JP3184279U - Minimally invasive surgical fixed connecting rod gripper structure - Google Patents

Abstract

A minimally invasive surgical fixed connecting rod gripper structure is provided.
In particular, an adjustable joint module 2 is used to appropriately adjust the angle between a grip 1 and a deflection bar 3, and a fitting sleeve 4 and a positioning rod 5 With a structure that grips the fixed connecting rod having the soft connecting rod 7, the rigid sleeve 6 and the flexible connecting rod 7 can be stably gripped and assembled between the bone nail bodies by a special simple operation procedure of the gripper. And can effectively reduce the open area of the wound during the surgical process.
[Selection] Figure 1

Description

The present invention relates to a minimally invasive surgical fixed connecting rod gripper structure, an adjustable joint module, which can appropriately adjust the angle between the grip and the deflection bar, stably hold a rigid sleeve and a flexible connecting rod, Specifically, the present invention relates to a minimally invasive surgical fixation connecting rod gripper structure that is fitted between bone nails.

The conventional connecting rod gripper structure has a fixed angle structure design, and it can easily interfere with the back of the human body during the insertion process by operating the fixed connecting rod, adversely affecting the progress of the operation, and the tip grip mechanism The volume is not effectively reduced, the area of the wound is increased, and healing after surgery is worsened.

The conventional connecting rod gripper structure described above has the following disadvantages: 1. It is easy to interfere in use due to the regular angle design, 2. The volume of the grip mechanism is increased, and the wound area cannot be effectively reduced.

    The present inventor proposes the present invention in which the above-mentioned drawbacks are studied carefully, and the above-mentioned disadvantages can be effectively eliminated by utilizing the theory, and the design is rational.

In the present invention, the split-type erection and fixing structure that connects the rigid sleeve and the flexible connecting rod provides a concrete action that can achieve complete rigidity check and partial elastic check. , Without interfering in use, 2, the angle can be adjusted in multiple steps and in minute amounts, the use elasticity is greatly increased, 3, the volume of the grip mechanism is smaller, the wound area can be effectively reduced, 4, the grip Provided is a minimally invasive surgical fixed connecting rod gripper capable of stably gripping a fixed connecting rod by a mechanism and obtaining advantages such as no loosening or deformation.

The invention of claim 1 has a grip, a first tooth disk and a second tooth disk that are fitted to each other, and the first tooth disk is connected to the grip; A deflection bar coupled to a second tooth disk, coupled to the deflection bar, having a fitting hole and a through hole, the fitting hole and the through hole penetrating vertically, and the fitting hole , There are a fitting rod on which a female thread is formed, a rotating head and a pin near one side of the deflection bar, a male screw is formed near one side of the rotating head, and the male screw is It is a minimally invasive surgical fixed connecting rod gripper structure characterized in that it includes a stereotactic rod that is screwed onto a female screw of a fitting hole.

The invention of claim 2 is characterized in that the grip and the deflection bar are pivotally attached to each other by a first tooth disk and a second tooth disk of the joint module, respectively. It is an invasive surgery fixed connecting rod gripper structure.

The invention of claim 3 is the minimally invasive surgical fixed connecting rod gripper structure according to claim 1, wherein an inner hexagonal hole is further formed in the rotating head of the stereotaxic rod.

Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, the drawings and the like are for reference and explanation, and the present invention is not limited thereby.

With reference to FIGS. 1 to 3, the present invention is a minimally invasive surgical fixed connecting rod gripper structure, which has a grip 1, a first tooth disk 21 and a second tooth disk 22 that fit together, The first tooth disk 21 is connected to the joint module 2 connected to the grip 1, the deflection bar 3 connected to the second tooth disk 22 of the joint module 2, and the deflection bar 3 to be fitted. There are a contact hole 41 and a through hole 42, and the fitting hole 41 and the through hole 42 penetrate vertically, and in the fitting hole 41, a female screw 411 is located near one side of the deflection bar 3. There is a fitting rod 4 to be formed, a rotary head 51 and a pin 52. A male screw 53 is formed near one side of the rotary head 51, and the male screw 53 is connected to the female screw 411 of the fitting hole 41. The stereotaxic rod 5 is further provided on the rotary head 51, and the inner hexagonal hole 511 is formed on the rotary head 51.

The grip 1 and the deflection bar 3 are pivotally attached to each other by the first tooth disk 21 and the second tooth disk 22 of the joint module 2, respectively, as shown in FIG.

According to the present invention, the flexible connecting rod 7 is fitted into the storage space 61 having two grooves 62 of the rigid sleeve 6, and the rigid sleeve 6 is formed with a through hole 63 as shown in FIG. At this time, one end having the through hole 63 of the rigid sleeve 6 is fitted into the through hole 42 of the fitting rod 4, and the localization rod 5 is inserted into the fitting hole 41 of the fitting rod 4, and the tool ( (Usually a hexagonal wrench) is inserted into the inner hexagonal hole 511 of the rotary head 51, the entire positioning rod 5 is rotated, and the screw 53 of the positioning rod 5 and the internal thread 411 of the fitting hole 41 are screwed together. Then, the pin 52 of the stereotaxic rod 5 is correspondingly inserted into the through hole 63 of the rigid sleeve 6 and stably removed without falling off as shown in FIG. And the entire structure of the fixed connecting rod having the flexible connecting rod 7 can be gripped.

As shown in FIG. 4, according to the present invention, the joint module 2 can appropriately adjust the angle between the grip 1 and the deflection bar 3 (multi-stage fine angle adjustment is possible). It is a structure that can be stably gripped with a fixed connecting rod having a rigid sleeve 6 and a soft connecting rod 7, and is passed through the muscle tissue 101 through a minimally invasive wound in a direction perpendicular to the skin 102. Then, it reached the back of the receiving seat 81 and the pivot seat 82 of the outer bone nail body 8, and at this time, the lock nail 9 at the tip of the bone nail body 8 was accurately locked to the vertebra 10 of each corresponding node .

As shown in FIG. 5 and FIG. 6, according to the present invention, the grip 1 of the gripper (the angle between the grip 1 and the deflection bar 3 can be appropriately adjusted by the joint module 2 in the counterclockwise direction and interferes with the human body. Because it is a structure that grips the fixed connecting rod having the rigid sleeve 6 and the flexible connecting rod 7 with the fitting rod 4 and the stereotaxic rod 5, from the vertically standing state little by little, in the muscle tissue 101, It is rotated to a horizontal state (in the process, the superficial skin 102 is only slightly expanded), and at the same time it fits between the two side walls 811 of the bone nail body 8 and each bone nail body Due to the structure of the fixed connecting rod having the rigid sleeve 6 and the flexible connecting rod 7 between the eight, the vertebrae 10 of each node that are constrained by different restraints and screwed to the lock nail 9 at the tip of each main body 8 Interlocked, rigidity (joint stage of rigid sleeve 6) and elasticity (joint of flexible connecting rod 7) Supervision action of) is generated, only the wound opening area smaller, to be done surgery, recovery situation after surgery better, also the risk of infection is reduced, in both faces, obtained a good effect.

Therefore, the present invention is more progressive and more practical, and filed a utility model registration request in accordance with the law.

The above is only a better embodiment of the present invention, and the present invention is not limited thereby, and equivalent changes made based on the scope of claims for patent registration relating to the present invention and the contents of the description. All modifications and changes are included in the scope of the claim for registration of the present invention.

Structure exploded view of connecting rod gripper according to an embodiment of the present invention Side sectional view of assembly of connecting rod gripper according to an embodiment of the present invention Cross-sectional view of assembly of connecting rod gripper according to an embodiment of the present invention Grip diagram of fixed connecting rod of embodiment of the present invention (1) Grip diagram of fixed connecting rod of embodiment of the present invention (2) Grip diagram of fixed connecting rod of embodiment of the present invention (3)

1 grip
10 vertebrae
101 muscle tissue
102 skin
2 Joint module
21 First tooth disc
22 second tooth disc
3 Deflection bar
4 Fitting rod
41 Fitting hole
411 Female thread
42 Through hole
5 Stereotaxic rod
51 Rotating head
511 Hexagon socket
52 pin
53 Male thread
6 Rigid sleeve
61 Storage space
62 Groove
63 Through hole
7 Flexible connecting rod
8 Body
81 cradle
811 Side wall
82 Pivot Seat
9 Lock nails

Claims (3)

Grip,
A joint module having a first tooth disk and a second tooth disk that fit together, wherein the first tooth disk is coupled to a grip;
A deflection bar connected to the second tooth disk of the joint module;
The fitting bar is connected to the deflection bar, and has a fitting hole and a through hole. The fitting hole and the through hole penetrate vertically, and the fitting hole has a fitting hole near one side of the deflection bar. A fitting rod on which a screw is formed;
There is a rotating head and a pin, and a stereotactic rod in which a male screw is formed near one side of the rotating head, and the male screw is screwed to the female screw of the fitting hole,
Contains,
A minimally invasive surgical fixed connecting rod gripper structure. 2. The minimally invasive surgical fixed connecting rod gripper structure according to claim 1, wherein the grip and the deflection bar are pivotally attached to each other by a first tooth disk and a second tooth disk of the joint module, respectively. . The minimally invasive surgical fixed connecting rod gripper structure according to claim 1, further comprising an inner hexagonal hole formed in the rotating head of the stereotaxic rod.

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