Syringe guideAbstract Claims Description [0001] This non-provisional application is related to the provisional application filed on Aug. 21, 2003, application No. 60/496,544 STATEMENT REGUARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT [0002] Not Applicable REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISC APPENDIX [0003] Not Applicable BACKGROUND OF THE INVENTION [0004] The invention is technically related to the puncturing process when removing liquid medication from a vile using a syringe. It also analogically relates to the movement of the needle on a sewing machine during the first puncture, because the needle is guided. BRIEF SUMMERY OF THE INVENTION [0005] The Syringe Guide consists of a plastic pipe with a slit running the entire length. One end of the pipe has a greater diameter than the opposite end. A medication vile (head first) is placed at the end with the greater diameter and a syringe (needle end first) is placed in the end with the smaller diameter. The Syringe Guide helps minimize needle sticks and makes drawing medication from a vile faster and easier. BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS [0006] The invention will be described in more detail using references to the appended drawings. [0007] FIG. 1 depicts, an exploder assembly view of the Syringe Guide with the syringe and the vile. [0008] FIG. 2 depicts, an assembly view of the Syringe Guide with the syringe and the vile. [0009] FIG. 3 depicts, an assembly view of the Syringe Guide with local sections and a magnified detail view of the puncturing area. [0010] FIG. 4 depicts, the Syringe Guide and local sections. DETAILED DESCRIPTION OF THE INVENTION [0011] The Syringe guide is made of transparent plastic, more specifically from plastics used to manufacture medical devises that can be sterilized, using injection molding. Different dimensions of the Syringe Guide can be manufactured. Generally, the Syringe guide has been designed for use in emergency rooms, hospitals, clinics, and homes (administration of insulin). The advantages of this invention are that it makes aspiration of medication from a vile faster, safer cleaner, and easier. For example, when puncturing the vile with a needle one does not have to aim, the guide ensures that the needle punctures the center of the vile. In addition, when puncturing the vile one does not have to take caution with finger sticks because the guide forms a protective barrier around the syringe and the vile. Moreover, when the needle is inside the vile one does not have to hold the vile, one can aspirate the medication holding the syringe and the syringe plunger. Furthermore, the Syringe Guide somewhat protects the needle against dust and airborne microbes by forming a barrier from the outside environment. [0012] The following part will use the drawings to explain the invention in detail. The safety syringe FIG. 1-1 consists of a plastic pipe. The pipe has a small diameter at one end and a larger diameter at the opposite end. The end of the guide with the large diameter has a length that is shorter then the length of the vile 3. The end with the smaller diameter has a length smaller then the length of the syringe 4 not including the needle. The end with the larger diameter is shorter then the end with the small diameter. FIG. 2 shows the positions of the syringe, the vile, and the Syringe Guide when assembled. [0013] The end with the bigger diameter FIG. 1-1 has an internal diameter smaller then the external diameter of the vile 3. Also, the end with the smaller diameter has an internal diameter smaller then the external diameter of the syringe 4. This is done to ensure that when the syringe, Syringe Guide, and the vile are assembled FIG. 2 the Syringe Guide will expand its slit FIG. 1-2, and will grip the syringe and the vile. [0014] The Syringe Guide is used in the following matter. After sanitizing the vile FIG. 1-3, the vile is inserted into the Syringe Guide FIG. 1-1 in the direction 5. Surface FIG. 1-3a comes into contact with surface FIG. 4-11 and the vile slides forward until surface FIG. 3 magnified view G-7a it comes into contact with FIG. 4-9 and stops. In order to insert the syringe in the Syringe Guide the Syringe Guide-vial assembly either has to be placed on a hard surface with the vile at the bottom or the assembly has to be held in ones hand with the vial being between the thumb and the index finger, followed by placing the thumb at the bottom of the vile to prevent the vile from slipping out. After uncapping the syringe FIG. 1-4 the syringe is placed in the Syringe Guide FIG. 1-1 in the direction 6. Surface FIG. 14a comes into contact with surface FIG. 4-10 the syringe FIG. 1-4 slides forward until the needle FIG. 3-8 punctures the center of the vile head FIG. 3 magnified view G-7 and the needle can be seen in the vile. During the puncturing process the Syringe Guide-vile assembly has to be in one of the two conditions as mentioned earlier to prevent the vile from slipping out of the Syringe Guide. After the puncturing process has occurred we have the Syringe Guide, vile and syringe assembly FIG. 2. To aspirate the medication from the vile, hold the assembly FIG. 2 so that the vile is pointing up. With one hand hold the syringe FIG. 1-4 and with the other hand hold the plunger of the syringe (no need to hold the vile) and aspirate. The syringe then can be removed by direction opposite FIG. 2-6, capped and ready for use. The vile can also be removed by direction opposite FIG. 2-5 and stored for later use. Home Medical Desiccants Air Purifier Air Freshener Adjustable Bed Sprinkler Toner Cartridge Water Dispenser Electric Oven Medical Supplies Shopping Cart Desiccant Cheap Eyeglasses Cheap Glasses rimless eyeglasses safety glasses motorcycle goggles Copyright 2005-2025 www.qiaoyun.net All rights reserved |