The present invention relates to molded plastic chairs. More particularly, the present invention relates to a molded plastic rocking chair that can be stacked on an identical rocking chair.
A wide variety of molded plastic chairs that stack one upon another are available in the marketplace. These prior art chairs have a seat, a back, front legs and rear legs directly connected to the seat, and usually have arms extending from the seat to the back. Each arm creates an opening bounded by that arm, the back and the seat. The legs extend outwardly from vertical to enable the chairs to be stacked one on top of another. In some stackable plastic chairs the rear legs of the uppermost chair extend through the openings bounded by the arms, back and seat of the chair below that chair in the stack. Stackable chairs have an advantage in that they can be stacked upon one another and placed on a pallet for easy transport. A retailer may display the stacked chairs on the same pallet on which they have been shipped. Consumers may also store several stackable chairs stacked one upon another. Plastic chairs are also advantageous because they are comfortable, inexpensive to manufacture, practical, lightweight, portable, water and weatherproof, sturdy, attractive, relatively easy to care for, and easy to move to and from a stacked arrangement.
U.S. Pat. Nos. 4,341,419 and 5,002,337 disclose examples of stackable side chairs. U.S. Pat. No. 7,401,854 discloses a stackable folding Adirondack chair. U.S. Pat. No. D688,885 discloses a stackable bar stool. All of these chairs have four legs with feet that rest on the floor or ground. For many years there has been a need for a stackable plastic rocking chair.
Woodring in a series of related patents including U.S. Pat. Nos. 8,070,229, 8,313,141 and 8,960,792 discloses a monobloc rocking chair which is injection molded in one piece. This chair was designed to place the arms as wide as possible to give it the appearance of a traditional Adirondack chair. He teaches that the side walls of the chair which includes the legs and the rockers must diverge outwardly from the top of the chair to the bottom so that the chairs can be stacked. Woodring's rocker has the rockers outboard of the arms. Because of the outward divergence of the legs, the relatively small contact area between the floor and the rockers and the fact that the contact area changes as a person rocks in the chair, the rockers in the Woodring rocking chair can splay outwardly when a person sitting on the chair rocks back and forth. Continued rocking can cause the legs to break or cause the rockers to break away from the legs, breakage being more likely as the weight on the chair increases.
U.S. Pat. No. 9,504,329 discloses a stackable, plastic molded rocking chair in which the rockers have a base with a curvature that can prevent the rockers from splaying outward when weight is dropped on the chair or while a person is rocking the chair. Like Woodring's rocking chair, the side walls, legs and the rockers of this stackable rocking chair diverge outwardly from the top of the chair to the bottom so that the chairs can be stacked.
U.S. Pat. No. 3,446,530 to D. L. Rowland for Nested Armchair discloses a stackable side chair having a wire frame. A U-shaped rod forms the legs on each side of the chair. There is a right arm and a left arm that extend from the back. An arm support made of an L-shaped metal rod is provided for each arm. The upper end of each arm support is attached to the arm and the lower portion of each arm support is attached to the base of a U-shaped leg which creates a gap between the seat and the upright. One chair can be stacked upon another chair by positioning each of the U-shaped legs of one chair within one of the gaps between the seat and an arm support of a second identical chair. There have been no similar chairs made of plastic because of doubts or concerns that a plastic chair would not meet applicable safety standards.
Plastic chairs for outdoor use must meet certain standard performance requirements. ASTM F 1561-03 standard sets forth specific tests to be performed in order to determine if a plastic chair meets those requirements. One test involves placing the chair on a glass surface which simulates smooth surfaces such as linoleum and wet pool decks. 300-400 pounds is placed on the chair. The chair must then hold for at least 30 minutes without failing. Failure occurs when the chair collapses or when any visible evidence of structural damage develops such as cracking. Chairs are often left up beyond 30 minutes to further evaluate performance even though that is not specified as necessary per the ASTM standard. Another test involves dropping a bag of shot onto the seat of the chair from a height of six inches above the seat. This test is conducted using a bag that weighs 150-250 pounds. The impact is repeated ten times. There must be no breakage or structural damage. The static load and impact tests are then repeated on plywood to simulate rougher surfaces such as textured concrete or treated lumber used on a deck. There are other tests required by the ASTM standard, but the tests described above are the core tests for that standard.
Retailers may require that other tests in addition to those outlined in the ASTM standard must be passed before they will sell a resin chair. The other tests may be derived from other standards that exist in the industry. BIFMA X5.1 requires that the chairs must pass one impact of 225 lbs. from six inches. Additional required tests may be “home-grown” where the retailer creates their own protocol such as one intended to simulate actual use. One example is a test where a rocking chair is loaded with weight such as used in a standard static load test and then rocked for a large number of cycles. Finally, there are test protocols for chairs intended to be marketed to large occupants. These chairs must withstand impacts of greater than 225 lbs.
Molded plastic rocking chairs may be required to pass any or all of the tests described above, or other tests not described herein, to be deemed sufficient for retail distribution. It is unlikely that rocker like that illustrated in the Woodring patents or a plastic version of Rowland's armchair will pass all of the required tests.
Consequently, there is a need for a stackable plastic rocking chair that will pass all tests that may be required for retail distribution.
I provide a stackable rocking chair having a seat, a back attached to the seat, a right front leg and a right rear leg connected to the seat and a right rocker as well as a left front leg and a left rear leg connected to the seat and a left rocker. There is a right arm and a left arm that extend from the back and an arm support for each arm. Each arm support has an upright and also may have a spacer. The upper end of each upright is attached to an arm. Each upright is adjacent and substantially parallel to one of the front legs. There is a gap between the front leg and the upright. I prefer to provide a spacer that is connected between a front leg and the lower end of the upright. However, the gap can be created by attaching the upright to the outer side of the rocker or by using a spacer and by attaching the upright to the outer side of the rocker. This gap has a width greater than the width of the rockers. One stackable rocker can be stacked on another stackable rocker by positioning the rockers of one chair within the gaps between the front legs and the arm supports of a second chair.
I prefer that the spacers be sized and positioned so that when a second substantially identical stackable rocking chair having a right rocker and a left rocker is stacked on my stackable rocking chair the right rocker of the second substantially identical rocking chair rests on the right spacer of the first chair and the left rocker of the second substantially identical rocking chair rests on the left spacer of the first chair.
I also prefer to provide a cross member having one end connected to the right rear leg and an opposite end connected to the left rear leg. I provide at least one brace having one end connected to the cross member and an opposite end connected to the back. The cross member may be sized and shaped to rest upon the seat or back of a rocking chair upon which the rocking chair having this cross member is stacked.
The arm supports are preferably hollow. The upper end of either or both arm supports may be kept open and a floor can be provided within the upper end to create a pocket for a cell phone or other items. A portion of one or two walls of the arm support can also be a wall or walls of the pocket.
Preferably this stackable rocker is plastic. The plastic may be polypropylene, calcium filled polypropylene or talc filled polypropylene.
Other features and advantages of my stackable rocking chair will become apparent from certain present preferred embodiments thereof which are shown in the drawings.
Referring to
A left arm support 12 has an upright 12a attached to the front of left arm 10 and the left rocker 8 and also has a spacer 16 between and attached to the upright 12a and the left front leg 4. The spacer 16 may also be attached to the left rocker 8. The upright 12a of the left arm support 12 is adjacent and substantially parallel to the left front leg 4, such that there is a gap 14 between the left front leg 4 and the left arm support 12. This gap 14 has a width greater than the width of the left rocker 8.
A right arm support 13 has an upright 13a attached to the front of right arm 11 and the right rocker 9 and also has a spacer 17 between and attached to the upright 13a and the right front leg 6. The spacer 17 may also be attached to the right rocker 9. The upright 13a of the right arm support 13 is adjacent and substantially parallel to the right front leg 6, such that there is a gap 15 between the right front leg 6 and the right arm support 13. This gap 15 has a width greater than the width of the right rocker 9.
As can be seen in
I may attach a foot which has a bottom surface made of a resilient material to the bottom surface of the right rocker and to the bottom surface of the left rocker adjacent the front end of each rocker. Each foot may extend to the front end of the rocker or be spaced a short distance from the front end of the rocker. The feet inhibit the rocker from tipping forward when the front portions of the rocker are on the floor or other flat surface. The feet should be made of a material is selected to have sufficient strength for at least partly supporting the rocker and operationally suitable abrasion resistance and friction properties with respect to its surface that is designed to contact the floor. Preferably, the feet can be made of polyvinyl chloride (PVC), thermoplastic elastomer (TPE), polyurethane, real or thermoplastic rubber, silicone, or mixtures and combinations thereof. Feet of the type disclosed in U.S. Pat. No. 10,016,058 B2 could be used. Each foot would be inserted into an opening in the bottom surface of each rocker adjacent the front end of the rocker. Suitable openings can be seen in rockers 8 and 9 in
When a second substantially identical stackable rocking chair 1′ having a seat 2′, a left rear leg 5′, a right rear leg 7′, a left rocker 8′ and right rocker 9′ and is stacked on my stackable rocking chair 1 the left rocker 8′ of the second substantially identical rocking chair rests on the left spacer 16 and the right rocker 9′ of the second substantially identical rocking chair 1′ rests on the right spacer 17 and a portion of the arm support of the upper rocking chair is in contact with the upper portion of an adjacent arm support of the lower rocking chair. See
The uprights in the embodiment shown in
To enable each rocker to easily fit in, and be removed from, the gap between the arm support and the front leg, the legs do not extend outward from the seat toward the upright.
When one rocking chair is stacked upon another rocking chair a front portion of each rocker 8′ and 9′ of the upper rocking chair 1′ will rest upon a spacer 16, 17 of the lower rocking chair 1 as can been seen in
A portion of each rear leg 5′, 7′ of the upper rocking chair 1′ rests upon a portion of the lower leg 5, 7 of the lower rocking chair 1 in the region indicated by the bracket labeled with the letter R in
Referring to
The rear legs extend in a backward direction relative to the seat and preferably are at an angle of from 40° to 45°, most preferably about 43°, from vertical. This configuration allows a user to easily stack one rocking chair on another rocking chair. As the upper rocking chair is placed upon the lower rocking chair the angled rear legs cause the back of the upper rocking chair to move toward the back of the lower rocking chair, nesting the two rocking chairs together. The angle of the rear legs also inhibits the upper rocking chair or chairs in the stack from falling forward. Although I prefer to provide that rear legs extend in a backward direction relative to the seat an angle of from 40° to 45° a larger angle or smaller angle can be provided as long as the as the legs are facing downhill. Then the chair will move toward the back of the chair below it. However, in a stack without a pallet, it is advantageous to provide an angle that is large enough to prevent the stack from rotating in a forward direction with each additional chair.
Having the rear legs 5 and 7 extend rearward in a direction away from the front legs 4 and 6 also provides greater stability and moves the center of gravity rearward when compared to the location of the center of gravity in conventional stacking chairs. Angling rear legs rearward provides greater stability when stacking by moving the stacking points further away from the front of the chairs. This keeps the center of mass of the full stack of chairs within the boundaries of the stacking points and the tips of the rear legs of the first chair in the stack.
As can be seen in
When a first rocking chair is stacked on a second rocking chair there are multiple points or areas of contact between the two chairs. The arm supports of the rocking chairs are together near the top of the uprights. The rockers on the upper rocking chair rest on the spacers in the lower rocking chair. The cross member of the upper chair sits on the seat or lower back of the lower rocking chair. A portion of each of the rear legs of the upper rocking chair fit over an adjacent rear leg in the second rocking chair. One or both sidewalls, depending upon the cross-sectional shape of the legs, will rest on a portion of an adjacent rear leg in the second rocking chair. These many contact points and areas provide greater stability in a stack of these rocking chairs.
The first preferred embodiment of my stackable rocking chair 1 is configured to look like an Adirondack chair. The back 3 consists of a set of spaced apart vertical slats 31, 32, 33, 34 and 35. I prefer that the lower portion of the slats to have a convex portion 36 that provides lumbar support. I also prefer that the seat 2 be a series of spaced apart slats and that the middle slats have a recessed portion 22.
A pocket 24, 25 shown in broken line in
Like the arms of an Adirondack chair the arms in the first embodiment are widest at the front of the arm where the arm 10, 11 is connected to the arm support 12, 13.
As can be seen in
A second present preferred embodiment of my stackable rocking chair 40 is shown in
A left arm support 52 consists of a single upright member having a lower end attached to the outside surface of the left rocker 48. The upper end of the left arm support 52 is attached to the front of the left arm 50. The left arm support is adjacent and substantially parallel to the left front leg, such that there is a gap 54 between the left front leg 44 and the left arm support 52. This gap 54 has a width greater than the width of the left rocker 48.
A right arm support 53 also consists of a single upright having a lower end attached to the outside surface of the right rocker 49. The upper end of the right arm support 53 is attached to the front of the right arm 51. The right arm support is adjacent and substantially parallel to the right front leg 46, such that there is a gap 55 between the right front leg 46 and the right arm support 53. This gap 55 has a width greater than the width of the right rocker 49.
Like the arms of an Adirondack chair the arms 50, 51 are widest at the front of the arm where the arm is connected to the arm support 52, 53. Because the front of the arms are wider than the arm support a brace 65, 66 is provided where the arm is connected to the arm support.
I prefer to provide a left spacer 56 attached to the left front leg 44, the left arm support 52 and the left rocker 48 and right spacer 57 attached to the right front leg 46, the right arm support 53 and the right rocker 49. When a second substantially identical stackable rocking chair 40′ having a left rocker 48′ and right rocker 49′ and is stacked on my stackable rocking chair 40 the left rocker 48′ of the second substantially identical rocking chair rests on the left spacer 56 and the right rocker 49′ of the second substantially identical rocking chair 40′ rests on the right spacer 57. See
I also prefer that the seat 42 have a recessed portion 41. A pocket 58, 59 shown in broken line in
This stackable rocking chair can be made of plastic in a single mold. I prefer to make this stackable rocking chair from calcium-filled polypropylene. Talc-filled polypropylene as well as polypropylene without a filler or with other fillers may also be used.
Although I have shown and described certain present preferred embodiments of my stackable rocking chair it should be distinctly understood that my invention is not limited thereto but may be variously embodied within the scope of the following claims.
This application is related to and claims the benefit of U.S. Provisional Application No. 63/174,809 filed on Apr. 14, 2021, the entire contents are incorporated herein by reference.
Number | Date | Country | |
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63174809 | Apr 2021 | US |