CN109646094A - A kind of sheath assembly containing hook-shaped air bag - Google Patents

A kind of sheath assembly containing hook-shaped air bag Download PDF

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Publication number
CN109646094A
CN109646094A CN201910113031.0A CN201910113031A CN109646094A CN 109646094 A CN109646094 A CN 109646094A CN 201910113031 A CN201910113031 A CN 201910113031A CN 109646094 A CN109646094 A CN 109646094A
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air bag
lip
component
wall
bag body
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Granted
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CN201910113031.0A
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CN109646094B (en
Inventor
朱莫恕
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Chengdu Five Medical Technology Co Ltd
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Chengdu Five Medical Technology Co Ltd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/00234Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B17/3417Details of tips or shafts, e.g. grooves, expandable, bendable; Multiple coaxial sliding cannulas, e.g. for dilating
    • A61B17/3421Cannulas
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B17/3417Details of tips or shafts, e.g. grooves, expandable, bendable; Multiple coaxial sliding cannulas, e.g. for dilating
    • A61B17/3421Cannulas
    • A61B17/3423Access ports, e.g. toroid shape introducers for instruments or hands
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B17/3474Insufflating needles, e.g. Veress needles
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B17/3478Endoscopic needles, e.g. for infusion
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M25/00Catheters; Hollow probes
    • A61M25/10Balloon catheters
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/00234Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery
    • A61B2017/00292Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery mounted on or guided by flexible, e.g. catheter-like, means
    • A61B2017/0034Surgical instruments, devices or methods, e.g. tourniquets for minimally invasive surgery mounted on or guided by flexible, e.g. catheter-like, means adapted to be inserted through a working channel of an endoscope
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B2017/00526Methods of manufacturing
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B17/3417Details of tips or shafts, e.g. grooves, expandable, bendable; Multiple coaxial sliding cannulas, e.g. for dilating
    • A61B2017/3419Sealing means between cannula and body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/34Trocars; Puncturing needles
    • A61B2017/348Means for supporting the trocar against the body or retaining the trocar inside the body
    • A61B2017/3482Means for supporting the trocar against the body or retaining the trocar inside the body inside
    • A61B2017/3484Anchoring means, e.g. spreading-out umbrella-like structure
    • A61B2017/3486Balloon

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Surgery (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Animal Behavior & Ethology (AREA)
  • Veterinary Medicine (AREA)
  • Engineering & Computer Science (AREA)
  • Public Health (AREA)
  • Biomedical Technology (AREA)
  • General Health & Medical Sciences (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Medical Informatics (AREA)
  • Molecular Biology (AREA)
  • Pathology (AREA)
  • Hematology (AREA)
  • Anesthesiology (AREA)
  • Pulmonology (AREA)
  • Biophysics (AREA)
  • Child & Adolescent Psychology (AREA)
  • Surgical Instruments (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)
  • Media Introduction/Drainage Providing Device (AREA)

Abstract

The present invention relates to a kind of sheath assemblies containing hook-shaped air bag, include the first seal assembly and the second seal assembly, second seal assembly includes lower case and hollow sleeve that is coupled and extending to distal end, first seal assembly, second seal assembly and hollow sleeve include connection and substantially aligned instrument channel, casing wall of the hollow sleeve comprising inner cylinder and outer cylinder and therebetween;The distal end of the hollow sleeve also includes open casing lip, and described sleeve pipe lip includes the inclination cylinder of opening lip and transition lip therebetween, and the inner cylinder and inclination cylinder limit casing skew wall;The air bag component includes air bag axis, air bag lip and the air bag body being attached thereto, the angle that the air bag body and the balloon shaft line are formed is acute angle, the air bag component also includes that the extension sheet material of the outer tube being connected with air bag body or arc, the outer tube or extension sheet material and air bag body constitute hook shaped appearance.

Description

A kind of sheath assembly containing hook-shaped air bag
The application is title are as follows: a kind of sheath assembly containing hook-shaped air bag, the applying date are as follows: on 06 03rd, 2017, application Number are as follows: the divisional application of 2017104102120 application for a patent for invention.
Technical field
The present invention relates to Minimally Invasive Surgery instrument more particularly to a kind of puncture outfits containing air bag.
Background technique
Puncture outfit is (especially laparoscopic surgery) in a kind of Minimally Invasive Surgery, for establishing the artificial channel for entering body cavity Surgical instrument is usually made of sheath assembly and puncture needle.Its clinical general usage mode are as follows: first cut on patient skin Osculum, then puncture needle is run through into sheath assembly, however penetrate stomach wall through skin opening together and enter body cavity.Once into body cavity Puncture needle is removed afterwards, leaves channel of the sheath assembly as instrument disengaging body cavity.
In hard tube endoscope-assistant surgery, especially in laparoscopic surgery, the pneumoperitoneum apparatus perfusion lasting to abdominal cavity of patients is generallyd use Gas (such as carbon dioxide gas) simultaneously maintains stable air pressure (about 13~15mmHg), empty to obtain enough surgical procedures Between.For sheath assembly usually by casing, shell seals film (also known as instrument seal) and zero sealing (also known as automatic-sealed) composition.Institute It states casing to penetrate outside body cavity to body cavity, the channel as instrument disengaging body cavity.The shell is by casing, zero sealing and seals Film connects into a sealing system.Zero sealing is generally not provided the sealing for insertion instrument, and certainly when instrument is removed It is dynamic to close and form sealing.The sealing film banding instrument and forms sealing when instrument is inserted into.
Laparoscopic surgery is broadly divided into two kinds into abdomen technology at present: open (Hasson method) and closed (Veress The skill of handling needles).Wherein Hasson method is mainly used for the patient there may be adhesion of abdominal wall.Hasson method usually first along navel upper limb or Lower edge does 2cm notch, and notch runs through entire stomach wall, then protrudes into finger through thus notch and detect, separation abdominal wall and nethike embrane or The adhesion of intestinal tube;Then it is inserted into Hasson cannula system under direct-view, and injects dioxy to abdominal cavity of patients via Hasson casing Change carbon gas and forms pneumoperitoneum.Closed method is also known as Direct perforantes method, i.e., the epidermis of patient's puncture position stomach wall is only made small cut Mouthful, puncture needle is then run through into sheath assembly again, stomach wall is penetrated through thus small notch and enters body cavity.
Current disclosed Hasson cannula system is broadly divided into three classes, the first kind, such as U.S. patent Nos A kind of sheath assembly containing hinge arrangement that US5203773 is disclosed is swollen fixation by hinge rotation, due to easily leaking by Gradually abandoned.Second class, for example, U.S. patent Nos US5257973 disclose taper fixing piece and common group of smooth sheath assembly At Hassan cannula system, Tapered Cup suture is fixed in notch first, then smooth sheath assembly is fixed on the cone It in shape fixing piece, is widely applied because its is low in cost, but it is relative complex and cause secondary injury to patient using operating. The tube assembly containing Air sac cover disclosed in third class, such as U.S. patent Nos US5468248, US6908454, US8888692, institute It states air bag the inflation of syringe selectivity can be used and swell sheath assembly is fixed on patient's stomach wall, release of deflating reduces air bag just In sheath assembly via patient skin incision into and out.Sheath assembly can be firmly fixed to suffer from by the air bag that swells Person's skin incisions and the sealing for realizing contact area, and it is smaller for the injury of patient's wound.But such airbag casing pipe component Structure is complicated and higher cost, expensive.
The airbag casing pipe component is generally only used for Hasson method field, up to the present, has disclosed and has had been commercialized Airbag casing pipe component is cannot be used for substantially in Direct perforantes method.Mainly because the puncture outfit of the tube assembly containing Air sac cover penetrates patient's body wall The resistance of process is too big, is unfavorable for operative doctor control or there are the biggish risks for puncturing patient's body organ.And relative to Sheath assembly without air bag, the airbag casing pipe component liked due to the fixation on patient's stomach wall is more reliable by doctor because of it, However the puncture force of the tube assembly containing Air sac cover is larger limits the airbag casing pipe component in the application in Direct perforantes method field, and And up to the present disclosed and airbag casing pipe component that is having been commercialized, the not yet larger problem of adequate solution puncture force.
Summary of the invention
In order to solve one or more technical problems in background technique, the present invention proposes a kind of casing containing hook-shaped air bag Component, includes the first seal assembly and the second seal assembly, and second seal assembly includes lower case and coupled It connects and to the hollow sleeve that distal end extends, first seal assembly, the second seal assembly and hollow sleeve include connection and big The instrument channel of alignment is caused,
Casing wall of the hollow sleeve comprising inner cylinder and outer cylinder and therebetween;The distal end of the hollow sleeve also includes out The casing lip put, described sleeve pipe lip include the inclination cylinder of opening lip and transition lip therebetween, the inner cylinder and tilt column Face limits casing skew wall;Described sleeve pipe component also includes the inflatable air bag component to swell, the unidirectional valve group to inflation/deflation Part and by the airflow channel of the air bag component and check valve assembly connection;The air bag component includes air bag axis, air bag Lip and the air bag body being attached thereto, the air bag lip are matched with the shape and size of described sleeve pipe skew wall to distally extending to form Air bag skew wall;The air bag lip, which proximally extends, connect simultaneously smooth transition with the air bag body;The air bag body and the gas The included angle A that capsule axis is formedballoonFor acute angle, the air bag component also includes prolonging for the outer tube being connected with air bag body or arc It stretches sheet material, the outer tube or extension sheet material and air bag body constitutes hook shaped appearance;The air bag component is mounted on the hollow sleeve The outside of pipe, the air bag lip are coated on the outer surface of described sleeve pipe lip, and the air bag skew wall and casing skew wall form taper and match It closes;And between the air bag skew wall and casing skew wall the fixed completely enclosed taper seam region for forming annular or arc to The air bag lip and casing lip are connected into an entirety.
The angle value model that a kind of optional technical solution, the air bag plane of the air bag body and the balloon shaft line are formed It encloses for 45 °≤Aballoon≤85°。
A kind of optional technical solution, the air bag body are laterally protruding to forming inclined circumferential air bag except outer tube Body, the air bag body have transverse width Ba in its air bag distal portions, and the air bag body has cross in its balloon proximal part To width Bc, and Bc >=10Ba, the air bag component are integrally in hook-shaped.
A kind of optional technical solution, the air bag body by the outer tube distal outer tube partial lateral outwardly convex structure At the air bag component is integrally L-shaped hook-shaped.
A kind of optional technical solution, by the extension sheet material, laterally outward protrusion is constituted the air bag body, the air bag Component, which is made of air bag body with extension sheet material, has the L-type of semi-circular cylindrical wall hook-shaped.
A kind of optional technical solution, the hollow sleeve include the opening lip with whole wedge shape, the opening lip Portion limits lip plane, and the lip plane and axis are crossed to form included angle Aopen, and 45 °≤Aopen≤85°。
A kind of optional technical solution, the fixation kit outside described sleeve pipe component also occlusion body, the fixation kit include Along the fixed pad and latch fitting of axis setting, the fixed pad includes the pad distal end of its distal end, and the pad distal end is at an acute angle with axis Aclamp, and Aclamp=Aopen
A kind of optional technical solution, the gentle utricule of air bag lip have uniform wall thicknessTa3, and 0.05mm≤Ta3≤ 0.1mm。
A kind of optional technical solution, the air bag body is comprising balloon proximal transition region and air bag Distal transition area and at it Between the air bag main body that extends, air bag Distal transition area and axis form air bag transition angle Ad;The balloon proximal transition region Air bag transition angle A is formed with axisp, and Ad< Ap
Another aspect of the present invention proposes a kind of manufacturing method of air bag component, wherein the air bag component packet It is proximally extended to form containing the first part and second part, the balloon proximal transition region that cutting is divided into from its distal outer tube Balloon proximal opening, key step are as follows:
Negative pressure pre-setting blow moulding and trimming process: it is manufactured using aforementioned negative pressure pre-setting blow moulding and trims acquisition described first Part;Extrusion molding and cutting process: the second part is manufactured using extrusion process and is trimmed to suitably sized;
Welding sequence or bonding process: the second part and first part overlap and use welding or bonding to form seaming zone Domain.
Detailed description of the invention
In order to more fully understand essence of the invention, it is described in detail below in conjunction with attached drawing, in which:
Fig. 1 is the stereoscopic schematic diagram of prior art puncture outfit 5;
Fig. 2 is the partial enlargement diagram of the distal portions of puncture outfit 5 shown in Fig. 1;
Fig. 3 is the partial sectional view of 5 distal portions of puncture outfit described in Fig. 2;
Fig. 4 is the stereoscopic schematic diagram of prior art puncture outfit 7;
Fig. 5 is the partial sectional view of the distal portions of the inner sleeve 54 of the prior art;
Fig. 6 is the partial sectional view of the distal portions of the outer tube 55 of the prior art;
Fig. 7 is the partial enlargement diagram of the distal portions of puncture outfit 7 shown in Fig. 4;
Fig. 8 is the partial sectional view of 7 distal portions of puncture outfit described in Fig. 7;
Fig. 9 is the three-dimensional view of sheath assembly 100 of the invention;
Figure 10 is the explosive view of sheath assembly 100 shown in Fig. 9;
Figure 11 is the stereoscopic schematic diagram of lower warehouse 123 shown in Fig. 10;
Figure 12 is the axial sectional view of lower warehouse 123 shown in Figure 11;
Figure 13 is the partial enlarged view of the distal portions of lower warehouse 123 shown in Figure 12;
Figure 14 is the cross-sectional view of air bag component 250 described in Figure 10;
Figure 15 is the side elevational view of air bag component 250 shown in Figure 14;
Figure 16 is projection view of the air bag component shown in Figure 15 by proximate;
Figure 17 is the axial sectional view of the second seal assembly 120 shown in Fig. 9;
Figure 18 is the enlarged view of the distal portions of component 120 shown in Figure 17;
Figure 19 is the partial enlarged view of check valve assembly 140 shown in Figure 16;
Figure 20 is 20-20 cross-sectional view shown in Figure 18;
Figure 21 is the explosive view of external fixation kit 160;
Figure 22 is the three-dimensional view after the assembling of fixing sleeve component shown in Figure 21;
Figure 23 is the cross-sectional view of fixation kit shown in Figure 21;
Figure 24 is the stereoscopic schematic diagram of the sheath assembly 100 of the outer fixation kit of occlusion body;
Figure 25 is the clinical application simulated view of sheath assembly 100 shown in Figure 24;
Figure 26 is the stereoscopic schematic diagram (not installing air bag) of warehouse 123a under another embodiment;
Figure 27 is the stereoscopic schematic diagram of another embodiment air bag component 350;
Figure 28 is the axial sectional view of lower warehouse 123a (after installation air bag);
Figure 29 is the explosive view of warehouse 123b under another embodiment;
Figure 30 is the stereoscopic schematic diagram (not installing air bag) of lower warehouse 123b;
Figure 31 is the stereoscopic schematic diagram of another embodiment air bag component 450;
Figure 32 is the side elevational view of lower warehouse 123b (after installation air bag);
Figure 33 is the projection view in the lower direction in 90 ° warehouse 123b shown in Figure 32;
Figure 34 is the partial sectional view of lower warehouse 123b shown in Figure 33.
In all views, identical label indicates equivalent part or component.
Specific embodiment
Disclosed herein is embodiment of the present invention, it should be understood, however, that disclosed embodiment is only of the invention Example, the present invention can be realized by different modes.Therefore, this disclosure is not to be construed to be restrictive, and It is the basis only as claim, and how uses basis of the invention as introduction those skilled in the art.For convenience Statement, the side of subsequent all Proximity operation persons are defined as proximal end, and the side far from operator is defined as distal end, all along puncture shank The axis direction in portion or the casing axis direction of sheath assembly are defined as axial direction, and substantially vertical axial direction definition is laterally.
Those skilled in the art is to be understood that puncture outfit generally comprises sheath assembly and puncture needle.Sheath assembly Generally include instrument seal, zero sealing and hollow sleeve.Such as be hereby incorporated CN201610630336.5, i.e., it is entitled " a kind of puncture outfit sealing system of fold-type ", the sheath assembly disclosed in the Chinese invention application submitted in August 2nd in 2016. Puncture needle generally includes handle portion, bar part and distal portions.Such as be hereby incorporated CN201611125444.3, i.e. invention name Referred to as " improvement without knife visual puncturing needle ", the puncture needle disclosed in the Chinese invention application that on December 9th, 2016 submits.
With reference to Fig. 1-3, a kind of existing puncture outfit 5 for Direct perforantes method includes puncture needle 10,30 He of sheath assembly Axis 6.The puncture needle 10 includes handle portion 11 and visual head 13 and the bar part 12 extended therebetween.From distal end to close End, the visual head 13 can be divided into tip portion 19, lance type part 18, transition portion 17 and foundation 16.The top Part 19, lance type part 18, transition portion 17 and foundation 16 are sequentially connected, wherein the tip portion 19 and lance type part 18 connection can be not smooth, because the shape and size of the tip portion and lance type part are relatively tiny sharp, work as institute It is main to play puncture and centrifugation during stating in the piercing patient muscle of puncture needle 10 or tissue.And lance type part 18, Connection between transition portion 17 and foundation 16 is usually fairshaped smooth transition, in favor of the wound that squeezes and swell And reduce puncture force.Meanwhile the foundation 16 also includes to match with the hole size of the casing 32 of sheath assembly 30 Column part 15, so that puncture needle and sheath assembly form smooth transition, be conducive to reduce described sleeve pipe component 30 squeeze and Swell the required puncture force of wound.
- 3 are continued to refer to figure 1, described sleeve pipe component 30 includes seal assembly 31 and casing lip 40 and extends therebetween Hollow sleeve 33.Described sleeve pipe 33 includes to have interior diameter D1Inner cylinder 35 and have overall diameter D2Outer cylinder 34 and its Between shroud wall segments 36.A kind of sheath assembly 30 of 12mm specification, wherein D1=12.8mm, D2=14.6mm.Described sleeve pipe lip The 40 inclination cylinder 48 comprising opening lip 49 and transition lip 47 therebetween, the inner cylinder 35 and inclination cylinder 48 limit and incline Inclined wall part 46.The inclined wall part 46 is T in the wall thickness of opening lip position1, it is T in the wall thickness of transition lip position2, The wall thickness of described sleeve pipe wall part 36 is approximately equal to T2;The wall thickness of the inclined wall part 46 by distally proximally gradually increasing, The increased rate of usual wall thickness is smaller, so that the transition between puncture needle 10 and sheath assembly 30 is more smooth.Now referring primarily to Fig. 3, in a kind of typical design scheme, 0.1mm≤T1≤ 0.3mm, 0.8mm≤T2≤ 1.1mm, the inclination cylinder 48 and institute State the included angle A between inner cylinder 351, 3 °≤A1≤15°;The inclined wall part 46 along axis direction length L1, 6mm≤ L1≤12mm。
In the airbag casing pipe component for having disclosed or having had been commercialized, such as US5468248 and US6908454 disclosure includes bullet Property material air bag sheath assembly, generally use bilayer sleeve and be aided with glue bonding mode fixation balloon, casing lip mistake It crosses not smooth, is usually not used for Direct perforantes method field.Such as US8888692 (abbreviation P692) disclose containing non-resilient The sheath assembly of material air bag has smaller outer diameter, facilitates the puncture force for reducing the puncture process.It is hereby incorporated simultaneously base In the airbag casing pipe component that patent P692 is disclosed.Fig. 4-8 describes the puncture outfit containing air bag disclosed with the patent P692 substantially etc. Same one kind puncture outfit containing air bag 7.Briefly, the puncture outfit 7 includes puncture needle 10, airbag casing pipe component 50 and axis 8. The airbag casing pipe component 50 includes seal assembly 51 with being attached thereto and the casing 53 towards distally extending, described sleeve pipe 53 are wrapped Containing inner sleeve 54 and outer tube 55.Referring now to Fig. 5, the inner sleeve 54 is comprising casing lip 60 and connects itself and the seal assembly 51 hollow pipe portion 56.The hollow pipe portion 56 includes to have interior diameter D1Inner cylinder 61 and have overall diameter D4Outer cylinder 63 and shroud wall segments 62 therebetween.Described sleeve pipe lip 60 includes the inclination cylinder of opening lip 69 and transition lip 67 therebetween 68, the inner cylinder 61 and inclination cylinder 68 limit inclined wall part 66.The hollow pipe portion 56 closes on described sleeve pipe lip 60 Annular groove 70, the annular groove 70 includes step surface 79 and transition face 77 and intervenient has diameter D7Groove Face 78.Described sleeve pipe wall part 62 is divided into boot proximal end wall 62a, casing recess wall 62b and proximal end wall by the groove 70 62c three parts.The close region of the hollow pipe portion 56 and 51 link position of seal assembly includes check valve assembly 52, stream Road 58 extends along described sleeve pipe wall part 62 and by the groove 70 and 52 connection of check valve assembly.With continued reference to Fig. 5, In a kind of typical design scheme, the inclined wall part 66 is T in the wall thickness of opening lip position3, in transition lip position Wall thickness be T4, the wall thickness T of described sleeve pipe groove walls 62b5, wherein 0.1mm≤T3≤ 0.3mm, 1.15mm≤T4≤ 1.25mm, 0.6mm≤T5≤0.8mm.Included angle A between the inclination cylinder 68 and the inner cylinder 614, 25 °≤A4It is≤45 °, described to incline Inclined wall part 66 along axis direction length L4, 2mm≤L4≤5mm。
Referring now to Fig. 6, hollow pipe portion 88 of the outer tube 55 comprising distal outer tube 89 and proximal outer tube 87 and therebetween.Gas The close region of distal outer tube 89 is arranged in capsule 80, wherein the air bag 80 includes air bag body 81, and from air bag body 81 to remote The air bag Distal transition area 83 that end extends and connect with described sleeve pipe distal end 89;And proximally extended by air bag body 81 and with institute State the balloon proximal transition region 82 that hollow pipe portion 88 connects.The air bag distal end 89 is D comprising interior diameter7, overall diameter D8, wall Thickness is T7Cylindrical wall 84.The wall thickness T of the air bag body 818Less than the wall thickness T7, the wall thickness of the transition region 83 (82) is by T7 Fade to T8.In a kind of typical design scheme and fabrication scheme, the outer tube 55 is manufactured using stretch-blow method, wherein 0.2mm≤T7≤ 0.3mm, 0.01mm≤T8≤ 0.05mm, and D8< D4
Fig. 7-8 depicts the cooperation schematic diagram of 55 remote location of the inner sleeve 54 and outer tube.Wherein the outer tube is remote End 89 and air bag 80 are mounted at the annular groove 70, wherein the distal outer tube 89 and the groove surface 78 and step surface 79 Matching.Using binding circle 91, the balloon proximal transition region 82 and distal outer tube 89 are fixed to groove 70 respectively by binding circle 92 Place is simultaneously aided with glue sealing.Size after the usually described winding of the distal outer tube 89 binding circle 92 is still less than equal to casing lip 60 Maximum outside diameter D4.Now in conjunction with Fig. 3 and Fig. 8, the distal end of the puncture outfit 5,30 mistake of the puncture needle 10 and described sleeve pipe component It crosses smooth;And the distal end of the puncture outfit 7, the transition of the puncture needle 10 and described sleeve pipe component 50 be not smooth.Mainly include Not smooth transitional region at two causes transition to have some setbacks one is the size between the visual head 13 and casing lip 60 is mutated It is sliding;The second is the transition of described air bag itself is not smooth, especially the wall thickness dimension unevenness in air bag Distal transition area 83 and It is not smooth caused by abnormity.One those skilled in the art it is contemplated that by reduce the included angle A 4 can reduce it is described can Depending on the size mutation between first 13 and casing lip 60, however reduce the included angle A4Ensure that the annular groove 70 has again simultaneously There is enough intensity, while ensuring D again8< D4, then the inclined wall part 66 should be greater than along the length L4 of axis direction In 10mm.And the size of the air bag body 81 and distal outer tube 89 axially is typically larger than and is equal to 20mm.The technology of this field Personnel are to be understood that the distal end of described sleeve pipe component 30 or 50 penetrates stomach wall and enters abdomen since patient abdomen space limits The length of chamber is typically not greater than 20mmm, otherwise influences surgical procedure or leads to the wind such as accidental injury internal organs in puncture process Danger, therefore L cannot be extended4To reduce transition mutation.
Influence of the transition mutation for puncture force is quite big: the airbag casing pipe group for the 12mm specification that such as patent P692 is disclosed Part (without airbag fold) passes through tissue cut, and when the bar portion of no air bag passes through, resistance is substantially zeroed or very little, works as air bag When passing through notch, hump drag reaches 25 pounds;And after using airbag fold technology, hump drag drops to 13 pounds.This The structure size mutation that the random accumulation of air bag body that air bag is primarily due to when can reduce puncture through well-regulated folding generates, from And help largely to reduce penetration Resistance.Those skilled in the art is to be understood that the prominent of air bag body flexible Resistance difference dissident caused by becoming of different sizes is through very big, and rigidly mutation causes resistance to increase between the visual head 13 and casing lip 60 It will be apparent from greatly.The visual puncturing needle of 12mm specification is disclosed in American invention application US20070066988A1 penetrates patient's abdomen The puncture force (Direct perforantes method) of wall is about 15 pounds.The operating comfort of usually less than 15 pounds of puncture force is preferable, and is higher than 18 pounds usually will affect control of the operative doctor for puncture process.Obviously, if counting air bag in is mutated increased resistance, Yi Jike Resistance caused by depending on being mutated between first 13 and casing lip 60, the puncture outfit 7 can not be applied in Direct perforantes method substantially.
Fig. 9-10 depicts the sheath assembly 100 of first embodiment of the invention.Described sleeve pipe component 100 includes axis 101 and axially disposed the first seal assembly 110 and the second seal assembly 120.First seal assembly 100 includes to be clipped in Instrument seal 112 between upper warehouse 111 and upper cover body 113.Second seal assembly include be clipped in lower cover 121, and under Zero sealing 122 between warehouse 123.The upper warehouse 113, upper cover body 117, lower cover 121 and lower warehouse 123 are sequentially connected group At shell 103.The shell 103, instrument seal 112 and zero sealing, 122 composition include the sealing system of substantially aligned hole.Institute It states banding instrument when instrument seal 112 is inserted into external device in described sleeve pipe component 100 and forms sealing;Zero sealing 122 are generally not provided the sealing for insertion instrument, and are automatically closed when instrument is removed and form sealing.To save length, Warehouse 111 in omission, instrument seal 112, upper cover body 113, lower cover 121, zero sealing 122 structure and its be connected and fixed mode Details describe and statement, understand in combination with the associated description disclosed in aforementioned CN201610630336.5 Chinese invention application on State structure.Those skilled in the art be to be understood that it is disclosed in the prior art, the instrument seal 112 and zero is close There are many implementations of envelope 122, such as the fFour piece type instrument seal component disclosed in U.S. patent Nos US8029475, example Fold-type instrument seal component as disclosed in US7789861, such as the instrument comprising woven cloth disclosed in US6482181 are close Sealing assembly, such as the fFour piece type zero that US5443452 is disclosed seal, such as sealing of duck-beak type zero disclosed in US8034032 etc.. To other disclosed instrument seals, slightly adaptation can also be used for substituting device of the present invention for zero sealing and its shell Tool sealing, zero sealing, upper warehouse, upper cover body, lower cover etc..
With continued reference to Fig. 9-10, the lower warehouse 123 also includes lower case 124 and is attached thereto and extends to distal end Hollow sleeve 210.The lower warehouse 123 also includes air bag component 250, air-valve assembly 130 and check valve assembly 140.The gas Valve module 130 includes air valve body 130a and gas valve core 130b, and the gas valve core 130b is fitted into air valve body 130a and is packed into together Extend transversely through the air valve mounting hole 125 of the lower case 124.
1-13 referring now to figure 1, the hollow sleeve 210 include casing axis 201 and extend along axis with internal diameter Di's Inner cylinder 211 and have outer diameter DoOuter cylinder 213 and therebetween with a thickness of Ta1Casing wall 212;The hollow sleeve 210 Also comprising open casing lip 220, described sleeve pipe lip 220 includes the inclination of opening lip 229 and transition lip 228 therebetween for distal end Cylinder 227, the inner cylinder 211 and inclination cylinder 227 limit casing skew wall 226.Described sleeve pipe skew wall 226 is in opening lip The wall thickness of 229 positions is Tb1, the wall thickness in 228 position of transition lip is Tb2.The wall thickness of described sleeve pipe skew wall 226 from distal end to Proximal end gradually increases, and the usual increased rate of wall thickness is smaller, so that the transition between puncture needle and sheath assembly is more smooth.One In the preferred design scheme of kind, Tb2=Ta, and 0.1mm≤Tb1≤ 0.3mm, 0.8mm≤Tb2≤1.1mm.Usual Tb1< 0.1mm It is difficult to manufacture and Tb1> 0.3mm causes more serious transition not smooth.Usual Tb2Then hollow sleeve 210 is strong when < 0.8mm Degree is inadequate, and Tb2The outer diameter of the hollow sleeve 210 is too big when > 1.1mm, and the reduction of unfavorable subthreshold is for patient's Damage.Included angle A in the design scheme of another optimization, between the inclination cylinder 227 and the inner cylinder 211lip, wherein 3°≤Alip≤15°.The Alip3 ° of < lead to the intensity of casing lip 220 not enough and are difficult to manufacture, and the Alip15 ° of > cause Transition between puncture needle and sheath assembly is not smooth.
1-13 is continued to refer to figure 1, in the present embodiment, the hollow sleeve 120 has the casing lip 220 of whole wedge shape, I.e. opening lip 229 and the transverse plane perpendicular to casing axis 201 are at an acute angle.The casing lip 220 of whole wedge shape helps to reduce Puncture force.Statement more precisely, the opening lip 229 include distal openings lip 229a and proximal openings lip 229c and therebetween Be open lip linkage section 229b.The opening lip 229 limits the lip plane 202 comprising its whole or big portion, the lip Plane 202 and described sleeve pipe axis 201 are crossed to form included angle Aopen.In this example, the opening lip 229 is contained in completely The lip plane 202 it is interior, i.e., it is described opening lip 229 be 2 dimensions linear loop;However the opening lip 229 can also be with It is the spatial loop of 3 dimensions, i.e., the described opening lip 229 is not completely in some internal plane.When the opening lip 229 is 3 When dimension space ring, using can also cross most line segments of opening lip plane as lip plane 202.Although this reality Opening lip 229 described in example is closed ring, however is also possible to the ring of the non-close containing one or more small gaps.
In a kind of optinal plan, the included angle AopenFor acute angle and 45 °≤Aopen≤85°.It is typically different the casing group of specification Aopen angle value used by part is different, such as Aopen=85 ° in a kind of sheath assembly of 5mm specification, a kind of 10mm specification Sheath assembly in Aopen=60 °, Aopen=45 ° in a kind of sheath assembly of 12mm specification.Usual Aopen angle value is bigger More be conducive to reduce puncture force, but Aopen angle value leads to more greatly sheath assembly described in puncture process and puncture needle needs Total length inserted into the patient increases.As 45 °≤AopenAt≤85 °, the sheath assembly of different diameter specifications can suffer from insertion Depth is reasonable in person's body and puncture force dilemma as small as possible in obtain the solution for preferably balancing each side relatively.
After continuing to refer to figure 1 1-13, the proximal location of the hollow sleeve 210 includes to install check valve assembly 140 Valve seat 126.The valve seat 126 includes the mounting hole 126a and sink hole 126b that cylindrical side wall limits.The hollow sleeve 210 also include (or a plurality of) runner 216, the runner 216 extended proximally into along the outer cylinder 213 penetrate it is described The cylindrical side wall of valve seat 126 formed side opening 126c and with the counter sink 126b connection;The runner 216 extends distally to The distal portions of the hollow sleeve 210, close on described sleeve pipe lip 220.
4-16 referring now to figure 1, the air bag component 250 include outer tube axis 251 and the outer tube 260 along axis setting With air bag lip 280 and intervenient inclination air bag body 270.The air bag body 270 includes that balloon proximal transition region 272 is gentle Capsule Distal transition area 276 and the air bag main body 274 extended therebetween.The air bag lip 280 includes air bag opening lip 289 and air bag Transition lip 287 and the air bag skew wall 288 extended therebetween, the air bag skew wall 288 limit the shape with described sleeve pipe skew wall 226 The round taper hole 286 that shape and size match.The air bag transition lip 287 by distally proximally extend and with air bag distal end 276 seamless link of transition region and smooth transition.The outer tube 260 is comprising distal outer tube 268 and proximal outer tube 264 and therebetween The outer tube wall 266 of extension, the distal outer tube 268 and the balloon proximal transition region 272 seamless connection and smooth transition, it is described Outer tube wall 266 limits the cylindrical hole 265 being adapted with 213 shape and size of outer cylinder, and the proximal outer tube 264 limits Tube opening 262 out.In a kind of preferred scheme, the gentle utricule 270 of the air bag lip 280 has substantially homogeneous wall thickness Ta3。 In a kind of optional scheme, 0.05mm≤Ta3≤ 0.1mm, air bag body is difficult to manufacture when the wall thickness of usual air bag body is less than 0.05mm And after its intensity is not enough easy to appear cracking, and when wall thickness of air bag body is greater than 0.1mm largely increases evacuation The material thickness for mutually folding accumulation, increases puncture force.
4-16 is continued to refer to figure 1, in the present embodiment, the air bag component 250 has the air bag lip of whole wedge shape 280, i.e. air bag opening lip 289 and the transverse plane perpendicular to axis 251 is at an acute angle.More precisely, the opening lip 289 includes remote Hold air bag opening lip 289a and proximal balloon opening lip 289c and air bag lip linkage section 289b therebetween.The opening lip 289 limits The lip plane 252 comprising its whole or big portion is made, the lip plane 252 is crossed to form angle with the axis 251 Asleeve.A described in a kind of design schemesleeveFor acute angle and Asleeve=Aopen, however can also be unequal.With continued reference to figure 14-15, in a kind of preferred scheme, in section shown in figure 15, air bag Distal transition area 276 is relative to axis 201 With air bag transition angle Ad;The balloon proximal transition region 272 has air bag transition angle Ap, and Ad < Ap relative to axis 201. This design is conducive to the flowing of material when blow molding manufacture, and helps further to reduce puncture force.
4-16 is continued to refer to figure 1, the air bag body 270 has the annular chamber of likeness in form lifebuoy, or likeness in form includes center The annular round pie in hole.Up to the present, the tube assembly containing Air sac cover for having disclosed and having had been commercialized, the annular chamber that air bag is formed (annular cake) substantially vertical axis with its sheath assembly.However air bag body 270 of the present invention includes inclined air bag, That is the annular chamber (annular cake) of the formation of air bag body 270 and the angle of casing axis is acute angle (out of plumb).Statement more precisely, Inclination air bag body 270 includes air bag distal portions 270a and air bag proximal part 270c and the air bag interlude extended therebetween 270b.The annular chamber that similar lifebuoy is formed after the air bag body 270 is swollen, is roughly parallel to the air bag body 270 Air bag plane 253, the air bag plane 253 is crossed to form air bag inclination angle A with the axis 251balloon.A kind of optinal plan In, the air bag inclination angle AballoonFor acute angle and 45 °≤Aballoon≤85°.Those skilled in the art is to be understood that In Direct perforantes method, when operative doctor is penetrated patient's stomach wall and is established puncture channel using puncture needle and sheath assembly, casing The axis of component is usually inclined to penetrate stomach wall (out of plumb).One of important function that inclination penetrates stomach wall is to extract casing Muscle or tissue mutually covering after component at wound, is beneficial to prevent incisional hernia complication.Define casing axis and patient's abdomen The acute angle of the angle of wall is to puncture angle beta.The diameter specifications of usual sheath assembly are bigger, and the puncture angle that when puncture is chosen is smaller, but It usually punctures angle and is not less than 45 °, preferred 45 °≤Aballoon≤85°.The ring formed after the air bag body 270 inflation swells The fixed effect of the air bag body 270 is preferable when patient's stomach wall of shape chamber (annular cake) substantially parallel puncture position, therefore gas Capsule inclination angle preferably 45 °≤Aballoon≤85°。
Now referring primarily to Figure 16, laterally protruding 270 edge of air bag body to except its outer tube 260 of the air bag component 250 Air bag body its circumferential transverse width dimension it is unequal.More details, the air bag body 270 is in its air bag distal portions 270a With transverse width Ba, the air bag body 270 has transverse width Bc, and Bc > Ba in its balloon proximal part 270c.Now after Continuous to refer to 14-16, when the air bag body 270 is by distally proximally extending, transverse width is first gradually increased, and in its air bag Transverse width of the broadening rate of the transverse width of proximal part 270c greater than its air bag distal portions 270a is advanced the speed.It is preferred that , the Bc is much larger than Ba;In a kind of specific design scheme, the Bc >=10Ba;So that the entirety of entire air bag component 250 Shape is in hook hook-shaped, i.e., that the described air bag body 270 is laterally extended out similar to the outer tube 260.
7-18 referring now to figure 1, the air bag component 250 are mounted on the outside of the hollow sleeve 210, wherein air bag lip 280 are coated on the outer surface of described sleeve pipe lip 220;The outer tube 260 is coated on the outside of the outer cylinder 213;The gas Capsule skew wall 288 matches to form taper fit 230 with described sleeve pipe skew wall 226.In a kind of implementation, with welding manner (or glue Water bonding way) annular completely enclosed taper seam region is formed between the air bag skew wall 288 and casing skew wall 226 299, so that the air bag lip 280 and described sleeve pipe lip 220 are connected into an entirety.The distal outer tube 268 with it is described outer The welding of cylinder 213 or glue bond together shape and between the distal outer tube 268 and the runner 216 not be bonded (welding), Form non-fully closed seam region 297;The outer tube wall 266 contacts with the outer cylinder 213 but is not fixed or uses Glue is adhesively fixed;The outer surface of the proximal outer tube 264 and the outer cylinder 213 and valve seat 126 has been bonded together into Totally enclosed proximal end seam region 295.The then check valve assembly 140, runner 216, outer cylinder 213, air bag component 250, closely Abutted seam region 295 and taper seam region 299 form closed air bag cavity 290.
0, Figure 17, Figure 19 and 20 referring now to figure 1, the check valve assembly 140 include bonnet 141, one-way plug one 145, spring 146 and valve seat 126.The bonnet 141 includes the stomata 147 through it, forms the inner wall 144 and outer wall 143 of stomata 147. The inner wall 144 and outer wall 143 form annular groove, and the mounting hole 126a limited with valve seat 126 is matched, the mounting hole 126a With the side opening 126c connection.The outer wall 143 includes elastic arm 142, and 142 distal end of elastic arm is provided with limit hole 142a, size and position and the limited post 126d in 126 outside of valve seat match.When installing check valve assembly 140, first will Spring 146 is put into valve seat 126, is then charged into one-way plug one 145 and is snapped into bonnet 140 on valve seat 126, and elastic arm 142 becomes Limited post 126d is entered in limit hole 142a after shape, and compressed spring 146.Since the reaction force of spring 146 is by one-way plug one 145 push out and withstand 140 inner wall 144 of bonnet, form sealing and fix.
In a kind of implementation, it is inflated or deflates via the check valve assembly 140 using standard syringe.With reference to Figure 19-20, wherein the stomata 147 is designed and sized to match with the shape and size of standard syringe point mouth.The gas The distal end in hole 147 includes conical bore 147b, and the one-way plug one 145 includes the matched cone 145b and Xiang Yuan of taper therewith Hold the planar wall 145a extended to form.The planar wall 145a include air channel 145c and the cone 145b include a word or Cross air channel 145d.Under natural conditions, the reaction force of spring 146 pushes out one-way plug one 145, the cone 145b with The conical bore 147b matches to form sealing, prevents the gas leak in air bag cavity 290.
The inflation that Figure 17-20 depicts air bag component 250 swells process.Specifically, syringe SY oral area is inserted into institute It states in the stomata 147 of check valve assembly 140, and inwardly opens one-way plug one 145, then carry out gas injection.Gas passes through unidirectional The air channel 145c and air channel 145d of plug 145, then entered in valve seat 126 via the gap of 140 inner wall 144 of bonnet, and pass through Sink hole 126b, side opening 126c, runner 216, which enters within air bag body 270, to be swollen.After taking out syringe SY, spring 146 Bounce pushes out one-way plug one 145, and the cone 145b and the conical bore 147b match to form sealing, avoids gas Leakage.
As further illustrated in figures 21-24, sheath assembly 100 goes back the outer fixation kit 160 of occlusion body, axis 161 and along axis setting Fixed pad 150 and latch fitting 155.It includes but is not limited to rubber, sponge etc. that 150 materials of the fixed pad, which are flexible material,.It is described solid Determine the pad distal end 151 and pad proximal end 153 and the air ring slot 152 extended therebetween, the hole 154 that pad 150 includes its distal end Through fixed pad 150, aperture is slightly smaller than the outer diameter of outer tube 260, the outside of outer tube 260 can be nested by swelling.Pad It distally 151 is tightly attached to around the notch of stomach wall, protects notch, the air pressure in stomach wall is avoided to leak from incision site.A kind of realization In scheme, the pad distal end 151 and axis 161 A at an acute angleclamp.In a kind of design scheme, the Aclamp=Aopen, so And it can also be unequal.155 material of latch fitting includes the plastic material (such as polycarbonate) or metal with favorable elasticity Material (such as SUS301) is made.The latch fitting 155 includes latch fitting body 156 and the handle that 156 both ends of latch fitting body are extended 157 and position-limited edge 159.The latch fitting body 156 curls into latch fitting hole 158 by prefabricated, and latch fitting 155 forms the lock of inward curl Clamp force.The inside crimp force of latch fitting body 156 staggeredly limits the handle 157 at 156 both ends of latch fitting body and position-limited edge 159, and two Handle 157 is staggered to form approximate V-type.By the way that two handles 157 of pressure or release will be pinched, latch fitting hole 158 can be expanded or shunk. Such as Figure 22-24, latch fitting 155 is nested into the pad slot 152 of fixed pad 150, since latch fitting 155 forms the coupling mechanism force of inward curl, So latch fitting 155 is by the fixed locking of pad 150 and device to hole 154 generates internal enclasping force under 155 release conditions of latch fitting.
Referring now to Figure 24-25, sheath assembly 50 penetrates patient's stomach wall and is inserted into the channel after body cavity as instrument disengaging body cavity, It may be needed in surgical procedure while using one or more sheath assemblies.When surgeon operates various instruments, such as nipper, Scissors, contact generates frictional force between the surgical instruments such as stapler and sheath assembly 50, these frictional force may result in casing Component 30, in vivo or to extracorporeal movement, if sheath assembly 50 is not fixed, may result in along stomach wall and skid off stomach wall Or be further inserted into chamber, therefore sheath assembly be firmly fixed on stomach wall just it is of crucial importance.The casing of the prior art The air bag 80 of component is usually applicable only to Hasson method usually vertically with the axis of its sheath assembly.And described sleeve pipe component 100 Can be used for Direct perforantes method, described sleeve pipe component 100 includes inclined air bag body 270, is adjusted along the axial direction of sheath assembly 100 The position of the whole external fixation kit 160 steps up the stomach wall in the air bag body 270 and external fixation kit 160 Between to being firmly fixed on stomach wall, can prevent described sleeve pipe component 100 in vivo or to extracorporeal movement simultaneously. Those skilled in the art should it is contemplated that the prior art such as US7300448, US7316699, US7691089, It is of the present invention to substitute that the fixed mechanism or clip disclosed in the patents of invention such as US8162893 can slightly do adaptation External fixation kit 160, other schemes are also to be contemplated that.
Described sleeve pipe component 100 is packed into before final sterilization packaging after completing assembling, the air bag body of the air bag component 250 270 are evacuated or fold, and the airbag fold method disclosed in patent P692 can be used for the folding of air bag body 270.Work as casing After 100 complete penetration patient's body wall of component, the position of described sleeve pipe component 100 is adjusted, and method as previously described uses note Emitter SY swells the air bag body 270.Then the position of the outer fixation kit 160 of adjusting body makes air bag body 270 and fixed pad 150 Patient's body wall is clamped in the inner side and outer side of stomach wall respectively, realizes the fixation of sheath assembly 100.When operation completion, need to take Out when sheath assembly 100, the gas nozzle that syringe SY can be used is pushed the one-way plug one 145 open and is evacuated in the air bag body 270 Gas is so that the air bag body 270 diminution is reset to original state.
The associated description of the sheath assembly 50 of the prior art in conjunction with background technique and above, the wall thickness of the cylindrical wall 84 T7, wherein 0.2mm≤T7≤0.3mm;The wall thickness T of the air bag body 818, wherein 0.01mm≤T8≤0.05mm;The transition region The wall thickness of 83 (82) is by T7Fade to T8.However when air bag body wall thickness is 0.01-0.05mm, usually make the manufacture of air bag body Become very complicated and uncontrollable, or is expressed as stringent wall thickness accuracy control and increases manufacturing cost.Gas described in use Utricule 81 is born compared with atmospheric pressure (about 25Psi~30Psi), and air bag body 81 is designed to thin-walled and the wall thickness of cylindrical wall 84 is about air bag 10 times of body wall thickness, this design is analyzed in terms of structural strength seems unreasonable.And it discloses to stretch using patent P692 and blow Mould legal system gas making capsule, it is difficult to which the transitional region in air bag avoided forms the even structure of wall unevenness.The distal outer tube 89 is in 88 wall thickness of blank pipe portion is thicker, the uneven thickness of the transition region 83 (82), largely increases mutual folded stack after evacuation Long-pending material thickness, largely increases puncture force.In addition, the casing lip 60 of described sleeve pipe component 50 causes sheath assembly Transition unevenness between puncture needle is to further increase puncture force.Therefore, disclosure up to the present and The commercialized sheath assembly containing air bag is generally not used in Direct perforantes method.
And the sheath assembly 100 of present disclosure has and is used for Direct perforantes without air bag with what the prior art disclosed The substantially equivalent casing lip 220 of sheath assembly;The air bag component 250 is inclined comprising matching with described sleeve pipe lip 220 Air bag lip 280;And the air bag lip 280 matches coincidence using welding (or Nian Jie) is fixed with described sleeve pipe lip 220 to reduce The size mutation set.In addition, the wall thickness Ta3 of the gentle utricule 250 of air bag lip 280 of air bag component 250 of the present invention is substantially equal Even and 0.05mm≤Ta3≤ 0.1mm strengthens the intensity of air bag and reduces wall thickness control difficulty, while reducing material thickness The deformation force of transitional region caused by degree is uneven, so that sheath assembly of the present invention 100 can be used for Direct perforantes Method.Certainly, sheath assembly 100 of the present invention can be used in Hasson method.
When using the fixed air bag lip 280 of glue bonding way and casing lip 220, bio-compatibility requirement is preferably conformed to Ultraviolet cured adhesive.Ultraviolet cured adhesive curing rate is fast, and cementability is strong, and relatively thin glue layer can reach ideal Fixing intensity, thus reduce bonding location size mutation.However it can also be selected according to the material difference of the gentle utricule of casing Other glue adaptable and that meet bio-compatibility requirement therewith, such as epoxy resin, polyester glue etc..Using welding When the fixed air bag lip 280 of mode and casing lip 220, there are many kinds of classes, including but not limited to thermocompression bonding for specific welding method It connects, ultrasonic bonding, high-frequency welding, radiation welding, pulse welding etc..Relative to glue bonding way, welding manner is more excellent.Weldering It is smooth (after trimming to the residual side of welding that the mode of connecing makes the air bag lip 280 and casing lip 220 connect reliable and transition Can even realize seamless smoothly transit), and the wall thickness of the new casing lip of welding manner formation is less than 280 He of air bag lip The sum of the wall thickness of casing lip 220.
The air bag skew wall 288 matches that form taper fit 230 most important with described sleeve pipe skew wall 226, is conducive to mention Packaging efficiency and fix tightly solidity when high air bag lip 280 and casing lip 220 are fixed to each other.It is described especially for being welded and fixed Taper fit 230 can be along the axial folding soldering tip and support fixture of sheath assembly when ensuring to weld, therefore can disposably weld Form the taper seam region 299.Rather than to be welded in the case where taper fit to be formed annular closure seam usually need Want multiple welding that the unexpected thinning generation root in air bag body part is easily caused to cut failure.
Airbag casing pipe component 50 described in background empties and after folding through deflating, it is difficult to avoid in the airbag casing pipe group The distal end of part 50 forms the annular table scalariform mutation structure of its one or several substantially vertical axis.Those skilled in the art can Understood with attempting the imagination, patient muscle has certain elasticity, runs through sheath assembly 50 according to puncture needle 10 described in background And patient's stomach wall is penetrated via small notch, puncture needle distal punctures and muscle packs tightly the puncture needle and set during the wound that swells The outer surface of tube assembly distal end, even if lesser annular table scalariform protrusion, it is also possible to significantly increase penetration Resistance.And it is of the invention The sheath assembly 100 includes inclined air bag body 270, after deflating and emptying and fold, the material stacking of the air bag body Form the mutation structure of other than ring type.Make any cross section cutting air bag bodily form of the axis direction of substantially vertical sheath assembly 100 At cross section in, bag material stacks the mutation generated and occurs over just the regional area of cross section, this helps to disperse puncture Resistance.Particularly, standard punctures operative doctor ordinary practice in gimmick and pierces while on one side small-scale rotate back and forth to internal Enter, when puncturing gimmick using standard, inclination air bag of the present invention reduces puncture peak force for dispersion penetration Resistance Effect it is more significant.The inclined airbag structure makes the inclined stomach wall for being fixed on patient of described sleeve pipe component simultaneously, More meet doctor's operator tool disengaging in clinical needs and more convenient art.
Figure 26-28 depicts the lower warehouse 123a of another embodiment.The lower warehouse 123a and the lower warehouse 123 Structure and composition it is substantially equivalent, the main distinction of the lower warehouse 123a and the lower warehouse 123 is air bag component and stream Road generation type is different.Finer with reference to Figure 26 and Figure 28, the lower warehouse 123 includes axis 301 and is arranged along axis It lower case 124 and is attached thereto and to the hollow sleeve 210a that distal end extends, air bag component 350 and check valve assembly 140.Institute Stating hollow sleeve 210a includes to have internal diameter DiInner cylinder 211 and have outer diameter DoOuter cylinder 213 and therebetween with a thickness of Ta1 casing wall 212.The distal end of the hollow sleeve 210a also includes open casing lip 320, and described sleeve pipe lip 320 includes to open The inclination cylinder 327 of lip portion 329 and transition lip 328 therebetween, the inner cylinder 211 and inclination cylinder 327 limit casing Skew wall 326.The proximal location of the hollow sleeve 210a includes the valve seat 126 to install check valve assembly 140, the valve seat The 126 side opening 126c comprising extending transversely through valve seat wall part.Compared with the lower warehouse 123, the column jacket of the lower warehouse 123a Do not have on face 213 recess runner 216, so as to guarantee hollow sleeve 210a intensity it is enough under the premise of, using opposite Thinner casing wall 212, to further reduce outer diameter Do
Referring now to Figure 27-28, the air bag component 350 includes axis 351 and outer tube 360 and air bag lip is arranged along axis Portion 380 and intervenient air bag body 370.The outer tube 360 comprising distal outer tube 368 and proximal outer tube 364 and The outer tube wall 366 extended therebetween, the outer tube wall 366 limit the cylinder being adapted with 213 shape and size of outer cylinder Hole 365.The proximal outer tube 364 limits outer tube opening 362, the distal outer tube 368 and 380 seamless chain of air bag lip Connect simultaneously smooth transition.The air bag lip 380 includes the gas that air bag opening lip 389 and air bag transition lips 387 and extended therebetween Capsule skew wall 388, the air bag skew wall 388 limit the round taper hole to match with the shape and size of described sleeve pipe skew wall 326 386.With continued reference to Figure 27, the air bag body 370 is made of the 368 partial lateral outwardly convex of distal outer tube, the air bag Body 370 includes balloon proximal transition region 372 and air bag Distal transition area 376 and the air bag main body 374 extended therebetween.This example Described in air bag body 370 also include two air bag sides 378, those skilled in the art is readily apparent that, when the air bag side The 378 tangent connections smooth with the other parts of air bag body 370, can also be not present apparent air bag side.The air bag For component 350 compared with the air bag component 250, the main distinction is geometric constitution: the geometric constitution base of the air bag body 270 It to be formed in entire circumferential laterally outward swell of the boot proximal end 268 of the outer tube 260, but its lateral expansion large scale unevenness makes The air bag component 250 is whole in hook-shaped;And casing of the geometric constitution of the air bag body 370 based on the outer tube 360 is remote 368 part of end laterally outward swells so that the air bag component 350 is whole L-shaped hook-shaped.Other differences mainly include described Lip plane and the axis 251 where the opening lip 229 of air bag component 250 are crossed to form acute angle, and the air bag group Lip plane and the axis 351 where the opening lip 329 of part 350 are crossed to form right angle.
Now with continued reference to Figure 28, the air bag component 350 is mounted on the outer of the hollow sleeve 210a of the lower warehouse 123a Portion, wherein air bag lip 380 is coated on the outer surface of described sleeve pipe lip 320;The outer tube 260 is coated on the outer cylinder 213 outside.The air bag skew wall 388 is matched with described sleeve pipe skew wall 326, and in institute in a manner of welding (or glue bonding) It states and forms completely enclosed distal end seam region 399 between air bag skew wall 388 and casing skew wall 326, thus by the air bag lip Portion 380 and described sleeve pipe lip 320 connect into an entirety.The proximal outer tube 364 and the outer cylinder 213 and valve seat 126 Outer surface is bonded together into completely enclosed proximal end seam region 395.The distal outer tube 268 and the outer cylinder 213 Welding or glue bond together shape and the distal outer tube 268 and the outer cylinder 213 welding or glue bond together shape At non-fully closed seam region 397.It is not be bonded or formed non-complete between the outer tube wall 266 and the outer cylinder 213 Totally enclosed bonding reserves the runner 216a (not shown) of connection air bag body 370, i.e., with outer tube wall 266 and outer cylinder 213 it Between gap substitute aforementioned runner 216.To sum up, the check valve assembly 140, runner 216a, outer cylinder 213, air bag component 350, proximal end seam region 395 and distal end seam region 399 form closed air bag cavity 390.The common skill in this field one Art personnel are readily apparent that, when the sheath assembly containing air bag penetrates patient's stomach wall, when being packed tightly by patient muscle, muscle is given described outer The package power of tube wall 266 may cause outer tube wall 266 and the gap of the outer cylinder 213 reduces or even blocks, to block institute State runner 216a.It is potentially based on the considerations of preventing runner from blocking, its casing wall of the sheath assembly of patent P692 disclosure is also recessed Sunken runner.However under normal conditions, blocking the situation of the runner 216a will not occur.Up to the present, it generallys use general Logical syringe is inflated for deflated to air bag cavity 390, syringe to the inner gas pressure of the air bag cavity 390 be 25Psi~ 30Psi, muscle can not block the runner 216a for the package power of outer tube wall 266.It is similar, the air bag component 350 Puncture force can further be reduced, so that can be used for Direct perforantes using the sheath assembly of the air bag component 350 Method.
In another aspect of the invention, the improved air bag component being more easily manufactured of one kind and its manufacturing method are proposed. Briefly, the air bag component 250 (350) is cut off at its distal outer tube 268 (368) and is divided into first part's (balloon portion Point) and second part (outer tube part), the first part is manufactured using blow moulding, and use described second of extrusion molding manufacture Point, then be bonded together the first part and second part to form the air bag component substantially equivalent with the air bag component 250 350a, 350a (not shown).Its key step is as follows:
Blow moulding and trimming process: being manufactured using blow moulding and trims the acquisition first part;
Extrusion molding and cutting process: the second part is manufactured using extrusion process and is trimmed to suitably sized;
Welding sequence or bonding process: the second part and first part overlap and welding (bonding) are used to form seaming zone Domain.
Figure 29-34 depicts the lower warehouse 123b of another embodiment.The lower warehouse 123b and the lower warehouse 123 Structure and composition it is substantially equivalent, the main distinction of the lower warehouse 123b and the lower warehouse 123 is air bag component and stream Road generation type is different.Finer with reference to Figure 29 and Figure 30, the lower warehouse 123b includes axis 401 and is arranged along axis Lower case 124 and be attached thereto and to the hollow sleeve 210b that distal end extends, air bag component 450 and check valve assembly 140. The hollow sleeve 210b includes to have internal diameter DiInner cylinder 211 and have outer diameter DoOuter cylinder 213 and thickness therebetween For Ta1Casing wall 212.The distal end of the hollow sleeve 210b also includes open casing lip 220, and described sleeve pipe lip 220 includes Be open the inclination cylinder 227 of lip 229 and transition lip 228 therebetween, and the inner cylinder 211 and inclination cylinder 227 limit set Pipe skew wall 226.Wall thickness of the described sleeve pipe skew wall 226 in opening 229 position of lip is Tb1, wall thickness in 228 position of transition lip For Tb2, and Tb1< Tb2.Referring now to Figure 30 and Figure 34, the opening lip 229 includes distal openings lip 229a and proximal openings lip 229c and opening lip linkage section 229b therebetween.The opening lip 229 limits the lip plane comprising its whole or big portion 202, the lip plane 202 is crossed to form included angle A with described sleeve pipe axis 201open.In a kind of optinal plan, the angle AopenFor acute angle and 45 °≤Aopen≤85°.Such as Figure 30, the hollow sleeve 210b is in the area for closing on the proximal openings lip 229c Domain includes pit 430.The pit 430 includes the wall that pit distal end step 439 and pit proximal end steps 437 and extended therebetween Thickness is the pocket wall 438 of Ta2, and the Ta2 < Ta1.The proximal location of the hollow sleeve 210b includes unidirectional to install The valve seat 126 of valve module 140, the valve seat 126 include the side opening 126c for extending transversely through valve seat wall part.The hollow sleeve 210b further includes the shaft orientation flowing channel 424 and the circumferential runner 423 circumferentially extending along casing extended along casing axis;The ring Extend to 423 one end of runner with the shaft orientation flowing channel 424 and intersects connection, and the other end and the side opening 126c connection;The axis It is extended to and 430 connection of pit to runner 424 by proximate.
Referring now to Figure 29 and Figure 31, the air bag component 450 includes axis 451, air bag lip 480 and extension sheet material 460. The air bag lip 480 includes air bag opening lip 489 and air bag transition lip 487 and the air bag skew wall 488 extended therebetween.It is described Extending sheet material 460 includes the air bag distal end wall 468 connecting with the air bag transition lip 487, and extends to air bag along axis 451 The airbag wall 466 of proximal end wall 464.The balloon proximal wall 464 includes the air bag wall extension 462 being laterally extended.The air bag is remote End wall 468 includes laterally outward raised air bag body 470.The air bag body 470 includes that balloon proximal transition region 472 is remote with air bag End transition region 476 and the air bag main body 474 extended therebetween.The geometric constitution of the i.e. described air bag body 470 is based on the extension 468 part of air bag distal end wall of sheet material 460 laterally outward swells so that the air bag component 450 is whole in hook-shaped.The gas Capsule is open lip 489, balloon proximal opening edge 461, air bag axial first while 463 and air bag it is axial second while 465 limit it is described The outer edge of air bag component 450.In this example, the shape of the air bag component 450 is the semicircle comprising laterally protruding air bag Cylinder-wall slice, however those skilled in the art should be it is contemplated that can also be using the plane containing laterally protruding air bag Shaped wall part point or other special-shaped wall parts comprising air bag.
With continued reference to Figure 32-34, the air bag component 450 is mounted on the outside of the hollow sleeve 210b, wherein air bag Lip 480 is coated on 220 outer surface of described sleeve pipe lip and closes on the proximal openings lip 229c.The extension sheet material 460 coats In the outside of the outer cylinder 213, the air bag skew wall 488 is matched with described sleeve pipe skew wall 226.In a kind of implementation, with The mode of welding (or glue bonding) forms distal end seam region 499 between the air bag skew wall 488 and casing skew wall 226, To which the air bag lip 480 and described sleeve pipe lip 220 are connected into an entirety.It will be by air bag axial direction using glue bonding method First side 463 is Nian Jie with the outer cylinder 213 to form first axis seam region 498;By axial second side 465 of air bag with it is described The bonding of outer cylinder 213 forms 497 (not shown) of the second axial seam region;By balloon proximal opening edge 461 and described outer The bonding of cylinder 213 forms proximal end seam region 495;Air bag wall extension 462 and the outer surface of the valve seat 126 are bonded together Form check valve seam region 496.The distal end seam region 499, first axis seam region 498, the second axial seam area Domain 497, check valve seam region 496 and proximal end seam region 495 form complete closure seam region 491.The closing connects Seam region 491 links together the air bag component 450 and hollow sleeve 210b, wherein the Extendible flake material 460 and axial direction It is not bonded between runner 424 and circumferential runner 423.The then check valve assembly 140, shaft orientation flowing channel 424, circumferential runner 423, outside Cylinder 213, air bag component 450 and closure seam region 491 form closed air bag cavity 490.
The lower warehouse 123b is air bag component relative to lower 123 main distinction of warehouse, finer, the gas The fixed slightly complicated of the fixed installation than the air bag component 250 of installation of capsule component 450, however the air bag component 450 Part production process is more efficient.The air bag component 250 is manufactured according to the stretch-blow method disclosed in patent P692, usually The wall unevenness of tube body for leading to air bag body and being attached thereto is even, cannot or be difficult to produce wall thickness of the present invention basic The gentle utricule of uniform air bag lip.Those skilled in the art should be able to manage, using extrusion blow (note is blown) method manufacture hollow zero When part (such as Coke bottle), to obtain substantially homogeneous wall thickness, generally for its extruded parisons (injection molding of the big position of blow-up ratio Base) wall thickness it is thicker, and require fabricated part design shape and structure substantially axial symmetry, serious dissymmetrical structure usually lead Cause serious wall unevenness that can not even manufacture.And air bag component 250 (350) of the present invention is typical or serious non-axis Symmetrical slim-lined construction, blowing (note stretch blow) using conventional extrusion blow (pultrusion is blown) or note easily leads to serious wall unevenness even It can not manufacture.In addition using thermoplastic elastomer (TPE) (such as the polyurethane of semi-rigid (shore hardness 65D >=hardness >=45A) Elastomer, thermoplastic polyester elastomer) manufacture air bag component, thermoplastic elastomer (TPE) has enough intensity and good submissive Property, be conducive to further reduce penetration Resistance.However it is led since its usual mobility of thermoplastic elastic material is relatively low Cause blow molding manufacture more difficult.And the manufacture of plastic uptake method can be used in air bag component 450 of the present invention, when plastic uptake method at present most at One of ripe processing technology, process equipment is cheap, high in machining efficiency, and product cost is very low.To very good solution 250 problems faced of air bag component.
In an additional aspect of the present invention, a kind of method that plastic uptake manufactures the air bag component 450 is proposed.Its key step Including plastic uptake process and trimming process:
Plastic uptake process: so-called plastic uptake, i.e., after being softened using plastic sheet (film) heating, vacuum suction is cooling in die surface After form.The plastic sheet of suitable dimension is selected according to the design needs, and plastic uptake is made comprising horizontal wall part and with air bag group Part 450 is the initial workpiece of type chamber;
Process: so-called trimming is trimmed, i.e. removal excess stock.The air bag component 450 is cut out down from aforementioned initial workpiece Come.
Many different embodiments and example of the invention are had shown and described.One ordinary skill of this field Personnel can make adaptive improvement to the method and instrument by suitably modified without departing from the scope of the invention. Such as the situation that Figure 33 depicts air bag lip opening lip 289 and the lip 229 that is open is misaligned in axis direction.Such as described first Part and second part need not be bonded or welded into the outside for being assembled into the hollow sleeve after an entirety again in advance, as long as institute It states distal outer tube and the outer cylinder forms runner and other regions in addition to runner completely enclose, and kinds of processes It can be easy to accomplish.Several kinds of amendment schemes are referred, for those skilled in the art, other amendment schemes It is contemplated that.Therefore the scope of the present invention should according to accessory claim, while be understood not to by specification and The particular content of the structure that attached drawing shows and records, material or behavior is limited.

Claims (10)

1. a kind of sheath assembly containing hook-shaped air bag includes the first seal assembly and the second seal assembly, second sealing group Part includes lower case and hollow sleeve coupled and to distal end extension, first seal assembly, the second sealing Component and hollow sleeve include connection and substantially aligned instrument channel, it is characterised in that:
1) casing wall of the hollow sleeve comprising inner cylinder and outer cylinder and therebetween;The distal end of the hollow sleeve also includes Open casing lip, described sleeve pipe lip include the inclination cylinder of opening lip and transition lip therebetween, the inner cylinder and inclination Cylinder limits casing skew wall;
2) described sleeve pipe component also includes the inflatable air bag component to swell, to inflation/deflation check valve assembly and will be described The airflow channel of air bag component and check valve assembly connection;
3) air bag component includes air bag axis, air bag lip and the air bag body being attached thereto, and the air bag lip extends to distal end Form the air bag skew wall to match with the shape and size of described sleeve pipe skew wall;The air bag lip proximally extends and the air bag Body connection and smooth transition;The included angle A that the air bag body and the balloon shaft line are formedballoonFor acute angle, the air bag component Also hook is constituted comprising the extension sheet material of the outer tube or arc that are connected with air bag body, the outer tube or extension sheet material and air bag body Shape shape;
4) air bag component is mounted on the outside of the hollow sleeve, and the air bag lip is coated on the appearance of described sleeve pipe lip Face, the air bag skew wall and casing skew wall form taper fit.
2. sheath assembly as described in claim 1, it is characterised in that: the air bag plane of the air bag body and the air bag axis The angle value range of formation is 45 °≤Aballoon≤ 85 °, between the air bag skew wall and casing skew wall it is fixed formed annular or The completely enclosed taper seam region of arc is to connect into an entirety for the air bag lip and casing lip.
3. sheath assembly as claimed in claim 2, it is characterised in that: the air bag body is laterally protruding to being formed except outer tube Inclined circumferential direction air bag body, the air bag body have transverse width Ba in its air bag distal portions, and the air bag body is in its air bag Proximal part has transverse width Bc, and Bc >=10Ba, the air bag component are integrally in hook-shaped.
4. sheath assembly as claimed in claim 2, it is characterised in that: the air bag body by the outer tube distal outer tube office Laterally outward protrusion is constituted in portion, and the air bag component is integrally L-shaped hook-shaped.
5. sheath assembly as claimed in claim 2, it is characterised in that: the air bag body is laterally outward convex by the extension sheet material It rises and constitutes, the air bag component, which is made of air bag body with extension sheet material, has the L-type of semi-circular cylindrical wall hook-shaped.
6. sheath assembly as described in claim 1, it is characterised in that: the hollow sleeve includes the opening with whole wedge shape Lip, the opening lip limit lip plane, and the lip plane and axis are crossed to form included angle Aopen, and 45 °≤Aopen ≤85°。
7. sheath assembly as claimed in claim 6, it is characterised in that: the fixation kit outside described sleeve pipe component also occlusion body, The fixation kit includes the fixed pad and latch fitting along axis setting, and the fixed pad includes the pad distal end of its distal end, the pad Distal end and axis A at an acute angleclamp, and Aclamp=Aopen
8. sheath assembly as described in claim 1, it is characterised in that: the gentle utricule of air bag lip has uniform wall It is thickTa3, and 0.05mm≤Ta3≤0.1mm。
9. sheath assembly as claimed in claim 3, it is characterised in that: the air bag body includes balloon proximal transition region and air bag Distal transition area and the air bag main body extended therebetween, air bag Distal transition area and axis form air bag transition angle Ad;Institute It states balloon proximal transition region and axis forms air bag transition angle Ap, and Ad< Ap
10. the manufacturing method of air bag component as claimed in claim 3, it is characterised in that: the air bag component includes outside it The first part and second part, the balloon proximal transition region that the cutting of pipe far-end is divided into proximally extend to form balloon proximal Opening, key step are as follows:
Negative pressure pre-setting blow moulding and trimming process: it is manufactured using aforementioned negative pressure pre-setting blow moulding and trims acquisition described first Part;Extrusion molding and cutting process: the second part is manufactured using extrusion process and is trimmed to suitably sized;
Welding sequence or bonding process: the second part and first part overlap and use welding or bonding to form seaming zone Domain.
CN201910113031.0A 2017-06-03 2017-06-03 Thimble assembly containing hook-shaped air bag Active CN109646094B (en)

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CN107049378B (en) 2019-03-22

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