CN210931645U - Vascular intervention postoperative hemostasis by compression area - Google Patents

Abstract

The utility model belongs to the technical field of medical appliances, and discloses a vascular intervention postoperative compression tourniquet, which comprises a fabric layer arranged in a rectangular shape, wherein one side of the fabric layer is fixedly provided with a first air bag, one side of the first air bag, which is far away from the fabric layer, is provided with an air bag groove, a second air bag is placed in the air bag groove, one side wall of the fabric layer, which is far away from the first air bag, is fixedly provided with a microprocessor and an alarm, and then the first air bag is covered on the second air bag, so that the air bag groove is aligned with the second air bag, thereby facilitating the fixation of the second air bag, when a patient changes the position, because the second air bag is positioned in the air bag groove, and the first air bag and the second air bag are provided with sufficient air pressure, the first air bag and the second air bag are all tightly attached to the skin of the patient, and the movement of the second air bag is prevented, thereby ensuring the safe hemostasis of the patient.

Description

Vascular intervention postoperative hemostasis by compression area

Technical Field

The utility model belongs to the technical field of medical instrument, especially, relate to a vascular intervention postoperative hemostasis by compression area.

Background

The vascular intervention technology is an effective treatment method which is gradually developed in the last 10 years, the trauma is small, the operation is simple and convenient, the intervention position is accurate, some patients who cannot tolerate major operations and drug resistance can be treated, the compression hemostasis is required to be carried out on the patients after the intervention operation, and the compression hemostasis is most suitable to be carried out under the pressure of 3 kilograms after the normal intervention operation.

At present, medical personnel use a pressure air bag to suppress in hemostasis department to patient's postoperative hemostasis, and it is fixed to recycle the bandage and bind, nevertheless because the bandage is relatively poor to pressure air bag's fixed effect, when the patient changes the position, probably leads to pressure air bag to move, causes hemostatic effect to reduce, brings very big harm for the patient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vascular intervention postoperative hemostasis by compression area aims at solving present medical personnel when stanching to the patient postoperative, and the majority all uses a pressure gasbag suppression in hemostasis department, recycles the bandage and bindes fixedly, nevertheless because the bandage is relatively poor to pressure gasbag's fixed effect, when the disease changes the position, can lead to pressure gasbag to move, causes hemostatic effect to reduce, brings the problem of very big harm for the patient.

The utility model discloses a realize like this, a vascular intervention postoperative hemostasis by compression area, include the fabric layer that sets up for the rectangle, the fixed first gasbag that is provided with in one side of fabric layer, first gasbag is kept away from one side of fabric layer is provided with the gasbag groove, the second gasbag has been placed to the gasbag inslot, the fabric layer is kept away from fixed microprocessor and the alarm of being provided with on the lateral wall of first gasbag, the alarm with microprocessor electric connection.

Preferably, be provided with first inflating pump on the first gasbag, first inflating pump through first intake pipe fixed connection in first gasbag, fixed being provided with first pressure sensor in the first intake pipe, still be provided with first check valve in the first intake pipe, first check valve is located first inflating pump with between the first pressure sensor, first pressure sensor with microprocessor signal connection.

Preferably, a second inflating pump is arranged on the second air bag, the second inflating pump is fixedly connected with the second air bag through a second air inlet pipe, a second pressure sensor is fixedly arranged on the second air inlet pipe, a second check valve is arranged between the second inflating pump and the second pressure sensor in the second air inlet pipe, and the second pressure sensor is in signal connection with the microprocessor.

Preferably, the first inflation pump and the second inflation pump are both manual air pumps.

Preferably, still be provided with the waist bandage on the fabric layer, the both ends of waist bandage all sew up in the fabric layer, the fixed waist that is provided with of waist bandage is detained, the end of breaking of waist bandage passes the waist is detained and is fixed through first magic subsides.

Preferably, be located the downside of waist bandage still is provided with the leg bandage, the both ends of leg bandage sew up respectively in the both sides of fabric layer, the fixed leg that is provided with on the leg bandage is detained, the end of breaking of leg bandage passes the leg is detained and is fixed through the subsides of second magic.

Preferably, a waist skin-friendly layer is attached to the inner surface wall of the waist bandage, and a leg skin-friendly layer is attached to the inner surface wall of the leg bandage; the first air bag is arranged in an I shape, and the extension section is respectively attached to the inner walls of the waist bandage and the leg bandage.

Preferably, a net bag is sewn on one side surface, far away from the first air bag, of the fabric layer, and the upper end of the net bag is provided with an opening.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a vascular intervention postoperative oppression tourniquet, through setting up first gasbag with the gasbag groove, it is convenient right the fixing of second gasbag, medical personnel will first gasbag with after the second gasbag fills quantitative atmospheric pressure, will the most drum point oppression of second gasbag is in hemostasis department, will again first gasbag covers on the second gasbag, make the gasbag groove is aimed at the second gasbag, thereby it is convenient right the fixing of second gasbag, when the disease conversion position, because the second gasbag is located in the gasbag groove, just first gasbag with all have sufficient atmospheric pressure in the second gasbag, cause first gasbag with the second gasbag all hug closely with patient's skin, prevented moving of second gasbag has guaranteed the safe hemostasis of disease.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic front view of the first airbag of the present invention;

FIG. 3 is a rear view of the first airbag of the present invention;

FIG. 4 is a schematic view of a second bladder of the present invention;

FIG. 5 is a schematic view of the enlarged partial structure of the present invention;

in the figure: 1. a fabric layer; 2. a first air bag; 3. an air bag groove; 4. a second air bag; 5. a microprocessor; 6. an alarm; 7. a first inflator pump; 8. a first intake pipe; 9. a first pressure sensor; 10. a first check valve; 11. a second inflation pump; 12. a second intake pipe; 13. a second pressure sensor; 14. a second check valve; 15. a waist bandage; 16. a waist buckle; 17. a first magic tape; 18. a waist skin-friendly layer; 19. leg bandages; 20. a leg buckle; 21. a second magic tape; 22. a leg skin-friendly layer; 23. a net bag.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a vascular intervention postoperative hemostasis by compression area, includes fabric layer 1 for the rectangle setting, and one side of fabric layer 1 is fixed and is provided with first gasbag 2, and one side that first gasbag 2 kept away from fabric layer 1 is provided with gasbag groove 3, has placed second gasbag 4 in the gasbag groove 3, and fixed microprocessor 5 and the alarm 6 of being provided with, alarm 6 and 5 electric connection of microprocessor are fixed on the lateral wall of first gasbag 2 are kept away from on fabric layer 1.

In this embodiment, through setting up the string bag 23, conveniently accomodate first inflating pump 7 and second inflating pump 11, after medical personnel filled sufficient atmospheric pressure with first gasbag 2 and second gasbag 4, alright in order to take into the string bag 23 with first inflating pump 7 together with first intake pipe 8, first pressure sensor 9 and second inflating pump 11 together with second intake pipe 12, second pressure sensor 13 together, prevented that the disease from when changing the position, first inflating pump 7 and second inflating pump 11 have been touched with carelessness, guaranteed the regularity of this tourniquet, also guaranteed the safe hemostasis of disease simultaneously.

In this embodiment, through setting up first gasbag 2, convenient fixed to second gasbag 4, medical personnel are with first gasbag 2 with second gasbag 4 respectively after sufficient atmospheric pressure, oppress the most drum point of second gasbag 4 in patient's hemostasis department, again cover first gasbag 2 on second gasbag 4, make second gasbag 4 be located gasbag groove 3, because the inside of first gasbag 2 and second gasbag 4 has sufficient atmospheric pressure, make first gasbag 2 and second gasbag 4 all hug closelyIn thatOn patient's the skin, and first gasbag 2 all has certain adhesion force to patient's skin with second gasbag 4, when disease conversion position, guaranteed that second gasbag 4 can not move, thereby the safe hemostasis of disease has been guaranteed, the model of microprocessor 5 in this tourniquet is AK3760C, the model of alarm 6 is LTA5002, microprocessor 5 and alarm 6 low price on this tourniquet, the size is less, conveniently be used for medical treatment, behind the signal of first pressure sensor 9 and second pressure sensor 13 that microprocessor 5 received, carry out the pressure contrast, if pressure is not enough, then alarm 6 begins to report to the police, remind medical personnel to carry out pressurization work, treat that pressure fills to the ration after, alarm 6 stops to report to the police, thereby the safe hemostasis of disease has been guaranteed.

Further, a first inflating pump 7 is arranged on the first air bag 2, the first inflating pump 7 is fixedly connected to the first air bag 2 through a first air inlet pipe 8, a first pressure sensor 9 is fixedly arranged on the first air inlet pipe 8, a first check valve 10 is further arranged on the first air inlet pipe 8, the first check valve 10 is located between the first inflating pump 7 and the first pressure sensor 9, and the first pressure sensor 9 is in signal connection with the microprocessor 5.

In this embodiment, the model of first pressure sensor 9 is KW-MS5611, the first pressure sensor 9 of this model is baroceptor, first pressure sensor 9 transmits the pressure value for microprocessor 5, when being less than the specified value in first gasbag 2, microprocessor 5 sends alarm signal to alarm 6, alarm 6 begins to report to the police, medical personnel hear and pressurize immediately, medical personnel utilize first inflating pump 7 to inflate first gasbag 2, can observe the atmospheric pressure in first gasbag 2 through on the first pressure sensor 9, after atmospheric pressure reaches the specified value, alarm 6 stops reporting to the police, utilize first check valve 10, the air current in first gasbag 2 has been prevented from falling back, thereby the steady of atmospheric pressure in first gasbag 2 has been guaranteed.

Further, a second inflation pump 11 is arranged on the second air bag 4, the second inflation pump 11 is fixedly connected with the second air bag 4 through a second air inlet pipe 12, a second pressure sensor 13 is fixedly arranged on the second air inlet pipe 12, a second check valve 14 is arranged on the second air inlet pipe 12 and located between the second inflation pump 11 and the second pressure sensor 13, and the second pressure sensor 13 is in signal connection with the microprocessor 5.

In this embodiment, the type of the second pressure sensor 13 is KW-MS5611, the second pressure sensor 13 of this type is a barometric sensor, the microprocessor 5 receives the pressure value of the second pressure sensor 13, and compares the pressure value, when the pressure value is lower, the microprocessor 5 sends an alarm signal to the alarm 6, the alarm 6 starts to alarm, when the medical staff uses the second inflation pump 11 to inflate the second airbag 4 with sufficient pressure, the alarm 6 stops alarming, through the second check valve 14, the airflow in the second airbag 4 is prevented from flowing back, and the stability of the pressure in the second airbag 4 is ensured.

Further, the first and second inflation pumps 7 and 11 are both manual air pumps.

In the present embodiment, when the air pressure in the first air cell 2 or the second air cell 4 decreases, the medical staff manually operates the first inflation pump 7 or the second inflation pump 11 to inflate the first air cell 2 or the second air cell 4Line ofAerify, make things convenient for medical personnel to observe patient's state at any time.

Further, a waist bandage 15 is further arranged on the fabric layer 1, two ends of the waist bandage 15 are sewn on the fabric layer 1, a waist buckle 16 is fixedly arranged on the waist bandage 15, and the broken end of the waist bandage 15 penetrates through the waist buckle 16 and is fixed through a first magic tape 17.

In this embodiment, medical personnel pass behind the waist buckle 16 with the disconnected end of waist bandage 15 and draw corresponding position, and the first magic subsides 17 of rethread is fixed, conveniently is applicable to the disease of different waistlines, has guaranteed the firm of waist bandage 15 simultaneously.

Furthermore, a leg bandage 19 is further arranged on the lower side of the waist bandage 15, two ends of the leg bandage 19 are respectively sewn on two sides of the fabric layer 1, a leg buckle 20 is fixedly arranged on the leg bandage 19, and the disconnected end of the leg bandage 19 penetrates through the leg buckle 20 and is fixed through a second magic tape 21.

In this embodiment, medical personnel pass the disconnected end of leg bandage 19 and buckle 20 and stretch to corresponding position with the leg, and rethread second magic subsides 21 laminating is fixed, conveniently is applicable to the disease of different leg thicknesses, has guaranteed the firm of leg bandage 19.

Further, a waist skin-friendly layer 18 is attached to the inner surface wall of the waist bandage 15, and a leg skin-friendly layer 22 is attached to the inner surface wall of the leg bandage 19; the first air bag 2 is arranged in an I shape, and the extension sections are respectively attached to the inner walls of the waist bandage 15 and the leg bandage 19.

In the present embodiment, the waist skin-friendly layer 18, the leg skin-friendly layer 22, and the first air bag 2 are in direct contact with the skin of the patient after the waist bandage 15 and the leg bandage 19 are fixed, thereby preventing the skin of the patient from being cut.

Furthermore, a net bag 23 is sewn on one side surface of the fabric layer 1 away from the first airbag 2, and the upper end of the net bag 23 is provided with an opening.

In the embodiment, the medical staff finally receives the first inflation pump 7 and the second inflation pump 11 together with the first air inlet pipe 8, the first pressure sensor 9, the second air inlet pipe 12 and the second pressure sensor 13 into the net bag 23, so that the patients are prevented from touching the net bag when the body positions of the patients are changed, and the safety of the patients is guaranteed to stop bleeding.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a vascular intervention postoperative hemostasis by compression area, includes fabric layer (1) for the rectangle setting, its characterized in that, one side of fabric layer (1) is fixed and is provided with first gasbag (2), keep away from first gasbag (2) one side of fabric layer (1) is provided with gasbag groove (3), second gasbag (4) have been placed in gasbag groove (3), keep away from fabric layer (1) fixed microprocessor (5) and alarm (6) of being provided with on the lateral wall of first gasbag (2), alarm (6) with microprocessor (5) electric connection.

2. The vascular intervention postoperative compression tourniquet according to claim 1, wherein a first inflation pump (7) is arranged on the first balloon (2), the first inflation pump (7) is fixedly connected to the first balloon (2) through a first air inlet pipe (8), a first pressure sensor (9) is fixedly arranged on the first air inlet pipe (8), a first check valve (10) is further arranged on the first air inlet pipe (8), the first check valve (10) is located between the first inflation pump (7) and the first pressure sensor (9), and the first pressure sensor (9) is in signal connection with the microprocessor (5).

3. The vascular intervention postoperative compression tourniquet according to claim 2, wherein a second inflation pump (11) is disposed on the second air bag (4), the second inflation pump (11) is fixedly connected with the second air bag (4) through a second air inlet pipe (12), a second pressure sensor (13) is fixedly disposed on the second air inlet pipe (12), a second check valve (14) is disposed on the second air inlet pipe (12) and located between the second inflation pump (11) and the second pressure sensor (13), and the second pressure sensor (13) is in signal connection with the microprocessor (5).

4. A vascular intervention postoperative compression tourniquet according to claim 3, wherein the first and second inflation pumps (7, 11) are both manual air pumps.

5. The vascular intervention postoperative compression tourniquet according to claim 1, wherein a waist bandage (15) is further disposed on the fabric layer (1), both ends of the waist bandage (15) are sewn to the fabric layer (1), a waist buckle (16) is fixedly disposed on the waist bandage (15), and the broken end of the waist bandage (15) passes through the waist buckle (16) and is fixed by a first magic tape (17).

6. A vascular intervention postoperative compression tourniquet according to claim 5, wherein a leg bandage (19) is further provided at the lower side of the waist bandage (15), both ends of the leg bandage (19) are respectively sewed at both sides of the fabric layer (1), a leg buckle (20) is fixedly provided on the leg bandage (19), and the broken end of the leg bandage (19) passes through the leg buckle (20) and is fixed by a second magic tape (21).

7. A compression tourniquet after vascular intervention according to claim 6, wherein the waist bandage (15) is attached with a waist skin-friendly layer (18) on the inner surface wall, and the leg bandage (19) is attached with a leg skin-friendly layer (22) on the inner surface wall; the first air bag (2) is arranged in an I shape, and the extension section is respectively attached to the inner walls of the waist bandage (15) and the leg bandage (19).

8. A compression tourniquet after vascular intervention according to claim 1, wherein a net bag (23) is sewn on a side of the fabric layer (1) away from the first balloon (2), and an upper end of the net bag (23) is open.

Images