This application is based on and hereby claims the benefit under 35 U.S.C. § 119 from Chinese Patent Application No. CN 202020028061.X, filed on Jan. 7, 2020, in the Chinese Patent Office. This application is a continuation-in-part of Chinese Patent Application No. CN 202020028061.X, the contents of which are incorporated herein by reference.
The invention relates to the field of bed frame, in particular to a novel bed frame.
A folding bed frame is a simple bed frame that can be folded in different folding ways to achieve the joint goals of convenience and space savings. A folding bed frame is convenient, practical and easy to store.
Existing folding bed frames reduce the amount of occupied space through folding and thereby save on transportation costs and facilitate storage. However, the main parts of the bed frame cannot be folded, so the folded bed frame still occupies a large amount of space.
A novel adjustable metal bed frame includes a first bed frame unit and a second bed frame unit. The first bed frame unit includes a first longitudinal rod, a second longitudinal rod, a first transverse rod, a second transverse rod, a third transverse rod, and a first vertical rod. The first longitudinal rod, the second longitudinal rod, and the first transverse rod are all pivotally attached to the first vertical rod. A first locating hole passes through a side of the first transverse rod. The second bed frame unit includes a third longitudinal rod, a fourth longitudinal rod, a fourth transverse rod, a fifth transverse rod, a sixth transverse rod, and a second vertical rod. The third longitudinal rod, the fourth longitudinal rod, and the fourth transverse rod are all pivotally attached to the second vertical rod. A locating pin is disposed on a side of the fourth transverse rod. In an assembled state of the bed frame, the fourth transverse rod fits inside the first transverse rod, and the locating pin protrudes out through the first locating hole in the first transverse rod.
The novel bed frame includes first and second bed frame units that cooperate with each other in a telescoping manner. The first bed frame unit includes a first vertical rod, a second vertical rod, a third vertical rod, a first transverse rod, a second transverse rod, a third transverse rod, a first longitudinal rod and a second longitudinal rod which can be folded in bundle. The second bed frame unit includes a fourth vertical rod, a fifth vertical rod, a sixth vertical rod, a fourth transverse rod, a fifth transverse rod, a sixth transverse rod, a third longitudinal rod and a fourth longitudinal rod which can be folded in bundle. The first transverse rod and the fourth transverse rod, the second transverse rod and the fifth transverse rod, and the third transverse rod and the sixth transverse rod are arranged pairwise in a sliding connection. The first bed frame unit and the second bed frame unit can be split into two parts and then folded so that the rod pieces forming the first bed frame unit and the second bed frame unit can be folded separately into bundle structures so as to achieve a smaller packaging volume after folding, to save storage space and to reduce transportation costs.
The object of the invention is to provide a novel bed frame that occupies a smaller amount of space after being folded and thereby saves storage space and reduces transportation costs. To achieve this objective, a novel bed frame is designed that includes a first bed frame unit and a second bed frame unit.
The first bed frame unit includes a first longitudinal rod, a second longitudinal rod, a first transverse rod, a second transverse rod, a third transverse rod, a first vertical rod, a second vertical rod, and a third vertical rod. At the upper end of the first vertical rod, the first transverse rod, the first longitudinal rod and the second longitudinal rod all pivot at one of their ends. All three rods are adapted to rotate downwards and to fold relative to the first vertical rod. An end of the second transverse rod pivots at the other end of the first longitudinal rod, and is capable of horizontally rotating and being folded relative to the first longitudinal rod.
An end of the third transverse rod pivots at the other end of the second longitudinal rod and is capable of horizontally rotating and being folded relative to the second longitudinal rod. The upper end of the second vertical rod pivots at an end of the second transverse rod close to the first longitudinal rod and is capable of rotating upwards and being folded relative to the second transverse rod. The upper end of the third vertical rod pivots at an end of the third transverse rod close to the second longitudinal rod and is capable of rotating upwards and being folded relative to the third transverse rod.
The second bed frame unit includes a third longitudinal rod, a fourth longitudinal rod, a fourth transverse rod, a fifth transverse rod, a sixth transverse rod, a fourth vertical rod, a fifth vertical rod, and a sixth vertical rod. At the upper end of the fourth vertical rod, the fourth transverse rod, the third longitudinal rod and the fourth longitudinal rod all pivot at one of their ends. All three rods are adapted to rotate downwards and to fold relative to the fourth vertical rod.
An end of the fifth transverse rod pivots at the other end of the third longitudinal rod and is capable of horizontally rotating and being folded relative to the third longitudinal rod. An end of the sixth transverse rod pivots at the other end of the fourth longitudinal rod and is capable of horizontally rotating and being folded relative to the fourth longitudinal rod. The upper end of the fifth vertical rod pivots at one end of the fifth transverse rod close to the third longitudinal rod and is capable of rotating upwards and being folded relative to the fifth transverse rod. The upper end of the sixth vertical rod pivots at one end of the sixth transverse rod close to the fourth longitudinal rod and is capable of rotating upwards and being folded relative to the sixth transverse rod. The pairs of the first transverse rod and the fourth transverse rod, the second transverse rod and the fifth transverse rod, and the third transverse rod and the sixth transverse rod are each arranged opposite to one another in a sliding fit so that the spacing between the first longitudinal rod and the third longitudinal rod is adjustable.
The length of the first longitudinal rod is equal to that of the third longitudinal rod, and the length of the second longitudinal rod is equal to that of the fourth longitudinal rod. The first vertical rod, the second vertical rod, the third vertical rod, the fourth vertical rod, the fifth vertical rod and the sixth vertical rod are all of the same length.
The first bed frame unit further comprises a seventh vertical rod, an eighth vertical rod and a ninth vertical rod; the upper end of the seventh vertical rod is pivoted at one end of the first transverse rod far from the first vertical rod, and the upper end of the eighth vertical rod is pivoted at one end of the second transverse rod far from the first longitudinal rod; the upper end of the ninth vertical rod is pivoted at one end of the third transverse rod far from the second longitudinal rod.
The first vertical rod, the second vertical rod, the third vertical rod, the fourth vertical rod, the fifth vertical rod, the sixth vertical rod, the seventh vertical rod, the eighth vertical rod and the ninth vertical rod are of the same length.
The first transverse rod, the second transverse rod and the third transverse rod are spliced around the fourth transverse rod, the fifth transverse rod and the sixth transverse rod, respectively, in order to realize sliding fit. A first locating structure is provided between two transverse rods in splicing fit, so as to achieve location fit between two transverse rods. The first locating structure comprises a first locating pin arranged on one transverse rod and several first locating holes arranged on another transverse rod, and the first locating pin fits into one of the first locating holes in an assembled state. The first locating holes are evenly spaced along the axial direction of another transverse rod.
A second locating structure is provided between two rod pieces in pivoting relations, so as to achieve location fit between two rod pieces in the assembled state. The second locating structure comprises a locking locating pin arranged on one rod piece and a locking locating hole arranged on another rod piece, and the locking locating pin fits into the locking locating hole in the assembled state.
Upon adoption of the above technical solution, the first bed frame unit and the second bed frame unit can be split into two parts and then folded so that the rod pieces forming the first bed frame unit and the second bed frame unit can be folded separately and finally folded as a bundle structure, consequently to achieve a smaller space after folding, to save storage space and to reduce transportation costs.
Other embodiments and advantages are described in the detailed description below. This summary does not purport to define the invention. The invention is defined by the claims.
The accompanying drawings, where like numerals indicate like components, illustrate embodiments of the invention.
Reference will now be made in detail to some embodiments of the invention, examples of which are illustrated in the accompanying drawings. Unless otherwise specified, “vertical”, “transverse” and “longitudinal” herein refer to the orientation of the rod pieces in the assembled state, and the folding direction refers to the opposite direction when folding in the assembled state. The assembled state refers to the form when the product is unfolded and used, and the folded state refers the form when the product is fully folded and compact. In the description and claims, terms such as “upwards”, “downwards”, “horizontally”, “top”, “bottom”, “upper”, “lower”, “up” and “down” are used to describe relative directions and orientations between different parts of the bed frame, and it is to be understood that the overall structure being described can actually be oriented in any way in three-dimensional space.
The first bed frame unit 10 includes a first vertical rod 11A, a second vertical rod 11B, a third vertical rod 11C, a first transverse rod 12A, a second transverse rod 12B, a third transverse rod 12C, a first longitudinal rod 13A and a second longitudinal rod 13B. The first longitudinal rod 13A, the second longitudinal rod 13B, and a first end of the first transverse rod 12A are all pivotally attached to the upper end of the first vertical rod 11A and are all adapted to rotate downwards and to fold relative to the first vertical rod 11A. A first end of the second transverse rod 12B is pivotally attached at the other end of the first longitudinal rod 13A and is adapted to rotate horizontally and to fold relative to the first longitudinal rod 13A. A first end of the third transverse rod 12C pivots at the other end of the second longitudinal rod 13B and is adapted to rotate horizontally and to fold relative to the second longitudinal rod 13B. The upper end of the second vertical rod 11B is pivotally attached at a location towards an end of the second transverse rod 12B near the first longitudinal rod 13A. The second vertical rod 11B is adapted to rotate upwards and to fold relative to the second transverse rod 12B. The upper end of the third vertical rod 11C is pivotally attached at a location towards an end of the third transverse rod 12C near the second longitudinal rod 13B. The third vertical rod 11C is adapted to rotate upwards and to fold relative to the third transverse rod 12C.
The second bed frame unit 20 includes a fourth vertical rod 21A, a fifth vertical rod 21B, a sixth vertical rod 21C, a fourth transverse rod 22A, a fifth transverse rod 22B, a sixth transverse rod 22C, a third longitudinal rod 23A and a fourth longitudinal rod 23B. The third longitudinal rod 23A, the fourth longitudinal rod 23B, and a first end the fourth transverse rod 22A are all pivotally attached to the upper end of the fourth vertical rod 21A and are all adapted to rotate downwards and to fold relative to the fourth vertical rod 21A. A first end of the fifth transverse rod 22B pivots at the other end of the third longitudinal rod 23A and is adapted to rotate horizontally and to fold relative to the third longitudinal rod 23A. A first end of the sixth transverse rod 22C pivots at the other end of the fourth longitudinal rod 23B and is adapted to rotate horizontally and to fold relative to the fourth longitudinal rod 23B. The upper end of the fifth vertical rod 21B is pivotally attached at a location towards an end of the fifth transverse rod 22B near the third longitudinal rod 23A. The fifth vertical rod 21B is adapted to rotate upwards and to fold relative to the fifth transverse rod 22B. The upper end of the sixth vertical rod 21C is pivotally attached at a location towards an end of the sixth transverse rod 22C near the fourth longitudinal rod 23B. The sixth vertical rod 21C is adapted to rotate upwards and to fold relative to the sixth transverse rod 22C.
Each of the rods is a hollow metal bar. In the embodiment of
Each bed leg or vertical rod has the same length, including the first vertical rod 11A, the second vertical rod 11B, the third vertical rod 11C, the fourth vertical rod 21A, the fifth vertical rod 21B and the sixth vertical rod 21C, the seventh vertical rod 11D, the eighth vertical rod 11E and the ninth vertical rod 11F.
In a similar manner, locating pins 33 protrude from a vertical side surface of fourth transverse rod 22A, and locating holes 34 are present in a vertical side surface of first transverse rod 12A. The combined extension length of the telescoped transverse rods 22A and 12A is set at a selected length by inserting and sliding fourth transverse rod 22A into first transverse rod 12A until a locating pin 33 snaps out of the desired locating hole 34. If a narrower width of bed frame 9 is desired, then the locating pin 33 is pressed back into the locating hole 34 from which it protrudes, and rod 22A is inserted farther into rod 12A until the locating pin 33 snaps out of the next locating hole 34 that is located closer to the first vertical rod 11A. In another embodiment, two locating pins 33 pop out of two locating holes 34 to more securely set the desired extension length of the telescoped transverse rods 22A and 12A and to lock in the desired width of the bed frame 9.
In yet another embodiment, opposite longitudinal rods on the first and second bed frame units are each formed from two telescoping portions in a manner similar to transverse rods 22A and 12A. For example, the second longitudinal rod 13B includes a proximal portion 35 and a distal portion 36. The proximal portion 35 slides inside the distal portion 36 in a telescoping manner. The extension length of each longitudinal rod, and thus the longitudinal length of bed frame 9, can be adjusted using locating pins 33 and locating holes 34 on the two telescoping portions of the longitudinal rods. For example, a proximal locating pin 33 is disposed on the proximal portion 35, and a distal locating hole 34 is disposed in first distal portion 36. The proximal portion 35 and the distal portion 36 have a combined extension length that is set when the proximal locating pin 33 protrudes out through the distal locating hole 34.
By having adjustable length transverse and longitudinal rods, the same bed frame 9 can be used to support box springs and/or mattresses of different sizes. For example, the same bed frame 9 can be used as a mattress support for both a full size mattress as well as a twin XL size mattress. A bed frame 9 that is adjustable for both queen size and king size mattresses is also possible. By designing both the transverse and longitudinal rods in a telescoping manner, in the folded state both the first bed frame unit 10 and the second bed frame unit 20 can fit inside a single packing box whose longest dimension is less than half of the longitudinal length of bed frame 9 in its assembled state.
In the example of the second vertical rod 11B that folds out from the second transverse rod 12B in the assembled state, the upper end of the second vertical rod 11B is provided with a pivoting portion 111, and one end of the pivoting portion 111 pivots about the axis 37 with respect to the second transverse rod 12B. The locking locating hole 42 is disposed at the other end of the pivoting portion 111, and the locking locating pin 41 is disposed on and protrudes from the second transverse rod 12B.
The first locating pin 31, the locating pins 33, and the locking locating pin 41 are all spring loaded and composed of a spring and a ball. The ball is pressed by the spring and partially protrudes out of the locating hole.
The first bed frame unit 10 and the second bed frame unit 20 are split into two parts and then folded so that the rod pieces forming the first bed frame unit 10 and the second bed frame unit 20 can be folded separately into a bundle structure. The resulting two rod bundles achieve a smaller packaging volume folding, save storage space and reduce transportation costs.
Although the present invention has been described in connection with certain specific embodiments for instructional purposes, the present invention is not limited thereto. Accordingly, various modifications, adaptations, and combinations of various features of the described embodiments can be practiced without departing from the scope of the invention as set forth in the claims.
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