The subject disclosure relates to hand truck devices, and more particularly, to an expandable hand truck that can be releasably coupled to one or more gullwings.
Hand trucks are non-motorized devices that are generally L-shaped with a front nose plate, an upper portion, and two wheels. The nose plate of the hand truck can be inserted beneath a load and the hand truck can then be tilted back on its wheels to roll the load while the upper portion supports the load during transport. Conventional hand trucks have fixed dimensions and therefore are ill-suited for transporting a variety of loads.
The present disclosure provides a versatile hand truck capable of expanding to accommodate multiple loads (e.g., containers) of varying sizes. In so doing, the disclosed expandable hand truck addresses technical problems associated with existing various types of devices. The disclosed expandable hand trucks are configured to transport any desired type of container or load, including waste or recycling containers or other materials.
Conventional waste or recycling containers sometimes include two integral wheels that can be used to support the container as it is rolled to a destination. However, these wheeled containers are rudimentary in structure and do not allow for ease of use or efficiency for travel over long distances. Also, since each container has its own set of wheels, transporting more than one wheeled container at once is unfeasible. The presently disclosed expandable hand trucks and related devices overcome these shortcomings of conventional waste and recycling containers.
Illustrative expandable hand truck devices as well as expandable hand truck assemblies and related methods are described. The disclosed devices and assemblies have adjustable dimensions to enable versatile load-carrying capabilities. The disclosed expandable hand truck devices include a main unit having a frame with a base platform and a back fixedly attached to the base platform. The base platform extends in a substantially horizontal direction and the back extends in a substantially vertical direction when the expandable hand truck is in an upright position. In some implementations, the base platform may be hingedly connected to the back, allowing the main unit to be folded into a compact configuration. The expandable hand truck includes at least two wheels fixedly mounted on the frame that are positioned to engage with the ground. The frame also includes one or more first attachment features on a first side that permit a first removable gullwing to be attached to and removed from the frame. The frame further includes one or more second attachment features on a second side that permit a second removable gullwing to be attached to and removed from the frame. In some embodiments, the one or more first attachment features and the one or more second attachment features are slots that engage with mating features on the first gullwing and/or the second gullwing. However, in other embodiments, the one or more first attachment features and the one or more second attachment features are keys and/or keyholes that engage with mating features on the first gullwing and/or the second gullwing. In select embodiments, the one or more first attachment features and the one or more second attachment features are hinges that permit the first removable gullwing and the second removable gullwing to pivot with respect to the frame when attached to the frame. In some such embodiments, a first hinge member is attached to a first side of the back and a second hinge member is attached to an opposing second side of the back, the first hinge member is configured to receive a mating hinge feature of the first removable gullwing, and the second hinge member is configured to receive a mating hinge feature of the second removable gullwing.
When the expandable hand truck is in an upright position, the base platform rests on a ground surface and the base platform lifts off the ground surface when the expandable hand truck is rotated onto the at least two wheels. In some embodiments, a handle may be positioned on a top portion of the back. The handle may be adjustable in a vertical and/or a horizontal direction. The expandable hand truck may also include a footplate extending from a bottom rear side of the frame. In these and other embodiments, a detachable tether may be included to retain one or more containers on the expandable hand truck. The detachable tether may be extendable from the first side of the back to the second side of the back and may be implemented with a corded or a non-corded elastic material. In some embodiments, D-rings for securing the tether may be positioned on the first side of the back and the second side of the back and/or on the top of the back and the bottom of the back.
In another aspect, an expandable hand truck assembly is provided. The expandable hand truck assembly includes a main unit, a first gullwing, and a second gullwing. The first and second gullwings may or may not be attached to the main unit. The main unit has a frame with a base platform and a back fixedly attached to the base platform. The base platform extends in a substantially horizontal direction and the back extends in a substantially vertical direction when the main unit is in an upright position. At least two wheels are fixedly mounted on the frame and positioned to engage with the ground. The back includes a first side and an opposing second side. One or more first attachment features are mounted on the first side of the back and one or more second attachment features are mounted on the second side of the back. The first gullwing is removably attachable to (or attached to) the main unit and includes a first upper support affixed to a first lower support. The first attachment features of the main unit are couplable to the first upper support. The second gullwing is removably attachable to (or attached to) the main unit and includes a second upper support affixed to a second lower support. The one or more second attachment features of the main unit are couplable to the second upper support. In select embodiments, a first side of the base platform of the main unit is removably attachable to (or attached to) the first lower support and a second side of the base platform of the main unit is removably attachable to (or attached to) the second side of the second lower support.
In some implementations, the one or more first attachment features and the one or more second attachment features are selected from the group consisting of: slotted channels, spring-loaded keys, and hinges. In select embodiments, the expandable hand truck assembly also includes one or more fasteners configured to rigidly secure the first lower support of the first gullwing and the second lower support of the second gullwing to the base platform of the main unit. In alternative embodiments, when attached to the main unit, the first gullwing and the second gullwing can each be pivoted to transition between a closed position and an open position. In the first gullwing, the first upper support may be substantially perpendicular to the first lower support and, in the second gullwing, the second upper support may be substantially perpendicular to the second lower support. When the first gullwing and the second gullwing are each attached to the main unit, an expanded hand truck is formed.
In another aspect, a method of using the expandable hand truck assembly described herein is provided. The method includes attaching the first gullwing to the main unit by coupling the one or more first attachment features to the one or more first attachment members and attaching the second gullwing to the main unit by coupling the one or more second attachment features to the one or more second attachment members to form an expanded hand truck. The method may also optionally include securing the base platform of the main unit to the first lower support of the first gullwing and securing the base platform of the main unit to the second lower support of the second gullwing. In alternative embodiments, the method may also include pivoting the first gullwing into an open position and pivoting the second gullwing into an open position. In some embodiments, the method may also include loading one or more containers onto the base platform, the first lower support, and/or the second lower support of the expanded hand truck, rotating the expanded hand truck onto the at least two wheels and moving the one or more containers.
In yet another aspect, an expanded hand truck is provided having a main unit, a first gullwing coupled to the main unit, and a second gullwing coupled to the main unit. The main unit includes a frame having a base platform and a back fixedly attached to the base platform. The base platform extends in a substantially horizontal direction and the back extends in a substantially vertical direction when the expanded hand truck is in an upright position. The main unit includes at least two wheels fixedly mounted on the frame and positioned to engage with the ground, one or more first attachment features on a first side of the back, and one or more second attachment features on an opposing second side of the back. The first gullwing includes a first upper support affixed to a first lower support. There are one or more first attachment members mounted on the first upper support and coupled to the one or more first attachment features. The second gullwing includes a second upper support affixed to a second lower support. There are one or more second attachment members mounted on the second upper support and coupled to the one or more second attachment features.
As stated above, the disclosed hand trucks are versatile and capable of expanding (and then contracting) to accommodate multiple loads (e.g., containers) of varying sizes, with a set of two or more wheels mounted on the main unit. The disclosed expandable hand trucks and hand truck assemblies may provide numerous additional advantages over known devices. For example, the disclosed expandable hand trucks are lightweight and easy to maneuver. The expandable hand trucks may have an aluminum or steel frame that is light yet sturdy. In some embodiments, the frame may have a center handle on the back to provide good leverage and control for the user. The frame may also include a foot plate on a back rear portion to allow the user to easily tip the hand truck onto its wheels for a quick initial start. The hand truck may include relatively large wheels (and/or smaller breaker wheels) as compared to the wheels traditionally used for wheeled trash or recycling receptacles to allow the hand truck to easily traverse long distances and/or uneven terrain. Additionally, the dimensions of the disclosed expandable hand trucks can quicky be changed by adding or removing one or more gullwings to appropriately accommodate the type of load to be transported.
So that those having ordinary skill in the art to which the disclosed devices, systems, and methods pertain will more readily understand how to make and use the same, reference may be had to the following drawings.
As will be appreciated upon consideration of the subject disclosure, the present technology provides expandable hand truck devices and expandable hand truck assemblies with easily adjustable dimensions to accommodate loads of differing sizes. The advantages, and other features of the systems and methods disclosed herein, will become more readily apparent to those having ordinary skill in the art from the following detailed description of certain embodiments taken in conjunction with the drawings which set forth representative embodiments of the present invention. Like reference numerals are used herein to denote like parts. Further, words denoting orientation such as “upper”, “lower”, “distal”, and “proximate” are merely used to help describe the location of components with respect to one another. For example, an “upper” surface of a part is merely meant to describe a surface that is separate from the “lower” surface of that same part. No words denoting orientation are used to describe an absolute orientation (i.e., where an “upper” part must always at a higher elevation).
The subject technology overcomes many of the prior art problems associated with previous hand truck devices by providing a versatile hand truck that can be easily expanded to accommodate larger loads (e.g., waste and/or recycling containers) and returned to smaller dimensions when desired. Conventional hand trucks have fixed dimensions and are not conducive to transporting multiple waste or recycling loads. Although some waste or recycling containers are outfitted with wheels, these wheel arrangements do not allow for easy transport of the containers over long distances or over uneven terrain. The expandable hand truck assemblies provided by the subject disclosure enable a wide range of possible hand truck configurations and dimensions that can be easily tailored to accommodate variable load types and sizes.
In some embodiments, the presently disclosed hand trucks may be configured to transport one or multiple waste or recycling containers. Although terms such as “waste,” “trash,” or “recycling” are used herein, these terms refer to any type of load, including, for example, residential waste products or recycling, municipal waste or recycling, and construction debris. In some embodiments, the disclosed expandable hand trucks may be used to transport containers filled with waste and/or recycling materials. In other embodiments, the disclosed expandable hand trucks may be used to transport loose materials, such as filled trash or recycling bags (without a rigid container), broken-down corrugated boxes, and/or small assembled boxes. However, in other embodiments, the disclosed expandable hand trucks may be used to transport other items, such as fragile and/or heavy goods. In some embodiments, the disclosed expandable hand trucks may be outfitted with wheels designed for transport over sand or other specialized terrain. Numerous possibilities are possible and contemplated herein.
The main unit 100 includes a frame 102 having a base platform 104 and a back 106 fixedly attached to the base platform 104. The base platform 104 and the back 106 may be integrally formed, welded together, joined with a fastener, or otherwise fixedly attached. In select embodiments, the base platform 104 may be hingedly connected to the back 106 so that, when not in use, the base platform 104 can be folded up vertically against back 106. As shown in
Any lightweight yet rigid material can be used to form the frame 102. For example, in some embodiments, the frame 102 may be formed of extruded aluminum and/or steel. In select embodiments 1″ by 1″ extruded aluminum may be used to form the frame 102. In other embodiments, however, the frame 102 may be constructed from another material, such as carbon fiber, wood, steel, and/or composite.
The frame 102 may be sized to accommodate one, two, or more containers (e.g., trash or recycling receptacles or other types of containers). In some embodiments, the base platform 104 may have a length and a width that are each between 20-40 inches. In certain embodiments, the length and the width of the base platform 104 may be equal or approximately equal. The back 106 may have a width that is equal or approximately equal to the width of the base platform 104 (i.e., between 20-40 inches). The back 106 may have a height that is greater than its width. In some embodiments, the height of the back 106 may be between 40-60 inches. However, other dimensions are also contemplated by the present disclosure. In certain embodiments, the back 106 may have an adjustable height. For example, in some such embodiments, upright members of the frame 102 forming the back 106 may be configured to telescope vertically so that a user can adjust the height of the back 106 as desired. In select embodiments, the back 106 may include a U-shaped bar 114 (shown in
The main unit 100 also includes at least two wheels 108a, 108b fixedly mounted to the frame 102. The at least two wheels 108a, 108b are positioned to engage with the ground (i.e., ground engageable). The at least two wheels 108a, 108b may be mounted to the back 106 (as shown in
The at least two wheels 108a, 108b may be made from any suitable type of material. For example, in certain embodiments, the at least two wheels 108a, 108b are made of plastic and/or rubber, which presents advantages in terms of durability and handling. Some types of rubber that may be used to construct the wheels 108a, 108b include natural rubber, synthetic rubber, butadiene rubber, styrene-butadiene rubber, neoprene rubber (i.e., chloroprene), silicone rubber, fluorosilicone rubber, and combinations thereof. The at least two wheels 108a, 108b may be solid or air-filled. In select embodiments, such as shown in
The at least two wheels 108a, 108b may vary in size, and in general may range from about 4 to about 12 inches in diameter. In some embodiments, the at least two wheels 108a, 108b are between 6-10 inches in diameter. In select embodiments, the at least two wheels 108a, 108b are 8 inches in diameter. The at least two wheels 108a, 108b may be mounted to the frame 102 with an L-shaped bracket or another type of attachment mechanism (e.g., an angled bracket 118 as shown in
As shown in the drawings, the first gullwing 200a includes a first upper support 212a affixed to a first lower support 214a. Similarly, the second gulling 200b includes a second upper support 212b affixed to a second lower support 214b. The first upper support 212a is substantially perpendicular to the first lower support 214a and the second upper support 212b is substantially perpendicular to the second lower support 214b. If desired, the first lower support 214a may be secured to the base platform 104 of the main unit 100 with a fastener 122 (illustrated in
The first gullwing 200a and the second gullwing 200b may have any desired dimensions. For example, in some embodiments, the first lower support 214a and the second lower support 214b may each have a length and a width of between 10-15 inches. In select embodiments, the length and width of the first lower support 214a and the second lower support 214b are equal or approximately equal. The width of the first upper support 212a and the second upper support 212b may be between 10-15 inches. The height of the first upper support 212a and the second upper support 212b may be between 30-45 inches. However, these dimensions are only illustrative and other dimensions are also contemplated and within the scope of the present disclosure.
Any materials mentioned herein as being suitable for constructing frame 102 may be used to form the first upper support 212a, the first lower support 214a, the second upper support 212b, and/or the second lower support 214b. The first upper support 212a may be affixed to the first lower support 214a using a welding technique, a fastener, or the pieces may be integrally formed. Similarly, the second upper support 212b may be affixed to the second lower support 214b using a welding technique, a fastener, or the pieces may be integrally formed.
The expandable hand truck assembly 1000 includes a fastener assembly to releasably couple the main unit 100 to the first gullwing 200a and/or the second gullwing 200b. The fastener assembly includes components on the main unit 100 that mate to components on the first gullwing 200a and/or the second gullwing 200b. To provide increased versatility and ease of use, mating components may be chosen that are relatively easy to couple and decouple (e.g., without needing tools). As will be appreciated by one of ordinary skill in the art based on the subject disclosure, any suitable type of fastening components may be used to releasably couple the main unit 100 to the first gullwing 200a and/or the second gullwing 200b, including those discussed below in detail.
In some embodiments, the main unit 100 (specifically the back 106) includes one or more first attachment features on a first side and one or more second attachment features on an opposing second side. As shown in
The one or more first attachment features (referred to generally as ‘110a’) and the one or more second attachment features (referred to generally as ‘110b’) can take any suitable form. In some embodiments, for example, the one or more first attachment features 110a and the one or more second attachment features 110b may be one or more slotted channels, each shaped to receive a correspondingly shaped feature (referred to generally as ‘210a, 210b’) fastened to a gullwing. An example V-shaped slotted channel with mating member is illustrated in
In alternative embodiments, the gullwings may be secured to the main unit 100 with one or more spring-loaded keys and corresponding keyholes.
In these and other embodiments, the one or more first attachment features 110a and the one or more second attachment features 110b may be one or more hinges that permit the first removable gullwing 200a and the second removable gullwing 200b to pivot with respect to the frame 102 when attached to the frame 102. In some such embodiments, a first hinge member is attached to a first side of the back 106 and a second hinge member is attached to an opposing second side of the back 106. The first hinge member may be configured to receive a mating hinge feature of the first removable gullwing 200a and the second hinge member may be configured to receive a mating hinge feature of the second removable gullwing 200b.
In some embodiments, such as the embodiment shown in
Although
In some embodiments, the expandable hand truck 2000 includes a frame 102 having a base platform 104 and a back 106 fixedly attached to the base platform 104. The base platform 104 extends in a substantially horizontal direction and the back 106 extends in a substantially vertical direction when the expandable hand truck 100 is in an upright position. The back 106 may have a substantially planar surface facing the base platform 104. As shown in
Each side of the back 106 of the expandable hand truck 2000 includes at least one attachment feature. The expandable hand truck 2000 shown in
When the expandable hand truck 2000 is in an upright position, the base platform 104 rests on a ground surface. When the expandable hand truck 2000 is rotated onto the at least two wheels 108a, 108b, the base platform 104 lifts off the ground surface. If desired, the frame 102 may also include a footplate (not illustrated) extending from a bottom rear side. The footplate may provide additional leverage for a user to more easily rotate the expandable hand truck 2000 onto its wheels 108a, 108b.
In some embodiments, the expandable hand truck 2000 may also include one or more handles positioned on a top portion of the back 106.
In certain embodiments, the expandable hand truck 2000 also includes a detachable tether (not illustrated) extendable from the first side of the back 106 to the second side of the back 106. If present, the detachable tether may be used to retain one or more containers or other loads on the expandable hand truck 2000. In select embodiments, the tether may be formed of a corded elastic material (e.g., a bungee cord or a shock-cord) or a non-corded elastic material. The tether may be secured to the expandable hand truck 2000 using any suitable fasteners 216. In some embodiments, for example, D-rings may be mounted to opposing sides of the back 106 to secure the tether horizontally (see
In some embodiments and as shown in
In yet another aspect, the subject disclosure also involves methods of using the expandable hand truck assembly 1000 discussed herein.
Process 1600 optionally includes securing the base platform 104 of the main unit 100 to the first lower support 214a of the first gullwing 200a and securing the base platform 104 of the main unit 100 to the second lower support 214b of the second gullwing 200b (Step 1606). If desired, the first gullwing 200a and the second gullwing 200b may be secured to the main unit with C-clips 122 or other fasteners. Process 1600 may also optionally include loading one or more containers onto the expanded hand truck 3000 (Step 1608). For example, the one or more containers may be loaded onto the base platform, the first lower support, and/or the second lower support of the expanded hand truck 3000. In some such embodiments, process 1600 may also include rotating the expanded hand truck 3000 onto the at least two wheels and moving the one or more containers (Step 1610). Process 1600 may also include removing the first gullwing 200a and the second gullwing 200b from the main unit 100, if desired (Step 1612).
Process 1800 optionally includes rotating the first gullwing 200a into an open position and rotating the second gullwing 200b into an open position (Step 1806). Process 1600 may also optionally include loading one or more containers onto the expanded hand truck 3000 (Step 1808). For example, the one or more containers may be loaded onto the base platform, the first lower support, and/or the second lower support of the expanded hand truck 3000. In some such embodiments, process 1800 may also include rotating the expanded hand truck 3000 onto the at least two wheels and moving the one or more containers (Step 1810). Process 1600 may also include removing the first gullwing 200a and the second gullwing 200b from the main unit 100, if desired (Step 1812).
All orientations and arrangements of the components shown herein are used by way of example only. Further, it will be appreciated by those of ordinary skill in the pertinent art that the functions of several elements may, in alternative embodiments, be carried out by fewer elements or a single element. Similarly, in some embodiments, any functional element may perform fewer, or different, operations than those described with respect to the illustrated embodiment. Also, functional elements shown as distinct for purposes of illustration may be incorporated within other functional elements in a particular embodiment.
While the subject technology has been described with respect to some particular embodiments, those skilled in the art will readily appreciate that various changes and/or modifications can be made to the subject technology. For example, each claim may depend from any or all claims in a multiple dependent manner even though such has not been originally claimed.
What is claimed is:
This application claims the benefit of U.S. Provisional Patent Application No. 63/393,561 filed Jul. 29, 2022, the entire contents of which are incorporated by reference herein.
Number | Date | Country | |
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63393561 | Jul 2022 | US |