KR102089059B1 - Corpse treatment and cremation system using frozen moisture sublimation method - Google Patents

Abstract

The present invention has a structure that can be temporarily installed or movable in a situation where it is not easy to expand a conventional crematorium and cremator, but it is easy to diffuse heat inside the cremator, suppress discharge of pollutants, and prevent deformation of the body before cremation. It relates to a body treatment and makeup system using a freeze-water sublimation method that can significantly reduce fuel and time input through a treatment that reduces moisture.

Description

Corpse treatment and cremation system using frozen moisture sublimation method}

The present invention relates to a body treatment and cremation system for the treatment of a body, and in detail, it has a structure that can be temporarily installed or movable in a situation where it is not easy to expand a conventional crematorium and a cremator, but it is easy to diffuse heat inside the cremator. It relates to a body treatment and makeup system that applies a freeze-water sublimation method that suppresses pollutant emissions and significantly reduces fuel and time input through a treatment that reduces moisture while preventing deformation of the body before cremation.

The cremation method, which is a method of burning dead bodies by burning them, is gradually replacing the burial culture according to Confucian customs due to changes in the social and cultural environment. In particular, expansion of residential areas due to population expansion, farmland and forestry In the situation where the absolute area of the cemetery is shrinking due to the securing of area, the demand for makeup is increasing rapidly.

Such cremation must be done in a designated crematorium as toxic gases, odors, and dusts harmful to the human body such as carbon monoxide and dioxin due to incomplete combustion are released during the cremation of the body. Go to the crematorium operated by the local government and cremated and placed in the crypt.

Currently, the number of crematoriums in Korea is about 43, and the number of crematoriums in Korea is about 248. In recent years, the demand for cremation has increased to the extent that the demand for cremation can not be handled, and the amount of time required for cremation is limited to about 2 ~ 3 hours per day, so the amount of makeup that can be processed per day is limited. It is difficult, and it can be a major obstacle to funeral procedures.

Due to these problems, requests for new crematorium construction and expansion of crematoriums have been delayed. However, these crematoriums have been recognized as hate-and-avoidance facilities.

According to this situation, a method of accommodating cremation facilities, such as a vehicle or a ship, has been reviewed as a way to accommodate cremation demands without newly constructing or expanding cremation facilities. It is also used for treating pet carcasses due to its low dust collecting performance against pollutants generated during falling and combustion, but has not yet been commercialized for the purpose of natural body makeup.

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

The present invention was created to solve the above problems, and the object of the present invention is to have a structure that can be temporarily installed or movable, but it is easy to diffuse heat inside the toilet, while suppressing pollutant discharge, and It is to provide a body treatment and makeup system using a freeze-water sublimation method that can significantly reduce fuel and time input through a treatment that reduces moisture while preventing deformation.

For the above object, the body treatment system to which the present invention is applied to the frozen water sublimation method is placed on the body, but a plurality of protrusions formed to protrude to form a space between the upper side and the placed body, and after makeup, sweep the bones and discharge them to the outside A processing unit in which grooves are formed so as to be made; It is provided with a treatment space of an adiabatic sealing structure in which a body is accommodated, and a cooling unit that maintains the inside of the treatment space below a freezing point, and sucks air out of the treatment space and discharges it to the outside to sublimate the frozen body. A pre-treatment furnace having a depressurizing portion for depressurizing the inside of the treatment space and a dehumidifying portion for removing moisture in the treatment space, and pre-treating the body in a freeze-moisture sublimation method; An air cleaning unit that sterilizes and disinfects the air in the treatment space sucked through the decompression unit and discharges it to the outside; It is characterized by consisting of.

In addition, the makeup system of the present invention includes a first combustion unit in which a preloaded body in which the pretreated body is placed in the treatment table and a first burner in which a flame is sprayed to the body placed in one side is installed, and the other side of the makeup system A second combustion unit that forms a passage under the first combustion unit so as to communicate with the combustion unit, but has a second burner in which a flame is injected on one side, and a second combustion unit lower side to communicate with the second combustion unit on one side. A passageway forming a passageway and configured to discharge air; An air cleaner that filters combustion by-products from the air discharged from the makeup furnace; It characterized in that it further comprises.

At this time, the treatment table is a plate made of a rectangular metal or ceramic, it is preferable that a plurality of projections formed in the vertical direction on the upper and lower sides, respectively, with respect to the groove portion formed across the center portion from side to side. .

In addition, the pre-treatment furnace, a pressure sensor for measuring the pressure inside the processing space and a temperature sensor for measuring the temperature, a weight sensor for measuring the weight of the body received, and the pressure sensor and temperature sensor and weight over time It is preferable to have a control unit for monitoring the measured value of the sensor but controlling the cooling unit and the pressure reducing unit so as to decrease at a set ratio from the initial weight.

In addition, the air cleaning, TiO ₂ that is disposed around the UV lamp and the UV lamp irradiated with ultraviolet rays, generates O ₂ -and OH- by reaction with ultraviolet rays on the surface to clean, sterilize, and deodorize the air. A first filter coated with a layer, disposed around the first filter, and a second filter coated with a MnO ₂ layer reducing O ₃ to 3O ₂ and O ₂ on the surface and disposed around the second filter Preferably, the surface includes a third filter coated with a reflective layer.

The present invention has a relatively simple structure, and as it is possible to mount a vehicle including temporary installation, it is difficult to expand the crematorium and crematorium, so the number of treatments per day is limited, so it is easy to digest the demand for makeup in densely populated areas. To make.

In particular, while improving the thermal efficiency, it is possible to reduce the makeup time and reduce fuel consumption significantly without removing the survivor by removing only moisture without deforming the body during the pre-treatment process including a convenient treatment structure.

1 is a conceptual diagram of the body treatment and makeup method according to the present invention,
Figure 2 is a perspective view showing the structure of the treatment table according to the present invention,
Figure 3 is a cross-sectional view showing the structure of the body treatment 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 cleaner according to the present invention,
6 is a cross-sectional view showing the structure of a makeup furnace according to the present invention,
7 is a conceptual diagram showing a state of the morgue installation of the body treatment system according to an embodiment of the present invention,
8 is a conceptual view 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 showing the configuration and connection of the integrated system according to an embodiment of the present invention.

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

1 is a conceptual diagram of the body treatment and makeup method according to the present invention, the present invention is basically a conventional crematorium and cremation equipment in a situation where it is practically difficult to mount the body treatment and makeup equipment in vehicles, etc. can be used as a mobile Or, it can be installed and operated temporarily in a specific place. In addition, it is configured to significantly reduce the time and energy required for processing compared to the conventional method, and for this purpose, the main components of the treatment table 1, the pretreatment furnace 2, and the makeup furnace 3 are provided. 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-shaped structure for placing a body to be treated and cremated, and the salted body is placed on the upper side to carry out a series of procedures to transport and cremate. In this way, the time required for pre-treatment or makeup can be greatly shortened by being put into the pre-treatment furnace 2 and the makeup furnace 3, which will be described later, while the body is placed on the treatment table 1.

In particular, the treatment table (1) is made of a heat-resistant material to prevent damage and deformation of the hot flame during makeup as it is put into the makeup furnace (3), and in the front-rear direction to facilitate the transportation of the body as a simple stretcher. A handle may be formed, and a roller may be mounted on the lower side to facilitate input and discharge of the pretreatment furnace 2 and the makeup furnace 3.

In addition, a plurality of protrusions 11 protrudingly formed to form a space between the upper surface of the treatment table 1 and the enclosed body, and a groove 12 so as to sweep the bones after makeup and discharge them outward.

Specifically, the treatment table (1) is a rectangular metal or ceramic plate that does not melt at the temperature for body makeup, and the groove portion (12) formed across the central part from side to side and the groove (12) is the upper side. A plurality of protrusions 11 formed in the vertical direction on the lower side are formed in the lateral direction.

This not only increases the time required for makeup as the bottom part of the body in the normal cremation furnace, that is, the back of the lying body, does not come into contact with the flame, and in some cases, the body under makeup using a iron skewer. As a structure for solving the problem that the objection to promote combustion is turned upside down, a space with the body is formed between the protrusions 11, so that flame and heat are rapidly transferred through this space, and the entire body is treated with makeup. The time can be shortened, and by putting the treatment table 1 into the pretreatment furnace 2, the thermal contact area, that is, the area for removing moisture, can be shortened to shorten the time required for more pretreatment.

In addition, as the process of sweeping the bones generated after makeup due to the protrusions 11 is inconvenient and a residue may exist between the protrusions 11, in the present invention, as shown in the accompanying drawings, the upper side is based on the central part. Separated from the lower side and the protruding portion 11 is formed to sweep the bones toward the central side, but the grooves 12 are formed to cross the central portion of the treatment table 1 from side to side, and the centrally collected bones are passed 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 seen by forming a space under the body by depressing a part of the upper surface, in which case the surface may be substantially referred to as a protrusion. It is self-evident. In this case, the groove portion 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 in the state accommodated in the processing table 1 is pre-processed It shows the state put into the furnace (2).

In the embodiment of the present invention, a body treatment system to which a freezing water sublimation method is applied can be constructed through the configuration of the treatment table 1, the pretreatment furnace 2, and the air cleaning system 4, and the makeup furnace is used in this configuration. The makeup system can be constructed by including the configuration of (3).

The pre-treatment furnace (2) is a configuration for removing moisture contained in the body before cremation. Usually, as much as 70% of the human body is made up of moisture, the amount of the body contained in the makeup is maintained as it is. Due to moisture, the time required for makeup is lengthened and the fuel input is forced to increase.

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

In the case of thermal drying, which is used in the general drying concept, the deformation of the body is inevitable, and practical application is not possible due to the feeling of rejection of the surviving family. Accordingly, in the present invention, the body is frozen in a frozen water sublimation method to remove the moisture only through vaporization while maintaining the original shape, thereby facilitating the cosmetic treatment, and it is applicable as well as without rejection in that the body's original shape is maintained. It is clearly distinguished from the drying of the concept, especially the mummy method.

The pre-treatment furnace 2 for this purpose includes a treatment space 21 having an adiabatic sealing structure in which a body is accommodated, but a cooling unit 22 that keeps the interior of the treatment space 21 below a freezing point and sublimation from the frozen body It is provided with a pressure-reducing portion 23 to depressurize the interior of the processing space 21 to a level that occurs.

The cooling unit 22, as a freezer, cools the inside of the treatment space 21 and the received body by flowing low-temperature air inside the treatment space through an evaporation coil and a blower fan whose surface temperature is maintained below a freezing point.

The pressure-reducing portion 23 is a vacuum pump to depressurize the inside of the treatment space to a normal vacuum level by sucking air inside the treatment space 21 and discharging it to the outside.

At this time, decompression, that is, when the vacuum is first made and then frozen, decompression must be performed in the frozen state first as the water contained in the body may boil as boiling water. It occurs, and only the moisture is removed while the appearance of the body is maintained.

At this time, a dehumidification unit 24 for removing moisture in the processing space 21 is installed between the processing space and the decompression unit, and moisture is removed and discharged inside the processing space through a dehumidifying agent made of a material that adsorbs moisture. Is done.

In a specific configuration for removing moisture, a pressure sensor 25 for measuring the pressure inside the processing space 21, a temperature sensor 26 for measuring temperature, and a weight sensor 27 for measuring the weight of the body received are provided. , A freeze-moisture sublimation condition, so that it can be smoothly equipped, but a control unit (5) capable of monitoring 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 pressure-reducing unit 23 are controlled to be reduced from the initial weight of the injected body to a predetermined ratio.

It may take some time for the process of removing water through the pretreatment furnace (2), but it is usually possible to remove sufficient water through the time until the makeup after salting on a 3-day basis, and usually prevents decay and infection of the body. As the body is refrigerated in the emergency morgue, this process can be linked to the pre-treatment furnace (2) to reduce the feeling of rejection due to smooth pre-treatment and a series of procedures.

In addition, as the processing space 21 is sealed during pre-processing, it is impossible to check the body from the outside, so that an image sensor 28 capable of photographing the body placed in the processing space 21 is installed to prevent the deformation of the body. However, it can be configured to monitor the signal obtained through the image sensor 28 through the control unit 5 to recover the internal pressure and temperature according to a set procedure with an alarm output when detecting a change in body appearance during the pre-processing process.

In addition, various pathogens or viruses may exist in the treatment space 21 in which the body is accommodated, and these pathogens or viruses are discharged together by inhaling and discharging the air inside the treatment space 21 through the decompression unit 23. In order to prevent this, the air cleaning unit 4 may be provided to sterilize and disinfect the air in the treatment space 21 sucked through the decompression unit 23 to be discharged to the outside.

The air cleaner 4 may be applied in various ways as a filter for sterilizing and disinfecting air, but in the present invention, the harmful substances and bacteria and viruses contained in the air are sterilized and cleaned by a photocatalytic action. , It is configured to increase the outflow of oxygen while dramatically reducing the outflow of ozone generated inside.

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

In the embodiment of the present invention, the air cleaning unit 4 generates UV light by irradiating ultraviolet rays with a UV lamp 41, which is irradiated with ultraviolet rays, and generates O ₂ -and OH- by reacting with ultraviolet rays on the surface. First filter 42 coated with TiO ₂ layer 421 for cleaning, sterilization, and deodorization, and MnO ₂ disposed around the first filter 42 and reducing O ₃ to 3O ₂ and O ₂ on the surface. The second filter 43 coated with the layer 431 and the third filter 44 having a reflective layer 441 coated thereon are disposed around the second filter 43 to reflect UV light to TiO on the outside. _It is configured to allow reaction with the _second layer.

The air cleaning unit 4 is configured to clean the harmful substances contained in the air by a photocatalytic action, and to increase the outflow of oxygen while dramatically reducing the outflow of ozone generated therein, and sterilizing by the photocatalytic action The action and sterilization by UV ₃ of O ₃ are made in double.

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

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

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

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

The first reaction formula of 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 is coated with a photocatalyst MnO ₂ layer 431 reducing O ₃ to 3O ₂ and O ₂ on the surface.

Here, the MnO ₂ layer 431 includes a CuO component, and the [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 zigzag or wavy folds 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 its surface.

The reflective layer 441 may be configured by utilizing a material that gives off a metallic gloss. That is, the reflective layer 441 may be composed of any one selected from nickel, brass, bronze, copper, aluminum, and chromium, but may include all metallic materials that can be polished in a wide range.

Here, the third filter 44 is a TiO ₂ photocatalyst coated on the surfaces of the first filter 42 and the second filter 43 by reflecting ultraviolet rays through the first filter 42 and the second filter 43. A structure capable of increasing the efficiency by providing a reaction with the layer 421 is provided.

A plurality of the third filters 44 may be installed at regular intervals therebetween, and when the number of the third filters 44 is three or more, there is no practical benefit of catalytic effect and an increase in air resistance and manufacturing cost is undesirable.

In addition, the reflective layer 441 of the third filter 44 may be formed only on the inner surface. This is because it reflects the ultraviolet rays to the first filter 42 and the second filter 43, it is not practical to be coated on both sides. In particular, when two third filters 44 are installed, the reflective layer 441 facing the ultraviolet rays ) To prevent re-reflection.

In addition, it is needless to say that the second filters 43 may be installed at a predetermined interval therebetween to increase the effect of cleaning, oxidizing, sterilizing, and deodorizing air.

Figure 6 is a cross-sectional view showing the structure of the cremator according to the present invention, a cremation system is provided by adding the cremator 3 to the body treatment system to which the previously described freeze moisture sublimation method is applied.

The makeup furnace (3) is a composition for pre-treatment through the pre-treatment furnace (2) to make up the body whose moisture has been removed at a constant rate. In the present invention, the first combustion unit (31) in which the body is directly burned, It is formed on the lower side of the first combustion unit 31 and passes through the second combustion unit 32 and the second combustion unit 32 for heating the first combustion unit 31 and burning combustion residual substances discharged at the same time. It is provided with an air cleaning unit (4) for removing and discharging foreign matter in one air.

The first combustion unit 31 includes a mounting table 311 through which a pre-treated body placed in the treatment table 1 is placed, and on one side, a first burner 312 through which a flame is sprayed toward the injected body. Is installed. The first burner 312 is basically configured to inhale air from the outside and inject it to the inside and inject fuel together with gas, but burn fuel through an ignition plug to discharge flames with air. To burn.

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

At this time, the other side of the mounting table 311 of the first combustion section 31 is opened to form a first passage 313, but a structure is formed in communication with the lower second combustion section.

That is, the second combustion unit 32 is configured to form a passage under the first combustion unit 31, and a second burner 321 through which a flame is injected is installed.

Through this structure, heat generated from the second burner 32 through the second burner 321 is transferred to the first burner 31 on the upper side, which can not only greatly improve the thermal efficiency, but also the first burner. In (31), the unburned gas resulting from the incomplete combustion of the body is burned second by the second combustion unit 32, and the odorous components and organic compounds contained in it can be burned to make a complete combustion state.

The air cleaning unit 4 forms a passage under 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 ) It is communicated through the second passage 322 formed on the lower side to discharge air in a manner that passes through the lower part of the other side of the second combustion part 32, and is a filter for filtering residual combustion by-products in the air. By applying the same structure as the air cleaner 4, the purified air is discharged.

As almost complete combustion is achieved through the first combustion unit 31 and the second combustion unit 32, substantially the air cleaning unit 4 is provided with a filter for removing fine dust, and a fine mesh network The first filter 42, the second filter 43, and the third filter 44, as well as the micro-activated carbon component, together with a microporous membrane film can be added.

7 is a conceptual view showing a morgue installation of a body treatment system according to an embodiment of the present invention.

As mentioned above, a body treatment system to which a freeze-water sublimation method is applied is constructed in a state other than the configuration of the toilet 3, or even if a toilet 3 is provided, the pre-treatment unit 2 may be separately installed. have.

In this case, as a preferred installation example, by installing the pre-treatment unit 2 in the morgue where the body is stored during the funeral procedure, efficient management and movement of the body can be minimized. That is, as the pretreatment unit 2 according to the present invention is installed on one side of the restroom 6 provided in the mortuary as shown in the attached drawing, the body being stored in a low temperature state in the restroom 6 is moved to freeze moisture. More convenient management, such as storage after sublimation, can be achieved.

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

The cremation system according to the present invention is configured to be mounted on a vehicle and temporarily installed in a place with high demand, in order to substantially solve the difficulty of the expansion of a conventional crematorium and cremator, and is moved to the vicinity of the jangji or the ossuary to process the body. By doing so, you can overcome these difficulties. Accordingly, it is possible to mount the vehicle in a variety of ways with a rather compact configuration. In the case of a large vehicle, it is possible to mount and operate a large number of cremators.

9 is a conceptual diagram showing a state of the 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 makeup system according to the present invention is also possible to separate the pretreatment furnace (2) and the makeup furnace (3) and install them in different locations, especially in the case of temporary installation or mobile configuration, the pretreatment furnace (2) and the makeup furnace (3) ), It is possible to install or move more easily. In this case, the control of the pre-processing unit 2 and the cremation furnace 3 and the air cleaning unit 4 through a single control unit 5 is configured, 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: processing table 11: protrusion
12: groove part 2: pretreatment furnace
21: processing space 22: cooling unit
23: decompression unit 24: dehumidification unit
25: pressure sensor 26: temperature sensor
27: weight sensor 28: image sensor
3: Cremation furnace 31: First combustion department
311: Depot 312: 1st Burner
313: 1st passage 32: 2nd combustion department
321: 2nd burner 322: 2nd passage
4: Air cleaning 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: rest room

Claims (5)

The body is placed, but a plurality of protrusions 11 protrudingly formed to form a space between the upper side and the enclosed body, and a treatment part 1 formed with a groove 12 for sweeping and discharging the bones after makeup;
It is provided with a treatment space 21 of an adiabatic sealing structure in which a body is accommodated, but a cooling unit 22 that maintains the inside of the treatment space 21 below a freezing point, and sucks air from the treatment space 21 to the outside. The body is frozen by providing a decompression unit 23 for decompressing the inside of the processing space 21 to a level at which sublimation occurs in the body that is discharged and frozen, and a dehumidification unit 24 for removing moisture in the processing space 21. A pretreatment furnace (2) that is pretreated by a moisture sublimation method;
An air washing unit (4) that sterilizes and disinfects the air in the treatment space (21) sucked through the pressure reducing unit (23) and discharges it to the outside; A body treatment system using a frozen water sublimation method, characterized in that consisting of.
According to claim 1,
A first combustion unit 31 in which a prepositioned body 311 in which the pre-treated body is placed in the treatment table 1 is placed, and a first burner 312 in which a flame is injected to the body side injected in one side, A second combustion unit 32 is formed to form a passage under the first combustion unit 31 to communicate with the first combustion unit 31 on the other side, but a second burner 321 through which a flame is sprayed is installed. , One side of the second combustion section 32 so as to communicate with the second combustion section 32, a passageway formed in the lower side and configured to discharge air;
An air cleaning unit (4) for filtering combustion by-products from the air discharged from the makeup furnace (3); A body treatment system to which a freeze moisture sublimation method is applied, further comprising a.
According to claim 1,
The treatment table (1) is a rectangular metal or ceramic plate, a groove portion (12) formed across the central portion from side to side, and a protrusion (1) formed vertically on the upper and lower sides, respectively, based on the groove portion (12) 11) A body treatment system to which a frozen water sublimation method is applied, characterized in that a plurality of lateral directions are formed.
According to claim 1,
The pre-treatment furnace (2),
The pressure sensor 25 for measuring the pressure inside the processing space 21 and the temperature sensor 26 for measuring the temperature, the weight sensor 27 for measuring the weight of the body received, and the pressure sensor over time (25) and a temperature control unit (26) and a weight sensor (27) are monitored, but a control unit (5) is provided to control the cooling unit (22) and the pressure reducing unit (23) so as to decrease at a set ratio from the initial weight. A body treatment system to which a freeze moisture sublimation method is applied.
According to claim 1,
The air cleaner (4),
TiO ₂ layer that is disposed around the UV lamp 41 irradiated with ultraviolet rays and the UV lamp 41 and generates O ₂ -and OH- by reaction with ultraviolet rays on the surface to clean, sterilize, and deodorize air ( 421) is coated with a first filter 42, the second filter is disposed around the first filter 42 and the surface is coated with MnO ₂ layer 431 to reduce O ₃ to 3O ₂ and O ₂ (43) and the second filter (43) is disposed around the surface of the body treatment system applying a freeze-water sublimation method, characterized in that it comprises a third filter (44) coated with a reflective layer (441).

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