Bullpup layout
Rifles made according to the Bull-Pup layout are distinguished by the non-standard location of the trigger and magazine: the magazine (and, most often, the cocking and bullet feed mechanism) is not in front of the trigger, but behind it, usually in the butt, and the trigger is therefore moved forward, almost to the middle of the weapon.
In the case of pneumatics, the key advantage of such a layout is a comfortable balance. The main handle in the bullpups is located approximately in the area of the center of gravity, due to which the rifle becomes more maneuverable, the transfer of fire vertically and horizontally is easier, and the barrel does not tend to tilt forward so much, and it is easier to support it with the second hand. In addition, due to such a design, it is possible to achieve a large barrel length without significantly increasing the dimensions of the entire rifle, which in some cases is an advantage (for more details, see "Barrel length"). On the other hand, moving the handle forward significantly complicates the weapon, increases its cost and can make reloading difficult. In addition, not all bullpups are convenient for left-handers - on the right side there may be various elements (a protruding magazine, a bolt handle), complicating the insertion onto the left shoulder, and special "left-handed" versions of such models are extremely rare.
It is also worth considering that due to the specifics of the layout, such rifles are designed main...ly for the use of optical/collimator sights and are almost never equipped with a classic front sight with a rear sight. True, for the bar provided in most bullpups, you can install removable front sights with rear sights, but this is hardly justified: the aiming line is too short, which makes it difficult to achieve accurate shooting.
It should be noted that in AEG drives (see "Type") the bull-pup format is used for other reasons - in models that copy the appearance of real weapons in this format.
Muzzle velocity
The muzzle velocity provided by the rifle - that is, the speed of the bullet as it exits the barrel.
All other things being equal, a higher bullet speed provides greater range and accuracy, and also simplifies aiming at long distances: the bullet flies along a smoother trajectory and requires fewer adjustments in height, and the influence of side winds decreases with increasing speed. On the other hand, this indicator directly affects the price of the rifle; and in some countries, legal restrictions on the ownership of pneumatic weapons are also related to the muzzle velocity of the bullet.
As for specific values, in the weakest modern rifles the initial speed does not exceed
150 m/s, and in the most powerful it can be
300 - 350 m/s or even
more(remember, the speed of sound is 330 m/s). In general, for recreational shooting at short distances, this parameter is not particularly important, and detailed recommendations for choosing pneumatics for more specific situations can be found in special sources. Let us only note that in AEG electric drives (see “Type”) the initial speed extremely rarely exceeds 150 m/s, but this is done solely for safety reasons: such “weapons” are intended for military-tactical games and initially involve shooting at people, and the high speed would be unsafe for players even with protective equipment.
It is also wor
...th considering that this indicator is not strictly defined. In any type of pneumatic it depends on the weight of the bullet (the lighter the faster); therefore, in the characteristics it is usually customary to indicate a certain average velocity for standard ammunition (usually weighing 0.5 g, in AEG - 0.2 g). In addition, in multi-compression rifles the actual speed of the bullet is determined by the degree of inflation, in gas-cylinder rifles it is determined by the ambient temperature, and in PCP models it is possible to achieve higher speeds than declared by replacing the air with a special gas (for example, helium). Nevertheless, this characteristic makes it possible to evaluate the capabilities of the rifle and compare it with other models, including those that differ in type.Muzzle energy
The muzzle energy provided by the rifle.
Muzzle energy is the kinetic energy of the bullet at the exit from the barrel. This energy, in turn, depends on two factors: the mass and the muzzle velocity of the bullet. Thus, this indicator directly describes the overall power of the rifle: higher muzzle energy allows you to effectively fire at longer distances and/or heavier ammunition. On the other hand, an increase in power accordingly affects the cost of weapons.
Note that muzzle energy can be grounds for legal restrictions on the purchase/use of pneumatics. So, in some countries in the post-Soviet space, the maximum value allowed for freely sold rifles is
7.5 J — a special permit will be required to purchase more powerful weapons. And most freely sold rifles in such regions have a power of the
order of 3 – 5 J. Such legal restrictions should be clarified separately. Lower rates are found mainly among “soft” pneumatics for airsoft (airsoft), using 6 mm plastic balls. For such models, a value of more than 2 J is already considered very solid, and in games such rifles are used with a minimum distance limit — for example, 15 m or 20 m (so that a shot from too close a distance does not injure the player).
It is also worth saying that the claimed characteristics of air rifles may, at first glance, not correspond to physical calculations. For example, for a model for the same 7.5 J
..., the initial speed of 250 m/s can be claimed in the characteristics; for a 4.5 mm bullet weighing 0.5 g (the average, most popular weight), this would correspond to an energy of as much as 15.6 J. However, there are no inconsistencies here: such characteristics mean that the muzzle velocity was measured for a lighter bullet (for example, 0 .2 g), which accelerates more strongly at the outlet of the barrel. Accordingly, with heavier ammunition, the speed will be lower; it can be determined using special formulas or online calculators.Cocking system
The type of cocking system provided in the design of the rifle.
The cocking system is responsible for setting the trigger mechanism to the combat cocking position (ready to fire), and in the case of a multi-shot design, also for feeding the next bullet into the chamber. Such systems are usually divided by the control method. The options encountered today include, in particular,
a barrel break, a lever (
side or
under-barrel),
a pump mechanism,
a bolt(including such varieties as
biathlon and
bolt), and
an automatic cocking system. Here are the main features of each of these systems:
— Barrel break. In rifles with this type of cocking, the barrel is fixed on a rotary axis, and folds down with each reload. In this case, not only the trigger mechanism is cocked, but the chamber also opens, allowing you to load the next bullet. This option is found exclusively in spring models - conventional and with a gas spring (see "Type"), it is with such rifles that the barrel break is most compatible. One of the key advantages of such systems is their low cost. In addition, "breaks" are very easy to use, do not require special skills and are suitable even for inexperienced shooters. So such pneumatics
...are extremely popular these days. At the same time, they are usually made single-shot (with very rare exceptions), constant folding and unfolding of the barrel can be quite tedious, and the barrel mount tends to loosen as it wears out, which reduces accuracy and power.
— Automatic cocking. Systems that do not require any additional actions from the shooter to cock the weapon; found in PCP pneumatics (see "Type"), gas-cylinder models, and AEGs (the latter are by definition made only with automatic cocking). In accordance with the name, the cocking in such weapons is carried out automatically before each shot - as a rule, with the next bullet being sent into the chamber (although there are also single-shot models where the bullet must be inserted manually). In any case, the automatic cocking is extremely simple and easy to use. In addition, even fully automatic weapons can be created on the basis of such mechanisms (see "Automatic mode"), although most rifles with this feature still operate in the single-fire format. The disadvantages of such systems include the complexity of the design and the rather high cost, as well as the fact that air/gas is additionally consumed for the automatic cocking. This reduces the number of shots per charge, and can also reduce the initial velocity compared to similar models with manual reloading (however, the latter is typical mainly for gas-cylinder rifles).
— Under-barrel lever. Systems that use a lever under the barrel, which must be pressed down with each cocking. Like the barrel break described above, this method is used primarily with spring-piston mechanisms and gas springs. It is more convenient and reliable, since the rifle barrel remains stationary at all times, and its design does not include fasteners that can become loose and fail. On the other hand, the lever design is noticeably more complex and expensive than the break-action design, and therefore is quite rare.
Note that the pumping lever in multi-compression models (see "Type") is usually not responsible for cocking the weapon, so a different cocking method is specified for such rifles (although there are exceptions). And in gas-cylinder models, there is a special type of under-barrel lever - the so-called Henry bracket, like in classic cowboy Winchesters (in fact, such pneumatics usually just copy this weapon).
— Side lever. Systems that use a lever on the side of the rifle — usually on the right. They are found mainly in models with a spring-piston mechanism or a gas spring. As in the case of an under-barrel lever, the main advantage of this method is the immobility of the barrel, which contributes to accuracy and reliability. On the other hand, such a cocking system is usually made for right-handers and can be inconvenient when shooting from the left shoulder; in addition, a side lever is somewhat more difficult to fit into a design than an under-barrel lever. Therefore, this option has not become very popular.
— Bolt. Systems using a classic type of bolt handle — sliding back and forth. This type of cocking does not provide air pumping, and therefore is used only in gas-cylinder rifles, PCP, and some multi-compression models (see "Type"). Pneumatics with bolts are mainly made multi-shot — this is the very idea of such systems (feeding the next bullet from the magazine); however, there are exceptions. In general, this is a fairly simple, practical and reliable method of cocking, but nowadays more specific types of bolts are increasingly used — biathlon and bolt; they are listed separately in our catalog and described below.
— Biathlon bolt. A type of bolt (see above), copied from small-caliber biathlon rifles. In such systems, as in traditional bolt mechanisms, the cocking handle is located on the side and moves back and forth. The key difference is that this handle is fixed on a rotating mount and does not slide along the guides when reloading, but swings on the axis. The biathlon bolt differs from the similar in design side lever (see above) in its location (at the rear of the rifle), shorter lever length, and the fact that it does not provide air inflation. Many shooters consider this bolt more convenient than the classic one — in particular, it has a very small operating force, due to which you can move the lever without taking your eyes off the sight. And in some models, you don’t even need to remove your “shooting” hand from the handle to cock the bolt — just hook the lever with your index finger, pull it towards you with a light movement of the wrist, and then, if necessary, move it forward with your thumb. The biathlon bolt is used almost exclusively in PCP rifles (see "Type").
— Bolt action. A type of bolt (see above) that not only moves back and forth when reloading, but also rotates around its axis — similar to how it happens in many classic firearms like the Mosin rifle or Remington 700. In fact, the resemblance to real weapons is one of the key advantages of such systems: they are valued by fans of traditional rifles, and can also be good training simulators for developing basic shooting skills from more serious "bolt" weapons. Most pneumatics with such cocking systems are PCP or gas-cylinder, only a few models use the multi-compression principle (see "Type").
— Pump mechanism. Systems in which a movable fore-end is used for cocking — as in pump-action shotguns, hence the name. The main convenience of such systems is that cocking can be done without removing your hands from the weapon. On the other hand, the constant movement of the fore-end throws off the sight and has a negative effect on accuracy, so this cocking method is not particularly popular in air rifles.Magazine capacity
And in models like AEG (see “Type”) and other airsoft weapons, the capacity is indicated for the standard magazine supplied in the kit; in this case, the magazine, as a rule, is removable, and if desired, it can be replaced with another one that differs in capacity. It is worth noting here that airsoft magazines are usually divided into “bunkers” (high capacity) and “mechanics” (low capacity). Mechanas typically hold up to 150 pellets, and some of these magazines have the same capacity as real weapons. This variety is appreciated by lovers of realism and experienced players. In “bunkers,” in turn, the capacity is already hundreds, and sometimes thousands, of bullets. They are convenient for beginners and undemanding airsoft players, but a serious drawback of such magazines is noise - the balls, hanging in the main compartment of the “bunker”, turn it into a rattle, making it difficult to move covertly.
Shots from one refueling
The number of shots that a PCP type rifle (see "Type") can fire on one full tank, and a gas-cylinder model — from one regular cartridge.
The larger this number, the less often you will have to be distracted by reloading a rifle or replacing a cartridge. On the other hand, an increase in the number of shots per charge has its downsides. So, in the case of PCP, for more shots on a charge, either a larger tank is needed (which affects weight, dimensions and cost), or a higher pressure in the tank (which can make refueling difficult and, again, affects cost). In LPG models using standard cartridges, more shots usually means less gas per shot and, as a result, less muzzle energy and muzzle velocity.
It is also worth noting that on the last shots of one refueling, the gas pressure and the effectiveness of the weapon are noticeably reduced; this effect is most pronounced on gas-ballooned rifles, least pronounced on PCP-models with air supply by a gearbox (see below). So the number of effective shots from one gas station will inevitably be less than the total number of shots.
Maximum pressure
The highest internal gas pressure that a PCP-type rifle cylinder can withstand without consequences (see "Type"). The maximum pressure in the cylinder does not fundamentally affect the characteristics of the rifle — models with the same value can differ significantly in muzzle energy, muzzle velocity, the number of shots at a gas station, etc. This parameter is indicated solely for safety purposes — in particular, so that the user does not “overdo it” when refueling: for example, in scuba cylinders used for this, the pressure can vary from 180 to 300 bar, while in most modern pneumatics the tanks are designed for 200 bar , and connecting more pressure is fraught with unpleasant consequences.
For comparison: the working pressure in a bicycle tyre is on average about 3-4 bar.
Storage capacity
Volume of the compressed air tank installed in the PCP rifle (see “Type”); if there are two tanks (see below), their total capacity is usually indicated.
A large tank allows for a greater number of shots per fill, but there is no strict dependence here: this number will also depend on the pressure in the tank, muzzle energy and some other specific factors. So in this sense, the tank capacity is purely for reference. But what it directly affects is the dimensions and weight of the weapon: a larger container will inevitably weigh more and take up more space. However, the latter drawback is often compensated for by the large length and small diameter of the reservoir - such a detail fits well into the proportions of the rifle.
As for specific volumes, they can vary up to 60 – 100 cm3 in relatively simple and inexpensive rifles up to 500 cm3 in high-end models; and if there are two tanks, their capacity can exceed 800 cm3.
Air supply by reducer
The presence of a gearbox for air supply in a PCP rifle (see "Type").
The gear mechanism is installed between the tank and the combat valve, which is responsible for supplying air to the barrel. The purpose of such a mechanism is to ensure stable pressure with each shot, which, in turn, allows you to achieve maximum accuracy and repeatability. With a properly adjusted gearbox, the muzzle velocity of the bullet remains unchanged until the pressure in the reservoir falls below a certain critical value. This is especially important for high-precision sports shooting with a series of numerous shots. However when the pressure drops below the threshold level, geared pneumatics begin to work already as a conventional
gearless (direct-flow) — however, this happens after at least several dozen shots, and up to this point, the advantage of geared rifles over "direct-flows" remains undeniable.
Another advantage of this design lies in the very economical air consumption — this allows, with the same tank capacity and pressure in it, to make more shots on a single refill, and without compromising muzzle energy. On the other hand, geared rifles are much more expensive than straight-shot rifles, and they also require special maintenance from time to time during use. Therefore, such a design is found exclusively in high-end professional pneumatics, including sports ones.