KR100852512B1 - Multifunctional safety inflow type injection bottle - Google Patents

Abstract

A multi-functional safety inflow type injection bottle is provided to improve the efficiency of the injection work because it does not need any separate tools for punching an air hole. A multi-functional safety inflow type injection bottle includes an injection bottle body(100) and an injection pipe(200). An outlet(110) is formed at the lower part of the injection bottle body. The injection pipe guides the medicine that is discharged through an outlet to the hole of wood. An intercepting film(111) is installed inside the outlet of the injection bottle body. An insertion portion(201) for breaking the interception film is formed at the end of the injection pipe, which is coupled to the interception film. An inlet(120) is formed at the upper part of the injection bottle body.

Description

Multifunctional safety inflow type injection bottle

The present invention relates to an inflow stemming bottle for use in trees, and more particularly, it is safe by fundamentally blocking the possibility of contamination and body contact due to the outflow of the chemical liquid during the trunk injection work, and various without increasing the number of perforations of wood Continuous infusion of mixed drugs is possible, and there is a convenience that can be used as a combination of inflow and pressure depending on the season and species, and relates to a multifunctional safety infusion of intramuscular infusion that can save labor by streamlining work.

In general, trees are easily ill due to pollution due to the development of various industries and changes in the environment of the soil or various pests, or deteriorated due to the lack of nutrients necessary for the growth of trees. I will die.

Therefore, in order to prevent this, the trees can be grown healthy only by properly supplying the trees with the appropriate medicines such as therapeutic agents, insecticides, or nutrients according to the season and species.

Artificially injecting the chemical solution for this purpose and the leaf surface spraying means for spraying the chemical to the leaves of the tree; Intermittent control means for forming an injection hole to a predetermined depth toward the inside of the tree and injecting the chemical liquid through the injection hole; This is widely used.

Here, the control means are divided into pressure type injector type and inflow type infusion bottle type.

Among these, the pressure intraocular injector is pressurized when the compression cylinder is compressed, and the pressure inside the chemical liquid is increased, and the pressure chemical liquid passage blocking the outlet of the chemical liquid is blocked; An injection tube provided at an end of the insertion portion which ruptures the blocking membrane when coupled to the outlet; Inject the internal chemical solution.

In addition, the infusion bottle type infusion system is a method in which the chemical liquid inside the injection bottle is naturally injected into the hole of the tree through the injection pipe under atmospheric pressure, which is used depending on the season or species.

For example, pine trees do not work well during the winter months of November to February, so the chemicals are well injected even with the use of an infusion bottle, which is injected without pressure. In order to protect the area, rosin concentrates on the wound and blocks the chemical solution.

However, hardwoods can be said to be easy to infuse intravenously with the liquid solution only by the difference in time, even with the use of infusion bottle.

By the way, this conventional infusion bottled water has many problems as follows when used.

Figure 1a is a side view showing an example of the structure of the conventional infusion bottle, and Figure 1b is a side view showing a state using the bottle infusion bottle of Figure 1a, the conventional infusion bottle is infused with a chemical solution inside Is a structure in which an elongated injection tube 12 is formed integrally with one end of the inlet-type injection bottle body 10 at one end 11.

The conventional flow-type hand stem injector drilled a hole (A) in a tree to be handed, and then carried out a hand implantation work in the following order.

Step 1: First operation to cut the end of the injection tube 12,

Step 2: a second operation of tilting the injection bottle body 10 and inserting the cut pipe 12 into the hole A of the tree;

Step 3: A third operation is performed to pierce the air hole 13 in the upper portion of the injection bottle body 10 inserted into the tree so that the chemical liquid is naturally injected into the hole A of the tree by atmospheric pressure.

However, the above method is to tilt the end of the injection tube 12 is cut down to be inserted into the hole (A) of the tree, so even inadvertently, the chemical solution inside the injection bottle body 10 is leaked to the outside and the surrounding pollution and In addition, if the drug is an insecticide, it is prone to exposure to physical contact.

Therefore, a great deal of care has to be taken, which makes the workability difficult and time consuming, and it is cumbersome to carry a separate tool for cutting the end of the injection pipe 12 and drilling the air hole 13 at all times. There is this.

Figure 2 is a side cross-sectional view showing a state using another conventional infusion bottle, which is a pre-formed chemical injection hole 23 on one side of the injection bottle body 20 is empty inside the discharge port 21 The end of the injection tube 22 integrally formed in the is also made of a pre-drilled structure.

The conventional flow-type hand stem injector drilled a hole (A) in a tree to be handed, and then carried out a hand implantation work in the following order.

Step 1: The first operation of tilting the injection bottle body 20 upside down and inserting the injection tube 22 into the hole A of the tree,

Step 2: The chemical liquid is injected into the chemical liquid injection hole 23 of the injection bottle body 20 inserted into the tree, and the chemical liquid is injected into the hole A of the tree.

That is, in the above method, the operation process of cutting the end of the injection tube 22 and the operation process of forming the chemical injection hole 23 in the injection bottle body 20 can be omitted as compared to the method of FIG. 1.

However, this requires a separate equipment (gun type metered dose injector or similar equipment connected to the dispensing vial with a hose) to inject the chemical into the chemical injection hole 23 of the injection bottle body 20, Since a process of injecting a chemical solution is required, the work is cumbersome and takes a long time, and this also has a problem of external leakage, contamination, and physical contact during the transfer and infusion work.

In addition, there are various kinds of medicines to be injected into trees, such as fungicides, insecticides, and nutrients, and if necessary, two drugs may need to be injected together. It is a structure that can not be injected by mixing the drugs of the eggplant.

Therefore, in the past, to inject two drugs together, two holes were drilled in a tree, and each bottle was used by inserting a bottle of infusion into each hole, which increases the number of holes to be drilled in the tree, thereby giving considerable stress to the tree. There was no effective protection.

Accordingly, the present invention was developed in view of the above-mentioned conventional problems, and an object of the present invention is to eliminate the need for a separate tool for cutting the injection pipe and drilling the air hole of the injection bottle, thereby improving the efficiency of the water injection operation, It is to provide an infusion bottle which can be used safely by fundamentally blocking the possibility of chemical liquid leakage, contaminants and body contact during the injection operation.

Another object of the present invention is to provide an infusion bottle, which can be continuously injected by mixing two or more drugs more safely and easily, including liquid and water-soluble powdered medicine.

Still another object of the present invention is to provide an inflow water injector which can be used by using a pressure water injector together.

In order to achieve the above-mentioned object, the present invention comprises an injection bottle main body is filled with a chemical solution and the discharge port is formed at the bottom; An injection tube for guiding the chemical liquid discharged to the discharge hole into the hole of the tree; Form a separate body to form an inflow bottle, but a barrier is installed inside the discharge port, and the injection tube is coupled to the end of the injection tube to form an insert for rupturing the barrier, the injection bottle body is provided with a barrier inside The inlet is formed, and the inlet is fitted with one end of the rupture tube provided with a membrane rupture at both ends around the locking jaw, and a rupture tube support is formed outside the inlet.

In addition, when forming the rupture tube support part, if the other membrane rupture part end of the rupture tube coupled to the inlet is protruded more than the rupture tube support part, a protection cap is installed on the outside of the rupture tube support part to prevent the press of the protruding membrane rupture part. If you do so, it can be used safely, such as blocking the contamination and body contact due to the leakage of the chemical during operation can achieve the purpose.

Another object of the present invention is that if the other membrane rupture portion of the rupture tube is inserted into the outlet of the injection bottle main body to have a diameter that can rupture the blocking membrane, the injection bottle main body can be connected in a line, thereby achieving the object.

For still another object of the present invention, when the compression cylinder is compressed, the internal pressure of the chemical liquid is increased, and the pressure vessel is provided with a conventional pressure-type chemical liquid bottle, which blocks the outlet of the chemical liquid. If the addition is inserted into the aperture to rupture the barrier film, the pressure vessel can be connected to the rupture tube on the upper surface of the injection bottle body in a row, thereby achieving its purpose.

The present invention is provided with a rupture tube for puncturing the blocking film on the upper surface of the infusion-type injection bottle body so that it is possible to easily form an air hole, there is no need for a separate tool for cutting the injection tube and drilling the air hole of the injection bottle as in the prior art. The work can be performed efficiently, which can shorten the working time and save considerable labor and cost.

In addition, the infusion bottle main body can be blocked by the sequential order of work in a state in which both the outlet port and the inlet port are blocked by a blocking membrane, thereby fundamentally blocking the leakage of the chemical solution, the environmental pollution, and the possibility of physical contact during hand injection. It is effective to promote safety.

In addition, multiple injection-type injection bottles can be connected in a row using a pressure medicine bottle together, so that various types of drugs can be continuously injected through a single injection tube, so that mixed injection of drugs is easy and unnecessary for trees. There is no need to drill a lot of holes, so the stress of the tree is also effective to promote growth.

Hereinafter, with reference to the accompanying drawings, the preferred configuration and operation that can effectively achieve the object of the present invention by way of example will be described in detail.

Figure 3a is a transverse cross-sectional view showing the separation between the injection tube and the injection tube in which the present invention was carried out, Figure 3b is a state diagram combined with the injection tube and the tube of the present invention according to Figure 3a.

In the configuration of the present invention exemplified therein is filled with a chemical solution and the injection bottle body 100 is formed with a discharge port 110 in the lower portion; The injection tube 200 for guiding the chemical liquid coming out through the outlet 110 into the hole of the tree; to constitute the infusion-type hand-feeding bottle can be said as in the prior art.

The present invention is characterized in that the injection bottle main body 100 and the injection tube 200 are formed as separate entities, but the blocking tube 111 is installed inside the lower outlet 110 of the injection bottle main body 100, and the injection tube coupled thereto. The insertion part 201 which ruptures the blocking film 111 is formed in the end of the 200.

And the upper portion of the injection bottle body 100 is formed with an inlet 120 having a blocking film 121 therein, but inside the inlet 120, the membrane ruptures 132a at both ends around the locking jaw 131 ( 132b) is installed by inserting one membrane rupture portion 132a of the rupture tube 130, the outside of the inlet 120 and the height of the other membrane rupture portion 132b of the rupture tube 130 fitted to the inlet 120 The burst tube support part 140 is formed at a corresponding height so that the other membrane burst part 132b does not protrude.

In the drawings, reference numeral 202 denotes an injection hole formed to penetrate from the insertion part 201 of the end of the injection tube 200 to the tip, and (A) is a hole formed in the tree.

 In the present invention formed as described above, the outlet 110 and the inlet 120 of the injection bottle body 100 are sealed by the respective blocking membranes 111 and 121 when transporting and carrying for long-term storage and intrahepatic injection. There is no fear of spilling the internal chemical solution.

When using the flow-through infusion bottle of the present invention, first insert the injection tube 200 into the hole hunched in the tree, and then the injection bottle main body so that the blocking film 111 is in contact with the insertion portion 201 of the injection tube 200 ( Insert the outlet 110 of 100) and then hit the rupture tube support 140 on the injection bottle body 100 with a wood hammer or the like.

At this time, the bursting tube 130 is installed so as not to protrude from the bursting tube supporter 140, and thus the bursting tube 130 is lowered in the state in which only the injection bottle body 100 is lowered in a state in which it is not pressed down. 111 is deeply inserted into the rupture by the insertion unit 201, thereby the chemical liquid in the injection bottle body 100 is in a state that can enter the hole of the tree through the injection tube (200).

However, in this state, since there is no hole in which the atmospheric pressure may act on the injection bottle main body 100, the chemical liquid in the injection bottle main body 100 may not be smoothly discharged through the injection tube 200.

At this time, the present invention when hitting only the other membrane rupture portion 132b of the rupture tube 130 to the outside through the rupture tube support portion 140 as shown in Figure 3b one side membrane rupture portion 132a of the rupture tube 130 As it penetrates the blocking membrane 121 of the inlet port 120 to form an air hole through which the atmospheric pressure can act on the injection bottle main body 100, the chemical liquid in the injection bottle main body 100 can be smoothly injected into the hole of the tree. It becomes possible.

Figure 4a is a cross-sectional view showing another embodiment of the injection bottle body of the present invention, Figure 4b is a cross-sectional view showing a state using the injection bottle of Figure 4a.

According to the present invention, the other end of the membrane rupture part 132b of the rupture tube 130 coupled to the inlet 120 when the rupture tube support part 140 is formed outside the inlet 120 of the injection bottle body 100. The rupture tube support portion 140 is further protruded, and a protective cap 150 is installed outside the rupture tube support portion 140 to prevent the other membrane rupture portion 132b from protruding from being pressed.

In the present invention, even if one end of the rupture tube 130 protrudes more than the rupture tube support unit 140, the protective cap 150 prevents the rupture of the rupture tube 130. It is safe because there is no fear of leakage.

In addition, after use, the injection pipe 200 is inserted into the hole of the tree, and then inserting the outlet 110 of the injection bottle main body 100 so that the blocking film 111 is in contact with the insertion portion 201 and the top of the injection bottle main body 100 Even when hitting the protective cap 150 prevents the rupture tube 130 is pressed, so that only the blocking film 111 of the discharge port 110 is inserted into the insertion portion 201 is first broken.

Then, when the protective cap 150 is removed, the tee side membrane rupture portion of the rupture tube 130 is slightly protruded over the rupture tube support portion 140, such a product is more easily hitting the rupture tube 130, and bursting. When hitting the tube 130, the inner membrane rupture in contact with the blocking membrane 121 ruptures the blocking membrane 121 so that the external atmospheric pressure acts into the injection bottle body 100 through the rupture tube 130.

In the present invention, the protective cap 150 is opened and the projecting rupture tube 130 is blown out while only inserting the outlet 110 of the injection bottle main body 100 into the insertion part 201 of the injection tube 200. The blocking film 111 of 110 and the blocking film 121 of the inlet 120 may be ruptured together.

However, in this case, only the blocking membrane 121 of the inlet opening 120 may be ruptured first in the state in which the blocking membrane 111 of the outlet 110 is not ruptured. It is preferable to perform a complete coupling of the injection pipe 200 and the discharge port 110 first, because it may come out through the inlet 120 to contaminate the surroundings and contact the operator's body.

Figure 5 is a cross-sectional view showing another embodiment of the process of using the two connected infusion bottle body incorporating different drugs in accordance with the present invention in a row.

That is, the diameter of the other membrane rupture portion 132b of the rupture tube 130 is inserted into the discharge port 110 of the injection bottle main body 100 to form an aperture that can rupture the blocking film 111, thereby causing the injection bottle main body 100 to be broken. And injection bottle body 100 is characterized in that to be connected in a line.

In the present invention, after inserting the injection tube 200 into the tree hole (A), the outlet 110 of the first injection bottle main body 100 is inserted into the insertion portion 201 of the injection tube 200 and the injection bottle body When hitting the upper surface (100) as the blocking film 111 of the outlet 110 is ruptured by the insertion portion 201 of the injection tube 200, the injection tube 200 and the injection bottle body 100 is completely coupled, As already described above.

In that state, the outlet 110 of the second injection bottle main body 100 is inserted into the other membrane rupture part 132b of the rupture tube 130 coupled to the inlet 120 of the upper surface of the first injection bottle main body 100, and then the second When hitting the upper surface of the injection bottle body 100, as shown in FIG. 5, the membrane rupture portion 132a of one side of the rupture tube 130 installed on the upper surface of the first injection bottle body 100 blocks the barrier membrane 121 of the inlet 120. The other membrane rupture part 132b is ruptured and connects the first and second injection bottle bodies 100 in a row while rupturing the blocking membrane 111 provided at the outlet 110 of the second injection bottle main body 100.

In this case, the heat pipe is inserted into one side of the membrane when it is coupled to the lower inlet 120 and the upper outlet 110 so that the insertion position of both membrane ruptures is constantly maintained by the locking jaw 131 at the center. Is prevented.

And then connected in a line as described above and hitting the rupture tube 130 provided on the upper surface of the second injection bottle main body 100 so that one side of the membrane rupture portion 132a is completely coupled while rupturing the blocking membrane 121 of the inlet 120 The rupture tube 130 serves as an air hole on the upper surface of the second injection bottle main body 100.

Therefore, when used in this way by connecting the first and second injection bottle main body 100 containing the different drugs in a row can be mixed with the two drugs into the wood through one injection tube 200, compared to the conventional wood The number of holes A formed in the can be significantly reduced.

And when hitting the upper surface of the injection bottle main body 100 in order to connect the injection tube 200 and the injection bottle main body 100 or in order to connect the injection bottle main body 100 and the injection bottle main body 100 in a line In the case where the other membrane rupture part 132b of the rupture tube 130 does not protrude to the upper part of the rupture tube support part 140, only the rupture tube support part 140 needs to be hit during the blow, and the other membrane rupture part of the rupture tube 130 is damaged. In the case where the 132b protrudes to the upper portion of the rupture tube supporter 140, the inlet-side blocking layer 121 may be prevented from rupturing when the protective cap 150 is hit in the combined state.

Figure 6 is a cross-sectional view showing an example of a state in which the pressure-injection fluid bottle is coupled to the infusion injection bottle main body of the present invention, Figure 7 is used by connecting two inflow injection bottle main body and the pressure-type medicine bottle in a row It is a cross section figure which illustrated the state to make.

According to the present invention, when the compression cylinder 320 coupled to one side is compressed, the pressure inside the cylinder filled with the chemical liquid is increased, and the general pressure type chemical liquid container blocking the discharge port 310 through which the chemical liquid is discharged. It is provided with a 300, but the outlet 110 is formed on the upper surface of the injection bottle body 100 by forming the diameter of the rupture tube 130 is inserted into the other membrane rupture portion 132b to rupture the blocking film 111 It is characterized in that the pressure-type chemical liquid container 300 to be connected in a line.

The present invention is the outlet of the conventional pressure-type chemical liquid container 300 in the burst tube 130 of the upper surface as shown in Figure 6 in a state in which the infusion injection bottle main body 100 is coupled to the injection pipe 200 inserted into the tree Insert the 310 and hit the pressure medicine bottle (300).

In this case, the pressure chemical liquid container 300 is preferably hit in a state in which the compression cylinder 320 is compressed in advance so that the internal pressure increases, and when the pressure chemical liquid container 300 is blown, the other side of the burst tube 130 is ruptured. Part 132b is coupled while rupturing the blocking membrane 311 blocking the outlet 310 of the pressure-type chemical liquid bottle 300, the inflow-type injection bottle body 100 and the pressure-type chemical liquid bottle 300 is connected in a line Will be achieved.

In this state, due to the increased pressure in the pressure-type chemical liquid bottle 300, the chemical liquid of the chemical liquid bottle 300, as well as the chemical liquid inside the infusion-type injection bottle main body 100 in sequence through a single inlet 200 It can be injected into.

In the present invention, when the two inflow injection bottle main bodies 100 are connected in a line as shown in FIG. 5, the pressure medicine liquid bottle 300 is coupled to the injection bottle main body 100 as shown in FIG. 7 again. As it can be used, optionally two or three drugs or a combination of several or more of them can be mixed in a multi-function hand as needed.

Summarizing the various functions of injecting a mixture of drugs by the present invention as follows.

First, mixed intravenous injection of A drug and B drug is possible.

Secondly, it is possible to mix water-soluble powdered medicine with liquid medicine.

Third: Infusion of two or more drugs is possible.

Figure 1a is a side view showing an example of the structure of the conventional infusion bottle

Figure 1b is a side view showing a state using the flow-through bottle infusion of Figure 1a

Figure 2 is a side cross-sectional view showing a state using another conventional infusion bottle

Figure 3a is a cross-sectional view showing the structure of the infusion bottle between the present invention is carried out

Figure 3b is a state diagram in which the intravenous infusion bottle and the injection tube of the present invention according to Figure 3a

Figure 4a is a cross-sectional view showing another embodiment of the bestowal disease structure of the present invention

FIG. 4B is a cross-sectional view showing a state of using the bestowal bottle of FIG. 4A

5 is a cross-sectional view showing a state in which two injection bottle bodies of the present invention are connected in a row;

Figure 6 is a cross-sectional view of the injection bottle body of the present invention combined with a pressure medicine bottle

Figure 7 is a cross-sectional view illustrating a state in which two injection bottle main body of the present invention and a pressure-liquid chemical container in a row connected

Explanation of symbols for main parts of the drawings

100: injection bottle body 110: outlet

111,121: barrier 120: inlet

130: rupture tube 132a, 132b: membrane rupture

140: burst tube support 150: protective cap

200: injection tube 201: insertion portion

300: pressure chemical liquid container

Claims (4)

Injection bottle main body 100 is filled with a chemical solution and the discharge port 110 is formed at the bottom; An injection pipe 200 for guiding the chemical liquid discharged to the discharge port 110 into the hole A of the tree; In constructing the inflowable bestowal bottle, The injection bottle main body 100 and the injection tube 200 are formed separately, but the blocking film 111 is installed inside the outlet 110 of the injection bottle main body 100, and the end of the injection tube 200 coupled thereto Insertion portion 201 for rupturing the blocking film 111 is formed, An inlet port 120 having a blocking film 121 is formed in the upper portion of the injection bottle body 100, but the membrane rupture parts 132a and 132b are formed at both ends of the locking jaw 131 in the center of the inlet port 120. Install one end of the burst tube 130 is provided, Multi-functional safety inflow between the inlet 120, characterized in that the burst tube support portion 140 is formed so that the end of the other membrane rupture portion 132b of the rupture tube 130 inserted into the inlet 120 is not protruded Admission. The method of claim 1, When forming the burst tube support part 140 on the outside of the inlet 120 The other end of the membrane rupture portion 132b of the rupture tube 130 coupled to the inlet 120 to protrude more than the rupture tube support portion 140, Multi-functional safety infusion between the bursting tube support 140, a protective cap 150 is installed to prevent the other side of the membrane bursting portion (132b) pressed. The method according to claim 1 or 2, The diameter of the other membrane rupture portion 132b of the rupture tube 130 is Multifunctional safety inflow water, characterized in that it is inserted into the outlet 110 of the injection bottle body 100 to form a diameter that can rupture the blocking film 111 to connect the injection bottle body 100 in a line Deemed illness. The method according to claim 1 or 2, Compressing the compression cylinder 320 coupled to one side to increase the pressure inside the cylinder filled with the chemical liquid, and has a conventional pressure-type chemical liquid container 300 blocking the outlet 310 for discharging the chemical liquid 311 The diameter of the outlet 310 of the chemical container 300 is formed into a diameter capable of rupturing the blocking film 311 by inserting the other membrane rupture portion 132b of the rupture tube 130. Multifunctional safety infusion between the injection bottle main body 100, characterized in that the burst tube 130 on the upper surface of the normal pressure-type chemical liquid container 300 to be connected in a row.

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