CN209951328U - Medical novel high-efficient hemostasis device - Google Patents

Abstract

The utility model is suitable for the technical field of medical instruments, and provides a novel medical high-efficiency hemostatic device, which comprises a cylindrical rubber body, a hemispheroid and a cotton rope, wherein one end surface of the cylindrical rubber body is fixedly connected with a plaster application, the side surface of the cylindrical rubber body is uniformly connected with the cotton rope, and the other end of the cotton rope penetrates through the hemispheroid and extends to the other side of the hemispheroid; the rope extending out of the hemisphere is provided with a locking mechanism, the locking mechanism is of a curved cylinder structure, one end, far away from the hemisphere, of the locking mechanism is divided into two half cylinder structures which can be meshed along the axis, one end, close to the hemisphere, of the locking mechanism is provided with a first through hole along the axis, and the rope penetrates through the first through hole and extends out of the other end of the locking mechanism. Can realize the obvious hemostatic effect, can not cause the situations of blood seepage and blood stasis and can help the patients to relieve the discomfort of hands as soon as possible.

Description

Medical novel high-efficient hemostasis device

Technical Field

The utility model belongs to the technical field of medical instrument, especially, relate to a medical novel high-efficient hemostasis device.

Background

At present, after daily venous interventional therapy, blood sampling inspection and transfusion, when a patient needs to pull out a venous indwelling needle, a disposable blood taking needle or a disposable venous transfusion needle, the compression hemostasis is carried out on a wound. Generally, the purpose of hemostasis by compression is achieved by using an infusion patch or a disposable medical cotton swab to enable a patient to compress the infusion patch for five to ten minutes.

However, in actual clinical work, due to the limitation of various reasons, nurses and patients are not easy to press for enough time, if the patients cannot press themselves or help family members to press, the nurses are required to press the patients to go to and from nurse stations and wards, the workload of the nurses is unnecessarily increased, if the patients press the patients unreasonablely, the situations of bleeding, blood stasis and the like can easily occur, and in addition, some existing hemostatic devices cannot avoid the compression of other peripheral blood vessels in the compression process, so that the fingers are easy to numb, the compression force is uneven, the local part is easy to suffer from blood stasis and purplish blood, and particularly, the incidence rate of the elderly and the patients with large fragility of the blood vessels is high. Moreover, in the process of infusion, the hands of the patient are in a posture for a long time, and the hands are easy to be numb and generate uncomfortable feeling.

Therefore, the novel efficient hemostasis device which is simple to operate, uniform in compression force and capable of effectively reducing the generation of blood stasis and finger numbness is provided, and the technical problem which needs to be solved urgently is solved.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a medical novel high-efficient hemostasis device aims at solving the hemostasis by compression behind the infusion, and current hemostasis device oppression power is inhomogeneous, can not avoid blood vessel on every side, causes the problem of hand anesthesia and blood stasis blue and purple easily. The embodiment of the utility model is realized in such a way, and the novel medical high-efficiency hemostatic device is characterized by comprising a cylindrical rubber body, a hemispheroid and a thread rope, wherein,

one end face of the cylindrical rubber body is fixedly connected with an application plaster, the side face of the cylindrical rubber body is uniformly connected with a thread rope, and the other end of the thread rope penetrates through the hemisphere and extends to the circular surface of the hemisphere;

the rope extending out of the hemisphere is provided with a locking mechanism, the locking mechanism is a curved cylinder structure, the cylinder structure comprises two half cylinder structures which are arranged along an axis and can be meshed, the cylinder structure is provided with a first through hole along the axis, the rope penetrates through the first through hole and extends out of the other end of the locking mechanism, one end of a circular plane of the hemisphere is concavely provided with a lock hole matched with the locking mechanism, and the locking mechanism is inserted into the lock hole in a matched mode.

Furthermore, the application is in a cross shape, the application is folded towards the center, the center of the application is connected with the cylindrical rubber body, one side of the application with the adhesive faces the cylindrical rubber body, and release paper is arranged on the adhesive.

Furthermore, an arc-shaped structure is arranged at the cross of the application crosses.

Furthermore, a stopper is connected to one end of the wire extending out of the locking mechanism.

Further, the side of the cylindrical rubber body, which faces away from the application, is a convex oval.

The rope is characterized in that the arc-shaped surface of the hemisphere is provided with a second through hole, the second through hole penetrates through the circular surface of the hemisphere, and the rope penetrates through the second through hole.

Furthermore, the hemispheroid is of a rubber structure.

Further, the cord is an elastic cord.

Compared with the prior art, the utility model provides a medical novel high-efficient hemostasis device has following beneficial effect:

the cylindricality rubber body is soft rubber materials, the oppression of cylindricality rubber body one end is pasted at the infusion of wound, can realize the effect of oppression hemostasis, the other end is pasted around the wound by applying ointment or plaster oppression, the cylindricality rubber body in the middle of applying ointment or plaster is elastic, can press always on the wound under the effect of applying ointment or plaster, and, the cylindricality rubber body is more firm under the effect of applying ointment or plaster presses the wound, it is lasting to press the effect, press and can not remove, can not make the wound appearance oozing blood and the bruise blue and green, in addition, the cotton rope also can further stabilize the cylindricality rubber body under the effect of locking mechanism and lockhole. The hemispheroid can provide a supporting force for the palm in the infusion process, so that the palm can be infused in a more comfortable state, hand numbness caused by long-time discomfort of the hand is reduced, in the hemostasis process, the hemispheroid is arranged at the palm position, the fingers can be bent and pressed, the effect of assisting the fingers to move is realized, the state of the fingers is restored as soon as possible, and the discomfort is relieved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention 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, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic structural view of a novel medical high-efficiency hemostatic device provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of the novel medical high-efficiency hemostatic device provided by the embodiment of the present invention in a hemostatic state;

fig. 3 is a schematic structural view of the application of the novel medical high-efficiency hemostatic device provided by the embodiment of the invention.

Reference numerals:

1-cylindrical rubber body, 11-application, 2-hemisphere, 21-lock hole, 22-second through hole, 3-thread rope, 4-locking mechanism, 41-first through hole and 5-blocking piece.

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.

In order to effectively explain the embodiments of the present invention, the embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Compared with the prior art, as shown in the reference figures 1-3, the utility model provides a novel medical high-efficient hemostasis device includes the cylindricality rubber body, hemispheroid and cotton rope, fixedly connected with is applied ointment or plaster on the cylindricality rubber body terminal surface, the side evenly is connected with the cotton rope, and the other end of cotton rope runs through the hemispheroid, and extend to the another side of hemispheroid, be provided with locking mechanism on the cotton rope that extends the hemispheroid, the cotton rope passes first through-hole and extends locking mechanism's the other end. The application provides a medical novel high-efficient hemostasis device, simple structure, hemostatic effect is obvious, effectively reduces the uncomfortable sense that the infusion brought for the patient.

Fig. 1 is the utility model provides a novel high-efficient hemostasis device of medical structure schematic diagram, as shown in fig. 1, the novel high-efficient hemostasis device of medical structure schematic diagram that this application provided includes the cylindricality rubber body 1, hemispheroid 2 and cotton rope 3, in the concrete implementation process, can dismantle on 1 terminal surface of the cylindricality rubber body and be connected with application 11, the side evenly is connected with cotton rope 3, the cylindricality rubber body 1 is adhesive connection with application 11, the one side that the cylindricality rubber body 1 deviates from application 11 is oval, and by the cylindricality rubber body to terminal surface evagination, the infusion of wound department is pasted more can be laminated to outstanding elliptical surface, reach the effect that the finger was pressed, the side of the cylindricality rubber body 1 is outstanding cambered surface, make the cylindricality rubber body 1 increase with the contact surface of applying ointment or plaster and infusion after being pressed, can be more firm. The cotton rope 3 sets up in the both sides of cylindricality rubber body 1 relatively, and the one end of cotton rope 3 is directly pour in cylindricality rubber body 1, and is more firm reliable. The other end of the cord 3 penetrates through the curved surface part of the hemisphere 2 and extends to the outer side of the round end of the hemisphere 2, specifically, a second through hole 22 is formed in the position where the cord 3 penetrates through the hemisphere 2, and the cord 3 slides in the second through hole 22. In the specific implementation process, the cylindricality rubber body 1 is preferably soft medical rubber, more is close the finger and presses, and hemisphere 2 is preferably the rubber construction, brings the comfort for the patient, and cotton rope 3 is preferably flat elastic cord, prevents that cotton rope 3 from causing the line mark to the patient, and the flat elasticity of cotton rope increases the deformation of cotton rope, further increases and uses the comfort. In addition, in the specific implementation process, the hemispheroid 2 can be padded below the palm during infusion to provide a supporting force for the palm, so that the discomfort caused by infusion is reduced, and when hemostasis is needed after the infusion is finished, the hemispheroid 2 can help the fingers to move and exert force in the palm, so that the flexibility of the fingers of a patient can be recovered as soon as possible, and the discomfort of the fingers can be relieved as soon as possible.

In the specific implementation process, the cord 3 extending out of the hemisphere 2 is further connected with a locking mechanism 4, specifically, the locking mechanism 4 is a curved cylinder structure, one end of the locking mechanism is slightly pointed, a first through hole 41 is formed in the center of the tip end along the axis direction, and the cord 3 penetrates through the first through hole 41 and extends out of the locking mechanism 4. The other end of the column body structure is divided into two semi-column body structures which can be meshed along the axis direction, specifically, one surface of a contact surface of the two semi-column body structures is a tooth-shaped protrusion, the other surface of the contact surface is a sunken tooth groove, the tooth-shaped protrusion and the tooth groove can be just meshed, and a thread rope 3 which passes through the tooth groove after meshing cannot move again. In addition, a locking hole 21 matched with the locking mechanism 4 is sunken in the circular end surface of the hemisphere 2, and the size of the locking hole 21 enables the two half-cylinder structures of the plugged locking mechanism 4 to be tightly meshed. In addition, the stopper 5 connected to one end of the cord 3 extending out of the locking mechanism 4 is sized and shaped to ensure that the locking mechanism 4 and the hemisphere 2 slide down on the cord 3, and in the specific implementation process, the stopper 5 is detachably connected to the cord 3, specifically, the end of the cord 3 is provided with a knot, and the knot extends out of the stopper 5 from the cord 3, so that the stopper 5 cannot slide down from the cord 3. In the specific implementation process, as shown in fig. 2, the cord 3 can be tensioned during hemostasis, the tensioning degree can enable the patient to adapt to the hemostasis, and the locking mechanism 4 is plugged into the lock hole 21 to lock the cord 3.

As shown in figure 3, in the specific implementation process, when the hemostatic device is not used, the application 11 is folded at one end of the cylindrical rubber body 1, release paper is arranged at the adhesive positions of the application 11, so that the application 11 cannot be adhered together, the application 11 is in a cross shape after being unfolded, when the hemostatic device is used, the cylindrical rubber body 1 covers the application 11 and the skin, the cross-shaped application 11 can change wrinkles generated when the whole application is adhered to the skin, so that the adhesion is firmer, the arc-shaped application is additionally arranged at the cross position, and the arc-shaped application and the application at the cross position are in an integrated structure, so that a wound can be better isolated, and bacteria infection of the wound can be prevented.

When a patient is transfused, the hemisphere 2 is padded under the palm, the hemisphere 2 can provide a supporting force for the palm, so that the patient is more comfortable in the process of transfusion, when hemostasis is needed after transfusion is finished, the transfusion plaster at the wound is pressed by one end of the cylindrical rubber body 1, the application plaster 11 at the other end of the cylindrical rubber body 1 is unfolded, the release paper of the application plaster 11 is removed, the application plaster 11 is stuck on the back of the hand, since the cylindrical rubber body 1 is provided in the center of the application 11, the sticking will protrude from the palm, if a one-piece application is used, a gap will be generated between the application and the back of the hand, the sticking is easy to be weak, and the application of cross 11 messenger's application of ointment or plaster can be flat glue on the back of the hand, can not produce the gap between application of ointment or plaster 11 and the back of the hand, paste more firmly, and the arc structure of cross department can be on guaranteeing to paste firm basis, increases the adhesion area, makes better and external isolation in wound, and the protection wound can not receive bacterial infection. The locking mechanism 4 tightens up the cord 3, fills in the lock hole 21, and the cord 3 also can play reinforced effect to the cylindrical rubber body 1, fixes the hemisphere 2 in the palm, and the hemisphere 2 of rubber construction can help the finger activity, makes the patient eliminate the uncomfortable sense of finger because the infusion produces fast.

From this, the application provides a pair of medical novel high-efficient hemostasis device, simple structure, hemostatic effect is obvious, can realize stanching fast, reaches the effect that the finger was pressed, and difficult removal can not produce the siltation blue or green, in addition, can also provide the support during the infusion, reduces patient's uncomfortable and feels.

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. A novel medical high-efficiency hemostatic device is characterized by comprising a cylindrical rubber body (1), a hemispheroid (2) and a thread rope (3), wherein,

one end face of the cylindrical rubber body (1) is fixedly connected with an application plaster (11), the side face of the cylindrical rubber body is uniformly connected with a thread rope (3), and the other end of the thread rope (3) penetrates through the hemisphere (2) and extends to the circular surface of the hemisphere (2);

the locking mechanism (4) is arranged on the wire rope (3) extending out of the hemispheroid (2), the locking mechanism (4) is a curved cylinder structure, the cylinder structure comprises two engageable semi-cylinder structures arranged along an axis, a first through hole (41) is formed in the cylinder structure along the axis, the wire rope (3) penetrates through the first through hole (41) and extends out of the other end of the locking mechanism (4), a locking hole (21) matched with the locking mechanism (4) is formed in one end of a circular plane of the hemispheroid (2) in a concave mode, and the locking mechanism (4) is inserted into the locking hole (21) in a matched mode.

2. The novel medical efficient hemostatic device as claimed in claim 1, wherein the application patch (11) is in a cross shape, the application patch (11) is folded towards the center and connected with the cylindrical rubber body (1) at the center, the side of the application patch (11) with the adhesive faces the cylindrical rubber body (1), and release paper is arranged on the adhesive.

3. The medical new high-efficiency hemostatic device according to claim 1, characterized in that the crisscross of the application patch (11) is provided with an arc structure.

4. The novel medical high-efficiency hemostatic device according to claim 1, wherein a stopper (5) is further connected to one end of the string (3) extending out of the locking mechanism (4).

5. The novel medical high-efficiency hemostatic device according to claim 1, wherein the side of the cylindrical rubber body (1) facing away from the application is a convex oval.

6. The novel medical high-efficiency hemostatic device according to claim 1, wherein the arc-shaped surface of the hemisphere (2) is provided with a second through hole (22), the second through hole (22) penetrates through the circular surface of the hemisphere (2), and the thread rope (3) penetrates through the second through hole (22).

7. The medical novel high-efficiency hemostatic device according to claim 1, wherein the hemisphere (2) is of a rubber structure.

8. The novel medical high-efficiency hemostatic device according to claim 1, wherein the thread (3) is an elastic thread.

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