KR200362534Y1 - Long range syringe with translucent liquid gas and needle covered with translucent soft silicone - Google Patents

Abstract

The present invention relates to a long-range animal syringe, and more particularly to the injection method and needle shape.

Conventional ejection method can be divided into two methods of using gunpowder and compressed air. The present invention uses compressed liquefied gas (lighter gas) to significantly reduce the failure rate in long-term animal injection and to save effort and cost. There is this.

To this end, the present invention applies the expandable properties of compressed liquefied gas.

The air injection part of the back of the syringe is covered with latex rubber (raw rubber) and the compressed liquid gas is injected into the existing air compression chamber through general medical needles, and the needle is pulled out to maintain a strong compression state. In this process, the inner ridge was constructed to prevent the release of latex rubber and the screw cover was used on the outside. The present invention is characterized by identifying the presence of a compressed state by visually confirming the compressed liquid gas. This significantly eliminates the failure in the case of pneumatic injection, and can absolutely reduce the cost incurred in the case of gunpowder.

In addition, the conventional needle of the syringe has an injection liquid ejection opening on the upper side of the needle, causing injury and injection failure of the animal. There is a feature to improve the accuracy of the injection.

Description

Remote animal syringes with compressed liquid gas and needles covered with translucent soft silicone cover {omitted}

The present invention relates to a compression method and a jet method of injection of a remote-launched animal syringe, and more particularly, to a jet injection method of injection solution using the expansion force of the compressed liquid gas and an injection needle for preventing the injury of animals.

In the conventional method, the air is injected into the air compression chamber of 1 through the hole of the air outlet 5 by injecting air through the air inlet 3 of FIG. 1, but the bicycle free rubber 4 prevents the release of air. Compressed state is maintained. When fired in this state and hit by the animal, the rubber of the injection liquid injection prevention rubber 7 pushed back and the hole of the injection liquid ejection opening 6 was opened to inject the drug. The disadvantage of this method, however, is that the failure rate is high because the compression cannot be confirmed with the naked eye. If it fails, it is natural that the animal will be injured and stressed, and the launcher will be tired.

In addition, the air compression method is weak because the power is not more than 5cc injection, and the discharge rate is slow because the injection is frequent.

On the other hand, the animal injection needle 11 of Figure 1 has a disadvantage that there is a jet port (6) on the side of the needle prior to hitting the animal first and then the injection solution is ejected.

However, if the animal's bones or muscles are hit by lean parts, the syringe may drop before the purpose of the injection is reached, and if the bone is injured, serious conditions may also occur.

In order to solve the above problems, first exclude the air compression method, and use a compressed liquid gas (lighter gas) that can be visually confirmed the compression state.

Therefore, it is important to maintain the compressed state after injecting compressed liquid gas.

As a result, by making a protrusion 12 at the back of the syringe of FIG. 2 and turning the front part of the rod-shaped latex rubber 9 through the protrusion 12 to reach the compression chamber 1, it is conical and rotated. Maintain strong compression.

Meanwhile, in order to solve the problem of the injection needle 11 of FIG. 1, the injection of the injection liquid must be discharged from the front of the needle like a general medical needle and kept compressed until just before injection. In this regard, the first cover material must have some elasticity, be soft, and have transparency so that it can be seen and controlled by the naked eye. Because the tip of the needle penetrates through the cover during injection, the injection end is in contact with the cover only soft enough to prevent the injection from being ejected.

From this point of view, the present invention has determined that the soft translucent silicone is suitable as a material of the lid, and has led to a form such as the injection liquid leakage preventing and drug injection silicone transparent lid 13 of FIG. 4.

1 is a cross-sectional view of an animal syringe currently in use

Figure 2 is a cross-sectional view of the animal syringe according to the present invention

3 is an explanatory diagram of a gas injection method of the present invention

Figure 4 is a cross-sectional view of the needle transparent transparent silicone cover

Explanation of symbols on the main parts of the drawings

1: air compression chamber 2: injection liquid loading chamber

3: air inlet port 4: air leak prevention rubber

5: air outlet 6: injection liquid jet

7: Injection liquid ejection prevention rubber 8: Mobile rubber boxing

9: latex rubber for gas injection and blocking

10: latex rubber separation prevention cover 11: conventional animal syringe needle

12: Projection for preventing latex rubber release and gas leak

13: Silicone transparent cover for injection leakage prevention and drug injection

14: liquid gas cylinder (lighter gas cylinder)

15: needle for gas injection

16: screw locking device

17: medical needles for the general public

Hereinafter, described in detail by the accompanying drawings as follows.

Insert the general injection needle 15 of FIG. 3 into the latex rubber 9 for gas injection and blocking, and insert it into the compression chamber 1 sufficiently so that the insertion hole of the injection needle 15 is in close contact with the gas cylinder 14 to the lighter. When the gas is sufficiently injected by putting the gas and the liquid is visually confirmed, the needle 15 is pulled out and kept in a compressed state to fire. The latex rubber 9 of FIG. 2 is inserted into the air compression chamber 1 through the latex rubber escape and gas leakage preventing protrusions 12. In addition to the self-tension of the gas injection latex rubber 9, the latex rubber escape and gas Due to the leak-proof protrusion 12, the compressed gas is further inhibited. The threaded stopper 10 of FIG. 2 for stability doubled prevents the release of the latex rubber 9 for gas injection to further secure the compression state by zooming.

On the other hand, the soft translucent silicone cover 13 of Figure 2 is to be able to move to the front and rear by visually observing the part in contact with the end of the needle is to produce an optimal drug injection state. That is, as soon as the needle tip 17 of FIG. 2 passes through the 13 point of FIG.

As a result of testing the present invention in a field experiment, when only about 0.5cc of liquid was visually confirmed, the ejection force and the failure rate of zero state were recorded twice as much as the conventional air compression.

This has the effect of significantly reducing injection failures frequently caused by animal injections, and it is economically beneficial as there is no need to attempt to reduce the failure rate by using gunpowder.

On the other hand, by using a semi-transparent soft silicone cover for the injection of general medical needles for animal injection, it can significantly reduce the injury prevention and injection failure of animals and save the cost of using special needles.

Claims (2)

In a long-distance launching animal syringe having an air compression chamber (1), an injection liquid loading chamber (2), and a movable rubber box (8), a gas injection and blocking latex rubber (9) inserted into the rear end of the syringe, Long-distance launching animal including a latex rubber release prevention stopper 10 screwed to the rear end of the syringe, a silicone stopper 13 mounted to the injection solution ejection opening 6 of the injection needle 17 to prevent extrusion of the injection solution syringe. The long-range injection type animal syringe according to claim 1, wherein the needle is a general medical needle.