The amount of electricity used by a bounce house is determined by the size of the blower. A small 1 HP blower will set you back $0.13 per hour, a medium 1.5 HP blower will set you back $0.15 per hour, and a large 2 HP blower will set you back $0.22 per hour. The cost of renting a bounce house for a day is approximately $1.28.
In terms of electrical expenditures, a bounce house is rather inexpensive to operate. Here’s another chart that will show you how much it will cost to run the bounce house per hour and per day. These estimates were calculated using $0.14 per kilowatt hour as the average cost of power in the United States and an 8-hour day running period.
How much electricity do bounce homes consume?
Most blower bounce houses run on 115 volts and are rated at seven to fourteen amps. If you use a 2HP 14 amp blower on an inflatable, you can max out a 15 amp breaker, putting you at risk of tripped breakers all day.
This is why it’s crucial to understand the various sizes of bounce house blowers. Smaller bounce houses utilize 1 horsepower blowers, medium-sized or combo inflatable homes use 1.5 horsepower blowers, and bigger, obstacle-course bounce houses use 2 horsepower blowers.
To keep inflated, larger bounce houses will require more air to be pushed into the device. A larger bounce house, on the other hand, might require a slew of blowers to get the correct quantity of air inside for it to be safe and usable.
A tiny 1HP blower will cost around $0.13 per hour, a 1.5HP blower will cost around $0.15 per hour, and a 2HP blower would cost around $.022 per hour. So, on average, a bounce house costs $1.28 each day to operate.
How much power do inflatables consume?
Inflatable holiday decorations have grown in popularity in recent years, particularly during the winter holiday season. It’s wonderful to view a giant inflatable snow globe filled with snow that is lit up at night.
Although many people believe that inflatable decorations require a lot of electricity, they can actually save you money on your energy bill when compared to standard string lights. A large inflatable snow globe uses approximately 150 watts of power. The overall electricity cost for a three-month period, running about sixteen hours each day, would be around $22 for the full season. If you operated them 24 hours a day for three months, the cost would be roughly $30.
Traditional string lights, on the other hand, utilize roughly 10 watts per bulb. The cost of powering ten twenty-five bulb string lights for five hours every day would be roughly $38 per month. If you insist on using traditional lighting, make sure you use LED lights to save both energy and money.
Regardless matter which decorations you choose this year, don’t forget to set a timer to help you save money on energy over the holidays!
How long can a bounce house blower be used?
Blast Zone inflatables are made of permeable fabric that allows air to escape through the seams, corners, and small pinholes in the material. Because the inflatable isn’t completely airtight, you’ll need to have the blower running all the time to keep it inflated. This is the nature of most constant-air inflatable bouncers and slides, which are high-quality, long-lasting inflatables.
Although there is no time limit on how long you can use your blower, we do urge employing caution in this situation. If you’re arranging an event and know you’ll be using the inflatable for several hours or all day, make sure to schedule little breaks in between. If you plan on running your inflatable all day, turn off the blower for 10-15 minutes every 4 hours or so to let it cool down.
Although overheating is uncommon, your blower’s operation is protected by a built-in breaker.
Can a leaf blower be used to blow up a bounce house?
A bounce house is usually a good option for a party with children. A pump is frequently included, but you may need to inflate it in a different way or want to inflate it faster. We’ll talk about how to blow up a bouncy house with a leaf blower in this blog post.
Yes, a leaf blower can be used to inflate your bounce house. To connect the leaf blower to the bounce house, you may need a connector. You can create your own right connector if you don’t have one.
Only individuals who are short on time will find a brief answer useful. Continue reading to get a more in-depth solution to the aforementioned query.
Bounce houses, boats, kayaks, surfing boards, paint booths, picture booths, footballs, balloons, and bathtubs are all inflatable objects that rely on air to inflate. Only a few decades ago, manual air pumps were the only way to fill bounce houses, bicycle wheels, and balls with air. Our lives have become substantially simpler and faster as a result of modern technology.
A bouncy house blower consumes how many amps?
To effectively inflate a bounce house, you’ll need a blower that runs on 115 volts and draws between 7 and 14 amps. Larger bounce houses may need a second blower and a separate circuit to keep them inflated. To keep bounce houses inflated, 1 to 2 horsepower blowers are usually employed.
Here’s a handy chart to help you figure out what size bounce house you have and how big of a blower you’ll need to fill it.
A 1 or 1.5 HP blower should suffice for most home bounce houses. When it comes to higher-tiered, more expensive commercial bounce houses, you’ll need to consider acquiring a 2 HP blower, or possibly numerous blowers.
If you’re interested in learning more about bounce house blowers, here’s a video that explains them in greater detail.
Are bouncy castles prone to exploding?
Two tiny girls were critically hurt when a bouncy castle ‘exploded’ and flung them over a metal barrier and onto tram lines at a height of 25 feet.
The big inflatable tore off its moorings and launched the three and four-year-old youngsters into the air, causing terror in the Russian city of Barnaul.
Three other children were unharmed as the out-of-control bouncy castle shot up ‘as high as a lamp post.’
Two young women were hurled over a metal fence onto tram lines and are in critical condition.
Anna, a three-year-old daughter, sustained a concussion and a spine fracture. Vika, four, was catapulted roughly 15 feet from the bouncy castle and suffered a skull fracture as well as cuts to her lungs and stomach.
Are generators included with bounce houses?
We found a lot of information online about a generator to go with our bounce house while we were looking into purchasing it. We primarily intended to utilize our first bounce house indoors, but we also wanted the option of taking it outside, perhaps to a park. We wanted to know if one type of bounce house would be better for all three alternatives, and if one type would require a generator.
The simple explanation is that a bounce house does not require the usage of a generator. Bounce homes are equipped with a heavy-duty three-prong plug that can be plugged into any standard household outlet. Generators are only required when there is no other option for power. A generator is required if you are more than 50 feet from a power source. An ordinary bounce house may be powered by a 2000 watt generator.
If you plan to use your bounce house in a public park or other location where there isn’t a power outlet, there are a few things you should know about generators and which ones are best for bounce houses.
We’ve used our first bounce house both inside and outside without using a generator since we bought it. We utilized an outside outlet and still needed an extension cord when we set it up in our backyard. For a couple reasons, I would prefer one of those heavy-duty, outdoor, construction-type extension cables, which are usually that bright orange hue. First, the extension cord must be able to withstand the bounce house’s huge three-prong connector. Second, because it will be utilized outside, it will need to be able to withstand more wear and tear. You should bury the cord somewhere where kids won’t be able to run on or around it (especially if they’re wet) and/or cover it with a tarp if possible for further safety. If your bounce house will be used outside frequently, I recommend purchasing a second extension cord to keep with your bounce house at all times to make set-up as quick and easy as possible. However, never set up more than fifty feet away from a power source using an extension cord. Using numerous extension cables to reach a distance of more than fifty feet is dangerous. It has the potential to cause an electrical fire, destroy your blower, and/or cause damage to your outlet and cable. You must utilize a generator if you are not within 50 feet of a power outlet.
There will rarely be an electrical outlet available if you wish to put up your bounce house outside in a public area such as a park or grassy field. You will need to bring your own generator to power the inflatable in this scenario. Because generators can be costly, it may be more cost effective to rent or borrow one if this is your only need for one and you do not plan on taking it to the park frequently. For less than $20 per day, you can rent a generator from most party rental services. Simply picking it up the day of the party can save you a lot of time and money. If you’re hiring a generator, be sure to specify what you’ll be using it for so you can receive the proper one.
A generator capable of powering a minimum of 2000 watts is required for a typical bounce house. (Before purchasing a generator, double-check the wattage of your inflatable to ensure it meets this need.)
Generators are available in a variety of styles and prices, ranging from a few hundred dollars to over a thousand dollars. It will function great as long as it can power the wattage required by your bounce house. If you’re new to generators, there are a few things to think about:
- Ensure that your generator is transportable. Some generators are designed to power large projects, while a bounce house is rather straightforward. Keep in mind that you’ll be lugging it along with the bounce house, tarp, and other items over grassy hills and fields, so keep it simple for yourself and choose one that’s practical and portable for the job.
- Get a generator with the most convenient and reliable power source for you. Solar power, gasoline, propane, and natural gas are the four most frequent fuel sources for generators. While gasoline is easier and less expensive to fill, it can only be stored for up to a year and must be cleaned out to maintain your generator’s carburetor, whereas propane is cleaner and can be stored for longer. Solar generators appear to be the easiest solution, but most of them are insufficient to power a bounce house. If it can, you’ll need to make sure it has enough solar energy stored in its battery to power the entire event if it can. Make sure you pick a generator that has a power source you can supply and maintain.
- The noise level of generators is also a typical issue. I’m hoping that noise won’t be an issue during your bounce house party, as the blower will be creating noise in addition to the generator, not to mention the inevitable loud explosions of laughing and delight from the kids. Find a generator with a quiet noise output if noise is an issue for neighbors or sensitive youngsters.
What is the energy consumption of a generator? How much will it cost to keep it going? This is determined by the type of generator you purchase. The type mentioned above, for example, runs on gasoline. On one gallon of gas, it can run for roughly 4 hours. I wouldn’t dare to put a price tag on gasoline in your location because petrol costs fluctuate so quickly, but that should give you a good notion.
Your generator can be kept beside your bounce house in a cool, dry location away from direct sunlight. Another good argument to get a tiny, compact, portable generator if it will only be used for your bounce house is that it will be easier to store and take up less space. When it comes to maintaining your generator before storing it, make sure to follow the owner’s handbook to the letter. Even if it will only be a few weeks before it is used again, follow the instructions for cleaning and caring for the generator and its batteries before storing it. Make sure you investigate not only the sort of generator you want to buy, but also the maintenance that will be required later. Keeping your generator in good working order can be a difficult task. If you only need a generator to inflate your bounce house, it may be easier to find a venue that does not require one, or inquire about for a place where one can be hired.
Is it possible to utilize a single generator to power multiple bounce houses?
It IS feasible to use a single generator to power many bounce houses. Make sure you complete the calculations based on the wattage requirements of each bounce house and the generator’s capabilities. Keep in mind that when the bounce house first starts up, it will require more electricity than the actual running power required to keep it inflated.
This is dependent on the type of generator you buy and the amount of power required to keep your bounce house inflated. The type mentioned above will inflate a typical bounce house for four hours before needing to be refueled. Larger fuel tanks are also included with generators to ensure that refilling isn’t an issue.
Is it necessary to keep inflatables on all of the time?
- In order for your inflatable to stay inflated, it must be plugged in. When you unplug your inflatable, it will deflate on its own. If you’re wondering how much electricity your inflatable uses, it requires slightly less than a typical string of decorative lights.
- Most manufactures advise against leaving your inflatable plugged in for more than 8 hours at a time.
- If your inflatable needs cleaning, wipe it down carefully with a moist towel and, if necessary, a mild soap.
- Before storing your inflatable decoration, make sure it’s clean and completely dry.
- Tears or tears in your inflatable item that occur by accident can be simply mended without the need of any special equipment. You can fix the tear by hand sewing it with a needle and thread, or by using clear packaging tape or duct tape.