LOCKING STRUCTURE OF KNEE JOINT

Abstract

An improvement on a locking structure of a knee joint is provided. The knee joint includes a joint upper seat, a joint lower seat, and a fastening clamp including a rotary axle connected to the joint upper seat and a fastening clamp through-hole connected to the joint lower seat. The fastening clamp includes a fastening clamp channel. The rotary axle includes an axle opening. The fastening clamp includes a fastening groove in which a fixer connection rod is pivotally connected. The fixer connection rod has two ends respectively connected to a fixer disposed in the fastening clamp channel and a connecting rod to which a pull cable is coupled. The connecting rod is rotated by the pull cable to selectively cause the fixer to move in opposite directions in the fastening clamp channel to set the knee joint in a rotatable state and a fixed state, respectively.

Claims

1. A knee joint, comprising: a joint upper seat, which is extended downward to form a pair of joint upper seat through-holes; a joint lower seat, which comprises an elastic body, the joint lower seat being extended upward to form a pair of joint lower seat through-holes; a fastening clamp, which is provided therein with a fastening clamp through-hole and a rotary axle, the rotary axle corresponding to and connected to the joint upper seat by a pair of mounting bolts, the fastening clamp through-hole corresponding to and connected to the joint lower seat through-holes by a connection shaft penetrating therethrough; wherein a fastening clamp channel is formed in the fastening clamp and is extended to and in communication with the rotary axle, the rotary axle being formed with an axle opening, the fastening clamp being extended from an outside thereof to form a fastening clamp groove, the fastening clamp groove being collaborative with a positioning piece penetrating therethrough to pivotally connect a fixer connection rod in the fastening clamp groove, the fixer connection rod having an end, which is collaborative with an axle penetrating therethrough to penetrate through a fixer to set the fixer in the fastening clamp channel, the fixer connecting rod having an opposite end that is collaborative with a bolt to fix to a connecting rod, the connecting rod being coupled to a pull cable; wherein the connecting rod is pulled upward by the pull cable to rotate, the fixer moves downward in the fastening clamp channel to contact and push the elastic body so as to set the knee joint in a rotatable condition, and when the pull cable stops pulling the connecting rod, the fixer moves upward in the fastening clamp channel to reach into the axle opening to be set in a fixed condition, where the knee joint is set in a fixed condition, wherein the axle opening is formed on a circumferential surface of the rotary axle and the fixer is movable in the fastening clamp channel along an axis line that intersects the circumferential surface, such that the fixer is movable between a first position where the fixer is located out of the axle opening and a second position where the fixer is located in the axle opening, and wherein in the rotatable condition of the knee joint, the fixer connection rod is at a first angular position to set the fixer at the first position and deform the elastic body such that relative rotation of the rotary axle with respect to the joint lower seat is enabled, and in the fixed condition of the knee joint, the fixer connection rod is at a second angular position and the elastic body is released to bias the fixer to the second position to get in engagement with the axle opening so as to prevent the relative rotation of the rotary axle with respect to the joint lower seat.

2. The knee joint according to claim 1, wherein the elastic body comprises a spring.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 is a perspective view of the present invention.

[0013] FIG. 2 is an exploded view of the present invention.

[0014] FIG. 3 is an exploded view of the present invention, taken from a different perspective.

[0015] FIG. 4 is a rear view showing the present invention in an unlocked condition.

[0016] FIG. 5 is a cross-sectional view of the present invention taken along line A-A of FIG. 4.

[0017] FIG. 6 is a schematic view demonstrating operation of an upper joint seat of the present invention shown in FIG. 5.

[0018] FIG. 7 is a rear view showing the present invention in a locked condition.

[0019] FIG. 8 is a cross-sectional view, taken along line B-B of FIG. 7, showing the present invention in the locked condition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0020] A detailed description, generally according to the present, for a preferred feasible embodiment, is provided hereinafter with reference to FIGS. 1-3, in order to enhance understanding of the present invention. An improvement is provided for a locking structure of a knee joint according to the present invention, in which the knee joint comprises: a joint upper seat (10), which is extended downward to form a pair of joint upper seat through-holes (11); and a joint lower seat (40), which comprises an elastic body (42), wherein the elastic body (42) is embodied as a spring in the context of the present invention and can be replaced with any material exhibiting the same functionality, and is not limited thereto.

[0021] The joint lower seat (40) is extended upward to form a pair of joint lower seat through-holes (41). A fastening clamp (20) is provided therein with a fastening clamp through-hole (21) and a rotary axle (23), wherein the rotary axle (23) corresponds to and is connected to the joint upper seat (10) by means of a pair of mounting bolts (12), and the fastening clamp through-hole (21) is set to correspond to and connected to the joint lower seat through-holes (41) by a connection shaft (43) penetrating therethrough.

[0022] A fastening clamp channel (22) is formed in the fastening clamp (20) and is extended to and in communication with the rotary axle (23). The rotary axle (23) is also formed with an axle opening (26). A fastening clamp groove (24) is formed and extended in an outside of the fastening clamp (20), or alternatively, the fastening clamp groove (24) is arranged in an inside of the fastening clamp (20), and is not limited thereto. Further, the fastening clamp groove (24) is collaborative with a positioning piece (25) that is set in a penetrating manner to pivotally connect a fixer connection rod (30) in the fastening clamp groove (24). The fixer connection rod (30) has an end, which is collaborative with an axle (32) that is set in a manner of penetrating therethrough to penetrate a fixer (31) to set the fixer (31) in the fastening clamp channel (22), and the fixer connecting rod (30) has an opposite end that is collaborative with a bolt (33) to fix to a connecting rod (34). The connecting rod (34) is coupled to a pull cable (50).

[0023] Further referring to FIGS. 4 and 5, when the connecting rod (34) is rotated upward upon being pulled by the pull cable (50), as shown in the cross-section of A-A, the fixer (31) is caused to move downward in the fastening clamp channel (22) to contact and push the elastic body (42), setting the knee joint in a rotatable condition. As shown in FIG. 6, when the knee joint is set in the rotatable condition, the knee upper seat (10) is allowed to perform a rotating motion.

[0024] Further referring to FIGS. 7 and 8, as shown in the cross-section of B-B, when the pull cable (50) does not pull the connecting rod, the fixer (31) is moved upward in the fastening clamp channel (22) to reach into the axle opening (26) and becomes a retained condition, so as to set the knee joint in a fixed condition, where the knee upper seat (10) is not allowed to perform the rotating motion.

[0025] In summary, the improvement on a locking structure of a knee joint according to the present invention is such that a fastening clamp (20) is formed therein with a fastening clamp channel (22), and a fixer connection rod (30) that has one end connected to a fixer (31) is pivotally connected to a fastening clamp groove (24) provided in an outside of the fastening clamp (20), wherein a rotary axle (23) provided in the fastening clamp (20) is set in communication with the fastening clamp channel (22), so that when a pull cable (50) is pulled upward, from the outside, the fixer connection rod (30) is synchronously driven to cause the fixer (31) to move in the fastening clamp channel (22) to free the knee upper seat (10) to rotate without being subject to any constraint; and wherein when the pull cable (50) is released, the fixer (31) is set into engagement with an axle opening (26) provided in the outside of the rotary axle (23) to set the knee upper seat (10) in a constrained state. The present invention allows an artificial limb wearer to make switching between a fixed state and a rotatable state and may also effectively reduce an impact force and protect the structure from exposure to the outside in order to ensure security of use.