TWM553983U - Minimally invasive surgical safety tool having bionic elephant nose type buffer protection reinforcing structure - Google Patents

Description

Minimally invasive surgical safety tool with bionic elephant trunk cushion protection and strengthening structure

This creation is about a minimally invasive surgical safety tool with a bionic elephant-like cushioning protection structure. In particular, it relates to a minimally invasive surgical instrument that can be controlled by the elephant-nose cushioning reinforcement structure to contribute to surgical safety and clinical benefits.

This creation is about a minimally invasive surgical instrument, especially for a minimally invasive surgical safety tool with a bionic elephant-like cushioning protection structure. The design of the elephant-like cushion protection structure can clearly grasp the cutting force, the direction of travel and the position of the end, which is helpful for the safety of the operation and the clinical benefits.

Due to the advancement of science and technology, many different industries have emerged. People in various fields and industries often produce diseases unique to each industry because of the demand for work, that is, occupational diseases. Occupational diseases are the work of the laborers who produce in this profession. A disease caused by some harmful factors in the environment. Modern people have more and more illnesses, except for some people who are caused by acquired factors. Some people even suffer from diseases when they are born, but thanks to the development and progress of medical technology, now they are not only for medical personnel. In addition to the cultivation, it is also an ongoing effort for the updating and research and development of medical equipment. In order to cooperate with the current technology, further creation and matching The medical equipment of today's technology enables medical personnel to use medical equipment more easily, which can increase safety and success rate when treating or performing surgery on patients. Especially for small lesions such as face, hand, palm and other surgical operations, a medical device with auxiliary positioning, guidance and cushioning protection is particularly important, especially for minimally invasive surgical safety tools. In terms of hands and palms, in recent years, the evolution of society, many operations must rely on long-term and repeated use of fingers or wrists to achieve. For example, for a person who operates on a finger for a long time, the burden on the finger is quite large. Due to the long-term operation of the finger, it is suddenly found that the finger cannot be straightened after being bent, accompanied by swelling and pain. This only knows that there is a board machine finger. The board machine refers to a disease in which a finger bends like a gusset machine. It is mainly caused by excessive use of fingers, which causes inflammation of the tendon; in addition to the production line employees, it also includes a computer family. Long-term writers and other excessive use of fingers may be a problem. In response to this disease, rehabilitation, massage, rubbing, injection, and surgery can be used in the past. The surgical method is to cut or relax the tendon sheath (also known as the tendon block) that is stuck in the nodule, and the function of the finger is restored. normal. The above-mentioned operations usually use surgical tools and instruments, and the length is limited by the operation mode and operating angle limitation of each instrument and the tool. The doctor cannot flexibly rotate the wrist and easily apply force at a desired angle. The blade configuration of these surgical instruments and tools makes it easy to accidentally damage the tendon or other surrounding tissues during the operation. Therefore, conventional surgical tools such as M355694 and M441446 cannot meet the existing clinical needs, especially the M355694 is clinically cut by the cutting edge. The nearby structure is complicated, and the serious consequences of accidentally injuring the tendon or other surrounding tissues during deep tissue formation, and the joint between the blade portion of the M441446 and the handle and the direction of the surgical force, that is, the grip portion, are easy to cause a joint at the time of clinical operation. Breaking, the techniques disclosed by these prior art techniques do not adequately address clinical needs and are highly clinically applicable. Therefore, this creation combines many years of biomedical engineering and bionic design. The professional knowledge and clinical experience, especially for the needs of minimally invasive surgery, to create a minimally invasive surgical safety tool structure, which can make the doctor safe, flexible, accurate and rapid surgery, and has a reinforced structure to avoid breakage, bionic nose and nose to avoid accidental injury. The situation happened. The main purpose of this creation is to provide a minimally invasive surgical safety tool structure that can be operated more accurately with the surgical safety tool structure, and through the bionic curvature design and bionic elephant head cushioning and guiding design, to reduce the injury to the tendon during surgery or Other surrounding organizations. Ligament decompression surgery is performed in specific clinical treatments and minimally invasive surgery, and ligament decompression requires frequent cutting directions and force control. Therefore, the main purpose of this creation is to solve the traditional lack. This work proposes a minimally invasive surgical safety tool with bionic elephant-like cushioning protection and strengthening structure, and designed a cushion-like cushioning reinforcement structure, which can clearly pinch the cutting position and travel. Direction and end position help control the safety and clinical benefits of surgery.

The present invention provides a minimally invasive surgical safety tool having a bionic elephant-like cushioning protection strengthening structure, comprising a elephant-like nasal structure cutting module and a minimally invasive surgical safety tool body, wherein the elephant-like reinforcing structure cutting module comprises a cutting module, a nose-shaped cushioning protection head, a nose-shaped cushioning protection positioning head, an auxiliary supporting structure body, a nose-shaped reinforcing support structure body, and a combined module; and the minimally invasive surgical safety tool The main body comprises a safety cutter body joint portion and a hand-held portion; wherein the elephant-like reinforced structure cutting module resembles a nose curvature, and the elephant-like head type buffer protection head, the elephant-like head cushion protection positioning head, the auxiliary support structure The elephant-shaped reinforced support structure and the joint module are integrally formed, and the cutting module is disposed on the elephant-like cushion protection Between the head and the elephant-like cushioning protection positioning head, the cutting module portion does not easily come into contact with the surrounding environment, and the elephant-like cushioning protection head and the elephant-like cushioning protection positioning head have a rounded curved surface design. The elephant-nose reinforced structure cutting module has more safe buffering operation space in clinical use; the auxiliary supporting structure is disposed on the opposite side of the elephant-like reinforcing support structure, and is reinforced by the elephant-like type The first end of the support structure is coupled to the cutting module, and the bonding module is disposed on the second end of the first end of the nose-shaped reinforcing support structure for docking with the joint of the safety tool body The minimally invasive surgical safety tool body is coupled to the elephant-like reinforced structure cutting module, and the cutting module can be easily manipulated by the hand-held portion.

Preferably, the elephant-like reinforced structure cutting module and the minimally invasive surgical safety tool main system utilize the joint module and the safety tool body joint portion to be detachably engaged, screwed, locked and combined Come and connect.

Preferably, the elephant-like reinforced structure cutting module and the minimally invasive surgical safety tool main system utilize the joint module and the safety tool body joint portion to be fixedly engaged, screwed, locked and combined Link it.

Preferably, the elephant-nose reinforced structure cutting module and the minimally invasive surgical safety tool main system are integrally coupled by the joint module and the safety tool body joint portion.

Preferably, the minimally invasive surgical safety tool body further comprises a light guiding module, comprising a light source, an energy supply source, a light source regulating module, and a light guiding device located inside the minimally invasive surgical safety tool body a module cavity, the light guiding module cavity is used for accommodating the light source, so that the minimally invasive surgical safety tool can provide a guiding function for guiding, positioning and illuminating a clinical application through the light source, and the energy supply source and the light source regulating mode The group may be disposed inside or outside the light guiding module cavity or a combination thereof depending on the light source system.

Preferably, the cutting module is selected from the group consisting of a metal alloy blade, a stainless steel blade, a steel blade, a ceramic blade, a polymer blade, a titanium blade, a conductive blade, a puncture knife, an electric knife, a laser source, and a radiation source. , pulsed emission sources and combinations thereof.

Preferably, the cutting module is fixed to the elephant-shaped reinforced structure cutting module by using an embedded plastic, wherein the cutting module is formed by a metal blade, a stainless steel blade, a titanium alloy blade and a combination thereof, and A plurality of holes are formed in the non-cut surface of the blade to facilitate the embedding of the plastic, and is effectively fixed to the elephant-shaped reinforced structure cutting module.

Preferably, the auxiliary support structure and the elephant-like reinforcing support structure system are selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloalkylate, hydrogenated poly-formene, polytetrafluoroethylene, polyamine Formate, polyethylene, polypropylene, polyimine, polyimide, soft metal embedded materials, soft materials embedded with high hardness materials and combinations thereof.

Preferably, the minimally invasive surgical safety tool body has a light guiding module including a light source, an energy supply source, a light source regulating module, and a light guiding mode inside the minimally invasive surgical safety tool body. The light guiding module cavity is used for accommodating the light source, so that the minimally invasive surgical safety tool can provide the function of guiding, positioning and illuminating the clinical application through the light source, and the energy supply source and the light source regulating module are light source The system difference can be set inside or outside the cavity of the light guiding module or a combination thereof.

Preferably, the light source is selected from the group consisting of a tungsten wire source, a xenon source, an LED source, a laser source, a pupil source, and combinations thereof. More preferably, the light source is a laser source. Specifically, in a fully equipped operating room, there is a fiber optic power supply and a light source supply, the light source being a pupil light source.

Optionally, the endoscope guiding sleeve is selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloalkylate, hydrogenated polynorbornene, polytetrafluoroethylene, polyurethane Ester, polyethylene, polypropylene, polyimine, polyimine, metal alloy, stainless steel, steel, ceramic, A polymer material, a titanium alloy, a soft material embedded in a metal, a soft material encapsulating a high hardness material, and a combination thereof.

10‧‧‧ minimally invasive surgery safety tool

10',10",10"'‧‧‧Light Guided Minimally Invasive Surgery Safety Tool

100,100’,100”,100'''‧‧‧ 象 式 reinforced structural cutting module

110,110’,110”,110'''‧‧‧ cutting module

120,120',120",120'''‧‧‧ nose-shaped cushion protection head

130,130',130",130'''‧‧‧ 象 nose type cushioning protection positioning head

140‧‧‧Auxiliary support structure

150‧‧‧ elephant-like reinforced support structure

170‧‧‧ Combined module

180‧‧‧Endoscope guiding sleeve

500,500',500",500'''‧‧‧ minimally invasive surgery safety tool body

530‧‧‧Handheld Department

540‧‧‧ Minimally Invasive Surgery Safety Tool Body Joint

600', 600", 600'''‧‧‧ light guiding module cavity

610', 610", 610" ‧ ‧ ‧ light source control module

630’, 630”, 630”’ ‧ ‧ energy source

650', 650", 650" ‧ ‧ ‧ light source

1000, 1000", 1000'''‧‧‧ Surgery surrounding tissue

1100, 1000", 1100'''‧‧‧ surgical incision

Fig. 1 is a schematic view showing the appearance of a minimally invasive surgical safety tool (A) and a functional sectional view (B) of a first embodiment of the present invention having a bionic elephant-like cushioning protection structure.

Figure 2 is a schematic diagram of a micro-invasive surgical cutting tool with a biomimetic elephant-like cushioning protection structure. (A) A micro-cutting surgical blade is used according to different clinical requirements; (B) A plate machine refers to a surgical operation. Schematic diagram of the blade; and (C) Schematic diagram of the general surgical blade.

Figure 3 is a diagram showing the different clinical operations of a minimally invasive surgical safety tool with a bionic elephant-like cushion protection structure (A) a minimally invasive decompression surgery for carpal tunnel syndrome; (B) a plate machine Schematic diagram; and (C) schematic diagram of general surgery.

Figure 4, the second embodiment of the present invention introduces a light guiding module with a bionic elephant-like cushioning protection structure for minimally invasive surgical safety tools using different light source systems (A) tungsten light source, (B) laser light source and C) Schematic diagram of the functional profile of the pupil light source.

The first embodiment: a minimally invasive surgical safety tool with a bionic elephant nasal cushion protection structure

The present invention provides a minimally invasive surgical safety tool 10 having a bionic elephant-like cushioning protection reinforced structure, comprising a elephant-like reinforced structure cutting module 100 and a minimally invasive surgical safety tool body 500, wherein the elephant-like reinforced structure cutting The module 100 includes a cutting module 110, a nose-shaped cushioning protection head 120, a nose-shaped cushioning protection positioning head 130, and an auxiliary supporting structure. 140, a trunk-like reinforcing support structure 150, and a bonding module 170; and the minimally invasive surgical safety tool body 500 includes a safety tool body joint portion 540 and a hand-held portion 530; wherein the elephant-like reinforcing structure cutting mold The group 100 is like a nose curve, and the elephant head type cushioning protection head 120, the elephant head type cushioning protection positioning head 130, the auxiliary supporting structure body 140, the elephant nose type reinforcing supporting structure body 150 and the bonding module 170 The cutting module 100 is disposed between the elephant head type cushioning protection head 120 and the elephant head type cushioning protection positioning head 130, so that the cutting module part does not easily contact the surrounding environment. The elephant-like head cushioning protection head 120 and the elephant-like head cushioning protection positioning head 130 have a rounded curved surface design, so that the elephant-like reinforcing structure cutting module 100 has more safe buffering operation space in clinical use; the auxiliary support The structure 140 is disposed on the opposite side of the nose-like reinforcing support structure 150, and the cutting module 110 is coupled through the first end of the nose-shaped reinforcing support structure 150, and the bonding module 170 is provided. a second end opposite to the first end of the nose-like reinforcing support structure 150 for abutting the safety tool body joint portion 540, so that the minimally invasive surgical safety tool body 500 and the elephant-like reinforcing structure cutting mold The group 100 is coupled, and the cutting module 110 can be easily manipulated by the hand portion 530. The elephant-like head cushion protection positioning head 130 has a soft design like a nose head type, and has a rounded surface, so that the minimally invasive surgical safety tool with the bionic elephant-like cushion protection structure has a surgical safety buffer. Features. Clinically, when performing ligament decompression surgery, an electric knife or a separate blade or a general plastic knife cannot be used. Optionally, the prosthetic reinforced structure cutting module 100 and the minimally invasive surgical safety tool body 500 are detachably engaged and screwed by the coupling module 170 and the safety tool body coupling portion 540. The combination of the locks and their combinations. Optionally, the elephant-like reinforced structure cutting module 100 and the minimally invasive surgical safety tool body 500 utilize the bonding module 170 and the safety tool body joint portion The 540 is coupled in a manner that is fixedly engaged, screwed, locked, and combinations thereof. The clinical needs are adjusted to the need for the strength of the device. In a specific clinical application, the elephant-like reinforced structure cutting module 100 and the minimally invasive surgical safety tool body 500 are integrally coupled to each other by the coupling module 540 and the safety tool body 170 coupling portion 540. Optionally, the auxiliary support structure 140 and the elephant-like reinforcing support structure 150 are selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloalkylate, hydrogenated poly-formene enelate, polytetrafluoroethylene , polyurethane, polyethylene, polypropylene, polyimide, polyimine, soft metal embedded materials, soft materials embedded with high hardness materials and combinations thereof. The first embodiment of the present invention has a minimally invasive surgical safety tool with a bionic elephant-like cushion protection structure, which is quite suitable for clinical treatment of carpal tunnel syndrome, especially in the use of minimally invasive ligament decompression surgery in carpal tunnel syndrome. A small opening of about 0.5 to 1 cm is cut near the wrist, and the minimally invasive surgical safety tool with the bionic elephant-like cushioning protection structure is inserted into the wrist tunnel through the small opening, and the elephant head through the elephant-like reinforcing structure cutting module The type of cushioning protection head and the elephant-like head cushioning protection positioning head can clearly know the position and the traveling direction of the cutting module. Such a trunk-like structural reinforcement design is derived from the bionic concept. The nose bridge can often perform high-intensity collision and support functions due to its high structural strength. It can be used in clinical medicine to avoid the fracture of the surgical tool due to the uniformity of the force applied. The risk, and the creation of the function of the nose-like guiding and impact buffering at the same time, the elephant-like cushioning protection head 120 and the elephant-like cushioning protection positioning head 130 are designed, and the cutting mold with acupuncture or cutting damage is designed. The group 110 is disposed between the elephant head type cushioning protection head 120 and the elephant head type cushioning protection positioning head 130, and can be achieved by embedding the plastic injection. Preferably, the cutting module 110 is connected to the surgical tool. When the embedding plastic is injected, the cutting module is selected from a metal blade, a stainless steel blade, a titanium alloy blade and a combination thereof, and the blade is not cut. The surface is provided with a plurality of holes for the purpose of embedding the plastic injection, and is effectively fixed to the elephant-shaped reinforced structure cutting module. More preferably, the embedded cutting module 110 can be provided with two injection bonding holes, so that the plastic material can be solidified through the hole when the embedded plastic is injected, so that the cutting module 110 is not easily affected. Sliding force to improve the embedding effect of plastic injection and clinical safety. An endoscope guiding sleeve 180 may be further included in response to clinical requirements, and the endoscope guiding sleeve 180 is disposed to wrap the auxiliary supporting structure 140 and the elephant-like reinforcing support structure 150 when clinical operation At the end, the minimally invasive surgical safety tool 150 is removed, and the endoscope guiding sleeve 180 can be peeled off and left in the surgical incision with a slight finger force, and extends inwardly from the incision, especially the wrist tunnel. During minimally invasive surgery, the endoscopic guiding cannula 180 can be placed in the wrist tunnel, and the endoscope can be used to penetrate the endoscope guiding cannula 180 to the lesion to observe the surgical quality and pass through the external The imaging screen enables the participating medical staff and patients to understand the surgical results and also serves as an important auxiliary tool for the improvement of surgical safety. Optionally, the endoscope guiding sleeve is selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloalkylate, hydrogenated polynorbornene, polytetrafluoroethylene, polyurethane Ester, polyethylene, polypropylene, polyimine, polyimine, metal alloy, stainless steel, plastic, ceramic, polymer material, titanium alloy, soft material embedded in metal, soft material embedded with high hardness material and The combination is formed. According to different clinical needs, as shown in Figure 2, the minimally invasive surgical safety tool with bionic elephant-like cushion protection and strengthening structure is set according to different clinical requirements. (A) Schematic diagram of micro-cutting surgery blade; (B) A plate machine refers to a schematic view of a surgical blade; and (C) a schematic view of a general surgical blade. And as shown in FIG. 1 , the first embodiment of the present invention has a bionic nose-like cushioning protection structure, a minimally invasive surgical safety tool (A) appearance view and (B) a functional cross-sectional view, and is preferably applied to a carpal tunnel syndrome micro Invasive decompression surgery; as shown in Figure 3, the use of this creation has bionic elephant trunk cushioning Different clinical operations of minimally invasive surgical safety tools with protective structure (A) Schematic diagram of minimally invasive decompression surgery for carpal tunnel syndrome; (B) Schematic diagram of invasive surgery for plate machine; and (C) Schematic diagram of general surgery The cutting modules 100, 100", 100"' are arranged 1000, 1000", 1000" in different surgical peripheral tissues, forming corresponding surgical incisions 1100, 1000", 1100"'. Through these illustrations, It can be clearly understood that different applications can be appropriately changed according to clinical requirements into different cutting modules 100', 100", 100''', 100, respectively corresponding to micro-cutting surgery, plate machine refers to surgery, general For surgical use, carpal tunnel syndrome minimally invasive decompression surgery; and the corresponding elephant-like head cushion protection head 120', 120", 120"', 120; corresponding elephant-like cushion protection positioning head 130', 130", 130"', 130; to cover the corresponding cutting modules 110', 110", 110"', 110. More selectively, the cutting module 110', 110", 110'' ',110 series is selected from stainless steel blade, plastic steel blade, ceramic blade, polymer material blade, Blade alloy, a conductive blade, the puncture blade, electrocautery knife, a laser emitting source, a radiation-emitting source, and a combination of pulsed radiation source is formed.

The second embodiment: a light guiding minimally invasive surgery safety tool with a bionic image nasal cushion protection structure

In the second embodiment, a light source or a light source (such as an LED light source or a PLED light source) or a laser can be used to improve the optical positioning function, and a light guide having a bionic image-like cushioning protection structure can be introduced. Introduce minimally invasive surgery safety tools. The light guiding module has a light-guided minimally invasive surgical safety tool with a bionic elephant-like cushioning protection strengthening structure, and the light source system is different according to the fourth embodiment (A) tungsten light source, and FIG. 4 (B) laser light source. And Fig. 4(C), the pupil light source respectively forms a variety of different light-guided minimally invasive surgical safety tools 10', 10", 10''', that is, the creation has the imitation Further, in the body of the minimally invasive surgery safety tool body, a light guiding module is disposed, which comprises a light source 650', 650", 650", an energy supply source 630', 630", 630''', a light source control module 610', 610", 610"", and a light guiding module cavity 600', 600", 600"' inside the body of the minimally invasive surgical safety tool, The light guiding module cavity 600', 600", 600"' is used to house the light source 650', 650", 650"', so that the light guides the minimally invasive surgical safety tool 10', 10", 10 ''' can provide guidance, positioning and illumination functions for clinical applications through a light source, the energy supply source 630', 630", 630'" and the light source control module 610', 610", 610"' depending on the light source The system difference may be disposed inside or outside the light guiding module cavity or a combination thereof. Optionally, the light guiding module may be selectively fixed to the minimally invasive surgical safety tool body or detachably coupled to the micro The operation is safe inside or outside the main body of the cutter. In addition, in the embodiment, the elephant head type cushioning protection positioning head is in the light guiding module. During the internal illumination, the end of the elephant-like cushioning protection positioning head is concentrated due to the air interface, and the physical positioning is more effective than the optical positioning. Therefore, the terminal position of the cutting module can be clearly known. The stepping assistance of the position, the traveling direction and the end position of the cutting module further contributes to the great improvement of the safety of the operation and the clinical benefit. Optionally, the light source is selected from the group consisting of a tungsten light source, a xenon light source, and an LED light source. The laser source, the pupil source, and combinations thereof. Preferably, the source is a laser source. Specifically, in a fully equipped operating room, there is a fiber optic power source and a light source, the source being a pupil source.

The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. That is, the equal changes and modifications made by the patent application scope of this creation are covered by the scope of the creation patent. The creator of this case has rich experience in the development and research of biomedical related products and materials, and is well aware of the clinical related needs of electric burning knife. In view of this, the creator of this case has been engaged in the phase for many years. In the field of research and development experience, in-depth discussion of the above-mentioned shortcomings, and actively seek solutions in accordance with the above requirements, after a long period of hard research and multiple tests, finally completed the invention. Therefore, this creation has excellent progress and practicality in similar products. At the same time, after searching domestic and foreign information about such technical materials, it is true that no identical or similar documents exist before the application of this case, so the case should have been met. Patent requirements such as "novelty", "progressiveness" and "combination with industrial use" are submitted in accordance with the law.

The above description is only a preferred embodiment of the present invention. When it is not possible to limit the scope of the creation of the present invention, the equivalent changes and modifications made by the applicant in accordance with the scope of the patent application and the contents of the new manual should remain This creative patent covers the scope. Looking at the above, the structural features of this creation do have practical value and progressiveness. In terms of its overall structure, Cheng has already complied with the statutory requirements of the Patent Law and has filed a new type of patent application according to law.

10‧‧‧ minimally invasive surgery safety tool

100‧‧‧ Elephant-like reinforced structure cutting module

110‧‧‧Cutting module

120‧‧‧ nose-shaped cushion protection head

130‧‧‧nose-type cushioning protection positioning head

140‧‧‧Auxiliary support structure

150‧‧‧ elephant-like reinforced support structure

170‧‧‧ Combined module

180‧‧‧Endoscope guiding sleeve

500‧‧‧ minimally invasive surgery safety tool body

530‧‧‧Handheld Department

540‧‧‧ Minimally Invasive Surgery Safety Tool Body Joint

Claims (12)

A minimally invasive surgical safety tool with a bionic elephant-like cushioning protection strengthening structure, comprising a elephant-like nasal structure cutting module and a minimally invasive surgical safety tool body, wherein the elephant-nose reinforcing structure cutting module comprises a cutting die a group, a nose-like cushioning protection head, a nose-shaped cushioning protection positioning head, an auxiliary supporting structure body, a trunk-shaped reinforcing support structure, and a combined module; and the minimally invasive surgical safety tool body comprises a a safety cutter main body joint portion and a hand-held portion; wherein the elephant-nose reinforcing structure cutting module resembles a nose curvature, and the elephant-like head type buffer protection head, the elephant-like head cushion protection positioning head, the auxiliary support structure body, The trunk-type reinforced support structure and the joint module are integrally formed, and the cutting module is disposed between the elephant-like head type buffer protection head and the elephant-like head type buffer protection positioning head, so that the cutting module portion is not It will easily come into contact with the surrounding environment. The elephant-like cushioning protection head and the elephant-like cushioning protection positioning head have a rounded curved surface design, which makes the elephant-like reinforcing structure cut. The module has more safe buffering operation space in clinical use; the auxiliary supporting structure is disposed on the opposite side of the elephant-like reinforcing support structure, and the first end of the supporting structure is strengthened through the trunk-like type The cutting module is coupled to the second end of the first end of the nose-shaped reinforcing support structure for docking with the joint of the safety tool body to make the minimally invasive surgery safe. The cutter body is coupled to the elephant-like reinforced structure cutting module, and the cutting module can be easily manipulated by the hand-held portion. The minimally invasive surgical safety tool according to claim 1, wherein the trunk-like reinforced structure cutting module and the minimally invasive surgical safety tool main system utilize the combined module and the safety tool body The joints are joined by means of detachable engagement, screwing, locking and combinations thereof. The minimally invasive surgical safety tool according to claim 1, wherein the trunk-like reinforced structure cutting module and the minimally invasive surgical safety tool main system utilize the combined module and the safety tool body joint portion to fix the card Join, screw, lock, and combinations thereof. The minimally invasive surgical safety tool according to claim 1, wherein the trunk-like reinforced structure cutting module and the minimally invasive surgical safety tool main system utilize the combined module and the safety tool body joint portion to be integrally formed. Ways to connect. The minimally invasive surgical safety tool according to claim 1, wherein the cutting module is selected from the group consisting of a metal blade, a stainless steel blade, a steel blade, a ceramic blade, a polymer blade, a titanium blade, a conductive blade, a puncture knife, An electric burner, a laser source, a radiation source, a pulse source, and combinations thereof. The minimally invasive surgical safety tool according to claim 1, wherein the cutting module is fixed to the elephant-nose reinforcing structure cutting module by using an embedded plastic, wherein the cutting module is selected from a metal blade, stainless steel. The blade edge, the titanium alloy blade and the combination thereof are formed, and a plurality of holes are formed on the non-cut surface of the blade edge to facilitate the embedding of the plastic injection, and are effectively fixed to the elephant-shaped reinforced structure cutting module. The minimally invasive surgical safety tool described in claim 1 of the patent scope, the auxiliary support structure and The trunk-like fortified support structure system is selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloalkylate, hydrogenated polynorbornene, polytetrafluoroethylene, polyurethane, polyethylene, polypropylene Polyimine, polyimine, a soft material embedded in a metal, a soft material encapsulating a high hardness material, and a combination thereof. The minimally invasive surgical safety tool according to the first aspect of the invention, wherein the minimally invasive surgical safety tool body further comprises a light guiding module, comprising a light source, an energy supply source, a light source control module, and a light guiding module cavity inside the body of the minimally invasive surgical safety tool, the light guiding module cavity is used for accommodating the light source, so that the minimally invasive surgical safety tool can provide guidance and positioning for clinical application through the light source And the function of the illumination, the energy supply source and the light source control module may be disposed inside or outside the light guiding module cavity or a combination thereof according to the light source system. The minimally invasive surgical safety tool of claim 8, wherein the light source is selected from the group consisting of a tungsten wire source, a xenon source, an LED source, a laser source, a pupil source, and combinations thereof. The minimally invasive surgical safety tool of claim 8, wherein the light guiding module is fixedly or detachably coupled to the minimally invasive surgical safety tool body. The minimally invasive surgical safety tool according to claim 1, wherein the elephant-like reinforced structure cutting module further comprises an endoscope guiding sleeve, the endoscope guiding sleeve is arranged to be coated The auxiliary supporting structure and the elephant-like reinforcing support structure are taken out at the end of the clinical operation, and the minimally invasive surgical safety tool is taken out, and the endoscope guiding sleeve can be peeled off and left in place by a slight force applied by the fingertip In the surgical incision, and extending inward from the incision, using an endoscope to penetrate the endoscope The results were observed by guiding the cannula to the lesion. The minimally invasive surgical safety tool according to claim 11, wherein the endoscope guiding sleeve is selected from the group consisting of polycarbonate, polymethyl methacrylate, hydrogenated polycycloolefin, hydrogenated polyborne borneol. Ethylene, polytetrafluoroethylene, polyurethane, polyethylene, polypropylene, polyimine, polyimine, metal alloy, stainless steel, plastic, ceramic, polymer, titanium alloy, embedded metal A soft material, a soft material encapsulating a high hardness material, and a combination thereof.