KR102194354B1 - Injection Device Of Medical Fluid - Google Patents

Abstract

The present invention relates to an injection device of a medical fluid to be easily charged with the medical fluid. According to the present invention, the injection device comprises: a medical fluid supply chamber accommodated in an elastic housing and introducing a medical fluid into the elastic housing while supporting the elastic housing; a medical fluid injection chamber disposed on the upper part of the medical fluid supply chamber and receiving and supplying the medical fluid to the elastic housing through a flow path chamber; a pressing member provided on the upper side of the medical fluid supply chamber and connected to the medical fluid injection chamber to be pressurized or restored in accordance with pressing or releasing the medical fluid supply chamber, thereby injecting the medical fluid into the elastic housing through the medical fluid supply unit; and a moving member provided in the upper end of the flow path chamber to be connected to the pressing member on the lower part of the pressing member and moving in accordance with pressing of the pressing member. Moreover, the injection device of a medical fluid can be variously implemented in accordance with embodiments.

Description

Chemical injection device {Injection Device Of Medical Fluid}

The present invention relates to a chemical liquid injection device, and more particularly, to a chemical liquid injection device capable of supplying a liquid by adding a mechanical pressure in addition to the pressure at the time of injection of the chemical liquid.

In general, a catheter is a general name for a tubular device and can be used to discharge reservoirs in body cavities or various organs, aspirate irrigation fluid, measure cardiovascular activity or central venous pressure, and inject drugs or contrast agents into the body. have.

Conventional drug injection is the injection of a chemical solution through a syringe-type syringe that injects the chemical solution with a pressing force of a piston. The syringe is connected to the catheter while the chemical is stored by the operation of the piston, so that the user can manipulate the piston to inject the chemical. At this time, the pressure and the injection amount are determined by the user's manpower, and the injection time and the pressure are not constant according to the user's skill level, and there is a problem in that an accurate injection amount cannot be maintained when an operation error occurs.

In particular, there is a risk of medical accidents such as coma or shock when the injection time and the injection amount are not constant for pharmaceutical solutions such as analgesics and antibiotics, or in the case of excessive injection, the patient is infused with pain.

Accordingly, in recent years, a drug supply device for injecting drugs at a predetermined injection pressure and injection amount in consideration of an injection amount and an injection time set according to diagnosis may be connected to a catheter inserted into an organ.

Such a chemical liquid supplier can be classified into a gravity type and a pressure type.

Gravity-type drug liquid supply device is a bag or bottle in which the drug liquid is stored in a higher position than the patient so that the liquid drops due to the action of gravity, and it can be mainly used for supplying low risk factors such as Ringer.

The pressure-type chemical liquid supply is a configuration that supplies a chemical liquid by applying pressure with a physical force.For example, a so-called balloon type that uses the contraction restoring force after expansion of a chemical liquid storage tube such as a rubber balloon, and an electric pump or compressor are used. I use a lot of electricity. use. The syringe is connected to the catheter while the chemical is stored by the operation of the piston, and the user operates the piston to inject the chemical.

Such a pressure-type drug liquid supply is used to supply a liquid that needs to be administered by adjusting a certain amount according to the precise treatment and prescription by a specialist, such as insulin or pain reliever.

As an example of a pressure-type chemical liquid supply device, it is widely used in that the balloon-type structure is simple and inexpensive, and the patient's movement is free.

Patent Documents 1 (US Patent 3,412,906) and 2 (US Patent 4,318,400) disclose a chemical liquid supply device having a structure in which a rubber tube-shaped bag is installed in a housing such as a syringe body. The chemical liquid supply of Patent Documents 1 and 2 is connected to a valve with one end of the bag fixed to the housing, and the other end of the bag can be moved along the housing with a stopper. When the liquid is injected through the valve, the bag swells and is filled with the chemical liquid. Thereafter, when the valve is operated and opened, the swollen pocket is shrunk to its original shape and a structure that pushes the stored chemical liquid is disclosed.

In addition, the following Patent Documents 3 (US Patent 5,211,632) and 4 (Korean Patent Registration No. 10-0262930) have a structure in which both ends of the pocket are fixed to a tubular outer shaft (fixed pipe) and an inner shaft (moving shaft) movably accommodated in the outer shaft. Discloses the proposed chemical injection device.

However, a chemical liquid injection device equipped with a pump such as an elastic bag (referred to as a balloon or balloon) for supplying a chemical liquid has a large volume of the pump, incurs cost for maintenance, and delays the operation process immediately. There was a problem in that it was difficult to control the dosage and pressure, so that treatment for the patient could not be performed immediately.

In addition, the conventional chemical injection devices have a structure of an elastic bag (referred to as a balloon or balloon) for supplying a chemical solution, and must have a constant pressure to supply the chemical solution to a patient. In addition, in order to fill the elastic bag with the chemical solution, the chemical solution is filled by applying pressure to the elastic bag with a pressing force of a piston. Accordingly, there is a problem in that a considerable force must be applied to fill the pocket with the chemical solution.

In addition, when the chemical solution is injected for additional filling while the chemical solution is filled, more pressing force than the initial stage is required, so that the injection of the chemical solution is not easy.

In addition, the elasticity may vary depending on the amount of the chemical in the elastic bag, and accordingly, the external force (elastic restoring force) that affects the flow of the chemical may be different from the initial and the end of the injection. In addition, it is difficult to keep the injection amount per unit time constant. In addition, the elastic balloon may have a different elasticity depending on the amount of the remaining chemical solution, and accordingly, an external force (elastic restoring force) that affects the flow of the chemical solution may differ from the initial stage and the end stage of injection.

In addition, in addition to the above problems, in a chemical liquid injection device equipped with an elastic balloon, it is difficult to visually know how much liquid has been injected when the chemical liquid is injected into the patient, and the change of the indicator indicating the amount of the chemical is not easily known to the patient or medical staff. There was also a problem on the subject.

Therefore, there is a need to increase the chemical solution injection pressure in order to stably and continuously inject the chemical solution into the patient without being affected by changes in the height of the chemical solution injection device or the external environment, and it is difficult to fill the chemical solution at a high chemical solution injection pressure. There is a need for a chemical injection device capable of simultaneously solving the problem.

(Patent Document) U.S. Patent Publication No. 3,412,906 (November 26, 1968)

(Patent Document) U.S. Patent No. 4,318,400 (1982.03.09)

(Patent Document) US Patent Publication No. 5,211,632 (1993.05.18)

(Patent Literature) Korean Patent Registration No. 10-0262930 (2000.05.09)

The technical problem to be solved of the present invention is to provide a chemical solution injection device capable of facilitating filling of a chemical solution despite a high chemical solution injection pressure while having a constant pressure to stably and continuously inject the chemical solution into the patient. do.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the chemical liquid injection device according to an embodiment of the present invention,

A chemical solution supply chamber accommodated in the elastic housing, supporting the elastic housing and flowing a chemical solution into the elastic housing;

A chemical liquid injection chamber positioned above the chemical liquid supply chamber, receiving the chemical liquid, and supplying the chemical liquid to the elastic housing through the flow path chamber;

A pressing member provided on the upper side of the chemical liquid supply chamber, connected to the chemical liquid injection chamber, and pressurized or restored in response to the pressing or releasing of the pressing of the chemical liquid supply chamber to inject the chemical liquid into the elastic housing through the chemical liquid supply unit; And

It may include a moving member provided in the upper end of the flow path chamber to be connected to the pressing member under the pressing member, and moved according to the pressing of the pressing member.

The chemical liquid injection chamber,

A housing forming a receiving groove in which the chemical solution is accommodated; And

It may include a protruding tube protruding from one side of the flow path housing, seated on the pressing member, and discharging the chemical solution to the chemical solution supply chamber.

The chemical solution supply chamber,

A pressing part forming an accommodation space in which the pressing member is seated; And

It may be provided with a flow path portion extending stepped inward from the end of the pressing portion, restricting the reverse inflow of the chemical liquid while the moving member is movably seated and having at least one chemical liquid discharge port along the outer circumferential surface of a predetermined position. have.

The flow path part

A first flow path pipe connected to the receiving space, accommodating some end portions of the pressing member and receiving the moving member to form a receiving groove for moving the moving member up and down;

A second flow path pipe receiving the chemical liquid from the first flow pipe and flowing the chemical liquid through the chemical liquid discharge port; And

And a resilient door turned on/off from the first flow pipe in the direction of the second flow pipe according to the movement of the moving member between the first flow pipe and the second flow pipe.

The second flow pipe,

A receiving chamber connected to the first flow path through the elastic door to receive the chemical solution; And

It may include a discharge chamber connected from the receiving chamber to the chemical liquid discharge port to discharge the chemical liquid to the outside of the second flow path pipe.

The chemical liquid discharge port may be penetrated from the inside to the outside of the second flow path pipe, and may be formed to be inclined from the top to the bottom.

The first flow path tube,

It is connected to the pressing part, and guides the movement of the pressing member, and forms an inclined surface that restricts movement so as to be caught with the pressing member when the pressing member descends, and a lower chamber having a diameter smaller than that of the upper chamber and the upper chamber. A first chamber; And

It is connected at the end of the first chamber, guides the movement of the movable member to limit the upper movement of the movable member, has a cylindrical shape, may include a second chamber gradually decreasing toward the side of the elastic door .

The pressing part,

Outer chamber;

An inner chamber accommodated in the outer chamber, connected to the first chamber, and movably seating the pressing member; And

It may include at least one protruding protrusion protruding upward from the bottom surface between the inner chamber and the outer chamber.

The pressing member,

A body member including a first body accommodated in the inner chamber and a second body having a diameter smaller than the first body at a lower end of the first body and moving from the inner chamber to the inside of the first chamber;

A guide member provided at an upper end of the first body and forming a groove for guiding the movement of the body member by inserting the protruding protrusion; And

It may include an elastic member provided on the protruding protrusion and positioned between the guide member and the bottom surface to provide an elastic force when the body member moves.

A first hollow penetrating through the first body and inserting the protruding tube is formed inside the first body,

The second body has a second hollow connected to the first hollow, and is located at the center of the second hollow toward the center of the second body and protrudes from the upper portion of the second body to the outer side in the lower direction, and the moving member A pressing protrusion coupled with and at least one support slit connected to the pressing protrusion on an inner surface of the body may be provided.

The moving member,

Moving body;

An upper protrusion protruding from an upper surface of the movable body and fixed by engaging with the pressing protrusion; And

It may include a lower protrusion protruding from the lower surface of the moving body to push the elastic door or release the push.

The moving body,

It is provided with a first moving body having a cylindrical shape that widens from the top to the bottom, and a second moving body having a wide diameter and extending from the end of the first moving body,

The stepped surface between the first moving body and the second moving body is contact-sealed with the upper side of the second chamber, so that the chemical liquid moves between the first chamber and the second chamber according to the movement of the moving body. Can be controlled.

Details of other embodiments are included in the detailed description and drawings.

The chemical injection device according to an embodiment of the present invention can reduce the injection pressure provided by the injector when the chemical is injected by adding a mechanical pressing force according to the pressurization of the chemical injection unit in addition to the pressing pressure of the piston when the chemical is injected. , Injecting an additional chemical solution can be implemented at a lower pressure than the existing one, so there is an advantage of facilitating filling the chemical solution.

In addition, the chemical injection device according to an embodiment of the present invention has the advantage of stably and continuously injecting a chemical solution to a patient at a constant pressure.

The effects of the present invention are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a schematic view before driving of a chemical injection device according to an embodiment of the present invention.
2 is a view showing a schematic driving state of the chemical injection device according to an embodiment of the present invention.
3 is an exploded perspective view in one direction of a chemical injection device according to an embodiment of the present invention.
4 is an exploded perspective view of a chemical liquid injection device according to an embodiment of the present invention.
5 is an exploded front view of a chemical injection device according to an embodiment of the present invention.
6 is a combination diagram of a chemical injection device according to an embodiment of the present invention.
7 is a schematic perspective view of a chemical liquid injection chamber in the chemical liquid injection apparatus according to an embodiment of the present invention.
8 is a schematic perspective view of a chemical solution supply chamber in a chemical solution injection device according to an embodiment of the present invention.
9 is a schematic perspective view of a pressing member in the chemical liquid injection device according to an embodiment of the present invention.
10 is a cross-sectional view of a connection portion between a first body and a second body of a pressing member in the chemical injection device according to an embodiment of the present invention.
11 is an enlarged view of a bonding position of a pressing member and a moving member in the chemical injection device according to an embodiment of the present invention.
12 is a view showing the state of the pressing member and the moving member according to the pressing of the chemical liquid injection chamber in the chemical liquid injection device according to an embodiment of the present invention.
13 is an enlarged view of a combination position of the pressing member and the moving member according to the pressing of the chemical solution injection chamber in the chemical injection device according to an embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Thus, in some embodiments, well-known process steps, well-known structures and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. Comprises and/or comprising as used in the specification means not to exclude the presence or addition of one or more other components, steps and/or actions other than the mentioned components, steps and/or actions. Use as. And, “and/or” includes each and every combination of one or more of the recited items.

Further, the embodiments described in the present specification will be described with reference to a perspective view, a cross-sectional view, a side view and/or a schematic view, which are ideal exemplary views of the present invention. Therefore, the shape of the exemplary diagram may be modified by manufacturing technology and/or tolerance. Accordingly, embodiments of the present invention are not limited to the specific form shown, but also include a change in form generated according to the manufacturing process. In addition, in each of the drawings shown in the present invention, each component may be somewhat enlarged or reduced in consideration of convenience of description.

Hereinafter, the present invention will be described with reference to the drawings for explaining the chemical liquid injection device 100 according to embodiments of the present invention.

1 is a schematic view before driving of a chemical liquid injection apparatus 100 according to an embodiment of the present invention.

2 is a schematic view of a driving state of the chemical injection device 100 according to an embodiment of the present invention.

1 and 2, a chemical liquid injection device 100 according to an embodiment of the present invention includes a chemical liquid supply chamber 110 and a chemical liquid supply chamber 110 for supplying a chemical liquid to the elastic housing 170. It may include a chemical solution injection chamber 120 for injecting a chemical solution into the elastic housing 170 through. In addition, the chemical solution injection device 100 of the present invention pressurizes the chemical solution injection chamber 120 itself in addition to the pressure for injecting the chemical solution in the chemical solution injection device 100 to facilitate filling the chemical solution against the pressure of the elastic housing 170. can do.

3 is an exploded perspective view in one direction of the chemical injection device 100 according to an embodiment of the present invention.

4 is an exploded perspective view in another direction of the chemical liquid injection device 100 according to an embodiment of the present invention.

5 is an exploded front view of a chemical injection device 100 according to an embodiment of the present invention.

6 is a combination diagram of a chemical injection device 100 according to an embodiment of the present invention.

3 to 6, the chemical liquid injection device 100 according to an embodiment of the present invention includes a pressure member in addition to the above-described chemical liquid supply chamber 110, the chemical liquid injection chamber 120, and the elastic housing 170. It may include 130 and a moving member 140.

The chemical solution supply chamber 110 is accommodated in the elastic housing 170, and while supporting the elastic housing 170, the chemical solution may be introduced into the elastic housing 170.

The chemical liquid injection chamber 120 is positioned above the chemical liquid supply chamber 110, accommodates the chemical liquid, and supplies the chemical liquid to the elastic housing 170 through the flow path chamber.

The pressing member 130 is provided on the upper side of the chemical solution supply chamber 110, is connected to the chemical solution injection chamber 120, and is pressed or restored according to the pressing or release of the chemical solution supply chamber 110. The chemical solution may be injected into the elastic housing 170 through the chemical solution supply unit.

The moving member 140 is provided to be connected to the pressing member 130 under the pressing member 130 in the upper end of the flow path chamber, and is moved according to the pressing of the pressing member 130 ( 140) may be included.

7 is a schematic perspective view of a chemical liquid injection chamber 120 in the chemical liquid injection apparatus 100 according to an embodiment of the present invention.

Referring to FIGS. 1 to 6 together with FIG. 7, the chemical solution injection chamber 120 of the present invention receives the chemical solution and injects the chemical solution into the chemical solution supply chamber 110, so that the elastic housing 170 It is a composition provided to fill the chemical solution.

The chemical injection chamber 120 may include a housing 121 and a protruding tube 122.

The housing 121 has a cylindrical shape and forms an accommodating groove in which the chemical solution can be accommodated, and is connected to a protruding pipe 122 to be described later so that the chemical solution injection chamber 120 passes through.

You can have Joe. The rear surface of the housing 121 may be opened, and a pressure is applied from the upper to the lower direction of the receiving groove through a piston, etc. to discharge the chemical solution accommodated in the receiving groove to a protruding tube 122 to be described later. I can.

The protruding pipe 122 may protrude from one side of the flow path housing 121. When the chemical solution injection chamber 120 is positioned above the chemical solution supply chamber 110, the protrusion pipe 122 may be seated on the pressing member 130, and the chemical solution accommodated in the receiving groove of the housing 121 May be discharged to the chemical liquid supply chamber 110.

8 is a schematic perspective view of a chemical liquid supply chamber 110 in the chemical liquid injection device 100 according to an embodiment of the present invention.

Referring to FIGS. 1 to 6 together with FIG. 8, the chemical solution supply chamber 110 according to an embodiment of the present invention is accommodated in the elastic housing 170 and is discharged from the chemical solution supply chamber 110. The elastic housing 170 may have a structure in which the elastic housing 170 expands or contracts due to the chemical solution.

The chemical solution supply chamber 110 may be provided with a pressing part 111 and a flow path part 112.

The pressing part 111 and the flow path part 112 are integral structures, the pressing part 111 may be located above the flow path part 112, and the pressing part 111 is the flow path part It may be provided to have a larger diameter than (112).

The pressing part 111 is located above the flow path part 112, has a structure in which the upper part is open, and may form an accommodation space in which the pressing member 130 is accommodated.

The chemical liquid injection chamber 120 is inserted into the upper portion of the pressing part 111, and as the chemical liquid injection chamber 120 is pressed by the pressing part 111, the chemical liquid may be mechanically received.

The pressing part 111 may include an outer chamber 111a, an inner chamber 111b, and a protrusion 111c.

The outer chamber 111a may form an accommodation space inward, and the accommodation space may be provided to be connected to the flow path part 112 to be described later.

An inner chamber 111b and a protruding protrusion 111c may be provided in the receiving space of the outer chamber 111a.

The inner chamber 111b is accommodated in the outer chamber 111a and may be connected to the first chamber 1121a of the first flow path tube 1121 described later by forming a hollow inside. The pressing member 130 may be introduced into the receiving space of the outer chamber 111a, be accommodated inward in the inner chamber 111b, and be movably seated inside the inner chamber 111b.

The protruding protrusion 111c may be located between the inner chamber 111b and the outer chamber 111a. Specifically, the protrusion 111c may be provided to protrude at least one upward from the bottom surface between the inner chamber 111b and the outer chamber 111a. An elastic member 133 of the pressing member 130 to be described later may be provided in the protruding protrusion 111c. In addition, the guide member 132 of the pressing member 130, which will be described later, is inserted into the protruding protrusion 111c to guide the movement of the pressing member 130 when it moves upward and downward in the receiving space. .

The flow path part 112 may extend inward from the end of the pressing part 111 and may have a diameter smaller than the diameter of the pressing part 111.

In the flow path part 112, the end of the pressing member 130 and the moving member 140 are movably seated, limiting the reverse inflow of the chemical solution, and at least one chemical solution outlet along the outer peripheral surface at a predetermined position. (112a) can be provided.

Specifically, the flow path part 112 may be provided with a first flow path tube 1121 and a second flow path tube 1122.

The first flow path pipe 1121 is connected to the receiving space, and specifically, may be provided to be connected to the inner space of the inner chamber 111b.

The first flow path pipe 1121 may accommodate some end portions of the pressing member 130 and the pressing member 130 and the moving member 140 may be seated. Some end portions of the pressing member 130 and accommodation grooves for vertical movement of the moving member 140 may be formed through the first flow path pipe 1121.

The first flow passage 1121 may include a first chamber 1121a and a second chamber 1121b.

The first chamber 1121a is connected to the pressurizing part 111, specifically the inner space of the inner chamber 111b, so that the pressurizing member 130 is seated to guide the movement of the pressurizing member 130. It can be provided. In the first chamber 1121a, a movement-restricted inclined surface 1121aa may be formed so as to be caught by the stepped jaws of the pressing member 130 when moving the guide of the pressing member 130 to limit movement.

For example, the first chamber 1121a may include an upper chamber connected to the inner space of the inner chamber 111b, a lower chamber connected to the upper chamber and having a diameter smaller than the upper chamber, and the upper chamber and the lower chamber. While connecting the chambers, when the pressing member 130 descends, a movement-restricted inclined surface 1121aa may be formed to be caught with the pressing part 111 to limit movement.

A part of the end portion of the pressing member 130 may be accommodated and moved to the upper chamber, and the upper region of the moving member 140 (a first moving body 1411 and an upper protrusion to be described later) may be moved to the lower chamber. 142).) Acceptable.

The second chamber 1121b is connected at an end of the first chamber 1121a, and is formed to be stepped in a wide direction from the end of the first chamber 1121a to correspond to the diameter of the flow path 112 Can be. The second chamber 1121b may accommodate a lower region of the moving member 140 (corresponding to the second moving body 1412 and lower protrusion 143 to be described later). As described above, the second chamber 1121b may be formed in a hollow cylindrical shape having a diameter larger than that of the first chamber 1121a and a hollow shape of a plate that gradually decreases toward the elastic door toward the lower end of the cylindrical shape. . In the second chamber 1121b, a predetermined position of the moving member 140 (eg, a stepped surface between the first moving body 1411 and the second moving body 1412) is caught and the lower portion of the moving member 140 It may be provided to guide the movement of the moving member 140 while limiting the movement due to contact with.

The second flow pipe 1122 may be provided to be connected to the first flow pipe 1121, specifically the second chamber 1121b. The second flow pipe 1122 receives the chemical liquid from the first flow pipe 1121 and is provided to flow the chemical liquid through the chemical liquid discharge port 112a penetrating the outer side of the flow path 112 Can be.

The second flow path pipe 1122 may include a receiving chamber 1122a and a discharge chamber 1122b.

The receiving chamber 1122a may be connected to the first flow channel 1121, specifically the second chamber 1121b through the elastic door, which will be described later, and to receive the chemical solution through on/off of the elastic door. It can be provided.

The discharge chamber 1122b is connected to the receiving chamber 1122a, has a diameter wider than that of the receiving chamber 1122a, and is connected from the receiving chamber 1122a to the chemical solution discharge port 112a to transfer the chemical It may be provided to discharge to the outside of the flow path part 112 to the outside of the second flow pipe 1122.

The chemical liquid outlet 112a is a hole which penetrates from the inside to the outside of the second flow pipe 1122 to allow the chemical liquid to flow into the elastic housing 170, and the second flow pipe 1122 It may be formed to be inclined from the top to the bottom.

The resilient doors 1123 and 1123 may be positioned between the first flow passage 1121 and the second flow passage 1122, specifically between the second chamber 1121b and the receiving chamber 1122a, and , It may be provided to turn on/off a flow path through which the second chamber 1121b and the receiving chamber 1122a are connected. The resilient doors 1123 and 1123 have a structure in which the movable member 140 is opened while pushing the resilient doors 1123 and 1123 according to the movement of the movable member 140 and closed by elasticity and pressure. I can. The elastic doors 1123 and 1123 may be turned on/off from the first flow pipe 1121 toward the second flow pipe 1122 according to the movement of the moving member 140.

9 is a schematic perspective view of a pressing member 130 in the chemical liquid injection device 100 according to an embodiment of the present invention.

10 is a cross-sectional view of a connection portion between the first body 1311 and the second body 1312 of the pressing member 130 in the chemical liquid injection device 100 according to an embodiment of the present invention.

Referring to FIGS. 9 and 10 as well as previous FIGS. 1 to 6 together, the pressing member 130 according to an embodiment of the present invention is seated in the receiving space of the pressing part 111, and the first flow path It is positioned and moved to a part of the pipe 1121, is connected to the moving member 140 to control the movement of the moving member 140, and provided to inject a chemical solution while opening the elastic doors 1123 and 1123 Can be.

Specifically, the pressing member 130 may include a body member 131, a guide member 132, and an elastic member 133.

The body member 131 may include a first body 1311 and a second body 1312.

The first body (1311) is accommodated in the inner chamber (111b), the inside of the first body (1311) through the first body (1311) and inserting the protruding tube (122) (1311a) may be formed.

The second body 1312 has a diameter smaller than the first body 1311 at the lower end of the first body 1311 and can be moved from the inner chamber 111b to the inside of the first chamber 1121a. have. The first body 1311 is formed with a hollow (second hollow 1312a) connected to the first hollow 1311a so that the chemical liquid is introduced, and the second hollow 1312a is formed in the center of the cylinder. It may be partitioned into a plurality of fan-shaped shapes to form a structure connected to the 140.

Specifically, the second body 1312 may be provided with a second hollow 1312a, a pressing protrusion 1312b, 1312b, and a support slit 1312c. The second hollow 1312a may be connected to the first hollow 1311a to form a flow path through which the chemical liquid flows. As described above, the second hollow 1312a may be formed into a plurality of fan-shaped hollows due to the pressing protrusions 1312b and 1312b and the support slit 1312c to be described later.

The pressing protrusions 1312b and 1312b are located at the center of the second hollow 1312a to the center of the second body 1312 and protrude from the upper portion of the second body 1312 to the outer side in the lower direction. It may be combined with the moving member 140.

The support slit 1312c is configured to be connected to the pressing protrusions 1312b and 1312b on the inner side of the second body 1312, and at least one, for example, four may be provided. The pressing protrusion 1312b may be integrally formed with the second body 1312 due to the support slit 1312c.

The guide member 132 may have a donut shape from an upper end of the first body 1311 and at least one protrusion may be provided. The guide member 132 may form a groove for guiding the movement of the body member 131 by inserting the protruding protrusion 111c. In addition, when the guide member 132 is inserted into the protruding protrusion 111c, one end of the elastic member 133 is caught by the guide member 132 and according to the movement of the guide member 132, the elastic member ( 133) may have a structure in which it is pressed or restored.

The protruding protrusion 111c may be inserted into the groove, and the groove may be moved upward and downward along the protruding protrusion 111c.

In the present invention, it may be described that the guide member 132 is provided with four as the upper end of the first body 1311, for example. However, the number or shape of the guide member 132 is not limited thereto, and the pressing member 130 can guide the upward and downward movement without shaking in the accommodation space, and pressurize the elastic member 133. Any form that allows it to be transformed or changed will be possible.

The elastic member 133 includes an elastic member 133 provided on the protruding protrusion 111c and positioned between the guide member 132 and the bottom surface to provide an elastic force when the body member 131 moves. can do.

The elastic member 133 may be pressed according to the pressing of the chemical liquid injection chamber 120, and when the pressing of the chemical liquid injection chamber 120 is released, a restoring force is applied so that the chemical liquid injection chamber 120 is positioned in its original position It can be provided to be able to.

11 is an enlarged view of the coupling position of the pressing member 130 and the moving member 140 in the chemical liquid injection device 100 according to an embodiment of the present invention.

Referring to Fig. 11 as well as previous Figs. 1 to 6 together, the moving member 140 according to an embodiment of the present invention moves according to the movement of the pressing member 130 and pushes or releases the elastic door. Thus, it may be provided to turn on/off the connection of the receiving chamber 1122a in the second chamber 1121b.

The moving member 140 may include the moving body, an upper protrusion 142 and a lower protrusion 143.

The moving body may include a first moving body 1411 and a second moving body 1412. The first moving body 1411 may be formed in a cylindrical shape that widens from top to bottom. The second moving body 1412 is stepped at the end of the first moving body 1411, has a wide diameter, and may be formed in an extended cylindrical shape.

A stepped surface may be formed between the first moving body 1411 and the second moving body 1412.

Before the pressing member 130 is pressed, pressure is applied in the upward direction by the pressure of the elastic housing 170, and the stepped surface may be contact-sealed with the upper surface of the second chamber 1121b. Accordingly, it is possible to limit the reverse flow of the chemical liquid from the second chamber 1121b toward the first chamber 1121a.

The upper protrusion 142 protrudes from the upper surface of the moving body, and is provided to be fixed in engagement with the pressing protrusions 1312b and 1312b, so that the pressing force of the pressing member 130 may be transmitted.

The lower protrusion 143 may be provided to protrude from the lower surface of the moving body to push or release the elastic doors 1123 and 1123.

12 is a view showing the state of the pressing member 130 and the moving member 140 according to the pressing of the chemical solution injection chamber 120 in the chemical solution injection device 100 according to an embodiment of the present invention.

13 is an enlarged view of the coupling position of the pressing member 130 and the moving member 140 according to the pressing of the chemical liquid injection chamber 120 in the chemical injection device 100 according to an embodiment of the present invention.

Referring to FIGS. 12 and 13 as well as FIGS. 1 to 6 and 11 together, the chemical solution injection device 100 of the present invention includes a chemical solution supply chamber 110 in order to fill the chemical solution into the elastic housing 170, Specifically, the chemical solution injection chamber 120 may be seated on the pressing part 111. Accordingly, the lower portion of the housing 121 is located in the receiving space, and the protruding pipe 122 may be inserted into the first hollow 1311a of the pressing member 130.

When the chemical liquid injection chamber 120 is pressed, the chemical liquid injection chamber 120 may be moved downward while the pressing member 130 is pressed. The lower portion of the housing 121 may be located to the inner chamber 111b while being accommodated in the receiving space.

The elastic member 133 is pressed, the first body 1311 and the second body 1312 are moved along a first flow path pipe 1121, and the pressing protrusion 1312b is moved to the moving member 140 ) Can be pressurized. The moving member 140 may be moved downward by receiving the pressure of the pressing protrusion 1312b. As the moving member 140 moves downward, the lower protrusion pushes the elastic door to open the second chamber 1121b and the receiving chamber 1122a.

The chemical liquid is passed through the chemical liquid injection chamber 120 through the protruding pipe 122, the first hollow 1311a, the second hollow 1312a, the lower chamber of the first chamber 1121a, and the second chamber ( 1121b), the second flow pipe 1122 and the chemical solution outlet 112a may be introduced into the elastic housing 170.

Those of ordinary skill in the art to which the present invention pertains will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting. The scope of the present invention is indicated by the scope of the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. Must be interpreted.

100: chemical liquid injection device
110: chemical liquid supply chamber
111: pressing part
111a: outer chamber
111b: inner chamber
111c: protruding protrusion
112: Euro part
112a: chemical liquid outlet
1121: 1st Euro tube
1121a: first chamber
1121aa: Restricted slope
1121b: second chamber
1122: 2nd Euro tube
1122a: receiving chamber
1122b: discharge chamber
1123: resilient door
120: chemical liquid injection chamber
121: housing
122: protruding pipe
130: pressing member
131: body member
1311: first torso
1311a: first hollow
1312: second torso
1312a: second hollow
1312b: pressure protrusion
1312c: support slit
132: guide member
133: elastic member
140: moving member
141: moving body
1411: first moving body
1412: second moving body
142: upper protrusion
143: lower protrusion
170: resilient housing

Claims (12)

In the chemical liquid injection device,
A chemical solution supply chamber accommodated in the elastic housing, supporting the elastic housing and flowing a chemical solution into the elastic housing;
A chemical liquid injection chamber positioned above the chemical liquid supply chamber, receiving the chemical liquid, and supplying the chemical liquid to the elastic housing through the chemical liquid supply chamber;
A pressurizing member provided on the upper side of the chemical solution supply chamber, connected to the chemical solution injection chamber, and pressurized or restored according to the pressing or release of the chemical solution supply chamber to inject the chemical solution into the elastic housing through the chemical solution supply chamber ; And
Injecting a chemical solution including a moving member provided in the upper end of the chemical solution supply chamber to be connected to the pressurizing member under the pressurizing member and moving according to the pressurization of the pressurizing member to move the chemical or restrict the movement of the chemical Device. The method of claim 1, wherein the chemical liquid injection chamber,
A housing forming a receiving groove in which the chemical solution is accommodated; And
A chemical liquid injection device comprising a protruding pipe protruding from one side of the housing, seated on the pressing member, and discharging the chemical liquid to the chemical liquid supply chamber. The method of claim 2, wherein the chemical liquid supply chamber,
A pressing part forming an accommodation space in which the pressing member is seated; And
A chemical liquid having a flow path that extends stepped inward from an end of the pressing part, restricts the reverse inflow of the chemical liquid while the moving member is movably seated and has at least one chemical liquid discharge port along an outer circumferential surface of a predetermined position Injection device. The method of claim 3, wherein the flow path portion
A first flow path pipe connected to the receiving space, accommodating some end portions of the pressing member and receiving the moving member to form a receiving groove for moving the moving member up and down;
A second flow path pipe receiving the chemical liquid from the first flow pipe and flowing the chemical liquid through the chemical liquid discharge port; And
And a resilient door turned on/off from the first flow pipe in the direction of the second flow pipe according to the movement of the moving member between the first flow pipe and the second flow pipe. The method of claim 4, wherein the second flow pipe,
A receiving chamber connected to the first flow passage through the elastic door to receive the chemical solution; And
And a discharge chamber connected from the receiving chamber to the chemical liquid discharge port to discharge the chemical liquid to the outside of the second flow path pipe. The method of claim 5,
The chemical liquid discharge port is penetrated from the inside to the outside of the second flow pipe, and is formed to be inclined from the top to the bottom. The method of claim 4, wherein the first flow path tube,
It is connected to the pressing part, and guides the movement of the pressing member, and forms an inclined surface that restricts movement so as to be caught with the pressing member when the pressing member descends, and a lower chamber having a diameter smaller than that of the upper chamber and the upper chamber. A first chamber; And
Injecting a chemical solution comprising a second chamber connected at an end of the first chamber, which guides the movement of the moving member to limit the upper movement of the moving member, has a cylindrical shape, and gradually decreases toward the elastic door Device. The method of claim 7, wherein the pressing portion,
Outer chamber;
An inner chamber accommodated in the outer chamber, connected to the first chamber, and movably seating the pressing member; And
A chemical injection device comprising at least one protruding protrusion protruding upward from a bottom surface between the inner chamber and the outer chamber. The method of claim 8, wherein the pressing member,
A body member including a first body accommodated in the inner chamber and a second body having a diameter smaller than the first body at a lower end of the first body and moving from the inner chamber to the inside of the first chamber;
A guide member provided at an upper end of the first body and forming a groove for guiding the movement of the body member by inserting the protruding protrusion; And
A chemical injection device comprising an elastic member provided on the protruding protrusion and positioned between the guide member and the bottom surface to provide an elastic force when the body member moves. The method of claim 9,
A first hollow penetrating through the first body and inserting the protruding tube is formed inside the first body,
The second body has a second hollow connected to the first hollow, and is located at the center of the second hollow toward the center of the second body and protrudes from the upper portion of the second body to the outer side in the lower direction, and the moving member And at least one support slit connected to the pressing protrusion on an inner surface of the body and a pressure protrusion coupled to the body. The method of claim 10, wherein the moving member,
Moving body;
An upper protrusion protruding from an upper surface of the movable body and fixed by engaging with the pressing protrusion; And
A chemical injection device comprising a lower protrusion protruding from a lower surface of the moving body to push or release the elastic door. The method of claim 11, wherein the moving body,
It is provided with a first moving body having a cylindrical shape that expands from the top to the bottom, and a second moving body having a wide diameter and extending from the end of the first moving body,
The stepped surface between the first moving body and the second moving body is contact-sealed with the upper side of the second chamber, so that the chemical liquid moves between the first chamber and the second chamber according to the movement of the moving body. Controlled chemical injection device.

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