CN219921130U - Anti-drop radial artery hemostat - Google Patents

Abstract

The utility model provides an anti-drop radial artery hemostat which comprises a binding band and a compression saccule, wherein the binding band is bound on an arm, the compression saccule is arranged at the middle section of the binding band, two end parts of the binding band are provided with bonding structures capable of being bonded with each other, and a bonding band capable of being bonded to the second end part of the binding band is additionally arranged at the first end part of the binding band. Compared with the prior art, the utility model further adheres and fixes the two ends of the binding band on the basis of adhesion of the binding band by the adhesion structure by additionally arranging the adhesion band at the first end of the binding band, thereby avoiding falling off when the hemostat is used and affecting the hemostatic effect.

Description

Anti-drop radial artery hemostat

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a novel anti-drop radial artery hemostat.

Background

At present, a disease treatment means through radial artery puncture has become one of main means of coronary intervention diagnosis and treatment operation. After the operation, the puncture of the radial artery needs to be stopped; for some coronary heart disease patients, the hemostatic effect of the radial artery puncture site after the operation directly influences the postoperative recovery state of the patient.

In order to stop bleeding at the radial artery puncture site, some medical devices such as balloon compression type, spiral compression type and direct compression type radial artery hemostat are currently on the market. The sacculus pressing type radial artery hemostat comprises a hard hemostat main body, wherein a puncture point pressing air bag is arranged on the hemostat main body. The hemostat main body is strip-shaped, two ends of the hemostat main body are mutually close after the hemostat main body winds the arm, and two ends of the hemostat main body are adhered by the magic tape, so that the puncture point compression air bag on the hemostat main body is bound and fixed on the arm of the puncture point of the radial artery of a patient. Wherein, in the process of connecting two ends of the hemostat main body by using the magic tape, the size of the mutually attaching area of the magic tape can be adjusted, in particular, the arm is thick, and the mutually attaching area of the magic tape is small; the arms are thin, the area of the sticking of the magic tapes is small, and thus, the difference of the thickness of the arms of different patients can be adapted. In practice, the magic tape at the end part of the main body of the hemostat is easy to fall off, and the hemostatic effect is affected.

Disclosure of Invention

The utility model aims to provide an anti-falling radial artery hemostat.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

the utility model provides an anti-drop radial artery haemostat, includes the bandage of tying up on the arm and establishes the oppression sacculus in the bandage middle section, but bandage both ends portion has the bonding structure of mutual adhesion, and bandage first end portion is equipped with in addition and pastes the sticky tape on the bandage second end portion, pastes the area and includes the double faced adhesive tape and pastes the substrate on the double faced adhesive tape both sides respectively and leave paper, and bonding structure is magic subsides, elasticity nylon hasp or regulation hasp.

Further, the adhesive tape may be attachable to an adhesive structural portion of the second end of the strap and/or may be attachable to a non-adhesive structural portion of the second end of the strap.

Further, the base material is an extension of the first end of the strap.

Further, the shape of the release paper is consistent with that of the double faced adhesive tape.

Further, the number of the compression balloons is two, and the sizes of the compression balloons are different.

Further, an inflatable hose is arranged on the compression balloon.

Further, a sheet is arranged at the middle section of the binding band, and the compression saccule is specifically arranged on the sheet.

When the radial artery hemostat is used, the two ends of the binding band are bound together by the binding structure, the two ends of the binding band are primarily bound and fixed, and on the basis, the adhesive tape additionally arranged on the first end of the binding band is adhered to the second end of the binding band, and the two ends of the binding band are further adhered and fixed, so that the hemostat is not easy to fall off. Compared with the prior art, the utility model can realize further pasting and fixing only by adding one pasting belt at the first end part of the binding belt, has simple structure, and is very convenient only by one-step pasting and fixing through more operation.

Drawings

Fig. 1 is a schematic structural view of the radial artery hemostat in an adhesive state.

Fig. 2 is a schematic top view of the adhesive tape and related parts.

Fig. 3 is a reference view showing a state of use of the adhesive tape.

Fig. 4 is a schematic view of the radial artery hemostat in a deployed state.

Detailed Description

The utility model is further described in detail below in connection with the detailed description.

The anti-drop radial artery hemostat is shown in fig. 1, and comprises a binding belt 4 used for binding an arm, wherein a sheet 12 is arranged at the middle section of the binding belt 4, and a compression saccule 1 is arranged on the sheet 12. The compression balloon 1 is provided with an inflation hose 11, one end of the inflation hose 11, which is far away from the compression balloon 1, is provided with an air injection port 2, and the external inflation structure adjusts the total air quantity in the compression balloon 1 through the air injection port 2. The two ends of the binding belt 4 are respectively provided with a magic tape 5, and the first end of the binding belt 4 is additionally provided with a sticking belt 6.

When not in use, the radial artery hemostat is unfolded into a strip shape as shown in fig. 4. The state when the hemostat is adhered is shown in fig. 1, medical staff observes the puncture point on the arm of a patient after the intervention operation, sleeves the bandage 4 on the arm of the patient, adjusts the proper tightness of the bandage 4 according to the thickness of the arm of the patient, applies certain tensile force to the magic tapes 5 on the two ends of the bandage 4, and then adheres and fixes the two ends of the bandage 4 preliminarily, so that the bandage 4 is bound on the arm of the patient.

After the strap 4 is fixed, the compression balloon 1 is inflated using an external inflation structure. After inflation, the two pressing saccule 1 is adopted to assign the pressing force direction, so as to accurately press the radial artery 7 above the radius 9 on the arm of the patient, and avoid pressing the median nerve and the radial nerve. Although the compression balloon 1 is inflated and expanded, a certain space is still reserved between the binding belt 4 and the arm of the patient, so that the binding belt 4 can be ensured to span the blood vessel of the ulna artery 8 above the ulna 10 in a suspended manner, the blood vessel is prevented from being compressed, and the blood is kept smooth.

When the compression balloon 1 is inflated using the external inflation structure, the total amount of air inside the compression balloon 1 should be taken not to exceed 18 ml. In the inflation process, if the patient has pain, the patient needs to observe whether the puncture point at the arm of the patient has bleeding, if not, the air in the saccule can be reduced, and if the patient has bleeding, more air needs to be injected for compression hemostasis.

In the inflation process and after the inflation is completed, the use state of the magic tape 5 is observed, and if the preliminary adhesion fixing degree of the magic tape 5 does not meet the use requirement, the adhesive tape 6 is required to be used for further fixing. As shown in fig. 2, the adhesive tape 6 includes a double-sided tape 63, and a base material 61 and a release paper 62 respectively adhered to both sides of the double-sided tape 63, wherein the base material 61 is an extension portion of the first end portion of the binding band 4, and the release paper 62 is identical in shape to the double-sided tape 63. When the adhesive tape 6 is used, as shown in fig. 3, the release paper 62 is torn off, a pulling force is applied to the base material 61, the double-sided adhesive tape 63 is adhered to the second end part of the binding tape 4, and the two end parts of the binding tape 4 are further adhered and fixed; the double-sided tape 63 may be adhered to the portion of the velcro 5, or may be adhered to the portion of the velcro 5 other than the second end portion. The articles used for preliminary adhesion fixation of the two ends of the binding band 4 are not limited to the velcro 5, but other adjustable adhesion structures, such as elastic velcro and adjustable catches, can be adopted.

The above-described embodiments are provided for the present utility model only and are not intended to limit the scope of patent protection. Insubstantial changes and substitutions can be made by one skilled in the art in light of the teachings of the utility model, as yet fall within the scope of the claims.

Claims (7)

1. Anti-drop radial artery haemostat, including binding bandage (4) on the arm and establishing compression sacculus (1) in bandage (4) middle section, bandage (4) both ends portion have bonding structure (5) that can bond each other, and characterized by bandage (4) first end portion is equipped with in addition and pastes area (6) that can paste on the bandage second end portion, paste area (6) include double faced adhesive tape (63) and paste respectively substrate (61) and release paper (62) on both sides of double faced adhesive tape (63), bonding structure (5) are magic subsides, elasticity nylon hasp or regulation hasp.

2. The anti-shedding radial artery hemostat of claim 1, characterized in that the adhesive tape (6) is attachable to the adhesive structure (5) of the second end of the band and/or to the non-adhesive structure (5) of the second end of the band.

3. The anti-shedding radial artery hemostat of claim 1, characterized in that the first end of the strap (4) extends to form the base material (61).

4. The anti-drop radial artery hemostat of claim 1 wherein said release paper (62) is shaped to conform to a double sided tape (63).

5. The anti-drop radial artery hemostat of claim 1, characterized in that said compression balloons (1) are two, different in size.

6. The anti-drop radial artery hemostat of claim 1, characterized in that the compression balloon (1) is provided with an inflation hose (11).

7. The anti-drop radial artery hemostat of claim 1, characterized in that the middle section of the strap (4) is provided with a sheet (12), and the compression balloon (1) is specifically arranged on the sheet (12).