1. Field
The present disclosure relates generally to vehicular parking systems, and more particularly, to a quadruple vehicle parking system for vertically parking at least four vehicles in the footprint of one vehicle including an electric actuation apparatus to ensure consistent and safe operation.
2. Description of the Related Art
Urban areas throughout the world continue to experience growth and a corresponding increase in vehicular traffic. The demand for office, commercial and residential space in urban areas often makes it economically impractical to maintain at-grade vehicular parking lots. In particular, owners of real estate often can make substantially more profit by developing their land with an appropriate building than they can by using the land as a parking lot. The construction of a building on the site of a former parking lot depletes the supply of at-grade parking spaces, and simultaneously increases the demand for such spaces in proportion to the traffic generated by the new building. Multilevel vehicular parking garages exist in most urban areas. However, structures of this type are expensive to build and operate.
Parking problems also exist for new or used car dealers and for operators of vehicular fleets. These businesses must have a parking capacity to meet their inventory or fleet needs. The costs associated with maintaining a large at-grade parking facility or a multi-level parking garage often will significantly erode the profits of such businesses.
Double-decked parking apparatuses have been available in the prior art. In particular, the prior art parking apparatus includes a platform onto which a vehicle may be driven. The apparatus further includes means for lifting the platform with the vehicle thereon a sufficient distance to enable a second car to be driven under the platform. Thus, the prior art parking apparatus enables two vehicles to be parked in an area approximately the size of a single parking space, and thereby approximately doubles the usage and efficiency of a parking area.
One very effective prior art parking apparatus is shown in U.S. Pat. No. 4,209,276 which issued on Jun. 24, 1980 and is commonly assigned to the owner of the present disclosure. The apparatus shown in U.S. Pat. No. 4,209,276 includes a generally horizontal platform that is disposed between a pair of upstanding stanchions. The platform can be selectively raised or lowered relative to the stanchions. The parking apparatus shown in U.S. Pat. No. 4,209,276 includes a pair of cylinders extending upwardly from the top of the stanchions, and pistons extending from the cylinders into engagement with the platform. The pistons are extended from the cylinders to lower the platform and are retracted into the cylinders to raise the platform. Although the parking apparatus of U.S. Pat. No. 4,209,276 is extremely effective, the apparatus defines a height substantially equal to the height of the stanchions plus the height of the cylinders. This overall height typically is 11 feet 4 inches and invariably is higher than the roof of a vehicle disposed on the elevated platform. The overall height of the apparatus shown in U.S. Pat. No. 4,209,276 often prevents using the apparatus in indoor parking facilities.
U.S. Pat. No. 4,772,172 also is commonly assigned to the owner of the present disclosure herein and shows an improvement to the earlier U.S. Pat. No. 4,209,276. The apparatus shown in U.S. Pat. No. 4,772,172 includes a parking platform that is disposed between a pair of substantially vertical stanchions and that can be raised and lowered relative to those stanchions. Stabilizer bar assemblies are provided on each side of the parking platform. Each stabilizer bar assembly includes a rocker arm pivotably connected to the platform and a control arm pivotably connected to a base. The rocker arm and the control arm are further pivotably connected to one another. Thus, the stabilizer bar assembly effectively folds upon itself as the parking platform is lowered and expands as the parking platform is raised. A piston and cylinder assembly is pivotably connected to each stanchion and to the rocker arm. Movement of the piston in one direction causes the rocker arm to fold toward the control arm and thereby lowers the parking platform. Movement of the piston in the opposed direction causes the rocker arm to rotate away from the control arm, and elevates the parking platform. The apparatus shown in U.S. Pat. No. 4,772,172 achieves the desirable objective of combining the lifting and stabilizing functions of the parking apparatus, thereby substantially improving the stabilization of the apparatus. In this regard, it must be emphasized that stability is an extremely important requirement for a parking apparatus, since the apparatus must efficiently raise and lower a vehicle and steadily hold the vehicle in an elevated condition for hours on end. Furthermore, the weight and center of gravity of vehicles vary considerably, thereby making stability of the apparatus even more important. The maximum height of the apparatus shown in U.S. Pat. No. 4,772,172 generally will be defined by the roof of the vehicle parked on the platform, and typically will be between 9.5 and 10.0 feet. This is a significant improvement over the apparatus in U.S. Pat. No. 4,209,276 which defined a total height of 11 feet 4 inches. In view of this difference, the parking apparatus of U.S. Pat. No. 4,772,172 can be used in many indoor locations that were not available to its predecessor, as well as all outdoor parking lots.
The disclosures of U.S. Pat. Nos. 4,209,276 and 4,772,172 are incorporated herein by reference.
The above described prior art vehicular parking apparatus has achieved significant commercial acceptance and is available in urban areas throughout the world. However, even further parking efficiencies would be desirable. In this regard, a tri-level parking apparatus could offer such further efficiencies in the use of the limited land available for vehicular parking. More particularly, a tri-level parking apparatus could mean a fifty percent increase in revenues to the operator of a parking facility as compared to the above described prior art double-decked parking apparatus. Similarly, a tri-level parking apparatus can yield much more efficient use of space to car dealers and owners of vehicular fleets. However, stability becomes an even more important design consideration for tri-level parking apparatus.
One prior art tri-level parking apparatus is shown in U.S. Pat. No. 4,674,938 which issued to Van Stokes et al. on Jun. 23, 1987. The apparatus, shown in U.S. Pat. No. 4,674,938 includes a large cumbersome frame having a complex arrangement of pulleys and straps that are intended to maintain stability as they lift the platforms from their lower positions to their respective elevated positions. In operation, upper and lower parking platforms shown in U.S. Pat. No. 4,674,938 are disposed in their respective lowermost positions and a vehicle is driven onto the upper platform. The upper platform is then lifted to a first elevated position which enables a vehicle to be driven onto the lower platform. The upper platform is raised again to a second elevated position. A strap extending between the upper and lower platforms causes the lower platform to be raised into the first elevated position as the upper platform is raised into the second elevated position. Thus, the movement of the upper platform from the first to the second elevated positions effectively pulls the lower platform upwardly. A third vehicle can then be driven under the lower parking platform.
Furthermore, all of the above-identified parking systems employ hydraulic systems to provide power to a lifting mechanism to raise and lower the vehicle platforms. However, hydraulic systems have several drawbacks. For example, the hydraulic fluid used in the system needs to be at an appropriate temperature for the system to work properly. This may cause delays in operation of the parking system and will affect performance of the system in cold weather seasons and in generally colder climates. Additionally, pump systems required for the hydraulic system will generate a large volume of noise during operation. Further, hydraulic systems are not environmentally friendly. There is potential for fluid leakage into the ground supporting the parking system and spent or use hydraulic fluid must be disposed of in an environmentally safe way.
In view of the above, there is a need for a vehicular parking apparatus which increases the parking capacity of prior art parking systems and requires only approximately the space previously afforded to a single vehicle footprint. There is a further need for multi-level parking systems that avoid complex structures such arrangements of pulleys and straps while providing an extremely stable parking apparatus. Furthermore, there is a need for multi-level parking systems that do not require hydraulic systems and are environmentally friendly.
A quadruple parking system configured to store at least four vehicles is provided.
According to one aspect of the present disclosure, a vehicle parking system includes a rigid frame including four vertically upstanding posts, the frame generally defining a rectangular volume; at least three platforms movably disposed in the frame, each platform being configured to support at least one vehicle; the at least three platforms being coupled to each other by a telescopic coupling, wherein in a first position the at least three platforms are nested upon each other and, upon being elevated, each platform raises the platform below each other; and a hoist unit coupled to the telescopic coupling and configured to raise and lower the at least three platforms, wherein upon being fully raised the at least three platforms define four parking positions.
In another aspect, the hoist unit further includes an electric drive unit.
In a further aspect, the hoist unit includes a selectively rotatable drum coupled to the telescopic coupling configured for raising and lowering the telescopic coupling. In one embodiment, the drum further includes a ratchet mechanism configured to prevent lowering of the at least three platforms.
According to yet another aspect of the present disclosure, the hoist unit includes a selectively rotatable drum including at least one wire wound upon the drum coupled to the telescopic coupling, wherein rotation of the drum will raise and lower the telescopic coupling. In one embodiment, the telescopic coupling includes four sets of telescoping pipes and rods, each set being associated with one of the four vertically upstanding posts, and the hoist unit includes four wires wound upon the drum, each of the four wires coupled to one set of telescoping pipes and rods, wherein rotation of the drum will raise and lower the telescopic coupling. Optionally, the hoist unit further includes a bottom out mechanism configured to determine slack in the at least one wire and prevent rotation of the drum when slack is present.
In a further aspect, the vehicle parking system further includes a high limit switch positioned on at least one of the four posts at a maximum height of a highest one of the at least three platforms and configured to stop the hoist unit when the highest one of the at least three platforms make contact with the high limit switch. Optionally, a redundant high limit switch is disposed on at least one of the four posts other than the post including the at least one high limit switch.
In another aspect, the system further includes a detector configured for detecting if a vehicle is present on a lower most parking position of the frame, wherein the detector is further configured to stop the hoist unit upon detecting a vehicle.
According to a further aspect of the present disclosure, a vehicle parking system includes a rigid frame including four vertically upstanding posts, the frame generally defining a rectangular volume; at least three platforms movably disposed in the frame, each platform being configured to support at least one vehicle; the at least three platforms being coupled to each other by a coupling means, wherein in a first position the at least three platforms are nested upon each other and, upon being elevated, each platform raises the platform below each other; and an elevating means coupled to coupling means to raise and lower the at least three platforms, wherein upon being fully raised the at least three platforms define four parking positions.
The above and other aspects, features, and advantages of the present disclosure will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings in which:
Preferred embodiments of the present disclosure will be described hereinbelow with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the present disclosure in unnecessary detail.
A vehicle parking system of the present disclosure is identified generally by the numeral 10 in
The vehicle parking system 10 includes first, second and third parking platforms 32,34,36 respectively. Each parking platform is dimension and configured to be nested over another lower parking platform when the platforms are in their lowermost position relative to the frame 12. The first, second and third platforms 32, 34,36 are positioned within the rigid frame 12 by a hoist unit 38 and system of telescopic rods and pipes. As best shown in
Referring to
Generally, in operation, the parking system 10 will initially have no vehicles disposed therein and the parking platforms 32,34,36 will be nested over each other at the base 22 of the frame 12. When activated, the drive unit 42 will rotate the drum 46 causing the wires 48 to be wound on the drum 46. As the drum is wound, the wires 48 will cause the first telescopic pipe 52 to be elevated in turn raising the first parking platform 32. As the lower end of the first telescopic pipe 52 reaches a top portion of the second telescopic pipe 56, the lower end of the first telescopic pipe 52 engages the upper portion of the second telescopic pipe 56 causing the second telescopic pipe 56 to be raised and, in turn, raises the second parking platform 34. As the lower end of the second telescopic pipe 56 reaches a top portion of the third telescopic rod 58, the lower end of the second telescopic pipe 56 engages the upper portion of the third telescopic rod 58 causing the third telescopic rod 58 to be raised and, in turn, raises the third parking platform 36. When all the parking platforms are raised, the parking platforms will define a maximum height h2,h3,h4 for a vehicle to enter, e.g., approximately 6 feet 8 inches.
Referring to
Referring to
Mounted adjacent the release handle 86 is a control unit or pushbutton station 88 which controls operation of the vehicle parking system 10. The pushbutton station 88 is coupled to the hoist unit 38 and an electrical panel box 90 which supplies power to the hoist unit 38. Referring to
The vehicle parking system may also include an operation light 104 which is illuminated or flashes whenever the system 10 is in operation, e.g., whether the parking platforms are being raised or lowered. Furthermore, the system 10 may be equipped with an audible device 106, e.g., a buzzer, siren, etc., which is activated whenever the system is in motion. The emergency stop button 102 will cause all motion to be stopped when pressed and cutoff power to the system. The system 10 will not be operational until the emergency stop button 102 is reset.
Referring to
Referring back to
Further economization of space can be provided by daisychaining a plurality of vehicle parking systems 10 of the present disclosure. In this embodiment, two posts, e.g., post 16, 20, of frame 12 can be shared by two vehicle parking systems 10 thereby obviating the need for two separate frames 12. For example, when configuring a parking system for eight vehicles only six posts will be needed; in a parking system configured for twelve vehicles only eight posts will be needed. In this manner, the vehicle parking system 10 of the present disclosure will not only save valuable physical space but will reduce material and installation costs.
A vehicle parking system has been provided including a rigid frame including four vertically upstanding posts; at least three platforms disposed in the frame, each platform being configured to support at least one vehicle; the at least three platforms being coupled to each other by a telescopic coupling, wherein in a first position the at least three platforms are nested upon each other and, upon being elevated, each platform raises the platform below each other; and a hoist unit coupled to the at least three platforms and configured to raise and lower the at least three platforms. The hoist unit employs an electric drive unit for ensuring consistent and smooth operation in various temperature conditions. Additionally, the hoist unit is mounted on top of the rigid frame positioning the center of gravity of the parking system within the frame making the system more stable than prior art hydraulic systems where pistons and cylinders are actuated outside of the frame structure.
While the disclosure has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
4209276 | Rosen | Jun 1980 | A |
4674938 | Van Stokes et al. | Jun 1987 | A |
4772172 | Rosen | Sep 1988 | A |
4867627 | Tseng | Sep 1989 | A |
5035562 | Rosen | Jul 1991 | A |
5145304 | Rosen | Sep 1992 | A |
5207333 | Peng | May 1993 | A |
5622466 | Rossato | Apr 1997 | A |
6106210 | Toxer | Aug 2000 | A |
6241049 | Gooch | Jun 2001 | B1 |
6652205 | Christensen | Nov 2003 | B2 |
7061197 | Mullet et al. | Jun 2006 | B1 |
20040258506 | Haag | Dec 2004 | A1 |
Number | Date | Country | |
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20090087290 A1 | Apr 2009 | US |