JP2001104455A - Steam sterilizing device and steam supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a steam sterilizing device which controls individually the amounts of steam supplied to a sterilizing chamber and steam supply space and can control overshoot or undershoot of a sterilization temperature. SOLUTION: A steam supply path of a sterilizing chamber 1 and a steam supply space 2 for heating the sterilizing chamber 1 are provided with a first steam supply control means 5 and a second steam supply control means 6, respectively. The first steam supply control means 5 and the second steam supply control means 6 are controlled by a first pressure detecting means 17 for detecting a pressure in the sterilizing chamber 1 and a second pressure detecting means 8 for detecting pressure in the steam supply space 2, respectively.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steam sterilization apparatus for sterilizing by supplying steam to a sterilization chamber and a steam supply space for heating the sterilization chamber.

[0002]

2. Description of the Related Art In this type of steam sterilizer, the amount of supplied steam is increased at the time of cold start to shorten the sterilization operation time, and at the time of non-cold start, the supply steam is suppressed to suppress the overshoot of the temperature in the sterilization room. It is necessary to reduce the amount.

[0003]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a steam sterilizer capable of individually controlling the amount of steam supplied to a sterilization chamber and a steam supply space and controlling overshoot and undershoot of a sterilization temperature. Aim.
Furthermore, without using a complicated steam supply control valve,
A second object is to achieve the above object.

[0004]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the invention according to the first aspect is directed to a first steam supply control system in a steam supply path to a sterilization chamber. Means, a second steaming control means is provided in a steaming path to a steaming space for heating the sterilization chamber, and the first steaming control means is detected by a first pressure detecting means for detecting a pressure in the sterilizing chamber. ,
The steam sterilization apparatus is characterized in that each of the second steaming control means is controlled by a second pressure detecting means for detecting a pressure in the steaming space.

According to a second aspect of the present invention, in the first aspect, the first steam supply control means and / or the second steam supply control means moves the valve between a fully closed position and a fully open position by driving an electric motor. It is characterized by comprising a motor valve to be driven, and controlling the driving time of the electric motor by the control means to control the opening of the valve to an opening position between the fully closed position and the fully opened position.

According to a third aspect of the present invention, in the second aspect, an adjusting means for adjusting the driving time in accordance with the degree of pressure change in the steam supply space is provided.

According to a fourth aspect of the present invention, there is provided a steam supply control device used in the steam sterilizer according to the second or third aspect, wherein the valve is set to a fully closed position and a fully open position by driving an electric motor. A motor valve selectively driven, and control means for controlling the driving time of the electric motor to control the opening of the valve to an opening position between the fully closed position and the fully open position. And

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION A steam sterilizer according to the present invention includes a sterilization chamber for accommodating an object to be sterilized, and a steam supply space for heating the sterilization chamber from the outside. The object to be sterilized is sterilized by supplying steam to the chamber and setting the sterilization temperature in the sterilization chamber to a predetermined temperature. The steam supply space is formed in a double can shape on the outer surface of the sterilization chamber. Each of the steam supply paths to the sterilization chamber and the steam supply space is provided with first and second steam supply control means for controlling the amount of steam supplied. Further, the sterilization chamber is provided with first pressure detection means for detecting the internal steam pressure, and the steam supply space is provided with second pressure detection means for detecting the internal steam pressure. The first and second steam control valves are controlled to adjust the amount of steam supplied so as to control the inside of the steam supply space to a predetermined pressure. According to this configuration, the steam supply amounts to the sterilization chamber and the steam supply space are individually and automatically controlled, and furthermore, are controlled by the pressure, so that the overshoot and undershoot of the sterilization chamber temperature can be prevented. This cannot be easily performed by control by the solenoid valve and the temperature sensor.

The first and second steam supply control means preferably comprise a motor valve which selectively drives a valve between a fully closed position and a fully open position by driving an electric motor,
Electrical control means is provided for controlling the drive time of the electric motor to control the opening of the valve to an opening position between a fully closed position and a fully opened position. In this configuration, by controlling the drive time of the electric motor based on the pressure detected by the first and second pressure detecting means, the opening degree of the valve is controlled to control the opening degree of the valve to the sterilization chamber and the steam supply space. It controls the amount of steam supplied. Therefore, without using a proportional control valve having a complicated structure, the amount of steam supplied can be controlled between a fully closed state and a fully opened state by a normal motor valve. It is desirable that the driving time can be adjusted according to the degree of pressure change or the state of pressure change in the sterilization chamber and the steam supply space. That is, for example, when the pressure does not reach the predetermined pressure within the predetermined time, the driving time is lengthened to increase the opening of the valve.

[0010]

An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, a steam jacket 2 formed in a double can shape as a steam supply space is provided on an outer wall of a sterilization chamber 1.
Is provided to heat the sterilization chamber 1 from outside.

The sterilization chamber 1 is connected to a first steam supply line (steam supply line) 3 as a steam supply path, and the steam jacket 2 is connected to a second steam supply line 4 as a steam supply path.
Is connected. In the first and second steam supply lines 3 and 4,
First and second motor valves 5 and 6 are provided as steam supply control means, respectively. The first and second steam supply lines 3, 4
Is connected to a main steam supply line 8 having a steam main valve 7 which is controlled to be fully closed and fully opened.

An air supply line 9 is connected to the sterilization chamber 1, and aseptic air is supplied to the decompressed sterilization chamber 1 so that the pressure in the sterilization chamber 1 is restored to the atmospheric pressure. I have. The air supply line 8 is provided with a sterile filter 10 and an air supply valve 11 in order from the upstream side.

The sterilization chamber 1 has a vacuum line 1
2 is connected so that the pressure in the sterilization chamber 1 is reduced. The evacuation line 12 is provided with a first exhaust valve 13 and a vacuum pump 14 in order from the upstream side. The exhaust line 15 is connected to the evacuation line 1.
2, a branch is provided from an upstream position of the first exhaust valve 13, and a downstream end thereof is connected to a downstream position of the vacuum pump 14 in the evacuation line 12. The exhaust line 13 has a function of discharging steam in the sterilization chamber 1. The exhaust line 15 has a second exhaust valve 16
Is provided.

The sterilization chamber 1 and the steam jacket 2 are provided with first and second pressure sensors 17 and 18 as pressure detecting means for detecting respective internal pressures. A temperature sensor 19 is provided at a portion called a drain discharge port communicating with the hopper. The mounting position of the temperature sensor 19 is selected so as to detect the lowest temperature in the sterilization chamber 1 and a portion communicating therewith.

The first and second pressure sensors 17, 18 and the temperature sensor 19 are connected to a controller 20 by signal lines. The controller 20 controls the first and second motor valves 5, 6, and 6 according to a preset program.
It controls the opening and closing of the steam source valve 7, the air supply valve 11, the first exhaust valve 13 and the second exhaust valve 16, and the operation of the vacuum pump 14.

First, an operation process by the controller 20 will be described below. The operation step includes a preheating step, an exhaust step,
It consists of a steam supply step, a sterilization step, and a drying step. After the object to be sterilized is stored in the sterilization chamber 1, the steam source valve 7 and the second motor valve 6 are opened to supply steam into the steam jacket 2 to heat the sterilization chamber 1. Perform the process. This preheating step is performed by the temperature sensor 1
The process is performed until the temperature in the sterilization chamber 1 detected by step 9 reaches a predetermined temperature. In this preheating step, the second motor valve 6 is controlled by the pressure detected by the second pressure sensor 18 to control the inside of the steam jacket 2 to a predetermined pressure corresponding to a predetermined sterilization temperature.

Next, the operation of opening the first exhaust valve 13 and operating the vacuum pump 14 to exhaust the air in the sterilization chamber 1 and the operation of closing the first exhaust valve 13 and operating the vacuum pump 14 An evacuation step is repeated in which the operation is stopped and the operation of opening the steam source valve 7 and the first motor valve 5 and supplying steam into the sterilization chamber 1 is repeated several times.

After the evacuation process is completed, the process proceeds to the steam supply process. By opening the first motor valve 5 in addition to the steam source valve 7, steam for heat sterilization is supplied into the sterilization chamber 1 through the first steam supply line 2. Then, a sterilization process is performed in which the steam is filled in the sterilization chamber 1 for a predetermined time.
The transition from the steam supply step to the sterilization step is performed by the temperature sensor 19 detecting a set sterilization temperature, for example, 135 ° C. Then, the counting of the sterilization time is started, and after the sterilization process for a predetermined time is performed, the sterilization process is ended.

In the above steam supply step and sterilization step,
The supply of steam into the sterilization chamber 1 and the steam jacket 2 controls the first and second motor valves 5 and 6 based on detection signals from the first and second pressure sensors 17 and 18. It is performed by In this embodiment, the sterilization temperature is set to 135 ° C., the pressure in the sterilization chamber 1 is controlled to a corresponding saturated steam pressure of 2.2 kg / cm ^2, and the pressure in the steam jacket 2 is For example, the saturated steam pressure is controlled to 2.2 kg / cm ² . Hereinafter, this control will be described with reference to FIGS. In the following description, only the first motor valve 5 will be described.
Since the second motor valve 6 is similarly controlled, a description thereof will be omitted.

FIG. 2 shows a drive control circuit of the second motor valve 5. In this circuit, the electric motor 21
A first terminal 22 for driving a valve (not shown) in the closing direction by energizing each of them and a second terminal 23 for driving the valve in the opening direction are provided. And the first and second terminals 22,
23 is connected to a first power supply line 26 via a closing drive contact 24 and an open drive contact 25 controlled to be opened and closed by the controller 20, respectively, and the other end of the electric motor 21 is connected to a second power supply line 27. Connected to.

FIG. 3 shows the first motor valve 5.
2 shows a control flow by the controller 20 during the steam supply step and the sterilization step. First, in step S1, the controller 20 outputs a signal for closing the closing direction drive contact 24. As a result, the first motor valve 5 is fully closed. Next, in step S2, it is determined whether the pressure detected by the first pressure sensor 17 and the temperature detected by the temperature sensor 19 are equal to or less than a set value. Here, if NO (No) is determined, the process returns to step S1, and
When YES is determined, the process proceeds to step S3, closes the opening direction drive contact 25, starts counting by a timer built in the controller 20, and proceeds to step S4.

In step S4, it is determined whether a predetermined timer time, that is, a predetermined electric motor driving time has elapsed. If YES is determined here, the process shifts to step S5 to open the opening direction drive contact 25. In this way, the second motor valve 5 is controlled to a predetermined opening between the fully closed position and the fully opened position, and the steam is supplied according to the opening.

The electric motor driving time is set by experimentally obtaining the time required for the valve to reach a predetermined opening degree. The drive time of the electric motor is manually variable, and is preferably automatically adjusted according to the degree of pressure change or the state of pressure change in the sterilization chamber 1 as follows. That is, the pressure rise characteristic curve in the sterilization chamber 1 experimentally obtained as shown in FIG. 4 is stored in the controller 20, and the slope of the actual pressure rise detected by the first pressure sensor 17 is determined. When the inclination of the characteristic curve is smaller, the electric motor driving time is increased by, for example, 0.2 seconds to increase the opening degree of the first motor valve 5, and when the inclination is larger, the electric motor driving time is increased. , For example, by 0.2 seconds to reduce the valve opening.

When the above sterilization step is completed, the operation proceeds to the drying step. The supply of steam into the sterilization chamber 1 is stopped by closing the first motor valve 5, and the steam in the sterilization chamber 1 is discharged by opening the second exhaust valve 16. Then, the second exhaust valve 16 is closed, the first exhaust valve 13 is opened, and the vacuum pump 14 is operated to reduce the pressure in the sterilization chamber 1. The air supply valve 11 is opened to open the aseptic filter 1.
The operation of supplying clean air into the sterilization chamber 1 through the zero is alternately repeated several times. After the inside of the sterilization chamber 1 is returned to the atmospheric pressure and the drying step is completed, the object to be sterilized is taken out.

In the above embodiment, in order to guarantee the sterilization temperature, the condition for determining the transition from the steam supply step to the sterilization step is when the temperature detected by the temperature sensor 19 detects a predetermined sterilization temperature. The first pressure sensor 17 may be configured to start a sterilization process after a predetermined time has elapsed after detecting a steam pressure corresponding to a predetermined sterilization temperature.

In the above embodiment, the set pressure (control target pressure) of the controller 2 in the sterilization chamber in the steam supply step and the sterilization step is set to be higher than the saturated steam pressure corresponding to the set sterilization temperature. By setting, it is possible to cope with a temperature decrease due to heat radiation of the sterilization chamber. In the steaming step, the temperature sensor 19
When the set sterilization temperature is reached, control is made to shift to the sterilization process.In this case, if the set sterilization temperature is not reached within a predetermined time from the start of steam supply, the set pressure is increased by a predetermined value. Is desirable. By doing so, it is possible to solve the problem that the amount of the object to be sterilized is large, the amount of drain generated increases, and the temperature in the sterilization chamber does not increase. further,
If the set sterilization temperature is not reached even when the set pressure is increased by a predetermined value, it is desirable to generate an alarm and stop the operation.

[0027]

As described above, according to the present invention, the amount of steam supply to the sterilization chamber and the steam supply space is individually and automatically controlled and controlled by the pressure, so that the overshoot and undershoot of the temperature of the sterilization chamber can be prevented. The effect is great.

[Brief description of the drawings]

FIG. 1 is a schematic explanatory view showing one embodiment of a steam sterilizer to which the present invention is applied.

FIG. 2 is a main part electric circuit diagram of one embodiment of the steam sterilizer to which the present invention is applied.

FIG. 3 is a flowchart showing an embodiment of a control flow according to the present invention.

FIG. 4 is a schematic diagram of a pressure rise degree characteristic curve in one embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Sterilization room 2 Steam jacket (steam supply space) 5 First motor valve (first steam supply control means) 6 Second motor valve (second steam supply control means) 17 First pressure sensor (first pressure detection means) 18 Second pressure sensor (second pressure detecting means) 20 Controller (control means)

Claims (4)

[Claims] 1. A first steam supply control means 5 is provided in a steam supply path to the sterilization chamber 1, and a second steam supply control means 6 is provided in a steam supply path to the steam supply space 2 for heating the sterilization chamber 1. , The sterilization chamber 1
The first steaming control means 5 is controlled by the first pressure detecting means 17 for detecting the pressure of the steam, and the second steaming control means 6 is controlled by the second pressure detecting means 18 for detecting the pressure of the steaming space 2. Steam sterilizer characterized by performing. 2. The first steam supply control means 5 and / or the second steam supply control means 6 comprises a motor valve for driving a valve between a fully closed position and a fully open position by driving an electric motor 21. The steam sterilizer according to claim 1, wherein the opening degree of the valve is controlled to an opening position between a fully closed position and a fully opened position by controlling a driving time of the electric motor 21 by 20. . 3. The steam sterilizer according to claim 2, further comprising adjusting means for adjusting the driving time according to the degree of pressure change in the steam supply space 2. 4. A motor valve for selectively driving a valve between a fully-closed position and a fully-open position by driving the electric motor 21, and controlling the drive time of the electric motor to reduce the degree of opening of the valve to the fully-closed position. And a control means 20 for controlling the opening degree between the fully open position and the open position.