JPH0542209A - Transfusion device - Google Patents

Abstract

PURPOSE:To prevent differences between actual and indicated total transfusion quantities in a transfusion device which uses a syringe type injection pump by providing a rapid transverse button and a one shot button on a drive mechanism for a. CONSTITUTION:A one shot button 11 which feeds more transfusion in an emergency than usual transfusion and a rapid traverse button for air vent are located on an operation part 4. A drive mechanism is rotatably driven at a specified speed based on signals from a rapid traverse button 14 under the control of a motor control circuit 43. In addition, the mechanism is driven at a second specified speed based on signals from the one shot buttons. While the one shot button 11 is pressed, more transfusion fluid is fed than usual and the transfusion quantity is calculated to show the total transfusion quantity on a numerical indicator 10. A pressure sensor detects pressure on sucker 23 in response to the one shot button 11 and when a signal for the pressure is stabilized, the total quantity of transfusion is calculated as the starting time of the flow of one-shot transfusion.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infusion device for injecting various chemicals, blood or the like into a human body using a syringe type infusion pump.

[0002]

2. Description of the Related Art Conventionally, there is known an infusion device in which a syringe sucking up a drug solution is attached to a syringe type pump, and the sucker of the syringe is pressed at a constant speed by a slider to automatically infuse the solution. ing. This infusion device is disclosed in Japanese Unexamined Patent Publication No. 48-62289 and Japanese Utility Model Laid-Open No. 57-
It is disclosed in Japanese Patent No. 76637 and Japanese Patent Publication No. 63-44390.

In this type of pump, both the fast-forward button and the one-shot button are used. This fast-forward button is used to remove the air existing in the extension tube and injection needle that communicate with the tip of this syringe after placing the syringe that has inhaled the drug solution from the drug solution bottle on the infusion device during operation. The method allows a patient who has undergone a sudden change in operation to supply a larger amount of drug solution than usual at a time. Therefore, this supply amount needs to be measured.

[0004]

However, in the conventional dual-use method, the one-shot button also serves as the fast-forward button, so that there is a drawback that an error occurs between the total amount transfused and the total amount displayed on the transfusion device. Yes, and therefore
I cannot grasp the exact prescription amount of the drug solution that should be described in the medical chart.

In view of the above circumstances, the present invention provides a fast-forward button and a one-shot button separately so that an error does not occur between the total amount actually infused and the total amount displayed on the infusion device. The purpose is to provide a device.

[0006]

The infusion device according to the present invention comprises a syringe in which a drug solution is stored, a drive mechanism for pressing the sucker in the syringe at a predetermined speed, and the drive mechanism at the first speed. A fast-forward button for pressing the sucker and a one-shot button for pressing the sucker at a second speed by the drive mechanism are provided. When the one-shot button is pressed, the infusion amount is calculated based on the drive amount of the sucker at the second speed in conjunction with this.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows an infusion device 1 according to an embodiment of the present invention.
Is shown. The case 2 of the infusion device 1 includes an operation unit 4 for monitoring the infusion operation of the syringe 3 and the infusion state.
And a mounting part 5 to which the syringe 3 can be mounted. First, the syringe 3 has, for example, a total volume of 10 depending on the application.
Standard products of mm, 20 mm, 30 mm and 50 mm are used, and therefore have an outer diameter corresponding to the standard.

Further, the operating section 4 includes a capacity indicator 6 for displaying the size of the mounted syringe 3 by, for example, an LED,
Centralized display 7 for displaying various operating states, infusion start indicator 8, infusion stop indicator 9, flow rate during infusion, cumulative flow rate or one-shot flow rate of ml / hr (hour) or ml A 4-digit numerical display 10 for displaying in units is arranged.

Therefore, the centralized indicator 7 is an alarm level automatic setting indicator which lights up for a predetermined time after the start of the infusion to instruct the updating of the upper and lower limit values for the alarm, and an abnormality such as blockage during the infusion after the elapse of the predetermined time. Or, a closing / opening indicator that lights up when the injection needle comes off, a low-voltage indicator that indicates that the built-in secondary battery has reached the limit of use, and an operation forgetting indicator that indicates a mistake in the operating procedure. An infusion completion indicator that indicates the completion of infusion and a standby indicator that indicates 1 minute before the completion of infusion are provided.

The operation unit 4 is further provided with a one-shot button 11 capable of sending a larger amount of infusion than in a normal infusion in an emergency, an infusion amount button 12 for selecting the contents displayed on the numerical display 10, and an infusion start / stop. A button 13, a fast-forward button 14 for venting air, and a power button 15 are arranged. Furthermore,
Flow rate setting buttons 16 for setting the flow rate for each digit are arranged above and below the numerical display 10. These flow rate setting buttons 16 can be set between 0.0 and 199.9 ml per hour.

The mounting portion 5 has a mounting portion 22 on which the outer cylinder 21 of the syringe 3 is mounted, a slider 24 capable of pressing a sucker 23 slidably moving in the syringe 3, and a slider 24 as shown in FIG. , And a drive mechanism 25 for driving the slider 24 in the mounting portion 22 direction (arrow a direction). First,
The mounting part 22 is provided with a holding part 26 for fixing the mounted syringe 3 from above, and a syringe diameter detector 27 arranged under the holding part 26. Also, the slider 2
4 is provided with a release button 28 for releasing the drive mechanism 25 and returning the slider 24 to the original position.
The bellows 29 covers a part of the inside so that the inside cannot be seen.

Therefore, in the pump provided with the syringe 3 and the sucker 23, the syringe 3 is held by the holding portion 26 and the sucker 2 is held.
The rear end of the slider 3 contacts the slider 24. A flexible infusion pipe (not shown) communicating with the injection needle is connected to the tip of the syringe 3. Therefore, the syringe 3 is mounted on the mounting portion 22.
When the slider 24 is pushed by the drive mechanism 25 in the direction of the arrow a at a predetermined speed, the drug solution in the syringe 3 is pushed out at a predetermined flow rate and is passed through the infusion pipe and the injection needle. Injected into the patient.

The drive mechanism 25, as shown in FIG.
The spindle 30 slidably supported by the mounting portion 5, and the mounting portion 5
And a release shaft which is slidably supported on the main shaft 30 and is arranged parallel to the main shaft 30. The main shaft 30 has one end fixed to the slider 24 and the other end fixed to the engaging member 32. On the other hand, the release shaft is arranged on the opposite side of the main shaft 30 and is not visible, but one end vicinity thereof is pivotally supported by the slider 24, the other end vicinity thereof is pivotally supported by the engaging member 32, and one end thereof is operated by the release button 28 via the arm. The other end is fixed to an engaging claw (not shown) of the engaging member.

Like the slider 24, the engaging member 32 is slidably supported in the mounting portion 5 and is reciprocally moved by the feed screw 34 which can be engaged with the engaging claw. That is, each of the engaging members 32 has the main shaft 3 within the mounting portion 5.
0 and guide rod and feed screw 3 arranged in parallel with the release axis
4 is slidably attached. The feed screw 34 is axially supported by the mounting portion 5 and is supported so as to be slightly movable in the axial direction. Although the guide rod is arranged on the front side of the feed screw 34, the illustration thereof is omitted.

As shown in FIG. 2, the feed screw 34 has a pressure sensor 40 attached to one end 34a and a large gear 41 of a reduction gear mechanism fixed to the other end. A small gear meshes with the large gear, and the rotation shaft of the motor 42 is fixed to the small gear. As the motor 42, for example, a pulse motor is used, and as shown in FIG.
Is rotated at a predetermined speed, or is rotated at a first predetermined speed in response to a signal from the fast-forward button 14. While the fast-forward button 14 is being pressed, only the motor control circuit 43 operates and the sucker 23 in the syringe 3 expels the air in the syringe 3 at a rate of 300 ml / hr, for example. Therefore, it is visually confirmed whether the air venting is completed.

On the other hand, while the one-shot button 11 is being pressed, not only a larger amount of infusion liquid than that in a normal infusion liquid is supplied, but also the infusion amount is calculated and the total infusion amount is displayed on the numerical display 10. .. Therefore, when the pressure sensor 40 that detects the pressing force on the suction member 23 operates in conjunction with the one-shot button and the signal from the pressure sensor 40 becomes constant, the one-shot infusion volume start time is set. , The total infusion volume is calculated based on the drive amount of the sucker 23 at the second speed.

That is, the pressure signal output from the pressure sensor 40 is amplified through the amplifier and then amplified by the pressure conversion circuit 4.
Input to 4. The pressure conversion circuit 44 converts the pressure difference due to the difference in syringe diameter based on the 2-bit diameter signal R after A / D conversion to obtain the pressure per unit area of the chemical solution,
When this output is constant, that is, within a predetermined rate of change,
An infusion calculation start signal is output to the infusion amount calculation circuit 50.

The infusion amount calculation circuit 50 is a one-bit infusion amount per unit time based on a 2-bit diameter signal R corresponding to four kinds of syringe diameters and a second predetermined speed, and a one-shot button currently pressed. The pressing time of 11 is multiplied to obtain the one-shot infusion total amount, which is displayed on the numerical display 10. Therefore, the numerical indicator 10 displays the total amount of one-shot infusion which increases from 0.0 ml by 0.1 ml, for example, and can be visually checked. When the one-shot button 11 is released, the normal infusion state is displayed. You can go back to. This one-shot infusion total amount is added to the normal infusion accumulated amount to calculate the infusion amount or the infusion remaining amount that has been administered so far.

Thus, for example, a nurse can perform a one-shot infusion according to a prescription in an emergency. Further, at the time of starting or exchanging the infusion solution, the medicinal solution is sucked into the syringe 3 in an amount slightly exceeding 50 ml, mounted on this infusion device, and then the fast-forward button 14 is pressed to exude a slight medicinal solution from the injection needle. Expel the air up to the needle,
Can be plugged into the patient's site.

Further, the block circuit shown in FIG.
U, ROM, RAM, I / O device, A / D converter and D
A one-chip microcomputer system equipped with an A / A converter or a normal microcomputer system can be used, but instead of this, an analog circuit can be used.

[0021]

As described above, since the infusion device according to the present invention is provided with the fast-forward button and the one-shot button separately, the total amount of the infused liquid and the total amount displayed on the infusion device are different from each other. Error does not occur.

[Brief description of drawings]

FIG. 1 is an external perspective view of an infusion device according to an embodiment of the present invention.

FIG. 2 is a partially cutaway front view of the infusion device of FIG.

FIG. 3 is a block diagram schematically showing a part of an infusion control circuit according to the present invention.

[Explanation of symbols]

 1 Infusion Device 3 Syringe 11 One Shot Button 14 Fast Forward Button 25 Drive Mechanism 40 Pressure Sensor 42 Motor 43 Motor Control Circuit 50 Infusion Volume Calculation Circuit

Claims (2)

[Claims] 1. A syringe containing a liquid medicine, a drive mechanism for pressing a sucker in the syringe at a predetermined speed, a fast-forward button for causing the drive mechanism to press the sucker at a first speed, the drive An infusion device comprising a mechanism and a one-shot button for pressing the sucker at a second speed. 2. The infusion device according to claim 1, wherein the infusion amount is calculated based on the drive amount of the sucker at the second speed in association with the one-shot button.