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Comparison Forte V-0.4-51 50 L vs Intertool Storm PT-0050 300 L
network (400 V)

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Forte V-0.4-51 50 L
Intertool Storm PT-0050 300 L network (400 V)
Forte V-0.4-51 50 LIntertool Storm PT-0050 300 L
network (400 V)
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Main
Multipoint connection. Nominal pressure 10 bar. Anti-corrosion treatment of the receiver.
Compressor typepistonpiston
Designoil-lubricatedoil-lubricated
Drivebeltbelt
Specs
Input performance420 L/min1600 L/min
Rated pressure10 bar8 bar
Power2.2 kW11 kW
Rotation speed2860 rpm
Number of cylinders23
Number of steps11
Receiverhorizontalhorizontal
Receiver volume50 L300 L
Power sourcemains (230 V)mains (400 V)
General
Design features
transportation wheels
transportation wheels
Noise level (LPA)
80 dB /at a distance of 1 m in 60% duty cycle/
Dimensions87x43x74 cm
Weight69 kg
Added to E-Catalogdecember 2018november 2013

Input performance

The amount of air that the compressor is able to process per unit of time; usually stated in liters per minute. Performance, along with pressure (see below), is one of the most important parameters: it is it that primarily determines how compatible the compressor will be with one or another pneumatic tool.

It is worth choosing a model according to this indicator in such a way that it can be guaranteed to “pull out” all the tools that can be connected at the same time. Air consumption is usually directly indicated in the characteristics of each tool, and it is quite simple to calculate the total requirement. However, due to the design features, the compressor must have a certain performance margin; the specific value of this stock depends on a number of nuances.

The main point is that some companies indicate for their units the performance at the outlet (how much air is supplied to the tool), while others indicate at the inlet (how much air the compressor sucks in). Since no compressor is perfect, part of the air is inevitably lost during the compression process, so the amount of air at the outlet will always be less than at the inlet. Accordingly, if the output performance is indicated in the characteristics, a margin of 10-20% is recommended, and if the input is 35-40%.

There are also more complex techniques that allow you to more accurately derive the required performance depending on the characteristics of specific tools; they can be found in...special sources.

Rated pressure

The maximum pressure created by the compressor during operation. This parameter, as well as the performance described above, is very important for selecting a compressor for a specific pneumatic tool: it is necessary that the nominal pressure be not lower than the working pressure of the tool. At the same time, high pressure is not a problem — it can be reduced by the appropriate regulator on the gearbox.

Most modern compressors have a pressure rating of 8 bar, which is sufficient for most air tools. Units for 6 bar belong to the entry level, their main purpose is painting work, where high pressure is not required. There are also options for 10 bar and even more — they, usually, belong to specialized models and cost accordingly. Therefore, it is worth looking specifically for a high-pressure unit only if this parameter is critical for the planned work (for example, if you need a compressor for tyre fitting).

When selecting according to the nominal pressure, it must be taken into account that the maximum allowable pressure in the receiver is usually indicated as the nominal pressure. The pressure actually given out by the compressor to the outlet is often somewhat less, this is due to some design features. For the most popular nominal pressure options — 8 and 10 bar — the real figures are usually 2 bar less, i.e. 6 and 8 bar respectively.

Power

The power of the engine installed in the compressor. It is not the main parameter in evaluating the efficiency of the device — here the performance and nominal pressure play a decisive role (see above), and the engine is selected in such a way that its power is sufficient to ensure the claimed characteristics. However, this indicator still has practical significance: in compressors with an electric motor (and there are now most of them; see “Engine type”), the engine power determines the total energy consumption of the device, as well as the requirements for the network where it is planned to connect it (for more details, see “Voltage networks"). In addition, the power of the engine (regardless of its type) must be known in order to calculate the optimal performance value using some special formulas.

For internal combustion engines, power is traditionally expressed in horsepower (hp); you can convert it to watts in this way: 1 hp. = 735 W.

Rotation speed

The speed of rotation of the compressor motor shaft in normal operation. This parameter, usually, does not affect the efficiency of the unit — the main indicators are still the performance and nominal pressure (see above). At the same time, it allows you to evaluate the design features of the compressor and its durability. The fact is that a higher rotation speed allows the use of fairly simple and inexpensive working mechanisms, but it increases the wear of moving parts and reduces the motor resource. Therefore, a model with a lower number of revolutions is likely to cost more than the "high-speed" version, but it will also last longer (ceteris paribus characteristics — performance, pressure, drive type, design; see all above).

Number of cylinders

The number of cylinders provided for in the design of the compressor; by definition only indicated for reciprocating models (see "Compressor type"). This characteristic is primarily associated with performance indicators (see above). For example, values above 400 L / min among single-cylinder units are rather rare exceptions; therefore, if you need a high performance reciprocating compressor, you should look into multi-cylinder models. The second application for multiple cylinders is a multi-stage operation scheme (see "Number of stages").

Receiver volume

The receiver is a tank (cylinder) into which compressed air is pumped during operation of the compressor; it is from this cylinder (and not directly from the working mechanism) that it is fed to the connected instrument. The main meaning of such a scheme is that the receiver compensates for pressure unevenness that occurs during the operation of the main mechanism; it does not guarantee absolute constancy, however, all changes occur very smoothly. In addition, energy savings are ensured in this way: part of the time the compressor runs on the stored air from the receiver, and the engine turns on only when the pressure in the tank is significantly reduced to replenish supplies. Therefore, this piece of equipment is practically mandatory, models without a receiver are extremely rare today.

In general, the larger the volume of the receiver, the less often it will have to be pumped up after the initial filling with compressed air. It is also believed that a volumetric receiver can partly compensate for the lack of compressor performance; however, this moment does not ensure the constant stable operation of the “gluttonous” tool and serves only as a fallback in case of a short-term increase in air consumption. On the other hand, large volumes mean the corresponding dimensions of the tank (and it is already the largest part in most compressors), and the cost of the device increases accordingly. Therefore, when choosing, it is worth observi...ng a certain balance and choosing a receiver depending on the specifics of the work. For various types of activities there are recommendations, they can be found in special sources. Here we note that for relatively uniform work in time with a small air flow, a small receiver is usually enough, and if peak loads can occur frequently, it is better to choose a larger cylinder.

Some compressors may provide the expansion of the receiver with additional tanks.

Power source

Among the power sources in compressors are the electrical network, batteries, gasoline and diesel. A different section is provided for classic automobile compressors, but there are also reputable compressors powered by 12 V. More details about each of them:

Electrical network (230 V). The most popular power source used in modern compressors. Electric motors have relatively small dimensions and weight, and during operation they create significantly less noise than internal combustion engines and do not produce exhaust gases, making them safe even with poor ventilation in the room. In addition, they are easy to operate and do not require refueling, expensive starting equipment or complex procedures. The only significant drawback worth noting is the need for an external power source - if it is impossible to connect electricity, a compressor with an electric motor will be absolutely useless. Power supply from a 230 V network with single-phase alternating current limits the models in terms of power and such devices can be classified as household rather than professional.

Electrical network (400 V). Powered by a three-phase (three pairs of contacts “zero” – “phase”) network with a voltage of 400 V. Such a network can be conditi...onally called “industrial”: it is not used in everyday life, but is widespread in industrial premises such as workshops, workshops, car repair bays and so on. The main advantage of this type of power supply is high power, which allows you to create compressors with high pressure and performance. At the same time, there is no point in producing low-power units for only 3 phases - the main advantage is lost, and the disadvantage of incompatibility with 230 V networks (and, accordingly, a limited scope of application) remains. Therefore, 400 V power supply is exclusively the prerogative of high-power compressors intended for professional use. Before purchasing such a device, you must make sure that there is a three-phase connection at the location of the planned installation.

Battery. Powered by its own battery. The main advantages of this option are mobility, the ability to work independently of outlets and the absence of a power cord that can interfere with work. On the other hand, such power supply is not suitable for high power; all other things being equal, a cordless tool turns out to be noticeably heavier and more expensive than a mains one, and the operating time is limited by the battery charge. However, in most cases the battery is removable, which allows you to keep several batteries ready and change them as needed.

- Gasoline. An internal combustion engine (ICE) using gasoline as fuel. Such compressors are indispensable if you have to work in places without access to electricity: gasoline engines do not depend on external power sources, are completely autonomous and can operate as long as there is fuel in the tank. On the other hand, they are more expensive than electric ones (both on their own and in operation, due to the high cost of gasoline), weigh more, make more noise, are difficult to start and require certain maintenance skills. In addition, exhaust gases create serious inconvenience and limit the use of internal combustion engines - when working indoors, good ventilation is necessary. As a result of all this, compressors with gasoline engines are more of a backup option in case it is impossible to use an electric motor, and they are not widely used.

Diesel. An internal combustion engine running on diesel fuel. It is characterized by all the same basic features as the gasoline one (see above), but there are some differences. The most striking thing is that diesel engines are generally more expensive than gasoline engines, but they have a longer service life and are cheaper to operate due to the relatively low price of fuel.

Electrical network 12 V. The compressor can be connected to the vehicle network as power supply.

Noise level (LPA)

The sound pressure level in decibels at a certain distance between the noise source and the ear of the compressor equipment operator. Since people do not work in the immediate vicinity of the compressor, the parameter will be useful for estimating the noise level at a distance. It is most often measured at a distance of 7 m from a working installation, less often at a distance of 1 m.
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