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WO2016107158A1 - 一种桡动脉加压止血装置 - Google Patents

一种桡动脉加压止血装置 Download PDF

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Publication number
WO2016107158A1
WO2016107158A1 PCT/CN2015/085254 CN2015085254W WO2016107158A1 WO 2016107158 A1 WO2016107158 A1 WO 2016107158A1 CN 2015085254 W CN2015085254 W CN 2015085254W WO 2016107158 A1 WO2016107158 A1 WO 2016107158A1
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WIPO (PCT)
Prior art keywords
decompression
pressure
pressure plate
hemostatic
arm
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Application number
PCT/CN2015/085254
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English (en)
French (fr)
Inventor
张磊
付涛
孙云
吴刚
孙耀华
Original Assignee
武汉奥绿新生物科技有限公司
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Publication of WO2016107158A1 publication Critical patent/WO2016107158A1/zh

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/12Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/12Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord
    • A61B17/132Tourniquets
    • A61B17/1322Tourniquets comprising a flexible encircling member
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/12Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord
    • A61B17/12009Implements for ligaturing other than by clamps or clips, e.g. using a loop with a slip knot
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/12Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord
    • A61B2017/12004Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord for haemostasis, for prevention of bleeding
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/12Surgical instruments, devices or methods, e.g. tourniquets for ligaturing or otherwise compressing tubular parts of the body, e.g. blood vessels, umbilical cord
    • A61B17/12009Implements for ligaturing other than by clamps or clips, e.g. using a loop with a slip knot
    • A61B2017/12018Elastic band ligators

Definitions

  • the invention relates to a medical hemostat, in particular to a disposable compression hemostat acting on a radial artery, belonging to the technical field of medical instruments.
  • Interventional surgery is a routine treatment for medical departments such as cardiology and neurology.
  • the advantage of interventional surgery is that the doctor can enter the patient's body without using general anesthesia or without surgery.
  • the interventional diagnosis and treatment, especially the interventional surgery of the cardiology department is achieved through the patient's radial artery access.
  • the interventional procedure of the radial artery pathway has fewer complications, and the patient's bed rest activity is short.
  • the cost is low, but like other arterial puncture operations, complete hemostasis of the postoperative arteries is an important part of preventing bleeding at the puncture site after interventional surgery.
  • hemostasis at the radial artery puncture point is mainly controlled by manual hemostasis or mechanical compression equipment to stop bleeding. Manual hemostasis is manually pressed by a medical staff or applied with a bandage to stop bleeding.
  • the device generally inflates or pushes the air through the airbag or the knob, which can reduce the physical exertion of the medical staff and improve the hemostasis efficiency.
  • the oozing condition is more; the second is that the venous return is blocked due to the large pressing force of the arm, which causes the hand and the arm to swell and purple, which increases the patient's discomfort and panic.
  • the object of the present invention is to solve the deficiencies of the prior art and to provide a hemostatic device which has high hemostatic efficiency and can reduce the compression force of the arm.
  • the technical solution adopted for achieving the object of the present invention is an arm decompression type radial artery pressure hemostasis device, comprising a decompression unit and a hemostasis unit, the decompression unit including a decompression support plate and two or more fixed on the decompression support plate
  • the upper fixed strap, the decompression support plate has a long strip shape, the shape of the upper surface coincides with the anatomical structure of the back of the arm forearm, and the middle portion of the upper surface is provided with a support ridge along the long side, and the sides of the support ridge are provided with the tibia and
  • the ulnar shape is matched with a concave structure, the decompression support plate is curved downward along the long side and has a curved shape, and the fixing belt is located on the same long side of the decompression support plate;
  • the hemostasis unit comprises a pressure plate and a connecting belt connected to both ends of the pressure plate a nut fixed to the outer side of the pressure
  • the pressing plate has an elongated shape, and the portions of the pressing plate on both sides of the screw form two side wings, the lengths of the two side wings are not equal, and the flexible fixing pad is fixed on the lower surface of the long side wing.
  • the pressure plate is curved downward along the long side, and the ends of the two side flaps of the pressure plate are provided with holes.
  • One end of the connecting belt is fixed in one of the holes, and the other end is a fastening tape, and the fastening tape passes through The other has a hole and is stuck.
  • the pressure plate is provided with a hand-held seat, the hand-held seat is located between the nut and the pressure plate, the hand-held seat is in the shape of a truncated cone and is a hollow structure, and two opposite bus bars of the round-table hand-held seat are provided with anti-slip protrusions.
  • a connecting sleeve is arranged between the pressure plate and the screw, and the connecting sleeve has a hollow cylindrical shape, and the connecting sleeve is connected with the screw through the buckle, and the screw is fixed in the pressing plate and the hand seat through the connecting sleeve.
  • the decompression support plate is curved upward along the broad side and has an arc shape which coincides with the arc shape on the back side of the forearm of the arm.
  • the fixing belt is provided with two fixing strips at two ends of the same long side of the decompression supporting plate, and the other long side of the decompression supporting plate is provided with two hole buckles opposite to the fixing belt position, the fixing belt There are more than 2 button holes matching the hole buckles.
  • the compression pad and the flexible fixing pad are both silicone pads.
  • the adjustable screw can provide continuous and adjustable pressure for the puncture point, thereby achieving compression and hemostasis.
  • the inner side of the pressure plate is provided with a flexible fixing pad for assisting the supporting screw to increase the hemostatic unit and
  • the contact area of the wrist increases the stability of the hemostasis unit, and the hand-held seat on the pressure plate can fix the hemostasis unit when extubating or compressing the hemostasis, thereby preventing the misalignment of the hemostasis unit and causing the pressure pad to be misaligned;
  • the hemostatic dressing layer is prepared by the related patent CN201210545888.8. When the hemostasis is pressed, the dressing layer directly contacts the puncture mouth, and the compression pad of the composite hemostatic dressing layer can better close the wound and the puncture channel, and reduce the bleeding of the exudate and puncture point. Occurrence probability
  • the two concave structures of the decompression support plate can adapt to the humerus and ulna of the forearm back, avoiding the compression of the hard bone structure and the accompanying vein.
  • the support ridge can contact the soft tissue of the back of the arm to provide support strength.
  • the structure can better adapt to the anatomy of the back of the forearm, and the decompression support plate is curved upward along the wide side, and the arc is matched with the arc of the back of the forearm of the arm, so that the decompression support plate can be fixed on the forearm of the arm, so that The decompression support plate and the forearm are effectively adhered, and the decompression support plate has a large contact area with the forearm back, which can significantly disperse the compression force, thereby reducing the pressure of the hemostatic device on the vein, and does not affect the blood return; the decompression support plate has better The curvature curve can be fixed to the patient's wrist before surgery to provide a better surgical posture and expose the location of the arterial vessel.
  • FIG. 1 is a schematic structural view of a hemostatic device provided by the present invention.
  • Figure 2 is a schematic view showing the structure of a blood unit.
  • Figure 3 is a partial cross-sectional view of the blood unit.
  • FIG. 4 is a schematic structural view of a decompression unit.
  • Fig. 5 is a front view of the decompression unit.
  • the arm decompression type radial artery pressure hemostasis device has the structure shown in FIG. 1, FIG. 2, FIG. 3, FIG. 4 and FIG. 5, and the decompression unit includes a decompression support plate 5 and two or more fixed at
  • the fixing belt 7 on the decompression support plate has a strip shape, and the shape of the upper surface coincides with the anatomical structure of the back of the arm forearm.
  • the middle portion of the upper surface is provided with a support ridge 52 along the long side, and two supporting ridges.
  • the side is provided with a concave structure 51 matching the shape of the tibia and the ulna.
  • the decompression support plate is curved downward along the long side and has an arc shape.
  • the decompression support plate is curved upward along the wide side, and is curved and curved on the back of the forearm of the arm.
  • the arc shape is matched, and the fixing belt 7 is provided with two fixed belts at two ends of the same long side of the decompression support plate, and the other long side of the decompression support plate is provided with two positions opposite to the fixing belt.
  • the hole buckle 6 is provided with two or more fastening holes 71 matched with the hole buckles;
  • the hemostasis unit comprises a pressure plate 9, a connecting belt 4 connected to both ends of the pressure plate, and a nut 2 fixed on the outer side surface of the pressure plate a screw 1 that passes through the pressure plate and is screwed to the nut, and is fixed to the bottom surface of the screw
  • the compression pad 3, the compression pad 3 is located below the pressure plate 9, and the bottom surface of the compression pad is provided with a hemostatic dressing layer 8, and the hemostatic dressing layer is bonded or welded to the bottom surface of the compression pad by the adhesive, and the hemostasis unit is sleeved by the pressure plate and the connecting tape.
  • the pressure plate On the decompression support plate, the pressure plate is located above the decompression support plate, the fixing band is located on both sides of the hemostatic unit, the hand plate 11 is provided on the pressure plate, and the hand seat 11 is located between the nut 2 and the pressure plate 9, and the hand seat is in the shape of a truncated cone.
  • two opposite bus bars of the circular table-shaped hand-held seat are provided with anti-slip protrusions 111, and a connecting sleeve 12 is arranged between the pressing plate and the screw, the connecting sleeve is in the shape of a hollow cylinder, and the connecting sleeve 12 passes through the buckle and the screw 1 is connected, the screw is fixed in the pressing plate 9 and the hand-held seat 11 through the connecting sleeve, the pressing plate is elongated, the pressing plate is curved downward along the long side and curved, and the pressing plate is located at two sides of the screw to form two side wings, the pressing plate The lengths of the two side flaps are not equal.
  • the lower surface of the long side flap is provided with a flexible fixing pad 10 for assisting the supporting screw.
  • the flexible fixing pad 10 has a column shape, and the pressing pad and the flexible fixing pad are both silicone pads, and the two sides of the pressing plate Apertured end portion 91 has one end connected with a hole in which is fixed, the other end 41 of Velcro, Velcro and cement through the other hole.
  • the clinical use of the hemostatic device is that the decompression support plate is fixed on the back surface of the patient's forearm before surgery, and the position of the decompression support plate is adjusted so that the support ridge of the decompression support plate is located on the tibia and Between the ulnar, the fixing strap is fixed on the hole buckle through the buttonhole buckle. Since the decompression support plate is a curved plate, the wrist of the patient is bent to expose the position of the artery; when the operation is completed, the hemostasis unit is placed on the forearm. Adjust the tightness of the connecting belt, the position of the pressing pad is aligned with the puncture mouth, and screw the screw so that the hemostatic dressing layer is in close contact with the puncture mouth. After a period of time, the screw is rotated outward to reduce the pressure of the compression pad against the puncture mouth, and stop bleeding. Remove the hemostatic device after completion.

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Abstract

一种桡动脉加压压迫止血装置,包括减压单元和止血单元,减压单元包括减压支撑板(5)和固定带(7),减压支撑板(5)呈长条状,上表面的形状与手臂前臂背面的解剖结构相吻合,减压支撑板(5)沿长边向下弯曲呈弧形,固定带(7)位于减压支撑板(5)同一长侧边;所述止血单元包括压板(9)、连接带(4)、螺母(2)、螺杆(1)和压迫垫(3),止血单元通过压板(9)和连接带(4)套设在减压支撑板(5)上,压板(9)位于螺杆(1)两侧的部分形成两个侧翼,其中一个侧翼的下表面上设有用于辅助支撑螺杆(1)的柔性固定垫(10),压迫垫(3)的底面上设有止血敷料;该止血装置止血效果好,固定牢固,可分散止血部位所受压迫力,减少止血装置对静脉的压迫,保证血液流通顺畅。

Description

[根据细则26改正21.09.2015] 一种桡动脉加压压迫止血装置 技术领域
本发明涉及一种医疗止血器,具体涉及一种作用于桡动脉的一次性压迫止血器,属于医疗器械技术领域。
背景技术
介入手术已经是心脏内科、神经内科等医疗科室的常规治疗手段,介入手术的优点在于医生可在不使用全身麻醉剂或不需要开刀手术的情况下进入患者身体内进行治疗。通常情况下,介入诊断和治疗的手术,尤其是心脏内科的介入手术,是通过患者的桡动脉通路来实现的,桡动脉通路的介入手术具有并发症少、患者卧床限制活动是时间短,治疗费用低等优点,但同其它的动脉穿刺的手术一样,术后的动脉完全止血是介入手术后防止穿刺点出血的重要一环。
通常介入手术完成,导管去除后,由医生或医疗专业人员在动脉导管穿刺点处施加压力以实现止血和动脉穿刺点的闭合,止血和动脉穿刺点闭合需要持续稳定的压力,一般初期给予的压力较高,经过一段时间后,需要逐渐降低压力,使血管下游组织得到丰富的血供。目前桡动脉穿刺点止血主要通过人工止血或机械加压设备加压止血,人工止血通过医护人员手工按压或施加绷带加压止血,此种方法极耗费医护人员体力和时间;现有的机械加压设备一般通过气囊或者旋钮进行充气或者推进加压,可以减轻医护人员的体力消耗,提高止血效率,但该类设备存在2个显著问题,一是止血效果较差,止血成功率没有人工止血高,渗血情况较多;二是由于手臂受到较大的压迫力使得静脉回流受阻,从而导致手部以及手臂肿胀、发紫,增加了患者的不适与恐慌感。
发明内容
本发明的目的在于解决现有技术的不足,并提供一种止血效率高并且可减轻手臂所受压迫力的止血装置。
实现本发明目的所采用的技术方案为,一种手臂减压型桡动脉加压止血装置,包括减压单元和止血单元,减压单元包括减压支撑板和2条以上固定在减压支撑板上的固定带,减压支撑板呈长条状,上表面的形状与手臂前臂背面的解剖结构相吻合,上表面的中部沿长边设有支撑脊,支撑脊的两侧设有与桡骨和尺骨形状相匹配的凹形结构,减压支撑板沿长边向下弯曲呈弧形,固定带位于减压支撑板同一长侧边;所述止血单元包括压板,与压板两端连接的连接带,固定在压板外侧面上的螺母,穿过压板并且与螺母螺纹连接的螺杆,以及固定在 螺杆底面上的压迫垫,压迫垫位于压板下方,压迫垫的底面上设有止血敷料层,止血单元通过压板和连接带套设在减压支撑板上,压板位于减压支撑板的上方,固定带位于止血单元的两侧,压板的下表面上设有下表面上设有柱状的柔性固定垫。
所述压板呈长条状,压板位于螺杆两侧的部分形成两个侧翼,两个侧翼的长度不相等,柔性固定垫固定在长侧翼的下表面上。
所述压板沿长边向下弯曲呈弧形,压板两个侧翼的端部均设有带孔,连接带的一端固定在其中一个带孔中,另一端为粘扣带,粘扣带穿过另一个带孔并且粘固。
所述压板上设有手持座,手持座位于螺母与压板之间,手持座呈圆台状并且为中空结构,圆台状手持座的两条相对的母线处设有防滑凸起。
压板与螺杆之间设有连接套,连接套呈中空圆筒状,连接套通过卡扣与螺杆连接,螺杆通过连接套固定在压板和手持座中。
所述减压支撑板沿宽边向上弯曲呈弧形,弧形与手臂前臂背面的弧形相吻合。
所述固定带设有两条,两条固定带位于减压支撑板同一长边的两端,减压支撑板的另一长边上设有两个与固定带位置相对的孔扣,固定带上开设有2个以上与孔扣相匹配的扣孔。
所述压迫垫与柔性固定垫均为硅胶垫。
与现有技术相比,本发明的有益效果为:
1、止血单元固定在手腕上后,通过调节螺杆可为穿刺点提供连续、可调的压力,从而实现压迫止血,压板内侧面上设有用于辅助支撑螺杆的柔性固定垫,增大止血单元与手腕的接触面积,增加止血单元的稳定性,压板上的手持座可在拔管或压迫止血时固定止血单元,防止误碰止血单元造成压迫垫错位;
2、止血敷料层料通过关联专利CN201210545888.8制备而成,压迫止血时敷料层直接接触穿刺口,复合止血敷料层的压迫垫能够更好的封闭创口与穿刺通道,减少渗液和穿刺点出血的发生几率;
3、减压支撑板的两个凹形结构可适应前臂背部的桡骨和尺骨,避免对较硬的骨结构以及伴行的静脉产生压迫,支撑脊可接触手臂背部的软组织,提供支撑力度,以上结构可更好的适应前臂背部的解剖结构,减压支撑板沿宽边向上弯曲呈弧形,弧形与手臂前臂背面的弧形相吻合,便于将减压支撑板固定在手臂前臂上,使减压支撑板与前臂有效贴合,减压支撑板与前臂背部有较大接触面积,可以显著分散压迫力,从而减少止血装置对静脉的压迫,不影响血液回流;减压支撑板具有较好的弧度曲线,可以在手术前固定于病人手腕部,从而提供较好的手术姿势,暴露动脉血管位置。
附图说明
图1为本发明提供的止血装置的结构示意图。
图2为止血单元的结构示意图。
图3为止血单元的局部剖视图。
图4为减压单元的结构示意图。
图5为减压单元的主视图。
其中,1-螺杆,2-螺母,3-压迫垫,4-连接带,41-粘扣带,5-减压支撑板,51-凹形结构,52-支撑脊,6-孔扣,7-固定带,71-扣孔,8-止血敷料层,9-压板,91-带孔,10-柔性固定垫,11-手持座,111-防滑凸起,12-连接套。
具体实施方式
下面结合附图和实施例对本发明进行详细具体说明。
本发明提供的手臂减压型桡动脉加压止血装置,其结构如图1、图2、图3、图4和图5所示,减压单元包括减压支撑板5和2条以上固定在减压支撑板上的固定带7,减压支撑板呈长条状,上表面的形状与手臂前臂背面的解剖结构相吻合,上表面的中部沿长边设有支撑脊52,支撑脊的两侧设有与桡骨和尺骨形状相匹配的凹形结构51,减压支撑板沿长边向下弯曲呈弧形,减压支撑板沿宽边向上弯曲呈弧形,弧形与手臂前臂背面的弧形相吻合,所述固定带7设有两条,两条固定带位于减压支撑板同一长边的两端,减压支撑板的另一长边上设有两个与固定带位置相对的孔扣6,固定带上开设有2个以上与孔扣相匹配的扣孔71;所述止血单元包括压板9,与压板两端连接的连接带4,固定在压板外侧面上的螺母2,穿过压板并且与螺母螺纹连接的螺杆1,以及固定在螺杆底面上的压迫垫3,压迫垫3位于压板9下方,压迫垫的底面上设有止血敷料层8,止血敷料层通过粘胶粘结或熔接在压迫垫的底面上,止血单元通过压板和连接带套设在减压支撑板上,压板位于减压支撑板的上方,固定带位于止血单元的两侧,压板上设有手持座11,手持座11位于螺母2与压板9之间,手持座呈圆台状并且为中空结构,圆台状手持座的两条相对的母线处设有防滑凸起111,压板与螺杆之间设有连接套12,连接套呈中空圆筒状,连接套12通过卡扣与螺杆1连接,螺杆通过连接套固定在压板9和手持座11中,所述压板呈长条状,压板沿长边向下弯曲呈弧形,压板位于螺杆两侧的部分形成两个侧翼,压板的两个侧翼的长度不相等,长侧翼的下表面上设有用于辅助支撑螺杆的柔性固定垫10,柔性固定垫10呈柱状,压迫垫与柔性固定垫均为硅胶垫,所述压板两个侧翼的端部均设有带孔91,连接带的一端固定在其中一个带孔中,另一端为粘扣带41,粘扣带穿过另一个带孔并且粘固。
本发明提供的止血装置在临床上的较佳使用方式为,手术前将减压支撑板固定在患者前臂的背面上,调整减压支撑板的位置,使得减压支撑板的支撑脊位于桡骨与尺骨之间,将固定带通过扣孔扣设在孔扣上固定,由于减压支撑板为弧形板,便于患者的手腕弯曲向上暴露动脉血管位置;手术完成后,将止血单元套在前臂,调整连接带的松紧程度上,压迫垫的位置对准穿刺口,旋进螺杆使得止血敷料层与穿刺口紧密接触,一段时间后,向外旋转螺杆,减小压迫垫对穿刺口的压力,止血完成后取下止血装置。

Claims (8)

  1. 一种手臂减压型桡动脉加压止血装置,其特征在于:包括减压单元和止血单元,减压单元包括减压支撑板和2条以上固定在减压支撑板上的固定带,减压支撑板呈长条状,上表面的形状与手臂前臂背面的解剖结构相吻合,上表面的中部沿长边设有支撑脊,支撑脊的两侧设有与桡骨和尺骨形状相匹配的凹形结构,减压支撑板沿长边向下弯曲呈弧形,固定带位于减压支撑板同一长侧边;所述止血单元包括压板,与压板两端连接的连接带,固定在压板外侧面上的螺母,穿过压板并且与螺母螺纹连接的螺杆,以及固定在螺杆底面上的压迫垫,压迫垫位于压板下方,压迫垫的底面上设有止血敷料层,止血单元通过压板和连接带套设在减压支撑板上,压板位于减压支撑板的上方,固定带位于止血单元的两侧,压板的下表面上设有下表面上设有柱状的柔性固定垫。
  2. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于:所述压板呈长条状,压板位于螺杆两侧的部分形成两个侧翼,两个侧翼的长度不相等,柔性固定垫固定在长侧翼的下表面上。
  3. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于:所述压板沿长边向下弯曲呈弧形,压板两个侧翼的端部均设有带孔,连接带的一端固定在其中一个带孔中,另一端为粘扣带,粘扣带穿过另一个带孔并且粘固。
  4. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于:所述压板上设有手持座,手持座位于螺母与压板之间,手持座呈圆台状并且为中空结构,圆台状手持座的两条相对的母线处设有防滑凸起。
  5. 根据权利要求4所述的手臂减压型桡动脉加压止血装置,其特征在于:压板与螺杆之间设有连接套,连接套呈中空圆筒状,连接套通过卡扣与螺杆连接,螺杆通过连接套固定在压板和手持座中。
  6. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于:所述减压支撑板沿宽边向上弯曲呈弧形,弧形与手臂前臂背面的弧形相吻合。
  7. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于:所述固定带设有两条,两条固定带位于减压支撑板同一长边的两端,减压支撑板的另一长边上设有两个与固定带位置相对的孔扣,固定带上开设有2个以上与孔扣相匹配的扣孔。
  8. 根据权利要求1所述的手臂减压型桡动脉加压止血装置,其特征在于: 所述压迫垫与柔性固定垫均为硅胶垫。
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CN113262011A (zh) * 2021-05-28 2021-08-17 中国人民解放军总医院第一医学中心 一种肱动脉止血方法及止血装置
CN113440201A (zh) * 2020-12-30 2021-09-28 孙建丽 一种心内科护理用按压止血装置
CN114569188A (zh) * 2022-03-10 2022-06-03 郑州大学第一附属医院 一种用于辅助进行血液净化的护理装置
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CN106725704B (zh) * 2016-11-29 2023-03-17 洛阳市中心医院 一种桡动脉压迫止血器
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CN113440201A (zh) * 2020-12-30 2021-09-28 孙建丽 一种心内科护理用按压止血装置
CN113262011A (zh) * 2021-05-28 2021-08-17 中国人民解放军总医院第一医学中心 一种肱动脉止血方法及止血装置
CN113262011B (zh) * 2021-05-28 2023-09-12 中国人民解放军总医院第一医学中心 一种止血装置
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