CN218684566U - Multi-point compression hemostat used after radial artery puncture - Google Patents

Abstract

The utility model discloses a multi-point compression hemostat after radial artery puncture, which comprises a hemostatic plaster and a compression device, wherein the hemostatic plaster is movably connected with the compression device, the compression device comprises a mounting seat, a plurality of adjusting components and two binding bands, the adjusting components are arranged on the mounting seat side by side, and the two binding bands are symmetrically arranged on two sides of the mounting seat; the utility model discloses a hemostasis subsides and the cooperation of oppression device that set up can separate oppression device and patient's skin, avoids the oppression device to receive patient's skin surface bacterial contamination to reuse oppression device saves the cost.

Description

Multi-point compression hemostat used after radial artery puncture

Technical Field

The utility model relates to a multi-point compression hemostat after radial artery puncture.

Background

After a patient has radial artery puncture, the puncture part needs to be subjected to compression hemostasis, compression time is long, so that a general hospital can adopt a hemostasis device to surround the puncture part of the patient to continuously perform compression hemostasis, the existing hemostasis device generally cannot accurately display pressure, a doctor only operates the hemostasis device according to personal experience, and the pressure is extremely difficult to control, and therefore, the compression hemostasis device capable of accurately displaying the pressure needs to be provided;

application number is CN201921605299.8, and the patent name is: in the patent application document of radial artery hemostasis by compression device, a hemostasis device capable of specifically displaying the pressure during hemostasis by compression is disclosed, and the specific contents are as follows: a radial artery compression hemostasis device, comprising: a substrate unit, a pressing unit and an electrical unit; a base plate unit which is a basic operating mechanism and is fixed at the hemostasis position of a user and attaches the whole radial artery compression hemostasis device to the limb; the pressure applying unit is axially arranged on the substrate unit and is used for adjusting the pressure of the hemostasis part; the electrical unit is used for monitoring whether the pressure at the hemostasis part is within a pressure threshold range or not and starting an alarm signal; in this embodiment, although the pressure applied during hemostasis by compression can be measured, the pressure applying unit applies a large pressure to the puncture point and also applies a large pressure to the skin around the puncture point of the patient during compression, thereby causing unnecessary damage to the skin around the puncture point of the patient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the above-mentioned deficiencies and provide a multi-point compression hemostat after radial artery puncture, which can apply different pressures to different parts near the puncture point of a patient according to requirements, and can measure and display the applied pressures respectively;

in order to achieve the above purpose, the utility model adopts the technical proposal that: multiple spot hemostasis by compression ware behind radial artery puncture art, including hemostasis subsides and constriction device, swing joint between hemostasis subsides and the constriction device, constriction device includes mount pad, a plurality of adjusting part and two bandages, and the mount pad is the rectangular block, and a plurality of adjusting part slide side by side and set up in the upper end of mount pad, and a plurality of adjusting part apply different size pressure to patient's radial artery puncture postoperative puncture point respectively, and two bandage symmetries set up in the both sides of mount pad.

As preferred, hemostatic plaster includes dressing subsides and two lacing tapes, and the dressing subsides are the rectangle, and the dressing subsides include dressing layer and protective layer, and dressing layer and protective layer laminating set up, and two lacing tapes symmetry set up in the both sides of protective layer.

Preferably, the protective layer is made of a waterproof and breathable PU film.

Preferably, mount pad upper end middle section is equipped with the slip boss, and slip boss upper end is equipped with a plurality of downward fashioned circular shape spouts side by side, and a plurality of adjusting part slide respectively and set up in a plurality of spouts, and the upper end of slip boss still is equipped with spacing gland, and spacing gland covers a plurality of spout upper ends.

As preferred, every adjusting part includes the external screw thread cover, T shape connecting rod, air cushion clamp plate and air cushion, is equipped with the screw thread on the spout inner wall, and the external screw thread cover is established in the spout, and external screw thread cover one end is connected with the knob through the round bar, and T shape connecting rod upper end offsets with the external screw thread cover lower extreme, and the spout lower extreme is equipped with the rectangle via hole, and T shape connecting rod cooperates with the rectangle via hole cooperation of spout lower extreme, and T shape connecting rod lower extreme exposes the spout, and the air cushion clamp plate sets up in T shape connecting rod lower extreme, and the air cushion pastes and locates the air cushion clamp plate lower extreme.

Preferably, the protective layer is movably connected with the air cushions through magic tapes along the peripheral edge positions.

Preferably, the air cushion pressure plates in the plurality of adjusting assemblies are attached to each other along the edges, the width of each air cushion pressure plate is M, the number of the adjusting assemblies is N, the width of the mounting seat is L, and then N × M = L.

Preferably, the T-shaped connecting rod is further sleeved with a thrust spring, one end of the thrust spring abuts against the upper end of the T-shaped connecting rod, and the other end of the thrust spring abuts against the bottom end of the sliding groove.

Preferably, the pressure monitoring assembly comprises a single chip microcomputer controller, a lithium battery pack, a display and a plurality of pressure sensors, force measuring ends of the pressure sensors are connected with the upper ends of the T-shaped connecting rods respectively, each pressure sensor is movably sleeved in the corresponding external thread sleeve, two downward forming mounting grooves are formed in the upper end of the mounting seat and correspond to the two sides of the sliding boss, the single chip microcomputer controller and the lithium battery pack are arranged in the two mounting grooves respectively, the display covers the top end of the mounting groove with the single chip microcomputer controller, a groove cover is arranged at the top of the other mounting groove, the single chip microcomputer controller and the lithium battery pack are electrically connected, the display and the single chip microcomputer controller are electrically connected, and the pressure sensors are electrically connected with the single chip microcomputer controller.

Preferably, in the two bandages, a magnetic buckle is arranged at the free end of one bandage, a plurality of limiting columns matched with the magnetic buckle are arranged on the other bandage, and a matching notch is arranged on the bandage provided with the magnetic buckle and corresponding to the limiting columns.

Compared with the prior art, the utility model beneficial effect who has is:

according to the technical scheme of the utility model, the plurality of adjusting components can respectively apply different pressures to the skin around the puncture point of the patient, so as to adapt to the pressure requirement of hemostasis and avoid unnecessary damage to the skin around the puncture point of the patient; through the pressure monitoring subassembly that sets up, can monitor the pressure that every adjusting part was applyed respectively to show, so that medical personnel set up the pressure size according to the demand.

Drawings

FIG. 1 is an axial structural view of the present invention;

FIG. 2 is an exploded view of the axial structure of the present invention;

fig. 3 is a left side view of the present invention;

FIG. 4 is an axial cross-sectional view taken at A-A in FIG. 3 under conditions of example 1;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

FIG. 6 is an enlarged view of the magnetic clasp at C of FIG. 4;

FIG. 7 is an axial cross-sectional view taken at A-A in FIG. 3 under conditions of example 2;

FIG. 8 is an enlarged view of a portion of FIG. 7 at D;

Detailed Description

The technical solution in the embodiment of the present invention will be described in detail with reference to fig. 1 to 8 in the embodiment of the present invention.

Example 1

As shown in fig. 1, the multi-point compression hemostat after radial artery puncture comprises a hemostatic plaster and a compression device, wherein the hemostatic plaster is movably connected with the compression device, when in use, the hemostatic plaster is movably connected with the compression device, then the hemostatic plaster is attached to a puncture part of a patient, the compression device covers the surface of the hemostatic plaster and is fixed with the puncture part of the patient, the hemostatic plaster is pressed by the compression device, so that the puncture part of the radial artery of the patient is pressed to stop bleeding, the compression device is taken down after the compression is performed for 5 to 10 minutes, and the hemostatic plaster is left, so that the puncture part of the patient is prevented from being infected by external influence;

the compression device comprises a mounting seat 1, a plurality of adjusting components and two binding bands 2, wherein the mounting seat 1 is a rectangular block, the adjusting components are arranged at the upper end of the mounting seat 1 in a side-by-side sliding mode, and the adjusting components apply different pressures to the skin around a puncture point after radial artery puncture of a patient respectively, wherein the pressure applied to the puncture point is the largest, and the pressures applied to the two sides of the puncture point are gradually reduced;

two bandage 2 symmetries set up in the both sides of mount pad 1, and bandage 2 adopts the silica gel preparation, the disinfection of being convenient for.

As shown in fig. 5, the hemostatic patch comprises a dressing patch 3 and two tightening straps 4, the dressing patch 3 is rectangular, the dressing patch 3 comprises a dressing layer 3a and a protective layer 3b, the dressing layer 3a and the protective layer 3b are arranged in a fitting manner, the two tightening straps 4 are symmetrically arranged on two sides of the protective layer 3b, one side of the two tightening straps 4, which is fitted with the skin of a patient, is provided with a medical double-faced adhesive tape, so that the tightening straps 4 are bonded with the skin of the patient, and the tightening straps 4 can be provided with a plurality of air holes; the protective layer 3b is made of a waterproof and breathable PU film, so that blood is prevented from being infected with the compression device when the puncture point oozes blood;

the middle section of the upper end of the mounting seat 1 is provided with an upward-shaped sliding boss 6, the upper end of the sliding boss 6 is provided with a plurality of downward-shaped circular sliding grooves 6a side by side, a plurality of adjusting components are respectively arranged in the sliding grooves 6a in a sliding manner, the upper end of the sliding boss 6 is also provided with a limiting gland 7, and the limiting gland 7 covers the upper ends of the sliding grooves 6 a;

as shown in fig. 2 and 5, each adjusting assembly comprises an external thread sleeve 8, a T-shaped connecting rod 9, an air cushion pressure plate 10 and an air cushion 11, threads are arranged on the inner wall of the sliding groove 6a, the external thread sleeve 8 is arranged in the sliding groove 6a, one end of the external thread sleeve 8 is connected with a knob 16 through a round rod 15, the round rod 15 penetrates through the limiting gland 7, the knob 16 is rotated, so that the external thread sleeve 8 is driven to rotate in the sliding groove 6a, the external thread sleeve 8 is in threaded fit with the sliding groove 6a, and when the external thread sleeve 8 rotates, the external thread sleeve 8 slides up and down in the sliding groove 6 a;

the upper end of the T-shaped connecting rod 9 abuts against the lower end of the external thread sleeve 8, the lower end of the sliding chute 6a is provided with a rectangular through hole, the T-shaped connecting rod 9 is matched with the rectangular through hole at the lower end of the sliding chute 6a in a matching manner, the lower end of the T-shaped connecting rod 9 is exposed out of the sliding chute 6a, the air cushion pressing plate 10 is arranged at the lower end of the T-shaped connecting rod 9, the air cushion 11 is attached to the lower end of the air cushion pressing plate 10, and when the external thread sleeve 8 slides up and down in the sliding chute 6a, the T-shaped connecting rod 9 is pushed to slide up and down, so that the air cushion 11 is pushed to slide up and down;

protective layer 3b is along border position all around through swing joint between magic subsides and a plurality of air cushions 11, is convenient for paste and tear.

As shown in fig. 5, the edges of the air cushion press plates 10 in the multiple adjusting assemblies are attached to each other, the multiple air cushions 11 are attached to each other, when the skin of the patient is pressed, the gaps between the air cushions 11 are small, the width of each air cushion press plate 10 is M, the number of the adjusting assemblies is N, and the width of the mounting base 1 is L, then N × M = L;

the T-shaped connecting rod 9 is further sleeved with a thrust spring 12, one end of the thrust spring 12 abuts against the upper end of the T-shaped connecting rod 9, the other end of the thrust spring 12 abuts against the bottom end of the sliding groove 6a, and under the pushing of the elastic force of the thrust spring 12, the air cushion pressing plate 10 always abuts against the lower end of the mounting seat 1, so that the air cushion 11 is prevented from sliding arbitrarily when not in use.

The application process of this embodiment is as follows: after a patient undergoes radial artery puncture, when the hemostatic patch is used, the hemostatic patch is movably connected with a compression device, then an air cushion 11 positioned in the middle section of an installation seat 1 is aligned to a radial artery puncture point of the patient, a dressing patch 3 is attached to the skin of the puncture point of the patient, two tightening straps 4 are bonded with the skin of the patient, the compression device covers the surface of the hemostatic patch and is fixed with the puncture position of the patient, pressure is applied to the hemostatic patch through the compression device, so that the radial artery puncture position of the patient is pressed to stop bleeding, the compression device is taken down after the pressure is applied for 5 to 10 minutes, and the hemostatic patch is left, so that the puncture position of the patient is prevented from being infected by external influences;

the operation process of the pressing device is as follows: the knob 16 is rotated to drive the external thread sleeve 8 to rotate in the chute 6a, the external thread sleeve 8 is in thread fit with the chute 6a, when the external thread sleeve 8 rotates, the external thread sleeve slides downwards in the chute 6a to drive the air cushion 11 to slide downwards to press the skin around the puncture point of a patient, and the number of rotating turns of the knob 16 is controlled according to the distance from the puncture point, namely the pressure of pressing down of the air cushion 11 at the position is controlled.

Example 2

As shown in fig. 1, the multi-point compression hemostat after radial artery puncture comprises a hemostatic plaster and a compression device, wherein the hemostatic plaster is movably connected with the compression device, when in use, the hemostatic plaster is movably connected with the compression device, then the hemostatic plaster is attached to a puncture part of a patient, the compression device covers the surface of the hemostatic plaster and is fixed with the puncture part of the patient, pressure is applied to the hemostatic plaster through the compression device, so that the puncture part of the radial artery of the patient is pressed to stop bleeding, and after the pressure is applied for 5 to 10 minutes, the compression device is taken down and the hemostatic plaster is left, so that the puncture part of the patient is prevented from being infected by external influence;

the compression device comprises a mounting seat 1, a plurality of adjusting components and two binding bands 2, wherein the mounting seat 1 is a rectangular block, the adjusting components are arranged at the upper end of the mounting seat 1 in a sliding mode side by side, and the adjusting components respectively apply different pressures to the skin around a puncture point of a patient after radial artery puncture, wherein the pressure applied to the puncture point is the largest, and the pressures applied to the two sides of the puncture point are gradually reduced;

two 2 symmetries of bandage set up in the both sides of mount pad 1, and bandage 2 adopts the silica gel preparation, the disinfection of being convenient for.

As shown in fig. 5, the hemostatic patch comprises a dressing patch 3 and two tightening straps 4, the dressing patch 3 is rectangular, the dressing patch 3 comprises a dressing layer 3a and a protective layer 3b, the dressing layer 3a and the protective layer 3b are arranged in a fitting manner, the two tightening straps 4 are symmetrically arranged on two sides of the protective layer 3b, one side of the two tightening straps 4, which is fitted with the skin of a patient, is provided with a medical double-faced adhesive tape, so that the tightening straps 4 are bonded with the skin of the patient, and the tightening straps 4 can be provided with a plurality of air holes; the protective layer 3b is made of a waterproof and breathable PU film, so that blood is prevented from being infected with the compression device when the puncture point oozes blood;

the middle section of the upper end of the mounting seat 1 is provided with an upward-formed sliding boss 6, the upper end of the sliding boss 6 is provided with a plurality of downward-formed circular sliding chutes 6a side by side, a plurality of adjusting components are respectively arranged in the plurality of sliding chutes 6a in a sliding manner, the upper end of the sliding boss 6 is also provided with a limiting gland 7, and the limiting gland 7 covers the upper ends of the plurality of sliding chutes 6 a;

as shown in fig. 2 and 5, each adjusting assembly comprises an external thread sleeve 8, a T-shaped connecting rod 9, an air cushion pressure plate 10 and an air cushion 11, threads are arranged on the inner wall of the sliding groove 6a, the external thread sleeve 8 is arranged in the sliding groove 6a, one end of the external thread sleeve 8 is connected with a knob 16 through a round rod 15, the round rod 15 penetrates through the limiting gland 7, the knob 16 is rotated, so that the external thread sleeve 8 is driven to rotate in the sliding groove 6a, the external thread sleeve 8 is in threaded fit with the sliding groove 6a, and when the external thread sleeve 8 rotates, the external thread sleeve 8 slides up and down in the sliding groove 6 a;

the upper end of the T-shaped connecting rod 9 abuts against the lower end of the external thread sleeve 8, the lower end of the sliding chute 6a is provided with a rectangular through hole, the T-shaped connecting rod 9 is matched with the rectangular through hole at the lower end of the sliding chute 6a in a matching manner, the lower end of the T-shaped connecting rod 9 is exposed out of the sliding chute 6a, the air cushion pressing plate 10 is arranged at the lower end of the T-shaped connecting rod 9, the air cushion 11 is attached to the lower end of the air cushion pressing plate 10, and when the external thread sleeve 8 slides up and down in the sliding chute 6a, the T-shaped connecting rod 9 is pushed to slide up and down, so that the air cushion 11 is pushed to slide up and down;

protective layer 3b is along border position all around through swing joint between magic subsides and a plurality of air cushions 11, is convenient for paste and tear.

As shown in fig. 5, the edges of the air cushion press plates 10 in the multiple adjusting assemblies are attached to each other, the multiple air cushions 11 are attached to each other, when the skin of the patient is pressed, the gaps between the air cushions 11 are small, the width of each air cushion press plate 10 is M, the number of the adjusting assemblies is N, and the width of the mounting base 1 is L, then N × M = L;

the pressure monitoring assembly comprises a single chip microcomputer controller, a lithium battery pack, a display 13 and a plurality of pressure sensors 14, and a voice broadcasting module and a timing module are arranged on the single chip microcomputer controller;

in the embodiment, the single chip microcomputer controller, the lithium battery pack, the display 13 and the pressure sensor 14 are known products in the electrical technical field and can be directly purchased; the display 13 is a touch display.

The dynamometry end of a plurality of pressure sensor 14 links to each other with the upper end of a plurality of T shape connecting rod 9 respectively, every 14 equal movable sleeves of pressure sensor locate in corresponding external screw thread cover 8, 1 upper end of mount pad just corresponds 6 both sides positions of slip boss and is equipped with two mounting grooves of shaping downwards, single chip microcomputer controller, lithium cell group sets up respectively in two mounting grooves, display 13 covers in the mounting groove top that is equipped with single chip microcomputer controller, another mounting groove top is equipped with the capping, electric connection between single chip microcomputer controller and the lithium cell group, electric connection between display 13 and the single chip microcomputer controller, a plurality of pressure sensor 14 all with the single chip microcomputer controller between the electricity be connected.

In two bandages 2, the free end of one bandage 2 is equipped with the magnetism and detains, is equipped with a plurality of and detains matched with spacing post 17 with the magnetism on another bandage 2, is equipped with the cooperation breach 2a corresponding spacing post 17 position on the bandage 2 that the magnetism was detained.

The application process of this embodiment is as follows: after a patient performs radial artery puncture, when the hemostatic patch is used, the hemostatic patch is movably connected with a compression device, then an air cushion 11 located in the middle section of a mounting seat 1 is aligned with a radial artery puncture point of the patient, a dressing patch 3 is attached to the skin of the puncture point of the patient, two binding straps 4 are bonded with the skin of the patient, the compression device covers the surface of the hemostatic patch and is fixed with the puncture part of the patient, the compression device applies pressure to the hemostatic patch so as to apply pressure to the radial artery puncture part of the patient for hemostasis, and after the pressure is applied for 5 to 10 minutes, the compression device is taken down, and the hemostatic patch is left, so that the puncture part of the patient is prevented from being infected by external influences;

the operation process of the pressing device is as follows: the knob 16 is rotated to drive the external thread sleeve 8 to rotate in the chute 6a, the external thread sleeve 8 is in thread fit with the chute 6a, when the external thread sleeve 8 rotates, the external thread sleeve slides downwards in the chute 6a to drive the air cushion 11 to slide downwards to press the skin around the puncture point of a patient, the skin of the patient is pressed and can reversely act on the air cushion 11, the force measuring end of the pressure sensor 14 is subjected to reverse acting force, so that the pressure of the skin of the patient is measured, data is transmitted to the single chip microcomputer controller, the data is transmitted to the display 13 after being processed by the single chip microcomputer controller, and the pressure is displayed by the display 13;

after the pressure of all the adjusting components is adjusted, timing is started through the touch display 13;

and after the pressure application time exceeds 10 minutes, the singlechip controller controls the voice playing module to send out a prompt tone, and if the pressure application time does not reach 5 minutes, the pressure value measured by the pressure sensor 14 is suddenly reduced, the singlechip controller controls the voice playing module to send out an alarm sound.

Above embodiment only is for explaining the utility model discloses a technical thought can not be injectd with this the utility model discloses a protection scope, all according to the utility model provides a technical thought, any change of doing on technical scheme basis all falls into the utility model discloses within the protection scope.

Claims (10)

1. Multiple spot hemostasis by compression ware behind radial artery puncture art, including hemostasis subsides and constriction device, swing joint between hemostasis subsides and the constriction device, its characterized in that, constriction device includes mount pad (1), a plurality of adjusting part and two bandage (2), and mount pad (1) is the rectangular block, and a plurality of adjusting part slide side by side and set up in the upper end of mount pad (1), and a plurality of adjusting part apply not equidimension pressure to patient's radial artery puncture postoperative puncture point respectively, and two bandage (2) symmetries set up in the both sides of mount pad (1).

2. The multi-point compression hemostat after radial artery puncture according to claim 1, wherein: the hemostatic patch comprises a dressing patch (3) and two tightening belts (4), wherein the dressing patch (3) is rectangular, the dressing patch (3) comprises a dressing layer (3 a) and a protective layer (3 b), the dressing layer (3 a) and the protective layer (3 b) are attached to each other, and the two tightening belts (4) are symmetrically arranged on two sides of the protective layer (3 b).

3. The multi-point compression hemostat after radial artery puncture according to claim 2, wherein: the protective layer (3 b) is made of a waterproof and breathable PU film.

4. The multi-point compression hemostat after radial artery puncture according to claim 1, wherein: the mounting seat is characterized in that a sliding boss (6) is arranged in the middle section of the upper end of the mounting seat (1), a plurality of downward-formed circular sliding grooves (6 a) are arranged on the upper end of the sliding boss (6) side by side, a plurality of adjusting assemblies are arranged in the sliding grooves (6 a) in a sliding mode respectively, a limiting gland (7) is further arranged on the upper end of the sliding boss (6), and the limiting gland (7) covers the upper ends of the sliding grooves (6 a).

5. The multi-point compression hemostat after radial artery puncture according to claim 4, wherein: every adjusting part includes external screw thread cover (8), T shape connecting rod (9), air cushion clamp plate (10) and air cushion (11), be equipped with the screw thread on spout (6 a) inner wall, external screw thread cover (8) set up in spout (6 a), external screw thread cover (8) one end is connected with knob (16) through round bar (15), T shape connecting rod (9) upper end offsets with external screw thread cover (8) lower extreme, spout (6 a) lower extreme is equipped with the rectangle via hole, T shape connecting rod (9) and the cooperation of the rectangle via hole of spout (6 a) lower extreme, spout (6 a) are exposed to T shape connecting rod (9) lower extreme, air cushion clamp plate (10) set up in T shape connecting rod (9) lower extreme, air cushion clamp plate (10) lower extreme is located in air cushion (11) subsides.

6. The multi-point compression hemostat after radial artery puncture according to claim 2 or 5, wherein: the protective layer (3 b) is movably connected with the air cushions (11) along the peripheral edge position through magic tapes.

7. The multi-point compression hemostat after radial artery puncture according to claim 5, wherein: the edges of the air cushion pressing plates (10) in the multiple adjusting assemblies are attached to each other, the width of each air cushion pressing plate (10) is M, the number of the adjusting assemblies is N, the width of the mounting seat (1) is L, and then N x M = L.

8. The multi-point compression hemostat after radial artery puncture according to claim 7, wherein: and a thrust spring (12) is further sleeved on the T-shaped connecting rod (9), one end of the thrust spring (12) is abutted against the upper end of the T-shaped connecting rod (9), and the other end of the thrust spring is abutted against the bottom end of the sliding chute (6 a).

9. The multi-point compression hemostat after radial artery puncture according to claim 7, wherein: still include the pressure monitoring subassembly, the pressure monitoring subassembly includes single chip microcomputer controller, lithium cell group, display (13) and a plurality of pressure sensor (14), the dynamometry end of a plurality of pressure sensor (14) links to each other with the upper end of a plurality of T shape connecting rod (9) respectively, every pressure sensor (14) equal movable sleeve is located in corresponding external screw thread cover (8), mount pad (1) upper end just corresponds slip boss (6) both sides position and is equipped with two mounting grooves of shaping downwards, single chip microcomputer controller, lithium cell group sets up respectively in two mounting grooves, display (13) cover in the mounting groove top that is equipped with single chip microcomputer controller, another mounting groove top is equipped with the capping, electric connection between single chip microcomputer controller and the lithium cell group, electric connection between display (13) and the single chip microcomputer controller, a plurality of pressure sensor (14) all are connected with electric between the single chip microcomputer controller.

10. The multi-point compression hemostat after radial artery puncture according to claim 1, wherein: in two bandages (2), the free end of one bandage (2) is equipped with the magnetism and buckles, is equipped with a plurality of and buckles matched with spacing post (17) with the magnetism on another bandage (2), is equipped with on bandage (2) that the magnetism was buckled and corresponds spacing post (17) position and is equipped with cooperation breach (2 a).

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