Everything You Need to Know About Bowling String Pinsetters | Flying

Everything You Need to Know About Bowling String Pinsetters

Bowling string pinsetters are revolutionizing the way bowling alleys operate. As a cost-effective and efficient alternative to traditional free-fall pinsetters, they are gaining popularity worldwide. we’ll explore how bowling string pinsetters work, their benefits, and why they are a game-changer for bowling alley owners.

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What is a Bowling String Pinsetter?

A bowling string pinsetter is a modern pinsetting system that uses strings attached to the pins to reset them after each roll. Unlike traditional free-fall pinsetters, which rely on mechanical arms to lift and place pins, string pinsetters use a simpler mechanism. Each pin is connected to a string, which is controlled by a motorized system. After a roll, the strings gently lift the pins back into position, ensuring a smooth and consistent setup.

This innovative design reduces mechanical complexity, making string pinsetters more reliable and easier to maintain.

How Does a Bowling String Pinsetter Work?

The operation of a bowling string pinsetter is straightforward:

1. String Attachment: Each pin is attached to a durable string, which is connected to a motorized system above the lane.

2. Pin Reset: After a roll, the motorized system lifts the remaining pins using the strings.

3. Pin Placement: The system carefully places the pins back into their starting positions for the next roll.

4. Ball Return: The bowling ball is returned to the player through a separate mechanism, ensuring uninterrupted gameplay.

This process is faster and quieter than traditional pinsetters, enhancing the overall bowling experience.

What Are the Benefits of Bowling String Pinsetters?

Bowling string pinsetters offer several advantages over traditional systems:

1. Cost-Effectiveness: String pinsetters are more affordable to purchase and maintain, making them ideal for small and medium-sized bowling alleys.

2. Energy Efficiency: They consume less power compared to free-fall pinsetters, reducing operational costs.

3. Durability: With fewer moving parts, string pinsetters are less prone to mechanical failures.

4. Quiet Operation: The gentle lifting mechanism produces minimal noise, creating a more enjoyable environment for players.

5. Space-Saving Design: Their compact design allows for easier installation in smaller venues.

Are Bowling String Pinsetters Approved for Professional Use?

Yes, bowling string pinsetters are approved for use in professional and recreational settings. Organizations like the United States Bowling Congress (USBC) have certified certain models for league play and tournaments. However, it’s essential to ensure that the specific model meets the required standards for your region.

How Do Bowling String Pinsetters Compare to Traditional Pinsetters?

While traditional free-fall pinsetters have been the industry standard for decades, string pinsetters are quickly gaining ground. Here’s a quick comparison:

| Feature | String Pinsetters | Traditional Pinsetters |

|||--|

| Cost | Lower upfront and maintenance | Higher upfront and maintenance |

| Noise Level | Quieter | Louder |

| Energy Consumption | Lower | Higher |

| Mechanical Complexity | Simpler | More complex |

| Space Requirements | Compact | Larger footprint |

Why Choose Flying for Bowling String Pinsetters?

Since , Flying has been at the forefront of bowling alley equipment innovation. Our string pinsetters are designed with precision and durability in mind, offering a cost-effective solution for bowling alleys of all sizes. Here’s why customers trust Flying:

- Expertise: With over 17 years of experience, we understand the needs of bowling alley owners.

- Quality: Our equipment meets international standards, ensuring reliability and performance.

- Customization: We offer tailored solutions to meet the unique requirements of your venue.

- Global Reach: We’ve successfully served over 3,000 customers worldwide, from small recreational centers to large commercial bowling alleys.

Frequently Asked Questions About Bowling String Pinsetters

1. Are string pinsetters suitable for mini bowling alleys?

Yes, string pinsetters are an excellent choice for mini bowling alleys due to their compact design and cost-effectiveness.

2. How often do string pinsetters require maintenance?

String pinsetters require minimal maintenance compared to traditional systems. Regular inspections and occasional string replacements are usually sufficient.

3. Can string pinsetters handle heavy usage?

Absolutely. Flying’s string pinsetters are built to withstand high usage, making them ideal for busy bowling alleys.

4. Do string pinsetters affect gameplay?

No, string pinsetters provide a seamless gameplay experience. The strings are designed to be unobtrusive, ensuring fair and consistent pin placement.

5. What types of bowling alleys are best suited for string pinsetters?

String pinsetters are versatile and can be used in standard bowling alleys, mini bowling lanes, and even duckpin bowling setups.

Conclusion

Bowling string pinsetters are transforming the bowling industry with their efficiency, affordability, and reliability. Whether you’re opening a new bowling alley or upgrading your existing equipment, Flying’s string pinsetters offer a cutting-edge solution that meets your needs.

If you want to learn more, please visit our website Xiangshuo Technology.

With over 17 years of experience and a commitment to quality, Flying is your trusted partner in bowling alley equipment. Contact us today to learn more about our innovative products and customized services.

In­ the early days of bowling, respotting the pins was a physically demanding job. There were actually people behind the lanes resetting the pins and sending back the balls.

Today there are amazing robotic devices that do all the pin setting. The automatic pinsetter, first patented by Gottfried Schmidt, was introduced by the American Machine and Foundry Company (AMF) in . This first pinsetter was a monster, weighing nearly 2 tons (1.8 metric tons) and standing 9 feet (2.7 m) tall.

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Modern pins­etters are but a fraction of a size of their predecessors and much more intelligent. In this article, you will see how bowling pinsetters are able to pick up standing pins, clear the lane of any knocked-over pins and accurately reset the pins after every ball.

Bowling Basics

Many different versions of the game exist around the world, but the most popular is tenpin bowling. You roll a bowling ball down a slick lane to knock down 10 pins, which are in a triangular arrangement facing you. On either side of the lane are gutters that will trap the ball if it veers too far to either side of the lane.

A set of 10 pins is known as a rack. A game is made up of 10 frames. The job of the pinsetter is to create each rack at the beginning of each frame, and clear away knocked-over pins so they do not get in the way. Most modern bowling facilities have computerized bowling lanes that display your score automatically throughout the game, and the electronics and sensors in the pinsetter also help keep track of the score.

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Now let's learn about the machine that sets up the pins after every roll.

Bowling, Updated

In the late s, Cosmic (or Extreme) Bowling was introduced, adding strobe lights, fog machines, glow-in-the-dark bowling pins and loud music into bowling centers in an effort to attract a younger audience to bowling.

As the Pins Fall

The pinsetter sits quietly at the end of the bowling lane, waiting for the bowler to roll a ball toward the pins. A Brunswick GSX pinsetter, which is the one we will look at in this article, is one of the newest pinsetters in the bowling industry. The Brunswick pinsetter consists of four main parts:

1. Sweep
2. Pin elevator
3. Pin distributor
4. Pin table

Altogether, there are over 4,000 individual parts that go into resetting the pins after you roll!

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An automatic pinsetter works with a total of 20 pins, twice the number needed for the 10-pin arrangement. The pinsetter goes to work in cycles, set procedures that are executed after a ball has been rolled. To be able to react appropriately, the pinsetter needs to know exactly what has occurred below it on the lane, whether it be a strike or a gutter ball. Modern pinsetters interface with a small CCD scanner camera that is mounted farther down the lane. The camera quickly senses exactly which pins have been knocked down, and then relays this information to the pinsetter. In older pinsetters, this function was performed by the pinsetter itself. It would lower itself onto the lane and use "fingers" to determine which pins weren't standing. Most newer pinsetters still have the "fingers" as a backup to the CCD camera -- they may use them during situations when the camera cannot function properly.

­­ The next step depends on exactly what has occurred on the lane. Let's examine the cycle that most often occurs when amateur bowlers are on the lane, typically called the "first ball - standing pins" cycle. This cycle runs when a bowler, on the first roll, knocks down between one and nine pins. The pinsetter needs to accomplish three distinct tasks:

1. Pick up the standing pins remaining on the lane
2. Sweep away the "deadwood" (pins knocked down but still on the lane)
3. Set the remaining pins back on the lane to give the bowler another chance to knock them down

The process is set in motion after the bowler rolls a ball down the lane.

1. A roll is detected by a sensor located just a few feet in front of the pins. The sensor is set on a delay of a second or two to allow the ball to hit the pins and end up in the ball pit before the pinsetter starts to do its thing. The ball pit is the area directly behind the rack of pins; it handles the initial impact of both the bowling ball and the flying pins.
2. The sweep lowers itself into a "guard" position in front of the pins. The sweep is a rectangular sheet of metal that extends downward in front of the pins to protect the pinsetter from any balls that might be thrown at it during its cycle. It also keeps any would-be cheaters from rolling extra balls down the lane. Now that the lane is secure, the pinsetter can pick up the remaining standing pins.
3. The pin table, which consists of ten holes, each big enough to fit a pin, is lowered on top of the pins.
4. Once the pinsetter (with or without aid of the CCD camera) has determined that there are between one and nine pins left, this information is sent to the automatic scoring software and the spotting tongs are closed around the pins via a solenoid.
5. The pin table rises again with the remaining pins held in the spotting tongs.

Now that the remaining pins are out of the way, it's time to get rid of the pins left on the lane!

Bowling Big

The National Bowling Stadium in Reno, NV -- dubbed "the Taj Mahal of Tenpins" -- features 78 bowling lanes, an IMAX theater and the world's longest video screen stretching across the top of the lanes.

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Out with the Old

The next step is to sweep away the deadwood. The sweep that had been in the "guard" position is pulled back and forth one time in order to sweep away the knocked-down pins that are still on the lane. These pins are then moved via conveyor belt back into the pin elevator. They will be be used in the upcoming frames.

1. Once the sweep is back in guard position, the pin table lowers (remember that the remaining pins are held in the pin table at this point).
2. When the pins are back on the lane, a switch is automatically triggered, flipping open the tongs so that the pins remain on the lane as the pin table rises back to its original position.
3. Once fully risen, the pin-holder switches are triggered, allowing ten of the pins in the pin elevator to fill in the pin table in anticipation of the next frame. Since the second ball is coming up, the pin table will not need to perform a pick-up again and therefore can work ahead while the bowler takes his second roll.

The preloading of the next frame's pins can only be done in machines in which a CCD camera is used for scoring and pin-count purposes. Otherwise, the pin table needs to lower itself empty after the second ball is rolled in order to provide pin-count information to the automatic scoring machine.

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The presence (or lack of) a camera, along with the results of the second ball, will determine the next cycle. Assuming that a camera is present, the next cycle consists of a simple sweep of the pins and a placement of 10 new pins on the lane for the next frame. Several other cycles are possible, however, including preset cycles for fouls and out-of-range pins.

Newer pinsetters have advanced features and cycles that speed up play. The computer power in new pinsetters allows them to make more intelligent decisions, effectively decreasing delays. One example of these advances is the short cycle. Short cycles are specific cycles that are run if the 7 pin or 10 pin is knocked down and if no pins are knocked down. In these cases, there's no deadwood, so no sweep motion is necessary. This saves not only time but also wear on the machine.

Let's find out what else is going on behind the scenes.

Did You Know?

• Most bowling pinsetters include over 4,000 individual parts!

• According to the IBMHF, in , a Connecticut law rendered ninepin lanes illegal because of their gambling implications.

• Bowling gameshows like "Bowling for Dollars" were popular in the United States in the s.

• The AMF Gold Edition pinsetter currently has the world speed record for automatic pinsetters with a strike cycle time of 8.5 seconds.

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Behind the Scenes

Two other functions of the pinsetter that are not seen by the bowler are the ball accelerator and the pin elevator. The ball accelerator returns the ball to the bowler at the other end of the lane through a conveyor-like system.

After a roll, the ball and the knocked-down pins are located behind the lane in the ball pit. Below the ball pit is a conveyor belt called the transport band. The pins and ball fall onto this band and are moved toward the pin elevator. The bowling ball takes a detour at some point along the transport band, veering off through a specially designed ball door. Only the ball is heavy enough to trigger the sensor necessary to open the door, so only the ball can go through. The ball is then accelerated through a conveyor system under the lane, back toward the bowler for the next roll.

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The pins on the transport band continue toward the pin elevator. The pin elevator consists of about a dozen trays located on two pulleys. The pins funnel onto the trays and are raised up toward the pin distributor. The distributor is located above the pin table. It helps place new pins into the pin table so they are ready when a new rack is needed.

The distributor has a mechanism known as a shark switch that pivots a funnel-like tray back and forth onto either of two conveyor belts. The position of the switch is determined by electronics in the pinsetter that know exactly where a new pin is needed. Each of the two conveyor belts has a number of pin stations where the pins settle into the pin table. The pins are kicked off the conveyor belt into the pin stations by bumper devices controlled by the main electronics (which determine where a pin is needed). Once the new pins are loaded, the pin table pivots horizontally, turning the bowling pins upright, and lowers them onto the lane at the proper time.

For lots more information on bowling pinsetters and related topics, check out the links that follow.

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