This application claims priority of Taiwanese Patent Application No. 104131547, filed on Sep. 24, 2015.
The disclosure relates to a reinforcing device, and more particularly to a rope guiding device for a walking stick chair.
Referring to
The conventional walking stick chair 1 is operable to convert between an unfolded state (see
When the conventional walking stick chair 1 is in the unfolded state to support a user, the first legs 141 cooperatively form an angle, and there is no reinforcing structure for limiting the angle formed between the first legs 141. If the user is relatively heavy or the ground is slippery, the weight of the user may enlarge the angle formed between the first legs 141. As a result, excessive deformation or fracture at the junction of the second slider 122 and the first legs 141 may occur.
Therefore, an object of the disclosure is to provide a rope guiding device that can alleviate at least one of the drawbacks of the prior art.
According to the disclosure, the rope guiding device includes a base seat, two limiting link assemblies and a limiting rope. Each of the limiting link assemblies is movably connected to the base seat, and has a retaining space therein, and a guiding groove that is formed in an outer surface thereof and that is in spatial communication with the retaining space. The limiting rope includes two head pieces that are respectively and movably retained in the retaining spaces of the limiting link assemblies, and a rope body that has two opposite end portions respectively extending through the guiding grooves of the limiting link assemblies and respectively connected to the head pieces. Each of the head pieces has a width greater than the width of each of the guiding grooves and the width of the rope body. When the limiting link assemblies are moved toward each other, the limiting link assemblies move the head pieces of the limiting rope toward each other so as to deform the rope body. During the deformation of the rope body, the end portions of the rope body respectively move along the guiding grooves of the limiting link assemblies to respectively rotate the head pieces relative to the limiting link assemblies.
Another object of the disclosure is to provide a walking stick chair that can alleviate at least one of the drawbacks of the prior art.
According to the disclosure, the walking stick chair includes a main stick, an interlink unit, a seat unit and a leg unit. The interlink unit includes a base seat that is disposed on the main stick. The seat unit is disposed on the main stick, and includes a seat plate assembly that is movable relative to the main stick. The leg unit includes two limiting link assemblies and a limiting rope. Each of the limiting link assemblies is pivotally connected to the base seat, and has a retaining space therein, and a guiding groove that is formed in an outer surface thereof and that is in spatial communication with the retaining space. The limiting rope includes two head pieces that are respectively and movably retained in the retaining spaces of the limiting link assemblies, and a rope body that has two opposite end portions respectively extending through the guiding grooves of the limiting link assemblies and respectively connected to the head pieces. Each of the head pieces has a width greater than the width of each of the guiding grooves and the width of the rope body. The walking stick chair is operable to convert between an unfolded state and a folded state. When the walking stick chair is in the unfolded state, an end of the seat plate assembly is away from the main stick, the limiting link assemblies cooperatively form an angle therebetween, and the limiting rope is stretched for limiting the angle formed between the limiting link assemblies. When the walking stick chair is converted from the unfolded state toward the folded state, the end of the seat plate assembly moves toward the main stick, and the limiting link assemblies pivot toward the main stick and move toward each other. During the movement of the limiting link assemblies toward each other, the limiting link assemblies move the head pieces of the limiting rope toward each other so as to deform the rope body. During the deformation of the rope body, the end portions of the rope body respectively move along the guiding grooves of the limiting link assemblies to respectively rotate the headpieces relative to the limiting link assemblies.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiments with reference to the accompanying drawings, of which:
Before the disclosure is described in greater detail, it should be noted that where considered appropriate, reference numerals or terminal portions of reference numerals have been repeated among the figures to indicate corresponding or analogous elements, which may optionally have similar characteristics.
Referring to
The main stick 2 extends in a direction (L) to terminate at a handle end and a foot end opposite to the handle end.
The interlink unit 3 includes a base seat 31 that is sleeved on and movable along the main stick 2, a first sliding seat 32 that is sleeved on and movable along the main stick 2, and that is disposed at one side of the base seat 31 opposite to the foot end of the main stick 2, and a second sliding seat 33 that is sleeved on and movable along the main stick 2, and that is disposed between the first sliding seat 32 and the base seat 31.
The seat unit 4 includes a seat plate assembly 41 that is connected to the first sliding seat 32, two first links 42 each of which has two opposite ends respectively and pivotally connected to the second sliding seat 33 and the seat plate assembly 41, and two second links 43 each of which has two opposite ends respectively and pivotally connected to the first sliding seat 32 and a respective one of the first links 42. The seat plate assembly 41 includes a main plate 411 that is pivotally connected to the first sliding seat 32, and two lateral plates 412 that are respectively and pivotally connected to two lateral sides of the main plate 411. The end of each of the first links 42 opposite to the second sliding seat 33 is pivotally connected to a respective one of the lateral plates 412 of the seat plate assembly 41.
The leg unit 5 includes two first legs 51 each of which is pivotally connected to the second sliding seat 33, two second legs 52 each of which is pivotally connected to a respective one of the first legs 51, two link members 53 each of which has two opposite ends respectively and pivotally connected to the first sliding seat 32 and a respective one of the first legs 51, two limiting link assemblies 54 each of which has two opposite ends respectively and pivotally connected to the base seat 31 and a respective one of the second legs 52, and a limiting rope 55 that is connected between the limiting link assemblies 54.
Referring further to
The limiting rope 55 includes two head pieces 551 that are respectively and movably retained in the retaining spaces 541 of the limiting link assemblies 54, and a rope body 552 that has two opposite end portions respectively extending through the guiding grooves 542 of the limiting link assemblies 54, and respectively connected to the head pieces 551. With particular reference to
In this embodiment, the base seat 31, the limiting link assemblies 54 and the limiting rope 55 cooperatively serve as a rope guiding device.
The walking stick chair of this disclosure is operable to convert between an unfolded state (see
When the walking stick chair is converted from the unfolded state to the folded state, the first and second sliding seats 32, 33 are moved away from each other such that the first and second links 42, 43 drive the seat plate assembly 41 to be folded, and that each of the link members 53 drives the corresponding first and second legs 51, 52 and the corresponding limiting link assembly 54 to be folded. During the conversion of the walking stick chair from the unfolded state to the folded state, the limiting link assemblies 54 also move toward each other.
When the walking stick chair is in the folded state, each of the first legs 51 and the corresponding second leg 52 are mutually folded and close to the main stick 2, and the link members 53 and the limiting link assemblies 54 are close to the main stick 2. The first and second links 42, 43 of the seat unit 4 are close to the main stick, and the seat plate assembly 41 is folded such that the main plate 411 and the lateral plates 412 cooperatively form a U-shaped structure to extend around the main stick 2.
During the movement of the limiting link assemblies 54 toward each other, the limiting link assemblies 54 move the head pieces 551 of the limiting rope 55 toward each other so as to deform the rope body 552. During the deformation of the rope body 552, the opposite end portions of the rope body 552 respectively move along the guiding grooves 542 of the limiting link assemblies 54 toward the second groove sections 548 to respectively rotate the head pieces 551 relative to the limiting link assemblies 54, so as to prevent the opposite end portions from bending relative to the corresponding head pieces 551 to thereby prevent fracture of the limiting rope 55 and maintain the structural strength of the limiting rope 55. When the walking stick chair is converted from the folded state to the unfolded state, the limiting link assemblies 54 respectively move the opposite end portions of the rope body 552 along the guiding grooves 542 from the second groove sections 548 to the first groove sections 547 by virtue of the head pieces 551, so that the limiting rope 55 is switched from a bent state (see
The advantages of the walking stick chair of this disclosure are as follows:
1. By virtue of the cooperation of the limiting link assemblies 54 and the limiting rope 55 for limiting the angle formed between the first legs 51 when a user sits on the unfolded walking stick chair, once the user is relatively heavy or the ground is slippery, the junction of the first legs 51 and the second sliding seat 33 and the junction of the base seat 31 and the limiting links 543 of the limiting link assemblies 54 are prevented from excessive deformation or fracture resulted from the horizontal components of the force of gravity of the user.
2. During the movement of the limiting link assemblies 54 toward each other, the limiting link assemblies 54 move the head pieces 551 of the limiting rope 55 toward each other so as to deform the rope body 552. During the deformation of the rope body 552, the opposite end portions of the rope body 552 respectively move along the guiding grooves 542 of the limiting link assemblies 54 to respectively rotate the head pieces 551 relative to the limiting link assemblies 54. By such, the opposite end portions of the rope body 552 are respectively prevented from bending relative to the corresponding head pieces 551 to thereby prevent fracture of the limiting rope 55 and maintain the structural strength of the limiting rope 55. When the walking stick chair is in the folded state, the limiting rope 55 is configured to be U-shaped, and is received between the limiting link assemblies 54 so as to be prevented from interfering with other components of the walking stick chair.
3. By virtue of the retaining spaces 51 of the limiting link assemblies 54 for installation of the head pieces 551 of the limiting rope 55, there is no need to drill the limiting link assemblies 54 for mounting a costly pivoting structure to interconnect the limiting link assemblies 54 and the limiting rope 55. Therefore, the rope guiding device of this disclosure is relatively low-cost and safe.
Referring to
Referring to
It should be noted that, the configuration of the walking stick chair of this disclosure is not limited to the abovementioned embodiments. For example, the limiting link assemblies 54 may respectively substitute for the first legs 51 of the first embodiment (see
In the description above, for the purposes of explanation, numerous specific details have been set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art, that one or more other embodiments may be practiced without some of these specific details. It should also be appreciated that reference throughout this specification to “one embodiment,” “an embodiment,” an embodiment with an indication of an ordinal number and so forth means that a particular feature, structure, or characteristic may be included in the practice of the disclosure. It should be further appreciated that in the description, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of various inventive aspects.
While the disclosure has been described in connection with what are considered the exemplary embodiments, it is understood that this disclosure is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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104131547 | Sep 2015 | TW | national |