JP2022143985A - Constant temperature storage and initialization method of clothing with heat insulating material - Google Patents

Abstract

To provide a constant temperature storage for initialization of clothing with heat insulating material at working sites to solve the problem that clothing with heat insulating material cannot function to cool or warm the body when the temperature of the heat insulating material is close to body temperature and such used clothing with heat insulating material must be initialized to adjust the temperature of the heat insulating material to a suitable temperature.SOLUTION: A constant temperature storage to heat or cool clothing with heat insulating material which has a body with heat insulating material, a temperature controller for adjusting the temperature inside the body and a sterilization-deodorizer that sends active substances with sterilization-deodorization capabilities into the body can initiate clothing with heat insulating material at work sites.SELECTED DRAWING: Figure 2

Description

There is an application for the application of Article 30, Paragraph 2 of the Patent Law Exhibition name: Weather / Climate Business WEEK 2020 (Summer)-Osaka-6th Cool down in the heat! Extreme heat countermeasure exhibition Exhibition date: July 29th to 31st, 2020, Posting date: October 8, 2020 Posting address: https://built. it media. co. jp/bt/articles/2009/29/news161. html

TECHNICAL FIELD The present invention relates to a constant temperature chamber for initializing a state in which clothes with a heat insulating material attached can be put on, and a method for initializing the constant temperature chamber.

In seasons such as summer and winter when people are not comfortable just wearing clothes, it is necessary to cool or warm the body when working outdoors. Conventionally, therefore, jackets (clothes) with pockets for insulating material on the chest and back have been used. In summer, the heat insulating material is cooled, and in winter, the heat insulating material is warmed and used to alleviate hot air and cold air.

In recent years, work clothes with small fans on the flanks have also been used, especially for summer, and in combination with a jacket (clothing) with a heat insulating material, it is quite comfortable even outdoors in the scorching sun. can spend

Here, in the case of clothing with a heat insulating material attached, the effect can be obtained only by setting the temperature of the heat insulating material to match the purpose of use. Specifically, the heat insulator is cooled in summer and warmed in winter. In other words, unless the heat insulating material is kept cool in the summer and warm in the winter, the clothing fitted with the heat insulating material will not exhibit its effect. Therefore, such a state is called "initialization of the clothing to which the heat insulating material is attached". With the passage of time, the heat insulating material attached to the initialized heat insulating material will become about the body temperature, and the wearer will not be able to give coldness in the summer and warmth in the winter.

In order to initialize the clothing on which the heat insulating material is attached, it is necessary to cool or warm the heat insulating material to a predetermined temperature. In general, a garment with a heat insulator is provided with a pocket for attaching not one heat insulator but a plurality of heat insulators. Therefore, it is necessary to remove a plurality of thermal insulation materials for each garment and cool or warm them each time the garment is initialized. However, when working outdoors, it is not a comfortable procedure to remove and replace the insulation each time it is initialized.

The most preferable procedure is to prepare a constant temperature chamber for initialization at the work place and change the initialized clothing with heat insulating material in the constant temperature chamber on the spot. That is, clothes with a heat insulating material that have been cooled or warmed in advance together with the clothes are prepared in a constant temperature storage installed in an outdoor work place, and workers change their clothes every time the effect of the heat insulating material is weakened. For this purpose, a thermostat that can be installed outdoors is required.

Moreover, especially in the summer, even clothing with a heat insulating material absorbs the sweat of the worker. Therefore, if left as it is, there is a high possibility that odors will be emitted due to the propagation of various bacteria. Therefore, it is desirable to deodorize and disinfect the clothes on which the heat insulating material is attached. In other words, a constant temperature storage that can deodorize and disinfect the inside is required.

In Patent Document 1, a storage box body for storing clothes fitted with a heat storage element is formed to be airtight, and a cold/warm air supply mechanism is connected to a supply port of the storage box body, and the storage box body can be transported. The invention of the clothes storage box is disclosed. Also disclosed is the provision of a cold/hot air generating mechanism in the storage box body.

Japanese Utility Model Laid-Open No. 5-26875

In Patent Document 1, the temperature of the heat storage element is set to a predetermined temperature by storing the clothes with the heat storage element in the storage box body and introducing cold air or warm air into the storage box body. Therefore, it can be said that the clothing with heat insulating material is initialized. However, Patent Document 1 merely performs initialization, and does not remove odors caused by various bacteria. Therefore, under severe conditions such as construction sites in midsummer, the storage box for clothes of Patent Document 1 has a problem that the more the clothes equipped with the heat storage element are used, the more germs grow.

SUMMARY OF THE INVENTION The present invention has been conceived in view of the above problems, and provides a constant temperature storage that can be initialized after deodorizing and sterilizing clothes to which a heat insulating material is attached.

More specifically, the thermostat according to the present invention is
A constant temperature chamber that heats or cools clothing to which a heat insulating material is attached,
a main body in which a heat insulating material is used;
a temperature controller for adjusting the temperature inside the main body;
It is characterized by having a sterilization/deodorization machine that feeds an active substance having sterilization/deodorization capabilities into the inside of the main body.

In addition, the method for initializing clothing equipped with heat insulating material according to the present invention includes:
A method for initializing clothing with a heat insulating material attached in a closed constant temperature chamber, comprising:
a step of drying the clothing on which the heat insulating material is attached;
a step of sterilizing and deodorizing the covering to which the heat insulating material is attached;
It is characterized by comprising a temperature control step of keeping the heat insulating material attached to the clothing to a predetermined temperature.

The thermostat according to the present invention deodorizes and sterilizes the clothes on which the heat insulating material is attached, and then cools or heats the clothes to a predetermined temperature. Therefore, it is possible to wear the deodorized and sterilized clothes on which the heat insulating material adjusted to the predetermined temperature is attached at the work site.

Also, active substances for deodorizing and sterilizing are often weakly acidic or weakly alkaline. These active substances then corrode the temperature controller itself. Therefore, by having a control device that controls to ventilate the interior of the constant temperature chamber and exhaust the active substance immediately before using the temperature control device, there is an effect that the deterioration of the temperature control device can be suppressed.

It is a figure which shows the cross section of a constant temperature chamber. It is a figure which shows the operation example of a constant temperature chamber. FIG. 4 is a conceptual diagram showing how the constant temperature chamber performs drying operation and sterilization/deodorization operation. FIG. 4 is a conceptual diagram showing how the constant temperature chamber performs drying operation and cooling operation. It is a figure which shows the modification of a constant temperature chamber. FIG. 6 is a conceptual diagram showing how the constant temperature chamber of FIG. 5 performs drying operation and sterilization/deodorization operation. FIG. 6 is a conceptual diagram showing how the constant temperature chamber of FIG. 5 performs drying operation and cooling operation. FIG. 6 is a conceptual diagram showing how the constant temperature chamber of FIG. 5 circulates air in the chamber using a ventilator during disinfection/deodorization operation.

The constant temperature chamber and the initialization of the clothes with the heat insulating material according to the present invention will be described below with reference to the drawings. In addition, the following description illustrates one embodiment of the present invention, and the present invention is not limited to the following description. The following description can be modified without departing from the spirit of the invention. In addition, the "clothing with heat insulating material" is also called "clothing with heat insulating material" or "best".

FIG. 1 shows a sectional view of a constant temperature chamber 1 according to the present invention. The constant temperature chamber 1 has a main body 10 , a temperature controller 12 , a sterilizer/deodorizer 14 , a dryer 16 , a ventilator 18 and a controller 20 . The controller 20 controls at least the temperature controller 12 , the sterilizer/deodorizer 14 , the dryer 16 , and the ventilator 18 . The constant temperature chamber 1 can be installed both indoors and outdoors. In the case of outdoor installation, the constant temperature chamber 1 itself and each device other than the sterilization/deodorizer 14 should have a waterproof structure.

<Body>
The main body 10 has a floor 10a, walls 10b, and a ceiling 10c made of heat insulating material. A rectangular parallelepiped shape is preferable, but the shape is not limited to this shape. The size may be larger than that, as long as the size is sufficient for hanging a plurality of clothes 40 with heat insulating materials 42 . Hereinafter, the "clothing 40 with the heat insulating material 42" will be referred to as the "vest 40". Moreover, the inside of the main body 10 is also called "inside 10i".

Casters or wheels 11 are preferably mounted on the bottom surface 10ad (below the floor 10a). This is because it is easy to carry when installed outdoors.

The main body 10 is provided with a door 10d. The door 10d is also made of heat insulating material. This is for taking in and out the best 40. The door 10d is configured so that the main body 10 can be airtightly closed.

In addition, the body 10 is provided with an air pressure adjustment valve 10v. This is because the inside 10i may be lower in temperature than the outside, and the door 10d may not open due to the pressure difference with the outside. The air pressure regulating valve 10v may have a mechanism that introduces outside air when the internal air pressure becomes lower than the outside air pressure and discharges the inside air to the outside when the internal air pressure becomes higher than the outside air pressure. That is, it can also serve as an intake port and an exhaust port for outside air. From the viewpoint of preventing air short-circuiting, it is preferable to install it on the wall surface away from the inside air inlets of the dryer 16 and the ventilator 18, which will be described later.

<Dryer>
A dryer 16 is provided on the top surface of the main body 10 . The dryer 16 supplies low-humidity air Wd to the interior 10i. The dryer 16 dries while circulating the air in the inside 10i. The "low-humidity air Wd" may be air having a humidity lower than that of the inside 10i. This is because the purpose is to lower the humidity in the inside 10i.

<Ventilator>
A ventilation device 18 is provided on the top surface of the main body 10 . The ventilator 18 sucks the air Wi in the inside 10i of the refrigerator and discharges it to the outside of the main body 10 as the exhaust air We. The ventilator 18 is usually composed of a fan, but is not limited to this.

<Temperature controller>
The constant temperature chamber 1 is equipped with a temperature controller 12. - 特許庁The temperature controller 12 may be placed anywhere. In order to reduce the floor space occupied by the constant temperature chamber 1, it is preferably arranged on the upper surface 10cu of the constant temperature chamber 1 (the upper surface of the ceiling 10c). The temperature controller 12 is preferably one that can keep the inside of the main body 10 at a low temperature and a high temperature. The temperature controller 12 converts the temperature of the air Wi to a predetermined temperature while internally circulating the air Wi in the interior 10i. Preferably, the temperature controller 12 can adjust the air Wi in the inside 10i between -10°C and 50°C.

<Sterilization / deodorization machine>
The sterilization/deodorizer 14 generates an active substance for sterilizing the vest 40 hung inside the main body 10 . The active substance is not particularly limited as long as it has sterilizing and deodorizing effects. A gas containing hypochlorous acid or ozone, a mist containing sesquiterpene, or the like can be suitably used. In particular, gases and mists containing hypochlorous acid with high sterilizing power and hypochlorite ions with high deodorizing power are preferable in terms of safety to the human body and cost. For example, Ziaino (registered trademark) can release both hypochlorous acid and hypochlorite ions and can be suitably used.

Accordingly, an active material source tank (not shown) for the active material may be provided in the sterilization/deodorization machine 14 . The active substance raw material tank may store the active substance itself or may store materials for producing the active substance. In addition, there may be a plurality of types of raw materials for the active substance.

The sterilization/deodorization device 14 may be configured to emit mist containing an aromatic agent for masking odors. This is called an aromatic substance. Therefore, the sterilization/deodorization machine 14 may have an aromatic material raw material tank (not shown).

The sterilization/deodorizer 14 has a discharge port 14a for discharging the active substance and the aromatic substance, and an intake port 14b for sucking the air Wi in the inside 10i.

<Control device>
The control device 20 controls the operation of the constant temperature chamber 1 . A thermo-hygrometer 26 is provided inside the refrigerator 10i, and the control device 20 can know the temperature and humidity inside the main body 10. FIG. The controller 20 is also connected to the temperature controller 12, the sterilizer/deodorizer 14, the dryer 16, and the ventilator 18, and controls their respective operations. Further, the control device 20 has an internal timer. Therefore, operation based on a timer is possible.

<How to use the constant temperature storage>
The constant temperature chamber 1 is arranged at an outdoor work site or in a factory. This is because it is easy for workers to use. Since the constant temperature chamber 1 requires a power source, it is necessary to secure a power source even if it is placed outdoors. In addition, the sterilization/deodorization machine 14 is replenished with raw materials for active substances and deodorant/fragrant substances.

In the constant temperature chamber 1, the vest 40 is cooled or heated in the chamber 10i, and the worker wears it under his work clothes during daytime work. A temperature difference with the outside air is absorbed by the heat insulating material 42 to ensure a comfortable temperature inside the work clothes. The heat insulating material 42 can be used continuously for 4 to 5 hours. Therefore, two sets of clothes 40 (best 40) with heat insulating materials 42 for the morning and afternoon are prepared in the constant temperature chamber 1 for each worker. The user's comfort is ensured by changing clothes in the morning and afternoon. When the vest 40 is initialized, the constant temperature chamber 1 can be processed while keeping the heat insulating material 42 and the clothing 40 together, which is extremely convenient.

FIG. 2 illustrates an operation pattern of the constant temperature chamber 1. As shown in FIG. Here, a case where the outside air is hot will be described. Therefore, the initialization of the clothing 40 with the heat insulating material 42 means that the heat insulating material 42 is cooled to a predetermined low temperature state (1° C. to 20° C.). Also, "operation" can be read as "process". Horizontal bars represent time from 0:00 to 24:00. Two sets of vest 40 are prepared in advance for each person. These are called the best 40 of the first group and the best 40 of the second group.

First, the timing of delivery and receipt of the Best 40 will be explained. The vest 40 of the first group initialized at 8:00 am is taken out of the constant temperature chamber 1 (taken out), put on, and work is performed. At 12:00 noon, the best 40 of the first group are returned to the constant temperature chamber 1 (receiving).

Next, at 13:00, the initialized vest 40 of the second group is taken out (taken out) from the thermostatic chamber 1 and used. As will be described later, the cooling operation P4 is continued until before leaving the garage at 13:00, and initialization of the vest 40 is maintained. The work is finished at 18:00, and the vest 40 is returned to the constant temperature chamber 1. By doing so, the user can work comfortably both in the morning and in the afternoon while wearing the initialized vest 40 .

Next, the operation of the constant temperature chamber 1 will be explained. At 18:00, the best 40 of the first group and the second group are all returned to the constant temperature chamber 1. Therefore, the controller 20 starts the drying operation P1 at 18:00. Drying operation P1 operates dryer 16 and ventilator 18 . FIG. 3(a) shows the flow of air in the main body 10. As shown in FIG. The dryer 16 sucks the high-humidity air Wi inside the main body 10 and blows out the low-humidity air Wd into the main body 10 . At the same time, the ventilator 18 discharges the air Wi inside the main body 10 as the exhaust We.

At this time, adjusting air Wb enters the main body 10 from the pressure regulating valve 10v in order to make the air pressure inside the main body 10 the same as the outside air pressure.

Therefore, dew condensation is likely to occur on the cold wall surfaces inside the main body 10 . In addition, it is difficult to disinfect and deodorize the vest 40 that is wet with sweat. Therefore, the purpose of the drying operation P1 is to dry the vest 40 before dew condensation is suppressed by removing the moisture inside the main body 10 and disinfection/deodorization is performed. FIG. 2 shows how the drying operation P1 is performed for one hour.

Next, the sterilization/deodorization operation P2 is performed (see FIG. 2). FIG. 3(b) shows the air flow during the sterilization/deodorization operation P2. In the sterilization/deodorization operation P2, air flow from the temperature controller 12, dryer 16 and ventilator 18 is stopped. Then, the main body 10 is filled with the active substance Am by the sterilization/deodorizer 14 . More specifically, the active substance Am is discharged from the discharge port 14a, and the air Wi inside the refrigerator 10i is sucked from the suction port 14b. The sucked air Wi is made to contain the active substance Am again and is discharged from the discharge port 14a. That is, the main body 10 is filled with the active substance Am by the sterilization/deodorizer 14 while air is circulated.

The sterilization/deodorization operation P2 is operated until the concentration of the active substance Am in the main body 10 reaches a certain level. This concentration depends on the active substance used.

Referring to FIG. 2 again, in the sterilization/deodorization operation P2, the sterilization/deodorization machine 14 is operated for one hour and then left for one hour (P2r). In this manner, after the operation of the sterilization/deodorizer 14, the inside 10i may be left for a certain period of time. By doing so, the active substance Am is permeated into the vest 40, and the sterilization and deodorization effects are enhanced. Note that the standing time P2r may be omitted. This is because vest 40 has been exposed to the active substance Am for a period of time.

Next, the drying operation P3 is performed again. The air flow at this time is shown in FIG. The dryer 16 sucks the high-humidity air Wi inside the main body 10 and blows out low-humidity air Wd into the main body 10 . At the same time, the ventilator 18 exhausts the air Wi inside the main body 10 as exhaust We. The purpose of the drying operation P3 after the sterilization/deodorization operation P2 is to exhaust the active substance Am filling the interior of the main body 10 and to remove the active substance Am adhering to the vest 40 .

The active substance Am may contain water, and the low-humidity air Wd from the dryer 16 also removes the water adhering to the active substance Am and the vest 40 .

Referring to FIG. 2 again, after the second drying operation P3 is finished, the cooling operation P4 is started. FIG. 4(b) shows the flow of cool air Wc. Cold air Wc is jetted into the main body 10 from the temperature controller 12, and the temperature controller 12 sucks the air Wi in the inside 10i. The temperature controller 12 releases the heat of the inside 10i to the outside of the main body 10 while circulating the air Wi in the inside 10i.

The vest 40 is initialized by this cooling operation P4. That is, here, it is cooled down to a predetermined low temperature. Initialization varies depending on the shape and size of the heat insulating material 42 of the vest 40 and the cooling temperature, but it can be initialized to a predetermined temperature usually in about 5 to 8 hours at night. That is, the temperature of the interior 10i is set to a temperature slightly lower than the freezing point of the heat insulating material 42 (freezing point temperature −1° C. to 2° C.), and the initialization is performed slowly over time. By doing so, it is possible to reduce power consumption compared to rapid cooling to a temperature considerably lower than the freezing point of the heat insulating material 42 (freezing point temperature −3° C. or lower). After initialization, in order to maintain the temperature, the cooling operation P4 may be operated intermittently or continuously. Here, an example of continuous operation is shown.

Referring to FIG. 2 again, the cooling operation P4 is continued even after the best 40 of the first group leaves the garage on the next day. This is to keep the vest 40 of the second group cool (initialized). Then, when the best 40 cars of the second group have finished leaving the garage, the cooling operation P4 is stopped. After that, the cooling operation P4 is stopped until the second ventilation/drying is completed.

As described above, the vest 40 is returned to the inside 10i, and the sterilization/deodorization operation P2 is performed before moving to the next cooling operation P4. It doesn't even issue. In addition, before the sterilization/deodorization operation P2, the drying operation P1 is performed to raise the temperature of the vest 40, so that odorous substances such as sweat are volatilized from the vest 40. It can promote the deodorizing effect. Furthermore, since the drying operation P3 is also performed after sterilization and deodorization, the active substance adhering to the vest 40 can be removed during the sterilization and deodorization. Moreover, the drying operation P3 after the sterilization/deodorization operation P2 also serves to remove the active substance adhering to the inside of the main body 10 .

In the above description, it is assumed that the vest 40 is cooled when the outside air is hot. When the outside air is cold, the "cooling operation P4" is replaced with the "warming operation", and warm air is supplied from the temperature controller 12 instead of the cool air Wc. In that case, the drying operation P1 before the sterilization/deodorization operation P2 can be omitted, and the drying operation P3 mainly for ventilation is performed before the heating operation.

<Modification>
FIG. 5 shows a modification of the constant temperature chamber of the present invention. The constant temperature chamber 2 has substantially the same configuration as the constant temperature chamber 1 . That is, the main body 10, the temperature controller 12, the sterilizer/deodorizer 14, the ventilator 18, and the controller 20 are the same as those of the constant temperature chamber 1. FIG. The constant temperature chamber 2 has a heater 22 instead of the dryer 16, and has a different exhaust path.

In the constant temperature chamber 2, the ventilation exhaust pipe 18b of the ventilation device 18 is connected to the heater 22. As shown in FIG. The heater 22 heats the exhaust from the ventilation exhaust pipe 18b and discharges it to the ventilation exhaust pipe 18c. The operation of the heater 22 is controlled by the controller 20 . The ventilation exhaust pipe 18c from the heater 22 communicates with a branch portion 24a on the side of the communication exhaust pipe 24. As shown in FIG. The communicating exhaust pipe 24 is a cylindrical body with both ends open, one end communicating with the interior 10i and the other end open to the atmosphere outside the main body 10 .

The communication exhaust pipe 24 is provided with a semi-fixed valve 24sv on the atmosphere side of the branch portion 24a. The semi-fixed valve 24sv is fixed at a preset opening degree. Of course, the degree of opening can be changed.

Motor dampers MD1, MD2, and MD3 are provided on the suction pipe 18a communicating with the inside 10i of the ventilation device 18, and on the inside 10i side and the atmosphere side of the communicating exhaust pipe 24, respectively. The motor dampers MD1, MD2 and MD3 are opened and closed according to instructions from the controller 20. FIG.

The operating state of the constant temperature chamber 2 configured as described above is shown. FIG. 6(a) shows the state of the drying operation P1 before the sterilization/deodorization operation P2 of FIG. First, the motor dampers MD1, MD2, and MD3 are all open (communicated). The ventilator 18 sucks the air Wi inside the refrigerator 10i and sends it to the ventilation exhaust pipe 18b. The heater 22 heats the air Wi from the ventilator 18 and sends it to the ventilation exhaust pipe 18c.

The heated air Wi is split at the branch portion 24a of the communication exhaust pipe 24 into the inside 10i side and the atmosphere side. The split flow ratio at this time is determined by the degree of opening of the semi-fixed valve 24sv. The heated air Wi flowing toward the inside 10i is supplied to the inside 10i as dry air Wd. The remainder passes through the semi-fixed valve 24sv, passes through the motor damper MD3, and is released to the atmosphere as exhaust gas We. As described above, the simultaneous operation of the ventilator 18 and the heater 22 can be said to be operation of a "dryer".

FIG. 6(b) shows the state of the disinfection/deodorization operation. In this case, the motor dampers MD1, MD2 and MD3 are all closed (closed state). Then, the sterilization/deodorization machine 14 is operated, and the inside 10i is filled with the active substance. This operating state is the same as in the constant temperature chamber 1 (FIG. 3(b)).

FIG. 7(a) shows the state of the drying operation P3 after the sterilization/deodorization operation P2. This operation is similar to the case of FIG. 6(a). Air Wi in the inside 10i of the refrigerator is sucked by the ventilator 18 and warmed by the heater 22. - 特許庁Then, part of it returns to the inside 10i, and the rest is released to the atmosphere. A part of the air Wi in the inside 10i may be released to the atmosphere before being heated by the heater 22, so that the power consumption of the heater 22 can be suppressed.

FIG. 7(b) shows the case of the cooling operation P4. In the cooling operation P4, the motor dampers MD1, MD2, MD3 are all closed (closed state). The operation of the temperature controller 12 is the same as in the constant temperature chamber 1 (FIG. 4(b)).

FIG. 8 shows a case where the ventilation device 18 is used to forcibly circulate the air Wi in the interior 10i while the constant temperature warehouse 2 is in the sterilization/deodorization operation P2. In this case, the motor dampers MD1 and MD2 are in a communicating state, and the motor damper MD3 is in a closed state. By operating the sterilization/deodorizer 14, the active substance Am circulates in the inside 10i.

Here, the ventilating device 18 sucks the air Wi in the inside 10i of the refrigerator and discharges all of it again from the communication exhaust pipe 24 to the inside 10i of the refrigerator, thereby generating even stronger air circulation. By increasing the chances of the air containing the active substance more strongly adhering to the vest 40, the sterilization and deodorization effects can be enhanced.

As described above, the constant temperature chamber 1 can be initialized after the used clothing 40 with the heat insulating material 42 is disinfected and deodorized.

The thermostat according to the present invention can be suitably used for initializing the clothing 40 with the heat insulating material 42 attached.

1 Constant temperature chamber 2 Constant temperature chamber 10 Main body 10a Floor 10ad Bottom surface 10b Wall 10c Ceiling 10d Door 10i Interior 10v Atmospheric pressure control valve
10 cu Upper surface 11 of constant temperature chamber 1 Wheel 12 Temperature controller 14 Sterilizer/deodorizer 14a Discharge port 14b Suction port 16 Dryer 18 Ventilator 18a Suction pipe 18b Ventilation exhaust pipe 18c Ventilation exhaust pipe 20 Controller 22 Heater 24 Communication exhaust pipe 24a Branch portion 24sv Semi-fixed valve 26 Thermo-hygrometer 40 Clothing
42 insulation material 40 vest
Wd Low-humidity air Wi Air in chamber 10i We Exhaust air Am Active substance P1 Drying operation Wb Adjusting air P2 Sterilization/deodorization operation P3 Drying operation
P4 Cooling operation MD1, MD2, MD3 Motor damper

Claims (6)

A constant temperature chamber that heats or cools clothing to which a heat insulating material is attached,
a main body in which a heat insulating material is used;
a temperature controller for adjusting the temperature inside the main body;
A thermostatic chamber characterized by having a sterilization/deodorization machine for sending an active substance having sterilization/deodorization capabilities into the interior of the main body. Additionally dryers and ventilators and
Having a control device for controlling the dryer, the temperature controller, and the sterilization/deodorizer,
The control device is
2. The constant temperature chamber according to claim 1, wherein the sterilization/deodorization device is operated before the temperature controller is operated. The control device is
3. The constant temperature chamber according to claim 1, wherein said dryer is operated before said sterilization/deodorizer is operated. The control device is
4. The constant temperature chamber according to any one of claims 1 to 3, wherein the dryer is operated after the sterilization/deodorization machine is operated. A method for initializing clothing with a heat insulating material attached in a closed constant temperature chamber, comprising:
a step of drying the clothing on which the heat insulating material is attached;
a step of sterilizing and deodorizing the covering to which the heat insulating material is attached;
A method for initializing a garment fitted with a heat insulating material, comprising a step of adjusting the temperature of the heat insulating material to a predetermined temperature while the heat insulating material is attached to the clothes. Furthermore, it has a step of drying the inside of the constant temperature chamber immediately before the temperature adjustment step,
The step of disinfecting and deodorizing
6. The method for initializing clothes fitted with a heat insulating material according to claim 5, wherein the step of generating an active substance having sterilizing and deodorizing properties in the constant temperature chamber.

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