JPS6322830B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention automatically mixes and supplies the dialysate necessary for artificial dialysis using a small and easily portable device for personal use. The present invention relates to a portable dialysate automatic supply device that can be used safely and conveniently in home, dormitory) and outdoor dialysis (travel, disaster occurrence), etc.

Furthermore, in this type of device, the present invention can automatically supply the dialysis stock solution after diluting it to a predetermined value, and also allows the use of readily available tap water, thereby eliminating the need for a water tank, etc. At the same time, a drive pump is installed to supply the raw solution.
This was done in an effort to create a portable dialysate automatic supply device that could reduce the size of the device by making it possible to use only a stand, and improve the dialysis effect by removing air bubbles in the dialysate. Because it automatically and continuously mixes and supplies dialysate (approximately 0.5l/min),
Dialysis that takes in tap water and controls the inflow rate with an inflow control valve, and supplies hot water that is heated to a constant temperature (approximately 36 to 39 degrees Celsius ± 1 degrees Celsius) and a small rotary pump at a constant ratio. The dialysate is sent to a mixer and mixed, and the air bubbles generated during mixing are removed using a micro porous filtration device and a bubble remover in the liquid storage tank. A measuring device measures whether the temperature and concentration are appropriate, and in the event that the temperature or concentration becomes abnormal, the controller operates to automatically drain the liquid out of the device using the drainage solenoid valve. The present invention is characterized in that the safety of dialysate supply is maintained by

Embodiments of the present invention will be described below with reference to the drawings.

Fig. 1 shows a flowchart of an embodiment of the present invention, and Figs. 2 to 4 show the external appearance of an embodiment of the invention. 2 is provided, and tap water is taken in through a pipe 3 or the like. The water taken into the device body 1 from the tap water intake port 2 is guided to the heater 6 via the water supply solenoid valve 4 and the constant flow valve 5, where it is heated, and then passed through the defoamer 7 to the mixer 8. I'm starting to be guided by this. Further, the main body 1 of the apparatus is provided with a stock solution inlet 9, which is connected to a stock solution bag 11 (see FIG. 3) via a pipe 10 or the like. The undiluted solution bag 11 is attached to a hanging tool 13 which is attached to the main body 1 of the apparatus so that its vertical position can be adjusted by means of a fixing screw 12, and further to a bag hanging tool 15 whose vertical position can be adjusted by means of a fixing screw 14. It is suspended. The stock solution taken into the device main body 1 from the stock solution intake port 9 is sent to the mixer 8 by the stock solution pump 17 via the stock solution shortage sensor 16, and is mixed with the heated water. There is. Furthermore, the above mixture 8
is a non-driven type that mixes by the flow of liquid.

Further, air bubbles are removed from the dialysate mixed by the mixer 8 by a microporous filter 19 and a defoamer 20 provided in a liquid storage tank 18 provided at the top of the mixer 8. After that, temperature and concentration measuring device 2
1 to a switching solenoid valve 24 connected to a liquid supply port 22 and a liquid drain port 23. An external liquid storage tank 26 is connected to the liquid supply port 22 via a pipe 25, and the dialysate in the external liquid storage tank 26 is supplied to the portable artificial kidney apparatus (WAK) via a pipe 27. It is designed to be suctioned by an irrigation pump.

Further, the main body 1 of the apparatus is provided with a power supply inlet 28 which can be connected to a power supply through a cord 29, and a controller 30 is connected to the power supply inlet 28. Further, liquid level sensors 31 and 32 are provided in the external liquid storage tank 26, and liquid level signals 33 of the liquid level sensors 31 and 32 are provided.
is introduced into the controller 30. The controller 30 is configured to output a pump operation signal 34 for the stock solution pump 17, an opening/closing signal 35 for the water supply solenoid valve 4, and a heater operation signal 36 for the heater 6 based on the liquid level signal 33, and also A raw solution shortage signal 37 from the shortage sensor 16 issues commands to stop the raw solution pump 17, close the water supply solenoid valve 4, and stop heating the heater 6. The controller 30 also receives the temperature signal 38 and the concentration signal 39 from the concentration measuring device 21, and outputs a switching command signal 40 for the switching solenoid valve 24 based on these signals. In the figure, 41 indicates a temperature signal from a temperature measuring device 42 provided in the heater 6.

In addition, 43 in FIG. 2 is a dialysis switch, and when this switch is pressed, the dialysis lamp 44 lights up and all the dialysis functions are activated automatically, and when it is pressed again, the operation is stopped. Furthermore, when the supply of dialysate is started, a supply lamp 45 is also turned on. Further, reference numeral 46 denotes a cleaning switch, and when this switch is pressed, a cleaning lamp 47 lights up, all cleaning functions are activated automatically, and at the same time a cleaning buzzer sounds. Furthermore, 48 and 49 are a temperature display section and a conductivity (concentration) display section that digitally display the temperature and the signals 38 and 39 from the concentration measuring device 21, 50 is a temperature abnormal lamp, 51 is a conductivity (concentration) abnormal lamp, Reference numeral 52 indicates a stock solution shortage lamp, and 53 indicates a temperature adjustment knob. Also, in Figure 4, 5
4 is a conductivity (concentration) adjusting volume, 55 is a breaker for protecting the electric circuit, and 56 is a drain port in the device. Furthermore, FIG. 5 shows an example in which a rotary pump is applied to the stock solution pump 17.
In the figure, 57 is a pump body having a rotating roller 58 and a pressing curved surface 59 formed to cover the rotating roller 58, and a pump head 61 configured to be slidable by a sliding screw 60; Roller 58 and pressing curved surface 59
A pump tube is provided with a tube holder 64 which is inserted between the pump tube and can be easily installed and removed, 65 is a protective cover for safety during rotation, and 66 is a cover fixing screw.

With the above configuration, by pressing the dialysis switch 43, the following operations are automatically performed to automatically supply dialysate.

That is, when the dialysis switch 43 is pressed as described above, the signals 34, 35, and 36 are output from the controller 30, and the stock solution pump 17 is operated to lead the stock solution to the mixer 8, and at the same time, the water supply solenoid valve 4 is turned on. When the valve is opened, tap water is taken in while being maintained at a constant amount by a constant flow valve 5, and after being heated to a required temperature by a heater 6, it is led to a mixer 8. At this time, water intake uses the water pressure of tap water, so the constant flow valve 5 is designed to be used at a water supply pressure of, for example, 0.7 kg/cm ² or higher (tap water generally has a pressure of 1 kg/cm ² or higher). has been done. Further, when the water is heated by the heater 6, air bubbles are generated, which are removed by the defoamer 7.

In the above, by adjusting the heater 6 with the temperature control knob 53, the heating temperature of tap water can be freely adjusted, and by adjusting the concentration control volume 54, the discharge amount of the stock solution pump 17 (rotating roller By changing the rotation speed of dialysate 58), the concentration of dialysate can be adjusted by freely changing the ratio of stock solution to water. In the above, when the amount of stock solution is insufficient, the signal 37 from the stock solution shortage sensor 16 is sent to the controller 30 to stop the operation of the stock solution pump 17 and the heater 6, and to close the water supply solenoid valve 4. In addition, when the water supply is insufficient, an abnormal temperature rise caused by the heater 6 is detected by the temperature measuring device 42 and the signal 41 is detected.
is sent to the controller 30, the operation of the stock solution pump 17 and heater 6 is stopped, ensuring the safety of the apparatus.

The heated water and stock solution supplied to the mixer 8 are uniformly stirred and mixed through the meandering grooves. At this time, since the stock solution comes into contact with hot water, bubbles are likely to be generated, and bubbles are generated in the dialysate. For this purpose, air bubbles are separated by a microporous filter 19 provided in a liquid storage tank 18 provided at the top of the mixer 8.
It is removed by a defoamer 20.

The dialysate from which air bubbles have been removed is supplied to an external liquid storage tank 26 from a liquid supply port 22 via a temperature and concentration measuring device 21 and a switching solenoid valve 24 . In addition, in the above case, when the signals 38 and 39 from the temperature and concentration measuring device 21 fall within a predetermined range, a switching signal 40 is issued from the controller 30 to the switching solenoid valve 24 to switch, so that the dialysate is not suitable as a dialysate. The liquid will be discharged to the outside from the drain port 23.

In addition, since the signals 33 from the liquid level sensors 31 and 32 provided in the liquid storage tank 26 outside the device are input to the controller 30, when the liquid level in the liquid storage tank 26 increases and the liquid level sensor 31 operates, , the action for the dialysis is stopped, and the liquid level drops and the liquid level sensor 32
When this occurs, the action of dialysis is started again. Therefore, in the external liquid storage tank 26,
The required amount of dialysate is stored at all times.

Next, when cleaning is performed using the apparatus of the present invention,
By pressing the cleaning switch 46, the above-mentioned operations are automatically performed to perform cleaning. During this cleaning, the cleaning buzzer continues to sound. In addition, the cleaning liquid remaining inside the pipes etc. after cleaning is removed from the device drain port 56.
is discharged from.

Also, when it becomes necessary to replace the pump tube 62 of the stock solution pump 17 (it has a durability of about 400 hours), as shown in FIG.
After the pump head 61 is slid downward by loosening the slide screw 60, the pump tube 62 can be removed by loosening the attachment/detachment screw 63, and a new pump tube can be attached by performing the reverse operation. In this way, the pump tube 62 can be easily replaced at the front of the device by anyone.

It goes without saying that the apparatus of the present invention is not limited to the illustrated embodiment.

As described above, according to the portable dialysate automatic supply device of the present invention, (i) Tap water is directly used as the water to be mixed with the dialysis stock solution, so that water is supplied by using the water pressure of the tap water. Not only does it eliminate the need for a pump for feeding, it also eliminates the need to install a water tank, etc. Moreover, a separate liquid storage tank outside the device is provided, so the only driving device required is one stock pump. The entire device can be significantly reduced in size and weight, making it convenient to carry.

(ii) Equipment can be provided at low cost.

(iii) The concentration of the dialysate can be detected and arbitrarily adjusted before it is introduced into the storage tank, and therefore a safe dialysate can always be automatically supplied.

(iv) Since bubbles are removed, the dialysis effect of the dialysate can be enhanced.

(v) The dialysate is supplied automatically and safely and reliably, and the operation is simple, making it easy to use and highly reliable.

It can produce excellent effects such as

[Brief explanation of the drawing]

FIG. 1 is a flowchart showing an embodiment of the present invention, FIG. 2 is a front view showing the external appearance of the device of the present invention, FIG. FIG. 3 is a view taken along the line arrow 3, and FIG. 5 is an explanatory diagram specifically showing the stock solution pump. 1 is the main body of the device, 2 is a tap water intake port, 4 is a water supply solenoid valve, 5 is a constant flow valve, 6 is a heater, 7 is a defoamer,
8 is a mixer, 9 is a stock solution intake port, 11 is a stock solution bag, 16 is a stock solution shortage sensor, 17 is a stock pump, 19 is a microporous filter, 20 is a defoamer, 21 is a temperature and concentration measuring device, and 22 is a Liquid supply port, 2
3 is a drain port, 24 is a switching solenoid valve, 26 is a liquid storage tank outside the device, and 30 is a controller.

Claims (1)

[Claims] 1 A flow path that leads the stock solution taken in from the stock solution inlet via a stock solution shortage sensor and a stock solution pump to a non-driven mixer where mixing is performed by liquid flow, and a water supply solenoid valve from the tap water intake port. A flow path for supplying tap water to the mixer after being heated by a heater whose flow rate is regulated by a constant flow valve and whose heating temperature can be adjusted and the temperature of the heated water can be measured by a temperature measuring device; , a microporous filter and defoamer for removing air bubbles contained in the dialysate mixed by the mixer, a measuring device for measuring the temperature and concentration of the defoamed dialysate, and a dialysate. The switching solenoid valve that guides the liquid to the liquid supply port or liquid drain port, the liquid pump and the water supply solenoid valve are adjusted, and the heater is adjusted based on the measured value of the temperature measuring device. Portable dialysate automatic supply consisting of a controller that stops the pump and heater and switches the switching solenoid valve according to the measured values of the temperature and concentration measuring device, and a device body that accommodates the above configuration. Device.