CN111493966A

CN111493966A - Hemostasis compressor for continuously and constantly pressurizing puncture part for cardiology department

Info

Publication number: CN111493966A
Application number: CN202010353870.2A
Authority: CN
Inventors: 温澄非; 刘淑梅; 孙世娟
Original assignee: Jilin University
Current assignee: Jilin University
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2020-08-07
Anticipated expiration: 2040-04-29
Also published as: CN111493966B

Abstract

The invention discloses a hemostatic compressor for cardiology department for continuously and constantly pressurizing a puncture part, which comprises a compression plate, wherein a bandage is fixedly connected to the side surface of the compression plate, a ratchet wheel is arranged inside the compression plate, a cam is arranged inside the ratchet wheel, a guide rod is rotatably connected to the surface of a rotary disc, a trigger rod is rotatably connected to the surface of the rotary disc and the other side of the guide rod, a rotating rod is rotatably connected to the inside of a timing disc, a deflection rod is rotatably connected to the surface of the timing disc, one end, far away from the timing disc, of the deflection rod is rotatably connected with a contraction rod, a linkage rod is rotatably connected to the deflection rod, close to the timing disc, the other end of the linkage rod is rotatably connected with a clamping rod, and the pair of puncture part continuously and constantly pressurizing hemostatic compressor for cardiology department is used by matching a ratchet rod and a hose, so that the extrusion force of the compressor on the puncture part is, prevent the blood coagulation puncture from breaking.

Description

Hemostasis compressor for continuously and constantly pressurizing puncture part for cardiology department

Technical Field

The invention relates to the technical field of medical treatment, in particular to a hemostasis compressor for continuously and constantly pressurizing a puncture part in cardiology.

Background

Femoral artery hemostasis by compression ware is that femoral artery hemostasis by compression ware is the hemostasis device who is applied to blood vessel intervention postoperative, and it mainly oppresses femoral artery puncture position from external through mechanical compressive force, promotes the healing of stanching of puncture, needs certain oppression time, and because its easy and simple to handle of femoral artery hemostasis by compression ware, the security is high, no foreign object implants, advantages such as postoperative easy recovery are by wide use.

Present hemostasis compressor pressurizes puncture department through using gasbag or sand bag etc. and, and measure hemostasis compressor performance be exactly whether stable to puncture department's extrusion force, present compressor can guarantee to puncture the stable extrusion force of department when the patient is static, but when the patient motion or the mood of appearing fluctuates, the patient heart beats with higher speed and aggravates, lead to puncture department's vascular blood pressure grow, if the irrespectively reduce the compressor to puncture the extrusion force of department, the puncture mouth that probably causes the blood coagulation appears breaking, hinder patient's recovery process.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a hemostasis compressor for continuously and constantly pressurizing a puncture part for cardiology, which has the advantages of adjusting the compression force of the compressor on the puncture part when the blood pressure of a blood vessel becomes large, preventing the puncture port of blood coagulation from cracking and the like, and solves the problem that the existing compressor cannot adjust the compression force of the compressor on the puncture part when the blood pressure of the blood vessel becomes large, and preventing the puncture port of blood coagulation from cracking.

(II) technical scheme

In order to realize the purpose of adjusting the extrusion force of the compressor on the puncture part when the blood pressure of the blood vessel is increased and preventing the puncture port of the blood coagulation from being broken, the invention provides the following technical scheme: a hemostasis compressor for continuously and constantly pressurizing a puncture part for department of cardiology comprises a compression plate, wherein a bandage is fixedly connected to the side face of the compression plate, a ratchet wheel is arranged inside the compression plate, a cam is arranged inside the ratchet wheel, a bearing rod is arranged at the bottom of the cam, a contact plate is fixedly connected to the bottom of the bearing rod, an extrusion spring is fixedly connected to the top of the contact plate, a ratchet rod is connected to the surface of the ratchet wheel in a meshed mode, a hose is slidably connected to the left side of the ratchet rod, an induction ring is fixedly connected to one side, away from the compression plate, of the hose, a transition gas ring is arranged inside the induction ring, a pulse rod is arranged on the inner wall of the transition gas ring in an inserting mode, a limiting block is slidably connected to the side face of the pulse rod, a rotary table is arranged inside the limiting block, a guide rod is rotatably connected to the surface, a fixed ring is arranged in the transition gas ring, a fixed balloon is arranged on the surface of the fixed ring, a timing disc is arranged in the fixed balloon, a rotating rod is rotatably connected in the timing disc, a deflection rod is rotatably connected on the surface of the timing disc, one end of the deflection rod, which is far away from the timing disc, is rotatably connected with a contraction rod, a linkage rod is rotatably connected to the deflection rod, which is close to the timing disc, and the other end of the linkage rod is rotatably connected with a clamping rod;

preferably, the ratchet teeth are rightward and meshed with the ratchet wheel to rotate when moving rightward;

preferably, an inflation tube is arranged on the right side of the fixed balloon;

preferably, the bottom of the pulse rod is provided with a blocking rod and is positioned above the clamping rod, and the pulse rod is clamped when the wrist is dried;

preferably, an air channel is formed in the limiting block and is communicated with the fixed balloon;

preferably, the telescopic rod consists of two short rods, two ends of the telescopic rod are respectively connected with the inner walls of the fixed balloons, and the fixed balloons are stretched and recessed when the wrists are dried, so that gaps among the fixed balloons are leaked;

preferably, a fan is arranged on the inner wall of the induction ring and between the two fixed balloons;

preferably, the fixed balloon is provided with an arc-shaped channel along the center, and the fixed ring penetrates through the channel to fix the fixed balloon in an annular manner.

(III) advantageous effects

Compared with the prior art, the invention provides the hemostasis compressor for continuously and constantly pressurizing the puncture part for the cardiology department, which has the following beneficial effects:

1. this to puncture position constantly pressurize intracardiac hemostasis compressor for internal medicine uses through the cooperation of thorn pole with the hose, places the contact plate on puncture department surface, and compression extrusion spring makes the contact plate remove for the oppression board, drives and accepts the board rebound, just is located the below of cam, and the contact plate is normal size to the extrusion force of puncture department this moment. With response ring cover in patient's wrist department, the bottom of pulse pole is located wrist pulse top, aerifys fixed balloon through the gas tube that fixed balloon right side set up afterwards, because the air duct has been seted up to the stopper, and with fixed balloon UNICOM, consequently the guide arm is promoted by atmospheric pressure, and then drives the carousel and rotate, drives the trigger bar, and the trigger bar promotes the pulse pole and moves down, extrudes the pulse, and the fixed balloon of inflation is together wrist and response ring are fixed simultaneously. In the process of pulse rod to pulse extrusion, the pulse rod is pumped air to the transition gas ring, and the hose is communicated with the transition gas ring, so the ratchet rod is pumped to move leftwards, but because the ratchet rod is meshed with the ratchet wheel in a single way, the ratchet wheel cannot rotate, and the fixed balloon is inflated at the moment, so that the pulse rod is stable in extrusion degree to the pulse, and the maximum extrusion force to the pulse rod when the pulse beats just cannot push the pulse rod. When the patient is in the motion or when mood fluctuation appears, the patient heart beat aggravates with higher speed, heart pump blood aggravates, lead to endovascular blood pressure grow, simultaneously because the heartbeat aggravates and leads to the wrist pulse to beat aggravating, the maximum extrusion force to the pulse pole when the pulse beats increases, and then jack-up the pulse pole upwards, increase the intra-annular atmospheric pressure of transition gas, and hose internal gas pressure strengthens thereupon, will promote the ratchet pole and drive ratchet clockwise, drive the carrying bar rebound at last, and then the contact plate with the below upwards pulls up, the extrusion force of contact plate to puncture department has been weakened, thereby reached when vascular blood pressure grow adjust the compressor to puncture department extrusion force, prevent that the cracked effect from appearing in the puncture mouth of blood coagulation.

2. This to lasting invariable pressurization hemostasis compressor for intracardiac branch of academic or vocational study of puncture position, use through the cooperation of timing dish with the dwang, starter motor, the dwang begins to rotate, when rotating timing dish top, the extrusion deflection pole makes the deflection pole rotate, the deflection pole promotes shrink pole and trace rod, make shrink pole pulling fixed balloon, lead to fixed balloon shrink space, meanwhile, the trace rod promotes the kelly and blocks owner with the pulse pole, prevent because atmospheric pressure increases, make the pulse pole excessively extrude the pulse, cause the injury to the patient. At the inner wall of response ring, and be located and be provided with the fan between two fixed balloons, because the shrink pole is promoted by the deflection pole and takes place to bend, and then draws the concave with the appearance of fixed balloon for spill space between two fixed balloons, the fan blows the air current into between fixed balloon and the wrist through the space, weathers the sweat that produces the wrist surface, thereby has reached and has prevented the gliding effect of response ring on patient's wrist.

Drawings

FIG. 1 is a front cross-sectional view of a compression portion of the structure of the present invention;

FIG. 2 is an enlarged view of the connection between the ratchet and the ratchet bar according to the present invention;

FIG. 3 is a cross-sectional view of a structural inductor ring of the present invention;

FIG. 4 is a schematic diagram of the pulse bar transmission according to the present invention;

FIG. 5 is an enlarged view of the internal mechanism of the structural limiting block of the present invention;

fig. 6 is an enlarged view of the internal mechanism of the structural balloon of the present invention.

In the figure: 1. the compression plate comprises a compression plate, 2, a bandage, 3, a bearing rod, 4, a timing disc, 5, a ratchet wheel, 6, a ratchet rod, 7, a contact plate, 8, an extrusion spring, 9, a hose, 10, a pulse rod, 11, a limiting block, 12, a fixing ring, 13, a transition gas ring, 14, a sensing ring, 15, a fixing balloon, 16, a rotary disc, 17, a trigger rod, 18, a guide rod, 19, a rotating rod, 20, a deflection rod, 21, a contraction rod, 22, a linkage rod, 23 and a clamping rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, a hemostasis compressor for continuously and constantly pressurizing a puncture part in cardiology comprises a compression plate 1, wherein the compression plate 1 is made of lightweight plastic, so that equipment can be effectively prevented from being corroded, the weight of the equipment is reduced, the service life of the equipment is greatly prolonged, the production cost is reduced, and the hemostasis compressor plays an indispensable role in enterprises, a bandage 2 is fixedly connected to the side surface of the compression plate 1, a ratchet wheel 5 is arranged in the compression plate 1, a cam 4 is arranged in the ratchet wheel 5, a receiving rod 3 is arranged at the bottom of the cam 4, a contact plate 7 is fixedly connected to the bottom of the receiving rod 3, an extrusion spring 8 is fixedly connected to the top of the contact plate 7, a ratchet rod 6 is meshed and connected to the surface of the ratchet wheel 5, teeth of the ratchet rod 6 are rightwards meshed and rotate with the ratchet wheel 5 when moving rightwards, a hose 9 is slidably connected to the left side of the, one side of the hose 9, which is far away from the compression plate 1, is fixedly connected with an induction ring 14, the inner wall of the induction ring 14 is positioned between two fixed balloons 15, a transition gas ring 13 is arranged inside the induction ring 14, a pulse rod 10 is inserted into the inner wall of the transition gas ring 13, a stop rod is arranged at the bottom of the pulse rod 10 and is positioned above a clamping rod 23, the pulse rod 10 is clamped when the wrist is dried, the side surface of the pulse rod 10 is slidably connected with a limit block 11, an air channel is arranged inside the limit block 11 and is communicated with the fixed balloons 15, a turntable 16 is arranged inside the limit block 11, a guide rod 18 is rotatably connected to the surface of the turntable 16, a trigger rod 17 is rotatably connected to the surface of the turntable 16 and the other side of the guide rod 18, a fixed ring 12 is arranged inside the transition gas ring 13, the fixed balloons 15 are arranged on the surface of the fixed ring 12, the fixed ring 12 penetrates through the channel, the fixed balloon 15 is fixed in an annular mode, an inflation tube is arranged on the right side of the fixed balloon 15, a timing disc 4 is arranged inside the fixed balloon 15, the rotating rod 19 is connected to the inside of the timing disc 4 in a rotating mode, the deflection rod 20 is connected to the surface of the timing disc 4 in a rotating mode, one end, away from the timing disc 4, of the deflection rod 20 is connected with a contraction rod 21 in a rotating mode, the contraction rod 21 is composed of two short rods, two ends of the contraction rod are connected with the inner wall of the fixed balloon 15 respectively, the fixed balloon 15 is concave in a pulling mode when the wrist is dried, gaps between the fixed balloons 15 are made to leak, one end, close to the timing disc 4, of the deflection rod 20 is connected.

When the puncture needle is used, the contact plate 7 is placed on the surface of a puncture position, the compression and extrusion spring 8 is compressed, so that the contact plate 7 moves relative to the compression plate 1, the bearing plate is driven to move upwards and is just positioned below the cam, and the extrusion force of the contact plate 7 on the puncture position is normal.

The induction ring 14 is sleeved on the wrist of a patient, the bottom of the pulse rod 10 is located above the wrist pulse, the fixing balloon 15 is inflated through an inflation tube arranged on the right side of the fixing balloon 15, an air channel is formed in the limiting block 11 and is communicated with the fixing balloon 15, so that the guide rod 18 is pushed by air pressure, the turntable 16 is driven to rotate, the trigger rod 17 is driven, the trigger rod 17 pushes the pulse rod 10 to move downwards, the pulse is extruded, and meanwhile, the wrist and the induction ring 14 are fixed together by the expanded fixing balloon 15.

In the process of squeezing the pulse by the pulse rod 10, the pulse rod 10 pumps air to the transition air ring 13, the hose 9 is communicated with the transition air ring 13, the ratchet rod 6 is pumped to move leftwards, but the ratchet 5 cannot rotate due to the unidirectional meshing of the ratchet rod 6 and the ratchet 5, and the fixed balloon 15 is stopped to be inflated at the moment, so that the squeezing degree of the pulse rod 10 to the pulse is stable, and the maximum squeezing force to the pulse rod 10 when the pulse beats just cannot push the pulse rod 10.

When the patient is in motion or the mood fluctuation appears, the heartbeat of the patient is aggravated with higher speed, the heart pump blood aggravates, lead to the intravascular blood pressure grow, simultaneously, aggravate because the heartbeat leads to the wrist pulse to beat, the maximum extrusion force to pulse pole 10 when the pulse beats increases, and then jack-up pulse pole 10 upwards, increase the atmospheric pressure in the transition gas ring 13, and the atmospheric pressure strengthens in the hose 9 thereupon, will promote ratchet pole 6 and drive ratchet 5 clockwise turning, drive receiving rod 3 at last and move upwards, and then with the contact plate 7 of below upwards pulling up, the extrusion force of contact plate 7 to puncture department has been weakened, thereby reached when vascular blood pressure grow adjustment compressor to puncture department extrusion force, prevent that the cracked effect from appearing in the puncture port of blood coagulation.

The starter motor, dwang 19 begins to rotate, when rotating 4 tops on the timing dish, extrudees deflection pole 20 and makes deflection pole 20 rotate, and deflection pole 20 promotes shrink pole 21 and trace rod 22, makes shrink pole 21 pulling fixed balloon 15, leads to fixed balloon 15 shrink space, and meanwhile, trace rod 22 promotes card pole 23 and is held pulse pole 10 card owner, prevents because atmospheric pressure increases for pulse pole 10 excessively extrudes the pulse, causes the injury to the patient.

At the inner wall of response ring 14, and be located and be provided with the fan between two fixed balloons 15, because shrink pole 21 is promoted by deflection pole 20 and takes place to bend, and then draws the appearance of fixed balloons 15 concave for spill space between two fixed balloons 15, the fan blows the air current into between fixed balloons 15 and the wrist through the space, weathers the sweat that the wrist surface produced, thereby has reached and has prevented the gliding effect of response ring 14 on patient's wrist.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a to puncture position constancy that lasts pressurization intracardiac branch of academic or vocational study is with hemostasis compressor, includes oppression board (1), its characterized in that: the side face of the compression plate (1) is fixedly connected with a bandage (2), a ratchet wheel (5) is arranged inside the compression plate (1), a cam (4) is arranged inside the ratchet wheel (5), an accepting rod (3) is arranged at the bottom of the cam (4), a contact plate (7) is fixedly connected with the bottom of the accepting rod (3), an extrusion spring (8) is fixedly connected with the top of the contact plate (7), a ratchet rod (6) is connected with the surface of the ratchet wheel (5) in a meshed manner, a hose (9) is slidably connected to the left side of the ratchet rod (6), an induction ring (14) is fixedly connected to one side, away from the compression plate (1), of the hose (9), a transition gas ring (13) is arranged inside the induction ring (14), a pulse rod (10) is arranged on the inner wall of the transition gas ring (13) in an inserting manner, and a limit block (11) is slidably connected to, a turntable (16) is arranged inside the limiting block (11), a guide rod (18) is rotatably connected to the surface of the turntable (16), a trigger rod (17) is rotatably connected on the surface of the turntable (16) and positioned at the other side of the guide rod (18), a fixing ring (12) is arranged in the transition gas ring (13), a fixing balloon (15) is arranged on the surface of the fixing ring (12), a timing disk (4) is arranged in the fixed balloon (15), a rotating rod (19) is rotatably connected in the timing disk (4), the surface of the timing disk (18) is rotatably connected with a deflection rod (20), one end of the deflection rod (20) far away from the timing disk (4) is rotatably connected with a contraction rod (21), one end of the deflection rod (20) close to the timing disk (4) is rotatably connected with a linkage rod (22), and the other end of the linkage rod (22) is rotatably connected with a clamping rod (23).

2. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: the teeth of the ratchet rod (6) are rightward and meshed with the ratchet wheel (5) to rotate when moving rightward.

3. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: and an inflation tube is arranged on the right side of the fixed balloon (15).

4. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: the bottom of the pulse rod (10) is provided with a stop rod which is positioned above the clamping rod (21).

5. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: an air channel is formed in the limiting block (11) and is communicated with the fixed balloon (15).

6. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: the telescopic rod (21) is composed of two short rods, and two ends of the telescopic rod are respectively connected with the inner wall of the fixed balloon (15).

7. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: and a fan is arranged on the inner wall of the induction ring (14) and between the two fixed balloons (15).

8. A hemostasis compressor for cardiology department that constantly pressurizes the puncture site as claimed in claim 1, wherein: the fixed balloon (15) is provided with an arc-shaped channel along the center, and the fixed ring (12) penetrates through the channel.