JP2007185288A - Syringe pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent medical workers from causing accidents, for example, injecting a different kind of medicine to a patient accidentally by solving problems associated with conventional infusion apparatuses: for instance, when a medicine is taken out of an ampule and injected into a syringe, the kind of the medicine is not shown on the surface of the syringe; though the kind of medicine is shown on the surface of a syringe with a prefilled formulation, the letters tend to be small and illegible to read; and some medicines have names difficult to distinguish quickly at a glance, such as, "heparin" and "hepason" written in katakana. <P>SOLUTION: A syringe pump is provided which has a medicine data reading means for reading medicine data of a medicine contained in the syringe which are displayed on a syringe and a sound output means for outputting the medicine data by voice. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to an infusion device, and more particularly to an infusion device that delivers liquid by pushing a sucker of a syringe.

FIG. 2 shows a conventional infusion device. 1 is a CPU, 2 is an incremental linear encoder signal processing circuit, 3 is a motor, 4 is a reduction gear, 5 is a feed screw, 6 is a carriage, and 7 is a carriage 6. An adhering pressing holder (absorber pushing portion), 8 is a syringe, 9 is an adsorber, 10 is a fixed position detection sensor signal processing circuit, 11 is a slit plate constituting an optical incremental linear encoder, and 12 is the carriage 6. A photocoupler for detecting a pulse signal of an incremental linear encoder connected to, 13 is a fixed position detection sensor provided along a liquid remaining amount warning area of the slit plate 11, 14 is a fixed position detection dog, 15 is a command pulse counter, and 16 is Incremental linear encoder pulse counter, 17 is a pulse synchronous motor drive circuit. In the conventional infusion device, the output of the photocoupler 12 provided on the carriage 6 is sent from the CPU 1 to the pulse counter 16 of the encoder that can be monitored and managed via the encoder signal processing circuit 2, and the output of the fixed position detection sensor 13 is sent. Each is sent to the CPU 1 via the fixed position detection sensor signal processing circuit 10.

The motor drive circuit 17 is of a pulse synchronous type in which drive commands such as the movement amount and speed of the motor 3 are given by pulses, and the motor 3 is driven by command pulses from the CPU 1. Further, this command pulse is sent from the CPU 1 to a command pulse counter 15 which can be monitored and managed. When the motor 3 is rotated by a command pulse sent from the CPU 1 to the pulse synchronous motor drive circuit 17 and the carriage 6 is operated by the action of the gear 4 and the feed screw 5, the slit plate 11 disposed in the feed axis direction and the carriage 6 are The pulse signal generated between the fixed photocoupler 12 is processed by the encoder signal processing circuit 2 and sent to the pulse counter 16 of the encoder as carriage movement information, so that the CPU 1 directly monitors the carriage movement. At this time, the CPU 1 compares the movement command amount that can be recognized by monitoring the command pulse counter 15 every unit time with the actual movement amount of the pressing holder 7 that can be recognized by monitoring the encoder pulse counter 16. The correlation state between the two types of pulses related to the command and actual movement is detected. Here, if the correlation state is maintained, it is established that the pressing holder 7 is operating correctly according to the command. Therefore, the absolute position of the motor is preliminarily set during the liquid injection driven by the motor command pulse. A signal generated by the fixed position detection dog 13 attached to the carriage 6 engaged with the pressing holder 7 being fixed is detected by the fixed position detection sensor signal processing circuit 10 and processed by the CPU 1. As the position information, the value of the command pulse counter 15 is stored or reset by the output of the sensor, and the amount of movement of the command pulse per pulse is determined in advance, so the CPU 1 starts the pulse synchronous motor drive from that position. By starting the counting of command pulses that are movement commands to the motor 3 to be sent to the circuit 17, the absolute position of the pressing holder 7 can be recognized. , It is possible to recognize the absolute position of 吸子 9 engaged with the pushing holder 7.
In such a conventional infusion device, the absolute position of the pressing holder 7 is recognized from when the fixed position detection dog 14 crosses the fixed position detection sensor 13 during the liquid injection in which the motor is driven by the motor command pulse. From there, counting of the number of motor pulses is started, and information regarding the end, such as an infusion remaining amount alarm in the syringe 8, is generated at an appropriate pulse count position.
Also, in the conventional infusion device, its operation procedure, for example, infusion start, stop, confirmation, etc. is displayed by LED or liquid crystal display, and when the operator makes an operation error, this is displayed by beep sound or melody sound. ing.
Furthermore, other conventional infusion devices are provided with a voice display means, and the required time until the end of infusion or the scheduled end time is displayed by voice.
Another conventional infusion device compares setting means for setting the operation procedure of the infusion device, means for displaying the set procedure by voice, and the actual operation procedure with the procedure set by the setting means. When the actual operation procedure differs from the setting means as a result of the comparison with the means, a message to that effect is displayed.

JP 2003-70909 A JP 2003-275303 A

However, in the conventional infusion device, when the drug is taken out from the ampoule and injected into the syringe, the type of the drug is not marked on the syringe surface. In the case of prefilled preparations, although the type of drug is marked on the syringe surface, there are some types of drugs that are difficult to read due to small letters, such as “heparin” and “hepason”, which cannot be identified immediately at first glance. is there. As a result, an accident occurred in which a medical worker inadvertently inadvertently injected a different type of drug into a patient.
The present invention eliminates the above-mentioned drawbacks.

The present invention provides a syringe pump shown in the following (1) to (6).
(1) Provided with drug data reading means for reading drug data contained in the syringe displayed on the syringe set in the syringe pump and voice output means for outputting the result of reading by the drug data reading means by voice. Syringe pump characterized by.
(2) A drug database in which information on the application of drug information to the human body is stored, and a determination of collating the drug database with the reading result of the drug data by the reading unit and outputting the read result to the voice output unit The syringe pump according to (1), further comprising means.
(3) In the above (2), the content of the audio output means that outputs the sound is a collation result as to whether or not the reading result of the medicine data by the reading means is within an allowable range of application to the human body. The syringe pump as described.
(4) A drug database that stores information on the permissible application of drug information to the human body is composed of any one of the type of drug, the allowable amount of the selected drug, the allowable injection rate of the selected drug, or a combination thereof. The syringe pump according to (2) or (3) above, wherein
(5) The syringe pump according to any one of (1) to (4), wherein the drug data displayed on the syringe is a barcode.
(6) The syringe pump according to any one of (1) to (5), wherein the medicine data reading unit is a bar code reader.

Since the drug name and the drug amount are output by voice, the medical staff checks whether there is a mistake in the drug being administered and whether the amount is appropriate, and improves the safety of infusion therapy.
In addition, it is possible to determine whether the amount of the drug to be administered is appropriate or whether the injection rate is within an allowable range, and the determination result can be output to the outside so that the medical worker can determine the applicable amount of the drug and the injection rate Misinjection can be prevented even if it is not grasped.
If the external output means is a voice, it becomes easier to draw attention as compared with the case of displaying with characters.
If the data reading means is a bar code reader, it is easy to input and there is no worry of word input.

The following text illustrates an embodiment of the present invention.
First, the syringe 8 is set in the syringe pump so that the barcode 21 affixed to a predetermined position of the syringe 8 contacts the barcode reader 22 provided in the syringe pump. Thereafter, the CPU 1 provided in the syringe pump reads the type and amount of the drug from the barcode 21 attached to the syringe 8 by the barcode reader 22 via the barcode reading circuit 23. The CPU 1 outputs the read data by voice through the generation circuit using a speaker. Thereafter, if a medical worker recognizes that there is no problem with this medicine, the liquid injection operation is performed.
In addition, when taking out a chemical | medical agent from an ampule and inject | pouring into a syringe, the barcode stuck on the ampule is peeled off and it sticks on the predetermined position of a syringe.
At the start of liquid injection, the pressing holder 7 is manually moved to the right in FIG. 1 toward the start position, and then the pressure holder 7 is manually moved to the left in FIG. 9 and the sucker 9 is pushed into the syringe 8 to start the injection.
The motor drive circuit 17 is of a pulse synchronous type in which drive commands such as the movement amount and speed of the motor 3 are given by pulses, and the motor 3 is driven by command pulses from the CPU 1.
At this time, if there is a drug database 24 storing drug information such as the drug name, the amount of drug applied to the human body, and the rate at which the drug can be injected into the human body, the drug name read by the barcode reader 22 The product name of the corresponding drug is searched from the drug database 24, and data such as the amount of the detected drug applied to the human body and the rate at which the drug can be injected into the human body is retrieved from the drug database 24. The CPU 1 collates the extracted data with the drug name, the drug amount read from the barcode reader 22 and the drug injection speed inputted by the medical worker into the syringe pump, and the drug type, drug amount, and drug injection speed are all transferred to the human body. If it can be confirmed that it is within the applicable range, a voice is displayed on the speaker via the generation circuit such as “all types of drugs, amount of drug, and drug injection speed are within the range applicable to the human body”.
In this case, the text is not limited to this, and any text can be used as long as the health care professional recognizes that there is no problem.
In addition, if it is confirmed that it is out of the scope of application to the human body, “Drug amount is out of the scope of application to the human body” or “Injection speed of ○○ mL / min to the human body” through the generation circuit. “Out of scope”.
In this case, the text is not limited to this, and any text can be used as long as the health care professional recognizes that there is no problem.
In addition, it is also effective to sound a warning sound or turn on an error display lamp (not shown).
In the present invention, the fixed position detection sensor 13 is a plurality of, for example, two, 13-1 and 13-2 whose attachment positions are recognized by the number of motor movement command pulses, and the first sensor 13-1 is a pressing holder. 7 is provided corresponding to the slit plate 11 between the start position where the separator 7 is separated from the sucker 9 and the liquid injection start position where the pressing holder 7 is connected to the sucker 9, and the second sensor 13-2 is inserted. It is provided corresponding to the slit plate 11 along the movement of the pressing holder 7 after the start of the liquid. The pressing holder 7 is manually moved to the right to enter the start position, and then the pressing holder 7 is started for the suction set. When the confirmation position detection dog 14 passes the first sensor 13-1 during manual movement from the position to the left, the pulse counter of the incremental linear encoder is passed through the encoder signal processing circuit 2. 6 is cleared, and the motor pulse count is started by the pulse counter 16 of the encoder. When the sucker 9 is set in the pressing holder 7, the count of the pulse counter 16 of the encoder is stored, and the absolute value of the sucker 9 is saved. The position is recognized as the number of encoder pulses, and the distance to the liquid injection end position obtained from the difference between this position and the liquid injection end position unique to the mounted syringe 8 that is known in advance by the motor command pulse number, Based on the set injection speed, the time required to start the injection is calculated at the start of the injection, and a voice message such as “It is XX minutes left” is displayed.
In this way, the safety of infusion therapy can be increased.

It is a schematic explanatory drawing of the conventional infusion apparatus. It is a schematic explanatory drawing of the infusion apparatus of this invention.

Explanation of symbols

1 CPU
2 Incremental encoder signal processing circuit 3 Motor 4 Gear 5 Feed screw 6 Carriage 7 Press holder (absorber push part)
8 Syringe 9 Absorber 10 Final position detection sensor signal processing circuit 11 Slit plate 12 Photocoupler 13 Final position detection sensor 13-1 First final position detection sensor 13-2 Second final position detection sensor 14 Final position detection dog 15 Command Pulse counter 16 Incremental linear encoder pulse counter 17 Pulse synchronous motor drive circuit 18 Real time clock 19 Speech circuit 20 Speaker 21 Bar code 22 Bar code reader 23 Bar code reading circuit 24 Drug database

Claims (6)

A drug data reading unit for reading drug data contained in the syringe displayed on a syringe set in a syringe pump, and a voice output unit for outputting a result of reading by the drug data reading unit by voice. Syringe pump. A drug database storing the permissible information of drug information applied to the human body, and a discriminating unit that collates the drug database with the reading result of the drug data by the reading unit and outputs the read result to the voice output unit. The syringe pump according to claim 1. The syringe pump according to claim 2, wherein the content of the voice output means that outputs a voice is a collation result of whether or not the reading result of the drug data reading means is within an allowable range of application to a human body. . A drug database that stores information on the permissible application of drug information to the human body, consisting of the type of drug, the allowable amount of the selected drug, the acceptable injection rate of the selected drug, or a combination thereof The syringe pump according to claim 2 or 3, wherein The syringe data according to any one of claims 1 to 4, wherein the drug data displayed on the syringe is a barcode. The syringe pump according to any one of claims 1 to 5, wherein the medicine data reading means is a bar code reader.

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