The present utility model relates to a medical device, and particularly to a doser having two needles.
For adding medicine in a medicine container (generally a penicillin bottle) to a solution in a transfusion container (a transfusion soft bag or a transfusion soft bottle), and then transfusing the mixed solution into a patient in a clinical institution such as a hospital.
In the prior art, an injector is usually used to mix medicine in a medicine container with the solution in a transfusion container (a transfusion soft bag or a transfusion soft bottle).First, an injector is used to inject the solution in the transfusion container (a transfusion soft bag or a transfusion soft bottle) into the medicine container, and then the same injector is used to inject the mixed solution into the transfusion container (a transfusion soft bag or a transfusion soft bottle). Currently, this kind of method is also commonly used in a clinical institution of a hospital. However, this medicine mixing method is complicated to operate and time-consuming, by which, not only medical dispensing error is susceptible to occur, but also contamination is likely to be introduced in the medicine mixing process, thereby impacting medication safety and causing a serious medical accident. Therefore, improving the medicine mixing method is an essential task for the preparation before transfusion.
To eliminate the disadvantages described above in the prior art, a doser having two needles is provided according to the present utility model, which is only required to penetrate once to achieve medicine mixing and makes the medicine mixing operation simpler and more time-saving.
To address the technical problems mentioned above, the following technical solutions are employed in the present utility model:
A doser having two needles, wherein the two needles consist of a needle seat, an upper needle and a lower needle, the upper needle and the lower needle are arranged at both sides of the needle seat, the upper needle and the lower needle both have a hollow structure and are in communication with each other, wherein a medicine mixing body of a cup structure is formed through extending along an edge of the needle seat in a direction toward the upper needle.
As a preferred solution of the present utility model, the upper needle and the lower needle are both arranged along an axis of the medicine mixing body of the cup structure.
As another preferred solution of the present utility model, a sealing diaphragm is provided on an upper port of the medicine mixing body.
As yet another preferred solution of the present utility model, at least two anti-slip buckles in barb-shape and for preventing the medicine container from loosening are arranged symmetrically on the inner wall of the medicine mixing body.
As an improved solution of the present utility model, the two needles and the medicine mixing body are enclosed within an outer package.
As another improved solution of the present utility model, an annual rubber cushion sleeved outside the upper needle is provided at the bottom of the medicine mixing body.
As yet another improved solution of the present utility model, the doser having two needles further includes a sealing sleeve and a protecting sleeve, the sealing sleeve is sleeved onto a needle tip of the lower needle, the protecting sleeve is sleeved outside the sealing sleeve and fixed to the medicine mixing body or the lower needle.
As a further improved solution of the present utility model, the protecting sleeve is fixed to the bottom of the medicine mixing body.
As a further improved solution of the present utility model, a snapping sleeve is provided at the bottom of the medicine mixing body, the protecting sleeve is sleeved onto the snapping sleeve in a snapping manner and is hermetically cooperated with the snapping sleeve.
As a further improved solution of the present utility model, an annual boss is provided on an outer wall of the lower needle in a circumferential direction, the protecting sleeve is sleeved onto the annual boss and is hermetically cooperated with the annual boss.
As a further improved solution of the present utility model, the sealing sleeve is made of an elastic, flexible or soft material.
The advantageous effects of the present utility model include that, when the doser having two needles is used, it is only required to penetrate through the sealing plug of the medicine container by the upper needle, and to penetrate through the sealing plug in the sealing cover on the transfusion container (a transfusion soft bottle or a transfusion soft bag) simultaneously by the lower needle, and squeezing the transfusion container(a transfusion soft bag or a transfusion soft bottle), the medicine in the medicine container may be mixed with the solution in the transfusion container (a transfusion soft bag or a transfusion soft bottle), which makes the medicine mixing operation simpler and more time-saving.
DESCRIPTION OF THE DRAWINGS
In the drawings:
1—needle seat; 2—upper needle; 3—lower needle; 4—medicine mixing body; 5—sealing diaphragm; 6—anti-slip buckle; 7—medicine container; 8—transfusion container; 9—sealing cover; 10—sealing plug; 11—annual rubber cushion; 12—sealing sleeve; 13—protecting sleeve; 14—snapping sleeve; 15—annual boss.
The present utility model is further described in detail hereinafter in connection with drawings and specific embodiments.
A doser having two needles is shown in
A sealing diaphragm 5 is provided on an upper port of the medicine mixing body 4, the two needles and the medicine mixing body 4 are enclosed within an outer package. Before use, the sealing diaphragm 5 is used with the outer package (eg. a sealing bag), such that the medicine mixing body 4 and the two needles can be in a sealing condition, which not only maintains that the medicine mixing body 4 and the upper needle 2 within the medicine mixing body 4 are of high level of cleanliness before use, but also effectively preserves the sharpness of the upper needle 2 and the internal structure of the medicine mixing body 4, thereby avoiding the damage during transportation. When in use, it is simply required to open the outer package and remove the sealing diaphragm 5.
At least two anti-slip buckles 6 in barb-shape and for preventing a penicillin bottle from loosening are arranged symmetrically on the inner wall of the medicine mixing body 4. In this example, six anti-slip buckles 6 are arranged symmetrically on the inner wall of the medicine mixing body 4. After the medicine container 7 is snapped into the medicine mixing body 4, under the hindering effect of the anti-slip buckles 6, the medicine container 7 may be prevented effectively from escaping or loosening from the medicine mixing body 4 in the opposite direction.
An annual rubber cushion 11 sleeved outside the upper needle 2 is provided at a bottom of the medicine mixing body 4. Since the annual rubber cushion 11 is of good elasticity, when the medicine container 7 is snapped into the medicine mixing body 4, the medicine container 7 may be prevented effectively from loosening by the annual rubber cushion 11 and the anti-slip buckles 6 at the medicine mixing body 4. The position at which the medicine container 7 is connected to the medicine mixing body 4 by being inserted is sealed completely by the annual rubber cushion 11, which prevents medicine leakage from occurring during medicine mixing, and strictly ensures the absolute air-tightness in the medicine container 4 after the medicine mixing, and avoids a risk of bacterial infections.
The doser having two needles further includes a sealing sleeve 12 and a protecting sleeve 13, the sealing sleeve 12 is sleeved onto the needle tip of the lower needle 3, and the protecting sleeve 13 is sleeved outside the sealing sleeve 12 and fixed to the medicine mixing body 4 or the lower needle 3. In
Since the sealing sleeve 12 is sleeved onto the needle tip of the lower needle 3, the needle tip of the lower needle 3 is allowed to be in a sealed condition by the sealing sleeve 12, and a passage within the two needles and the medicine mixing body 4 are allowed to be in a sealed condition by the sealing sleeve 12 and the sealing diaphragm 5 provided at the upper port of the medicine mixing body 4, thereby effectively preventing the passage within the two needles and the medicine mixing body 4 from being polluted. The protecting sleeve 13 is sleeved outside the sealing sleeve 12 and fixed to the medicine mixing body 4, the protecting sleeve 13 serves to keep the sealing sleeve 12 and the lower needle clean, thus it can prevent the sealing sleeve 12 from being removed from the needle tip under the action of an external force.
Using the doser having two needles may include, as shown in
It is to be noted finally that. the above examples are only intended to illustrate technical solutions of the present utility model rather than a limitation to the present invention. Though the present utility model has been described in detail with reference to the preferred examples, it should be appreciated by an ordinary skilled in the art that, a few of modifications or equivalent substitutions may be made to the technical solutions of the present utility model without departing from the principle and scope of the technical solutions of the present utility model, and these modifications or equivalent substitutions should be encompassed in the scope defined by the claims of the present utility model.
Number | Date | Country | Kind |
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201220045386.4 | Feb 2012 | CN | national |
201220173732.7 | Apr 2012 | CN | national |
201220173744.X | Apr 2012 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2012/079549 | 8/2/2012 | WO | 00 | 1/19/2015 |