KR20200004109A - Corpse treatment and cremation system using frozen moisture sublimation method - Google Patents

Abstract

The present invention relates to a corpse treatment and cremation system, which has a structure that can be operated either by temporary installation or mobile manner in a situation where it is not easy to expand conventional crematoriums and cremation furnaces, and is applied with a freeze-moisture sublimation method capable of significantly reducing the fuel and time through a treatment that reduces pollutant emission while easily spreading heat inside a cremation furnace and prevents deformation of a corpse before cremation while reducing moisture.

Description

Body treatment and cremation system using frozen moisture sublimation method

The present invention relates to a body treatment and cremation system for the treatment of the body, and in detail, it has a structure that can be temporarily installed or removable in the situation that the expansion of conventional crematory and cremation, easy to spread heat inside the cremation The present invention relates to a body treatment and cosmetic system applying a freeze water sublimation method that can reduce pollutant emissions and prevent deformation of the body before the cremation while significantly reducing fuel and time input through treatment.

The cremation method, which burns dead bodies and treats them with fire, is gradually replacing the burial culture of Confucian customs with the change of social and cultural environment, especially the expansion of living areas, farmland and forestry due to population expansion. As the absolute area of the cemetery is decreasing due to the securing of area, the demand for cremation is increasing rapidly.

Such cremation should be done at designated crematory as toxic gases, odors, and dusts such as carbon monoxide and dioxin are released due to incomplete combustion during body cremation, and generally the ashes collected in bodies or burial places in mortuaries are covered. After moving to the crematorium operated by the local government, they will be cremated and placed in the ossuary.

Currently, there are about 248 cremators in Korea with about 43 crematoriums nationwide. In recent years, the demand for cremation is higher than that of stores, and the demand is growing unsatisfactorily. The time required for cremation is about 2 to 3 hours. Difficulties can be a major stumbling block for funeral proceedings.

Due to these problems, demands for the construction of crematoriums and the addition of crematoriums have been invented. However, these cremators have been recognized as hate and evasion facilities.

According to this situation, the plan to accommodate the need for cremation without new construction or expansion of the cremation facility was also considered. It has been used for treating companion animal carcasses because it is low and the dust collection performance of the pollutants generated during combustion is low, and it has not been commercialized for the purpose of natural body makeup.

Publication No. 10-2013-0080646 (2013.07.15) Patent Registration No. 10-1286601 (2013.07.10) Patent Registration No. 10-1286604 (2013.07.10)

The present invention was created in order to solve the above problems, the object of the present invention has a structure that can be temporarily installed or removable operation, easy to spread the heat inside the toilet while suppressing the discharge of pollutants, the body of the pre-cosmetic It is to provide a body treatment and cremation system applying a freeze water sublimation method that can significantly reduce the fuel and time introduced through the process of reducing deformation while reducing moisture.

The body treatment system to which the present invention is applied to the freeze-sublimation method for the above purpose is the body is placed, but a plurality of protrusions formed to protrude to form a space between the upper side and the seated body, and discharged to the outside by sweeping the bone after make-up A treatment table in which grooves are formed so as to be possible; It is provided with a treatment space of the heat-sealed sealed structure to accommodate the body, the cooling unit for maintaining the inside of the treatment space below the freezing point, the air in the treatment space is discharged to the outside to the level where sublimation occurs in the frozen body A pretreatment furnace including a decompression unit for depressurizing the inside of the processing space, and a dehumidifying unit for removing moisture in the processing space, for pretreating the body by a freeze-sublimation method; An air cleaner to sterilize and disinfect air in the treatment space sucked through the decompression unit to be discharged to the outside; Characterized in that consists of.

In addition, the present invention makeup system has a first combustion section that is installed with a first stage burner to which the pre-treated body in the state placed in the treatment table is placed and the first burner flame is injected to the body side inserted into one side, and the first to the other side A second combustion part having a passage below the first combustion part so as to communicate with a combustion part, and having a second burner having a flame sprayed on one side thereof, and a lower side of the second combustion part to communicate with the second combustion part on one side; A cremator forming a passageway and configured to discharge air; An air cleaner for filtering combustion by-products from the air discharged from the toilet; It characterized in that it further comprises.

At this time, the treatment table is a rectangular metal or ceramic plate, it is preferable that a plurality of grooves formed in the left and right across the center portion, and a plurality of protrusions formed in the vertical direction on the upper side and the lower side, respectively, based on the groove portion. .

In addition, the pretreatment includes a pressure sensor for measuring the pressure in the processing space and a temperature sensor for measuring the temperature, a weight sensor for measuring the weight of the received body, the pressure sensor and the temperature sensor and the weight over time It is preferable to include a control unit for monitoring the cooling unit and the decompression unit so as to monitor the measured value of the sensor but decrease the ratio from the initial weight.

The air cleaner may include a UV lamp irradiated with ultraviolet rays and a TiO ₂ disposed around the UV lamp and generating O ₂ -and OH- on a surface thereof to clean, sterilize and deodorize the air. A first filter coated with a layer, a second filter coated with a MnO ₂ layer disposed on the periphery of the first filter and reducing O ₃ to 3O ₂ and O ₂ on the surface, and disposed around the second filter. The surface preferably includes a third filter coated with a reflective layer.

The present invention can be easily digested the need for cremation in the densely populated area because the number of days can be handled in a situation where it is difficult to expand the crematorium and crematorium as it is possible to install the vehicle, including temporary installation through a relatively simple structure. Make sure

In particular, the thermal efficiency can be improved, while the convenient treatment structure and the pretreatment process can remove only moisture without deforming the body, thereby reducing the makeup time and reducing fuel without rejection of the survivors.

1 is a conceptual diagram of a body treatment and makeup method according to the present invention,
2 is a perspective view showing the structure of a treatment table according to the present invention;
3 is a cross-sectional view showing the structure of the body processing system according to the present invention;
Figure 4 is a block diagram showing the configuration and connection of the body processing system according to the present invention,
5 is a structural diagram showing an air washing machine according to the present invention;
6 is a cross-sectional view showing the structure of a cremation furnace according to the present invention;
7 is a conceptual diagram showing a mortuary installation state of the body processing system according to an embodiment of the present invention,
8 is a conceptual diagram showing a vehicle mounted state according to an embodiment of the present invention;
9 is a conceptual diagram showing a state of an integrated system according to an embodiment of the present invention;
10 is a block diagram illustrating a configuration and a connection relationship of an integrated system according to an exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the body treatment and makeup system to which the present invention freeze-sublimation method.

1 is a conceptual diagram of the body treatment and cremation method according to the present invention, the present invention is basically equipped with equipment for body treatment and cremation in a situation where it is difficult to extend the conventional crematory and cremation can be utilized as a mobile It is configured to be installed and operated temporarily in a specific place. In addition, it is configured to greatly reduce the time required for the treatment and the energy input compared with the conventional method, and for this purpose, it is necessary to have a main configuration of the treatment table (1), pretreatment furnace (2), and crematory furnace (3). do.

2 is a perspective view showing the structure of a treatment table according to the present invention.

The treatment table (1) is a plate-like structure for placing the body to be treated and cremated, the body after the salt is placed on the upper side is a series of procedures until transport and make-up is made. In this way, by being put together in the pretreatment furnace 2 and the crematorium 3 to be described later in the state in which the body is placed on the treatment table 1, the time required for pretreatment or makeup can be greatly shortened.

In particular, the treatment table (1) is made of a heat-resistant material so as not to cause damage and deformation to the high temperature flame during makeup as it is put into the crematory (3), in the front and rear direction to facilitate the transport of the body, such as simple A handle may be formed, and a roller may be mounted on the lower side to facilitate the input and discharge of the pretreatment furnace 2 and the toilet 3.

In addition, a plurality of protrusions 11 are formed to protrude to form a space between the upper surface of the treatment table 1 and the settled body, and the groove 12 is formed so that the dust after the make-up can be discharged to the outside.

Specifically, the treatment table 1 is a rectangular metal or ceramic plate that does not melt at a temperature for body cremation, and includes a groove portion 12 formed to cross the center portion from side to side, and an upper side based on the groove portion 12. A plurality of protrusions 11 formed in the longitudinal direction on the lower side and the lower side are formed in the lateral direction.

This is because in the normal crematory, the bottom surface of the dead body, that is, the back part of the lying body does not come into contact with the flame, and it takes a long time for the makeup, and in some cases, the body is being cremated using an iron skewer. In order to solve the problem that the objection is raised to promote combustion overturning, since the space with the body is formed between the protrusions 11, the flame and heat are quickly transmitted through the space to make up the entire body. The time can be shortened, and by placing the treatment table 1 in the pretreatment furnace 2, the heat contact area, that is, the water removal area, can be shortened, thereby further reducing the time required for the pretreatment.

In addition, the process of sweeping the bone generated after the make-up due to such a protrusion 11 may be inconvenient and there may be a residue between the protrusions 11, in the present invention, the upper side relative to the center portion as shown in the accompanying drawings The protrusions 11 are formed on the lower side and the lower side so as to sweep the bones toward the central side, but the grooves 12 are formed to cross the center of the treatment table 1 from side to side through the grooves. It is configured to be discharged to the outside.

In the accompanying drawings, the protrusion 11 is formed higher than the surface to form a space under the body, but the same effect can be obtained by forming a space below the body by recessing a portion of the upper side, and in this case, the surface may be substantially called a protrusion. It is self-evident. In this case, the groove 12 needs to be formed deeper than the height recessed between the protrusions.

Figure 3 is a cross-sectional view showing the structure of the body processing system according to the present invention, Figure 4 is a block diagram showing the configuration and connection of the body processing system according to the present invention, the body of the state accommodated in the treatment table (1) pre-treatment The state put into the furnace 2 is shown.

In the embodiment of the present invention, through the configuration of the treatment table (1), the pretreatment furnace (2) and the air cleaner (4), it is possible to build a body treatment system to which the freeze water sublimation method is applied. The makeup system can be constructed by including the configuration of (3).

The pretreatment furnace (2) is a configuration for removing the water contained in the body before the cremation, when the makeup is maintained intact as the body is made up of about 70% of the body of the human body usually contains a large amount of Due to the moisture, the time required for make-up is long and the fuel input is inevitably increased.

Accordingly, the present invention proposes a method for pretreatment in a manner of removing only moisture while preventing the deformation of the body.

In the case of thermal drying, which is used in the general drying concept, deformation of the body may occur largely, and practical application is impossible due to the rejection of the surviving family. In the present invention, by freezing water sublimation method to freeze the body to remove only the water through vaporization in the state of maintaining the original shape to facilitate the subsequent cosmetic treatment, it is possible to apply without a sense of rejection in that the original shape of the body is maintained as it is general The concept is clearly distinguished from the drying up, especially the mummy.

The pretreatment furnace 2 for this purpose is provided with a treatment space 21 of a heat-sealed sealed structure in which the body is accommodated, and a cooling unit 22 for maintaining the inside of the treatment space 21 below the freezing point, and sublimation from the frozen body. It is provided with a decompression unit 23 for depressurizing the inside of the processing space 21 to the level occurs.

The cooling unit 22 serves as a freezer to cool the inside of the processing space 21 and the received body by flowing low temperature air through the evaporation coil and the blowing fan whose surface temperature is kept below the freezing point.

The decompression unit 23 is a vacuum pump to depressurize the inside of the processing space to a normal vacuum level by sucking and discharging the air inside the processing space 21 to the outside.

At this time, if the vacuum is first made and then frozen, foaming may occur as the water contained in the body boils, so the first step is to reduce the pressure in the frozen state. It is generated to remove only water while maintaining the appearance of the body.

At this time, the dehumidifying unit 24 which removes the water in the processing space 21 is installed between the processing space and the decompression unit, and removes and discharges the moisture in the processing space through a dehumidifying agent composed of a material which adsorbs moisture. Done.

The pressure sensor 25 for measuring the pressure in the processing space 21 and the temperature sensor 26 for measuring the temperature and the weight sensor 27 for measuring the weight of the received body as a specific configuration for removing water, The control unit 5 can monitor the freeze-moisture sublimation condition and be smoothly equipped, and monitor the measured values of the pressure sensor 25 and the temperature sensor 26 and the weight sensor 27 over time. The cooling unit 22 and the decompression unit 23 are controlled to reduce the initial weight of the injected body to a set ratio.

It may take some time for the water removal process through the pretreatment (2), but usually enough water can be removed through the time until the makeup after salting on a three-day basis. As the mortuary also stores the bodies refrigerated, this process can be linked to the pretreatment (2) to reduce the discomfort of the smooth pretreatment and a series of procedures.

In addition, since the processing space 21 is sealed during pretreatment and the body cannot be identified from the outside, an image sensor 28 capable of capturing the body placed in the processing space 21 is installed to prevent any deformation of the body. However, by monitoring the signal obtained through the image sensor 28 through the control unit 5 may be configured to restore the internal pressure and temperature according to the set procedure with the alarm output when detecting the change in the appearance of the body during the preprocessing process.

In addition, various pathogens or viruses may be present in the treatment space 21 in which the body is accommodated. In addition, the pathogens or viruses are discharged together while inhaling and discharging the air in the treatment space 21 through the decompression unit 23 to the outside. In order to prevent that, the air cleaner 4 for sterilizing and disinfecting the air of the processing space 21 sucked through the decompression unit 23 to be discharged to the outside may be provided.

The air cleaner 4 may be applied in various ways as a filter for sterilizing and disinfecting air, but in the present invention, the air cleaner 4 sterilizes and cleans harmful substances, bacteria and viruses contained in the air by a photocatalytic action. In addition, while the outflow of ozone generated from inside is greatly reduced, it is configured to increase the amount of oxygen outflow.

FIG. 5 is a structural diagram showing a dust collecting unit according to the present invention, and shows an example of an air cleaner 4 capable of effectively cleaning and discharging harmful substances contained in air discharged from the foreshortening unit 2.

In the embodiment of the present invention, the air cleaner 4 is UV lamp 41 irradiated with ultraviolet rays, disposed around the UV lamp and the surface of the air by generating O ₂ -and OH- by reaction with ultraviolet rays to generate air A first filter 42 coated with a TiO ₂ layer 421 for cleaning, sterilizing, and deodorizing, and MnO ₂ disposed on the periphery of the first filter 42 and reducing O ₃ to 3O ₂ and O ₂ on the surface thereof. A layer 431 is coated with a second filter 43 and a third filter 44 disposed around the second filter 43 and coated with a reflective layer 441 on the surface thereof to reflect ultraviolet rays, thereby preventing TiO from the outside. _It is configured to react with the _two layers.

The air cleaner 4 is configured to clean the harmful substances contained in the air by a photocatalytic action, while increasing the outflow of oxygen while drastically reducing the outflow of ozone generated therein, and sterilization by the photocatalytic action. The action and sterilization action by O ₃ of the UV lamp 41 is made in duplicate.

The air cleaner 4 of this structure is installed on a passage through which air flows, but is installed horizontally with the direction of the air so that the air flows into the center, or is installed perpendicular to the direction of the air so that the air enters the side. Can be configured.

The TiO ₂ layer 421 of the first filter 42 is irradiated with ultraviolet rays to generate OH- (hydroxyl radical) having a strong oxidation power. The OH- (hydroxyl radical) performs a function of oxidizing and cleaning organic substances in air.

In particular, in the present invention, since the ultraviolet light is directly irradiated to the first filter 42, the purification and deodorization of the photocatalytic UV lamp 41 by O ₃ are performed together, and thus, the air purification may be more efficiently performed.

Here, the TiO ₂ layer 421 first generates e- (electron) and h- (hole) by reaction with O _3, and secondly, e- (electron) and h + (hole) are respectively TiO ₂ layer. In reaction with (21) O ₂ -and, OH-produces and eventually cleans, oxidizes, sterilizes and deodorizes the incoming air.

[First Reaction Formula] of the TiO ₂ and UV (O ₃ ) is as follows.

TiO ₂ + UV (O ₃ ) = e-, h-: TiO ₂ + e- = O _2- , TiO ₂ + h- = OH-

In addition, the second filter 43 is disposed around the first filter 42 and the photocatalyst MnO ₂ layer 431 for reducing O ₃ to 3O ₂ and O ₂ is coated on the surface thereof.

Herein, the MnO ₂ layer 431 includes a CuO component. [Second Reaction Formula] of O ₃ and 2O ₃ not reacted in the TiO ₂ layer 421 is as follows.

2O ₃ + (CuO + MnO ₂ ) = 3O ₂ : O ₃ + CuO = O ₂

On the other hand, the first filter 42 and the second filter 43 may be configured to form a pleated zigzag or wavy pattern along the longitudinal direction to increase the surface area.

In addition, the third filter 44 is disposed around the second filter 43 and is formed by coating a reflective layer 441 on the surface thereof.

The reflective layer 441 may be configured by using a material that emits gloss of metal. That is, the reflective layer 441 may be formed of any one selected from nickel, brass, bronze, copper, aluminum, chromium, etc., but may include all metallic materials that can be polished in a wide range.

The third filter 44 is a photocatalyst TiO ₂ coated on the surfaces of the first filter 42 and the second filter 43 by reflecting ultraviolet rays to the first filter 42 and the second filter 43. Reaction with the layer 421 may be made to provide a structure for increasing efficiency.

The third filter 44 may be provided in plural number with a predetermined interval therebetween, and when the third filter 44 is three or more, it is not preferable because there is no benefit of the catalytic effect and causes an increase in air resistance and manufacturing cost.

In addition, the reflective layer 441 of the third filter 44 may be formed only on the inner surface. Since it reflects ultraviolet rays to the first filter 42 and the second filter 43, it is not profitable to be coated on both sides, especially when two third filters 44 are installed, the reflective layer 441 facing the ultraviolet rays This is to prevent rereflection by).

In addition, the plurality of second filters 43 may be installed at a plurality with a predetermined interval therebetween to increase the effect of cleaning, oxidizing, sterilizing, and deodorizing air.

6 is a cross-sectional view showing the structure of a cremation furnace according to the present invention, and a cremation system is provided by adding a crematory 3 to a body treatment system to which the freeze-sublimation method described above is applied.

The crematorium 3 is configured to cremate the body of which the pretreatment is carried out through the pretreatment furnace 2 to remove moisture at a predetermined ratio. In the present invention, the first combustion unit 31 is configured to directly burn the body; Passed through the second burner 32 and the second burner 32 formed under the first burner 31 to burn the combustion residual material discharged while heating the first burner 31. It is provided with an air cleaner 4 for removing and discharging foreign matter in one air.

The first burner 31 has a loading stand 311 into which the pretreated body placed in the treatment stand 1 is placed, and one side of the first burner 312 is flame-sprayed to the injected body side. Is installed. The first burner 312 basically inhales the outside air and injects it into the inside, and injects the fuel represented by the gas together, and burns the fuel through the spark plug to discharge the flame together with the air. Burn.

At this time, as mentioned above, unlike the conventional method, as the space is formed through the protrusions 11 between the treatment table 1 and the body, flame and heat are evenly transmitted throughout the body and the pretreatment furnace 2 is Since the amount of moisture through the removal of a significant proportion of the body is relatively fast combustion is shortened the makeup time.

In this case, the other side of the loading stand 311 of the first combustion part 31 is opened to form a first passage 313, and a structure is formed in communication with the lower second combustion part.

That is, the second burner 32 is configured to form a passage under the first burner 31, and a second burner 321 having a flame sprayed on one side thereof is installed.

Through this structure, the heat generated from the second burner 32 through the second burner 321 is transferred to the first burner 31 on the upper side, thereby greatly improving the thermal efficiency, as well as the first burner. In (31), the unburned gas according to the incomplete combustion of the body may be secondly burned in the second combustion unit 32, and the odor component and the organic compound contained may be burned to make a complete combustion state.

The air cleaner 4 forms a passage below the second combustion unit 32 so as to communicate with the second combustion unit 32, but one lower portion of the second combustion unit 32, that is, the second burner 321. ) Is communicated through the second passage 322 formed downward to pass the other lower portion of the second combustion unit 32 to discharge air, and filters the combustion by-products remaining in the air. The same structure as the air cleaner 4 is applied to discharge the air in a purified state.

As almost complete combustion is achieved through the first combustion unit 31 and the second combustion unit 32, the air cleaner 4 substantially includes a filter for removing fine dust, and fine mesh network. The first filter 42, the second filter 43, the third filter 44, and the like may be configured by adding a membrane membrane having micropores together with the microactive carbon component.

7 is a conceptual diagram showing a mortuary installation state of the body processing system according to an embodiment of the present invention.

As mentioned above, the pretreatment unit 2 may be configured by separately installing the body treatment system applying the freezing water sublimation method in the state excluding the structure of the crematorium 3 or having the crematorium 3. have.

In this case, as a preferred installation example, by installing the pretreatment unit 2 in the mortuary to store the body during the funeral procedure, it is possible to minimize the efficient management and movement of the body. That is, the pretreatment unit 2 according to the present invention is installed in one of the mortuary chambers 6 provided in the mortuary as shown in the attached drawings. More convenient management can be made, such as storage again after the sublimation process.

8 is a conceptual diagram illustrating a vehicle mounted state according to an embodiment of the present invention.

The cremation system according to the present invention substantially eliminates the difficulty of the expansion of the conventional crematory and crematory, including temporary installation in a place where there is a lot of demand, is mounted on a vehicle, and is configured to be mobile to move the jangji or the ossuary to process the body. This can overcome these difficulties. In this configuration, the vehicle can be mounted in various ways, and in the case of a large vehicle, a plurality of cremators can be mounted and operated.

9 is a conceptual diagram showing the appearance of an integrated system according to an embodiment of the present invention, Figure 10 is a block diagram showing the configuration and connection of the integrated system according to an embodiment of the present invention.

The cremation system according to the present invention may be installed separately from the pretreatment furnace 2 and the crematorium 3, and in particular, in the case of temporary installation or mobile construction, the pretreatment furnace 2 and the cremation furnace 3 ) Can be more easily installed or moved by constructing an integrated unit. In this case, the control of the pretreatment unit 2 and the crematorium 3 and the air cleaner 4 may be performed together through a single control unit 5, and the appearance shown in the accompanying drawings is one embodiment. As a matter of course, various shapes and design changes are possible without departing from the spirit of the invention.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

1: treatment table 11: protrusion
12: groove 2: with pretreatment
21: treatment space 22: cooling unit
23: decompression unit 24: dehumidifying unit
25: pressure sensor 26: temperature sensor
27: weight sensor 28: image sensor
3: cremation 31: first burner
311: Pileator 312: First Burner
313: first passage 32: second combustion unit
321: second burner 322: second passage
4: air cleaner 41: UV lamp
42: first filter 421: TiO ₂ layer
43: second filter 431: MnO ₂ layer
44: third filter 441: reflective layer
5: control unit 6: morgue

Claims (5)

A treatment table 1 in which the body is placed, but a plurality of protrusions 11 are formed to protrude to form a space between the upper side and the body placed therein, and a groove part 12 is formed to sweep out the powder after the make-up;
A treatment space 21 having an adiabatic sealing structure in which the body is accommodated, a cooling unit 22 which maintains the inside of the processing space 21 below the freezing point, and sucks air in the processing space 21 to the outside; Freezing the body with a decompression unit 23 for depressurizing the inside of the processing space 21 to a level where sublimation occurs in the frozen body by discharging, and a dehumidifying unit 24 for removing moisture in the processing space 21. A pretreatment furnace 2 for pretreatment by a water sublimation method;
An air cleaner 4 for sterilizing and disinfecting air in the processing space 21 sucked through the decompression unit 23 to be discharged to the outside; Body treatment system to which the freeze-sublimation method is applied, characterized in that consisting of.
The method of claim 1,
A first combustion section 31 in which a preloaded body in which the pretreated body is placed in the treatment table 1 is inserted, and a first burner 312 in which flame is injected to the body side inserted into one side; A second combustion part 32 having a passage below the first combustion part 31 so as to communicate with the first combustion part 31 on the other side, and having a second burner 321 in which a flame is injected; A crematory 3 configured to form a passage under the second combustion part 32 so as to communicate with the second combustion part 32 on one side and to discharge air;
An air cleaner (4) for filtering combustion by-products of the air discharged from the toilet (3); Energy saving and eco-friendly makeup system characterized in that it further comprises.
The method of claim 1,
The treatment table 1 is a rectangular metal or ceramic plate, and includes a groove portion 12 formed horizontally across the center portion, and a protrusion formed vertically on the upper side and the lower side with respect to the groove portion 12. 11) a body treatment system to which the freeze-sublimation method is applied, characterized in that a plurality is formed in the lateral direction.
The method of claim 1,
The pretreatment furnace (2),
Pressure sensor 25 for measuring the pressure in the processing space 21 and the temperature sensor 26 for measuring the temperature, the weight sensor 27 for measuring the weight of the received body and the pressure sensor over time (25) and a control unit (5) for monitoring the measured values of the temperature sensor (26) and the weight sensor (27) but controlling the cooling unit (22) and the decompression unit (23) so as to reduce the ratio from the initial weight. A body treatment system applying a freeze water sublimation method, characterized in that.
The method of claim 1,
The air cleaner 4 is,
UV lamp 41 irradiated with ultraviolet rays, and TiO ₂ layer disposed around the UV lamp 41 to generate O ₂ -and OH- by reaction with ultraviolet rays to clean, sterilize, and deodorize air ( A second filter coated with a first filter 42 coated with a 421 and a MnO ₂ layer 431 disposed around the first filter 42 and reducing O ₃ to 3O ₂ and O ₂ on the surface thereof. And a third filter (44) disposed on the periphery of the second filter (43) and coated with a reflective layer (441) on the surface thereof.

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