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Herein described is a small caliber ammunition production loading machine with a novel measuring location and device. The machine will load one cartridge at a time and is referred to as a ‘single-out” machine. The machine will be similar in nature to existing loading machines with the following key novel aspects: a) The cartridge overall length (OAL) will be measured both as an overall dimension which is industry standard and also at a key datum location on a bullet's ogive. Measuring to a repeatable datum point on the bullet's ogive gives a more accurate representation of the cartridge's ballistic ability.
There are basically three types of bullet ogive configurations: tangent, secant and hybrid ogive (
The overall function of the machine is set forth below. The machine's purpose is to precisely load a complete cartridge at a minimum of 100 parts per minute. The primary stations to create a completed cartridge are:
The machine will have an upper and lower ram connected by (8) vertical support rods. The rods are guided by bushed ball cages inside of (8) support towers. The motor drives a center mounted crankshaft with a chain, sprockets and clutch that drives the lower ram up and down.
The upper ram has special tool holders that act on the cartridges throughout the machines cycle to load the case, a bell mouth tool to confirm the case mouth is round and to the proper size, debris check that has a pin and sensor so that foreign contaminates in the empty cases are identified, load the powder, load the bullets and crimp the cases to the bullets. The two upper rams are supported by a bridge system to maintain rigidity.
The same motor that drives the rams also turns the indexer. This 24-position indexer then rotates the insert disk in a counterclockwise direction. The indexer is chain driven and has an overload relief sensor that will stop the machine if there is too much load on the chain. The insert disk carries the cases through each of the stations in order. The disk is protected by a spring and ball clutch system to avoid damage if a jam occurs.
With reference to the attached drawings, the novel features of the machine are described more fully below.
The machine 100 is comprised of an upper ram 101 and lower ram 102 connected by (8) vertical support rods 103. The vertical support rods 103 are guided by bushed ball cages inside of (8) support towers. A motor 110 drives a center mounted crankshaft 111 with a chain, sprockets and clutch that drives the lower ram 102 up and down.
The upper ram 101 has special tool holders that act on the cartridges throughout the machine's 100 cycle to load a case 104. A bell mouth tool 105 is used to confirm the case 104 mouth is round and to the proper size. A debris check 106 is comprised of a pin and sensor to detect foreign contaminates in an empty case 104 are identified. Cases 104, which pass the debris check 106 proceed around the machine counterclockwise for powder loading, bullet loading and crimping of the cases 104 to bullets 107.
The same motor 110 that drives the rams also turns an indexer. This 24-position indexer rotates an insert disk 210 in a counterclockwise direction through the various machine processes. The indexer is chain driven and has an overload relief sensor that will stop the machine if there is too much load on the chain. The insert disk 210 carries the cases through each of the stations in order. The insert disk 210 is protected by a spring and ball clutch system to avoid damage if a jam occurs.
Further detail of the machine's 100 process stations is set forth below. The machine's 100 Case Load Station 200 is comprised of a case collator 201, case feed assembly 202 with case sensors 203, and an insert disk 210 which is further comprised of removeable case inserts 204, which are sized specifically to accept cases of specified ammunition and effectuate crimping of the cases 104 to the bullets 107. Cases 104 are placed into the case inserts 204 of the insert disk 210 and the counterclockwise rotation of insert disk 210 rotates the cases 104 through the subsequent stations of the machine 100.
Once inserted, cases 104 are rotated to the Powder Load Station 300. The Powder Load Station 300 is comprised of a powder hopper 301, powder slides 302, powder delivery tubes 303, a powder shuttle located above the machine 100, a physical powder sensor 305 and a laser powder measuring check 306. The physical powder sensor 305 and laser powder measuring check 306 are programmed to specific powder volumes per the ammunition specs being reloaded to ensure the proper amount of powder is being loaded into the cases 104.
Once powder is loaded, cases 104 are rotated to a Bullet Load Station 400. The Bullet Load Station 400 is comprised of a bullet collator 401, bullet feed assembly 402, bullet latch, and bullet punch integral with the bullet feed assembly 402 and activated by the upper ram 101. The Bullet Load Station 400 seats the bullets 107 in the cases 104.
Once the bullets 107 are seated in the cases 104 the loaded cases move to the Case Bullet Crimp Station 500. The Case Bullet Crimp Station 500 is comprised of the upper ram 101 driven bushing crimp tool 501, which pushes the bullets 104 loaded into said cases 104 down into said case inserts 204 to effectuate crimping of the case 104 to the bullet 107.
Once the case 104 is crimped to the bullet 107 the loaded cartridge goes to the Process Control Station 600. The Process Control Station 600 is comprised of an OAL laser height check 601 (
Because the OAL of a cartridge is a fixed SAAMI or C.I.P. dimension, the Process Control Station 600 will measure the OAL at the OAL laser height check 601 which is further comprised of a first laser micrometer station 610 (see
By keeping the volume of powder and the bullet seating depth consistent in a single production run of cartridges it will provide a much more accurate and consistent cartridge for competition and long-range shooters. By locating to a fixed ogive location and keeping the overall length within the industry standard, the cartridges are more consistent and can be sold for a premium as “match grade” ammunition.
After the Process Control Station 600, the assembled cartridge 603 enters the Reject Station 700. At the Reject Station 700 an assembled cartridge is removed from the insert disk 210 prior to an Eject Station 800 by a pneumatic cylinder if the cartridge 603 OAL length and ogive length measurements are not within the specified tolerances set at the Process Control Station 600.
Any assembled cartridges 603, which pass the Reject Station 700 are moved to the Eject Station 800 where a pneumatically activated pusher removes the cartridge assembly from the insert disk 210 case insert 204. The completed cartridges 603 drop onto an internal mounted conveyor 801, which conveys the completed cartridges to a collection receptacle. The empty case insert 204 is now ready to receive the next empty case for loading.
It is understood that the foregoing examples are merely illustrative of the present invention. Certain modifications ofthe articles and/or methods may be made and still achieve the objectives of the invention. Such modifications are contemplated as within the scope of the claimed invention.
This is a U.S. Nonprovisional Application, which claims priority from U.S. Provisional Application NO. 63/145339 filed Feb. 3, 2021, the disclosure of which is hereby incorporated by reference in its entirety to provide continuity of disclosure.
Number | Date | Country | |
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63145339 | Feb 2021 | US |