CN112972827A

CN112972827A - Traction closing impact liquid injection monitor for hemostasis

Info

Publication number: CN112972827A
Application number: CN202110051244.2A
Authority: CN
Inventors: 阮仕荣
Original assignee: 81st Army Hospital Of Chinese Pla
Current assignee: 81st Army Hospital Of Chinese Pla
Priority date: 2021-01-14
Filing date: 2021-01-14
Publication date: 2021-06-18
Anticipated expiration: 2041-01-14
Also published as: CN112972827B

Abstract

A draw-close impact liquid injection monitor for hemostasis comprises a draw-close liquid injector, an impact liquid injection and drainage monitor and an accessory component; when the puncture drainage device is used, the impact injection and drainage monitor is inserted into a wound, and a puncture drainage needle A of a sliding block A and a puncture drainage needle B of a sliding block B of the closed injector are pulled to be respectively inserted into skins at two sides of the wound to draw the wound closed; liquid in the liquid storage bag is driven by a peristaltic pump and passes through a silicone tube) to be quickly injected into tissues around the wound and the wound through a liquid separator, a puncture needle liquid injection tube of a traction closed liquid injector and an impact liquid injection tube of an impact liquid injection and drainage monitor, so that high tissue pressure is quickly established, and the ruptured artery is sealed to achieve the aim of hemostasis; the impact injection and drainage monitor is provided with an endoscope insertion opening, and a drainage pipe of the impact injection and drainage monitor is connected with a pressure-regulating drainage valve and a pressure sensor, so that fluid is changed under the ensured pressure to observe the movable bleeding condition.

Description

Traction closing impact liquid injection monitor for hemostasis

Technical Field

The present invention relates to a traction, closing and impact liquid injection monitor for hemostasis. Belongs to the field of medical appliances. Is a novel product of the invention patent 2015103196070 wound anesthesia hemostasis injector.

Background

The inventor proposes a trauma anesthesia hemostasis injector with an authorized patent number of 2015103196070 at 2015.06.12, creates a brand-new hemostasis technology, overcomes the defects that the distal limb of the conventional tourniquet is necrotic, cannot relieve pain and even aggravates, and can solve the hemostasis problem of the trunk trauma.

The invention patent 2015103196070 provides two designs of parallel penetration of a straight needle through the surrounding skin around a wound path and oblique penetration to the side wall through the wound path; in the patent implementation research, aiming at each injection point, the continuous high-pressure state of the tissue can be only ensured to be maintained within the range of 2cm of radius, and the blind puncture rescue is realized in battlefield and peacetime scene rescue; d, E new type liquid injectors and matched liquid dispensers and single chip microcomputer modules are added in a new invention application (application number 201910508196.8) which is submitted in 2019, 6, 13 and theoretically, the quantity of puncture needles of the liquid injectors is enough to ensure that tissue liquid injection pressurization is carried out on the wall of the whole wound and any broken blood vessel which may exist is sealed; in subsequent animal trial validation: in the soft tissue consisting of skin, fascia and muscle aponeurosis, except for the rapid injection of the liquid by acupuncture, the wound needs to be closed so as to ensure that the local part quickly reaches the high tissue pressure required by the closure of the ruptured blood vessel; when the abdominal cavity internal organ trauma bleeding is cured, the high pressure in the tissue required for sealing the broken blood vessel is difficult to achieve by the acupuncture injection from the liver wound due to the lack of the dense connective tissue of the liver, and the high pressure compression hemostasis purpose in the tissue is difficult to achieve due to the complete lack of the soft tissue wrapping on the surface of the mesenteric blood vessel of the abdominal cavity.

Therefore, the invention newly designs a traction closed impact liquid injection monitor for hemostasis, which comprises a traction closed liquid injector and an impact liquid injection and drainage monitor; the traction closed liquid injector is characterized in that rows of puncture liquid injection needles are obliquely arranged on two sliding blocks respectively, the tail of the puncture needle is connected with a puncture needle liquid injection pipe, a guide rail hole is arranged at the corresponding position of each sliding block, a U-shaped guide rail can penetrate through the guide rail holes on the sliding blocks, side holes are arranged on double forks of the U-shaped guide rail at equal intervals, a fixing bolt penetrates through the side holes, so that the distance between the two sliding blocks is fixed, a screw hole is arranged on a cross beam of the U-shaped guide rail, a quincunx hand screw bolt is inserted into; the impact injection (replacement) monitor is in a shuttle shape, the interior of the impact injection (replacement) monitor is divided into an impact injection monitoring cavity and a liquid discharge cavity, the side pipe of the impact injection monitoring cavity is connected with an impact injection pipe for impact injection, and the top of the impact injection monitoring cavity can be inserted into an endoscope through a switch to monitor the bleeding condition; the latter side pipe is connected with a liquid-discharging side pressing pipe; the impact injection tube and the puncture needle injection tube are connected in parallel with a peristaltic pump tube, and the pump tube is connected with the liquid storage bag.

When in use, the impact liquid injection and drainage monitor is inserted into the wound channel; the puncture injection needle on two sliders respectively pierces the skin on two sides of the wound, the U-shaped guide rail is inserted into the guide rail holes of the two sliders, the two sliders are pushed to be close to each other, the fixing bolt penetrates through the side hole which is inserted into the U-shaped guide rail double fork and is next to the slider, the bolt is twisted by rotating the plum blossom hand to further close the two sliders, the skin on two sides of the wound is drawn to be closed by the puncture injection needle which pierces the skin, the injection pump is started, liquid is rapidly injected from the puncture injection needle and the impact injection tube, high-pressure swelling of surrounding soft tissues and high-hydraulic state of the wound are rapidly formed, ruptured blood vessels are rapidly sealed, and the purpose of rapid hemostasis is achieved.

Under the support of military scientific research foundation 'research and application of novel battlefield anesthesia hemostasis device', animal experiments carried out by the inventor on 12 miniature pigs show that the device can rapidly stop bleeding on ruptured femoral artery, and the aim of stopping bleeding on liver rupture bleeding wound surface and artificial high-pressure liquid abdomen is effectively achieved. Through more intensive research, the invention is expected to save the lives of patients with severe hemorrhage on the spot in battle fields and peace periods.

Disclosure of Invention

The invention relates to a traction closed impact liquid injection monitor for hemostasis, which belongs to the field of medical instruments, and compared with a wound anesthesia hemostasis liquid injector disclosed in the invention patent 2015103196070, the invention carries out the following innovation:

1. the puncture needles of the A-type injection device in the wound anesthesia hemostasis injection device disclosed in patent 2015103196070 are annularly arranged, the puncture injection needles on the two sliders are obliquely arranged in rows on the two sliders respectively, the puncture injection needles on the two sliders are respectively inserted into skins on two sides of a wound, the U-shaped guide rail is inserted into the guide rail holes of the two sliders, the two sliders are pushed to be close to each other, the fixing bolt penetrates through the side hole which is inserted into the U-shaped guide rail double fork and is next to the sliders, the quincunx hand screw bolt is rotated to further close the two sliders, and the skins on two sides of the wound are pulled to be close to each other by the puncture injection needles which penetrate into the;

2. the newly-added impact injection (replacement) monitor is fusiform in appearance, the interior of the monitor is divided into an impact injection monitoring cavity and a liquid discharge cavity, the side pipe of the monitor is connected with an impact injection pipe for impact injection, and the top of the monitor can be inserted into an endoscope through a switch to monitor bleeding; the side pipe of the latter is connected with a liquid drainage pipe; the impact injection tube and the puncture needle injection tube are connected in parallel with a peristaltic pump tube, and the pump tube is connected with the liquid storage bag. The impact injection tube and the puncture needle injection tube are connected in parallel with a peristaltic pump tube, and the pump tube is connected with the liquid storage bag. The priming pump is started, the self-puncturing priming needle and the impact priming tube rapidly inject liquid, high-pressure swelling of surrounding soft tissues and high hydraulic pressure state of wound tracts are rapidly formed, the ruptured blood vessel is rapidly sealed, and the purpose of rapid hemostasis is achieved.

Examples of the drawings

The invention is described in detail below with reference to the drawings and examples

FIG. 1 is a drawing of a monitor member for drawing, closing, impacting and injecting liquid for hemostasis

FIG. 2 is a view of the components of the accessory module

FIG. 3 is a view of the member of the pouring spout pulled closed

FIG. 4 is a schematic view of the operation of the pulling-closed liquid injector

FIG. 5 is a view of an impact flood/drain monitor component; FIG. 5A is a top cross-sectional view of an impact fluid injection and drainage monitor; FIG. 5B is a sectional view of the lower portion of the impact liquid injection and discharge monitor

FIG. 6 is a schematic diagram of the operation of the impact priming monitor

In the figure, a pressure regulating sensor of a liquid injection device 1.1 a slide block A1.1.1 a puncture needle discharging A1.1.2 a puncture needle discharging cavity A1.1.3 a puncture needle discharging tube A1.1.4 a guide rail hole A1.2 a slide block B1.2.1 a puncture needle discharging B1.2.2 a puncture needle discharging cavity B1.2.3 a puncture needle discharging tube B1.2.4 a guide rail hole B1.3U-shaped guide rail 1.3.1 a guide rail fork 1.3.2 a guide rail side hole 1.3.3.3 a guide rail beam 1.3.4 a screw 1.4 a fixed bolt 1.5 a bolt cap 1.6 a quincunx hand screwing 2 impacting liquid injection monitor 2.1 impacting liquid injection monitoring cavity 2.2 liquid discharging cavity 2.3 an endoscope inserting hole 2.4 a switch 2.4.1 inner core 2.4.2 a knob 2.4.3 a valve sleeve 2.5 impacting liquid injection tube 2.6 a liquid discharging tube 2.7 a liquid discharging hole 3 auxiliary component 3.1 liquid injection bag 3.2.2.3 an endoscope liquid discharging bag 3.3 pressure regulating valve 3.5 pressure regulating valve of a silicon hose 3.

Detailed Description

The invention is further described with reference to the drawings and examples.

As shown in figures 1 and 2, the monitor for drawing, closing and impacting liquid injection for hemostasis is divided into a drawing, closing and injecting device (1), an impacting liquid injection and drainage monitor (2) and an accessory component (3); wherein, the accessory components (3) comprise a liquid storage bag (3.1), a liquid injection pump (3.2), a silicone tube (3.3), a liquid separator (3.4), a pressure regulating liquid discharge valve (3.5), a pressure sensor (3.6) and an endoscope (3.7); when in use, the impact liquid injection and drainage monitor (2) is inserted from a wound, and the puncture needle set A (1.1.1) of the slide block A (1.1) and the puncture needle set B (1.2.1) of the slide block B (1.2) of the closed liquid injector (1) are pulled and inserted into the skin at the two sides of the wound respectively to draw the wound closed; the silicone tube (3.3) is connected with a puncture needle injection tube A (1.1.3) and a puncture needle injection tube B (1.2.3) of the traction closed injector (1) and an impact injection tube (2.5) of the impact injection and drainage monitor (2) through a liquid distributor (3.4), liquid in the liquid storage bag (3.1) is quickly injected into tissues around the wound and the wound, tissue high pressure is quickly established, and the ruptured artery is sealed to achieve the aim of hemostasis; the impact injection and drainage monitor (2) is provided with an endoscope insertion opening (2.3), a drainage pipe (2.6) of the impact injection and drainage monitor is connected with a pressure regulating drainage valve (3.5) and a pressure sensor (3.6), and fluid is changed under the condition of ensuring the pressure to observe the movable bleeding condition.

As shown in fig. 1, 3 and 4, the pulling closed liquid injector (1) consists of a slide block A (1.1), a slide block B (1.2), a U-shaped guide rail (1.3), a fixed bolt (1.4), a bolt cap (1.5) and a plum blossom hand screw (1.6); wherein, the side surfaces of the slide block A (1.1) and the slide block B (1.2) are trapezoidal, the bottom parts are respectively provided with a puncture needle arrangement A (1.1.1) and a puncture needle arrangement B (1.2.1), needle heads are inclined inwards and downwards, needle tails are respectively led to a puncture liquid injection tube cavity A (1.1.2) and a puncture liquid injection tube cavity B (1.2.2), and the latter are respectively connected with a puncture liquid injection tube A (1.1.3) and a puncture liquid injection tube B (1.2.3); the corresponding positions of the slide block A (1.1) and the slide block B (1.2) are provided with a pair of guide rail holes A (1.1.3) and a pair of guide rail holes B (1.2.3); guide rail side holes (1.3.2) are arranged on a guide rail fork (1.3.1) of a U-shaped guide rail assembly (1.3) at equal intervals, the guide rail fork (1.3.1) penetrates through a guide rail hole A (1.1) and a guide rail hole B (1.2.4) of a slide block B (1.2) respectively from a slide block A (1.1) and the slide block B (1.2), the slide block A (1.1) and the slide block B (1.2) move on the guide rail fork (1.3.1) to be close to or far away from each other, a fixed bolt (1.4) penetrates through the guide rail side holes (1.3.2) and is fixed by a bolt cap (1.5), a screw hole (1.3.6) is arranged in the center of a guide rail beam (1.3.5), a plum blossom hand screw (1.6) is screwed into the guide rail fork, and the distance between the slide block A (1.1; when the puncture needle set is used, the puncture needle set A (1.1.1) and the puncture needle set B (1.2.1) of the sliding block A (1.1) and the sliding block B (1.2) are arranged at positions 5mm-10mm away from the edge of a wound and pressed to penetrate into the subcutaneous space, then the sliding block A (1.1) and the sliding block B (1.2) are mutually close and fixed by the fixing bolt (1.4) and the bolt cap (1.5), and the plum blossom hand is rotated to screw the sliding block A (1.6) to enable skins at two sides of the wound to mutually and tightly approach and close the wound.

As shown in fig. 1, 5 and 6, the cross section of the impact liquid injection and drainage monitor (2) is in a shuttle shape, an impact liquid injection monitoring cavity (2.1) and a drainage tube cavity (2.2) are separated, the blind end at the upper end of the impact liquid injection monitoring cavity (2.1) is provided with an endoscope insertion hole (2.3), a switch (2.4) is arranged below the impact liquid injection monitoring cavity, an inner core (2.4.1) of the switch (2.4) rotates in a valve sleeve (2.4.3) along with a knob (2.4.2), a pore channel on the inner core (2.4.1) is opened and closed, and the side wall of the impact liquid injection monitoring cavity (2.1) leads to an impact liquid injection side tube (2.5); the side wall of the drainage tube cavity (2.2) leads to a drainage side tube (2.6), and the side wall of the drainage tube cavity (2.2) at the part which enters the skin is provided with a plurality of drainage holes (2.7); when the device is used, the impact liquid injection and drainage monitor (2) can be automatically pulled to close a gap between two sliding blocks of the liquid injector (1) and inserted into a wound, and the impact liquid injection side tube (2.5) injects liquid through the impact liquid injection monitoring cavity (2.1) in an impact way to quickly establish local high-pressure hemostasis; if need observe, then insert scope (3.7) and shutoff scope inserted hole (2.3), then open switch (2.4), insert scope (3.7) and assault notes liquid surveillance chamber (2.1), can pour into liquid side pipe (2.5) injection liquid from assaulting this moment, can be simultaneously from flowing back side pipe (2.6) discharge liquid, reach and change the bloody liquid into transparent clear liquid, the scope of being convenient for observes the bloody spot condition, and guide the operation hemostasis.

Claims

1. A traction, closing, impact and liquid injection monitor for hemostasis is characterized in that: the liquid injecting and discharging device comprises a pulling and closing liquid injector (1), an impact liquid injecting and discharging monitor (2) and an accessory component (3); wherein, the accessory components (3) comprise a liquid storage bag (3.1), a liquid injection pump (3.2), a silicone tube (3.3), a liquid separator (3.4), a pressure regulating liquid discharge valve (3.5), a pressure sensor (3.6) and an endoscope (3.7); the silicone tube (3.3) is connected with a puncture needle injection tube A (1.1.3) and a puncture needle injection tube B (1.2.3) of the traction closed injector (1) and an impact injection tube (2.5) of the impact injection and drainage monitor (2) through a liquid separator (3.4); a liquid discharge pipe (2.6) of the impact liquid injection and discharge monitor (2) is connected with a pressure regulating liquid discharge valve (3.5) and a pressure sensor (3.6); when in use, the impact liquid injection and drainage monitor (2) is inserted from a wound, and the puncture needle set A (1.1.1) of the slide block A (1.1) and the puncture needle set B (1.2.1) of the slide block B (1.2) of the closed liquid injector (1) are pulled and inserted into the skin at the two sides of the wound respectively to draw the wound closed; the silicone tube (3.3) is connected with a puncture needle injection tube A (1.1.3) and a puncture needle injection tube B (1.2.3) of the traction closed injector (1) and an impact injection tube (2.5) of the impact injection and drainage monitor (2) through a liquid distributor (3.4), liquid in the liquid storage bag (3.1) is quickly injected into tissues around the wound and the wound, tissue high pressure is quickly established, and the ruptured artery is sealed to achieve the aim of hemostasis; the impact injection and drainage monitor (2) is provided with an endoscope insertion opening (2.3), a drainage pipe (2.6) of the impact injection and drainage monitor is connected with a pressure regulating drainage valve (3.5) and a pressure sensor (3.6), and fluid is changed under the condition of ensuring the pressure to observe the movable bleeding condition.

2. A pull-close impact infusion monitor for hemostasis as claimed in claim 1, wherein: the traction closed liquid injector (1) consists of a slide block A (1.1), a slide block B (1.2), a U-shaped guide rail (1.3), a fixed bolt (1.4), a bolt cap (1.5) and a plum blossom hand screw (1.6); wherein, the side surfaces of the slide block A (1.1) and the slide block B (1.2) are trapezoidal, the bottom parts are respectively provided with a puncture needle arrangement A (1.1.1) and a puncture needle arrangement B (1.2.1), needle heads are uniformly inclined inwards and downwards, needle tails respectively lead to a puncture liquid injection tube cavity A (1.1.2) and a puncture liquid injection tube cavity B (1.2.2), and the latter are respectively connected with a puncture liquid injection tube A (1.1.3) and a puncture liquid injection tube B (1.2.3); the corresponding positions of the slide block A (1.1) and the slide block B (1.2) are provided with a pair of guide rail holes A (1.1.3) and a pair of guide rail holes B (1.2.3); guide rail side holes (1.3.2) are arranged on a guide rail fork (1.3.1) of a U-shaped guide rail (1.3) at equal intervals, the guide rail fork (1.3.1) penetrates through guide rail holes A (1.1.4) and B (1.2.4) of a slider A (1.1) and a slider B (1.2) respectively, the slider A (1.1) and the slider B (1.2) move on the guide rail fork (1.3.1) to be close to or away from each other, a fixed bolt (1.4) penetrates through the guide rail side holes (1.3.2) and is fixed by a bolt cap (1.5), a screw hole (1.3.6) is arranged in the center of a guide rail cross beam (1.3.5), a plum blossom hand screw (1.6) is screwed into the guide rail cross beam, and the distance between the slider A (1.1) and the slider B (1.2) is finely adjusted.

3. A pull-close impact infusion monitor for hemostasis as claimed in claim 1, wherein: the section of the impact liquid injection and drainage monitor (2) is in a shuttle shape, an impact liquid injection monitoring cavity (2.1) and a drainage tube cavity (2.2) are separated, an endoscope inserting hole (2.3) is formed in the blind end of the upper end of the impact liquid injection monitoring cavity (2.1), a switch (2.4) is arranged below the impact liquid injection monitoring cavity, an inner core (2.4.1) of the switch (2.4) rotates in a valve sleeve (2.4.3) along with a knob (2.4.2), a pore channel on the inner core (2.4.1) is opened and closed, and the side wall of the impact liquid injection monitoring cavity (2.1) is communicated with an impact liquid injection side tube (2.5); the side wall of the drainage tube cavity (2.2) leads to a drainage side tube (2.6), and the side wall of the drainage tube cavity (2.2) at the part which enters the skin is provided with a plurality of drainage holes (2.7); when in use, the self-impact liquid injection side tube (2.5) injects liquid through the impact liquid injection monitoring cavity (2.1) to quickly establish local high-pressure hemostasis; if need observe, then insert scope (3.7) and shutoff scope inserted hole (2.3), then open switch (2.4), insert scope (3.7) and assault notes liquid surveillance chamber (2.1), can pour into liquid side pipe (2.5) injection liquid from assaulting this moment, can be simultaneously from flowing back side pipe (2.6) discharge liquid, reach and change the bloody liquid into transparent clear liquid, the scope of being convenient for observes the bloody spot condition, and guide the operation hemostasis.