As the population continues to grow in many major cities and towns all over the word so do the challenges. Parking of cars has stood out as one of the most difficult of these challenges. This has been caused primarily by the lack of land to construct car parks. The rapidly shrinking land has to accommodate more commercial and residential buildings which investors say bring in better returns. Robotic parking systems appear to provide the solution to the parking nightmare that many drivers in these cities have had to deal with.
The reason as to why this development is successful is because it has allowed for smaller spaces to handle many more vehicles than was the case in the past. To achieve this, many designs take the form of several levels or stories that range between 4 and 30. There is accompanying hi tech technology that maintains a high efficiency in storing and retrieving the vehicles. The driveways and ramps that were previously a common site are no longer used.
There are five types of automated systems in current usage. These include the crane, the puzzle, the rail-guided cart, the shuttle and the silo systems. Each of them has its own strengths and weaknesses. In choosing any of them, a developer will need to put a number of things into consideration. The most important of them are the size of the budget, the site of construction and the expected number of customers among others.
The crane system is one of the simplest. Here, a crane moves the car to be parked or retrieved through a horizontal and vertical plane as is desired. This provides great efficiency that saves a lot of time. For the crane to move horizontally, rails fixed on the floor are used. An elevator mechanism moves it through the vertical plane.
The puzzle system is recommended where there is a limitation of space. The design comprises several pallets that are arranged to form a grid. The pallets are connected to each other by conveyer belts. They are driven by electric motors and move by means of rollers. Rail guided carts, RGC are very similar to this. RGCs are placed beneath the pallet that transports the car.
Shuttle Systems are operated by use of programmed elevators. There may be one or two rows of vehicles on both sides of the shuttle. The number of shuttles varies and is primarily dependent on the amount of capital available. Robots facilitate horizontal movement. There are two lift types used and these are the Off Aisle Lifts (OALs) and End Aisle Lifts (EALs).
As the name suggests, a silo design closely resembles a cylinder. The gigantic cylinder is fitted with a parking and retrieval mechanism in the middle. This mechanism can move in a circular motion as well as up and down. It reaches its target by rotating and moving vertically simultaneously. Its disadvantage is that it can only park or retrieve only one vehicle at any one time.
There are many benefits that have resulted from the use of robotic parking systems. These are enjoyed both by the provider of the service and the customer. Many customers are assured of better security for their vehicles as well as efficiency in parking retrieval. The investors, on the other hand, get more returns to their capital due to the high numbers of clients that they serve on a daily basis.
The reason as to why this development is successful is because it has allowed for smaller spaces to handle many more vehicles than was the case in the past. To achieve this, many designs take the form of several levels or stories that range between 4 and 30. There is accompanying hi tech technology that maintains a high efficiency in storing and retrieving the vehicles. The driveways and ramps that were previously a common site are no longer used.
There are five types of automated systems in current usage. These include the crane, the puzzle, the rail-guided cart, the shuttle and the silo systems. Each of them has its own strengths and weaknesses. In choosing any of them, a developer will need to put a number of things into consideration. The most important of them are the size of the budget, the site of construction and the expected number of customers among others.
The crane system is one of the simplest. Here, a crane moves the car to be parked or retrieved through a horizontal and vertical plane as is desired. This provides great efficiency that saves a lot of time. For the crane to move horizontally, rails fixed on the floor are used. An elevator mechanism moves it through the vertical plane.
The puzzle system is recommended where there is a limitation of space. The design comprises several pallets that are arranged to form a grid. The pallets are connected to each other by conveyer belts. They are driven by electric motors and move by means of rollers. Rail guided carts, RGC are very similar to this. RGCs are placed beneath the pallet that transports the car.
Shuttle Systems are operated by use of programmed elevators. There may be one or two rows of vehicles on both sides of the shuttle. The number of shuttles varies and is primarily dependent on the amount of capital available. Robots facilitate horizontal movement. There are two lift types used and these are the Off Aisle Lifts (OALs) and End Aisle Lifts (EALs).
As the name suggests, a silo design closely resembles a cylinder. The gigantic cylinder is fitted with a parking and retrieval mechanism in the middle. This mechanism can move in a circular motion as well as up and down. It reaches its target by rotating and moving vertically simultaneously. Its disadvantage is that it can only park or retrieve only one vehicle at any one time.
There are many benefits that have resulted from the use of robotic parking systems. These are enjoyed both by the provider of the service and the customer. Many customers are assured of better security for their vehicles as well as efficiency in parking retrieval. The investors, on the other hand, get more returns to their capital due to the high numbers of clients that they serve on a daily basis.
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