The present invention relates to a hanging device.
Generally, operators keep a considerable distance from a hanging device or an object that is to be hung, so the operators may not be able to catch the accurate positional relation between the hanging device and the object that is to be hung. As such, manual mistakes made by the operators would cause the hanging device to collide with the object that is to be hung.
It's well-known that if the hanging device has a long hanging path, the hanging device tends to shake when the hook of the hanging device is moving back and forth relative to the object that is to be hung or when the hook of the hanging device moves to the lowest position. Therefore, hook shaking and colliding with the object that is to be hung would be inevitable even if the operators accurately catch the positional relation between the hanging device and the object that is to be hung.
Thus, how to provide a hanging device free from collision has become a critical issue.
It is therefore an objective of the present invention to provide a hanging device including an accommodation main body, a sliding assembly, and a hook. The accommodation main body has two parallel sidewalls which define a first vertical path between the two sidewalls. The sliding assembly is movably connected between the two sidewalls and configured to move relative to the accommodation main body along the first vertical path, in which the sliding assembly further includes a sliding rail which defines a second vertical path. The hook is movably connected to the sliding rail and configured to move relative to the sliding assembly along the second vertical path.
In some embodiments of the present invention, the hanging device includes a transportation assembly connected to the accommodation main body and configured to drive the accommodation main body to move along a horizontal plane direction.
In some embodiments of the present invention, the hanging device includes a transportation assembly including a transportation rail and a transportation rod, in which the transportation rod is movably connected to the transportation rail and configured to move relative to the transportation rail along a first horizontal axis. The accommodation main body is movably connected to the transportation rod and configured to move relative to the transportation rod along a second horizontal axis, and the first horizontal axis is substantially perpendicular to the second horizontal axis.
In some embodiments of the present invention, the hanging device includes a rotating assembly connected between the accommodation main body and the transportation assembly, in which the accommodation main body is configured to rotate relative to the transportation assembly around a vertical axis.
In some embodiments of the present invention, the hanging device further includes a fixing rod disposed on the accommodation main body, and the fixing rod is configured to move outside of the positioning groove of the rotating assembly such that the rotating assembly is in a rotatable state. The fixing rod is further configured to move into a positioning groove of the rotating assembly such that the rotating assembly is in a locking state.
In some embodiments of the present invention, the hanging device includes an elastic portion and a stopping portion, the fixing rod is configured to move outside of the positioning groove such that the stopping portion and the accommodation main body collectively press the elastic portion. The fixing rod is configured to move into the positioning groove such that the stopping portion and the accommodation main body collectively release the elastic portion.
In some embodiments of the present invention, the positioning groove includes a plurality of positioning grooves which are arranged to surround a rotation axis of the rotating assembly.
In some embodiments of the present invention, the hanging device further includes a pulley assembly which is disposed on the accommodation main body and configured to drive the hook to move relative to the accommodation main body.
In some embodiments of the present invention, the hanging device further includes a pulley assembly which is disposed on the accommodation main body, and the pulley assembly includes a first pulley and a second pulley, a drive belt, and a rotary handle. The first pulley and the second pulley are coaxially connected, and the drive belt is fastened to the first pulley and the rotary handle. The rotary handle is configured to drive the first pulley, so as to drive the hook to vertically move relative to the accommodation main body.
Another aspect of the present invention is related to a hanging device including an accommodation main body, a sliding assembly, a hook, and a transportation assembly. The accommodation main body has two parallel sidewalls which define a first vertical path between the two sidewalls. The sliding assembly is movably connected between the two sidewalls and configured to move relative to the accommodation main body along the first vertical path, and the sliding assembly further includes a sliding rail which defines a second vertical path. The hook is movably connected to the sliding rail and configured to move relative to the sliding assembly along the second vertical path. The transportation assembly is connected to the accommodation main body and configured to drive the accommodation main body to move along a horizontal plane direction.
Hooks of general hanging devices do not have enough degrees of freedom regarding movement and rotation, so it is hard to hang an object located at an edge or a corner due to the dead angle of the hooks when the operators operates the hanging devices. Also, the hooks of general hanging devices are easy to shake and cause danger when they are extended for too long. Embodiments of the present invention provide a hanging device having more degrees of freedom regarding movement and rotation and also improving the stability for hanging and lifting an object. Especially, the hanging device has a wider hanging operation area to be benefit for reducing the dead angle, so as to help the operators to stably hang and lift an object located at an edge or a corner. The hanging device of the present invention includes a vertical path in two sections to stably lift or lower the hook for grabbing an object. In addition, the hanging device of the present invention further includes a transportation assembly for moving the hook along two horizontal axes which are perpendicular to each other. Furthermore, the hanging device of the present invention further includes a rotating assembly which is configured to rotate the hook around a vertical axis. Therefore, the hook can not only freely move in three-dimensional directions but also rotate freely, and the hanging device of the present invention can use the hook to grab objects under a great degree of freedom, so as to decrease the blind spot about the hanging operation.
It is to be understood that both the foregoing general description and the following detailed description are by examples, and are intended to provide further explanation of the invention as claimed.
The disclosure can be more fully understood by reading the following detailed description of the embodiment, with reference made to the accompanying drawings as follows:
Reference will now be made in detail to the present embodiments of the invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the description to refer to the same or like parts.
Please refer to
Specifically, the accommodation main body 110, the sliding assembly 120, and the hook 130 can be made of metal such as alloy, polymer, or a composite material. The accommodation main body 110, the sliding assembly 120, and the hook 130 can be made of aluminum alloy or steel, thereby improving the mechanical strength of the accommodation main body 110, the sliding assembly 120, and the hook 130. The present invention is not limited in this respect.
In some embodiments of the present invention, the accommodation main body 110 includes two block portions 112 which are respectively disposed at bottoms of the two sidewalls 111 such that the sliding assembly 120 moves downwardly relative to the accommodation main body 110 along the vertical axis Z and can be stopped by the block portions 112. The block portions 112 can prevent the sliding assembly 120 from falling outside of the first vertical path of the accommodation main body 110. In addition, each of the two sidewalls 111 includes a linear guiding rail 111a extending along the vertical axis Z and being disposed on an interior surface of the corresponding sidewall 111, and the sliding assembly 120 is slidably connected to the linear guiding rail 111a such that the sliding assembly 120 can vertically move relative to the accommodation main body 110 along the linear guiding rails 111a.
In addition, the hanging device 100 includes a damper A disposed between the sliding assembly 120 and one of the linear guiding rails 111a, in which the damper A can prevent the sliding assembly 120 from moving too fast along the vertical axis Z and prevent the sliding assembly 120 from hitting the block portions 112 of the accommodation main body 110. Moreover, the accommodation main body 110 includes a supporting board 114 connected between the two sidewalls 111, in which the two sidewalls 111 and the supporting board 114 collectively accommodate the sliding assembly 120 and the hook 130 such that the two sidewalls 111 and the supporting board 114 protect the sliding assembly 120 and the hook 130 together.
In some embodiments of the present invention, the sliding assembly 120 is substantially T-shaped, and the sliding assembly 120 has two wings respectively movably connected to the linear guiding rails 111a of the two sidewalls 111. Since the two sidewalls 111 collectively support the sliding assembly 120, the sliding assembly 120 can stably move relative to the accommodation main body 110. The sliding assembly 120 barely shakes when the sliding assembly 120 is moving along the vertical axis Z. In addition, the sliding assembly 120 includes two sliding rails 121 vertically extend, in which the two sliding rail 121 are parallel to each other and disposed at a front side of the sliding assembly 120. The hook 130 is movably connected to the two sliding rails 121 such that the hook 130 stably moves relative to the sliding assembly 120 along the vertical axis Z. Moreover, the sliding assembly 120 includes two block portions 122 respectively disposed at bottoms of the two sliding rails 121. The hook 130 moves downwardly relative to the sliding assembly 120 along the vertical axis Z, and then the hook 130 stops by the block portions 122 such that the block portions 122 can prevent the hook 130 from falling out of the second vertical path.
In some embodiments of the present invention, the hanging device 100 further includes a transportation assembly 140 configured to drive the accommodation main body 110 to move along a horizontal direction which can be any horizontal direction within a plane defined by a first horizontal axis X and a second horizontal axis Y. The transportation assembly 140 includes a transportation rail 141 and a transportation rod 143, in which the transportation rod 143 is movably connected to the transportation rail 141 and configured to move relative to the transportation rail 141 along the first horizontal axis X. In addition, the accommodation main body 110 is movably connected to the transportation rod 143 and configured to move relative to the transportation rod 143 along the second horizontal axis Y, in which the first horizontal axis X is substantially perpendicular to the second horizontal axis Y, the present invention is not limited in this respect.
More specifically, the transportation rail 141 includes two transportation guiding rods 141a spaced apart and parallel to each other, and the two transportation guiding rods 141a extend along the first horizontal axis X. Moreover, the transportation rod 143 has two ends respectively movably connected to the two transportation guiding rods 141a, and the transportation rod 143 extends along the second horizontal axis Y. As such, the transportation assembly 140 can drive the accommodation main body 110 and the hook 130 to move along the first horizontal axis X and/ or the second horizontal axis Y such that the hanging device 100 can drive the hook 130 to freely move in three-dimensional (including X, Y and Z axes) space for grabbing objects.
Please refer to
In some embodiments of the present invention, the accommodation main body 110 includes an upper board 113 extending along the horizontal plane direction, and the upper board 113 is connected between the two sidewalls 111. The fixing rod 160 includes an elastic portion 161 and a stopping portion 163, and the fixing rod 160 extends through the upper board 113, the elastic portion 161 of the fixing rod 160 is disposed on the upper board 113. The stopping portion 163 is disposed between the bottom plate 153a of the upper portion 153 and the upper board 113. Specifically, the elastic portion 161 can be a spring sleeved on the body of the fixing rod 160. In practice, users can pull out the fixing rod 160 from the positioning groove 151 or insert the fixing rod 160 into the positioning groove 151 along the vertical axis Z such that the elastic portion 161 can elastically deform or elastically recover. Referring to
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In detail, the rotary handle 171 and the drive belt 174 are disposed at a rear side of the supporting board 114, and the hook 130 is disposed at a front side of the supporting board 114. In addition, the first pulley 172 and the second pulley 173 are fixed pulleys located above the upper board 113, and the first pulley 172 and the second pulley 173 are above the rotary handle 171. The cap 115 accommodates the first pulley 172 and the second pulley 173, and the second pulley 173 is disposed directly above the hook 130 and at the front side of the supporting board 114. The first pulley 172 is disposed directly above the rotary handle 171 and at the rear side of the supporting board 114. In addition, the rotary handle 171 further includes a third pulley 171a, and the drive belt 174 is fastened to the first pulley 172 and the third pulley 171a. As such, the users can easily rotate the rotary handle 171 to drive the hook 130 to move relative to the accommodation main body 110 through the drive belt 174 along the vertical axis Z. In addition, the rotary handle 171 is below the first pulley 172 and the second pulley 173, and thus the users can operate the rotary handle 171 at a lower position, so as to drive the hook 130 to hang the object to be hung.
To sum up, in embodiments of the present invention, a hanging device capable of improving the degrees of freedom regarding movement and rotation of a hook is provided, and the hanging device is benefit for improving stability when the hanging device is lifting the object to be hung. The hanging device includes a vertical path in two sections through which the hook is stably lifted or lowered when grabbing the object to be hung. Moreover, the hanging device further includes a transportation assembly configured to move the hook along two horizontal axes perpendicular to each other. The hanging device further includes a rotating assembly which is configured to rotate the hook around the vertical axis relative to the transportation assembly. Therefore, the hook can not only freely move in three-dimensional directions but also rotate freely, and the hanging device of the present invention can use the hook to grab objects under a great degree of freedom, so as to decrease the blind spot about the hanging operation.
Although the present invention has been described in considerable detail with reference to certain embodiments thereof, other embodiments are possible. Therefore, the spirit and scope of the appended claims should not be limited to the description of the embodiments contained herein.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims.
Number | Date | Country | Kind |
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202210001625.4 | Jan 2022 | CN | national |
This application claims priority to U.S. Provisional Application Serial No. 63/203,870, filed on Aug. 03, 2021 and China Application Serial No. 202210001625.4, filed on Jan. 04, 2022, which are herein incorporated by reference in its entirety.
Number | Date | Country | |
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63203870 | Aug 2021 | US |