Best RC Cars Toys for Adults in 2022

In Bebeboxtoys, you can find the latest remote control toys, hope you like it. Buy electric remote control cars, remote control airplanes, remote control boats, and various remote control toys online.

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Why Bebeboxtoys is Best

The latest industrial design brings you the most fashionable and avant-garde and advanced remote control toys.

High Quality Design

Using the latest industrial design, our remote control car is unique and brings you a different experience.

Long battery life

30 minutes of battery life, have a good time, the battery can be replaced, more than 99% of remote control cars.

Long-distance transmission

The remote control distance is super far, and it has a cooler feeling than ordinary remote control cars.

Four driving forces

Unrelenting 4X4 power, mammoth size, and award-winning innovation make Bebeboxtoys the ultimate monster truck.

About the Product

Power is transmitted to the ground through sturdy all-steel transmission system gears, revolutionary transmission system and our most powerful transmission shaft ever.

  • Modular components

    Using the latest modular technology, replaceable parts.

  • Technical Support

    Can get the latest remote control car information at any time.

  • Shooting function

    The remote control car has a 4K camera to transmit images in real time.

  • Stable remote control signal

    2.4GHz transmitter with TSM ® receiver™ for longer transmission distance.

Attractive Features

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Steel Turnbuckles

The 8mm thick steel turnbuckle and steel steering can withstand extreme off-road shocks.

Intelligent toys

Freely programmable remote control toy car, professional track off-road remote control car.

High-Traction Tires

Durable tires are equipped with durable wheels to provide all-terrain traction.

Quick Motor Access

Minimize your maintenance downtime through an efficient, driver-friendly design.

Electronics Module

The electronic module is fixed on the chassis with screws to protect it from dust and moisture.

Durable Metal Construction

The durable steel drive shaft and all-metal differential enable the drive system to run on harsh tracks.

Our Awesome Products

This is our main product, and all products are shipped free of charge worldwide.

gas powered remote control cars

$1,394

$1,394

4×4 Nitrogen-powered remote control car

$295.95

$353.96

remote control car with camera price

$60.26

$87.96

gas powered rc trucks 4×4 mudding

$334.56

$419.82

why choose us

From shredding the pavement to soaring through the sky, having a radio control adventure has never been easier. Thanks to our technological innovations, without any previous experience, you can teach yourself to fly, take on other pilots in First Person View drone racing or drive full throttle with a scale truck, buggy, or boat.

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Asked Questions

If you have chosen to trust our toys, but there are still the following issues to pay attention to.Whichever you choose, remember the "Golden Rule of Remote Control Cars": Have fun!

With the above information in mind, the first question should be, where do you intend to drive it? If you want to run offroad, obviously an onroad car won't be the best option, but even with offroad, there are various grades of how rough the terrain is, and what car will handle it best. Same with onroad, a carpet racer won't run well on a parking lot if it's now smooth enough.

It's actually not a matter what is better, as each vehicle type has it's merits and drawbacks. 2WD means a more simple drive train, so most likely less maintenance. The less complicated drive train also means less drag, so with the same motor, battery, etc, a 2WD vehicle will most likely have better acceleration, better top speed, and longer running time. Also, since there are no driven front wheels that spray dirt etc all around over the body and rear suspension parts, you will typically have less cleaning to do after running of a dusty terrain. Plus it's fun to make a rear drive car make donuts, and slide through corners. Drawback of 2WD is that it's easier to get stuck on terrain, if one wheel is lifted from the ground, and the drive train has a free moving differential, the wheel that is still on the ground will not have traction. With a 4WD you will stil have 3 wheels that can keep the vehicle moving. Besides this trait of 4WD, better traction, cornering is usually also easier, as the front wheels help "pull" the car around the bend. Since you can also brake on 4 wheels (as braking with an electric driven car is done by locking the motor) you have better brake power, even though a 4WD vehicle will usually be heavier than it's 2WD counterpart. All this makes a 4WD vehicle easier to drive for beginners, whereas a 2WD rear drive vehicle can "hook" in a corner, or do a 180 turn if you are too eager on the throttle, on a surface with less grip. Still, the easier construction of 2WD vehicles, and their usually lower price tag, still makes these also an excellent choice for new drivers. Personally, I prefer to have both types around. P.S. don't be fooled into thinking that a 4WD with front drive train disconnected will be a way to experience 2WD driving so you can have both with a single car, as a 4WD vehicle without 4WD will usually just feel like what it is, a crippled 4WD vehicle, and lack the fun driving traits of a true 2WD one.

A new driver will soon learn that RC cars come in different scales and sizes. Very small, like the 1/36 scale Losi Micro T, to very large 1/5 scale buggies. Just like with 2WD vs 4WD it's not really a matter of what is best, but where do you want to drive your car. A smaller car will be more affected by obstacles on the track, where a bigger car will not even be fazed by that same obstacle. A smaller vehicle will be easier to carry around, and require less storage space. But with a bigger car you are less limited to where you can drive, no need for an ultra smooth running area. If you want to stay a little allround, 1/10 is a good starting point. While lacking the "nothing can stop this car" abililty of 1/8 scale and bigger, it's still quite capable running offroad, and less "nervous" than smaller 1/16 or 1/18 scale cars. A 1/14 scale buggy with relatively large wheels, like the Losi Mini 8ight, and more recently, the LC Racing EMB Buggy (also known as the Tacon "Soar") combine quite good offroad performance, with a smaller size car.

Simple answer would be, one has brushes, one hasn't. But that's a little too simple perhaps. In a brushed motor, the brushes deliver current to the commutator, a series of metal strips, that each are connected to a coil in the motor. When a battery is connected to the 2 motor terminals, current starts flowing through those brushes, to the coils, making these magnetic, causing the axle to spin. Reverse the polarity of the terminals, by switching the wires, and the motor starts turning the other way. This type of motor has simple wiring (2 wires, that's all) and is quite cheap usually. Performance can be pretty good too, there is just one catch. The friction between commutator and brushes causes these to wear down, and eventually the brushes need to replaced, or the motor needs a new rotor, as a worn commutator can't be replaced. It's possible to clean the surface of the metal patches of the commutator some times, for instance by using a special lathe tool, but as this removes material from the surface, at some point it's over. Also, the efficiency of this type of motor isn't very high, as the friction turns energy to heat. Brushless motors don't have this problem, as there are no brushes and commutator to switch on and off the current to the motor's coils. Instead the motor is connected to the speed controller with 3 wires, and the switching of the respective coils is done electronically, in the speed controller. This makes a brushless speed controller more complicated, and also more expensive. But in return you get almost zero wear on the motor, just the bearings that may need replacement sooner or later, depending on track conditions, and the motor can run more efficient, converting more of the battery's power into motion, instead of heat.

This depends on the type of motor. A brushless motor has no commutator that the brushes need to wear in to, so no break-in is required. With a brushed motor, proper break-in will yield a faster running motor, with longer life expectancy. There are a couple of ways to do this: - Most simple method, take it easy the first runs. Don't run full throttle, and get the car up to speed gradually. Drawbacks, the motor does get to work, so some arcing and commutator surface damage may occor. Also, it takes a lot of self control to go easy on a new car for several batteries. - Also pretty simple to perform, but easier on the motor. Put the car on a secure stand, so the wheels are not touching the ground, and use the throttle trim on the transmitter to let the motor run at low rpm. Added advantage is that the gears get the chance to run in a little without any load. As a variation on this, it can also be done without the pinion on the motor axle, for lowest possible motor load, which in theory should be a little better for the motor. - Wet method. This involves putting the motor in (preferably demi) water, and connect the motor wires to a 2.4 volt power source, like 2 AA batteries. As the commutator and brushes are not exposed so air, there is no arcing possible, to less chance on commutator surface damage. The water also acts as polishing agent, and provides some cooling too. After a while the water will become greyish or black, showing the worn down brush material. Disconnect the battery, and remove the motor from the water. Dry it out well, flushing the motor with electric motor cleaner tends to work well, or a blow dryer, or putting the motor in a bag of rice. When properly dried, remember to oil the bearings. This method is claimed to yield the best results, but it's a bit more messy, and if the motor is not dried well enough, rust can occur. P.S. for some advice to keep your brushed motor in good shape, check the next posting, for the header "Caring for brushed motors"

Though one motor can take higher temps than another, depending on things like magnets used, insulation of the winds, etc, it's better to be rather safe than sorry. Safe temps are: Battery < 120° (around 50 degrees Centigrade) ESC < 140° (around 60 degrees Centigrade) Motor < 160° (around 70 degrees Centigrade) A little higher doesn't have to result in instant damage, but it's best to stay below these values

Often it is thought that replacing plastic parts with metal versions, is always better. Often the "bling" of the metal parts already makes a car look faster, more sturdy, etc. But despite the looks, it's wise to use metal parts with care. Plastic usually has some flex, this helps to absorb the impact of a crash. When a plastic parts is replaced with metal, the impact will get transferred to either another section of the car, or the metal part will bend. Also, metal parts, even when made from aluminium, are still typically heavier than their plastic counterparts. This means less performance of the car, and more energy to dissipate when the car hits something. So, think well before replacing a plastic part with a metal one, if it will really improve the car, unless looks are more important than durability.

The amount of time it takes to charge a battery pack varies. Each battery has a "milliampere capacity", this is the number printed on the package (1400, 1500, 1700, 2000, 2400, 3000,etc.). The higher the number, the more power the battery holds and the longer it takes to charge the battery. Also, battery chargers can charge at different "amp rates", or power output, so a battery that can charge at 6 amps will charge a particular battery faster than a charger that is charging up that same battery at 4 amps. Some of the more powerful electric models use a Lithium Polymeror LiPo battery - these must be charged using a compatible charger, and we'd always advise charging the batteries in line with their manufacturers recommendations. It's also advisable to use a LiPo safe charging bag when charging LiPo batteries. If you wanted to calculate how long your battery will take to charge you would need to divide the Capacity of the battery by the Charge Current. For example an 1800mAh battery charged on a charger with a 300mA output (typical RTR charger) will take 1800/300 =6 Hours. Another example if you are using a fast charger like the Reactor 500 you can up the Charge Current to 3.6A which turns that into 1800/3600 = 0.5 hours. Again please follow the Batteries Manufacturers recommendations for charging your battery!

This question is a bit subjective as there are many amazing RC car brands out there. You’ll see brands such as quite a lot but it all depends on your budget and what type you’re looking for.

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