KR200442014Y1 - Endoscope Disinfection Equipment - Google Patents

Abstract

The present invention has a technical problem to provide an endoscope disinfection device that can be implemented at low cost by the sodium hypochlorite generated by itself, and to quickly and efficiently produce sodium hypochlorite to disinfect the endoscope.

To this end, the present invention, a disinfection tank for storing sodium hypochlorite solution having a concentration of 3 ~ 200ppm for disinfection of the endoscope, a drain pipe for draining the solution stored in the disinfection tank, water and sodium initially introduced through the drain pipe To a disinfectant solution supply pipe for supplying a sodium hypochlorite generating unit for producing a sodium hypochlorite solution having a concentration of 3 to 200 ppm by electrolysis of the mixed solution of the solution and a sodium hypochlorite solution generated by the sodium hypochlorite generating unit to a disinfection tank. It is composed.

Description

Endoscopic disinfection device

1 is a view showing the configuration of the endoscope disinfection device according to the present invention.

<Brief description of the main parts of the drawing>

100-sodium hypochlorite generator 110-tank

111-circulating inlet 112-inlet

120-lower circulation line 130-upper circulation line

140-circulating pump 150-reactor

151-Negative Electrode 152-Positive Electrode

160-Stirrer 161-Motor

162-Shaft 163-Agitator Wing

200-Disinfectant Supply Line 210-Disinfectant Filling Pump

300-Disinfectant 400-Drain

410-Return tube 420-Solenoid valve

430-discharge line 440-solenoid valve

500-Controller 610-Power Supply

700-key input

The present invention relates to an endoscope disinfection apparatus, and in particular, in a disinfection apparatus for disinfecting an endoscope in a hospital, an endoscope capable of quickly producing sodium hypochlorite quickly and efficiently by disinfection by production of sodium hypochlorite It relates to a disinfection device.

In general, endoscopes used in hospitals are very easy to cause secondary infections in others and require thorough disinfection.

Disinfection methods include sterilization by chemicals, sterilization by high pressure steam or heating, but these methods have many problems.

First, in the case of chemical disinfection, if the chemicals used for disinfection remain in the endoscope, it may cause adverse effects on humans due to the toxicity of the chemicals.

Secondly, the chemical for disinfection has a problem that the price is very expensive and is not easily used in the hospital due to cost problems.

Third, because the endoscope is composed of a very precise optical system, it is not recommended because it may cause deformation or damage when disinfecting by high pressure steam.

In order to solve this problem, the present invention provides a endoscopic disinfecting apparatus that can be implemented at low cost by sodium hypochlorite generated by itself, and can quickly and efficiently produce sodium hypochlorite to disinfect the endoscope. It is.

Endoscope disinfection device of the present invention for achieving this purpose,

A disinfection tank for storing sodium hypochlorite solution having a concentration of 3 to 200 ppm to disinfect the endoscope;

A drain pipe for draining the solution stored in the sterilization tank;

Sodium hypochlorite generating unit for producing a sodium hypochlorite solution having a concentration of 3 ~ 200ppm by electrolyzing the mixed solution of water and sodium introduced through the drain pipe initially,

It consists of a disinfectant solution supply pipe for supplying the sodium hypochlorite solution generated by the sodium hypochlorite generating unit to the disinfection tank.

In addition, the sodium hypochlorite generating unit is formed with an inlet for the input of the solution discharged from the disinfection tank in the upper portion, the mixing tank is connected to the disinfection solution supply pipe in the lower portion,

A circulation tube provided to be connected from the lower side to the upper side of the mixing tank to circulate the solution in the mixing tank;

A circulation pump installed on the circulation pipe to pump the solution discharged from the lower portion of the mixing tank to be forced to the upper portion;

It is composed of a reactor which is installed on the circulation tube to produce sodium hypochlorite having a concentration of 3 ~ 200ppm by electrolyzing the solution circulated from the mixing tank,

A motor is mounted on an upper portion of the mixing tank, and the shaft of the motor extends into the mixing tank, and a stirring portion is provided on the shaft to mix a solution in the mixing tank.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a view showing the endoscope disinfection device according to the present invention, first, the sodium hypochlorite generating unit 100 is a tank 110 for receiving a mixed solution of 8 to 16 liters of water and sodium chloride (Nacl) 5 ~ 30g (110) In the upper portion of the tank 110, an inlet 112 for recovering a solution of mixed sodium chloride and water or a sodium hypochlorite solution stored in the disinfection tank 300 from the disinfection tank 300, The disinfectant solution supply pipe 200 for supplying the sodium hypochlorite solution generated by the electrolysis of a solution mixed with water and sodium chloride to the disinfection tank 300 is connected.

The size of the tank 110 is, for example, has a size that can accommodate 8 to 16 liters of water, and electrolyzes a mixed solution of 8 to 16 liters of water and 5 to 30 g of sodium chloride (Nacl) contained therein. A reactor 150 is provided outside the tank 110 to produce a sodium hypochlorite solution, and a lower circulation pipe 120 and an upper circulation pipe 130 are provided to circulate the mixed solution into the reactor 150. do.

The lower circulation pipe 120 discharges the mixed solution from the lower portion of the mixing tank 110. In this case, the lower circulation pipe 120 is provided with a circulation pump 140 to force the mixed solution inside the mixing tank 110. To pump.

The mixed solution introduced into the reactor 150 by the circulation pump 140 is electrolyzed, and the controller 500 controls the power supply unit 600 to control the electrochemical cell battery mounted in the reactor 150. By supplying a power of about 12V 18-40A to the negative electrode 151 and the positive electrode 152, the sodium hypochlorite solution having a concentration of 3 to 200ppm is produced by electrolyzing the mixed solution of water and sodium chloride.

That is, a solution mixed with 8 to 16 liters of water and a ratio of 5 to 30 g of sodium chloride (Nacl) produces a sodium hypochlorite solution having a concentration of 3 to 200 ppm by electrolysis, wherein the concentration of sodium hypochlorite solution In order to control the ratio of water and sodium chloride can be adjusted appropriately, the concentration of sodium hypochlorite solution can be adjusted by adjusting the amount of sodium chloride according to the amount of water outside the range of 8-16 liters.

The sodium hypochlorite solution generated by the reactor 150 is introduced into the circulation inlet 111 provided in the upper portion of the tank 110 through the upper circulation pipe 130, and the inside of the mixing tank 110 is repeatedly formed by repeated circulation. Electrolysis is carried out until the mixed solution of is a sodium hypochlorite solution having a concentration of 3 to 200 ppm.

The sodium hypochlorite solution thus generated is pumped by the disinfectant solution filling pump 210 and flows into the disinfection tank 300 for sterilizing the endoscope through the disinfectant solution supply pipe 200.

A drainage pipe 400 is installed at the lower portion of the disinfection tank 300, and the drainage pipe 400 is branched into the recovery pipe 410 and the discharge pipe 430, and the solenoid valves are respectively provided in the recovery pipe 410 and the discharge pipe 430. 420, 440 are installed, the solution of the disinfection tank 300 by the operation of the solenoid valve 420, 440, the tank 110 or the discharge pipe 430 and the discharge pump of the sodium hypochlorite generator 100 It is to be discharged to the outside by 450.

At this time, the rear end of the solenoid valve 420 is equipped with a filter 460, to filter the foreign matter contained in the solution recovered from the disinfection tank 300.

The stirring unit 160 of the sodium hypochlorite generating unit 100 has a motor 161 mounted on the upper outer side of the tank 110, and the shaft 162 of the motor 161 extends into the tank 110. The stirring blade 163 is installed on the shaft 162 so that the solution contained in the tank 110 can be quickly and evenly mixed.

The operation of the present invention will be described.

In the hospital, the manager first puts 8 to 16 liters of water and 5 to 30 g of sodium chloride (Nacl) in the disinfection tank 300, and then presses an operation button of the key input unit 700, the controller 500 generates a valve control signal. The solenoid valve 420 is opened, and the solenoid valve 440 is kept closed so that the solution of the disinfection tank 300 is inlet 112 of the tank 110 through the drainage pipe 400 and the recovery pipe 410. It is received internally through.

Thereafter, the controller 500 generates a motor control signal for driving the motor 161 of the agitator 160 to allow the stirring blade 163 to mix water and sodium chloride evenly, and generates a pump control signal to circulate the pump. The pump 140 is operated.

Then, the solution contained in the tank 110 is introduced into the reactor 150 through the lower circulation pipe 120, and the controller 500 controls the power supply unit 600 to control the negative electrode 151 of the reactor 150. ) And the positive electrode 152 is electrolyzed to produce a sodium hypochlorite solution.

The sodium hypochlorite solution generated in this way is introduced back into the tank 110 through the upper circulation pipe 130 and the circulation inlet 111, and the sodium hypochlorite solution in the tank 110 is repeated by repeating this process. It operates until it has a concentration of ~ 200ppm.

In this case as well, by continuously operating the stirring unit 180 to allow the mixed solution and the sodium hypochlorite solution introduced by the reactor 150 to be mixed evenly inside the tank 110 quickly and evenly hypochlorous acid having a concentration of 3 ~ 200ppm Sodium solution is allowed to form in tank 110.

When the sodium hypochlorite solution is generated, the controller 500 drives the disinfectant solution filling pump 210 according to the pump control signal to disinfect the sodium hypochlorite solution in the tank 110 through the disinfectant solution supply pipe 200 to the disinfection tank 330. By inflow, the endoscope is disinfected.

When the manager inputs the drain button through the key input unit 700 after disinfection of the endoscope, the controller 500 generates a valve control signal and a pump control signal to open the solenoid valve 440 and drive the discharge pump 450. It will be discharged quickly to the outside.

On the contrary, when the sodium hypochlorite solution used in the disinfection tank 300 is to be recovered to the tank 110 and used again, the sodium hypochlorite solution is recovered to the tank 110 by opening the solenoid valve 420. Sodium hypochlorite solution having a concentration of 200 ppm is produced.

As described above, the present invention has an effect that can be operated at low cost by generating sodium hypochlorite by water and sodium chloride, and supplying the sodium hypochlorite thus produced to the disinfection tank of the endoscope disinfection apparatus.

Claims (2)

Disinfection tank 300 for storing sodium hypochlorite solution having a concentration of 3 ~ 200ppm to disinfect the endoscope, It consists of a recovery pipe 410 for introducing the solution stored in the disinfection tank 300 to the hypochlorous acid generating unit 100 and a discharge pipe 430 for draining to the outside, respectively, in the recovery pipe 410 and the discharge pipe 430 As the solenoid valves 420 and 440 are installed, the recovery pipe 410 has a drain pipe 400 in which a filter is installed, Sodium hypochlorite generator 100 for generating a sodium hypochlorite solution having a concentration of 3 ~ 200ppm by electrolyzing the mixed solution of water and sodium introduced through the drain pipe 400, and It consists of a disinfectant solution supply pipe 200 for supplying the sodium hypochlorite solution generated by the sodium hypochlorite generating unit 100 to the disinfection tank, the resulting sodium hypochlorite disinfection tank 300 and the sodium hypochlorite generating unit 100 Is configured to be supplied back to the disinfection tank 300 by circulation, Sodium hypochlorite generation unit 100 An inlet 112 for receiving the solution discharged from the disinfection tank 100 located in the upper portion through the recovery pipe 410 is formed, the lower portion of the mixing tank 110 is connected to the disinfectant solution supply pipe 200, A circulation pipe (120, 130) provided on the outside of the mixing tank 110 from the bottom to the top to circulate the solution in the mixing tank, A circulation pump 140 installed on the circulation pipes 120 and 130 to pump the solution flowing out from the lower portion of the mixing tank 110 to be forced to the upper portion; A reactor 150 installed on the circulation pipes 120 and 130 to generate sodium hypochlorite having a concentration of 3 to 200 ppm by electrolyzing the solution circulated from the mixing tank 110; A power supply unit 600 for supplying power to the reactor 150, The motor 161 is mounted on the upper portion of the mixing tank 110, the shaft 162 of the motor extends into the mixing tank 110, and the stirring blade 163 is provided on the shaft 162 to mix the tank. Consists of the stirring unit 160 for mixing the solution inside the 110, Endoscopic disinfection apparatus for controlling the operation of the power supply unit 600, the controller 200 for controlling the opening and closing of the solenoid valve (420,440) of the drain pipe (400). delete

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