HUT73448A - Hot air sterilizer - Google Patents

Abstract

The invention relates to a hot air sterilizer including a casing, an inner cabinet provided with a sterilizer chamber that can be hermetically sealed, a heat radiator subassembly, an electronic control unit suitable to operate the heat radiator subassembly, as well as a motor and an air circulating subassembly including a rotating shaft coupled with the motor, having said heat radiating subassembly a heater surrounded by a heating chamber, being said heating chamber in connection with said sterilizing chamber while being the rotating shaft of the air circulating subassembly coupled to one or more impellers protruding into the heating chamber. The characteristic feature of the invention is that a cooler unit (9) consisting of a cooling chamber (9a) provided with heat exchanger surface (9d) as well as a suction duct (9b) and an outlet duct (9c) both connected to the cooling chamber (9a) is arranged in the casing, being the cooling chamber (9a) of said cooler unit (9) in connection through the suction duct (9b) and the outlet duct (9c) directly or, by means of an interconnected assembly, indirectly with the ambient atmosphere (7), while being the heat exchanger surface (9d) of the cooler unit (9) adjacent to the sterilizer chamber (2a) of the inner cabinet (2); furthermore, the electronic control unit (11) is provided with a central measurement and comparator unit (11e), being said central measurement and comparator unit (11e) arranged between the sensing unit (11b) in contact with the sterilizing chamber (2a) and the control unit (11a) suitable to control the operation of the heat radiator subassembly (4).

Description

A feature of the invention is that the cooling unit (9) is provided in the housing (1) with a cooling space (9a) having a heat exchange surface (9d) and a suction opening (9b) and an outlet (9c) connected to the cooling space (9a). 9) its cooling space (9a) is connected directly to the ambient air space (7) via the suction opening (9b) and the outlet opening (9c) or via a transfer assembly, while the heat exchanger surface (9d) of the cooling unit (9) ), the electronic control unit (11) has a central measuring and comparing unit (Ile), and the central measuring and comparing unit (Ile) is in contact with the germination space (2a), and a control unit (11a) adapted to control the operation of the radiator assembly (4).

Characteristic figure number: Figure 1

Ρ95 00189 t —--_ (VIII. 1995) by: PATINORG

PUBLICATION LITERATURE

KFT., Budapest

SERVICE INVENTION

Hölégsterilizátor

ESI'50 Trading and Service Ltd., Budapest (. RtQ

The inventors:

BALÁSI Álmos, Budapest (Uö) Dr. Istvánná Nicodemus, Budapest (i-lb) 15% 35% 25% 25% LEGMAN Roland, András ZSURKA, Oradea Oradea (RO) (RO) Date of filing: 1995 . 01/23/2017

BACKGROUND OF THE INVENTION The present invention relates to a hot air sterilizer comprising a housing, an in-house cabinet having an airtight sealing space for germination, a radiator assembly, an electronic control unit for operating the radiator assembly, and an air mixer assembly comprising a motor and The heating space is connected to the germination space and the rotary axis of the air mixing unit is connected to one or more turbine blades extending into the heating space.

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In some areas of industry and agriculture, but especially in human and animal health, especially in medicine, surgery and laboratories, disinfection of reusable devices is essential during surgery and testing.

Several methods and devices for sterilizing aids, instruments and materials have been developed. These include gas, steam and hot air sterilizers.

The essence of hot air sterilizers is to place the objects to be treated in an airtight enclosure and to increase the temperature of the enclosure air significantly. Exposure to the microorganisms in and around the objects will result in the sterilization of the devices as a result of the high temperature treatment for a defined period of time.

However, the known equipment has the disadvantage that the required sterilization temperature - since the warm-up time is highly dependent on the amount of articles to be handled and their inertness cannot always be accurately set - remains below the desired value and cannot be kept within the required time, Thus, in some cases, germination is not achieved, which can lead to serious infections, complications and, in extreme cases, human lives, particularly in the case of equipment and materials used in hospital operating rooms.

A further disadvantage is that, in order to sterilize the devices placed in the disinfection space, the process time is unduly prolonged, which results in increased energy use and thus additional costs.

It is a further disadvantage that after sterilization the reflux of the disinfectant space takes a long time due to the design defects of the known devices, which reduces the usability of the device.

• · · ·

The object of the present invention is to overcome the shortcomings of known hot air sterilization equipment and to provide a solution whereby the entire sterilization process can be automatically optimized depending on the number of devices being treated and sterilization can be carried out with high safety and the cooling time is minimized.

The inventive idea was based on the discovery that when monitoring the temperature of the germination space and changing the amount of heat absorbed in a continuous manner, and using the results obtained in a specific way to control the process, and providing the apparatus with a properly designed cooling unit, then the task can be solved.

SUMMARY OF THE INVENTION The present invention relates to a hot air sterilizer comprising: a housing, an in-house cabinet having an airtight sealing space for germination, a radiator assembly, an electronic control unit for operating the radiator assembly, and a motor and rotatable shaft assembly comprising, the radiator assembly having a heater surrounded by a heating space, the heating space communicating with the germination space, and the rotary axis of the air mixing assembly being connected to one or more turbine blades projecting into the heating space, and a cooling unit having a suction opening and an outlet opening connected to the refrigerator compartment, the cooling unit of the cooling unit being a suction opening and a openings are connected directly to the ambient air either directly or via an intermediate assembly, while the heat exchanger surface of the refrigeration unit is adjacent to the germination space of the inner cabinet, and the electronic control unit has a central measuring and comparing unit and a central measuring and comparing unit; and is inserted between a control unit for controlling the operation of the radiator assembly.

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A further feature of the hot air sterilizer of the present invention may be that the rotary shaft of the air mixing unit is passed through the cooling space of the cooling unit and that one or more fan blades are mounted on the rotating shaft portion in the cooling space of the cooling unit.

In a further variant of the hot air sterilizer, the heating space is provided with an air deflector body located in the vicinity of the heater, and an inlet opening for introducing the heated heat transfer medium into the germination space in a portion of the air deflector body adjacent to the turbine blades.

In an embodiment, it is advantageous to have a spacer on the side of the inlet opening on the side of the germination space. The motor of the mixing unit is located in the cooling space of the cooling unit. The sensor assembly is made of platinum.

The design of the invention has several advantages. Most importantly, thanks to its innovative design, the temperature of the germinating space, regardless of the size and thermal properties of the objects contained therein, can be automatically, accurately and optimally heated to the desired temperature so that the temperature of the germinating space reaches the required level for safe sterilization.

In addition to this advantage, the desired temperature can be maintained for a long time, which is a prerequisite for reliable sterilization. These beneficial properties significantly reduce the chances of infections caused by dismantled devices in both the human and animal health sectors.

A further advantage is that the auto-inflation due to the novel design and the accelerated cooling due to the significantly different design significantly reduces the time of the sterilization process, which leads to a reduction in energy consumption and an increase in the utilization of the device.

• · • ·

It is also beneficial that the new solution enables the process control of the equipment, which eliminates the possibility of human error and omission, thus further increasing the reliability and reliability of the device and simplifying its handling.

Another advantage is that the equipment can be manufactured by conventional means and technology, and its assembly, maintenance and cleaning are simple.

The invention will now be described in more detail with reference to an exemplary embodiment, based on the drawing. In the drawing it is

Figure 1 is a side elevational view of a variant of the pattern, a

Figure 2 is a block diagram of the actuator electronics.

Figure 1 shows a preferred embodiment of the hot air sterilizer. It can be seen that the housing 1 contains the inner cabinet 2, the radiator assembly 4, the electronic control unit 11 and the cooling unit 9. The inside of the housing 1 is lined with a heat-insulating insert 8.

The inner cabinet 2 comprises a germination space 2a, which is sealed from the ambient air space 7 by means of the door la and the sealing pad 3 fitted to the door la. In the present embodiment, the heating space 2b also forms part of the germination space 2a of the inner cabinet 2.

In the heating space 2b there is located a radiator assembly 4 consisting of an annular heater 4a and an air deflector 4b separating the heating space 2b from the germination space 2a. In the air deflector body 4b, which is here a single plate with bent ends, the inlet 4c is formed.

As shown in Figure 1, the inlet 4c is located in the vicinity of the turbine blade 6 mounted on the rotary shaft 5b of the motor 5a of the air mixing unit 5 and the spacer 4d is fixed on the side of the inlet 4c on the germination space 2a.

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The inlet 4c allows the heated fuel to be introduced from the heating space 2b to the germination space 2a. It is the function of the spacer 4d to prevent the objects to be sterilized from being pressed into the inlet 4c, thereby reducing the amount of heating medium introduced into the germination space 2a, which could lead to a reduction in efficiency.

Fig. 1 also shows the cooling unit 9, which in this variant consists partly of the cooling space 9a in the inner cabinet 2, the suction opening 9b and the outlet opening 9c connected to the cooling space 9a. The heat exchanger surface 9d of the cooling space 9a of the cooling unit 9 is adjacent to the heating space 2b.

The motor 5a of the mixing unit 5 is also located in the cooling space 9a. The rotary axis 5b of the motor 5a is also guided through the cooling space 9a. In the part of the rotary shaft 5b adjacent to the heat exchanger surface 9d of the cooling space 9a, the fan blade 10 is mounted on the rotating shaft 5b, which is intended to circulate free air entering the ambient air space 7.

Of course, the housing 1 also includes an electronic control unit 11 which controls the operation of the hot air sterilizer but is not shown in this figure.

Figure 2 illustrates a block diagram of the electronic control unit 11. The control unit 11a is in direct communication with the display unit lld and the actuator unit 11c, as well as with the heater 4a and the central measuring and comparison unit Ile.

The Ile central measuring and comparison unit, on the other hand, is connected to the sensor unit 11b, which is a platinum sensor and its function is to continuously measure the temperature in the germination space 2a of the inner cabinet 2 and to transmit the value to the Ile central measuring and comparison unit.

During operation of the hot air sterilizer according to the invention, the means for disinfection through the door 1a of the housing 1 are inserted * 4 weeks into the germination space 2a of the inner cabinet 2. The actuator 11c can then be set to the desired parameters, such as sterilization temperature and duration, and then the device switched on.

After switching on, the heater body 4a of the radiator unit 4 heats the air in the heating space 2b, which is driven by the turbine blades 6 connected to the air mixing unit 5 and blown into the germination space 2a through the inlet 4c of the air deflector body 4b.

In the hermetically sealed decontamination space 2a, the air is flowing and returns to the heating space 2b along the curved edges of the air deflector 4b, where it is heated further in the vicinity of the heater 4a.

The temperature of the circulating air, which is becoming increasingly hot, is received by the sensor unit 11b and transmitted to the central measuring and comparison unit Ile. The Ile Central Measurement and Comparison Unit, which has a microprocessor, processes the received data and, in accordance with the values obtained from the dense sampling, instructs the control unit 11a to turn on and off the heater body 4a and the air mixer unit 5a. engine.

The central measuring and comparison unit Ile determines not only the temperature of the germination space 2a, but also, unlike known devices, the objects in the germination space 2a on the basis of the obtained temperature values and power readings between each sampling time. and the sterilization time only begins to count when the core temperature is the same as the sterilization temperature.

At the end of the prescribed time period, to indicate the central measuring and comparison unit Ile, the control unit 11a stops the operation of the radiator unit 4 and starts the fan 10.

4 »i« · ♦ · * · «· · · · · · · · · · · · · · · · · · · · · · ·

- movement of blades 8 which draw cooler air into the cooling space 9a of the cooling unit 9.

Cold air from the ambient air space 7 to the heat exchanger surface 9d of the cooling space 9a cools the heat exchange surface 9d and the heating space 2b associated with this germination space 2a. Due to the flow heat exchange on both sides of the heat exchange surface 9d, the hot air in the germination space 2a is reduced to the allowable temperature within a short time and sterilized objects can be removed from the germination space 2a.

An important advantage of the embodiment shown is that the motor 5a, which is located in the cooling space 9a of the cooling unit 9, is continuously cooled, which results in a significantly longer service life.

The hot air sterilizer of the present invention is well suited for performing any de-gassing process.

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- 9 PATENT CLAIMS

Claims (3)

PATENT CLAIMS 1. A hot air sterilizer comprising a housing, an in-house cabinet having an airtight germination space, a radiator assembly, an electronic control unit operable for the radiator assembly, and a heat exchanger assembly comprising a motor and a rotary shaft coupled to the motor; the heating space is connected to the germination space, and the rotary axis of the air mixing unit is connected to one or more turbine blades extending into the heating space, characterized in that the housing (1) has a cooling space (9a) having a heat exchange surface (9d); a cooling unit (9) having a suction opening (9b) and an outlet opening (9c) connected to the cooling space (9a), the cooling space (9a) of the cooling unit (9a) being arranged by the suction opening (9b) and the outlet opening (9c) n is connected directly or via an intermediate assembly to ambient air space (7), while the heat exchanger surface (9d) of the cooling unit (9) is adjacent to the germination space (2a) of the inner cabinet (2); The central measuring and comparing unit (Ile) is inserted between the sensor unit (11b) in contact with the germination space (2a) and the control unit (11a) for controlling the operation of the radiator unit (4). Hot air sterilizer according to Claim 1, characterized in that the rotary shaft (5b) of the air mixing assembly (5) is passed through the cooling space (9a) of the cooling unit (9a), the rotating shaft (5b) being in the cooling space (9a) of the cooling unit (9). and one or more fan blades (10) mounted on its section. A hot air sterilizer according to claim 1 or 2, characterized in that the heating space (2b) is provided with an air deflector (4b) located in the vicinity of the heater (4a) adjacent to the air deflector (4b) with the turbine blades (6). rain