CN215191984U - Hemostatic device for large vessel minimally invasive interventional operation - Google Patents

Abstract

The utility model discloses a hemostasis device of great vessel wicresoft intervenes operation, including the flexible glue board, the lower terminal surface of flexible glue board is provided with pressure regulating assembly, pressure regulating assembly keeps away from one side of flexible glue board is provided with the hemostasis piece, pressure regulating assembly is including setting up a set of gasbag at least, the up end of flexible glue board be provided with the inflation inlet of gasbag one-to-one, the inflation inlet all communicates with the gasbag that the inflation inlet corresponds through respective gas tube, the left and right sides face of flexible glue board still is provided with the mounting. The utility model discloses a set up a flexible glue board to set up a hemostasis piece through the pressure regulation subassembly at the lower extreme of flexible glue board, and fix the device in patient's wound through the mounting, thereby can carry out the pressure regulation that acts on the wound to the hemostasis piece through the pressure regulation subassembly, thereby make the hemostasis piece can realize pressing down with a reasonable pressure and stanch.

Description

Hemostatic device for large vessel minimally invasive interventional operation

Technical Field

The utility model belongs to the technical field of medical appliances, especially, relate to a hemostasis device of great vessel minimal access surgery.

Background

In current interventional procedures in the medical field, transfixion via the femoral artery and vein routes is most common. After the interventional operation is finished, puncture ports on artery and vein blood vessels need to be processed, and the puncture ports on the vein blood vessels are generally simpler to process; the treatment of the puncture on the artery is complicated, and the treatment method generally adopts finger pressing or mechanical pressing to stop bleeding. The finger pressing method is difficult to master, arterial hemorrhage is easy to occur if the finger pressing method is too light, limb arterial thrombus is easy to form if the finger pressing method is too tight, hematoma can be generated at the puncture part if the finger pressing method is not proper, and large-area bluish purple and subcutaneous masses can be generated if the blood coagulation function of a patient is not good. In addition, the finger pressing method requires manual local compression hemostasis on arterial blood vessels, and the compression time generally reaches about half an hour, which brings burden to medical staff or family members of patients.

Based on exist among the prior art not enough more than, the utility model discloses a hemostasis device of great vessel wicresoft intervention operation, through setting up a flexible glue board to set up a hemostasis piece at the lower extreme of flexible glue board through the pressure adjustment subassembly, and fix the device in patient's wound through the mounting, thereby can carry out the pressure adjustment that acts on the wound to the hemostasis piece through the pressure adjustment subassembly, thereby make the hemostasis piece can press the hemostasis with a reasonable pressure, in order to alleviate medical staff or patient family members' burden.

SUMMERY OF THE UTILITY MODEL

It is not enough to prior art, the utility model aims to provide a hemostasis device of great vessel minimal access surgery.

The utility model provides a following technical scheme:

the utility model provides a hemostasis device of great blood vessel wicresoft intervenes operation, includes the flexible glue board, the lower terminal surface of flexible glue board is provided with pressure regulating assembly, pressure regulating assembly keeps away from one side of flexible glue board is provided with the hemostasis piece, pressure regulating assembly is including setting up a set of gasbag at least, the up end of flexible glue board be provided with the inflation inlet of gasbag one-to-one, the inflation inlet all communicates through the gasbag that respective gas tube and inflation inlet correspond, the left and right sides face of flexible glue board still is provided with the mounting.

Preferably, the gasbag is provided with four groups, and four groups of gasbags are from last first gasbag, second gasbag, third gasbag, fourth gasbag respectively down in proper order, the up end of first gasbag with the lower terminal surface of flexible glue board is connected, the lower terminal surface of fourth gasbag with the up end of hemostasis piece is connected.

Preferably, the first air bag, the second air bag, the third air bag and the fourth air bag are the same in size and shape after being filled with air, and are all cuboid or cylindrical.

Preferably, the height of the first air bag, the height of the second air bag, the height of the third air bag and the height of the fourth air bag after being filled with air are all 2-3 mm.

Preferably, the inflation ports are communicated with the corresponding inflation tubes through one-way air inlet valves.

Preferably, the mounting includes first band, second band, the one end of first band with the left flank of flexible glue board is connected, the one end of second band with the right flank of flexible glue board is connected, the other end of first band, second band passes through the connecting piece and connects.

Preferably, the connecting piece is a magic tape.

Preferably, the fixing pieces are provided with a plurality of groups, and the plurality of groups of fixing pieces are uniformly distributed on the left side surface and the right side surface of the soft rubber plate at equal intervals.

Preferably, an antibacterial hemostatic gel layer is arranged in the middle of one side face, far away from the fourth air bag, of the hemostatic sheet.

Preferably, the first air bag is communicated with a first inflation port arranged on the upper end face of the soft rubber plate through a first inflation tube.

Preferably, the second air bag is communicated with a second inflation port arranged on the upper end face of the soft rubber plate through a second inflation tube.

Preferably, the third air bag is communicated with a third inflation port arranged on the upper end face of the soft rubber plate through a third inflation tube.

Preferably, the fourth air bag is communicated with a fourth inflation port arranged on the upper end face of the soft rubber plate through a fourth inflation tube.

Preferably, the up end of flexible glue board still be provided with one row with the gasbag one-to-one's air release mouth, the air release mouth all communicates through respective air release pipe and the gasbag that the air release mouth corresponds, the air release mouth all communicates through one-way air outlet valve with its air release pipe that corresponds.

Preferably, the first air bag is communicated with a first air release port arranged on the upper end face of the soft rubber plate through a first air release pipe; the second air bag is communicated with a second air release port arranged on the upper end face of the flexible glue board through a second air release pipe; the third air bag is communicated with a third air release port arranged on the upper end face of the flexible glue board through a third air release pipe; the fourth air bag is communicated with a fourth air release opening arranged on the upper end face of the soft rubber plate through a first air release pipe.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model relates to a hemostasis device of great vessel wicresoft intervenes operation through setting up a flexible glue board to pass through pressure regulating assembly at the lower extreme of flexible glue board and set up a hemostasis piece, and fix the device in patient's wound through the mounting, thereby can go on through pressure regulating assembly and act on the pressure regulation of wound to the hemostasis piece, thereby make the hemostasis piece can press down the hemostasis with a reasonable pressure, with the burden that alleviates medical staff or patient family members.

(2) The utility model relates to a hemostasis device of great vessel minimal access intervention operation, through setting the first gasbag of range upon range of distribution with pressure adjustment subassembly, the second gasbag, the third gasbag, the fourth gasbag, and it is big or small after being full of gas, the shape is all the same, thereby can be according to patient's needs, the selectivity is to first gasbag, the second gasbag, third gasbag or fourth gasbag are aerifyd, the number of aerifing according to the gasbag realizes the regulation to pressure, convenient regulation and operation, it can make the patient feel comfortable to adopt the gasbag, do not have hard object to separate the estranger.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments are briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the cross-sectional structure of the flexible glue board of the present invention.

Fig. 3 is a schematic bottom view of the present invention.

In the figure: 1. a soft rubber plate; 3. a blood-stopping tablet; 41. a first strap; 42. a second strap; 43. a connecting member; 5. a first air bag; 6. (ii) a A second air bag; 7. a third air cell; 8. a fourth air bag; 9. a first gas-filled tube; 10. a second gas-filled tube; 11. a third gas-filled tube; 12. a fourth gas-filled tube; 13. a first inflation port; 14. a second gas-filled tube; 15. a third gas-filled tube; 16. a fourth gas-filled tube; 17. a first relief port; 18. a second relief port; 19. a third relief port; 20. a fourth relief port; 21. a one-way intake valve; 22. an antibacterial hemostatic gel layer.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

Referring to fig. 1-3, a hemostasis device for a great vessel minimally invasive interventional operation comprises a flexible glue plate 1, a pressure adjusting assembly is arranged on the lower end face of the flexible glue plate 1, a hemostasis sheet 3 is arranged on one side, away from the flexible glue plate 1, of the pressure adjusting assembly, the pressure adjusting assembly comprises at least one group of air bags, inflation ports which are in one-to-one correspondence with the air bags are arranged on the upper end face of the flexible glue plate 1, the inflation ports are communicated with the air bags corresponding to the inflation ports through respective inflation tubes, and fixing pieces are further arranged on the left side face and the right side face of the flexible glue plate 1. Through this setting, can guarantee to fix the device in patient needs position department through the mounting, and hemostatic slice 3 can cover in patient's wound, can inflate for its gasbag that corresponds through the inflation inlet, make it all have certain thickness after being full of gas, thereby can produce certain pressure for hemostatic slice 3, thereby realize acting on the regulation of the pressure of wound to hemostatic slice 3, thereby make hemostatic slice 3 can press the hemostasis with a reasonable pressure.

The gasbag is provided with four groups, four groups the gasbag is from last first gasbag 5, second gasbag 6, third gasbag 7, fourth gasbag 8 down respectively in proper order, the up end of first gasbag 5 with the lower terminal surface of flexible glue board 1 is connected, the lower terminal surface of fourth gasbag 8 with the up end of hemostasis piece 3 is connected. The lower end face of the first airbag 5 is connected to the upper end face of the second airbag 6, the lower end face of the second airbag 6 is connected to the upper end face of the third airbag 7, and the lower end face of the third airbag 7 is connected to the upper end face of the fourth airbag 8. The pressure regulating assemblies are arranged in a stacked distribution mode, so that the first air bag 5, the second air bag 6, the third air bag 7 or the fourth air bag 8 can be selectively inflated according to the requirements of a patient, and the pressure of the hemostatic patch 3 acting on the wound can be regulated according to the number of the inflated air bags.

The first air bag 5, the second air bag 6, the third air bag 7 and the fourth air bag 8 are the same in size and shape after being filled with air, and are all cuboid or cylindrical.

The heights of the first air bag 5, the second air bag 6, the third air bag 7 and the fourth air bag 8 after being filled with air are all 2-3 mm.

The inflation inlet is communicated with the corresponding inflation tube through a one-way air inlet valve 21.

The mounting includes first band 41, second band 42, the one end of first band 41 with the left flank of flexible glue board 1 is connected, the one end of second band 42 with the right flank of flexible glue board 1 is connected, the other end of first band 41, second band 42 passes through connecting piece 43 and connects.

The connecting member 43 is a hook and loop fastener.

The fixing pieces are provided with a plurality of groups, and the plurality of groups of fixing pieces are evenly distributed on the left side surface and the right side surface of the soft rubber plate 1 at equal intervals. Through this setting, multiunit mounting can make fixed in patient's needs department that flexible glue board 1 is tight, and can be fixed more stable, firm, prevent that it from sliding.

And an antibacterial hemostatic gel layer 22 is arranged in the middle of one side surface of the hemostatic sheet 3 far away from the fourth air bag 8. Through the arrangement, the antibacterial hemostatic gel layer 22 covers the wound, can play a certain role in sterilization and hemostasis, and further reduces the infection risk of the wound.

The first air bag 5 is communicated with a first inflation port 13 arranged on the upper end face of the flexible glue board 1 through a first inflation tube 9.

The second air bag 6 is communicated with a second inflation port 14 arranged on the upper end face of the soft rubber plate 1 through a second inflation tube 10.

The third air bag 7 is communicated with a third inflation port 15 arranged on the upper end face of the soft rubber plate 1 through a third inflation tube 11.

The fourth air bag 8 is communicated with a fourth inflation port 16 arranged on the upper end face of the soft rubber plate 1 through a fourth inflation tube 12.

The up end of flexible glue board 1 still be provided with one row with the gasbag one-to-one discharge port, discharge port all communicates through the gasbag that respective gas release pipe and discharge port correspond, discharge port all communicates through one-way air outlet valve with its gas release pipe that corresponds. Whether the gas in the first air bag 5, the second air bag 6, the third air bag 7 and the fourth air bag 8 is discharged or not can be controlled by controlling the one-way gas outlet valve.

The first air bag 5 is communicated with a first air release opening 17 arranged on the upper end surface of the flexible glue board 1 through a first air release pipe; the second air bag 6 is communicated with a second air release port 18 arranged on the upper end face of the flexible glue board 1 through a second air release pipe; the third air bag 7 is communicated with a third air release port 19 arranged on the upper end surface of the soft rubber plate 1 through a third air release pipe; the fourth air bag 7 is communicated with a fourth air release opening 20 arranged on the upper end face of the soft rubber plate 1 through a first air release pipe. Through this setting, conveniently to the discharge of gas in first gasbag 5, second gasbag 6, third gasbag 7, the fourth gasbag 8, conveniently accomodate, make things convenient for next use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be within the technical scope of the present invention, and the technical solution and the inventive concept of the present invention are equivalent to or changed according to the present invention, and all those are included in the scope of the present invention.

Claims (7)

1. A hemostasis device for a great vessel minimally invasive intervention operation is characterized in that: including flexible glue board (1), the lower terminal surface of flexible glue board (1) is provided with pressure regulating assembly, pressure regulating assembly keeps away from one side of flexible glue board (1) is provided with hemostasis piece (3), pressure regulating assembly is including setting up a set of gasbag at least, the up end of flexible glue board (1) be provided with the inflation inlet of gasbag one-to-one, the inflation inlet all communicates through the gasbag that respective gas tube and inflation inlet correspond, the left and right sides face of flexible glue board (1) still is provided with the mounting.

2. The hemostasis device for the great vessel minimally invasive intervention surgery as claimed in claim 1, wherein the air bags are provided with four groups, the four groups of air bags are respectively a first air bag (5), a second air bag (6), a third air bag (7) and a fourth air bag (8) from top to bottom, the upper end surface of the first air bag (5) is connected with the lower end surface of the soft rubber plate (1), and the lower end surface of the fourth air bag (8) is connected with the upper end surface of the hemostasis sheet (3).

3. The hemostasis device for the minimally invasive interventional surgery on the great vessel according to claim 2, wherein the first balloon (5), the second balloon (6), the third balloon (7) and the fourth balloon (8) have the same size and shape after being filled with air, and are all cuboid or cylindrical.

4. The hemostasis device for the minimally invasive interventional surgery on the great vessel according to claim 3, wherein the first balloon (5), the second balloon (6), the third balloon (7) and the fourth balloon (8) have the height of 2mm-3mm after being filled with air.

5. The hemostatic device for minimally invasive intervention in great vessels according to claim 1, wherein the inflation port and the corresponding inflation tube are communicated through a one-way air inlet valve (21).

6. The hemostasis device for the great vessel minimally invasive intervention surgery as claimed in claim 1, wherein the fixing member comprises a first band (41) and a second band (42), one end of the first band (41) is connected with the left side surface of the soft rubber plate (1), one end of the second band (42) is connected with the right side surface of the soft rubber plate (1), and the other ends of the first band (41) and the second band (42) are connected through a connecting member (43).

7. The hemostatic device for minimally invasive intervention of great vessels according to claim 6, wherein the fixing members are provided in multiple groups, and the multiple groups of fixing members are uniformly distributed on the left and right sides of the soft rubber plate (1) at equal intervals.

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