JP4583733B2 - Syringe pump - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a syringe pump that holds a syringe detachably in a stationary state and accurately feeds a liquid medicine in the syringe by driving a pusher of the syringe in a predetermined manner, and particularly relates to a syringe pump that automates considerable operations. is there.
[0002]
[Prior art]
Syringe pumps are mainly intended to perform high-precision injection of chemicals such as nutritional supplements, blood transfusions, chemotherapeutics, and anesthetics in ICU, CCU, and NICU. It is often used because it is superior to the type of pump.
[0003]
The method of using the syringe is to set the syringe in a fixed state using a syringe pump clamp, and then set the syringe pusher against the slider, and then set the syringe securely. On the condition that the slider is driven, the contents of the syringe are accurately delivered by the piston movement of the pusher, and the structure is simple and relatively accurate so that it is practically used. .
[0004]
[Problems to be solved by the invention]
When detecting the mounting of a syringe, there is one that determines whether or not a syringe pusher is mounted. Some also detect the presence or absence of a syringe outer cylinder.
[Patent Document 1]
JP 2003-70911 A
However, in the former case, there is a problem that it is impossible to determine that the syringe outer cylinder is mounted at the correct position only by determining whether or not the syringe pusher is mounted. In the latter case, the syringe outer diameter is determined. However, there is a problem that it cannot be determined that the collar portion of the outer cylinder is mounted at the correct position.
[0006]
Therefore, the present invention has been made in view of the above-described problems, and a plurality of types of syringes can be used, and it can be reliably detected whether an outer cylinder of a syringe that can be used is attached to the syringe pump body. The purpose is to provide a syringe pump.
[0007]
[Means for Solving the Problems]
In order to solve the above problems and achieve the object, according to the present invention, the outer cylinder of the syringe containing the chemical solution is held at a predetermined position, and the flow rate is set by pressing the pusher of the syringe. A syringe pump for injecting the chemical solution, wherein whether or not the syringe outer cylinder is mounted at a predetermined position is detected by a detection means, and the detection means has a syringe capacity of 10 ml, 20 ml, 30 ml, 50 ml It is equipped with a detection part that is 5mm away from the slit part that can accommodate the syringe and protrudes 0.5 to 1.0mm from the syringe stage, and the detection part operates the microswitch through the dog. When the micro switch is not activated, the detection means determines that the syringe is not mounted at a predetermined position and generates an alarm to that effect. The features.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is an external perspective view of the syringe pump 1, and shows the setting dial 6 that is normally operated with the right hand with the operation panel portion 2 f facing forward.
[0009]
In this figure, this syringe pump 1 is a micro continuous infusion pump for the purpose of infusion of chemicals such as nutritional supplements, blood transfusions, chemotherapeutic agents, anesthetics, etc. in ICU, CCU, NICU, The operation panel portion 2f for performing the operation is provided so as to be substantially concentrated on the upper surface as shown in the figure, and the operability is improved.
[0010]
The operation panel 2f is basically covered with an embossed sheet cover and has a drip-proof design that satisfies the JIS 0920 drip-proof test. For example, carelessly spilled chemicals can be easily wiped off. In addition to being able to do so, it has high drip-proof properties to prevent chemicals and the like from entering the inside.
[0011]
For this purpose, the upper cover 2 and the lower cover 3 are integrally formed from a molded resin material having chemical resistance, and a rubber seal 4 made of, for example, silicone elastomer is interposed between the covers 2 and 3. By adopting a screw-fixed configuration, it is configured to prevent foreign substances such as liquid from entering the inside.
[0012]
In addition, in order to emphasize high accuracy of injection and operability, it is possible to realize precise injection operation control by microcomputer control, and the operation indicator 7 provided at a position easy to see from the outside is multicolored in red or green. Lights up, flashes, and turns on and off so that the operating status and alarm status can be monitored even from a distance to ensure safety. Furthermore, a buzzer is also built in, and various alarm functions are provided for safety.
[0013]
In addition, because it is small and lightweight, it is easy to carry and is designed to be convenient for use when multiple units are used simultaneously. Furthermore, by turning the setting dial 6 on the right side of the apparatus, the numerical value can be set in a short time according to the rotation speed and the rotation direction, while the set value can be displayed on the display unit 11 of the display panel. Thus, when changing the setting of numerical values such as the injection rate (mL / h) and the injection amount (mL), the setting dial 6 can be operated easily by one action.
[0014]
In addition, it has a shape that can be used in multiples (a combination of many) and a design that is easy to use and can be built up. The shape and dimensions are small, for example, height H: 110 mm x width W: 322 mm x depth D: 115 mm The volume ratio is 80% or less, the weight is about 2.0 kg, and the power source is an AC commercial power source, a built-in battery, and DC12VA.
[0015]
The built-in battery has a charging time of 24H (hours), and is covered with a lid at the bottom of the lower cover 3 so as to be easily exchangeable from the outside, and is detachably provided by being connected to a connector. The replacement life is 3 years or more, while the charge control is trickle charge. In addition, overdischarge and prevention of charging are realized through cell damage detection / cell damage safety measures for rechargeable batteries. A heat-resistant (Ni-Cd) battery is used, and a new battery can operate for 120 minutes or more until an alarm is generated and 150 minutes or more until a shutdown.
[0016]
In addition, a display unit 10 for gamma injection and display units 11 for the flow rate / scheduled amount / integrated amount are provided on the operation panel 2f, while the setting dial 6 can be easily removed for cleaning. The recess 6e is formed as described above, and the toe can be inserted into this portion so that it can be moved and removed while rotating.
[0017]
Next, in order to set the syringe main body S (see FIG. 3), the upper cover 2 has a syringe stage (syringe outer cylinder mounting portion) 2a and a flange portion SF (integrated with the syringe main body S) ( A slit portion 2c in which a clamp 2 is set is integrally injection-molded, and a clamp column 2b (shown by a broken line) that rotatably supports the clamp 5 is also integrally formed.
[0018]
The slider assembly 50 driven in the direction of arrow A4 in the drawing reciprocates on the concave portion 2d of the case, and is connected and fixed to the slider feed mechanism at the ends of the pipe shaft and the inner clutch shaft. The syringe pusher SP (see FIG. 3) can be easily attached or detached by manually operating the clutch lever 52 of the slider assembly 50.
[0019]
FIG. 2 is a plan view of the operation panel unit 2f. In this figure, a power switch 15, an AC / DC lamp 16, and a battery lamp 17 are centrally arranged at the left end. A gamma setting display unit 10 is disposed next to these lamps. However, a model without the gamma setting display unit 10 can be used sufficiently. The gamma setting display unit 10 is provided with a display on / off switch 10a and an item changeover switch 10b.
[0020]
On the other hand, when the clamp 5 is set on the display unit 10, the amount of movement of the clamp in the vertical direction is converted into an electric signal, and then the syringe diameter (d: see FIG. 3) is automatically measured. A syringe display lamp 18 is provided so as to display the volume of the set syringe 10 cc (ml), 20 cc (ml), 30 cc (ml), 50 cc (ml).
[0021]
In addition, an operation indicator 7 formed so as to project upward from a transparent acrylic resin or the like (three-dimensional shape) is provided below the clamp 5 so as to shine appropriately in the built-in red and green. The light emitting diodes 7a to 7d are turned on or blinked, or light is scattered on the inner side so as to rotate in the direction of the arrow shown in the figure, so that the injection operation (normal / abnormal) state can be displayed in an electrical display.
[0022]
Next to the clamp 5, display lamps 19 a, 19 b, and 19 c are provided for switching and displaying the set detection pressure by the blockage detection mechanism provided in the syringe pump in three stages. Next to these lamps, a remaining amount alarm lamp 20, a battery alarm lamp 22 and others are intensively arranged.
[0023]
Next to these lamps, a 7-segment LED display section 11 having flow rate / planned amount / integrated amount lamps 23, 24, 25 is provided. A display changeover switch 26 and an integration clear switch 27 are provided on the right side of the display unit 11. A fast forward switch 30, a start switch 29, and a stop / mute switch 28 are provided below the display unit 11.
[0024]
In the above configuration, as shown in FIGS. 3A and 3B, by setting the syringe body (outer cylinder) S, the clamp 5 is pulled up and then rotated about 90 degrees. The clamp 5 held in a spline-fitted state with respect to the vertical protrusions 2b-1, 2b-2, 2b-3 of the clamp post 2b can remain against the tensile force at the upper end of the clamp post become.
[0025]
Subsequently, in order to set the flange SF of the syringe body S in the slit 2c, the flange SF of the syringe body S is inserted into the slit 2c. After that, the syringe body S is set on the syringe stage 2a, and then the clamp 5 is rotated in the direction of the arrow D1 (FIG. 3A), the above-mentioned locked state is released, and the direction of the arrow D2 in the figure. The syringe body S is clamped by being pulled (downward).
[0026]
The slit 2c and the syringe stage 2a are further integrally formed with smaller-diameter arc grooves 2a-2, 2a-3, and 2a-1 as shown in the drawing, so that the small-capacity and small-diameter syringe is stationary. So that you can hold on. This completes the setting of the syringe body S.
[0027]
4 is a cross-sectional view of the main body of the syringe pump 1 passing through the detection unit (sensing unit) 100a in FIG. 100a is a detection unit (sensing unit), 100b is a micro switch unit, and 100c is a dog, which constitutes detection means for detecting (determining) whether or not the syringe body S is attached to the syringe pump (appropriateness of the attached state). Yes.
[0028]
The detection unit 100a is separated from the slit 2c by a predetermined distance (W), for example, about 5 mm, so as to be compatible with various syringe capacities (10 cc (ml), 20 cc (ml), 30 cc (ml), 50 cc (ml), etc.) Provided. The detection unit (sensing unit) 100a may be covered with a chemical-resistant resin thin film or the like so as not to affect the detection sensitivity.
[0029]
When the syringe body (outer cylinder) S is mounted on the syringe stage 2a of the syringe pump 1, whether or not the syringe body is mounted (appropriateness of the mounted state) is determined by the detection unit (sensing unit) 100a constituting the detection means. It is detected by operating the microswitch unit 100b via The detection unit (sensing unit) 100a is projected from the syringe stage 2a by a predetermined amount (0.5 to 2.0 mm, preferably 0.5 to 1.0 mm) in consideration of sensitivity and the like. If the micro switch unit 100b is not activated, it is determined that the syringe body S is not mounted at a predetermined position (applicable position), and the operation indicator 7 blinks (or lights up) in red. The buzzer may be sounded with a predetermined sound pattern simultaneously (synchronously).
[0030]
In place of the micro switch unit 100b, a photo sensor that detects the passage of light by the dog 100c operation and a magnetic sensor that detects the change of magnetism can be used.
[0031]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the syringe pump which can generate | occur | produce an alarm can be provided, when the presence or absence of the mounting | wearing is reliably detected with respect to several syringes which can be used, and not mounting | wearing reliably.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a syringe pump according to the present invention.
FIG. 2 is a top view of the operation panel of the syringe pump of the present invention.
FIG. 3 is an explanatory diagram showing a procedure for attaching a syringe to the syringe pump of the present invention.
FIG. 4 is a cross-sectional view showing a means for detecting whether or not a syringe is attached to the syringe pump of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Syringe pump main body, 2 ... Upper cover, 2c ... Slit, 2f ... Operation panel, 3 ... Lower cover, 100a ... Detection part (sensing part), 100b ... Micro switch part, 100c ... Dog

Claims (1)

A syringe pump that holds an outer cylinder of a syringe containing a chemical liquid in a predetermined position and injects the chemical liquid at a flow rate set by pressing a pusher of the syringe, and the syringe outer cylinder is mounted in a predetermined position The detection means detects whether or not
The detection means includes a detection unit that protrudes 0.5 to 1.0 mm from the syringe stage at a distance of 5 mm from a slit portion that can accommodate the syringe having a syringe capacity of 10 ml, 20 ml, 30 ml, and 50 ml. The detection unit operates the microswitch via the dog, and when the microswitch is not activated, the detection means determines that the syringe is not mounted at a predetermined position, and an alarm to that effect. A syringe pump characterized by generating

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