CN221180534U - Hemostatic compressor for arteriovenous puncture - Google Patents

Abstract

The utility model discloses a hemostasis compressor for arteriovenous puncture, which comprises an arteriovenous air sac compression piece, wherein a sand bag compression structure is detachably adhered and fixed on the bottom surface of the arteriovenous air sac compression piece, the sand bag compression structure is attached to the outside of an arteriovenous puncture bleeding point, and a binding belt component transversely penetrates through the lower end of the arteriovenous air sac compression piece; outside the arteriovenous puncture bleeding point is pasted and oppressed through the sand bag oppression structure, external force oppression is carried out to the sand bag oppression structure through the inflation to arteriovenous gasbag oppression piece, and can control the compression dynamics through adjusting the inflation, cooperation sand bag self gravity carries out better hemostasis by compression effect, bind on the patient through the bandage subassembly, fix arteriovenous gasbag oppression piece and sand bag oppression structure locate position, replace artifical oppression and elastic cord oppression mode through above-mentioned mode and stanch, reduce the waste of this disposable articles for use of gauze when guaranteeing hemostasis by compression effect, reduce operation cost.

Description

Hemostatic compressor for arteriovenous puncture

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a hemostatic compressor for arteriovenous puncture.

Background

When the arteriovenous puncture is finished each time, the hemostasis by compression is very important to the puncture wound of a patient in a proper mode, at present, the hemostasis is carried out by adopting an artificial compression mode and an elastic band compression mode in most of home and abroad, the compression force is mainly determined by vision and experience, and when the hemostasis is carried out by compression each time, medical staff needs to stack a large number of gauze pieces in advance as compression objects for ensuring the compression effect, and the gauze pieces are often disposable, so that the workload of the medical staff in advance is increased, and the operation cost is increased.

Therefore, design practicality is strong and through the subsides of sand bag oppression structure and oppression outside arteriovenous puncture bleeding point, carry out external force oppression to sand bag oppression structure through the inflation to arteriovenous gasbag oppression piece, and can control the compression dynamics through adjusting the inflation, cooperation sand bag self gravity carries out better hemostasis by compression effect, bind on the patient through the bandage subassembly, fix arteriovenous gasbag oppression piece and sand bag oppression structure place, replace artifical oppression and elastic cord oppression mode through above-mentioned mode and stanch, reduce the waste of this kind of disposable articles for use of gauze when guaranteeing hemostasis by compression effect, a hemostasis by compression ware for arteriovenous puncture that reduces operating cost is very necessary.

Disclosure of utility model

The utility model aims to provide a hemostasis compressor for arteriovenous puncture, which solves the problems in the prior art.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a be used for arteriovenous puncture hemostasis compressor, includes arteriovenous gasbag compressor, arteriovenous gasbag compressor bottom surface detachable adhesion is fixed with sand bag compressor structure, and sand bag compressor structure laminating outside arteriovenous puncture bleeding point, arteriovenous gasbag compressor lower extreme transversely runs through has the bandage subassembly.

According to the technical scheme, the artery and vein air bag pressing piece comprises a fixing band, a binding band through hole is transversely formed in the fixing band, the middle part of the binding band assembly penetrates through the binding band through hole, an arc-shaped bulge is integrally formed in the middle of the upper surface of the fixing band, an air bag accommodating cavity is formed in the arc-shaped bulge, an air bag is inserted into the air bag accommodating cavity, the upper surface of the air bag is fixedly communicated with an air nozzle, and the upper end of the air nozzle penetrates through the top surface of the air bag accommodating cavity and extends to the outside.

According to the technical scheme, the arc-shaped rubber strips are stuck and fixed at the edges of the upper side wall and the lower side wall of the left end and the right end of the binding belt through hole, and the middle part of the outer wall of the binding belt assembly is clamped on the inner side ends of the arc-shaped rubber strips.

According to the technical scheme, the sand bag pressing structure comprises a connecting band, a sand bag storage bag is fixedly communicated with the middle of the bottom surface of the connecting band, a sand bag is inserted into the sand bag storage bag, and a first magic tape is arranged between the upper surface of the connecting band and the bottom surface of the artery and vein air bag pressing piece.

According to the technical scheme, the bandage assembly comprises a bandage main body penetrating through the bandage through hole, strip-shaped belts are sewn on the front side and the rear side of the left end and the right end of the bandage main body, and second magic tapes are arranged between the bottom surface and the top surface of the strip-shaped belts in a left-right corresponding mode.

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

According to the utility model, the sand bag compression structure is bonded and compressed outside the arteriovenous puncture bleeding point, the sand bag compression structure is compressed by external force through the inflation of the arteriovenous air bag compression piece, the compression force can be controlled by adjusting the inflation quantity, the sand bag self gravity is matched for better compression hemostasis effect, the sand bag compression piece and the sand bag compression structure are bound on a patient through the binding belt assembly, the positions of the arteriovenous air bag compression piece and the sand bag compression structure are fixed, the artificial compression and elastic belt compression modes are replaced for hemostasis in the above mode, the waste of disposable gauze is reduced while the compression hemostasis effect is ensured, and the operation cost is reduced.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the front view of the present utility model;

FIG. 2 is a schematic view of an arteriovenous balloon compression member in accordance with the present utility model;

FIG. 3 is a schematic view of the structure of the sandbag compression structure of the utility model;

Fig. 4 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1-arteriovenous balloon compression piece, 11-fixed band, 12-bandage through hole, 13-arc bulge, 14-gasbag, 15-air tap, 2-sand bag compression structure, 21-connecting band, 22-first magic tape, 23-sand bag storage bag, 24-sand bag, 3-bandage subassembly, 31-bandage main part, 32-bar area, 33-second magic tape, 4-arc rubber strip.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, 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.

Referring to fig. 1-4, the present utility model provides the following technical solutions: a hemostasis compressor for arteriovenous puncture, includes arteriovenous gasbag constriction 1, and the detachable adhesion of arteriovenous gasbag constriction 1 bottom surface is fixed with sand bag constriction 2, and sand bag constriction 2 laminating outside arteriovenous puncture bleeding point, and the transverse penetration of arteriovenous gasbag constriction 1 lower extreme has bandage subassembly 3.

Laminating and oppression outside arteriovenous puncture bleeding point through sand bag oppression structure 2, carry out external force oppression to sand bag oppression structure 2 through the inflation to arteriovenous gasbag oppression piece 1, and can control the compression dynamics through adjusting the inflation, cooperation sand bag 24 self gravity carries out better hemostasis by compression effect, bind on the patient through bandage subassembly 3, fix the position that arteriovenous gasbag oppression piece 1 and sand bag oppression structure 2 are located, replace artifical oppression and elastic cord oppression mode through above-mentioned mode and stanch, reduce the waste of this kind of disposable articles for use of gauze when guaranteeing hemostasis by compression effect, reduce operation cost.

Specifically, the arteriovenous air bag compression piece 1 comprises a fixing belt 11, a binding belt through hole 12 is transversely formed in the fixing belt 11, the middle part of a binding belt assembly 3 penetrates through the binding belt through hole 12, an arc-shaped bulge 13 is integrally formed in the middle of the upper surface of the fixing belt 11, an air bag accommodating cavity is formed in the arc-shaped bulge 13, an air bag 14 is inserted into the air bag accommodating cavity, an air nozzle 15 is fixedly communicated with the upper surface of the air bag 14, and the upper end of the air nozzle 15 penetrates through the top surface of the air bag accommodating cavity and extends to the outside.

When the inflatable bag is used, the inflatable nozzle 15 is used for inflating and deflating, the inflated air bag 14 expands in the air bag accommodating cavity, and the inflation of the air bag 14 can press the sand bag pressing structure 2 to be tightly attached to the outside of the arteriovenous puncture bleeding point on the premise that the arteriovenous air bag pressing piece 1 is worn by the binding belt assembly 3.

Specifically, the edges of the upper and lower side walls at the left and right ends of the binding belt through hole 12 are respectively stuck and fixed with an arc-shaped rubber strip 4, and the middle part of the outer wall of the binding belt assembly 3 is clamped on the inner side ends of the upper and lower arc-shaped rubber strips 4; the arc rubber strip 4 of upper and lower symmetry laminating can carry out the centre gripping spacing to the bandage subassembly 13 middle part that passes bandage through hole 12 on bandage subassembly 3 outer wall, and when external force pull, arc rubber strip 4 can overcome frictional force and slide on bandage subassembly 3 outer wall simultaneously.

Specifically, the sandbag compressing structure 2 comprises a connecting belt 21, a sandbag storage bag 23 is fixedly communicated with the middle part of the bottom surface of the connecting belt 21, a sandbag 24 is inserted into the sandbag storage bag 23, and a first magic tape 22 is arranged between the upper surface of the connecting belt 21 and the bottom surface of the arteriovenous balloon compressing piece 1; the connecting belt 21 is adhered to the bottom surface of the artery and vein air bag pressing part 1 through the first magic tape 22, after the primary and secondary pastes of the first magic tape 22 are detached, the sand bag 24 can be put into or taken out of the sand bag storage bag 23, the sand bag 24 can be replaced by a salt bag, and the detached sand bag storage bag 23 is convenient for disinfection and sterilization.

Specifically, the strap assembly 3 includes a strap main body 31 passing through the strap through hole 12, the front and rear sides of the left and right ends of the strap main body 31 are respectively sewed with a strip-shaped band 32, and a second velcro 33 is arranged between the bottom surface and the top surface of the left and right corresponding strip-shaped bands 32; the left and right corresponding strip belts 32 can be adhered and fixed through the second magic tape 33, can be wound and fixed on most positions of the body of a patient, and two strip belts 32 on each side can be fixed at different positions.

Working principle:

According to the utility model, the sand bag compression structure 2 is attached to and compressed outside an arteriovenous puncture bleeding point, the sand bag compression structure 2 is compressed by external force through the inflation of the arteriovenous air bag compression piece 1, the compression force can be controlled by adjusting the inflation quantity, the sand bag 24 is matched with the self gravity of the sand bag to perform better compression hemostasis effect, the binding belt assembly 3 is bound on a patient, the positions of the arteriovenous air bag compression piece 1 and the sand bag compression structure 2 are fixed, the artificial compression and elastic belt compression modes are replaced to perform hemostasis in the above modes, the waste of disposable products such as gauze is reduced while the compression hemostasis effect is ensured, and the operation cost is reduced;

When the inflatable bag is used, the inflatable nozzle 15 is used for inflating and deflating, the inflated air bag 14 expands in the air bag accommodating cavity, and on the premise that the artery and vein air bag pressing piece 1 is worn through the binding belt assembly 3, the inflation of the air bag 14 can press the sand bag pressing structure 2 to be tightly attached to the outside of the artery and vein puncture bleeding point; the arc-shaped rubber strips 4 which are vertically symmetrical are attached to the outer wall of the bandage component 3, so that the middle part of the bandage component 13 passing through the bandage through hole 12 can be clamped and limited, and meanwhile, when external force is pulled, the arc-shaped rubber strips 4 can overcome friction force to slide on the outer wall of the bandage component 3;

The connecting belt 21 of the sand bag pressing structure 2 is adhered to the bottom surface of the arteriovenous air bag pressing piece 1 through the first magic tape 22, after the primary and secondary tapes of the first magic tape 22 are detached, a sand bag 24 can be put into or taken out of the sand bag containing bag 23, the sand bag 24 can be replaced by a salt bag, and the detached sand bag containing bag 23 is convenient for disinfection and sterilization; the left and right corresponding strip belts 32 in the strap assembly 3 can be adhered and fixed through the second magic tape 33, can be wound and fixed on most positions of the body of a patient, and two strip belts 32 on each side can be fixed at different positions.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. A hemostatic compressor for arteriovenous puncture, characterized in that: including arteriovenous gasbag oppression piece (1), the removable adhesion of arteriovenous gasbag oppression piece (1) bottom surface is fixed with sand bag oppression structure (2), and sand bag oppression structure (2) laminating outside arteriovenous puncture bleeding point, the transverse bandage subassembly (3) that runs through of arteriovenous gasbag oppression piece (1) lower extreme.

2. A hemostatic compressor for arteriovenous puncture according to claim 1, wherein: the artery and vein gasbag oppression piece (1) includes fixed band (11), transversely set up bandage through-hole (12) in fixed band (11), bandage subassembly (3) middle part is passed bandage through-hole (12), fixed band (11) upper surface middle part integrated into one piece has arc arch (13), the gasbag holds the chamber in seting up in arc arch (13), and the gasbag holds intracavity grafting and have gasbag (14), fixed surface intercommunication has air tap (15) on gasbag (14), and air tap (15) upper end runs through the gasbag and holds chamber top surface and extend to outside.

3. A hemostatic compressor for arteriovenous puncture according to claim 2, wherein: arc rubber strips (4) are stuck and fixed at the edges of the upper side wall and the lower side wall of the left end and the right end of the binding belt through hole (12), and the middle part of the outer wall of the binding belt assembly (3) is clamped at the inner side ends of the arc rubber strips (4).

4. A hemostatic compressor for arteriovenous puncture according to claim 1, wherein: the sand bag pressing structure (2) comprises a connecting belt (21), a sand bag storage bag (23) is fixedly communicated with the middle of the bottom surface of the connecting belt (21), a sand bag (24) is inserted into the sand bag storage bag (23), and a first magic tape (22) is arranged between the upper surface of the connecting belt (21) and the bottom surface of the artery and vein air bag pressing piece (1).

5. A hemostatic compressor for arteriovenous puncture according to claim 2, wherein: the bandage component (3) comprises a bandage main body (31) penetrating through the bandage through hole (12), strip-shaped belts (32) are sewn on the front side and the rear side of the left end and the right end of the bandage main body (31), and second magic tapes (33) are arranged between the bottom surface and the top surface of the strip-shaped belts (32) in a left-right corresponding mode.