HUT73523A - Sefly-operated multishot sidearm injection side using a needleless injector - Google Patents

Abstract

A multishot sidearm injection site using a needleless injector is made up of a main body (21), an extension sidearm (22) and a silicone valve body (23); the extension sidearm (22) is attached to one side of the main body (21) and the silicone valve body (23) is laterally disposed in the through hole (212) of the main body (21) and in abutment against the extension sidearm (22). When medical solution is to be infused into a patient by means of the present injection site, a needleless syringe is inserted into the conical seat (221) of the extension body (22) with the microaperture valve stem (222) thereof fitting inside the male luer member of the applied injection syringe. An operation on the syringe will produce a pressure in the tubular injection opening (223), which will force the silicone valve body (23) to open so as to permit the injected medical solution to enter the delivery tube of the main body.

Description

BACKGROUND OF THE INVENTION The present invention relates to a safely operated multi-injection side-arm injection device with needle-less injection. The injection device has a device body, a protruding side arm, and a cylindrical silicone valve body. The valve body is located laterally in the body of the device and rests on the protruding side arm so that it seals a tubular tube. This vial passes through the center of a valve stem with a microprotection located in a protruding lateral arm. A protruding syringe is inserted into the protruding side arm so that the valve stem extends inside the stopper portion of the standard Luer taper of the injection syringes. When the tuneless syringe is operated, pressure is applied to the valve body and opened. This allows the medical solution to be injected into the dispensing tube of the device body. The pressure drop or removal of the injection syringe closes the valve body so that no air enters the dosing tube. A key feature of the present invention is that it can prevent emboli caused by air entering the inlet dosing tube.

In the device shown in Figure 1, a typical injection needle is connected by a flexible rubber tube 10 with a drip. Another improved Y-shaped injection device is shown in Figure 2. This injection device consists of a main tube 11 and a branch tube 12. The branch pipe 12 is disposed on the side of the main pipe 11 and is at an angle thereto and is in communication therewith. The branch pipe 12 is closed by a rubber stopper 13. The ends of the main tube 11 are connected to a dispensing boat. If a patient to be treated with a drip injection is to be given another solution, the solution is usually administered directly into the rubber tube 10 or through the rubber stopper 13.

I is injected into a branch tube. Thus, the patient is relieved of another painful injection. The disadvantages of known injection devices are:

a) The nurse should hold the syringe with one hand and insert the pointed needle into the 10 rubber tubes or 13 rubber plugs in the other hand. Quite often the needle accidentally injures the nurse's hand. Thus, a nurse can easily become infected if her wound comes in contact with the blood of a patient suffering from AIDS, since AIDS infects humans by blood or human mucosa. Therefore, known injection devices cannot be operated with sufficient safety. This is especially true nowadays when AIDS threatens innocent people through accidental contact.

or lead to very small rubber debris in the rubber stopper.

rubber debris may fall into the injection tube and may adversely affect the patient who is required to perform a drip operation.

repeated puncture of the pointed needle will result in very small holes in the rubber tube 10 or rubber stopper, which will be inserted into the dosing tube.

The introduction of air into the infusion tube causes emboli.

Therefore, the primary object of the present invention is to provide a safely operable, multiple injection device in which a needle-less injector is used to inject the drug solution into the lateral injection dosing tube so that accidents caused by pointed needles do not occur.

Another object of the present invention is to provide a safely operated, multiple-injection, lateral-arm injection device with a lung-less injector to inject the drug solution into the injection tube via a valve-controlled injection tube so that the injection device does not have punctures, air is introduced into the infusion tube.

These objects are accomplished in accordance with the present invention by providing a tubular through hole and a lateral through hole in the body of the injection device of the type described above, which is in communication with the tubular through hole. One end of the protruding side arm is closed and has a protruding valve stem. The valve stem has an injection tube in the center of the closed end of the protruding lateral arm. There are two eyes in the circumference at the end of the protruding side arm opposite the closed end. The diameter of the cylindrical silicone valve body is smaller than the smallest diameter of the tubular through hole in the body. The cylindrical valve body is located laterally in the tubular through hole in the housing. The closed end of the protruding side arm is inserted into the lateral through hole in the body of the device so that the valve body is sealed against the injection tube in the protruding side arm.

The invention will now be described in more detail with reference to the accompanying drawings, in which:

Figure 1 is a known injection needle used in a general drip, a

Figure 2 is a sectional view of a known Y-shaped injection device, a

Figure 3 is a perspective exploded view of parts of an injection device according to the invention, a

Figure 4 is a perspective view of the injection device of Figure 3, assembled,

Figure 5 is a sectional view showing the structure of an injection device according to the invention, a

Figure 6 shows the use of an injection device according to the invention in a drip system, a

Figure 7 is a sectional view of an injection device according to the invention, a

Figure 8 is a sectional view of another embodiment of an injection device according to the invention.

Figures 3, 4 and 5, illustrated in Figures 3, 4 and 5, comprise a device body 21, a protruding side arm 22, and a valve body 23, which are operable in a plurality of injections according to the invention. The injection device is made of a transparent, thermoplastic plastic material suitable for mechanical purposes, which is sufficiently rigid and transparent to monitor the internal fluid flow. The valve body 23 is made of flexible silicone.

The device body 21 is tubular and has a tubular hole 211. The device body 21 further comprises a lateral through hole 212 that engages with the hole 211 in the device body 21. The protruding side arm 22 is inserted into the hole 212.

The protruding lateral arm 22 is tubular and has a closed end having a conical inner wall 221. At the center of the closed end of the protruding lateral arm 22 is an inwardly projecting valve stem 222. Valve stem 222 has a tubular injection hole 223 through which the drug solution is injected into the injection tube. The circumference of the opposite end of the closed end has two 224 eyes.

The valve body 23 is cylindrical and has an outside diameter smaller than the smallest diameter of the tubular through hole 211, so that when the valve body 23 is positioned sideways in the through hole 211, there is still sufficient space for the drug solution to pass through.

4 and 5, showing the injection device in its assembled state, after positioning the cylindrical valve body 23 in the body 21, the protruding side arm 22 is inserted into the lateral through hole 212 of the body 21. The closed end of the protruding side arm 22 rests on the valve body 23, thereby closing the tubular injection hole 223.

As shown in FIG. 6, the injection device of the present invention is connected to the dripping device 30, the filter device 31 connected to the volume regulator 32 and the dispensing tube 33 projecting therewith with a drip lid. The lower end of the dosing tube 33 is connected to the injection device 20 of the present invention and another dosing tube 33 is connected to an injection needle at the end of the drip system.

As shown in Figure 7, if another drug solution is to be introduced into the drip system, a needle-less syringe 40 is used to withdraw the solution from a drug container to inject this solution into the drip system. The protruding syringe tip 41 of the syringe 40 is inserted into the conical through hole 221 of the projecting side arm 22. The valve stem 222 then projects into the hole 41 in the protruding syringe tip. Because the through hole 221 in the wall 221 is tapered, when the syringe tip 41 extends into the through hole 221 in the wall, the air in the hole is displaced and no air is pumped into the dosing tube while injecting the drug solution from the syringe 40. This eliminates the cause that can cause emboli in the patient's blood vessel.

When the syringe 40 is in operation by injecting a drug solution into the device, the pressure opens the valve body 23, allowing the solution to pass through the tubular injection port 223 into the dispensing tube 33. When the pressure is released or the syringe 40 is removed, the deformed valve body 23 returns to its original shape and closes the injection port 223, thereby preventing air from entering. Therefore, no matter how many times the injection device is used, no air can enter the drip system. As shown in Figure 8, the projection end of the syringe 40 may be provided with additional threads 42. Thus, the syringe 40 may be rigidly attached to the eyes 224 of the protruding lateral arm 22.

It can be seen that the invention has the following advantages:

a) The use of a needle-less syringe to inject a drug solution effectively protects the nursing staff from accidental needle injury.

(b) The risk of fatal infection due to needle injury is eliminated for nursing staff.

c) The use of needle-less injection effectively avoids repeated piercing of the dispensing tube and thus prevents the embolism that may be caused by the introduction of air into the drip system.

d)

(e) protruding protrusion

No rubber debris is formed due to puncture with the needle.

The injection syringe can be held firmly in place by the additional threads at the end of the syringe attached to the eyes on the lateral arm.

, .73523

Claims (1)

PATENT CLAIMS A safely operable, multiple-injection, side-arm injector with a barrel-less injection, comprising a base body (21) having a tubular through hole (211) and a lateral through hole (212) communicating with the tubular through hole (211), a protruding side arm (22) having one end closed and a protruding valve stem (222); the valve stem (222) having an injection tube (223) in the center of the closed end of the protruding lateral arm (223) and a cylindrical silicone valve body (224) in the periphery of the protruding lateral arm (22) opposite the closed end 23) having a diameter smaller than the smallest diameter of the tubular through hole (211) in the base body, characterized in that the cylindrical valve body (23) is located laterally in the tubular through hole (211) in the base body (21); the closed end of the protruding side arm (22) being inserted into the lateral through hole (212) in the base body (21) such that the valve body (23) is sealed against the injection tube (223) in the protruding lateral arm (22).