TROCAR SET

Abstract

A trocar set includes a handle portion, a first sleeve, a second sleeve, and a gasbag. The handle portion includes a grip, a connection part, and a first gas valve. The connection part extends from the grip and includes an assembling channel. The first gas valve is connected to the connection part and communicates with the assembling channel. An assembling end of the first sleeve is assembled to the connection portion. A sleeving end of the first sleeve is provided with a first opening. The second sleeve is retractably connected to the sleeving end of the first sleeve. A sleeve wall of the second sleeve is provided with a second opening. The gasbag is connected to an end of the second sleeve away from the sleeving end and corresponds to the second opening. The design of the retractable sleeves is benefit to perform operation.

Claims

1-7. (canceled)

8. A trocar assembly having an extended position and a retracted position, the trocar assembly comprising: a handle portion including a gas valve for directing a gas flow into the trocar assembly; a first sleeve having a first end proximate the handle portion and a second end opposite the first end, the first sleeve further comprising an inner wall and an outer wall; a first flow path extending between the inner wall and outer wall of the first sleeve, the first flow path in fluid communication with the gas valve; a second sleeve having a first end proximate the handle portion and a second end opposite the first end, the second sleeve further comprising an inner wall and an outer wall, the second sleeve having an interior region for receiving a length of the second end of the first sleeve; a second flow path extending between the inner wall and the outer wall of the second sleeve, the second flow path being in fluid communication with the first flow path in the extended position; and a gas tight assembly including a first sealing element and a second sealing element, wherein the first sealing element is coupled to and surrounds an exterior of the outer wall of the first sleeve, and wherein the second sealing element encloses the first flow path at the second end of the first sleeve, the second sealing element contacting the second sleeve for slidable displacement of the second sealing element relative to inner wall of the second sleeve and for preventing a gas flow from exiting the first flow path at the second end of the first sleeve.

9. The trocar assembly of claim 8, wherein the second flow path is in fluid communication with the first flow path in the retracted position.

10. The trocar assembly of claim 8, wherein the outer wall of the second sleeve includes an opening defining a passageway in fluid communication with an interior of a gasbag for inflating the gasbag.

11. The trocar assembly of claim 8, wherein the gas tight assembly further comprises a gas tight sleeve coupled to the second sleeve and positioned over the first sealing element for pressing the first sealing element against the outer wall of the first sleeve for sealing the first sealing element to the first sleeve.

12. The trocar assembly of claim 11, further comprising a blocking element coupled to the gas tight sleeve for preventing the first sleeve from being disengaged from the second sleeve, wherein the gas tight sleeve covers the blocking element.

13. The trocar assembly of claim 8, wherein first sleeve is telescopically received within the second sleeve, and wherein the length of the first sleeve telescopically received within the second sleeve is greater in the retracted position than in the extended position.

14. The trocar assembly of claim 8, wherein in the retracted position at least a portion of the gas tight assembly contacts the handle portion.

15. The trocar assembly of claim 14, wherein in the extended position, at least a length of the first sleeve is positioned laterally between the handle portion and the gas tight assembly.

16. The trocar assembly of claim 8, wherein in the retracted position the first sealing element and second sealing element are separated by a first length, and in the extended position the first sealing element and second sealing element are separated by a second length, wherein the first length is greater than the second length.

17. The trocar assembly of claim 8, wherein a total length of the first flow path combined with the second flow path is greater in the retracted position than in the extended position.

18. A trocar assembly having an extended and a retracted position, the trocar assembly comprising: a handle portion having a gas valve receiving a gas flow; a first sleeve having a first end proximate the handle portion and a second end opposite the first end, the first sleeve having an inner surface that defines a first flow path; a second sleeve having a first end proximate the handle portion and a second end opposite the first end, the second sleeve having an inner surface that defines an inner region of the second sleeve, the inner region of the second sleeve being sized and shaped to receive the second end of the first sleeve; a gas tight assembly including a first sealing element for preventing a gas flow from leaking from the first flow path at the second end of the first sleeve, the gas tight assembly also including a second sealing element that surrounds the first sleeve, wherein the first sealing element and the second sealing element are displaceable relative to one another as the trocar assembly is moved between the extended and retracted positions.

19. The trocar assembly of claim 18, wherein the gas tight assembly further comprises a gas tight sleeve coupled to the second sleeve and positioned over the second sealing element for pressing the second sealing element against an outer surface of the first sleeve for sealing the second sealing element to the first sleeve.

20. The trocar assembly of claim 19, further comprising a blocking element coupled to the gas tight sleeve for preventing the first sleeve from being disengaged from the second sleeve, wherein the gas tight sleeve covers the blocking element.

21. The trocar assembly of claim 20, wherein in the retracted position the first sealing element and second sealing element are separated by a first length, and in the extended position the first sealing element and second sealing element are separated by a second length, wherein the first length is greater than the second length.

22. The trocar assembly of claim 19, wherein in the extended position, at least a length of the first sleeve is positioned laterally between the handle portion and the gas tight sleeve.

23. A method of inflating a gasbag of a trocar assembly comprising: pumping a gas into a gas valve of the trocar assembly and into a first flow path defined by a space between an inner wall and an outer wall of an inner sleeve of the trocar assembly; forcing the gas through an opening in the outer wall of the inner sleeve into a second flow path defined by a space between an inner wall and an outer wall of an outer sleeve of the trocar assembly; and forcing the gas through an opening in the outer sleeve of the trocar assembly and into an inflatable region of the gasbag of the trocar assembly, wherein a first end of the inner sleeve is coupled to an inner surface of the outer sleeve for positioning a length of the inner sleeve within an inner region of the outer sleeve.

24. The method of claim 23, further comprising: preventing the gas from exiting the first flow path at the first end of the inner sleeve via a first sealing element positioned at the first end of the inner sleeve.

25. The method of claim 24, further comprising: directing the gas from the opening in the outer wall of the inner sleeve to the second flow path via a gas tight assembly that is coupled to and surrounds an exterior of the outer wall of the inner sleeve and an outer wall of the outer sleeve.

26. The method of claim 25, further comprising: positioning the trocar assembly in a retracted position, wherein in the retracted position at least a portion of the inner sleeve is positioned within the inner region of the outer sleeve and wherein a handle portion of the trocar assembly is in contact with at least a portion of the gas tight assembly.

27. The method of claim 23, further comprising: pumping a gas into a third flow path defined by an inner region of the inner sleeve and an inner region of the outer sleeve, wherein the third flow path is not in fluid communication with the first flow path or the second flow path.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] FIG. 1 illustrates a stereoscopic diagram of a trocar set in a stretched state according to a first embodiment;

[0021] FIG. 2 illustrates an exploded view of the trocar set according to the first embodiment;

[0022] FIG. 3 illustrates a cross-sectional view of the trocar set in the stretched state according to the first embodiment;

[0023] FIG. 4 illustrates a partial, cross-sectional view of the trocar set in the stretched state according to the first embodiment;

[0024] FIG. 5 illustrates a stereoscopic diagram of the trocar set in the stretched state in use according to the first embodiment;

[0025] FIG. 6 illustrates a cross-sectional view of the trocar set in the stretched state according to the first embodiment;

[0026] FIG. 7 illustrates a partial, cross-sectional view of the trocar set in a retracted state in use according to the first embodiment;

[0027] FIG. 8 illustrates a partial, cross-sectional view of the trocar set in the retracted state in use according to the first embodiment;

[0028] FIG. 9 illustrates a stereoscopic diagram of the trocar set in the retracted state according to the first embodiment;

[0029] FIG. 10 illustrates a stereoscopic diagram of a trocar set in the retracted state according to a second embodiment; and

[0030] FIG. 11 illustrates a stereoscopic diagram of the trocar set in the stretched state according to the second embodiment.

DETAILED DESCRIPTION

[0031] Please refer to FIG. 1 to FIG. 4, which are respectively a stereoscopic diagram of a trocar set in a stretched state according to a first embodiment, an exploded view of the trocar set according to the first embodiment, a cross-sectional view of the trocar set in the stretched state according to the first embodiment, and a partial, cross-sectional view of the trocar set in the stretched state according to the first embodiment. As shown in FIG. 1 to FIG. 4, the trocar set 1 comprises a handle portion 10, a first sleeve 20, a second sleeve 30, a gasbag 40, and a gas tight assembly 50. The handle portion 10 comprises a grip 11, a connection part 13, a first gas valve 15, and a second gas valve 17. The grip 11 may be, but not limited to, a semicircular shell structure of which an interior is hollow. The connection part 13 extends from the grip 11 and is a column structure. The connection part 13 comprises an assembling channel 131. The assembly channel 131 is formed in a manner of penetrating through the connection part 13. The assembling channel 131 communicates with the interior of the grip 11. The first gas valve 15 and the second gas valve 17 may be assembled to the connection part 13. The first gas valve 15, the second gas valve 17, and the connection part 13 may be formed in one piece, alternatively. In addition, gas flow channels of the first gas valve 15 and the second gas valve 17 communicate with the assembling channel 131.

[0032] The first sleeve 20 comprises an assembling end 201 and a sleeving end 203. The assembling end 201 is assembled to the assembling channel 131 of the connection part 13. The first sleeve 20 extends from the assembling end 201 along a direction of a central axis of the assembling channel 131 and protrudes from the connection part 13. The first sleeve 20 may be a double layer sleeve which comprises a first inner sleeve wall 21 and a first outer sleeve wall 23. Specifically, the first sleeve 20 defines a first sleeve wall region 211 and a second sleeve wall region 213. The first outer sleeve wall 23 surrounds an exterior of the first inner sleeve wall 21 in the first sleeve wall region 211. The first outer sleeve wall 23 does not surround the exterior of the first inner sleeve wall 21 in the second sleeve wall region 213. The second sleeve wall region 213 is in the assembling channel 131 and corresponds to the first gas valve 15. In addition, the first outer sleeve wall 23 of the sleeving end 203 is provided with at least one first opening 231. In other words, gas introduced from the first gas valve 15 enters the first gas flow channel 25 through a region where the first outer sleeve wall 23 does not surround the first inner sleeve wall 21 and leaves the first gas flow channel 25 from the first opening 231.

[0033] The second sleeve 30 comprises a receiving end 32. The sleeving end 203 of the first sleeve 20 is inserted into the receiving end 32 of the second sleeve 30 such that the second sleeve 30 is retractably connected to an end of the first sleeve 20 away from the handle portion 10. The second sleeve 30 may be a double layer sleeve which comprises a second inner sleeve wall 31 and a second outer sleeve wall 33. The second sleeve 30 defines a third sleeve wall region 311, a fourth sleeve wall region 313, and a fifth sleeve wall region 315. The second outer sleeve wall 33, corresponding to the sleeving end 203, surrounds an exterior of the first outer sleeve wall 23 in the third sleeve wall region 311. The second outer sleeve wall 33 surrounds an exterior of the second inner sleeve wall 31 in the fourth sleeve wall region 313. The second outer sleeve wall 33 does not surround the second inner sleeve wall 31 in the fifth sleeve wall region 315. A second gas flow channel 35 is formed between the second outer sleeve wall 33 and the second inner sleeve wall 31. A region of the second outer sleeve wall 33 away from the sleeving end 203 is provided with at least one second opening 331. Specifically, an end of the second gas flow channel 35 corresponds to the first opening 231. Gas from the first gas valve 15 is introduced through the first opening 231 and enters the second gas flow channel 35, and then leaves the second gas flow channel 35 from the second opening 331.

[0034] The gasbag 40 is connected to an end of the second sleeve 30 away from the first sleeve 20. Particularly, the gasbag 40 is connected to a part of the second sleeve wall region 213 and connected to the third sleeve wall region 311. The air cell 40 corresponds to the second opening 331. In other words, the region where the first outer sleeve wall 23 does not surround the first inner sleeve wall 31, the first gas flow channel 25, the first opening 231, the second gas flow channel 35, and the second opening 331 communicate with one another to form a gas flow channel capable of inflating the gasbag 40. Gas introduced by the first gas valve 15 enters the gasbag 40 through the aforementioned gas flow channel to have the gasbag 40 inflated.

[0035] Please refer to FIG. 5 and FIG. 6, which are respectively a stereoscopic diagram of the trocar set in the stretched state in use according to the first embodiment and a partial, cross-sectional view of the trocar set in the stretched state in use according to the first embodiment. As shown in FIG. 1 to FIG. 6, the trocar set 1 in practical use is installed with a cutlery 200. The cutlery 200 is inserted into an opening 19 in a rear end of the handle portion 10 and is installed to the grip 11, the connection part 13, the first sleeve 20, and the second sleeve 30. The cutlery 200 protrudes from the second sleeve 30 and is fixed to the handle portion 10 by a rear cover 210. Additionally, the grip 11 further comprises a first sealing component 117 and a second sealing component 119. The cutlery 200 being installed may be assembled to and contact the first sealing component 117 and the second sealing component 119. The first sealing component 117 and the second sealing component 119 can seal the gas flow channel such that the cutlery 200 having been fixed to the grip 11, the first sleeve 20, and the second sleeve 30 can prevent the gas from leaking to meet the gas tight ability.

[0036] As shown in FIG. 5 and FIG. 6, after the trocar set 1 in the stretched state is used to cut an opening on a human body 500, gas introduced from the first gas valve 15 may flow through the first gas flow channel 25, the first opening 231, the second gas flow channel 35, and the second opening 331 and then enter the gasbag 40. When the gasbag is inflated, the trocar set 1 can be fixed in the human body 500. Further, the first gas valve 15 may be a pressing type valve, which can inflate the gasbag 40 by pressing.

[0037] Please refer to FIG. 7, FIG. 8, and FIG. 9, which are respectively a partial, cross-sectional view of the trocar set in a retracted state in use according to the first embodiment, a cross-sectional view of the trocar set in the retracted state according to the first embodiment, and a stereoscopic diagram of the trocar set in the retracted state according to the first embodiment. As shown in FIG. 7, the cutlery 200 can be removed from the trocar set 1 after the trocar set 1 is fixed to the human body 500 by the gasbag 40. The trocar set 1 can be pushed forward by the handle portion 10 to have the second sleeve 30 moved towards the handle portion 10 relative to the first sleeve 20, such that the first sleeve 20 can be retracted in the second sleeve 30 to be in the retracted state. Therefore, the length of the trocar set 1 outside of the human body 500 can be significantly shortened. Additionally, when the trocar set 1 is in the retracted stated, medical professionals may conveniently put medical instruments such as an endoscope, an optical fiber, or a laser into the human body along the first sleeve 20 and the second sleeve 30 and avoid contacting the trocar set 1. Additionally, the grip 11 comprises a butting block 113 capable of fixing medical instruments such as an endoscope, an optical fiber, or a laser.

[0038] Specifically, after the cutlery 200 is removed, gas can be inflated into the human body from the second gas valve 17 through the first sleeve 20 and the second sleeve 30 to have a human tissue expanded partially, which is beneficial of inserting medical instruments such as an endoscope, an optical fiber, or a laser, observing, and performing an operation. Specifically, the second gas valve 17 can be a switch of gas which may be connected to an external inflating device for inflation. Additionally, after an operation is accomplished, the first gas valve 15 can be turned on to have gasbag 40 deflated such that the trocar set 1 can be removed from the human body, as shown in FIG. 8, and FIG. 9.

[0039] As shown in FIG. 1 to FIG. 4., the gas tight assembly 50 of the trocar set 1 is disposed on a portion where the first sleeve 20 and the second sleeve 30 are connected to each other; therefore, the portion where the first sleeve 20 and the second sleeve 30 are connected to each other can be sealed to prevent a gas leak. Specifically, the gas tight assembly 50 further comprises a blocking component 51 and a gas tight sleeve 53. The blocking component 51 is assembled to an exterior of the first sleeve 20 and is adjacent to the sleeving end 203. The blocking component 51 is enclosed by the gas tight sleeve 53 to prevent the first sleeve 20 from being disengaged from the second sleeve 30. In an embodiment, the gas tight sleeve 53 is a two piece combination. Specifically, when the trocar set 1 is in the stretched state, the first opening 231 is between the second outer sleeve wall 33 and the blocking component 51.

[0040] Additionally, as shown in FIG. 7, FIG. 8, and FIG. 9, when the trocar set 1 is retracted, the second sleeve 30 moves towards the handle portion 10 relative to the first sleeve 20 until the gas tight assembly 50 contacts the connection part 13.

[0041] Additionally, the gas tight assembly 50 further comprises a gas tight ring 55 and a fastening component 57. The gas tight ring 55 is connected to the exterior of the first sleeve 20. In an embodiment, the gas tight sleeve 55 presses the gas tight ring 55 to have the gas tight ring 55 tightly attach to the first sleeve 20 to meet the gas tight ability. In an embodiment, the gas tight ring 53 contacts a surface of the blocking component 51 and is enclosed by the gas tight sleeve 53. As shown in the drawing, the gas tight ring 55 is, for example, on a surface of the blocking component 51 opposing the second outer sleeve wall 33. The gas tight ring 55 may also be disposed on a surface of the blocking component 51 facing the second outer sleeve wall 33. Alternatively, the gas tight ring(s) 55 may be disposed on both of the two surfaces of the blocking component 51. The fastening component 57 is disposed on the sleeving end 203 of the first sleeve 20. Particularly, the fastening component 57 encloses the sleeving end 203; therefore, the height of the sleeving end 203 is slightly greater than that of other regions of the first sleeve 20. The fastening component 57 contacts the second inner sleeve wall 31 of the second sleeve 30. Due to the fastening component 57, the second sleeve 30 may slide relative to the first sleeve 20 so as to stretch or to retract only when the second sleeve 30 is forced. As a result, the first sleeve 20 and the second sleeve 30 are steady after being stretched or retracted and are hard to slide so as to prevent the first sleeve 20 and the second sleeve 30 from disengagement.

[0042] Please refer to FIG. 10 and FIG. 11, which are stereoscopic diagrams of a trocar set in the retracted state and in the stretched state respectively according to a second embodiment. As shown in FIG. 10 and FIG. 11, a difference between the first embodiment and the second embodiment is that the trocar set 1 does not have the gasbag 40 and the first gas valve 15. Although the trocar set 1 cannot be fixed to a human body by the gasbag, the trocar set 1 can be stably set by a stand or other measures after penetrating and allow instruments to be inserted there through. In order to prevent a gas leak, it is merely required that the gas tight assembly 50 is connected to a portion where the first sleeve 20 and the second sleeve 30 are connected to each other. As a result, there may be no need of the structure of the double layer sleeve, and, consequently, the cost may be lower. The gas tight assembly 50 may comprise the blocking component 51 and the gas tight sleeve 53 and may further comprise the gas tight ring 55 and the fastening component 57.

[0043] Additionally, as shown in FIG. 1, FIG. 5, FIG. 9, and FIG. 11, the trocar set 1 further comprises at least one pulling band 60. The pulling band 60 is at an exterior of the gas tight assembly 50 and is adjacent to the fastening component 57. An outer wall of the gas tight sleeve 53 is provided with two crossing channels 531, which do not penetrate through the gas tight sleeve 53. The pulling band 60 crosses the crossing channels 531 to form a closed loop structure. When the first sleeve 20 is forced to be retracted in the second sleeve 30, and the pulling band 60 is accordingly forced towards outside, an inward force and an outward force can be balanced and then the position of the second sleeve 30 can be stably fixed. In an embodiment, a pulling band set comprising two pulling bands symmetric to each other may be adopted. For example, the pulling band 60 may be, but not limited to, fixed to the connection part 13. In a state as shown in FIG. 5, the pulling band 60 can be pulled after the gasbag 40 is inflated to make sure that the trocar set 1 is fixed to a human body. Or, the pulling band 60 may be pulled after the surgery to assist in removing the trocar set 1 from the human body. Additionally, in the first embodiment, the gasbag has to be deflated in advance such that the trocar set can be removed by the pulling band 60 after a surgery.

[0044] According to embodiments of the trocar set of the instant disclosure, the trocar set is retractable by the connection of the first sleeve and the second sleeve. When the cutlery is removed from the trocar set, the first sleeve can be retracted in the second sleeve; therefore, the length of the trocar set outside of a humane body can be significantly shortened so as to avoid the trocar set being unintentionally contacted by medical professionals. A trocar set outside of the humane body being contacted may cause pain and make a wound enlarged. Consequently, it is benefit to medical professionals to insert instruments and perform operations.

[0045] While the instant disclosure has been described by way of example and in terms of the preferred embodiments, it is to be understood that the instant disclosure needs not be limited to the disclosed embodiments. For anyone skilled in the art, various modifications and improvements within the spirit of the instant disclosure are covered under the scope of the instant disclosure. The covered scope of the instant disclosure is based on the appended claims.