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Comparison Himoto Firestorm 1:8 vs Himoto Shootout 1:8

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Himoto Firestorm 1:8
Himoto Shootout 1:8
Himoto Firestorm 1:8Himoto Shootout 1:8
from $444.00
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from $363.96 up to $418.00
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In boxRTRRTR
Model scale1:81:8
Purpose (class)short-courseshort-course
Typebuggybuggy
Specs
Motor
ICE (fuel) /nitromethane/
electric
Motor modelGO21brushless, 2075KV
Capacity3 cm3
Fuel tank125 ml
Max. speed80 km/h80 km/h
Driveall-wheelall-wheel
Shock absorbersoil
Features
waterproof
dirt protection
centre differential
 
metal deck chassis
waterproof
dirt protection
centre differential
metal main pair
 
Power source
Power sourceLi-Pol battery
Battery included+
Battery voltage11.1 V
Battery capacity2.7 Ah
Battery model3S
Transmitter
Radio frequency2.4 GHz2.4 GHz
Power source4хАА4хАА
General
Base length328 mm328 mm
Materialplasticplastic
Dimensions (LxWxH)487x306x204 mm487x306x204 mm
Color
Added to E-Catalognovember 2013november 2013

Motor

— Electric. The most versatile type of engine: does not produce exhaust gases and is relatively quiet, so it can be used both outdoors and indoors. Charging batteries or changing batteries is usually much easier and cheaper than refilling a tank of fuel, and the maintenance of such machines is minimal (in most cases, it is actually not required at all). Electric motors are powerful enough to provide both good speed and good cross-country ability, so there are quite advanced models among such machines; at the same time, such motors are inexpensive. Among the shortcomings, it is worth noting the weak similarity of such cars with full-size cars while driving (for lovers of realism, this can be fundamental), and also, in the case of original batteries (see “Battery type”), a long charging time.

ICE (gasoline). An internal combustion engine (ICE) that uses gasoline as fuel. This option is closest to what is used in real cars; many fans of radio-controlled cars appreciate gasoline models for the sound of the engine and even the characteristic smell of exhaust gases. Another advantage is the almost unlimited time of the “rides”, subject to the availability of appropriate fuel reserves. On the other hand, noise and exhaust create inconvenience when used indoors, so gasoline "devices" are recommended to be used only outdoors. ICEs are more demanding to maintain than electric motors, but this is also neit...her a definite advantage nor a disadvantage: caring for an engine requires effort, skills and time, but for many enthusiasts this moment provides additional pleasure from their favorite hobby.

ICE (fuel). Internal combustion engines using various non-petrol fuels. Most often, a mixture of nitromethane and methanol is used in this role: for a number of chemical features, this combination is much better than gasoline for model engines with small (compared to full-size cars) cylinder volumes. In addition, the nitro-methane mixture provides more power, allowing you to create models with high speed and flotation, and the adjustment of such engines is somewhat easier. As a result, most ICE cars today are designed specifically for special fuel; the rest of their features are similar to those described above for gasoline. It is worth noting that it is impossible to refuel such models with gasoline — this will disable the engine.

— Is absent. The absence of an engine in the kit is typical of some advanced large scale models. It is assumed that the user will select and install the engine for such a machine on his own.

Motor model

The name of the engine installed in the machine. Usually, knowing this name, you can easily find information about the features of the engine — both official manufacturer data and reviews from users — and determine how much you are satisfied with its characteristics. This can be very important when choosing a model for professional motorsports.

In addition to the name, this paragraph can also specify the type of electric motor (see "Engine") installed in the machine — collector or brushless.

The collector design of the electric motor can be called classical. It allows you to create fairly light, compact, inexpensive motors, which are also easily repaired. The disadvantages of this option are relatively low efficiency, a tendency to spark (especially when overheated), as well as less durability than brushless models. In addition, with a collector motor, it is more difficult to ensure high speed. As a result, this option is typical for entry-level and middle-level models (relatively slow).

Brushless motors are considered more advanced than brushed motors: they are more powerful, more economical, more durable, better protected from pollution and well suited for overclocking to high speeds. On the other hand, such engines are much more expensive, and the complexity of the design does not allow you to repair the motor on your own. In light of all this, brushless motors are used primarily in advanced high-speed cars; the presence of such a motor is an ind...icator of a rather high class model.

Some models of radio-controlled cars can be produced in two versions, differing only in the type of electric motor.

Capacity

The total volume of cylinders of the internal combustion engine of the machine (gasoline or fuel, see "Engine"). In general, the larger the volume, the more powerful the engine, with the same type of fuel, however, the consumption of this fuel is usually higher. Also, this point depends on the type and scale of the model (see both points above). So, among the road options at 1:10 there are mainly volumes of 2-2.5 cm3, 1:8 — about 3.5 cm3. For off-road types, the indicators are 2.5-3 cm3 and 3.5-4 cm3, respectively.

Note that in models purchased for entertainment purposes, engine size does not play a significant role, and for professional use there are recommendations depending on the purpose (see above), weight, type of fuel and other parameters. You can get acquainted with such recommendations in specialized sources.

Also, the volume of the engine can serve as a criterion for admission to competitions.

Fuel tank

The volume of the fuel tank of a car with an internal combustion engine (see "Engine"). The larger this volume, the less often you will have to refuel the “apparatus” (with the same engine characteristics).

Shock absorbers

Type, model and other features of shock absorbers installed in the car. For details on the meaning of this parameter, see "Motor model".

Features

Protection against moisture. The presence of protection in the design of the machine, which prevents moisture from entering the sensitive elements of the structure and the corresponding unpleasant consequences (short circuits, corrosion, water hammer, etc.). This feature is practically mandatory for outdoor models, especially off-road types with internal combustion engines (see above). However, the specific degree of such protection differs significantly in different cases: one model can be designed, for example, for a maximum of splashes from wet asphalt or light rain, while the other will calmly survive driving through a puddle “hood-deep”. Therefore, this point should be clarified according to the official data of the manufacturer.

Protection against dirt. Protection to prevent dust and dirt from entering parts that require cleanliness. Similar in many respects to the water protection described above — in particular, it is very important for outdoor use and can vary significantly from model to model.

Centre differential. The presence in the design of the machine of a differential located between the front and rear pair of wheels and distributing torque from the engine between the front and rear axles. By definition, it is found only in models with all-wheel drive (see above). The main function of this mechanism is similar to cross-axle differe...ntials — it allows the wheels, in this case the front and rear, to rotate at different speeds so that the chassis and tyres do not experience increased loads. A similar need arises, in particular, when cornering at low speed. In addition, the centre differential improves patency: when one of the pairs of wheels slips, it distributes the torque so that most of it falls on the wheels that retain traction.

Metal main pair. The main pair is called two gears responsible for transmitting torque from the engine to the transmission: one of them is located on the engine shaft, the second — on the transmission shaft. This is one of the most important structural elements of the machine, which is subjected to significant loads during use. The main pairs made of metal are much stronger and more reliable than plastic ones; if you are purchasing a model for riding in difficult conditions (for example, a short course or tricks, see "Purpose (class)"), the presence of such equipment will be very desirable. At the same time, for entertainment purposes, it is rather an excess — after all, metal gears are more expensive than plastic ones.

Anti-roll bars. The presence in the design of the machine of special devices that prevent the tipping of the structure to one side, in particular during sharp turns: during cornering, the stabilizer distributes the load on the wheels in such a way as to reduce chassis roll. However, this is not the only purpose of these parts — stabilizers of different stiffness are also a tool for distributing the grip balance between the front and rear axles. For example, if the front stabilizer is softer than the rear, the grip of the front axle will be higher, which ensures good steering, but reduces the sensitivity of the control; with a softer rear stabilizer — on the contrary. These points are described in more detail in special sources. It is worth noting that stabilizers are not a 100% guarantee against a coup — however, the likelihood of such an event is significantly reduced if they are present.

Metal deck chassis. The deck is the basis of the chassis of the machine, the frame on which the engine, transmission and body are placed. The high strength of the deck is important for models that are subjected to significant stress during riding, for example, when used for short corsets (see "Purpose (class)"). Aluminium alloys are often used as a material for metal decks in modern cars — they combine good strength and low weight. However such materials also affect the cost of the model, respectively.

Opening doors. Opening doors enhance the similarity of radio-controlled cars with real cars. You can put a toy driver behind the wheel of such cars in miniature, and passengers in the passenger compartment. Also, through the doors, access to the interior of the radio-controlled car is provided.

— Light effects. The presence of various lighting effects in the model: headlights, parking lights, flashing beacons (flashing lights), bottom lighting, etc. Such equipment not only makes the machine look like a real car, but also makes it more noticeable to others and reduces the likelihood of unpleasant incidents. At the same time, for advanced models, these moments do not play a key role, so lighting effects are found mainly in inexpensive entertainment cars.

— Sound effects. The presence in the model of various sound effects — for example, a horn, a siren, the sound of a powerful engine, etc.; sometimes there are even built-in melodies. To play sounds, usually, a small speaker is provided. This function is purely for entertainment purposes and is found only in simple and inexpensive models designed for the younger age group.

Driver. A toy pilot seated behind the wheel of a radio-controlled car. The presence of a pilot allows you to give free rein to your imagination - driving a car from a distance, you can imagine that it is being driven by a little man.

Power source

The type of power source used in a machine with an electric motor (see “Motor”).

- AA. Replaceable elements of a standard size, popularly known as “pen-light batteries”. The main advantage of battery-powered cars over battery-powered cars is the ability to quickly replace dead batteries. On the other hand, the power of such power supply is quite modest, so they are found mainly in models for younger people.

- AAA. Such elements are almost completely similar to the AA described above and outwardly differ from them only in their reduced size (which is reflected in their common name - “little finger”).

- Ni-Mh. Specialized batteries made using nickel-metal hydride technology like other batteries ( Li-Pol, Li-Ion, Ni-Cd, LiFePO4, branded) are superior to replacement batteries in capacity and compactness and are better suited for powerful electric motors. Ni-Mh batteries themselves are notable primarily for their ability to withstand high charge and discharge currents without consequences - the first is important given the “gluttony” of electric motors, the second has a positive effect on the charging speed. In addition, such batteries are resistant to low temperatures, do not h...ave a “memory effect”, and are relatively inexpensive. At the same time, they are inferior to Li-Pol elements in terms of capacity (with the same dimensions).

- Li-Pol. Specialized batteries made using lithium-polymer technology. For more information on specialized batteries in general, see above (Ni-Mh). Li-Pol technology itself makes it possible to create batteries with high capacity, small size and weight, and without the “memory effect,” however, it is quite expensive.

- Ni-Cd. A relatively old battery manufacturing technology, the predecessor of the Ni-Mh described above. The common features of these technologies are resistance to high charge and discharge currents, low temperatures, and low cost. True, nickel-cadmium batteries are subject to the “memory effect” - a decrease in capacity when charging an incompletely discharged battery; however, this can be corrected by using advanced chargers and following operating instructions. But the clear disadvantage of this option is considered to be environmental unsafety during production and disposal; This is typical for all batteries, but it is most relevant for Ni-Cd cells, so they are used less and less.

— Li-Ion. Batteries made using lithium-ion technology and not belonging to any of the universal standard sizes (like AA). Lithium-ion batteries are practically not subject to the “memory effect”, are easy to use and charge fairly quickly. Their disadvantages include a higher price and less resistance to high and low temperatures.

— LiFePO4. Lithium iron phosphate batteries are actually a modification of lithium-ion batteries (see the corresponding paragraph), developed to eliminate some of the shortcomings of the original technology. They are notable above all for their high reliability and safety: the likelihood of a battery “exploding” when overloaded is reduced to almost zero, and in general LiFePO4 can cope with high peak loads without any problems. In addition, they are quite resistant to cold and maintain operating voltage almost until discharge. The main disadvantage of this type is its slightly smaller capacity.

— Branded battery. This category includes all specialized batteries (see subparagraph “Ni-Mh” above), for which the manufacturer did not indicate the manufacturing technology. We also note that if “ordinary” specialized batteries can be standard and can be used in different models of radio-controlled equipment, then branded batteries often have an original design and are designed only for cars from one manufacturer.

Battery voltage

The operating voltage of the battery supplied with the machine. For models for AA and AAA cells (see “Battery Type”), it is not indicated — the specification of these cells assumes a common voltage standard, about 1.5 V. In other cases, battery voltage data does not play a significant role in everyday use, but may be useful , if you need to pick up a charger, a spare battery or a battery to replace a damaged one, but you do not have data on the battery model (see below).

Battery capacity

The capacity of the battery supplied with the electric motor model (see "Motor"). Indicated only for variants using original batteries (see "Battery type"), measured in ampere-hours: 1 Ah corresponds to the capacity at which the battery is capable of delivering a current of 1 A for 1 hour.

The higher the capacity of the battery, the longer, usually, the “device” is able to work without recharging. However, the practical time of operation on a charge is largely determined by other characteristics of the machine — scale, purpose (see both points above), weight, model and engine power, etc. Therefore, in most cases, this parameter plays a purely reference role, and it is only possible to compare the battery capacity among themselves with machines that do not have any significant differences in other characteristics.
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