KR100243069B1 - Purifier - Google Patents

Abstract

The present invention relates to an apparatus for producing sterile water, and more particularly, to remove germs in raw water in order to manufacture sterile water used for washing hands in places where a health and hygienic environment is required, such as a hospital. The present invention relates to an sterile water production apparatus consisting of an ultrafiltration membrane, a means for periodically sterilizing the inside of the apparatus, and a means for automatically supplying a cleaning agent.

Description

Aseptic Water Manufacturing Equipment

1 is a view schematically showing a sterile water producing apparatus according to the present invention,

2 is a graph showing the results of measuring the permeate flow rate at the time of permeation of 10 m 3 until the total permeation amount is 100 m 3 for the performance evaluation of the sterile water production apparatus according to the present invention.

<Explanation of symbols for main parts of drawing>

1: ultrafiltration membrane 2: controller

2a: raw water supply pipe 2b: sterile water supply pipe

2c: discharge pipe 3: sterilization means

3a: disinfectant supply pipe 4: cleaning agent supply means

4a: cleaning agent supply pipe 5: air vent

6: fungicide injection port 7: fungicide level meter

8: sterilant storage tank 9: air vent

10 cleaning agent inlet port 11 cleaning agent level meter

12: detergent storage tank 21,22,23,24,25,26,27,28,29: electron valve

The present invention relates to an apparatus for producing sterile water, and more specifically, to remove germs in raw water in order to manufacture sterile water for washing hands in places where a health and hygienic environment is required, such as a hospital. The present invention relates to an sterile water production apparatus consisting of an ultrafiltration membrane, a means for periodically sterilizing the inside of the apparatus, and a means for automatically supplying a cleaning agent.

Conventional sterile water production apparatus has a dead end (end-end) type ultrafiltration membrane that largely removes bacteria in the raw water and the electronic stools and hands to control the sterile water flowing through the raw water and the ultrafiltration membrane without having to touch It consists of an optical sensor switch that allows the device to run or stop.

However, since the dead-end ultrafiltration membrane is completely permeated to filter bacteria when raw water is introduced, the surface of the ultrafiltration membrane is contaminated with bacteria when used for a long time, and bacteria are multiplied when left unused for a long time. If used for a long time, there is a risk of leakage of bacteria.

Another conventional method other than sterilization by a dead end type ultrafiltration membrane is to use an ultrafiltration membrane of a cross-flow filtration method. This device performs automatic backwashing at the end of sterile water production to wash the bacteria that may exist on the surface of the ultrafiltration membrane.It cleans the ultrafiltration membrane completely by using only raw water instead of a separate disinfectant. Can't. In addition, because there is no supply of the cleaning agent used to wash hands, there is also the inconvenience of having to pick up the cleaner by hand.

Accordingly, the inventors of the present invention have made efforts to solve the problems of the conventional sterile water production apparatus, as a result of passing the raw water through a cross-flow ultrafiltration membrane to produce sterile water, and washing the hands required for washing hands in the device Invented a sterile water production device consisting of a means for automatically supplying and a means for automatically sterilizing the inside of the device periodically even when not using the sterile water production device and a controller and an electronic valve to automatically control such operations Was done.

It is an object of the present invention to provide a sterile water production apparatus having a sterilization function of raw water, a periodic sterilization function inside the apparatus, and an automatic supply function of a cleaning agent.

The present invention relates to a sterile water production apparatus comprising an ultrafiltration membrane (1) and an electronic valve for controlling the flow of sterile water passing through the feed pipes (2a, 2b) and a control means (2) for controlling the operation and stop operation of the device. The sterilization means 3 is connected to the raw water supply pipe 2a before the ultrafiltration membrane 1, and the cleaning agent supply means 4 is connected to the sterile water supply pipe 2b after the ultrafiltration membrane 1. It is characterized by being installed.

The sterilization means (3) in the present invention is composed of a sterilant reservoir (8), which is provided with an air vent (5), a disinfectant inlet (6) and a sterilant level gauge (7), such sterilization means (3) The silver dispersant is connected to the sterilant supply pipe 3a by the electron valve 21, and both ends of the sterilant supply pipe 3a are connected to the water supply pipe 2a by the 3-way solenoid valves 23 and 24, respectively. Is connected to.

In addition, the cleaner supply means (4) is composed of a detergent reservoir 12 is provided with an air vent (9), a cleaner injection port (10) and a detergent level gauge (11), the cleaner supply means (4) is an electromagnetic valve While being connected to the cleaner supply pipe 4a by 25, both ends of the cleaner supply pipe 4a are connected to the water supply pipe 2b by 3-way solenoid valves 26 and 27, respectively.

Reference numeral 2C is a discharge pipe connected to the ultrafiltration membrane (1).

The present invention will be described in more detail as follows.

The present invention relates to a sterile water production apparatus having a sterile water production function, a sterilization function and a cleaning agent supply function in the device, when described with reference to the accompanying drawings.

When a person who wants to wash his hands using sterile water stands at about 30cm away from the front of the device, the optical sensor detects this and sends an electric signal to the adjusting means (2). The adjusting means 2 opens the electron valves 22, 28, and 29 that are closed to allow the raw water to flow therein, and adjusts the 3-way electron valves 23 and 24 to open the water supply pipe 2a before the ultrafiltration membrane 1. The three-way electron valves 26 and 27 are adjusted so that raw water flows in the A direction and at the same time, the sterile water passing through the ultrafiltration membrane 1 in the C direction through the water supply pipe 2b. At this time, the raw water that does not penetrate some of the ultrafiltration membrane 3 is discharged through the discharge pipe (2c). After about 10 to 15 seconds, the three-way at both ends of the cleaner supply pipe (4a) so that aseptic water flowing through the ultrafiltration membrane (1) flows in the D direction through the cleaner supply pipe (4a) by the operation of the adjusting means (2) again. The direction of the electron sides 26 and 27 is changed.

At the same time, when the closed solenoid 25 is opened, the detergent contained in the detergent supply means 4 is sucked into the detergent supply pipe 4a by the aspiration effect of the sterile water flowing in the D direction, and mixed with the sterile water. Come out. At this time, it is better to use a known liquid soap, especially a cresol soap, as the cleaning agent to be used.

The cleaner supply means 4 indicates that the body 12 constituting the reservoir, the air vent 9 for effectively discharging the cleaner, the cleaner inlet 10 for filling the cleaner, and the cleaner are used. And a cleaning water level gauge 11 or the like connected to a warning lamp (not shown) installed outside the apparatus.

In particular, the air vent 9 may use an air filter having a pore size of 0.45 μm, which is known for preventing bacterial penetration, so that bacteria in the air may not penetrate.

After 10-15 seconds of cleaning agent flows out, the direction of the three-way solenoid valves 26 and 27 is changed again in the C direction by the operation of the adjusting means (2). Finally, wash the hands using sterile water. To do that. When a person who washes his hand sufficiently withdraws from the sterile water production apparatus, the optical sensor detects this and closes the electronic valves 22, 28, and 29 so that no more raw water is introduced. In particular, in the case of the electron valve 28, the reverse contamination prevention electronic valve should be used to prevent contamination of the pipe and the ultrafiltration membrane on the side through which bacteria are infiltrated and filtered aseptic water.

On the other hand, the method of sterilizing the ultrafiltration membrane 1 according to the present invention automatically using a disinfectant periodically will be described in detail with the accompanying drawings.

If the sterile water is not used for a certain time, the electronic valves 22 and 29, which are closed as previously inputted to the adjusting means 2, are opened and the sterilant supply pipe 3a so that raw water flows in the B direction through the sterilant supply pipe 3a. Change the direction of the 3-way solenoids 23 and 24 at both ends. At the same time, the closed electron valve 21 is opened and the sterilant contained in the sterilization means 3 is sucked by the flow of raw water into the sterilant supply pipe 3a together with the raw water due to the aspiration effect. It enters (1) and sterilizes the surface of the ultrafiltration membrane.

At this time, it is preferable to use sodium hypochlorite (NaOCl), hydrogen peroxide (H ₂ O ₂ ) and caustic soda solution (NaOH) as a fungicide to be used. The sterilizing means (3) is a device (8) to form a reservoir, an air vent (5) for effectively discharging the sterilizer, a sterilizer inlet (6) for filling the sterilizer and a device to inform when using both It consists of a disinfectant level meter (7) connected to the warning lamp (not shown) installed on the outside. After sterilizing the surface of the ultrafiltration membrane (1) using a disinfectant, it is left on the surface of the ultrafiltration membrane (1) by clean raw water by changing the direction of the 3-way electron valve (23, 24) so that the raw water flows in the A direction again. Wash any disinfectant in place.

At this time, the sterilization cycle is recommended to be operated after 2 hours from the time of the final use of sterile water.

The sterile water production apparatus according to the present invention is useful for producing sterile water used for washing hands in a hospital, and particularly useful for preventing bacteria from propagating inside the device.

Experimental Example

The ultrafiltration membrane (1) used the SKUC-306-0830 hollow fiber type ultrafiltration membrane module developed by Sunkyung Industries having the following characteristics.

Material: Polysulfone

Fractional molecular weight: MWCO 30,000

Membrane inner and outer diameter: 0.8 / 1.4 mm

Effective film area: 1.6㎡

Initial Pure Water Permeation: 13 ℓ / min.module (25 ℃, 2.5㎏ / ㎠)

And the pipes (2a, 2b, 2c) of raw water, permeate and discharge water are 8mm A flexible tube of Teflon material having a diameter (inner diameter) of 2 mm was used. The sterilant supply pipe 3a connected to the sterilization means 3 and the detergent supply pipe 4a connected to the detergent supply means 4 were 2 mm for adjusting the suction amount. A flexible tube of Teflon material having a diameter (inner diameter) of was used.

The disinfectant reservoir (8) and the detergent reservoir (12) are each made of a polypropylene material of 4 L capacity. The disinfectant is filled with 100 ppm of sodium hypochlorite (NaOCl) solution in the disinfectant reservoir (8) and mixed with raw water. When it is introduced into the ultrafiltration membrane (1) was used to adjust to dilute to a concentration of 5 ~ 10ppm.

Cresol soap was used as the detergent, and the time leading from the sterile water to the detergent mixed water was adjusted to 10 and 15 seconds, respectively. Sterilization cycle was adjusted to operate after 2 hours from the end of the end use, the inlet pressure of the raw water was 0.9 ~ 1.15㎏ / ㎠.

In order to evaluate the performance of the apparatus for producing sterile water prepared under the conditions described above, the permeate flow rate was measured at the time when the permeate was transmitted by 10 m 3 until the total permeation amount became 100 m 3, and the result is shown in FIG. 2. Shown in In addition, the number of bacteria in permeated water collected at that time was measured by colony measurement method using agar medium, and the results are shown in Table 1 below.

Claims (3)

In the sterile water production apparatus consisting of an ultrafiltration membrane (1) and an electronic valve for controlling the flow of sterile water through the water supply pipes (2a, 2b) and a control means (2) for controlling the operation and stop operation of the device. Sterilization means (3) is connected to the raw water supply pipe (2a) before the ultrafiltration membrane (1), the sterile water supply pipe (2b) after the ultrafiltration membrane (1) is connected to the cleaning agent supply means (4) Sterile water production apparatus, characterized in that. 2. The sterilizing means (3) according to claim 1, wherein the sterilizing means (3) is composed of an air vent (5), a sterilizing agent inlet (6) and a sterilizing agent reservoir (8) provided with a sterilizing agent level gauge (7). The silver dispersant is connected to the sterilant supply pipe 3a by the electron valve 21, and both ends of the sterilant supply pipe 3a are connected to the water supply pipe 2a by the 3-way solenoid valves 23 and 24, respectively. Sterile water production apparatus, characterized in that connected to. The cleaning agent supply means (4) according to claim 1, wherein the cleaning agent supply means (4) is composed of a cleaning agent reservoir (12) provided with an air vent (9), a cleaning agent injection port (10), and a cleaning water level gauge (11). 4) is connected to the cleaning supply pipe (4a) by the electron valve 25, both ends of the cleaning supply pipe (4a) is connected to the water supply pipe (2b) by the three-way electromagnetic valve (26, 27), respectively Sterile water production apparatus.