KR101312556B1 - controller to supply a medicinal fluid - Google Patents

Abstract

The present invention relates to a chemical liquid supply amount regulator of the flow path adjustment method that is able to finely supply the chemical liquid by adjusting the flow path of the chemical branching hose branched into a plurality of chemical liquids, while allowing a fine quantitative supply of the chemical liquid through a smooth flow of the chemical liquid There is no loss due to the remaining amount of, and to facilitate the manufacture.

Conventionally, the adjustment method of the chemical liquid supply amount regulator is a chemical liquid control line that is stored inside the case is a chemical liquid control line is connected to a plurality of chemical liquid branch hoses of different flow rate in one line is accommodated in the control body formed on the outside of the case By opening and closing the chemical liquid branch hoses through the rotation of the chemical liquid branch hose, the amount of the chemical liquid supplied to the sum of the flow rates of the chemical liquid branch hoses opened is adjusted.

However, this is because the flow rate of the chemical branch hose uses the surface tension difference of the chemical liquid along the length, so the length step between the chemical branch hoses corresponding to the minimum flow rate and the maximum flow rate increases, and each of the chemical branch hoses has a circular shape along the length. There is a problem in that the flow of the chemical solution is not smoothly, so that the flow of the chemical solution is not smooth, so that the supply of quantitative chemical solution is not only disrupted. .

To this end, the chemical liquid supply amount regulator of the present invention is connected to a plurality of chemical liquid branch hoses having the same flow path cross section and length to the inlet and the outlet of the chemical liquid control line to form a branch, and at each end of the chemical liquid branch hose The above-mentioned problems can be solved by combining the chemical adjusting pipes having different flow path cross sections so that the flow rate of the chemical liquid split hose is made by the flow cross section of the chemical liquid adjusting pipe so that the chemical liquid split hose is stored along the guidelines formed on the inner surface of the main body. It would be.

Chemical supply, fine, rotation, flow path cross section, length

Description

Controller to supply a medicinal fluid

The present invention relates to a chemical liquid supply amount regulator of the flow path adjustment method that is able to finely supply the chemical liquid by adjusting the flow path of the branched chemical solution hose to a plurality of, in particular to allow fine quantitative supply of the chemical liquid through the smooth flow of the chemical liquid It is to prevent the chemical solution from remaining in the chemical branch hose so that there is no loss of the chemical input to the patient, and also easy to manufacture.

In general, the chemical liquid supply regulator adjusts the chemical liquid discharged from the chemical liquid supply to a certain amount according to the disease and pain state of the patient so that it can be used. Conventionally, a portion of the chemical liquid discharged from the chemical liquid supply inside the case The button type chemical liquid supply regulator was used so that a predetermined amount of the chemical liquid stored in the storage tube was discharged by pressing the storage tube repeatedly by using the button body repeatedly operated by flowing into the formed storage tube.

However, such a conventional button-type chemical liquid supply regulator is capable of adjusting a certain amount of chemical liquid that can be provided to a conventional patient, but it is impossible to control the chemical liquid of a small flow rate, so that a large amount of patients or drugs requiring fine quantitative input such as terminal cancer patients In the case of shock deaths due to input to patients foreseen, they could not be used because they could lead to unexpected fatalities.

Therefore, in order to solve this problem, as shown in FIG. 6, a plurality of chemical liquid branch hoses 101 and 102 each having different flow rates of chemical liquids at the inlet portion 201 and the outlet portion 201 having branching holes, as shown in FIG. 6. (103) (104) is connected to the chemical control line 200 is connected to the case 300, the outer side of the case is formed to rotate the adjuster is printed numerical value according to the rotation angle of the adjuster By opening / closing the branch hoses, the chemical liquid supply amount regulator of the flow path adjustment method is provided so that the supply amount of the chemical liquid is determined through the sum of the flow rates of the chemical liquid branch hoses that are opened.

However, since the chemical liquid branch hoses 101, 102, 103, and 104 are formed differently by using the surface tension difference of the chemical liquid, the length step between the chemical liquid branch hoses corresponding to the minimum flow rate and the maximum flow rate is different. Each chemical liquid branch hose 101, 102, 103, 104 is rolled repeatedly several times in a circular shape along its length when it is stored in the cursor case.

Therefore, the arrangement of the chemical branch hose has a problem in that the transfer flow of the chemical liquid is not smooth due to the curled portion, which causes a problem in supplying the quantitative chemical liquid as well as the remaining amount of the chemical liquid to be injected into the patient. .

In particular, the lower the flow rate of the chemical liquid branch hose, the longer the length and the number of times that the drying is more disturbing the flow of the chemical liquid.

In addition, it is difficult to manufacture due to the complexity of the work that needs to be rolled and stored in different lengths of the chemical branch hose inside the case and the complexity of the internal structure of the case for wrapping and placing the chemical liquid branch hose.

Therefore, the present invention has been made in order to solve the problems occurring in the chemical liquid supply regulator of the flow path adjustment method, by forming a flow rate difference of the chemical liquid branch hose based on the flow path cross section rather than the length of the hose, a plurality of chemical liquid branch with different flow rates The hoses were formed to have the same length so that all the chemical branch hoses were arranged uniformly in a line inside the case.

To this end, the chemical liquid supply amount regulator of the present invention is connected to a plurality of chemical liquid branch hoses having the same flow path cross section and length to the inlet and the outlet of the chemical liquid control line to form a branch, and at each end of the chemical liquid branch hose By combining the chemical control tubes with different flow path cross sections so that the flow rate of the chemical liquid branch hose is made by the flow cross section of the chemical liquid control tube, all of the chemical liquid branch hoses are placed and arranged along a guide line uniformly formed on the inner surface of the case body. .

The chemical liquid supply amount regulator of the present invention controls the flow paths of a plurality of chemical liquid branch hoses branched in one line to enable the quantitative supply of fine chemical liquids, so that each chemical liquid branch hose has the same length and is uniformly lined up without curling. Since it can be arranged to be stored so that the smooth flow of the chemical liquid through each chemical branch hose.

Therefore, the controlled amount of the chemical liquid can be injected into the patient in a quantitative manner, and the chemical liquid is not left in each chemical branch hose so that the chemical liquid to be added to the patient is not lost.

In addition, since each of the chemical liquid branch hoses connected to the chemical liquid control line is provided with the same length, it is possible to facilitate the manufacture by facilitating the storage and connection work inside the case.

Hereinafter, the most preferred embodiment of the present invention will be described in more detail.

1 to 4, the chemical liquid supply amount regulator of the flow path adjustment method of the present invention, a plurality of sides of the chemical liquid control line 30 accommodated in the body 11 of the case 10 corresponding to each other An inlet portion 31 and an outlet portion 32 having branching portions 31a and 32a are formed, and a plurality of chemical liquid branch hoses 20 having different flow rates are coupled to the branching portions 31a and 32a. Rotating the rotary lever 41 of the adjuster 40 coupled to the outside of the cover 12 of the case 10 so that the position of the chemical liquid supply indicator 42 is changed, the rotation angle of the adjuster 40 The opening and closing of the respective chemical liquid branch hoses 20 are controlled by the action of the pressure plate 43 so that the supply amount of the chemical liquid is adjusted by the total flow rate of the chemical liquid branch hoses 20 that are opened. At one end of the chemical liquid control tube 21, 22, 23, 24, each having a different flow path cross section is combined Air is respectively arranged in the housing body 11, the guide line (11a) uniformly in a line formed on the inner surface of the case 10.

At this time, the chemical liquid control tube 21, 22, 23, 24 is made of a glass tube for the safety of hygiene.

In addition, the chemical liquid control tube (21) (22) (23) and (24) because the chemical liquid branch hose 20 and the chemical liquid control line 30 is made of a soft body any one end of the chemical liquid branch hose 20 and the chemical liquid control line ( 30 can be fitted to the inlet 31 or outlet 31 of the outlet 31, 31a, 32a, respectively, and the chemical liquid adjusting tube (21) (22) (23) (24) is not coupled The other end of the chemical liquid branch hose 20 and the branching holes 31a and 32a of the inlet portion 31 or the outlet portion 32 of the chemical liquid control line 30 can be integrally formed by forming the same material.

At this time, the chemical liquid control tube 21, 22, 23, 24 and the chemical liquid branch hose (20) of the chemical liquid control tube 21, 22, 23, 24 and the chemical liquid branch hose (20) If it is impossible to fit the fitting can be made to fit the fitting using the elastic tube (21a) (22a) (23a) (24a).

On the other hand, the inlet 31b of the inlet 31 of the chemical liquid control line 30 is connected to the chemical liquid inlet hose 70 is connected to the chemical liquid controller 50, the outlet 32b of the outlet 32 Since the chemical liquid discharge hose 80 connected to the syringe 60 is connected, the chemical liquid supplied from the chemical controller 50 is branched between the inlet portion 31 and the outlet portion 32 of the chemical liquid control line 30. By adjusting the flow paths of the plurality of chemical liquid branch hoses 20 connected to each other, it is possible to supply a fixed amount of the chemical liquid through the flow path adjustment.

In addition, the inner groove 11 of the main body 11 of the case 10 has a fitting groove 12 to which the adjusting body 40 is coupled, and the upper and lower sides of the chemical liquid inlet hose 70 and the chemical liquid outlet hose 80. The through-holes 13 and 14 through which the through hole 13 is formed are formed so that the guide line 11a is formed in a curved shape corresponding to each other on both sides with the fitting groove 12 as the center.

In addition, the chemical liquid inlet 51 formed in the chemical controller 50 is formed with a rotary opening and closing cover 52 for opening and closing the chemical liquid inlet 51 by rotation to prevent the convenience and leakage of the chemical liquid. It is supposed to be.

Therefore, the chemical liquid supply amount controller of the present invention configured as described above, by connecting a plurality of chemical liquid branch hoses 20 to the chemical liquid control line 30 branched to control the fine amount of the chemical liquid through the opening and closing of the chemical liquid branch hose 20 In this embodiment, the difference in the flow rate supplied through each chemical liquid branch hose 20 does not change the length of the chemical liquid branch hose 20 as a variable, but the chemical liquid adjusting tube connected to one end of the chemical liquid branch hose 20 ( Since the cross sections of the flow paths 21, 22, 23, and 24 are used as variables, the chemical liquid branch hoses 20 having different flow rates can be formed in the same length.

Therefore, all of the branched chemical liquid branch hose 20 can be housed in a uniformly arranged inside the case.

Therefore, the flow of the chemical liquid transferred through each of the chemical branch hose (20) is able to control the quantitative control of the chemical liquid, and the chemical liquid branch hose (20) has no curled portion, the chemical liquid accumulated in the chemical branch hose In this case, the cross section of the flow path of the chemical adjusting tube can be finely reduced, so that finer chemical liquid can be quantitatively adjusted.

1 is an exploded perspective view showing the configuration of an embodiment of the present invention.

2 is a combined perspective view of the present invention.

Figure 3 is a state in which the chemical liquid control line is arranged in the case.

Figure 4 is a cross-sectional view of the chemical liquid adjustment tube of the chemical liquid branch hose housed in the case

5 is a reference use state diagram of the present invention.

6 is a state diagram of a conventional chemical liquid separation hose housed in a case.

<Explanation of symbols for the main parts of the drawings>

10: case 11: body

12: cover 20: chemical branch hose

21, 22, 23, 24, 25: chemical liquid control tube 30: chemical liquid control line

31: inlet 32: outlet

40: adjuster 41: rotary lever

50: chemical regulator 60: syringe

70: chemical liquid inlet hose 80: chemical liquid inlet hose

Claims (3)

Inflow portions 31 and outlet portions 32 having a plurality of branching holes 31a and 32a are formed at both sides of the chemical liquid control line 30 accommodated in the case 10. A plurality of chemical liquid branch hoses 20 having different flow rates are respectively coupled to the mechanisms 31a and 32a, and the respective chemical liquid branch hoses 20 are formed according to the rotation angle of the adjuster 40 coupled to the outside of the case 10. The chemical liquid supply hose is configured to adjust the supply amount of the chemical liquid by the sum of the flow rates of the chemical liquid branch hose 20 opened and closed by intermittent opening, and the chemical liquid branch hose 20 has the same flow path cross section and length. One end of each of the chemical liquid adjusting tubes 21, 22, 23, 24, each having a different flow path cross section, is arranged to be stored along the guide lines 11a uniformly formed in a line on the inner surface of the case 10. The chemical liquid supply regulator of the flow path adjustment method characterized in that. The chemical liquid supply regulator according to claim 1, wherein the chemical liquid adjusting tube (21) (22) (23) (24) is made of a glass tube. According to claim 1, wherein the chemical liquid adjustment tube 21, 22, 23, 24 and the chemical liquid branch hose 20 so that the fitting coupling using the elastic tube 21a, 22a, 23a, 24a is made. Fluid supply regulator with adjustable flow rate adjustment.

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