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Pump action

A pump action, also known as slide action or trombone action, is a manual firearm mechanism commonly used in shotguns and rifles, where the operator cycles a sliding fore-end (or "pump") beneath the barrel to eject a spent cartridge, load a new one from an under-barrel tubular magazine, and cock the firing mechanism, allowing rapid follow-up shots without removing the eye from the target.^[1]^[2] This design, which originated in the late 19th century, provides reliable operation across various calibers and gauges, making it popular for hunting, sport shooting, home defense, and military applications due to its simplicity, durability, and ability to handle a wide range of ammunition types.^[3]^[4] The pump action mechanism traces its practical development to 1882, when American inventor Christopher Miner Spencer patented the first commercially viable pump-action shotgun, building on earlier concepts like Alexander Bain's 1854 slide-action patent, though Spencer's design marked the beginning of widespread adoption.^[4]^[5] Key early models include John Browning's Winchester Model 1893 (introduced in 1893) and its improved successor, the Winchester Model 1897 (1897).^[6] In the 20th century, pump actions evolved for both shotguns and rifles, with designs like the Remington Model 14 rifle (1913).^[7] Among the most notable modern examples are the Remington Model 870, introduced in 1950 and designed by L. Ray Crittendon, which has achieved over 11 million units produced as of 2023, making it one of the best-selling shotguns in history and a staple for law enforcement and civilians alike.^[8]^[9] The Mossberg 500 series, debuting in 1961, rivals the 870 in popularity with its modular design and affordability, often chambered in 12-gauge for versatile field and tactical roles, while the Winchester Model 1300 offers high-speed cycling for competitive shooting.^[10]^[11]^[12] Pump actions excel in reliability under adverse conditions, such as dirt or wet environments, and their manual operation reduces malfunctions compared to semi-automatics, though they require deliberate user input to cycle efficiently.^[13] Today, these firearms remain influential, with ongoing innovations in materials like synthetic stocks and extended magazine capacities enhancing their adaptability for contemporary uses.^[14]

Fundamentals

Definition and Principles

A pump action is a type of manual firearm action operated by the shooter moving a sliding fore-end, commonly referred to as the pump or handguard, along the underside of the barrel. This linear motion cycles the bolt to extract and eject a spent cartridge or shotshell while chambering a fresh round from the magazine, allowing for repeated firing without needing to manually load each round individually. Also known as slide action or trombone action, it emphasizes the back-and-forth sliding mechanism that distinguishes it from other manual systems.^[1]^[15] The core principles of pump action center on manual energy input provided directly by the user, who generates the force required for cycling through deliberate reciprocating motion of the fore-end. This linear movement drives connected components to unlock, retract, and advance the bolt, ensuring reliable operation without dependence on the firearm's recoil or propellant gases for automation. Pump-action mechanisms are versatile in magazine design, commonly employing under-barrel tubular magazines for compact storage of multiple rounds in shotguns, though some rifle configurations accommodate detachable box magazines for quicker reloading.^[1]^[15]^[3] Unlike semi-automatic actions, which harness recoil or gas energy to automate bolt cycling for rapid follow-up shots with only trigger pulls required from the user, pump actions prioritize manual control to enhance reliability across diverse ammunition types while avoiding potential malfunctions from automated systems. This user-driven approach demands practice to avoid errors like short-stroking but offers simplicity and adaptability.^[15] Pump action developed in the late 19th century as an evolutionary bridge between traditional manual repeaters, such as lever-actions, and self-loading firearms, combining the reliability of human-operated cycling with the capacity for sustained fire akin to early automatics.^[4]

Mechanical Layout

The mechanical layout of a pump-action firearm centers on a linear reciprocating action housed within the receiver, with the primary user interface being the sliding fore-end that operates parallel to the barrel. In the archetypal configuration exemplified by the Remington Model 870 shotgun, the fore-end connects to the bolt carrier via dual action bars, which extend rearward along grooves in the receiver and alongside the tubular magazine positioned beneath the barrel. This arrangement ensures smooth, guided movement during manual cycling, with the action bars preventing twisting and maintaining alignment of the bolt as it travels forward to chamber a round or rearward to eject a spent casing.^[16] Key components include the sliding fore-end, often contoured for ergonomic grip and attached to the action bars; the action bars themselves, which are rigid linkages (typically two for stability) that transmit the fore-end's motion to the bolt carrier; the bolt carrier assembly, containing the firing pin, extractor, and ejector; locking lugs on the bolt head that engage the barrel extension; and the ejection port, a cutout on the right side of the receiver that facilitates spent shell expulsion. The trigger group integrates into the lower receiver, interfacing with the hammer and sear mechanisms to control firing while the action remains locked. The tubular magazine, mounted coaxially under the barrel, feeds rounds upward into the chamber via a spring-loaded follower, with its capacity typically ranging from four to eight shells depending on the model.^[16]^[3] This linear slide path aligns all moving parts in a compact, inline fashion to minimize bulk and enhance balance, with the receiver serving as the central chassis that secures the barrel via a threaded extension and houses the entire action. The fore-end's travel distance—usually about 3 to 4 inches—corresponds to the bolt's full reciprocation, ensuring reliable interaction with the magazine cutoff and shell lifter integrated near the chamber area.^[16]^[3] Variations in layout arise between centerfire and rimfire calibers, primarily due to differences in chamber pressure requirements. In centerfire designs like the Remington Model 870, the bolt employs non-rotating locking lugs secured by a sliding locking block that rises into engagement with the barrel extension upon forward action closure, providing robust headspace control for moderate-pressure shotgun loads. Higher-pressure centerfire pump rifles, such as the Remington Model 760, incorporate bolt rotation via a carrier cam to engage multiple interrupted lugs into the barrel extension, enhancing lockup strength for rifle cartridges. Rimfire configurations, as in the Henry Pump Action .22 rifle, utilize simpler mechanisms like a spring-loaded locking bar that rises into a notch on the bolt underside, sufficient for low-pressure .22 Long Rifle rounds without needing rotational lockup.^[16]^[17]^[18]

Operation

Cycling Mechanism

The cycling mechanism of a pump-action firearm operates through manual reciprocation of the fore-end, which drives the bolt via connected action bars to eject the spent cartridge and chamber a new one. During the rearward stroke, the shooter pulls the fore-end toward the receiver, causing the action bars—typically two rigid rods linking the fore-end to the bolt—to retract the bolt rearward. This motion extracts the spent cartridge case from the chamber using the bolt's extractor, which grips the case rim, and subsequently ejects it through the side port via the ejector as the bolt reaches its full rearward travel; simultaneously, the hammer or striker is cocked for the next shot.^[19]^[20]^[21] The action bars translate the fore-end's linear motion to the bolt while sliding within receiver guides to minimize friction and prevent binding, ensuring reliable operation even under rapid cycling. As the bolt retracts, it compresses the action spring, storing energy for the forward stroke, and the carrier begins to lift the next cartridge from the magazine tube. A shell stop, engaged by the action bars during retraction, holds the subsequent shell in the magazine to prevent premature feeding until the bolt has fully cleared the chamber.^[19]^[3]^[20] On the forward stroke, the shooter pushes the fore-end forward, releasing the stored energy in the action spring to propel the bolt ahead via the action bars. The bolt face contacts the lifted cartridge, stripping it from the magazine tube and feeding it into the chamber; the shell stop disengages to allow this transfer, timed precisely so the round aligns with the chamber before the bolt locks into battery. Once fully forward, the bolt rotates or locks via locking lugs into the barrel extension, securing the round for firing and completing the cycle. This manual process typically allows for quick follow-up shots, with the entire sequence relying on the shooter's input for timing and force.^[19]^[3]^[21]

Safety and Control Features

Pump-action firearms employ primary safety mechanisms, such as hammer blocks and firing pin blocks, to prevent accidental discharge while the user manipulates the fore-end during cycling. These devices ensure that the hammer cannot contact the firing pin unless the action is fully closed and locked, mitigating risks from drops or impacts that could otherwise drive the firing pin forward into a chambered round. For instance, inertia firing pins, common in designs like the Remington 870, remain retracted by spring tension until struck by the hammer, providing a passive safeguard against unintended ignition during the open-breech phase of pumping.^[22]^[23] Trigger safeties in pump actions are often adapted for ergonomic reliability, with cross-bolt safeties being a prevalent feature that directly blocks the trigger or hammer movement via a transverse button, typically positioned forward of the trigger guard for intuitive access during handling. These safeties engage to immobilize the firing mechanism without affecting the manual cycling of the action, allowing safe unloading or inspection.^[24] Control features specific to pump-action operation include slide releases and magazine cut-offs, which manage interruptions in the cycling process for safer handling. The slide release, usually a button on the receiver or trigger guard, disengages the action lock after firing, enabling the fore-end to be pumped without pulling the trigger and thus avoiding premature chambering. Magazine cut-offs, found on models like certain Winchester pumps, allow the user to isolate the chambered round from the tubular magazine, facilitating quick swaps of ammunition types or safe unloading without depleting the reserve load. During the rearward stroke of the cycling mechanism, these controls integrate with safeties to prevent unintended feeding or discharge.^[25]^[26] Over time, safety features in pump-action designs have evolved to counter jamming risks inherent to manual sliding, with refinements distinguishing inertia-based firing pin systems from direct-pull bolt mechanisms for smoother operation. Early 20th-century models, such as the Winchester Model 1897, lacked comprehensive blocks and were prone to inertia-induced failures if not fully cycled, but post-1950s innovations introduced robust hammer blocks and improved tolerances to reduce binding from debris or limp-wristing. These advancements, seen in enduring platforms like the Mossberg 500 series, prioritize minimal moving parts to minimize jams while incorporating user-actuated controls that address unique manual cycling vulnerabilities.^[27]^[23]

Advantages and Disadvantages

Advantages

Pump-action mechanisms offer exceptional reliability in adverse conditions, such as exposure to mud, sand, or grime, due to their manual operation that allows users to override potential malfunctions without reliance on automated systems.^[28] This design's inherent simplicity, with fewer moving parts than semi-automatic alternatives, minimizes the risk of failure even under heavy abuse in the field.^[29] A key advantage is the versatility with various ammunition types, including low-pressure loads, as the mechanism does not depend on gas or recoil impulses to cycle, enabling reliable function across a wide range of shotshells from birdshot to slugs.^[29] This flexibility supports diverse applications without the compatibility issues common in gas-operated systems.^[30] Pump-action designs are cost-effective and simple to manufacture and maintain, owing to their straightforward mechanical layout that requires less precision in production and easier field stripping for cleaning.^[13] Lower production costs make them accessible, while reduced maintenance needs compared to more complex actions contribute to long-term affordability.^[31] They provide a balance of speed and control for follow-up shots, surpassing bolt-actions by requiring only a single backward-and-forward motion of the forend rather than multiple manipulations that disrupt aiming.^[29] This allows for rapid cycling while maintaining a stable firing grip, offering quicker subsequent shots in dynamic scenarios.^[28]

Disadvantages

Pump-action mechanisms require the shooter to manually cycle the action after each shot, resulting in a slower rate of fire compared to semi-automatic firearms, which automatically eject and load the next round using the energy from the fired cartridge. This manual input demands consistent physical effort, potentially limiting sustained rapid fire in high-intensity scenarios. For instance, while expert users can achieve firing rates approaching those of semi-automatics with practice, the inherent design necessitates deliberate operation, making it less suitable for situations requiring maximum speed.^[32] The ergonomic demands of pump-actions introduce risks such as short-stroking, where the user fails to fully retract the fore-end, preventing proper ejection of the spent shell or chambering of a new one. This operator-induced malfunction is exacerbated under stress or fatigue, as the motion requires precise, forceful movement of the off-hand, which can disrupt aim and lead to user error. Prolonged use further contributes to shooter fatigue due to the repetitive physical exertion needed to cycle the action, particularly in extended engagements or training sessions.^[33]^[34]^[35] The sliding fore-end movement, essential for operation, can disrupt the shooter's aim and sight picture more significantly than in fixed-stock designs, complicating precise handling in various shooting positions such as prone or rested.^[36] Additionally, incomplete cycling increases the potential for jams, especially in tube-magazine configurations common to pump-actions, where partial strokes may fail to fully strip and feed the next shell from the magazine tube, leading to feeding or ejection failures. This vulnerability is particularly pronounced with varied ammunition types or under rapid manipulation, underscoring the importance of full, deliberate strokes to maintain function.^[33]^[37] Pump-action firearms often feature tube magazines with limited capacity (typically 4-8 rounds), resulting in slower reloads compared to designs with detachable magazines. Additionally, they transmit higher recoil to the shooter since there is no gas system to absorb energy, which can affect control during rapid fire.^[38]^[11]

Historical Development

Early Origins

The development of pump-action mechanisms in firearms during the 19th century drew from earlier repeating designs, particularly slide-action rifles that emerged in the wake of lever-action innovations like the Henry rifle of 1860. These slide-actions, such as the Colt Lightning rifle introduced in 1884, utilized a fore-end slide to cycle the action, providing a conceptual foundation for adapting similar principles to shotguns by allowing rapid reloading without complex internal mechanisms.^[39] The first notable patent for a true pump-action shotgun was granted in 1882 to American inventors Christopher M. Spencer and Sylvester H. Roper (US Patent 255,894), marking a shift from hybrid lever designs to a dedicated sliding fore-end system for repeating shotguns. Their Spencer Repeating Shotgun, produced in limited numbers from 1882 to around 1889, featured a tubular magazine under the barrel and was chambered for black-powder shells, representing the initial commercial attempt at a reliable pump-action scattergun. However, early production faced challenges, including inconsistent manufacturing quality and limited market adoption, with approximately 3,200 units produced before financial difficulties halted operations.^[40]^[41] A pivotal advancement came with the Winchester Model 1893, designed by John M. Browning and introduced in 1893 as the first successful centerfire pump-action shotgun. This model improved on prior designs with a hammerless action and capacity for five or six 2⅝-inch shells, but it inherited weaknesses from early pump systems, notably a rudimentary locking mechanism that relied on a simple slide-handle protrusion to secure the bolt. These weak locking systems proved inadequate for emerging smokeless powders, leading to action failures and safety issues when higher-pressure loads were used, prompting Winchester to recall and destroy many units returned by owners. The Model 1893's introduction nonetheless established pump-actions as viable for sporting use, paving the way for refinements in subsequent designs.^[42]^[43]

Modern Evolution

The early 20th century marked significant milestones in pump-action evolution, with the Winchester Model 12, introduced in 1912, refining the mechanism through its internal hammer design and seamless slide operation, which improved reliability and reduced snagging compared to earlier exposed-hammer models.^[44] John Browning's contributions further advanced the field with his patent for the Remington Model 17 in 1915, produced starting in 1921, featuring a novel bottom-ejection system that enhanced safety and ease of use in field conditions.^[45]^[46] These designs built briefly on foundational patents from the late 19th century, emphasizing smoother cycling and user-friendly ergonomics. Post-World War II manufacturing shifts introduced stamped steel components, as seen in the Remington Model 870 launched in 1950, which utilized these materials to achieve lighter overall weight and greater production efficiency through interchangeable parts, reducing labor costs while maintaining durability.^[47] By the mid-20th century, the incorporation of polymers and synthetic materials for stocks and fore-ends further lightened designs and increased resistance to environmental factors, allowing pump actions to perform reliably in diverse conditions without the warping or added weight of traditional wood.^[48] In recent decades up to 2025, innovations have focused on modularity and adaptability, with fore-ends featuring integrated Picatinny or M-LOK rails to facilitate optics mounting and accessory attachment, as exemplified in updated models like the Mossberg 590 series with optic-ready receivers for enhanced tactical versatility.^[49] For rifle-caliber variants, improved multi-lug rotary bolt heads, such as those in the Remington 7600 series, have enabled handling of higher chamber pressures, supporting more powerful cartridges while preserving the pump-action's core simplicity.^[50] Although military adoption has declined in favor of semi-automatic rifles for broader combat roles, pump actions have seen increased popularity in civilian and law enforcement applications due to their unmatched reliability across ammunition types and minimal malfunction risk.^[51]

Applications

Shotguns

Pump-action mechanisms are particularly prevalent in shotguns owing to their compatibility with low-pressure shotshells, as the manual cycling does not depend on gas or recoil impulses that can be inconsistent with lighter loads.^[11] These designs typically incorporate an integral tubular magazine beneath the barrel, offering a standard capacity of 4 to 8 rounds depending on shell length and model configuration.^[52] Prominent examples include the Remington Model 870, introduced in 1950 and exceeding 11 million units produced, renowned for its robust construction and adaptability across gauges.^[9] The Mossberg 500 series, debuted in 1961 with over 12 million sold, exemplifies versatility for roles such as home defense through interchangeable barrels and ambidextrous controls.^[53]^[54] Shotgun-specific adaptations include extended pump strokes facilitated by dual action bars to ensure smooth, binding-free cycling for reliable extraction of rimmed shells, as seen in the Remington 870's design.^[9] The shell carrier, or lifter, pivots to elevate the next round from the magazine into alignment with the chamber, with reinforced springs in tactical variants enhancing dependability when handling varying shotshell lengths like 2¾-inch and 3-inch.^[9]^[55] These shotguns see widespread use in hunting for waterfowl and upland game, sport shooting disciplines like trap and skeet, and tactical scenarios where extended magazine tubes increase capacity for law enforcement or self-defense.^[56]^[57]^[11]

Rifles

Pump-action rifles represent a less prevalent adaptation of the mechanism compared to shotguns, primarily due to the demands of higher-velocity centerfire cartridges, yet they have found niche applications in big game hunting for their balance of rapid follow-up shots and manual operation.^[58] These rifles often incorporate detachable box magazines to enhance feeding reliability under field conditions, distinguishing them from the tubular magazines common in many shotguns.^[17] Prominent examples include the Remington Model 760 Gamemaster, introduced in 1952 and chambered in calibers such as the .30-06 Springfield, which served as a successor to earlier pump designs and emphasized lightweight construction for hunters.^[59] Another key model is the Winchester Model 61, manufactured from 1932 to 1963 in .22 rimfire, noted for its hammerless design and takedown feature suited to small game pursuits.^[60] Adapting the pump action for rifles presents significant engineering hurdles, including the requirement for reinforced, rotating bolts to securely lock the action against chamber pressures exceeding 60,000 psi in high-power calibers like .30-06, as well as elongated receiver actions to accommodate longer cartridges and mitigate recoil forces.^[17]^[61] These modifications ensure safe operation while preserving the mechanism's inherent reliability. In practical use, pump-action rifles are favored for big game hunting in jurisdictions imposing restrictions on semi-automatic firearms, such as Pennsylvania's prohibition on semi-autos for big game, where they provide consistent performance without regulatory hurdles.^[62] Historical evaluations also included military trials of pump-action rifle prototypes during World War II, though none achieved widespread adoption due to preferences for bolt-actions and emerging semi-automatics.^[63]

Airguns and Grenade Launchers

Pump-action mechanisms in airguns rely on manual operation of a fore-end or lever, typically requiring multiple strokes—often up to 10—to compress air within an internal reservoir, which then propels .177-caliber pellets or BBs downrange. This pneumatic system allows users to adjust power output based on the number of pumps, with velocities ranging from 350 fps at minimal effort to over 700 fps at maximum compression.^[64]^[65] A representative example is the Crosman 760 Pumpmaster, introduced in 1966 and still in production, which has sold over 16 million units and exemplifies the design's enduring appeal for variable power control without batteries or gas cartridges.^[66]^[67] Similarly, the Daisy Powerline 880 multi-pump rifle achieves up to 800 fps with 10 pumps, offering dual compatibility for BBs and pellets in a lightweight, affordable package.^[68] These airguns feature shorter pump strokes compared to traditional firearms to facilitate repeated compressions, enabling gradual pressure buildup suitable for pneumatic propulsion rather than single-cycle loading.^[69] In grenade launchers, the pump-action principle adapts to handle larger, low-velocity 40mm projectiles through a sliding barrel that opens the breech for loading and ejects spent casings upon firing. The iconic M203, developed by AAI Corporation between 1967 and 1968, entered U.S. military service in 1969 as an under-barrel attachment for rifles like the M16, providing infantry with enhanced area suppression capabilities in a single-shot, breech-loaded configuration..pdf) Its aluminum receiver is reinforced to withstand the recoil from high-explosive or impact rounds, with the pump stroke limited to a single, compact forward-and-back motion for rapid chambering under combat conditions.^[70] This design prioritizes reliability and quick reloading over multi-shot capacity, distinguishing it from airgun variants. Pump-action airguns find niche applications in recreational shooting, plinking, and introductory training due to their low cost, ease of maintenance, and adjustable power for safe, non-lethal use.^[65] In contrast, grenade launchers like the M203 support military roles in area denial, suppression, and non-lethal engagements, firing specialized rounds such as the M1006 sponge projectile for crowd control or the M651 CS gas for riot suppression without permanent injury.^[71]^[72] These adaptations highlight the versatility of pump actions in handling diverse projectile types, from compressed-air-driven pellets to explosive or incapacitating ordnance.

Variants

Trigger Disconnectors

In pump-action shotguns, the trigger disconnector serves as a critical safety component that severs the connection between the trigger and the hammer or sear during the action's cycling, preventing the firearm from discharging if the trigger remains depressed while pumping the fore-end. This mechanism ensures the gun cannot fire mid-cycle, when the bolt is rearward or unlocked, thereby reducing the risk of unintended shots during reloading or clearing malfunctions.^[73] The disconnector operates through a mechanical linkage, typically a pivoting or sliding component integrated into the trigger group, which disengages under the motion of the reciprocating bolt carrier during the pump stroke and re-engages solely when the bolt returns fully forward and locked. This interruption requires the shooter to release and re-pull the trigger for each subsequent shot, promoting deliberate control over firing.^[73] Historically, early 20th-century pump-action shotguns, such as the Winchester Model 1897 introduced in 1897 and the Model 12 from 1912, omitted trigger disconnectors to enable rapid "slam-firing"—holding the trigger while repeatedly pumping the action for suppressive fire in military contexts. This design choice prioritized speed but increased accidental discharge risks, leading to the widespread adoption of disconnectors in post-World War II models for enhanced civilian and law enforcement safety.^[44] Prevalent in contemporary designs like the Remington 870, introduced in 1950, the trigger disconnector reflects a shift toward safer operation in sporting and defensive shotguns, contrasting with rifle variants where such features are less common due to differing action dynamics and firing requirements.^[9]

Hybrid Designs

Hybrid designs in pump-action firearms integrate elements from other operating mechanisms, such as semi-automatic systems, to enhance versatility while retaining the manual reliability of traditional pumps. These hybrids allow users to switch between pump and semi-automatic modes, providing faster follow-up shots in ideal conditions via gas or inertia operation, while falling back to manual pumping for reliability with varied ammunition or in adverse situations.^[74] A prominent example is the Benelli M3, introduced in the 1990s and still in production, which employs an inertia-driven semi-automatic system that can be manually converted to pump action by rotating a shell-locking ring on the fore-end to disengage the auto-loading mechanism. This design ensures operation with light loads in pump mode, avoiding the cycling issues common in pure semi-autos, and offers semi-automatic speed for heavier loads, making it favored for tactical applications. The M3's dual-mode capability combines the reduced recoil of semi-autos with the simplicity of pumps, though it introduces added mechanical complexity that requires more maintenance than standard pumps.^[75]^[74] Modern affordable variants, such as the SDS Imports Duo-Sys Force introduced around 2022, replicate the Benelli M3's hybrid approach using an inertia recoil system for semi-automatic function and a manual pump override. Chambered in 12 gauge with a 19-inch barrel and 5+1 capacity, it features adjustable ghost-ring sights and a pistol grip for tactical use, allowing seamless mode switching to handle diverse loads without jamming. This model balances cost-effectiveness with performance, appealing to budget-conscious users seeking hybrid reliability, but its imported construction can lead to fit-and-finish inconsistencies compared to premium originals.^[76] In rifle applications, 2020s developments include AR-style pump-action uppers designed as legal alternatives to semi-automatic rifles in restrictive jurisdictions like California. The Citadel Taipan, a .223 Remington pump-action rifle with AR ergonomics, uses a manual pump mechanism on an AR lower to mimic semi-auto handling while complying with bans on self-loading actions, offering a 10-round capacity and modular accessories for customization. As of 2025, it is also available in .300 Blackout. Similarly, the Matrix Arms Cage handguard enables dual-mode operation on standard AR-15 platforms, allowing pump action when gas operation is disabled for compliance or reliability. These conversions provide the familiarity of AR platforms with pump simplicity, improving cycle speed over bolt-actions but at the expense of slower manual operation and increased weight from reinforced components.^[77]^[78]^[79] Post-2000 tactical hybrids often incorporate folding stocks for compactness alongside multi-mode actions, blending pump reliability with ergonomic enhancements for close-quarters maneuverability. Overall, these designs trade pure pump simplicity for operational flexibility, but they elevate manufacturing costs and potential failure points due to integrated systems.^[80]

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Jul 12, 2018 · Pump rifles are not popular because a pump action excels at quick shots rather than precise ones. Moving the forend to reload throws off the shooting position.Missing: speed | Show results with:speed
[36]
Short Shucking A Pump | Shotgun Report®
Apr 1, 2013 · Short shucking is almost always an operator error problem. You are not pulling the forend all the way back before you move forward.
[37]
Lightning Slide-Action Rifle - War History - WarHistory.org
Dec 13, 2024 · The Colt Lightning Rifle or Colt Lightning Carbine was a slide-action or pump-action rifle manufactured by Colt from 1884 to 1904 and was ...
[38]
The Spencer Pump: America's First Pump-Action Shotgun
Jan 20, 2022 · Spencer was granted a patent in 1882 for his repeater, which he manufactured in Windsor, Connecticut. It's an interesting gun that one prominent ...
[39]
Spencer 1882 - Wikipedia
The design is credited as the first commercially successful pump-action shotgun to be the released to the markets, preceding John Browning's Winchester Model ...Development and production... · Features · Reputation and legacy
[40]
https://www.outdoorlife.com/guns/christopher-spencer-pump-shotgun/
[41]
Winchester Model 1893 - C&Rsenal
Aug 24, 2020 · The 1893 was a slide action, more compact than the Spencer, but had a weak action, required firing pin depression to unlock, and was not as ...Missing: system | Show results with:system
[42]
The Winchester Model 12: A Look Back - American Rifleman
Jan 12, 2017 · Winchester eventually ceded to Browning the notion that a pump-action shotgun would be a better, more reliable repeater. In 1893 the company ...Missing: refinements | Show results with:refinements
[43]
Remington Model 17
John M. Browning began developmental work on a new pump-action shotgun in 1913, and had filed for patent protection in late. November of that year.
[44]
The Remington 870: A Look Back | An Official Journal Of The NRA
Feb 8, 2016 · Chief among the new innovations was the use of stamped steel parts and true interchangeability allowing the gun to be assembled with much less ...Missing: polymers | Show results with:polymers
[45]
https://remingtonsociety.org/model_17/
[46]
6 New Shotguns For 2025 | An Official Journal Of The NRA
Jan 24, 2025 · New For 2025: Mossberg 590R pump-action shotgun rotary safety tactical theme black finish. Mossberg 590R O.F. Mossberg & Sons shocked many of ...Missing: 2020-2025 modular
[47]
Pressure tolerances, pump vs. lever [Archive] - The Firing Line Forums
Sep 8, 2013 · The Rem 760/7600's bolt has rotating locking lugs which can contain more pressure than most (non-BLR) leverguns. The problem with that is that ...Lock stiffnessLap m700 bolt lugs?More results from thefiringline.com
[48]
Why your agency shouldn't shelve the shotgun - Police1
but doing so may cost lives. Discover why the shotgun still belongs in the patrol arsenal.Missing: military | Show results with:military
[49]
Buy Pump-Action Shotguns | Top Brands - Ammunition Depot
Versatile Ammunition Compatibility Pump-action shotguns are incredibly versatile in handling various types of shotgun ammunition. From ...
[50]
The Story of The Remington 870 | Field & Stream
Oct 17, 2025 · The new 870 debuted in 1950, replacing The Model 31 (the 31 would come back ten years later as the inspiration for the Mossberg 500, but that's ...
[51]
500® - Shotguns - Firearms O.F. Mossberg & Sons
no wonder that over 12 million have been sold. 500® ATI® TACTICAL.500 ATI · 500 Turkey · 500 Retrograde · 500 Slugster
[52]
7 reasons the Mossberg 500 is the most versatile shotgun - Guns.com
Mar 14, 2017 · The Mossberg 500 Field Combo is versatile due to its choked barrel, easy barrel swapping, ambidextrous controls, and capabilities for both ...
[53]
How to Use a Pump-Action Shotgun - Lucky Gunner Lounge
Apr 2, 2020 · We're going to start off with some safety guidelines, then a quick overview of shotgun ammo, loading and unloading the shotgun, and finally firing the shotgun.
[54]
https://www.guns.com/news/review/7-reasons-the-mossberg-500-field-combo-is-the-most-versatile-shotgun-you-can-own
[55]
Tactical Applications of Pump-Action Shotguns - Fusion Firearms
May 14, 2023 · Pump-action shotguns have long been revered for their reliability, versatility, and formidable firepower. These firearms have found ...
[56]
Remington 760/7600 Pump-Action Rifle Review - Field & Stream
Jan 12, 2023 · Their modern slide-actions began in 1952 with the Model 760, which was a major success. It was fairly lightweight, chambered for a wide variety ...Missing: 61 | Show results with:61
[57]
Remington's Pump Rifles: Models 760 & 7600 - American Rifleman
May 8, 2022 · Remington's original Model 762 designation was changed to Model 760 on May 22, 1950, to avoid confusion with the 7.62 mm Russian cartridge. His ...Missing: 61 | Show results with:61<|control11|><|separator|>
[58]
Pump-Action Perfection: Winchester's Model 61 Rifle - Shooting Times
The Winchester Model 61 was a popular, hammerless, pump-action .22 rifle made from 1932-1963. It has a streamlined receiver and a takedown design.Missing: 760 | Show results with:760
[59]
[PDF] VELOCITY AND PRESSURE DATA - SAAMI
This standard provides pressure, velocity, and dimensional characteristics for centerfire rifle ammunition, including procedures for determining these criteria.
[60]
Senate Co-Sponsorship Memo 47180 Information
Aug 4, 2025 · Currently, the Pennsylvania Game Commission authorizes the use of semi-automatic rifles for small game, but prohibits their use for big game ...Missing: restricted | Show results with:restricted
[61]
THE B.S.A. REPEATING MODEL RIFLES of slide action - Rifleman.org
The BSA slide action rifle was the British equivalent of the Winchester, Remington and Fabrique Nationale - (FN) Browning pump-action repeating rifles.
[62]
760 Pumpmaster | Variable Pump Pellet Gun - Crosman
We packed a range of features into the 760 Pumpmaster. With its variable pump powerplant, you control its velocity. Shoot at speeds between 350 fps to 700 fps, ...
[63]
Pump Air Rifles - Airgun Depot
Pump air rifles require pumping the air chamber before firing. Single pump rifles need one pump, while multi-pump rifles need 8-12, ...
[64]
Crosman 760 Pumpmaster Classic: Part 1 | Blog | Pyramyd AIR
Dec 4, 2019 · Though not as old as the 1938 Red Ryder, Crosman's 760 started production in 1966 and has continued in it numerous variations through the ...
[65]
Fifty-Two Years Of The Iconic Crosman 760. How Do They Do It?
Nov 14, 2018 · 1. The original Crosman 760 sold for $27.95 in 1966. At the official US rate of inflation, that means it should cost $217.77 today. It actually ...
[66]
Daisy Powerline 880 Multi-Pump Pneumatic
The Daisy Powerline 880 is the standard for all multi-pump pneumatic air rifles. Shoots BBs or .177 caliber pellets at 800 feet per second.
[67]
Let's build a multi-pump! | Blog - Pyramyd AIR
Jul 22, 2016 · A multi-pump airgun is desired to be lightweight, slim, and quiet, with a single or very few shots, and not a repeater. It should be quiet.
[68]
M203/M203A1/M203A2 Grenade Launcher - PEO Soldier - Army.mil
The M203A2 Grenade Launcher is a breech-loading, pump-action, single-shot, manually operated weapon that enables Soldiers and small units to engage targets.
[69]
Cartridge, 40mm Non-Lethal, M1006 - Bulletpicker
40mm, Non-Lethal, M1006 is used to incapacitate personnel without penetrating the person's body. It is used for riot control, policing and peace keeping ...
[70]
Taking on non-lethal ammo training | Article | The United States Army
In this training, the Soldiers familiarized themselves with firing the rounds on the M500 shotgun and M203 grenade launcher. "I have used non-lethal weapons ...Missing: less | Show results with:less<|control11|><|separator|>
[71]
Semi-Auto and Pump-Action Long Gun Triggers | NRA Family
Mar 28, 2017 · An important part of the fire-control mechanism of any semi-automatic or pump-action firearm is the disconnector. After a shot has been ...
[72]
Underappreciated: Benelli's Convertible M3 Shotgun | An Official ...
Nov 8, 2021 · The M3's design is pure, simple engineering genius; it gives the user all the advantages of a semi-auto with the reliability of a pump—with a ...
[73]
The Benelli M3 Super 90 Is a Pump and Semi-Auto Shotgun
Aug 30, 2021 · Benelli's M3 is one of the greatest 12-gauge tactical shotgun ever built. It gives you all the advantages of a semi-auto with the assured reliability of a pump.
[74]
Sds Duo-sys 12ga - For Sale - New - Guns.com
The Duo-Sys Force shotgun is a semi-auto/pump hybrid. It features an inertia recoil system in semi-auto mode. The shotgun uses an adjustable ghost ring sight.
[75]
Best California Compliant AR-15 Rifles - Guns.com
Sep 12, 2024 · Looking for something a little different than your standard California-compliant AR-15? Take a look at the Citadel Taipan! It's a .223 pump- ...Diamondback Db15 *ca... · Sig Sauer M400 · Smith & Wesson M&p15 Sport Ii
[76]
[SHOT 2023] Matrix Arms "Cage" AR-15 Dual Pump Handguard
Jan 17, 2023 · The Cage handguard allows the rifle to function in either semiautomatic or pump action modes. With a gas block and gas tube, the rifle functions normally.
[77]
P3000 Freedom Series Supreme Pump Shotgun - Stoeger Firearms
The P3000 has ghost-ring sights, a 6-position adjustable stock with cheek rest, a 7-shell magazine, and a rubberized pistol grip. The stock is side-folding and ...<|control11|><|separator|>