Filtered Airflow for Exercise Machines

Abstract

The blower motor is powered by 115 volts from the circuit board that runs all of the other functions of the machine. This blower assembly is designed with enough draw to pull the incoming air across air filters in order to keep the blower and the operator free of air-borne debris. The filtered air is then supplied into the hollow framing of the equipment to be distributed to the operator, circuit boards and motors through holes made in the equipment framing. Using the machine frame as the ductwork also preserves the style and design of the equipment. Not only is this a new idea to the exercise equipment industry, but I believe it is necessary for an exercise machine to deliver clean air to the operator in order to keep their good health in mind. A blower without an air filter will send bacteria onto the user who is breathing heavy and sweating. This seems to defeat the purpose of exercising and the benefits of getting your heart rate and breathing accelerated for a length of time. The air is not mechanically cooled but typically exercise rooms are air conditioned anyhow.

Claims

1. The air being delivered into the exercise machine is filtered, catching debris and bacteria before it collects on the blower wheel while also preventing contaminated air from blowing onto the user. A clean blower will also maintain proper air flow. Various size holes in the pipe can be used and will not clog with debris because it will be trapped in the air filter before it gets to the air filter box and blower assembly. Air channels can be created to direct air onto circuit boards or even drive motors to keep them cooler as well. Larger holes in the pipe can be used to install a nozzle that is directional and closable; giving the user even more control over the exact location and the amount of air being directed from each nozzle. A two speed motor can be used to vary the amount of air output, giving the user a low speed and hi speed option. Air filters can be replaced as needed to ensure good air flow and filtering capability. The blower assembly proto type works well. I have included drawings with the blower mounted in various locations and on several different machines. The blower assembly is mounted to and supplies filtered air into the existing pipe framework of the machine. The prototype blower assembly has an outlet that fits into a 2 p.v.c. pipe which is simulating the approximate diameter and length of the metal framing already being used for the equipment.

2. This air is filtered, catching debris and bacteria before it collects on the blower wheel while also preventing contaminated air from blowing onto the user. A clean blower will also maintain proper air flow. Various size holes in the pipe can be used and will not clog with debris because it will be trapped in the air filter before it gets to the air filter box and inducer assembly. Air channels can be created to direct air onto circuit boards or even drive motors to keep them cooler as well. Larger holes in the pipe can be used to install a nozzle that is directional and closable; giving the user even more control over the exact location and the amount of air being directed from each nozzle. A two speed motor can be used to vary the amount of air output, giving the user a low speed and hi speed option. Air filters can be replaced as needed to ensure good air flow and filtering capability. The inducer assembly proto type works well. I have included drawings with the blower mounted in various locations and on several different machines. The blower assembly is mounted to and supplies air into the existing pipe framework of the machine. The inducer assembly has an outlet that fits into a 2 p.v.c. pipe which is simulating the approximate diameter and length of the metal framing already being used for the equipment.

3. The air being delivered is filtered, removing debris and bacteria before it collects on the blower wheel while also preventing contaminated air from blowing onto the user. A clean blower will also maintain proper air flow. Various size holes in the pipe can be used and will not clog, because debris will be trapped in the air filter before it gets to the air filter box and inducer assembly. Air channels in the framework will be created to direct air onto circuit boards and drive motors to keep them cooler, as well. Larger holes in the pipe can be used to install nozzles that are directional and closeable, giving the user more control over the exact location and the amount of air being directed from each nozzle. A two-speed motor provides low and high-speed options to regulate the volume of air output. Air filters are replaceable to ensure good air flow and filtering capability. The inducer assembly proto-type works well. I have included drawings with the blower mounted in various locations and on several different machines. The blower assembly is mounted to the framework and supplies air into the existing piping of the machine. The inducer assembly has an outlet that fits into a 2 p.v.c. pipe which is simulating the approximate size and length of the metal framing used for the equipment.

Description

DRAWING DESCRIPTION

[0009] Room temperature air is drawn across an air filter to remove the dust and bacteria from the air before it enters the return air box. The filtered air is then sucked into the squirrel cage and comes out of the pipe connection under pressure. This air is piped into the existing metal framing of the machine, pressurizing it so that wherever holes or slots are made, air comes out. Holes can be larger or smaller and a grid of small holes is nice for the hand hold area. An air supply channel can be created inside of the piping used to mount the control circuit board or drive motors resulting in positive pressurized and filtered air flowing across them. Air filter replacement or cleaning can be monitored with air flow sensors and maybe a switch designed to keep the blower off if the air filter is not installed at all. As circuit boards in the newer exercise machines are designed to perform more tasks, there will be a need to keep them cool. A supply of clean air will cool circuit boards and motors, using air holes on the other end of the housing to let the air out after it passes over the boards. While exercising on a machine indoors, it is nice to have air flowing over your body to help keep you cool as if you were outside jogging or riding a bike with the natural wind cooling you off. Air filters are needed because of the fact that indoor air is much dirtier than out door air and the blower wheel needs to remain clean to work well.

[0010] I have designed a device to produce more air flow and better direct the air onto a person using a piece of exercise equipment, while also adding a filter system to remove the air born debris before it gets to the blower and then onto the user. I have built a proto-type using an inducer motor assembly from a 90% efficient furnace which vents exhaust gasses through smaller p.v.c. piping rather than the inducer used for lower efficient models which vents into larger metal vent pipe. I have tested it with both clean and dirty air filters. As the filter gets dirty the air flow decreases a little, but not much. In the heating industry, inducer assemblies consist of a small blower using a squirrel cage style wheel instead of a typical prop-type fan with blades. They are used to evacuate burned gasses from heat exchangers and push the exhaust gasses out of a building through pipes. There are many types of inducers, depending on equipment design and efficiency ratings along with the style of vent piping being used. My device uses a 90% inducer that turns the blower wheel backwards from a typical squirrel cage blower. This 90% inducer wheel paddles the air instead of scooping it. This is similar to a turbo charger on a diesel truck engine, or a circulator pump for a water boiler, or a kitchen grease duct exhaust fan. I installed an inducer assembly on top of a custom made return air box and connected the return air box to the inlet side of the blower housing. An air filter is then used to cover the inlet openings into the return air box, filtering the air before it goes into the inducer assembly to be distributed into the equipment piping.

[0011] The outlet of the inducer assembly is fitted onto the existing pipe framing of the equipment. Filtered air then travels through the equipment piping and is expelled out of holes or slits along the framing, and forced onto the equipment operator.