KR100805314B1 - Valve for injecting a fixed quantity medicine - Google Patents

Abstract

According to the present invention, when the discharge pressure of the chemical liquid exceeds the reference value in conjunction with the contraction pressure of the chemical liquid storage tube containing the chemical liquid, the discharge pressure of the chemical liquid is reduced to reduce the discharge of the chemical liquid injected into the human body, and the discharge pressure of the chemical liquid is increased. When the reference value (lowest shrinkage pressure of the chemical storage tube) is reached, the discharge rate of the chemical liquid is returned to its original state so that the constant amount of the chemical liquid is supplied to the patient. First and second compartments 22 and 24 formed in an up-down direction with respect to the partition 26 formed in a horizontal direction in the inner center thereof; The elastic plate 30 is coupled through the lower coupling part 42 formed at the lower end of the through hole 28 formed at the center of the partition 26 to discharge the chemical liquid applied to the upper surface of the elastic plate 30. A pressure rod 40 for selectively opening and closing the flow path of the through hole 28 while moving up and down according to pressure; The lower plate 50 coupled to the lower surface 27 of the body 20 to press the lower surface of the rim surface 32 formed at both ends of the curved surface 52 formed on the upper circumference of the elastic plate 30 Characterized in that consisting of.

Therefore, the present invention constituted as described above, the lowering of the pressure rod 40 in conjunction with the elastic plate 30 when the discharge pressure of the chemical liquid in conjunction with the contraction pressure of the chemical liquid storage tube 230 containing the chemical liquid exceeds the reference value By closing the through-hole 28 by the operation to reduce the discharge pressure of the chemical liquid to reduce the discharge of the chemical liquid injected into the human body, and also when the shrinkage pressure of the chemical storage tube 230 reaches the reference value was deformed The elastic plate 30 is returned to its original state to open the through hole 28 closed by the pressure rod 40 so that the discharge rate of the chemical liquid can be returned to the original state, so that a constant amount of the chemical liquid continues to the patient. It provides an effect that can be supplied.

Description

VALVE FOR INJECTING A FIXED QUANTITY MEDICINE}

Figure 1a is a graph showing the discharge of the chemical liquid according to the conventional gas pressure discharge method and natural drop discharge method over time,

Figure 1 b is a graph showing the discharge of the chemical liquid according to the conventional balloon pressure discharge method with time change,

Figure 1 c is a graph showing the discharge of the chemical liquid using the metered amount injection valve according to the present invention over time,

Figure 2a is a cross-sectional view showing the internal structure of the chemical liquid metering injection valve according to an embodiment of the present invention showing the discharge path of the chemical liquid in the pressure rod is raised,

 Figure 2b is a cross-sectional view showing the internal structure of the chemical liquid metering injection valve according to an embodiment of the present invention showing the discharge path of the chemical liquid in the pressure rod is lowered,

3 is a view illustrating a state in which a chemical liquid injection valve is coupled to a chemical storage means according to an embodiment of the present invention;

4 is a cross-sectional view showing a second embodiment of a chemical liquid injection valve according to the present invention;

5 is a combined end shaving showing a third embodiment of a chemical liquid injection valve according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: chemical liquid injection valve 20: body

22: Compartment 23: Inlet

24: 2nd compartment 26: Bulkhead

27: bottom surface 28: through hole

It is an elastic board 32: Border

34: coupling groove 40: pressure rod

42: lower coupling portion 44: locking jaw

50: bottom 52: curved surface

60: O-ring 70: spring

80: chemical injection means 82: body

83: contact point 84: lower coupling portion

85: Incision 86: Connector body

87: through 88: backflow prevention pad

89: Chemical injection inlet 100: Case

200: chemical storage means 210: fixed tube

211: Chemical discharge hole 220: Moving shaft

230: chemical storage tube 400: chemical inlet

The present invention relates to a chemical liquid injection valve, and more particularly, in connection with the contraction pressure of the chemical liquid storage tube containing the chemical liquid, when the discharge pressure of the chemical liquid exceeds the reference value, the chemical liquid is injected into the human body by reducing the discharge pressure of the chemical liquid. It is related with a chemical injection valve for reducing the discharge of the chemical, and when the discharge pressure of the chemical reaches the reference value, the discharge rate of the chemical returns to its original state so that a constant amount of the chemical can be supplied to the patient.

As is well known, special antibiotics are administered to severe patients such as cancer or leukemia, and painkillers are administered at regular time intervals in order to quickly relieve pain in patients with continuous pain after surgery.

As described above, antibiotics administered to a patient such as cancer or leukemia should always be constantly administered in small amounts due to the characteristics of the drug, unlike drugs generally administered. It is equipped with a control unit to control the control unit to allow the medical staff (doctors and nurses) to directly control the dosage by the adjuster's naked eye, because the exact amount is not administered according to the patient's condition, There is a disadvantage in that the use of the dose should be adjusted from time to time, as well as adversely affect the treatment of the patient.

In other words, the medical staff directly controls the dosage by hand, and when the dose of the adjusted chemical is high from the normal value, there is a disadvantage of coma and shock death due to the excessive administration of the liquid, and on the contrary, the dosage is the standard value. If less, there was a defect such as the correct treatment is not done.

In addition, when administering antibiotics or other medicines, other medicines such as painkillers can be administered directly to the human body using a syringe, or by inserting a syringe into a hose to which the medicine is administered. When administered directly to the patient, it causes a lot of pain to the patient and impairs the patient's stability.In addition, when the syringe is inserted into the hose, the hose is damaged by frequent administration, and the drug solution being administered through the damaged part leaks. It can be an infection due to the invasion of bacteria from the outside, which causes the hassle of having to replace the hose and the medicine with a new one.

Therefore, in recent years, a device for supplying a chemical liquid by pressurizing the chemical liquid storage means in which the chemical liquid is stored through a constant gas pressure has been developed, but the chemical liquid discharge method by the gas pressure is conventionally shown in FIG. 1A of the accompanying drawings. Like the general natural drop discharge method, when the time elapses from the beginning of the discharge time of the chemical liquid, there is a problem that the discharge pressure of the chemical liquid is gradually reduced and the discharge of the chemical liquid is not constant.

In addition, the method of discharging by balloon pressure, which is still commonly used until now, is that the balloon containing the chemical liquid is gradually contracted so that a certain amount of the chemical liquid is continuously supplied to the patient by the contracting pressure, but the chemical liquid by such balloon pressure is used. As shown in the graph shown in Figure 2b of the accompanying drawings, the contraction pressure of the balloon, which was maintained at the beginning of the discharge without maintaining a constant discharge pressure of the chemical liquid, is gradually drawn downward while going through the middle period. In case of falling, the contraction pressure of the balloon is gradually increased (the tendency of contraction is sharply reduced when the amount of the chemical liquid contained in the balloon decreases due to the elasticity of the balloon itself). There was a structural problem that it was virtually impossible to supply quantitative liquids.

Therefore, the present invention is invented to solve the above problems, and in conjunction with the contraction pressure of the chemical storage tube containing the chemical liquid when the discharge pressure of the chemical liquid exceeds the reference value is injected into the human body by reducing the discharge pressure of the chemical liquid The purpose of the present invention is to provide a chemical liquid injection valve that allows the discharge of the chemical liquid to be reduced, and when the discharge pressure of the chemical liquid reaches the reference value, the discharge speed of the chemical liquid is returned to its original state so that a constant amount of the chemical liquid can be supplied to the patient at all times. have.

Chemical solution injection valve according to the present invention for achieving the above object, the first and second compartments respectively formed in the vertical direction around the partition wall formed along the transverse direction in the inner center of the body; The elastic plate is coupled to the through hole formed at the center of the partition wall, and the elastic plate is coupled to the bottom coupling part formed at the bottom thereof to selectively open and close the flow path of the through hole while lifting up and down according to the discharge pressure of the chemical liquid applied to the upper surface of the elastic plate. A pressurizing rod for allowing a load; Coupled to the lower surface of the body is characterized in that the curved surface formed on the upper periphery consists of a lower plate to press the lower portion of the rim surface formed on both ends of the elastic plate.

Hereinafter, the structure of the chemical liquid metering injection valve according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a is a cross-sectional view showing the internal structure of the chemical liquid metering injection valve according to an embodiment of the present invention to the discharge path of the chemical liquid in the pressure rod is raised, Figure 2b is an embodiment of the present invention It is a cross-sectional view showing the internal structure of the chemical liquid metering injection valve according to the discharge path of the chemical liquid in the state in which the pressure rod is lowered.

As can be confirmed in detail through the respective drawings, the chemical liquid metering injection valve according to the present invention is formed in each of the up and down direction about the partition 26 formed along the horizontal direction in the inner center of the body 20, respectively First and second compartments (22, 24); The elastic plate 30 is coupled through the lower coupling part 42 formed at the lower end of the through hole 28 formed at the center of the partition 26 to discharge the chemical liquid applied to the upper surface of the elastic plate 30. A pressure rod 40 for selectively opening and closing the flow path of the through hole 28 while moving up and down according to pressure; The lower plate 50 coupled to the lower surface 27 of the body 20 to press the lower surface of the rim surface 32 formed at both ends of the curved surface 52 formed on the upper circumference of the elastic plate 30 Characterized in that consisting of.

     On the other hand, the present invention is configured so that the inlet 23 is formed on one side of the first compartment 22 can be introduced into the chemical liquid through the inlet 23, the outlet (one side of the second compartment 24) 29 is formed to allow the discharge of the chemical liquid through the outlet 29, while the upper coupling portion in the upper direction of the first compartment 22 as shown in FIG. 25 is formed so that the chemical injection means 80 can be coupled through the upper coupling portion (25).

     Specific configuration of the chemical injection means 80 is a body 82 including a lower coupling portion 84 is screwed to the upper coupling portion 25; A connector body 86 having a through hole 87 formed in the center thereof while being fitted to the inner circumferential surface of the lower coupling portion 84; It is seated on the upper surface of the connector body 86 and the upper portion is composed of a hemispherical backflow prevention pad 88 for selectively opening and closing the flow path of the chemical liquid inlet 89 formed perpendicular to the inner center of the body 82 It is done.

     On the other hand, the present invention is the engaging jaw 44 formed on the upper portion of the pressure rod 40 is coupled to the lower O-ring 60 of the elastic material through the through-hole formed in the partition 26 by the O-ring 60 The lower coupling portion 42 formed in a tapered shape in the lower portion of the pressurizing rod 40 allows the flow path of the 28 to be opened and closed more tightly and has a coupling groove formed in the upper center of the elastic plate 30. 34, it is characterized in that the elastic fitting is coupled to raise and lower the pressure rod 40 in accordance with the shape deformation of the elastic plate 30.

     4 is a coupling end shaving showing a second embodiment of the chemical liquid injection valve according to the present invention, as shown in the drawing, the elastic plate 30 is made of a lower plate 50 having a hardened material thereof. The elastic means such as the spring 70 is coupled between them so that the pressure rod 40 is interlocked and operated by the lifting and lowering operation of the elastic plate 30 rather than the deformation of the elastic plate 30. It is characterized by one.

Specific working effects of the chemical liquid quantitative injection valve according to the present invention configured as described above will be described in detail with reference to FIGS. 2A, 2B, and 3 of the accompanying drawings.

First, in order to inject the medicine into the patient's body through the drug solution injection valve 10 according to an embodiment of the present invention, when the patient opens the flow path through the button operation of the drug amount adjusting means (not shown) illustrated in the drawings The chemical liquid is slowly discharged from the chemical liquid storage means 200 which is one embodiment.

That is, the chemical liquid contained in the chemical liquid storage means 200 is discharged by the contraction pressure of the chemical liquid storage tube 230 through the connection pipe 300 along the chemical liquid discharge hole 211 formed on one side of the fixed tube 210 The chemical liquid introduced into the first compartment 22 and thus introduced into the first compartment 22 is passed through the through hole 28 formed in the center of the partition 26 as shown in FIG. 2A. At the same time as being introduced into the (24) it is supplied to the patient through the outlet 29 formed on one side.

At this time, when the discharge pressure of the chemical liquid introduced into the second compartment 24 through the first compartment 22 increases above the reference value, the discharge pressure of the chemical liquid gradually becomes elastic as it corresponds to the discharge pressure increased above the reference value. Since the elastic plate 30 acts on the upper portion of the plate 30, the elastic plate 30 has a cylindrical shape coupled to the upper portion thereof while the center portion thereof is bent downward in the direction of the lower plate 50, as shown in FIG. 2B of the accompanying drawings. The pressing rod 40 is pulled downward.

As described above, the present invention increases the pressure of the chemical liquid introduced into the second compartment 24 of the body 20 above the reference value (pressure such that the elastic plate is not deformed) (when the pressure increases, the chemical liquid per unit time increases. When the amount of the discharge increases, the center of the elastic plate 30 is downwardly deformed in proportion to the increase in pressure, and at the same time, the cylindrical pressure rod 40 engaged with the upper portion is pulled downward, and eventually, the locking step ( As the O-ring 60 coupled to the lower portion of the 44 seals the through hole 28, the chemical liquid introduced into the first compartment 22 is blocked from being supplied into the second compartment 24.

At this time, in the present invention, even if the supply of the chemical liquid into the second compartment 24 is blocked, the amount of the chemical liquid discharged through the outlet 29 provided on one side of the second compartment 24 is fine (through the outlet 29). The discharged chemical liquid is supplied to the patient through a hose configured in the form of capillary tube, so that a sudden cancellation of the discharge pressure does not occur.

Therefore, when the through hole 28 is closed by the O-ring 60 and the supply of the chemical liquid into the second compartment 24 is blocked, the chemical liquid discharge pressure in the second compartment 24 is gradually lowered without further raising. In addition, the restoring force of the elastic plate 30 is generated as much as the discharge pressure of the lowered chemical liquid so that the pressure rod 40 is gradually raised again and finally as shown in FIG. 2A of the accompanying drawings. As a result, the flow path of the through hole 28 is completely opened, so that the chemical liquid supply from the first compartment 22 to the second compartment 24 is repeated again.

As described above, according to the present invention, the elastic plate 30 is continuously deformed or restored to the lower side according to the discharge pressure of the chemical liquid applied to the upper surface of the elastic plate 30, and the pressure rod 40 coupled thereto. By repeatedly opening and lowering the opening and closing operation of the through hole 28, the chemical liquid injection valve 10 according to the present invention is the elastic plate 30 as shown in the graph shown in Figure 2c of the accompanying drawings If the shape is modified in accordance with the quantitative standard (based on the minimum shrinkage pressure of the chemical storage tube 230) will be able to maintain a constant discharge of the chemical solution per unit time without regard to the discharge time of the chemical liquid .

On the other hand, the chemical liquid metering injection valve 10 according to the present invention has an upper coupling portion 25 on the upper portion of the body 82 as shown in Figure 5 of the accompanying drawings and the upper coupling portion 25 is separate Combining the chemical solution injection means 80 of the chemical solution supply to the chemical storage means 200 in a form other than the supply method through the chemical solution inlet 400 disposed in the connection pipe 300 shown in Figure 3 of the accompanying drawings It can also be configured.

That is, when the chemical liquid supply process to the chemical liquid storage means 200 through the chemical liquid injection means 80 is described, first, the tip nozzle portion of the syringe (not shown) containing the chemical liquid is formed in the inner center of the body 82. When the center of the backflow prevention pad 88 that is in close contact with the contact end 83 at its lower end through the injection port 89 is pressed, the central portion of the backflow prevention pad 88 is pressed while the flow path Since the chemical liquid introduced through the chemical injection hole 89 is formed through the incision portion 85 formed on both sides of the backflow prevention pad 88 and the through-hole 87 formed in the center of the connector body 86, the first compartment The chemical liquid supplied into the inside of the 22 and thus supplied inside the first compartment 22 is introduced into the chemical storage tube 230 constituting the chemical storage means 200 through the inlet 23 of one side thereof. It is a configuration to be supplied.

On the other hand, the chemical liquid quantitative injection valve according to an embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the invention.

As described above, the chemical liquid metering injection valve according to the present invention is linked to the contraction pressure of the chemical liquid storage tube 230 containing the chemical liquid, when the pressure is higher than the reference value, the pressure rod 40 is interlocked with the elastic plate 30 By closing the through-hole 28 by the lowering operation of the) to reduce the discharge pressure of the chemical liquid to reduce the discharge of the chemical liquid injected into the human body, and when the shrinkage pressure of the chemical liquid storage tube 230 reaches the reference value The elastic plate 30, which has been deformed by the discharge pressure of the chemical liquid, is returned to its original state, and the through-hole 28 closed by the pressure rod 40 is opened to restore the discharge speed of the chemical liquid to the original state. As a result, a constant amount of drug solution is provided to the patient to be continuously supplied.

Claims (5)

      First and second compartments 22 and 24 formed in an up-down direction with respect to the partition 26 formed in a horizontal direction in the inner center of the body 20; The elastic plate 30 is coupled through the lower coupling part 42 formed at the lower end of the through hole 28 formed at the center of the partition 26 to discharge the chemical liquid applied to the upper surface of the elastic plate 30. A pressure rod 40 for selectively opening and closing the flow path of the through hole 28 while moving up and down according to pressure; The lower plate 50 coupled to the lower surface 27 of the body 20 to press the lower surface of the rim surface 32 formed at both ends of the curved surface 52 formed on the upper circumference of the elastic plate 30 Chemical liquid metering injection valve, characterized in that consisting of.      The inlet 23 is formed at one side of the first compartment 22 to allow the inflow of the chemical liquid through the inlet 23, and the outlet at one side of the second compartment 24. 29 is formed to allow the discharge of the chemical liquid through the discharge port 29, while the upper coupling portion 25 is formed in the upper direction of the first compartment 22 to form the upper coupling portion 25 Chemical liquid quantitative injection valve, characterized in that the chemical liquid injection means (80) can be coupled through.      3. The chemical injection means (80) of claim 2, further comprising: a body (82) including a lower coupling portion (84) screwed to the upper coupling portion (25); A connector body 86 having a through hole 87 formed in the center thereof while being fitted to the inner circumferential surface of the lower coupling portion 84; It is seated on the upper surface of the connector body 86 and the upper portion is composed of a hemispherical backflow prevention pad 88 for selectively opening and closing the flow path of the chemical liquid inlet 89 formed perpendicular to the inner center of the body 82 Chemical-liquid injection valve      The locking jaw 44 formed in the upper portion of the pressing rod 40 is coupled to the bottom of the partition 26 by the O-ring 60, the O-ring 60 is made of an elastic material. The lower coupling portion 42 formed in the lower portion of the pressurizing rod 40 allows the opening and closing of the flow path of the ball 28 to be tighter and closes in the coupling groove 34 formed in the upper center of the elastic plate 30. A chemical liquid metering injection valve, characterized in that the elastic fitting is coupled to raise and lower the pressure rod 40 according to the deformation of the elastic plate 30.    According to claim 1, wherein the elastic plate 30 is the rigidity of the material while the spring 70 is coupled between the lower plate 50 disposed on the lower portion of the elastic plate 30 to rise and fall rather than deformation Chemical pressure metering injection valve, characterized in that the pressure rod 40 to operate in conjunction with the lowering operation.

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