JPH03184559A - Transfusion apparatus - Google Patents

Abstract

PURPOSE:To perform correction control so as to always set the flow rate of a transfusion to a certain flow rate by providing a means correcting the flow rate of the transfusion by increasing the driving speed of a pump mechanism part corresponding to the reduction in the discharge amount of the transfusion due to the deterioration of the restoring force of a transfusion tube with the elapse of time. CONSTITUTION:The pump mechanism part of a transfusion apparatus is equipped with a plurality of peristaltic finger members 12 successively performing pressure- closing and opening to one side part of a transfusion tube 10 and the press plate 16 held by the spring 14 fixing the other side part of the transfusion tube 10. In order to hold a certain flow rate of a transfusion without generating an error, the characteristic of a correction amount increasing the flow rate of the transfusion with the elapse of time is calculated by appropriate operation and the data of the correction amount with the elapse of time corresponding to transfusion speed is stored in an ROM 38. When the transfusion speed is set through an external operator 46, the data of the correction amount stored in the ROM 38 is read to be written in an RAM 40. Operational processing is performed and a corrected transfusion speed order is successively outputted to a motor driving circuit 30 from an I/O port 44 to drive a motor 22.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an infusion device used in an automatic drip drip device for medical use and the like.

[Conventional technology]

Generally, an infusion device used in an automatic infusion device has an infusion tube led out from an infusion bottle, a drip tube provided in a part of the infusion tube, and a member downstream thereof that acts to squeeze the infusion tube. A device having a configuration including a pump section, that is, an infusion pump is known.

With this type of infusion device, it is important to monitor the amount of infusion and always administer the appropriate amount of infusion in order to manage the patient's infusion6.Usually, when the infusion device is used by a doctor or nurse, the power supply must be turned off. After turning on the switch and setting the desired infusion flow rate or the number of infusions and volume conversion rate of the infusion set being used at the time, an operation method is adopted in which the infusion pump starts operating.

However, this infusion device is used! The lrI liquid tube is molded from a synthetic resin material with visible elasticity such as silicone rubber, but as mentioned above, if it is subjected to continuous straining in the infusion pump part, its restoring force will deteriorate over time. Under certain pump operating conditions, the delivery volume gradually decreases, so the infusion tube must be replaced frequently with a new one.

[Problem to be solved by the invention]

As mentioned above, the deterioration of the restoring force of the infusion tube over time can be caused, for example, by setting the infusion rate to 1001 Wlj/h and
FIG. 7 shows the change in the infusion flow rate when the pump is operated for 4 hours. That is, the error rate of the infusion flow rate is about ±8%. Similarly, the infusion rate was increased to 10 Jl.
When comparing the changes in the infusion flow rate when the pump was operated for 24 hours with the pump set to 800 + n J) / h, the error rates were different, as shown in Figure 8.
In particular, it was confirmed that the slower the infusion rate, the greater the error rate in the infusion flow rate, and the greater the deterioration of the restoring force over time.

Therefore, in conventional infusion devices, in anticipation of the deterioration of the infusion tube as described above, when the infusion tube is initially used, the infusion rate is set so that the infusion flow rate is slightly higher than the specified flow rate, and the pump is operated. By doing so, it is possible to achieve almost the desired infusion in total. Depending on the frequency of use, it is necessary to shift the position of the part of the infusion tube that operates the pump, or to replace it with a new infusion tube.

However, in hospitals and the like that use a large number of infusion devices of this type, there is a problem in that it increases the effort required to adjust the flow rate of the M solution mentioned above and to rearrange and replace the infusion tube.

Therefore, it is an object of the present invention to gradually increase the drive speed of the infusion bottle 1 to keep the infusion flow rate constant in response to the decrease in the pump discharge amount due to the deterioration of the restoring force of the infusion tube over time, which causes the operation of the infusion pump. An object of the present invention is to provide an infusion device configured to perform correction control to maintain a constant flow rate.

[Means to solve the problem]

The infusion device according to the present invention includes a pump mechanism configured to sequentially press and close an infusion tube to transfer liquid, and a control unit that drives and controls the pump mechanism. The present invention is characterized by providing means for correcting the infusion M and flow rate by increasing the driving speed of the pump mechanism in response to a decrease in the amount of infusion discharged due to deterioration of the restoring force.

In the M liquid device, the composition is provided with a means for calculating a correction amount from the elapsed time of infusion from a certain reference point and the infusion rate, and setting and commanding the driving speed of the pump R basin part at every elapse of a certain period of time. It can be done.

Further, in the above-mentioned infusion device, an infusion elapsed time input device is provided for manually inputting the infusion elapsed time from the reference point, and a correction amount is calculated from the input infusion elapsed time, the infusion elapsed time from that point, and the infusion rate. However, it is also possible to provide a means for setting and commanding the driving speed of the pump mechanism section every predetermined period of time.

Furthermore, it is preferable that the reference time point is the time when the infusion tube is set and the pump mechanism is started.

[Effect]

According to the infusion device according to the present invention, means is provided for correcting the infusion flow rate by increasing the drive speed of the pump a component in response to a decrease in the amount of infusion discharged due to deterioration of the restoring force of the infusion tube over time. From the start to the end of infusion,
A constant amount of infusion fluid can be maintained at all times.

〔Example〕

Next, embodiments of the infusion device according to the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram showing a pump mechanism and a control system of an infusion device according to the present invention. In FIG. 1, the pump mechanism of the infusion device includes an elastic infusion tube 10 and a plurality of screw finger members 1 that sequentially press to close and open the infusion tube 10 on one side of the infusion tube 10.
2, and an infusion tube 1 facing this finger member 12.
0, and a presser plate 16 held by a spring 14 that fixes the other side of the 0. Further, the finger members 12 are held by a holder, and each finger member 12 has an elongated hole. Eccentric cams are positioned in these elongated holes, and the rotating shaft 18 is inserted through these eccentric cams. The arrangement is configured to cause the required screw movement.

In this case, the eccentric cams fixed to the rotating shaft 18 are configured and arranged to have a delay angle of 360°/number of cams with respect to the adjacent upstream full-centered cams, so that the rotational movement of the eccentric cams is transferred to the finger member 12. It is possible to transfer the liquid inside the infusion tube 10 while pressing it by converting it into a linear motion. Therefore, at one end of the rotating shaft 18,
It is coupled to a drive shaft 24 of a motor 22 (a pulse motor is used for -fi) via a coupling 20.
The infusion tube 10 of the pump ti#1 section configured as described above is provided with an infusion tube 26 on its upstream side, and an appropriate infusion bottle (not shown) is connected to the upstream side thereof.

The motor 22 is provided with a detector 28 for detecting the number of rotations of the rotating shaft 18.

Next, as shown in FIG. 1, the control system of the infusion device in this embodiment includes a motor drive circuit 3 that drives a motor 22 for operating the finger member 12 of the pump mechanism section.
0 is provided, and this motor drive circuit 30 is configured to be controlled by a control section 32, which will be described later.

A detection circuit 34 is connected to the control unit 32 to detect the signal detected by the rotation speed detector 28 provided on the motor 22 as the rotation speed of the rotating shaft 18 in a certain period of time. The infusion speed of the infusion pump is calculated by 1 fA from the rotation speed, and feedback control of the rotation speed is performed to output the result to the motor drive circuit 130.

FIG. 2 shows details of the control section 32 that constitutes the control system of the above-mentioned infusion device.

That is, in FIG. 2, the control unit 32
, a ROM 38 , a RAM 40 , and a counter/timer circuit 42 , which are interconnected to a T10 boat 44 via a bus. However, this T10 boat 4
4 are connected to the motor drive circuit 30, the detection circuit 34, and the external operating device 46, respectively. Further, the control section 32 has a built-in clock oscillator 48, and inputs the clock signal output from the clock oscillator 48 to the CPU 36 and the counter/timer circuit 42, and further passes the clock signal output from the clock oscillator 48 to the CPU 36 and the counter/timer circuit 42. Motor drive circuit 30
and is configured to be supplied to the detection circuit 34 as a control signal.

Next, the operation of the control section 32 having the above-described configuration will be explained. First, as explained in the prior art, based on the change characteristics of the error that occurs over time in the infusion rate and infusion flow rate,
In order to maintain a constant infusion flow rate without errors, the characteristics of the correction amount that can increase the infusion flow rate over time are determined by appropriate calculations. For example, as shown in Figure 3, the infusion rate at each setting A characteristic curve is obtained for the amount of correction that increases over time, which varies depending on the time. Therefore, the data of the correction amount over time according to the infusion rate at the time of such setting is appropriately stored in the ROM 38 as a data table for each infusion rate.

However, the correction amount (%) shown in FIG. 3 can be expressed as a function of the infusion rate f and the elapsed time g as shown in the following equation.

Correction amount (%) = (wheel ill) x g (old battle...
-(1) Therefore, the function f(Iliil) of the infusion rate can be set, for example, as shown in the following equation.

f (111 degrees) = < 800 - infusion rate) ÷ 451
0+ 0.825 Furthermore, the function g(Bil!old) of the elapsed time can be set as shown in the following equation, for example.

g (■ time II) = (Ilil is 10 yen)
/h, the difference in 1 at 0:1t)X(-1
) When setting a new infusion tube and starting the infusion pump operation (this time is set as the reference point), if the infusion rate is set via the external controller 46, the data regarding the correction amount stored in the ROM 38 can be updated. The correction amount data corresponding to the set infusion rate is read out from the inside and stored in RAM4.
Written to 0. The data regarding the infusion rate and its correction amount set in this way is subjected to arithmetic processing at the same time as the infusion pump is started, and the corrected infusion rate command is sequentially output from the I10 boat 44 to the motor drive circuit 30.
Drive the motor 22. At this time, the rotational speed of the actually driven motor 22 is determined by the rotational speed detector 28 and the detection circuit 3.
4 to the control unit 32 and processed as a feedback signal for the infusion rate command.

However, this infusion rate command is subjected to a correction calculation process together with the feedback signal every predetermined period of time for continuous operation of the infusion pump, and the content of the infusion rate command is updated.

The arithmetic processing program in this case is as shown in the flowchart of FIG. Further, FIG. 5 is a flowchart showing a program for measuring each set time regarding the operation of the infusion pump.

Therefore, in this embodiment, the above-mentioned program calculates the correction amount from the infusion elapsed time and infusion rate at fixed time intervals from the start of the infusion pump, and then calculates the infusion rate for the infusion pump based on this correction amount. Then, the obtained result is output from the I10 boat 44 and the motor drive port [
30 as an infusion speed command to drive and control the motor 22 of the infusion pump.

As a result of measuring the infusion flow rate and its error rate of the infusion device that performed correction control of the infusion pump in this way, as shown in Figure 6, the infusion flow rate was almost constant and the error rate was almost 0.
It was confirmed that it had extremely excellent temporal characteristics of .

The above embodiment shows one embodiment of the device of the present invention, and for example, the pump mechanism applied to the present invention may be a rotary finger member instead of the above-mentioned screw finger member. It may also be one that uses a roller member, or
The correction control operation in Control 99# is performed not only at the reference time when the infusion tube is set and the infusion pump starts operating, but also by providing an infusion elapsed time input device for manually inputting the infusion elapsed time, and manually setting the infusion elapsed time from the reference time in advance. It is also possible to perform a constant infusion rate g control until the point in time, and then set the correction control operation to be performed from the point in time after the manual setting.

〔Effect of the invention〕

As is clear from the embodiments described above, according to the present invention,
In an infusion device that includes a pump mechanism configured to sequentially press and close an infusion tube to transfer fluid, and a control unit that drives and controls this pump mechanism, infusion discharge may occur due to deterioration of the restoring force of the infusion tube over time. By increasing the drive speed of the pump mechanism in response to the decrease in the amount of infusion and correcting the infusion flow rate, it is possible to maintain a constant infusion delivery amount from the start to the end of infusion, thereby improving the patient's Infusion management can be achieved safely and easily.

Although preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and it goes without saying that various design changes can be made without departing from the spirit of the present invention. .

[Brief explanation of drawings]

FIG. 1 shows a pump R'! which shows an embodiment of an infusion device according to the present invention. A schematic configuration diagram of the f4 section and the control system, FIG. 2 is a main part wiring diagram showing an example of the control circuit in the control rn section of the infusion device shown in FIG. 1, and FIG. 3 is a schematic diagram of the control section shown in FIG. 2. 4 is a characteristic curve diagram showing an example of the data content of the correction amount applied when performing the correction calculation in the control section shown in FIG. 2; FIG. FIG. 5 is a flowchart showing an example of a program for time measurement, FIG. 6 is a characteristic curve diagram of the corrected and controlled infusion flow rate obtained by the infusion device of the present invention, and FIG. 7 is the infusion device of the present invention. Characteristic curve diagram showing the deterioration characteristics over time of infusion tubes used in
The figure is a characteristic curve diagram showing the temporal deterioration characteristics of the infusion tube used in the infusion device of the present invention, corresponding to the infusion rate at each setting. 10... Infusion tube 12... Finger member 14
... Spring 16 ... Holding plate 18 ... Rotating shaft 20 ... Coupling 22 ... Motor
24... Drive shaft 26... Intravenous drip 1! 'i
28... Rotation speed detector 30... Motor drive four-way 32... Control section 34... Detection circuit 36...
CPU38...ROM 40...RAM4
2... Counter/timer circuit 44... I10 boat 46... External operating device 48.
...Clock oscillator FIG. FIG 3 Progress fil (h) FIG 2 8 4 Transmission B solidification (h) FIG. 】2 8 Elapsed Samurai mouth (h)

Claims (4)

[Claims] (1) Deterioration of the restoring force of the infusion tube over time in an infusion device that includes a pump mechanism configured to sequentially press and close the infusion tube to transfer liquid, and a control unit that drives and controls the pump mechanism. An infusion device characterized by comprising means for increasing the drive speed of the pump mechanism to correct the infusion flow rate in response to a decrease in the amount of infusion discharged due to the infusion. (2) The method according to claim 1, further comprising means for calculating a correction amount from an elapsed time of infusion from a certain reference time and an infusion rate, and setting and commanding the driving speed of the pump mechanism every predetermined time period. Infusion device. (3) An infusion elapsed time input device is provided for manually inputting the infusion elapsed time from a certain reference point, and a correction amount is calculated from the input infusion elapsed time, the infusion elapsed time from that point, and the infusion rate, and the pump mechanism Claim 1 further comprising means for setting and instructing the driving speed of the part at every lapse of a certain period of time.
Infusion device as described. (4) The infusion device according to claim 1 or 2, wherein the reference time is the time when the infusion tube is set and the pump mechanism is started.