This invention relates to a rear-facing golf cart seat assembly that converts to a cargo bed and more particularly relates to a golf cart seat and cargo bed that are strong and resistant to water damage.
A conventional rear-facing golf cart seat has a plywood seat cushion backer board topped by a foam cushion and a vinyl cover. The vinyl cover is wrapped around the foam cushion and attached by staples to the plywood backer board. The cushion assembly is then screwed to a flip board with wood screws so that the seat can be flipped over to create a cargo bed. Over time, water intrusion causes the wood to rot regardless of the quality of the wood.
In order to address the rotting problem of a wood the seat backer board, a poly backer board has been substituted for the wooden seat cushion backer board. The poly backer board served as a portion of the cargo bed when the seat was flipped to the cargo position. The poly backer board, however, tended to warp over time creating an uneven cargo bed. Consequently, a conventional convertible rear-facing golf cart seat with a poly backer board generally required a steel frame around the outside of the poly backer board thereby creating undesirable weight.
Further, a poly backer board was usually attached to the golf cart frame by a piano hinge so that the seat could unfold into a cargo bed. This construction resulted in a cargo bed that had no rail around the edge so that cargo had to be tied down or the cargo would slip off the edges of the cargo bed. As a result of the deficiencies of the poly backer board without the railing, a steel or aluminum angle frame with a piece of plastic or sheet of metal creating the floor of the cargo bed was proposed. This configuration creates a rail for cargo but increases cost and results in a construction that is subject to corrosion and in most cases is subject to a problem created by water intrusion into the seat cushion.
Consequently, there is a need for a convertible golf cart seat that is not subject to rot, corrosion, or warping, is strong enough to bear weight on its rear portion, resists water intrusion into the foam seat cushion, and can retain cargo on the cargo bed without the necessity of tying down the cargo.
The present invention is a convertible golf cart seat assembly that attaches to the back of a golf cart or similar vehicle and that overcomes the problems identified above with respect to conventional convertible golf cart seat assembly with a wood backer board and other prior art convertible golf cart seat assemblies. The convertible seat assembly of the present invention includes a main seat frame attached to the existing golf cart structure, a plastic stationary cargo board supported by the main seat frame, a plastic flip board rotatably hinged to the main seat frame, and a seat attached to the flip board.
The main seat frame is generally rectangular and comprises two metal side rails each having an L-shaped cross-section, a metal front rail having an L-shaped cross-section, and a metal back rail having an L-shaped cross-section. The side rails extend rearwardly beyond the back rail. The side rails, the front rail, and the back rail, support a plastic stationary cargo board. The plastic stationary cargo board has a downwardly extending cargo board flange along the back edge of the stationary cargo board. The downwardly extending cargo board flange has a series of apertures along its length.
The flip board is molded plastic with an integral cargo rail molded around three sides of the flip board's periphery. When the flip board is in the cargo position and forms a portion of the cargo bed, the integral molded rail serves to restrain cargo from slipping off of the cargo bed. The flip board has hinge brackets that are rotatably attached to the side rails of the main seat frame by hinge bolts through matching holes in the hinge brackets and the side rails. The matching holes are generally aligned with the downwardly extending cargo board flange of the stationary cargo board. In order to provide a strong hinged connection between the flip board that forms a portion of the cargo bed and the stationary cargo board that forms a portion of the cargo bed, the flip board has a flip board flange extending at an angle to the plain of the flip board and along the front edge of the flip board. The flip board flange has a series of protrusions along its length. Consequently, when the flip board is in the cargo position, the flip board flange abuts the cargo board flange of the stationary cargo board, and the protrusions on the flip board flange engage the apertures on the cargo board flange.
The seat is attached to the flip board and comprises a foam seat cushion with a plastic seat cushion cap, a vinyl cover wrapped around the foam seat cushion and attached to the plastic seat cushion cap, and a plastic backer board in contact with the plastic seat cushion cap and the vinyl cover. The assembled seat, comprising the foam seat cushion with the plastic seat cushion cap, the vinyl cover, and the plastic backer board, is attached to the flip board by means of threaded metal inserts embedded in the plastic seat cushion cap and machine screws that pass through the flip board and through the plastic backer board and engage the threaded metal inserts that are embedded in the plastic seat cushion cap. Because the metal inserts are embedded in the plastic seat cushion cap, any water that wicks along the machine screws cannot reach the foam seat cushion and degrade the foam seat cushion.
The resulting construction of the convertible golf cart seat assembly with the abutting flip board flange and cargo board flange hinge creates a sturdy cargo bed when the flip board is in the cargo position. In addition, the molded flip board with its integral rail provides a cargo bed that keeps cargo from sliding off the sides or the back of the cargo bed. Further, the molded plastic flip board, backer board, and seat cushion cap not only create a laminated cargo bed that is strong but also create a seat that is impervious to moisture.
Further objects, features and advantages will become apparent upon consideration of the following detailed description of the invention when taken in conjunction with the drawings and the appended claims.
The convertible golf cart seat assembly 10 comprises a main seat frame 12, a stationary cargo board 36, a flip board 56, a seat 68, armrests 44, and a seat back 52. The armrests 44 are j-shaped with front upright members 45 and back upright members 46. The armrests 44 are formed of square tubular metal elements. The upright members 45 and 46 of the armrests 44 are connected to the frame of the golf cart 100. The main seat frame 12 is attached to the upright members 45 and 46 of the armrests 44 and is supported by the armrests 44 on the golf cart 100. The seat back 52 is connected to the armrests 44 by means of a u-shaped seatback support 48 attached to the front upright members 46. The seatback support 48 is formed of a square tubular metal element. The seatback support 48 has seatback brackets 50 (
The main seat frame 12 is best illustrated in
The stationary cargo board 36 is a single piece of molded plastic. The stationary cargo board 36 includes a flat stationary cargo portion 37 (
The flip board 56 is a single piece of molded plastic. The flip board 56 has a flat flip board cargo portion 57 (
A feature of the present invention is the cooperation of the flip board flange 64 with the cargo board flange 38 when the flip board 56 is in the cargo position as shown in
In addition to the abutment of the flip board flange 64 and the cargo board flange 38, the flip board 56 is supported in the cargo position by the side rail flanges 20 of the side rails 14. The sides of the flip board 56 are engaged by the side rail flanges 20 from a position adjacent the hinge bolts 54 to the ends 18 of the side rails 14 (
As shown in
A plastic backer board 70 is interposed between the seat cushion cap 76 and the flip board 56 (
A second embodiment of the convertible golf cart seat assembly 10 is shown in
While this invention has been described with reference to preferred embodiments thereof, it is to be understood that variations and modifications can be affected within the spirit and scope of the invention as described herein and as described in the appended claims.
This application is a continuation application of co-pending U.S. patent application Ser. No. 15/335,654, which was filed on Oct. 27, 2016, which is a continuation application of U.S. patent application Ser. No. 14/451,735, which was filed on Dec. 23, 2014, which claims the benefit of priority to U.S. provisional patent application Ser. No. 61/925,905, which was filed on Jan. 10, 2014. The disclosures of each of the above-identified patent applications are incorporated herein by reference in their entirety.
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Number | Date | Country | |
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20210146811 A1 | May 2021 | US |
Number | Date | Country | |
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61925905 | Jan 2014 | US |
Number | Date | Country | |
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Parent | 15335654 | Oct 2016 | US |
Child | 17154363 | US | |
Parent | 14451735 | Dec 2014 | US |
Child | 15335654 | US |