How to Install and Maintain Photoeye Sensors for In-bay Automatic Car Washes

In-bay automatic car washes rely on sensors to control the car wash equipment. Without sensors, the wash computer would assume that every vehicle is the same length, height, and width. Applications for sensors include starting the wash, measuring vehicles, and controlling the opening and closing of doors. Photoelectric sensors have become a preferred method of detection due to their performance and ease of use. Proper installation and regular maintenance will ensure uninterrupted performance from the photoelectric sensors.

The first thing to consider when choosing a sensor for an automatic car wash is the type of application that the sensor will be used in. Photoelectric sensor systems typically consist of, at very least, an infrared transmitter, an infrared receiver, and in high-powered systems, an external amplifier. For the simple detection of a vehicle, the photo eyes are positioned on either side of the car wash. The transmitter photo eye emits an infrared beam of light across the bay that is detected by the receiver photo eye. When the infrared beam is interrupted by a vehicle, a signal is sent to the equipment to perform the desired application. This may be starting the equipment, measuring or profiling the vehicle, or simply opening and closing the doors. Usually, one sensor is mounted high, while the other is mounted low so that the sensors form a diagonal line to the ground. This causes the beam to pass through the area where the largest portion of the vehicle will pass and helps to reduce false signals. Mechanical treadle plates that are used to position the vehicle may be replaced by photoelectric sensing systems.

The body of the sensor should be durable and designed to withstand the harsh conditions of the wash. There are sensor bodies available in plastic, nickel-plated brass, and stainless-steel to meet the requirements of the car wash environment. A simple infrared sensor like the ones used in a residential garage door application are not designed to withstand the conditions in a car wash and should be avoided in this type of application because they lack the proper sealing. For the car wash environment select a sensor with an IP67 rating. This rating is used to inform the end-user that the sensor is sealed in a way that will not allow the internal circuits to be damaged by water spray or submersion. The range of the sensor is important for two reasons. It is much easier to mount the sensors in a place where they will not be hit if they have a long enough sensing distance. A strong infrared beam will also assist in penetrating the steam, mist, and soap that are present while the wash is running and will provide fewer false signals and the resulting down-time.

Required maintenance to photoelectric sensors is easy, and requires very little time. Check the alignment of the photo eyes using a length of string or wire long enough to pull in a line between the sensors. This line should be parallel with the sides of both sensors. If you are using a set of photoelectric sensors that uses an external amplifier, periodically check to be sure that the seal on the enclosure box is still intact and that no water has penetrated into the inside of the box.

If you have problems with the photoelectric controls, determine the nature of the problem. Are they giving an intermittent output that flickers? Do the sensors report an output all the time? Is it impossible to break the beam between the photo eyes? Once you determine the nature of the problem, it is then easier to isolate the cause. If there is a flickering output, check the alignment of the photo eyes. Next check to be sure the photoelectric system is turned high enough. (On amplified systems, this setting is located on the amplifier, inside the water-tight enclosure.) If both of these things appear normal, check for corrosion at any points where the cable has been cut and spliced. If you find corrosion, be sure to cut and reconnect the wires using a soldered connection and heat-shrink tubing. This will help seal out moisture from the connection. If you still see flickering from the output of the photo eyes, check to be sure all wires that should be grounded are connected to ground. The wires from the photoelectric controls should not share the same conduit as the wires from any motor controls.

If a constant output is the problem, check both photo eyes for obstructions. Be sure trash hasn't blown in front of the eyes and found a permanent home in the path of the beam. Alignment may also be an issue, but if they are out of alignment far enough to give a solid output signal, then this should be fairly obvious to the naked eye. Next, look closely at the face of the photo eyes. Check for visible cracks or bad abrasions. Even an IP67 sealed photo eye can be rendered useless if a large enough crack forms in the face of the sensor, thereby allowing moisture to breach the internal circuits of the photo eyes.

If it appears that the infrared beam between the eyes is impossible to break, the cause is one of several things. The first is simply that the intensity of the infrared beam is too strong and that it is literally not being blocked as the vehicle passes. Reflections on the wet walls contribute to this problem also. Try turning the strength of the system down a little. If this doesn't work, check the alignment of the photo eyes. Maybe the photo eyes see each other at an angle and when the vehicle passes through, the beam is not being broken at that angle.


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How to Automate a Haunted House Using Sensors

You've built a creepy haunted house and it's the scariest one around. How do you take it to the next level? Automate it using non-contact infrared photoelectric sensors to control electronic scare devices.

Haunted houses are designed to be very creepy and with enough volunteers, they may be loaded with frights around every corner. What if there are not enough volunteers available to haunt the house? Infrared photoelectric sensors are the perfect device to detect guests and to trigger electronic gadgets, such as noise makers or motorized animatronic characters, giving visitors a scare they won't soon forget.

Sensors are used every day in various industries ranging from food processing to automotive assembly lines. Some of the top commercial haunted houses in the country are now using the very same sensors to automate their haunted attractions, providing a far creepier presentation. Industrial sensors are available to the general public for less money than you might expect, giving the average Joe an opportunity to built a haunted house that rivals even the ones presented by major theme parks.

The easiest type of photoelectric sensor to use in a haunted house attraction is one that uses a mechanical relay switch. This type of sensor is as easy to wire and operate as a light switch. Also be sure that the photoelectric sensors use infrared light and do not display a visible light which would draw attention to them. Arrange the photoelectric sensors across from each other in a hallway or door jamb, or anywhere that a guest will pass between them. The guest will break the infrared beam of light, causing the mechanical relay switch in the photoelectric controller to close, which will provide power to a noise maker or animatronic device. Each time a guest passes the sensors, the same action will occur repeatedly without operator intervention. This allows volunteers in the haunted house to spend time mingling with the guests and not hiding behind walls, just making noise.

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Amusement park applications

How to Equip Amusement Rides with the Right Sensors

The best types of sensors in an amusement park are the ones you don’t think about until maintenance time. Find the most reliable products and they will save you money and headaches all year long.

Evaluate each amusement ride individually. What type of sensing solution is currently in place? How well does it work? If it is possible to replace contact switches, otherwise known as limit switches, with a non-contact solution, it will greatly improve the uptime for that ride. Contact switches with moving parts wear out quickly, whereas non-contact sensors only need to be replaced in the event that they are destroyed by collision, Mother Nature, or extremely rough handling. Consult with a manufacturer or distributor of industrial sensors and ask them for assistance with your application. Any sensor company who is interested in doing business with you should be able to support the products and answer your questions.

If a new sensor is what you desire, the next decision is which type of sensing technology to implement. There are many sensors to choose from, but in the amusement industry, the top picks are infrared photoelectric sensors and inductive proximity sensors. A transmitter photo eye projects an infrared beam of light, which is invisible to the naked human eye. A receiver photo eye reports when it sees the beam and when it doesn’t and will pass a signal to the appropriate controller. Rides that require objects to be detected from a distance or in harsh conditions, like log flume rides, river rapids, and dark, smoky theme rides are great places for photoelectric sensors.

Try an inductive proximity sensor in areas where metal objects must be detected at close range. These sensors will only detect metal and their sensing distance is limited, but they are extremely tough and can take a beating. Rides like roller coasters, where the sensor may be mounted on the track and detect the metal in the train are good applications for inductive proximity sensors. Inductive proximity sensors are excellent replacements for limit switches.

Develop a routine maintenance schedule and replace all sensors in the amusement park at least once a year. This will ensure proper function and will keep the rides operating at their peak performance. Visitors will appreciate the ride availability and you will notice improved uptime and fewer replacements throughout the year.

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