CN218279797U - Glove for entering body cavity to operate in endoscopic environment - Google Patents

Abstract

The utility model relates to a glove for entering body cavity operation in an endoscope environment, which comprises a glove body, wherein an outer-layer wrist protector is fixedly arranged on the outer side of the wrist part of the glove body, the outer-layer wrist protector is sleeved on the wrist part of the glove body, one end of the outer-layer wrist protector is fixedly connected with the outer part of the glove body, the other end of the outer-layer wrist protector is fixedly provided with an air bag ring for opening the outer port of the outer-layer wrist protector, the glove body is matched with a protective sleeve for use, the protective sleeve is arranged in the notch, and the air bag ring is provided with a tightening component for tightening the air bag ring outside the protective sleeve; the utility model provides a gloves can stretch into the coelom inside of disease, seals up the incision through gasbag ring sum outer wrist band simultaneously, and then can separate blood vessel and tissue at the coelom through the hand this moment, and the flexibility of hand combines the advantage that anatomical structure is clear under the chamber mirror, is favorable to shortening the time of operation very much and reduces the risk of anesthesia, increases the security of patient when the operation.

Description

Glove for entering body cavity to operate in endoscopic environment

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to enter into gloves of coelom operation under chamber mirror environment.

Background

In the prior art, when general surgery department performs the full-resection esophagus of the laparoscopic stomach and jejunum anastomosis, an artificial pneumoperitoneum needs to be established firstly to separate a peritoneal wall from visceral organs, enlarge a body cavity to facilitate the operation, and then the operation is performed through an endoscopic instrument.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a pair of gloves which are simple in structure and reasonable in design and can be operated in the body cavity under the endoscope environment.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a enter into gloves of coelom operation under chamber mirror environment, includes the gloves body, the fixed outer wrist band that is equipped with in the outside at gloves body wrist position, outer wrist band cover are established at the wrist position of gloves body, and the outside fixed connection of the one end of outer wrist band and gloves body, and the other end of outer wrist band is fixed and is equipped with the gasbag ring that struts the outer port of outer wrist band, the gloves body uses with the protective sheath is supporting mutually, and the protective sheath is installed in notched inside, be equipped with on the gasbag ring and strut tight subassembly with the gasbag ring at the protective sheath outside.

As the utility model discloses a further optimization scheme, prop tight subassembly and include coupling hose and gasbag ball, coupling hose's the one end and the marginal fixed connection of gasbag ring, coupling hose's the other end and the tracheal one end fixed connection of stereoplasm, stereoplasm trachea and gasbag ball fixed connection, set up the inflation inlet that communicates each other with the stereoplasm trachea on the gasbag ball, and set up the induction port with external intercommunication on the gasbag ball, the inside of inflation inlet and induction port all is equipped with the check valve, be equipped with the gaseous exhaust's of gasbag ring inside exhaust subassembly on the stereoplasm trachea.

As a further optimization scheme of the utility model, the fixed annular arch that is equipped with of outside edge at protective sheath both ends, the bellied external diameter of annular is greater than the internal diameter of gasbag ring.

As the utility model discloses a further optimization scheme, the exhaust subassembly includes push rod, gas vent and rubber buffer, the gas vent is located the tracheal outer wall of stereoplasm, and the inner port department of gas vent is equipped with the rubber buffer, and compression spring and the tracheal inner wall fixed connection of stereoplasm are passed through to the one end that the gas vent was kept away from to the rubber buffer, the outside end of rubber buffer links firmly with the one end of push rod.

As a further optimization scheme of the utility model, the other end of push rod stretches out the outer port of gas vent, and the outside end and the pressing plate fixed connection of push rod.

As a further optimization scheme of the utility model, the rubber buffer is round platform column structure, and the outside end diameter of rubber buffer is less than the medial extremity diameter of rubber buffer.

As a further optimization scheme of the utility model, the surface of gloves body is provided with the rubber storage bag.

As the utility model discloses a further optimization scheme, the top of rubber storage bag is provided with the storage bag opening, and the lower tip of rubber storage bag sets up to thin matter district, and the thickness in thin matter district is less than the thickness of rubber storage bag structural layer itself.

As the utility model discloses a further optimization scheme, the homogeneous body is provided with arc feeding dog on the inner wall of storage bag open-ended both sides, and the surface of arc feeding dog is the arc structure, and arc feeding dog below all is provided with the magnetism of fixing at rubber storage bag both sides face and inhales the piece, inhales mutually between the piece between two sets of magnetism.

The beneficial effects of the utility model reside in that: the utility model provides a gloves can stretch into the coelom inside of disease, seals up the incision through gasbag ring sum outer wrist band simultaneously, and then can separate blood vessel and tissue at the coelom through the hand this moment, and the flexibility of hand combines the advantage that anatomical structure is clear under the chamber mirror, is favorable to shortening the time of operation very much and reduces the risk of anesthesia, increases the security of patient when the operation.

Drawings

Fig. 1 is a schematic external structural view of the present invention;

FIG. 2 is a schematic view of a first connection state of an airbag ring and a protective sheath;

FIG. 3 is a schematic view of a second connection state of the balloon ring and the protective sheath;

FIG. 4 is an enlarged view of the structure at A in FIG. 2;

FIG. 5 is a schematic view of the surface structure of the glove body;

FIG. 6 is a schematic view of a rubber storage bag.

In the figure: 1. a glove body; 2. a balloon ring; 4. an outer-layer wrist guard; 5. a connecting hose; 6. a hard trachea; 7. an air bag ball; 8. an annular projection; 9. a protective sleeve; 10. a push rod; 11. an exhaust port; 12. a rubber plug; 13. a pressing plate; 14. an inflation inlet; 15. an air suction port; 16. a rubber storage bag; 17. a storage bag opening; 18. an arc-shaped feeding stop block; 19. a magnetic attraction sheet; 20. a thin region.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1-4, a glove entering into body cavity operation in an endoscope environment comprises a glove body 1, an outer-layer wrist protector 4 is fixedly arranged on the outer side of a wrist part of the glove body 1, the outer-layer wrist protector 4 is sleeved on the wrist part of the glove body 1, one end of the outer-layer wrist protector 4 is fixedly connected with the outer part of the glove body 1, an air bag ring 2 for opening an outer port of the outer-layer wrist protector 4 is fixedly arranged at the other end of the outer-layer wrist protector 4, the glove body 1 is matched with a protective sleeve 9 for use, the protective sleeve 9 is arranged in a cut, and a tightening component for tightening the air bag ring 2 outside the protective sleeve 9 is arranged on the air bag ring 2.

The utility model discloses during the actual operation, can insert the incision position with protective sheath 9 earlier, then the people wears gloves body 1 and stretches into the inside in patient's coelomic with gloves body 1, it makes peritoneal wall and internal organs part to establish artifical pneumoperitoneum this moment, then establish 2 covers of gasbag ring at the outside of protective sheath 9 and then seal up the pneumoperitoneum, it has sufficient air to keep pneumoperitoneum inside, can separate blood vessel and tissue in the coelomic this moment, the flexibility of hand combines the advantage that anatomical structure is clear under the chamber mirror, be favorable to very much shortening the time of operation and reduce the risk of anesthesia, increase the security of patient when the operation.

The tight subassembly of propping simultaneously can prop tightly gasbag ring 2 in the outside of sheath 9, and then makes gasbag ring 2 and outer wrist band 4 better to notched leakproofness, prevents that gloves body 1 from taking place to leak gas in incision department when the inside in body cavity removes.

Further, prop up tight subassembly and include coupling hose 5 and gasbag ball 7, coupling hose 5's one end and gasbag ring 2's marginal fixed connection, coupling hose 5's the other end and the one end fixed connection of stereoplasm trachea 6, stereoplasm trachea 6 and gasbag ball 7 fixed connection, set up on the gasbag ball 7 with the inflation inlet 14 of stereoplasm trachea 6 mutual intercommunication, and set up on the gasbag ball 7 induction port 15 with external intercommunication, inflation inlet 14 and induction port 15's inside all is equipped with the check valve, be equipped with the exhaust subassembly with the inside gas outgoing of gasbag ring 2 on the stereoplasm trachea 6.

Specifically, during actual operation, the airbag ring 2 needs to be sleeved outside the protective sleeve 9, since the inside of the airbag ring 2 has a certain amount of gas, and the airbag ring has a certain hardness, the airbag ring can be sleeved outside the protective sleeve 9 very conveniently, and since the airbag ring 2 and the protective sleeve 9 are made of rubber materials, the airbag ring 2 is not easy to slip off from the protective sleeve 9, the airbag ball 7 can be pressed continuously at the moment, the gas inside the airbag ball 7 enters the inside of the airbag ring 2 through the connecting hose 5, so that the airbag ring 2 expands, the inner diameter of the airbag ring 2 is reduced, the airbag ring 9 is sleeved more firmly and has better sealing performance, and when the pressing of the airbag ball 7 is stopped, the airbag ball 7 gradually expands, the external gas enters the inside of the airbag ball 7 through the air suction port 15, and the gas is stored for next inflation;

the utility model discloses an gasbag ring 2 makes outer wrist band 4 establish more easily the outside at protective sheath 9, and the doctor can operate alone one hand, compares convenience more, swift with the direct surface of drawing protective sheath 9 with outer wrist band 4 a bit.

Further, the outer edges of the two ends of the protective sleeve 9 are fixedly provided with annular protrusions 8, and the outer diameter of each annular protrusion 8 is larger than the inner diameter of the airbag ring 2.

Specifically, the outer diameter of annular protrusion 8 is greater than the inner diameter of gasbag ring 2, because gasbag ring 2 itself has elasticity, and then gasbag ring 2 still can pass annular protrusion 8 cover and establish on protective sheath 9, but annular protrusion 8 cover is established on protective sheath 9 later and is less easy to break away from protective sheath 9 outside, can inflate the inside of gasbag ring 2 this moment and make it take place to expand.

Further, exhaust assembly includes push rod 10, gas vent 11 and rubber buffer 12, gas vent 11 is located the outer wall of stereoplasm trachea 6, and the inner port department of gas vent 11 is equipped with rubber buffer 12, and compression spring and the inner wall fixed connection of stereoplasm trachea 6 are passed through to the one end that gas vent 11 was kept away from to rubber buffer 12, the outside end of rubber buffer 12 links firmly with the one end of push rod 10.

Specifically, when the airbag ring 2 needs to be detached from the outside of the protective sleeve 9, the push rod 10 can be pressed at this time, and then the push rod 10 will drive the rubber plug 12 to move towards the inside of the rigid air tube 6, the rubber plug 12 opens the exhaust port 11, and the gas inside the airbag ring 2 will be exhausted from the exhaust port 11 through the connecting hose 5.

Further, the other end of the push rod 10 extends out of the outer port of the exhaust port 11, and the outer end of the push rod 10 is fixedly connected with the pressing plate 13.

Further, the rubber stopper 12 is a round table-shaped structure, and the diameter of the outer end of the rubber stopper 12 is smaller than the diameter of the inner end of the rubber stopper 12.

Specifically, the rubber stopper 12 has a circular truncated cone-shaped structure, and further has better sealing performance for the exhaust port 11.

Example 2

As shown in fig. 5 to fig. 6, the surface of the glove body 1 is provided with the rubber storage bag 16, the rubber storage bag 16 is fixedly connected with the glove body 1, and the rubber storage bag 16 is distributed on one side of the palm of the glove body 1 and is close to the position of the little finger, when a hand wears the glove body 1 and enters the body cavity, redundant blood vessels, tissues or foreign matters can be directly stored in the rubber storage bag 16 after being removed, when a plurality of redundant blood vessels, tissues or foreign matters exist, the glove body 1 does not need to be frequently moved in and out of the body cavity in the operation, discomfort is avoided, and the phenomenon that the inner wall of the body cavity is easily damaged or the incision position is further opened is avoided.

A storage bag opening 17 is arranged above the rubber storage bag 16, and in actual operation, the excess blood vessels, tissues or foreign matters are usually removed by pinching with the thumb and the index finger, and then the pinched excess blood vessels, tissues or foreign matters are inserted into the rubber storage bag 16 from the storage bag opening 17 at the upper end of the rubber storage bag 16.

In order to increase the storage space of the rubber storage bag 16, the lower end portion of the rubber storage bag 16 is provided with a thin region 20, and the thickness of the thin region 20 is smaller than the thickness of the structural layer of the rubber storage bag 16 itself, that is, the thin region 20 is more easily expanded and deformed, so that the rubber storage bag 16 is preferably expanded and maintained in an expanded state from the lower end of the rubber storage bag 16 by an excessive blood vessel, tissue, foreign matter, or the like entering the rubber storage bag 16, thereby increasing the storage space of the rubber storage bag 16.

Further, in order to avoid the phenomenon that redundant blood vessels, tissues or foreign matters in the rubber storage bag 16 reversely leak from the position of the storage bag opening 17, arc-shaped feeding stop blocks 18 are integrally arranged on the inner walls of the two sides of the storage bag opening 17, the surface of each arc-shaped feeding stop block 18 is of an arc-shaped structure, when the redundant blood vessels, the tissues or the foreign matters are plugged into the rubber storage bag 16 from the position of the storage bag opening 17, the redundant blood vessels, the tissues or the foreign matters push two groups of arc-shaped feeding stop blocks 18 away from each other from the arc-shaped structure, so that the storage bag opening 17 is smoothly opened, the redundant blood vessels, the tissues or the foreign matters enter the rubber storage bag 16, magnetic suction sheets 19 fixed on the two side faces of the rubber storage bag 16 are arranged below the arc-shaped feeding stop blocks 18, and the two groups of magnetic suction sheets 19 attract each other, so that the storage bag opening 17 at the upper end of the rubber storage bag 16 is kept in a closed state, and the redundant blood vessels, the tissues or the foreign matters entering the rubber storage bag 16 are prevented from leaking.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (9)

1. The utility model provides a enter into gloves of coelom operation under chamber mirror environment, a serial communication port, including gloves body (1), the outside at gloves body (1) wrist position is fixed and is equipped with outer wrist band (4), and outer wrist band (4) cover is established at the wrist position of gloves body (1), and the outside fixed connection of the one end of outer wrist band (4) and gloves body (1), and the other end of outer wrist band (4) is fixed and is equipped with gasbag ring (2) that struts the outer port of outer wrist band (4), gloves body (1) and protective sheath (9) use of supporting mutually, and protective sheath (9) are installed in notched inside, be equipped with on gasbag ring (2) and strut tight subassembly in protective sheath (9) outside with gasbag ring (2).

2. A glove for performing an access procedure to a body cavity in an laparoscopic environment, according to claim 1, wherein: prop tight subassembly and include coupling hose (5) and air bag ball (7), the one end of coupling hose (5) and the marginal fixed connection of air bag ring (2), the other end of coupling hose (5) and the one end fixed connection of stereoplasm trachea (6), stereoplasm trachea (6) and air bag ball (7) fixed connection, set up inflation inlet (14) with stereoplasm trachea (6) intercommunication each other on air bag ball (7), and set up induction port (15) with external intercommunication on air bag ball (7), the inside of inflation inlet (14) and induction port (15) all is equipped with the check valve, be equipped with the exhaust subassembly with the inside gas escape of air bag ring (2) on stereoplasm trachea (6).

3. A glove for performing laparoscopic access to a body cavity according to claim 2, wherein: the outer edge at both ends of the protective sleeve (9) is fixedly provided with an annular bulge (8), and the outer diameter of the annular bulge (8) is larger than the inner diameter of the air bag ring (2).

4. A glove for performing laparoscopic access to a body cavity according to claim 3, wherein: exhaust subassembly includes push rod (10), gas vent (11) and rubber buffer (12), gas vent (11) are located the outer wall of stereoplasm trachea (6), and the inner port department of gas vent (11) is equipped with rubber buffer (12), and the inner wall fixed connection of compression spring and stereoplasm trachea (6) is passed through to the one end that gas vent (11) were kept away from in rubber buffer (12), the outside end of rubber buffer (12) links firmly with the one end of push rod (10).

5. A glove for performing an access procedure to a body cavity in an endoscopic environment according to claim 4, wherein: the other end of the push rod (10) extends out of the outer port of the exhaust port (11), and the outer side end of the push rod (10) is fixedly connected with the pressing plate (13).

6. A glove for performing an access procedure to a body cavity in an laparoscopic environment, according to claim 5, wherein: the rubber stopper (12) is of a round table-shaped structure, and the diameter of the outer end of the rubber stopper (12) is smaller than that of the inner end of the rubber stopper (12).

7. A glove for performing laparoscopic access to a body cavity according to claim 1, wherein: the surface of the glove body (1) is provided with a rubber storage bag (16).

8. A glove for performing an access procedure to a body cavity in an laparoscopic environment, according to claim 7, wherein: a storage bag opening (17) is formed in the upper portion of the rubber storage bag (16), a thin area (20) is formed in the lower end portion of the rubber storage bag (16), and the thickness of the thin area (20) is smaller than that of a structural layer of the rubber storage bag (16).

9. A glove for performing laparoscopic access to a body cavity according to claim 8, wherein: arc feeding check blocks (18) are arranged on the inner walls of the two sides of the storage bag opening (17) in a uniform body mode, the surfaces of the arc feeding check blocks (18) are of arc structures, magnetic attraction pieces (19) fixed to the two side faces of the rubber storage bag (16) are arranged below the arc feeding check blocks (18), and the two groups of magnetic attraction pieces (19) attract each other.

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