CN220988859U - Radial artery puncture hemostasis pressing device - Google Patents

Abstract

The utility model discloses a radial artery puncture hemostasis compressor, which comprises a belt body and a silica gel gasket; the belt body comprises a broadband and a narrow belt, the second end of the broadband is connected with the first end of the narrow belt, a hook and loop fastener used in a matched mode is arranged on the outer side of the broadband and the outer side of the second end of the narrow belt, a strip-shaped seam is arranged at the first end of the broadband, and the second end of the narrow belt can penetrate through the strip-shaped seam; the inner side of the broadband is provided with a pocket, and the silica gel pad is movably arranged in the pocket. The radial artery puncture hemostatic compressor provided by the utility model has a simple structure; the second end of the narrow band passes through the strip-shaped seam and then is folded back and fixed with the outer side of the broadband through the magic tape, so that the use is convenient and the tightness is adjustable; the silica gel pad is arranged in the pocket, so that the skin with a certain area near the puncture point can be pressed, and the 'point pressing' is replaced by 'face pressing'.

Description

Radial artery puncture hemostasis pressing device

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a radial artery puncture hemostasis pressing device.

Background

Coronary angiography is a common and effective method for diagnosing coronary atherosclerotic heart disease (coronary heart disease), is a safer and more reliable invasive diagnosis technology, the most common operation of coronary angiography punctures a radial artery at a blood vessel position, namely a radial artery blood vessel at a wrist position, most coronary angiography is completed by puncturing the radial artery at the wrist position, particularly the radial artery at a right wrist position, because the radial artery at the wrist position punctures, a patient can freely move after the radiography is finished, and the wrist position is thin and easy to compress and stop bleeding, so that the complication phenomenon of the puncturing position can be greatly reduced.

After the radial artery of the patient is punctured, the patient needs to press the radial artery of the wrist part with gauze to stop bleeding, or medical staff twines the radial artery of the wrist part of the patient with gauze to stop bleeding, but the hand without puncture can not be liberated when the patient presses the radial artery of the wrist part with gauze, the patient is inconvenient to move, and when the medical staff twines the radial artery of the wrist part of the patient with gauze, the twining operation and the follow-up disassembling operation of the gauze are complicated.

After minimally invasive interventional therapy is performed through radial artery puncture, hemostasis needs to be performed on the puncture point, such as coronary angiography or percutaneous coronary intervention. There are three types of hemostatic methods commonly used in hospitals at present: 1. the gauze is used for pressing the puncture point of the radial artery to stop bleeding, the other hand of the patient cannot be released (the pressing time is long, usually in hours), and the discomfort such as swelling, numbness, pain and the like at the puncture position is easily caused even radial artery occlusion is caused in a point pressing mode; 2. the radial artery wrapping the wrist part of the patient is wrapped by gauze for hemostasis, and in the mode, the wrapping operation and the subsequent disassembling operation of the gauze are relatively complicated; 3. the hemostatic is performed by using a presser (compressor), the presser is provided with an air bag, the air bag is inflated by a miniature air pump, a power supply (or a built-in power supply) is needed to be connected, and even a sensor, a timer and the like are further arranged, so that the structure is relatively complex, and the cost is relatively high. What is needed is a compression device that is simple in structure, convenient to use, and hemostatic by "facial compression".

Disclosure of utility model

To this end, the present utility model provides a radial artery puncture hemostatic compressor that solves one or more of the problems set forth above.

In order to achieve the above object, the present utility model provides the following technical solutions:

A radial artery puncture hemostasis presser comprises a belt body and a silica gel pad; the belt body comprises a broadband and a narrow belt, the second end of the broadband is connected with the first end of the narrow belt, a hook and loop fastener used in a matched mode is arranged on the outer side of the broadband and the outer side of the second end of the narrow belt, a strip-shaped seam is arranged at the first end of the broadband, and the second end of the narrow belt can penetrate through the strip-shaped seam; the inner side of the broadband is provided with a pocket, and the silica gel pad is movably arranged in the pocket.

Further, the broadband is an elastic band, the narrow band is a non-elastic band, the pocket is an elastic bag, the silica gel pad is a rectangular, round or waist-shaped piece, and the space of the pocket is smaller than the volume of the silica gel pad in a conventional state.

Further, the edges of the strip-shaped slits are provided with lockstitching.

Further, the width center of the narrow band is aligned with the width center of the wide band, the length direction of the strip-shaped slit is parallel to the width direction of the wide band, and the length center of the strip-shaped slit is aligned with the width center of the wide band.

Further, a magic sub-patch is arranged on the outer side of the broadband, and a magic mother patch is arranged on the outer side of the second end of the narrow band; or the outside of broadband is equipped with the female subsides of magic, the outside of the second end of narrowband is equipped with the magic sub-subsides.

The utility model has the following advantages:

the radial artery puncture hemostatic compressor provided by the utility model has a simple structure; the second end of the narrow band passes through the strip-shaped seam and then is folded back and fixed with the outer side of the broadband through the magic tape, so that the use is convenient and the tightness is adjustable; the silica gel pad is arranged in the pocket, so that the skin with a certain area near the puncture point can be pressed, and the 'point pressing' is replaced by 'face pressing'.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the scope of the utility model.

Fig. 1 is a schematic structural view of a radial artery puncture hemostatic compressor according to an embodiment of the present utility model;

FIG. 2 is a side cross-sectional view of a belt body of a radial artery puncture hemostatic compressor according to an embodiment of the present utility model;

FIG. 3 is an outside-in view of a band of a radial artery puncture hemostatic compressor according to an embodiment of the present utility model;

Fig. 4 is a schematic view of a use state of a radial artery puncture hemostatic compressor (with a silica gel pad) according to an embodiment of the present utility model;

Fig. 5 is a schematic view of a use state of a radial artery puncture hemostatic compressor according to an embodiment of the present utility model (without a silica gel pad).

In the figure: 1-band body, 11-broad band, 12-narrow band, 13-strip seam, 14-pocket, 15-overlock; 2-a silica gel gasket; 3-magic tape.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The terms such as "upper", "lower", "left", "right", "middle" and the like are also used in the present specification for convenience of description, but are not intended to limit the scope of the present utility model, and the changes or modifications of the relative relationship thereof are considered to be within the scope of the present utility model without substantial modification of the technical content.

As shown in fig. 1 to 5, the present embodiment provides a radial artery puncture hemostatic compressor, which comprises a belt body 1 and a silica gel pad 2. The band body 1 includes a wide band 11 and a narrow band 12. The second end of the wideband 11 is connected to the first end of the narrowband 12, e.g. by stitching. The outside of the broadband 11 and the outside of the second end of the narrow band 12 are provided with matched magic tapes 3, such as a magic sub-tape arranged on the outside of the broadband 11 and a magic mother tape arranged on the outside of the second end of the narrow band 12; or a magic mother patch is arranged on the outer side of the broadband 11, and a magic child patch is arranged on the outer side of the second end of the narrow band 12. The first end of the strap 11 is provided with a slit 13 and the second end of the strap 12 is passed through the slit 13. The inner side of the broadband 11 is provided with a pocket 14, and the silica gel pad 2 is movably arranged in the pocket 14.

The radial artery puncture hemostasis pressing device provided by the embodiment mainly comprises a broadband 11, a narrow band 12, a pocket 14 and a silica gel gasket 2, does not need a micro air pump, an air bag, a power supply and the like, and has a simpler structure. When the fixing device is used, the second end of the narrow band 12 passes through the strip-shaped slit 13 and then is folded back, then the fixing device is tensioned to a certain extent, finally, the second end of the narrow band 12 is fixed to the outer side of the wide band 11 by utilizing the magic tape 3 at the outer side of the second end of the narrow band 12 and the magic tape 3 at the outer side of the wide band 11, the fixing of the band body 1 is completed, the fixing device is simple and convenient to use, and the tightness after binding can be adjusted in the fixing mode of the magic tape 3. When in pressing, the silica gel pad 2 is arranged in the pocket 14, the two pad are aligned near the puncture point, the pressing areas of the silica gel strap and the pocket 14 are larger than the finger belly, the skin with larger area near the puncture point can be pressed, the 'point pressing' is replaced by 'face pressing', the occurrence probability of discomfort symptoms such as swelling, numbness, pain and the like at the puncture position is reduced, and radial artery occlusion is not caused. After the pressing device is used for hemostasis by compression for 6-8h, the magic tape 3 is loosened, the belt body 1 is loosened to a certain extent, the silica gel gasket 2 is taken out, and the belt body 1 is fixed on the wrist again.

In this embodiment, the broadband 11 is an elastic band that is bonded to the wrist of the patient and is continuously pressurized. The narrow band 12 is an inelastic band and its main purpose is to pass through the strip slit 13 and then be folded back and secured. The pocket 14 is an elastic bag, the silica gel pad 2 is a rectangle, round or waist-shaped piece, and the space of the pocket 14 is smaller than the volume of the silica gel pad 2 in a conventional state; after the silica gel pad 2 is put into the pocket 14, the pocket 14 is slightly enlarged, and the silica gel pad 2 is fixed by using elastic restoring force, so that the silica gel pad 2 is prevented from falling from the pocket opening.

In this embodiment, when the strip slit 13 is opened, the first end of the wide band 11 is damaged in the degree of solidity, so that the edge of the strip slit 13 is provided with the locking edge 15, thereby enhancing the strength of the periphery of the strip slit 13.

In the present embodiment, the width center of the narrow band 12 is aligned with the width center of the wide band 11, the length direction of the strip slit 13 is parallel to the width direction of the wide band 11 and the length center of the strip slit 13 is aligned with the width center of the wide band 11; when the narrow band 12 is tightened, the forces on the two sides of the wide band 11 are almost equal, and the situation that the force on one side is obviously larger than that on the other side can not occur; when uneven force is generated on two sides, obvious indentation is pressed on the wrist by one side with large force, and even pain is caused.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (5)

1. The hemostatic compressor for radial artery puncture is characterized by comprising a belt body and a silica gel gasket; the belt body comprises a broadband and a narrow belt, the second end of the broadband is connected with the first end of the narrow belt, a hook and loop fastener used in a matched mode is arranged on the outer side of the broadband and the outer side of the second end of the narrow belt, a strip-shaped seam is arranged at the first end of the broadband, and the second end of the narrow belt can penetrate through the strip-shaped seam; the inner side of the broadband is provided with a pocket, and the silica gel pad is movably arranged in the pocket.

2. The radial artery puncture hemostatic compressor of claim 1, wherein the wide band is an elastic band, the narrow band is a non-elastic band, the pocket is an elastic bag, the silicone pad is a rectangular, circular or kidney-shaped piece, and a space of the pocket is smaller than a volume of the silicone pad in a normal state.

3. The radial artery puncture hemostatic compressor of claim 1, wherein the edges of the strip-shaped slit are provided with a lockstitch.

4. The radial artery puncture hemostatic compressor of claim 1, wherein a width center of the narrow band is aligned with a width center of the wide band, a length direction of the strip slit is parallel with the width direction of the wide band and a length center of the strip slit is aligned with the width center of the wide band.

5. The radial artery puncture hemostatic compressor of claim 1, wherein a magic sub-patch is provided on an outer side of the wideband, and a magic female patch is provided on an outer side of the second end of the narrowband; or the outside of broadband is equipped with the female subsides of magic, the outside of the second end of narrowband is equipped with the magic sub-subsides.