers can be used in conjunction with the present invention without departing therefrom. 
     The bullets container  50  is not adapted to load magazines  230  with the bullets  74  contained therein. The bullets  74  from the bullets container  50  needs to be manually fed in the magazine  230 , which is long and tedious. Embodiments of the invention suggest means for transferring the bullets  74  from the bullets container  50  to the magazine loader  10 . It can be appreciated the size and the design of the bullets container  50  need to cooperate with the magazine loader  10 . In the present illustrated configuration, the bullets container  50  is smaller than the magazine loader  10  and an adaptor  80  is required to facilitate the transfer of the bullets  74  from the bullets container  50  to the magazine loader  10 .  FIG.  8    throughout  FIG.  12    depict a magazine loader  10 , a bullets container  50  and an exemplified adaptor  80  that is sized and designed to interface the bullets container  50  with the magazine loader  10  to route the bullets  74  from the bullets container  50  inside the magazine loader  10 . The exact shape, size and configuration of the adaptor  80  can vary without departing from the scope of the invention. It can be appreciated the magazine loader  10  and the bullets container  50  are illustrated with an open portion thereof to allow visualization of their internal structures for the purpose of the present application. 
     The bullet container  50  of the illustrated embodiment includes therein a series of bullets-receiving slots  90  vertically separating the bullets  74  in a plurality of bullets-receiving slots  90 . Similarly, the magazine loader  10  includes a series of channels  96  separated with respective rails  94  sized and designed to receive and locate a series of bullets  74  in channels  96  therein in a position for loading a magazine  230 . Consequently, the adaptor  80  includes a series of slots  98  designed to allow bullets  74  transfer from the bullets container  50  to the magazine loader  10 . The adaptor  80  is designed, at a first side  102  thereof with a layout of slots  98  corresponding to the layout and the spacing of channels  96  of the magazine loader  10 . The layout of slots  98  of the adaptor  80 , at a second side  106  thereof, is generally corresponding to the layout of bullets-receiving slots  90  in the bullet container  50 . In the present situation, the adaptor  80  has a trapezoidal shape because the spacing between the series of channels  96  of the magazine loader  10  is larger than the spacing of the bullets-receiving slots  90  of the bullets container  50 . Other possible configurations are not illustrated and remain within the scope of the present specification. 
     As it can be appreciated from  FIG.  10   ,  FIG.  11    and  FIG.  12   , the second side  106  of the adaptor  80  is installed on the bullets-container  50  top opening  58 , the magazine loader  10  and the bullets-container  50  connected thereto are reversed upside-down to fit the top opening  18  thereof with the first side  102  of the adaptor  80 . The assembly is illustrated unsecured together however a securing mechanism can be used without departing from the teaching of the present invention. The magazine loader  10 , bullets container  50  and the intervening adaptor  80  assembly is then reversed to transfer the bullets  74  from the bullets container  50  to the magazine loader  10 . In that configuration, gravity is used to transfer the bullets  74  from the bullets-container  50  downwardly to the magazine loader  10 , as exemplified in  FIG.  12    and  FIG.  13   . The magazine loader  10 , adaptor  80  and bullets container  50  assembly can be separated when the bullets  74  are all moved and stored in the magazine loader  10  as illustrated in  FIG.  14    and  FIG.  15   . The magazine loader  10  can be closed with the top cover  26 , as depicted in  FIG.  16   , and is ready for transportation and future use to load magazines  230  with the bullets  74  stored therein. 
     The rails  94  of the magazine loader  10  of the embodiment illustrated in  FIG.  15    throughout  FIG.  17    have a sinusoidal configuration. The sinusoidal configuration forces the ammunition to stay in a proper loading position as it slows down the bullets in a controlled fall and reduces the room that could, otherwise, allow the bullets to take an improper position in case of sudden movements. All ammunitions are stacked horizontally and oriented to be loaded in the receiving magazine, during rough handling. The sinusoidal configuration maintains the ammunition in the proper position without the need of a mechanical force to do so. Each rail  94  is bordered on each lateral side by a pair of guides  110 , embodied as a pair of curved metal sheet layers, of a sinusoidal shape. The guides  110 , in an embodiment thereof, do not have a constant thickness between them to provide rails  94  of an even width all along their lengths despite their sinusoidal configuration. In the illustrated embodiment, each guide  110  is made with a double wall  114  to allow rails  94  thickness variations. The double wall  114  can be made of a pair of aluminum sheet  118  material that is bent properly and assembled together. It can be appreciated from  FIG.  15    that the upper portion  122  of the rails  94  has a significant thickness  126  that is mirrored by the thickness  134  of the slots separator  130  on the first side  102  of the adaptor  80 . Similar channels  96  spacing is embodied on the second side  106  of the adaptor  80  in respect with the bullets-receiving slots  90  of the bullets container  50 . 
     The internal structure of the magazine loader  10  is exemplified in  FIG.  17    and  FIG.  18   . The series of rails  94  are supported by lateral plates  138  and secured with a series of engaging openings  142 . A pair of cover plates  146  are disposed between the lateral plates  138  at the front and the rear of the magazine loader  10 . A first floor portion  150  and a second floor portion  154  are disposed below the series of rails  94  and are also secured in the assembly between the lateral plates  138 . A first drawer  158 , also referred to an actuator, and a second drawer  162  can also be appreciated in  FIG.  17   . The first drawer  158  and the second drawer  162  are slideably assembled with respective pairs of drawer support rails  166  disposed on external sides of the lateral plates  138 . A top plate  170  is affixed on top of the lateral plates  138 . The embodied top plate  170  includes an optional set of holes  174  that have the profile of the bullets  74  to ensure only bullets  74  of the intended size is going to enter the magazine loader  10  and alleviate confusion as the user can see the direction the ammunition must be facing. 
     Bullets  74  can be packaged in 10 rounds clips  190  in the army&#39;s current ammunition system. When the bullets  74  are coming with such clips  190 , an optional bullets ram support  194  is configured to receive therein a plurality of clips  190  with bullets  74  attached thereto. The clips  190  are generally manually inserted in respective slots  198  inside the bullets ram support  194 . Once filled with bullets  74 , the bullets ram support  194  is installed on top of the magazine loader  10  and actuated as it will be described below. The bullets ram support  194  includes a handle portion  202  connected to a push member  206  with elongated pivot support members  210 . The elongated pivot support members  210  are pivotably and slidably connected to pivot supports members  210  interconnected between a pair of plates  214  and a pair of support plates  218  to which are connected the slots  198 . It can be appreciated the bullet ram support  194  includes a push member  206  sized and designed to push, preferably, on the rim (base) of the bullets  74  that are engaged in the clip  190 . The push member  206  is long enough to push through the entire length of the slots  198  to empty the bullets  74  from the clips  190 . 
       FIGS.  20    throughout  FIG.  26    are illustrating the operating sequential steps to load the clips  190  of bullets in the bullets ram support  194 .  FIG.  20    illustrates the handle portion  202  can be angled to allow easy access to the slots  198  in the bullets ram support  194 . After a series of clips  190  loaded with ten bullets  74  each are installed in the bullets ram support  194 , the handle portion  202  is raised vertically, as illustrated in  FIG.  21   . The bullets ram support  194  is installed on the magazine loader  10  before pushing the handle portion  202  down toward the magazine loader  10 , as illustrated in  FIG.  22    and  FIG.  23   .  FIG.  24    illustrates a first set of ten bullets  74  are pushed by the push member  206  in the magazine loader  10 . The process is done another time, as shown in  FIG.  25    and  FIG.  26   , to insert a second set of clips  190  of ten bullets  74  per rail  94 , that can accommodate ten bullets  74  therein, in the magazine loader  10 . The bullets ram support  194  is removed from the magazine loader  10  and the magazine loader  10  is closed for future use. 
       FIG.  27    throughout  FIG.  35    are exemplifying loading a magazine  230  with the magazine loader  10 . The front cover  30  is opened to allow access to the front opening  22  where a user can operatively secure the magazine  230  to the magazine loader  10  to be filled with bullets  74 . A retaining floor  234  of the second drawer  162  is preventing bullets  74  in the rails  94  to fall below the rails  94  in the configuration illustrated in  FIG.  27   . The second drawer  162  is pulled  238  outside the front opening  22  to allow the lower bullet  74  of each of the rail  94 , forming a row of thirty bullets  242 , to move lower than the rails  94  and be retained by the first floor portion  150 , as illustrated in  FIG.  28    throughout  FIG.  32   . It can be appreciated the lateral supports  246  of the second drawer  162  are engaging in a slideable manner with corresponding drawer support rails  166  hence allowing movements of the second drawer  162 . The second drawer  162  is then pushed back  250  into the magazine loader  10  and the retaining floor  234  is separating the lower row of bullets  242  from the second row  254  of bullets  74  adjacent above each respective bullet  74  of the lower row of bullets  242 . 
     In reference with  FIG.  34   , a magazine  230  is secured in the front opening  22  in an aligned position suitable to receive therein the lower row  242  of thirty bullets  74 . The transfer of the lower row  242  of bullets  74  from the magazine loader  10  to the magazine  230  is made by pulling  258  the first drawer  158 . Pulling  258  the first drawer  158  is allowed by the slideable engagement of the pair of lateral supports  262  with corresponding drawer support rail  166 . The first drawer  158  includes, as best seen in  FIG.  17   , a rear portion  266  equipped with a pair of downward extending arms  270  securing a push member  274  thereof designed in a fashion adapted to contact the row of bullets  74  adequately for moving the row of bullets  74  in the magazine  230 . The push member  274  is abutting the lower row  242  of bullets  74  and is pushing the bullets  74 , as an actuator, guided by the retaining floor  234  and the first floor portion  150 , into the magazine  230 . The fully loaded magazine  230  is illustrated in  FIG.  35   . It can be appreciated the magazine  230  loading is made in a single operation, when pulling the first drawer  158 . This is a quick, safe and efficient way to load a magazine  230  with a plurality of bullets  74 . A magazine retainer  280  is optionally disposed on the interior portion of the front cover  30  to secure the magazine  230  in place when loading it with bullets  74  as depicted in  FIG.  33    and  FIG.  34   . The opened end of the magazine  230  is inserted or abutted to a magazine receptacle  284  preferably aligned with a lower row of bullets  242  for easy insertion of the bullets  74  in the magazine  230 . 
     Step  300  throughout step  328  of  FIG.  38    illustrate an exemplary process of loading the magazine loader  10  with a bullet container  50  and using an adaptor  80 . The illustrative process begins by providing a bullets container  50  with bullets  74  therein at step  300  and installing a cooperating end of the adaptor  80  on the open top portion of the bullet container  50  at step  304 . Step  308  reverses the magazine loader  10  and securing the open top portion thereof to the first end of the adaptor  80  to be able to reverse collectively the magazine loader  10 , the adaptor  80  and the bullets container  50  at step  312  to transfer the bullets  74  from the bullets container  50  to the magazine loader  10  through the adaptor  80  under the effect of gravity as illustrated in steps  316  and  320 . The bullets container  50  and the adaptor  80  are removed in step  324  from the magazine loader  10  to be able to close the top cover of the magazine loader  10  to be used for charging magazines  230 . 
     Step  340  throughout step  368  in  FIG.  39    illustrate the process of loading the magazine loader  10  with ten-rounds clips of bullets  74  using a bullet ram support  194 . Indeed, the following steps can be exemplary performed as follows: Stacking bullet clips  190  inside the bullet ram support  194  in step  340  followed by installing the bullet ram support  194  on the magazine loader  10  in step  344  to then position the push member  206  at step  348  to be able to push the push member at the following step  352  to move the bullets inside the magazine loader  10  at step  356 . Step  360  indicates the bullets are then guided inside the channels of the magazine loader  10  limited by the first floor portion  150 , if the first drawer  158  is not pulled out, of the magazine loader  10  as in step  364  to load the magazine loader  10  by a movement of the second drawer  162  as indicated at step  368 . 
     And step  390  throughout step  418  in  FIG.  40    illustrate the process of loading a magazine  230  with the magazine loader  10  through the use of drawers  162  and  158 . Step  390  secures the magazine  230  to the magazine loader  10  and step  394  pulls the second drawer  162  for removing the retaining floor  234  to allow movement of the lower bullets  74  to the bottom of the magazine loader  10  in step  398 . Pushing back the second drawer  162  for putting back in place the retaining floor  234  to retain the remaining bullets  74  in the magazine loader  10  in step  402  for, then, pulling the first drawer  158  to pull the push member  206  of step  406  that is moving the bullets  74  inside the magazine  230 , as identified in step  410 . Step  414  pushes back the first drawer  158  and the push member  206  to finally remove the loaded magazine  230  from the magazine loader  10  in step  418 . 
     Another embodiment of the invention using the same general principles of operation is illustrated in  FIG.  41    throughout  FIG.  66   . In this embodiment, the components of the magazine loader  10  are secured between a plurality of frame portions  446  optionally designed with bents therein for increased rigidity. The illustrated frame portions  446  are also provided with spacers  450  and fasteners  454  to secure the magazine loader  10  components in an operative configuration. The embodiment illustrated in  FIG.  41    throughout  FIG.  66    allows for integration and use of various means for routing bullets  74  from bullets containers  50 ,  430  of different configurations in the magazine loader  10 . For example, in the embodiment shown in  FIG.  1    throughout  FIG.  16   , the adaptor  80  is a distinct and separate piece of equipment which is put on top of the bullets container  50  over the channels  96  of the magazine loader  10 . In the embodiment illustrated in  FIG.  61    throughout  FIG.  66   , a pair of guide plates  438  is installed atop the series of channels  96  to route bullets  74  from bullet clips  190  in the magazine loader  10 . The guide plates  438  include a series of vertically aligned slots  98  and are used to assemble a bullet container  50 ,  430  that has compatible slots  98  pattern. Alternatively, the pair of adaptor plates  442  includes a series of divergent slots  98  and are used to assemble a bullet container  430  that has not a slots  98  pattern directly compatible with the magazine loader  10 . These various means for routing bullets  74  from bullets containers  50 ,  430  are selectively and removably secured in the magazine loader  10 . It is also encompassed by the present invention that the means for routing bullets  74  from bullets containers to the magazine loader  10  are permanently secured to the magazine loader  10  in alternate embodiments thereof. 
       FIGS.  1  to  16   , related to the previous embodiment, describe the magazine loader  10  used with a regular ammunition container  50 . As described above, the regular ammunition container  50  is generally consisting of a metallic box of cubic shape with an opening/closing top. This type of ammunition container  50  is in use since World War Two, has been in use in conflicts since, and will probably remain in use for decades to come. The main issue with this type of ammunition container  50  is that it requires to be flipped upside down to empty its load of bullets  74  inside the magazine loader  10 . 
     In the embodiment described in  FIGS.  61  to  66   , the magazine loader  10  is used with an alternative ammunition container  430 , which could be designed as a disposable bullets container. This alternative ammunition container  430  has a bottom portion  434  that is designed to be removable by removing, for instance, a securing strip  440 . Removing the securing strip  440  allows to slide the bottom portion  434  from the ammunition container  430  to open the alternative ammunition container  430  and empty its content into the magazine loader  10  as illustrated in  FIG.  66   . 
     The embodiments of  FIG.  19    throughout  FIG.  26    and  FIG.  42    throughout  FIG.  47    is used with ten-bullets clips  190 . In  FIG.  19    throughout  FIG.  26   , the clips  190  are positioned inside the slots  198  of the support plates  218 , which with the pair of plates  214 , form the bullet ram support  194 . The clips  190  are completely inserted in the slots  198 . As described above, the push member  206  (embodied as a rectangular plate in the embodiment) is pushed between the support plates  218  with the handle portion  202  to ram the bullet in the channels  96  and into the magazine loader  10 . In  FIG.  42    throughout  FIG.  47   , the handle portion  202  itself, now provided with a pair of handles  204 , is used to ram the bullets  74  inside the channels  96  of the magazine loader  10 . The handle portion  202  is slidably secured in a pair of guide members  458  pivotably secured to respective cover plates  146 . As best seen in  FIG.  42   , the pair of guide plates  438  have different heights to allow pivotal of the handle portion  202 . The clips  190  are secured to the shorter guide plate  438 . 1  equipped with clips-receiving slots  198 . The taller guide plate  438 . 2  includes a series of vertical grooves  462  sized and designed to slidably receive therein bullets heads. 
     Still referring to the embodiment of  FIG.  41    throughout  FIG.  47   , a bullet distancing member  466  is disposed on top of retaining floor  234  to ensure proper alignment and distance between the bullets  74  before they reach the lower row  242 . The bullet distancing member  466  is designed to accommodate the tip of the bullets  74 . Instead of the bullet  74  falling onto the first floor portion  150 , each bullet  74  has its dedicated location maintained in place by the discrete location teeth to prevent any undesired movement of the bullets  74  ready to be loaded in the magazine  230  and contribute to prevent any jamming in the event a bullet  74  would not be in the proper orientation. 
     A dented member  470  is also used to ensure proper alignment and distance between the bullets  74  once they reached the lower row  242 . The bullet distancing member  466  and the dented member  470  are desirable to prevent any movements of the bullets  74  when actuating the retaining floor  234 . The dented member  470  is configured to move upward, to secure the bullets  74 , and downward to allow movement of the bullets  74  toward the magazine  230 . The upward and downward movement of the dented member  470  is provided by a pivot member  474  and a slot portion  478 . The dented member  470  is operatively actuated by the movement of the first drawer  158  when inserting the bullets  74  in the magazine  230 , moving downward when the first drawer  158  is pulled and vice-versa. One can appreciate that, in the present configuration, the drawers  158 ,  162  are slidably maintained by supports  482 . Steps  486  throughout  514  in  FIG.  48    illustrate the process of loading the magazine loader  10  with ten-rounds clips of bullets  74  using the handle portion  202  as a ram. The following steps can be exemplary performed as follows: Stacking bullet clips  190  inside the slots  462  of guide plates  438  in step  486  followed by positioning the handle portion  202  vertically above the bullet clips  190  in step  490 , then pushing downward the handle portion  202  to push the bullets  74  inside the slots  462  of the guide plates  438  in step  494  ramming, with the handle portion  202  the first load of bullets  74  into the magazine loader  10  in step  498  and repeating the process throughout steps  502 ,  506 ,  510  and  514  to load the magazine loader  10 . 
     Steps  518  throughout  546  in  FIG.  60    illustrate the process of loading a magazine  230  with the magazine loader  10  through the use of drawers  162  and  158 . Step  518  pulls second drawer  162  removing retaining floor  234 , the lowest rank of bullets  74  falls to the second floor portion  154  in step  522 , the bullets are maintained in the proper position by bullet distancing member  466  and dented member  470  in step  526 , in step  530  the second drawer  162  is pushed back into its initial position repositioning the retaining floor  234  to prevent further bullets  74  from reaching the second floor portion  154 . In step  534  a magazine  230  is positioned on the first floor portion  150  and aligned to receive the lowest rank of bullets  74  therein. In step  538  the first drawer  158  is pulled out disengaging the dented member  470  freeing the lowest rank of bullets  74  and moving the push member  274  toward the empty magazine  230  ramming the bullets  74  in the empty magazine  230  in step  542 . In step  546 , the first drawer  158  is pushed back in, and the loaded magazine  230  is removed allowing the process to be repeated. 
     Steps  560  throughout  584  in  FIG.  68    illustrate the process of switching guide plates  438  with adaptor plates  442  and loading the magazine loader  10  with ammunition container  50  or alternative bullet container  430 . The following steps can be exemplary performed as follows in this embodiment with an alternative bullet container  430 : Removing the fasteners  454  to remove the guide plates  438  in step  560  followed by disassembling the handle portion  202  in step  564  then the adaptor supports plate  442  are positioned to replace the guide plates  438  and secured with fasteners  454  in step  568 , the bullet container  430  is positioned atop the magazine loader  10  in step  572  and the bottom portion  434  of the container is removed in step  576 , the bullets  74  are free to fall in the slots  98  of the adaptor plates  442  and then in rails  94  into the magazine loader  10  in step  580  leaving the magazine loader  10  fully loaded with bullets in step  584   
     While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments and elements, but, to the contrary, is intended to cover various modifications, combinations of features, equivalent arrangements, and equivalent elements included within the spirit and scope of the appended claims. Furthermore, the dimensions of features of various components that may appear on the drawings are not meant to be limiting, and the size of the components therein can vary from the size that may be portrayed in the figures herein. Thus, it is intended that the present invention covers the modifications and variations of the invention, provided they come within the scope of the appended claims and their equivalents.