JP2010261290A - Masonry charnel house structure by assembling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To develop a charnel house, which is reduced in cost by facilitating processing in a conventional hexagonal grave or gable grave, particularly, in the gable grave, and facilitating the carry-in to a building site and assembly, can store remains of many persons, and can be internally maintained in a dry state by preventing the temperature rise within the charnel house. <P>SOLUTION: A general house building method is used as an assembling method of a charnel house, all components including a charnel house body, a roof, a remains placing shelf or remains locker and a wing stone are processed as small stone material components to facilitate the carry-in and building. The wall of the charnel house body is made into a double structure so that the internal temperature can be suppressed. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an ossuary, and more specifically, a multi-stage ossuary mounting shelf or a multi-stage ossicle locker is disposed inside, and the wall of the ossuary body has a double structure of an inner wall and an outer wall, and the internal temperature Unlike the conventional stone-made ossuary, it is an ossuary that uses pillars, wall materials, roof girders, roof boards, etc., and adopts the construction method of the house. It is related to a stone-framed ossuary structure by an assembling method, characterized in that an ossuary placement shelf or ossuary locker to be placed inside, a cobblestone placed on the front side of the ossuary body is also an assembling method made of pebbles .

  Traditionally, ossuaries and graves with ossuary rooms are widely known. One of the most famous tombs with a huge ossuary is the tortoiseshell tomb, which has long been in the Okinawa region, but this tortoiseshell tomb has been built by cutting the slope of the mountain and projecting the tortoise shell from the slope to the front. However, now it has been transformed into this ancient turtle tomb, and it has become a single tortoise grave to be installed on the flat ground and a corporate-style burial tomb. Originally made of concrete, it is now changed to stone using granite. However, the ossuary chambers of these tombs are still huge. It is the ossuary burial chamber of the Okinawa region, and the ossuary chamber of the gale grave, but it is often sealed to prevent the intrusion of the hub, and in that region the temperature is high and direct sunlight is strong, so concrete or stone Nonetheless, the temperature in the ossuary chamber was extremely high, which had an adverse effect on the remains that were placed inside. Moreover, the actual situation is that the dew condensation adhering to the room or some groundwater cannot be discharged to the outside, and the ossuary room was always in a harsh environment.

  Conventionally, such a stone ossuary is a main body that surrounds the four sides with a thick plate, or a wall plate made of stone is inserted into a groove carved in a standing pillar. Was assembling. When it reached the roof, a large stone roof was placed on the ossuary body. This is the same as the cobblestone standing on the front side of the main body of the ossuary.

  Such an ossuary, such as a roof, was expensive because the stone material was large to produce a single ossuary, and it was difficult to handle because of its large size, and the transportation cost was also high. This is also true for sleeve stones.

  Moreover, in order to construct these ossuary halls, large vehicles are also required for carrying in to cemeteries, cemeteries, etc. However, apart from the parked modern cemetery, most of the cemeteries and cemeteries often had large vehicles and cranes that could not reach the place where the ossuary was erected. For this reason, even when carrying members to the cemetery or cemetery, it is often feared that the work is highly dangerous because it is often loaded with a small vehicle amount with an overload capacity, or with a small crane for the construction. It was.

  Also, in the past, a multi-stage shelf was placed inside the ossuary chamber, and a casket with remains was placed on the shelf, but these are sufficient as a family grave, but the size of the grave itself is now The reality is that there is a problem, and there is a demand for a joint ossuary that can be delivered by a large number of people. However, there is a limit to the structure of the joint ossuary.

  The problem to be solved is that it is easy to process in traditional tortoise graves, breezes graves, especially burial graves, and is easy to carry and assemble to the erection site, to reduce the price, and to provide a large number of bones It is a problem to be solved by the invention to develop an ossuary that can prevent the temperature inside the ossuary from rising and can keep the room dry.

  The present invention uses a normal house construction method for the method of assembling the ossuary, and it is easy to process, carry in and erection as pebbles parts from the ossuary body, the roof, the ossuary mounting shelf or the ossuary locker, and the cobblestone. In addition, the wall of the ossuary body has a double structure that can suppress the temperature rise inside, and this is a means for solving the problem.

  Since the ossuary according to the present invention is a stone-framed ossuary structure characterized in that the ossuary body, ossicle shelf, sleeve stone, roof, etc. are all assembled with small stone parts, first the individual stone parts are Because it is a small product, it is easy to process, and the stone that is the material can be made from the small stone that was previously considered a half-finished product, rather than being scraped off from a large scale. In addition, it is possible to carry in to a place where it has been impossible to enter by a small car, because each part is called a small part. In addition, handling of parts during assembly is easy, and even if a wrecker is required for the safety of erection work, a small wrecker can be used. In this way, it is easy to process and assemble by applying the general house building method to stone ossuary production, so it is possible to reduce the price, and multistage ossicle lockers are adopted inside, so many people Can be delivered. Furthermore, since the structure can be easily expanded by increasing the number of intermediate struts and wall materials, it is also possible to prepare a large ossuary. Further, the wall plate has a double structure of an inner wall and an outer wall, and a gap is provided between both walls, and the gap is used as an air flow passage, so that an internal temperature rise is prevented and the inside of the ossuary chamber is kept dry. In addition, a solar cell with a module installed on the roof drives the ventilation fan to forcibly exhaust the high-temperature air inside the room. The solar cell also air-conditions the interior in places with direct sunlight, such as Okinawa. It is possible to operate with the equipment installed, and further, it can be used for indoor and outdoor lighting or worship lighting. Moreover, various remarkable effects can be obtained, such as driving of drainage equipment.

  The present invention is a stone-framed ossuary structure by an assembly method characterized in that the ossuary body, ossicle shelf, sleeving, roof, etc. are all assembled structures with pebbles parts. Forms a groove for fitting the inner wall and the outer wall, and a groove for fitting the front wall is formed on the inner surface in the perpendicular direction, and the outer wall and the inner wall are formed in the groove, and the front wall is disposed in the front post and the wall of the ossuary chamber is formed. It has a double structure consisting of an inner wall and an outer wall with an appropriate gap, and is a stone-framed ossuary structure by an assembly method in which the gap between the inner wall and the outer wall serves as an air flow passage or a heat insulating part. Standing up the struts, each of which is fitted with a wall material in the groove carved into the struts to form an ossuary chamber, a girder is placed on the upper surface of the struts, the upper part is a ridge material, suspended wood, Stone assembly by an assembly method in which a roof member made of eaves is placed and the roof plate is stretched over the roof member It is a skeletal structure, and moreover, a plurality of pillars are erected on the base, and a groove for outer wall fitting is formed on the front pillar side and the rear pillar side on the middle pillar among the pillars, The rear strut is formed with two grooves for fitting the inner wall and the outer wall on the surface of the middle strut side and the rear middle strut side in the perpendicular direction, and the front strut is provided with a groove for inner wall and outer wall fitting on the middle strut side. A groove for fitting a front wall is formed on the inner surface in the perpendicular direction, and an outer wall and an inner wall are fitted in the groove, a front wall is fitted in the front column, and an entrance is provided in the front wall. It is a stone-framed ossuary structure by the assembly method, and moreover, multiple pillars are erected on the base, and the middle struts of the struts are used for outer wall fitting on the front strut side and the rear strut side. A groove is formed, and two grooves for fitting the inner wall and the outer wall are formed in the rear strut on the surface of the middle strut side and the rear middle strut side in the perpendicular direction. Furthermore, it is a stone-framed ossuary structure by an assembling method in which an entrance having a double door is provided on the front wall, and an ossuary with a roof member placed on the upper part of the ossuary chamber. A plurality of struts are erected on the middle strut, and a groove for fitting an outer wall is formed on the front strut side and the rear strut side on the middle strut. Two grooves for inner wall and outer wall fitting are formed on the surface of the middle strut side in the rear of the direction, the inner strut side is formed on the middle strut side on the front strut, and the groove for outer wall fitting is formed on the inner surface at right angles. It forms a groove for fitting the front wall, an outer wall and an inner wall in the groove, a front wall is fitted in the front strut, and an entrance is provided in the front wall. An ossuary where roof members are placed. A pair of chapel pillars are erected at the front of the ossuary and are placed in the beam holes provided on the front wall. The other end of the beam fitted with the end is supported by a chapel pillar, a chapel roof is placed on the upper part of the beam, and it is a stone-framed ossuary structure by an assembling method with the gap between the chapel pillars from the entrance. In addition, a multistage bone locker is placed on the inner periphery of the ossuary obtained by installing multiple columns on the base and inserting wall materials into the grooves carved in the columns. It is a stone-framed ossuary structure by an assembly method, and furthermore, an ossuary obtained by standing a plurality of pillars on the base and inserting wall materials in the grooves carved in the pillars, respectively There is a pavement room on the front side of the interior, and a stone-framed ossuary structure by an assembly method in which a multi-stage ossicle locker is arranged on the inner periphery of the rear room separated from the prayer room by a door. A plurality of struts are erected on top, and an appropriate width gap is provided between the inner wall and the outer wall that are respectively fitted to the struts to form an air flow passage. It is a stone-framed ossuary structure by an assembling method that guides the air sucked from the air intake port from the lower part of the inner wall to the air flow passage and discharges it to the outside from the exhaust port formed in the upper outer wall of the air flow passage, Furthermore, a plurality of support columns are erected on the base, and an appropriate width space is provided between the inner wall and the outer wall that are respectively fitted to the support columns to form an air flow passage, and an air intake opening that is open to the cutting section The intake air is guided from the lower part of the inner wall to the air flow passage and discharged from the exhaust port formed on the upper outer wall of the air flow passage. The exhaust fan is attached to the exhaust port, and the ventilation fan is installed on the roof. It is a stone-framed ossuary structure constructed by an assembly method that is configured to be driven by a solar cell in which a slab is disposed, and moreover, a plurality of pillars are erected on the base, and walls are formed in the grooves carved in the pillars, respectively. Obtained by fitting the material In the ossuary, it is a stone-framed ossuary structure by an assembly method that is configured to drive the inside and outside of the ossuary, lighting of worship instruments, air conditioning equipment, drainage equipment, etc. with solar cells with modules on the roof Furthermore, a plurality of grooves are formed in the longitudinal direction on the inner surface of the wall material constituting the ossuary chamber at predetermined intervals in the lateral direction, and one end of the support plate is fitted in each of the grooves. The odonoid is formed by placing a shelf plate on the support plate and repeatedly inserting one end of the support plate into each groove on the shelf plate to form a multi-stage multi-stage ossicle locker Furthermore, on the inner surface of the wall material constituting the ossuary chamber, a plurality of grooves are formed in the vertical direction at predetermined intervals in the lateral direction, and one end of the support plate is fitted in each of the grooves. Place the shelf on the support plate, and then fit one end of the support plate in each groove on the shelf plate Repeatedly, a multi-stage bone locker with a plurality of stages is constructed, and a door groove is engraved in the lateral direction on the top and bottom surfaces of the front side of the shelf, and the door is detachable by dropping using the door groove. It is a stone ossuary structure by an assembly method that is configured to be mounted, and moreover, a plurality of pillars are erected on the base, and wall materials are fitted into the grooves carved in the pillars, respectively. In the room, a girder is placed on the upper surface of the support column, and a roof member made of a building material, suspended wood, eaves board, etc. is placed on the top, and the roof plate is stretched over the roof member, and the roof It is intended to present a stone-framed ossuary structure by an assembling method that has a double structure in which plates are appropriately spaced or a double structure in which appropriate heat insulating portions are provided between the plates.

  As shown in FIG. 2 and FIG. 3, a plurality of support columns (front support column 2, middle support column 3, rear support column 4) are erected on the base 1. A groove 6 for fitting the outer wall 5 to the rear strut 4 side is formed. The rear strut 4 has an inner wall 7 and an outer wall 5 on the middle strut 3 side and the rear middle strut 3 side in the perpendicular direction. Two grooves 6 for fitting are formed, a groove 6 for fitting the inner wall 7 and the outer wall 5 is formed on the front strut 2 on the front strut 2, and a groove for fitting the front wall 8 on the inner surface in the perpendicular direction. 6, the outer wall 5 and the inner wall 7 are fitted in the groove 6, the front wall 8 is fitted to the front support 2, and the front wall 8 is provided with an entrance 9 and penetrates to the left and right above the entrance 9. A beam hole 10 is provided. 11 is an exhaust port.

  The inner wall 7 and the outer wall 5 forming the ossuary chamber A have a double structure in which a gap having an appropriate width is provided, and the gap between the inner wall 7 and the outer wall 5 serves as an air flow passage 12. The air flow passage 12 can be used as an air flow passage, or can be filled with a heat insulating material to form a heat insulating portion.

  As shown in FIGS. 7, 8, 9, 10, and 11, a plurality of stone columns (front column 2, middle column 3, rear column 4) are erected on the base 1, and the columns It is an ossuary A obtained by fitting stone walls (outer wall 5 and inner wall 7) into the grooves 6 carved in the same, respectively. A roof member made of wood 14 and eaves board 15 is provided, and a roof 17 is formed by attaching a roof board 16 to the roof member. In this embodiment, a notch 18 is provided on the outer upper surface of the front strut 2, middle strut 3, and rear strut 4, a girder 19 is placed on the notch 18, and a roof member is placed on the girder 19. It is placed. Further, the roof plate 16 has a double structure with an appropriate interval, or a double structure with an appropriate heat insulating material interposed therebetween. From the structure, it is also possible to place the roof member so that the eaves plate comes directly on each column without the beam. Note that the abutting portions such as the columns and girders, and the columns and eaves are fixed with pins, and an adhesive may be used.

  A plurality of struts (front strut 2, middle strut 3 and rear strut 4) are erected on the base 1, and among the struts, the middle strut 3 has a surface facing the front strut 2 side and the rear strut 4 side. A groove 6 for fitting the outer wall 5 is formed, and two grooves 6 for fitting the inner wall 7 and the outer wall 5 are formed in the rear strut 4 on the surface of the middle strut 3 side and the rear middle strut 3 side in the perpendicular direction. A groove 6 for fitting the inner wall 7 and the outer wall 5 is formed on the front strut 2 on the side of the middle strut 3, and a groove 6 for fitting the front wall 8 is formed on the inner surface in the perpendicular direction. 5. The inner wall 7, the front wall 8 is fitted to the front column 2, and the front wall 8 is further provided with an entrance 9, and a roof 17 is placed on the upper part of the ossuary chamber A. A pair of chapel pillars 20 and 20 are erected at the front part of the ossuary A, and the beam 35 has one end fitted in the beam hole 10 provided in the front wall 8 of the ossuary A. , 35 on the other end Supported by TokoroHashira 20 and 20, by placing the worship place roof 21 between the beam 35 and 35, and the lower and worship place 22.

  A plurality of struts (front strut 2, middle strut 3, rear strut 4) are erected on the base 1, and the inner wall 7 and the outer wall 5 are respectively fitted to the struts in the inside of the ossuary A obtained. As shown in FIGS. 12 and 13, a multistage osteophysic locker 23 is provided. As shown in FIGS. 14 and 15, the ossicle locker 23 can be arranged in the center depending on the width of the ossuary, and although not shown, the entrance portion inside the entrance side is avoided. It is also possible to arrange in the part. Further, the bone locker 23 is open on the front surface in the drawing, but can also be provided with a door. In the present embodiment, as shown in FIG. 18, a plurality of grooves 24 are vertically carved on the inner surface of the wall material constituting the ossuary chamber at a predetermined interval in the transverse direction. One end of the support plate 25 is fitted in the groove 24, a shelf plate 26 is placed on the support plate 25, and one end of the support plate 25 is fitted in each groove 24 on the shelf plate 26. By repeating this, a multi-stage assembly-type multi-stage bone locker 23 is configured. Further, as shown in FIG. 19, door grooves 27 and 28 are engraved in the lateral direction on the top and bottom surfaces of the front side of the shelf 26, and the door 32 is configured to be detachably mounted by dropping using the door grooves. is doing. At this time, the depth of the groove 28 engraved on the bottom surface of the shelf plate is engraved deeper than the groove 27 engraved on the upper surface. A base 33 is disposed below the lowermost shelf 26, and a space 34 communicating with the air flow passage 12 between the wall plates is provided.

  A plurality of struts (front strut 2, middle strut 3 and rear strut 4) are erected on the base 1 and the inner wall 7 and the outer wall 5 are respectively fitted to the struts. As shown in FIG. 17, a prayer room 29 is provided on the front side, and a multistage bone locker 23 is arranged in a rear room separated by a door 30.

  A plurality of struts (front strut 2, middle strut 3, rear strut 4) are erected on the base 1, and an appropriate width gap is provided between the inner wall 7 and the outer wall 5 fitted to the strut, respectively. The air flow path 12 is used to guide the air sucked from the air intake port 31 opened in the cut-out portion to the air flow path 12 from the lower part of the inner wall and to be discharged to the outside from the exhaust port 11 formed on the upper outer wall of the air flow path 12. It is composed.

  A plurality of struts (front strut 2, middle strut 3, rear strut 4) are erected on the base 1, and an appropriate width space is provided between the inner wall 7 and the outer wall 5 fitted to the strut, respectively. The flow passage 12 is used, and the air sucked from the air intake port 31 opened in the cutout portion is guided to the air flow passage 12 from the lower portion of the inner wall 7 and discharged to the outside through the exhaust port 11 formed in the upper outer wall 5 of the air flow passage 12. In addition, a ventilation fan (not shown) is attached to the exhaust port 11, and the ventilation fan is configured to be driven by a solar cell in which a module 24 is disposed on the roof 17, as shown in FIG. In addition to the ventilation fan, the solar battery is configured to be used for lighting inside and outside the ossuary A, lighting of worship equipment, driving of air conditioning equipment, drainage equipment, and the like.

  Although not shown in the drawings, a drainage channel is provided inside the ossuary A, and the dew condensation generated in the room is drained to the outside. As for the drainage structure, there are natural drainage and forced drainage by drainage equipment.

  FIG. 23 shows a stone ossuary by an assembling method having sleeve stones 36, and as shown in FIG. 24, is composed of a slightly thicker front plate 37, side plate 38, rear plate 39, and upper plate 40 shown in FIG. Has been. 41 is a sleeve pillar which supports a front roof.

  Since the ossuary according to the present invention is a stone-framed ossuary structure characterized in that the ossuary body, ossicle shelf, sleeve stone, roof, etc. are all assembled with small stone parts, first the individual stone parts are Because it is a small product, it is easy to process, and the stone that is the material can be made from the small stone that was previously considered a half-finished product, rather than being scraped off from a large scale. In addition, it is possible to carry in to a place where it has been impossible to enter by a small car, because each part is called a small part. In addition, handling of parts during assembly is easy, and even if a wrecker is required for the safety of erection work, a small wrecker can be used. In this way, it is easy to process and assemble by applying the general house building method to stone ossuary production, so it is possible to reduce the price, and multistage ossicle lockers are adopted inside, so many people Can be delivered. Furthermore, since the structure can be easily expanded by increasing the number of intermediate struts and wall materials, it is also possible to prepare a large ossuary. In addition, the provision of a front roof at the front of the ossuary has an effect on worship in rainy weather and worship during severe summer sun. Further, the wall plate has a double structure of an inner wall and an outer wall, and a gap is provided between both walls, and the gap is used as an air flow passage, so that an internal temperature rise is prevented and the inside of the ossuary chamber is kept dry. In addition, a solar cell with a module installed on the roof drives the ventilation fan to forcibly exhaust the high-temperature air inside the room. The solar cell also air-conditions the interior in places with direct sunlight, such as Okinawa. It is possible to operate with the equipment installed, and further, it can be used for indoor and outdoor lighting or worship lighting. In addition, the possibility of use is extremely large, for example, the drainage device can be driven.

  It is a perspective view of an ossuary.   It is a perspective view for demonstrating the structure of an ossuary.   It is a perspective view for demonstrating the structure of an ossuary.   It is a perspective view of a front support | pillar.   It is a perspective view of a middle support | pillar.   It is sectional drawing of an ossuary.   It is a perspective view of a roof member.   It is a perspective view of a roof member.   It is a perspective view of a roof member.   It is a perspective view of a roof.   It is a perspective view for demonstrating the attachment structure of a roof.   It is a perspective view of the ossuary locker inside an ossuary.   It is a perspective view of the ossuary locker inside an ossuary.   It is a perspective view of the ossuary locker inside an ossuary.   It is a perspective view of the ossuary locker inside an ossuary.   It is a perspective view showing the module of the solar cell attached to the roof.   It is sectional drawing for demonstrating the prayer room inside an ossuary.   It is a front view of an osteosynthesis locker part.   It is a partial cutaway side view of an osteosynthesis locker.   It is an ossuary front view.   It is a ossuary rear view.   It is an ossuary side view.   It is a perspective view of an ossuary which has a sleeve stone.   It is a perspective view for explaining a sleeve stone.

A ossuary 1 base 2 front strut 3 middle strut 4 rear strut 5 outer wall 6 groove 7 inner wall 8 front wall 9 entrance 10 beam hole 11 exhaust port 12 air flow passage 13 building material 14 hanging wood 15 eaves board 16 roof board 17 roof 18 Notch 19 Girder 20 Chapel Pillar 21 Chapel Roof 22 Chapel 23 Osteocratic Locker 24 Groove 25 Support Plate 26 Shelf Plate 27 Upper Door Groove 28 Lower Door Groove 29 Internal Chapel 30 Internal Door 31 Air Inlet 32 Locker Door 33 units 34 lowest space 35 worship beam 36 sleeve stone 37 front plate 38 side plate 39 rear plate 40 upper plate 41 sleeve pillar

Claims (13)

  In the ossuary, the stone ossuary structure by the assembly method, characterized in that the ossuary body, ossuary shelf, roof, cobblestone, etc. are all assembled with pebbles parts.   A stone-framed ossuary structure by an assembly method in which the wall of the ossuary chamber has a double structure of an inner wall and an outer wall with an appropriate gap, and the gap between the inner wall and the outer wall serves as an air flow passage or a heat insulating part.   A plurality of struts are erected on the base, and a wall chamber is formed by fitting wall materials into grooves formed in the struts, and a girder is placed on the upper surface of the struts. A stone-framed ossuary structure by an assembly method in which a roof member made of building materials, hanging wood, eaves, etc. is placed on the roof member, and the roof member is stretched over the roof member.   A plurality of pillars are erected on the base, and among the pillars, a groove for fitting an outer wall is formed on a surface opposite to the front pillar side and the rear pillar side on the middle pillar, and the middle pillar side on the rear pillar. Two grooves for fitting the inner wall and outer wall are formed on the surface on the rear side of the middle strut in the perpendicular direction, and the inner wall and outer wall fitting groove are formed on the middle strut side on the front strut. Is a stone ossuary structure by an assembly method in which a groove for fitting a front wall is formed, an outer wall and an inner wall are fitted in the groove, a front wall is fitted in the front column, and an entrance is provided in the front wall.   A plurality of pillars are erected on the base, and among the pillars, a groove for fitting an outer wall is formed on a surface opposite to the front pillar side and the rear pillar side on the middle pillar, and the middle pillar side on the rear pillar. Two grooves for fitting the inner wall and outer wall are formed on the surface on the rear side of the middle strut in the perpendicular direction, and the inner wall and outer wall fitting groove are formed on the middle strut side on the front strut. In the ossuary chamber, a groove for fitting a front wall is formed, an outer wall and an inner wall are fitted in the groove, a front wall is fitted in the front post, and an entrance having a double door is provided in the front wall. There is a stone-framed ossuary structure by an assembly method in which a roof member is placed on the upper part of the ossuary.   A plurality of pillars are erected on the base, and among the pillars, a groove for fitting an outer wall is formed on a surface opposite to the front pillar side and the rear pillar side on the middle pillar, and the middle pillar side on the rear pillar. Two grooves for fitting the inner wall and outer wall are formed on the surface on the rear side of the middle strut in the perpendicular direction, and the inner wall and outer wall fitting groove are formed on the middle strut side on the front strut. Is formed with a groove for fitting a front wall, an outer wall and an inner wall in the groove, a front wall is fitted in the front post, and an entrance is provided in the front wall. It is an ossuary formed by placing a roof member on the top, and a pair of chapel pillars are erected on the front of the ossuary, and one end is fitted in the beam hole provided on the front wall. A stone-framed ossuary structure by an assembly method in which the end is supported by a chapel pillar, a chapel roof is placed on the upper part of the beam, and the space between the chapel pillars is made from the entrance.   An assembly method in which a multi-stage ossicle locker is arranged on the inner periphery of the ossuary obtained by installing a plurality of columns on the base and inserting wall materials into the grooves carved in the columns. A stone-framed ossuary structure.   A prayer room is set up on the front side of the ossuary obtained by installing a plurality of pillars on the base, and each wall material is fitted in a groove carved in the pillar, separated from the prayer room by a door. A stone-framed ossuary structure using an assembly method in which a multi-stage ossicle locker is placed on the inner periphery of the rear room.   A plurality of pillars are erected on the base, and a gap of an appropriate width is provided between an inner wall and an outer wall fitted to each of the pillars to form an air flow passage, and the air is sucked from an air intake opening that is opened in the cutting section. A stone ossuary structure by an assembly method that guides air from the lower part of the inner wall to the air flow passage and exhausts it to the outside through an exhaust port formed in the upper outer wall of the air flow passage.   A plurality of pillars are erected on the base, and a space of an appropriate width is provided between the inner wall and the outer wall fitted to each of the pillars to form an air flow passage, which is sucked from an air intake opening that is opened in the cutting section. It is configured to guide air from the lower part of the inner wall to the air flow passage and exhaust it to the outside from the exhaust port formed on the upper outer wall of the air flow passage. At the exhaust port, a ventilation fan is attached and the ventilation fan is installed on the roof. A stone-framed ossuary structure that is constructed to be driven by a solar cell.   In the ossuary obtained by installing a plurality of pillars on the base and inserting wall materials into the grooves carved in the stanchions, inside and outside the ossuary with solar cells with modules on the roof Stone structure ossuary structure by assembling method, which is configured to drive the lighting of the house, the lighting of the worship equipment, the air conditioning equipment and the drainage equipment, etc.   On the inner surface of the wall material constituting the ossuary chamber, a plurality of grooves are engraved in the vertical direction at predetermined intervals in the lateral direction, and one end of the support plate is fitted into each of the grooves, A stone-framed osteopath by an assembly method that consists of placing a shelf board on top and repeatedly fitting one end of the support plate into each groove on the shelf board to form a multi-stage multi-stage bone locker Construction.   On the inner surface of the wall material constituting the ossuary chamber, a plurality of grooves are engraved in the vertical direction at predetermined intervals in the lateral direction, and one end of the support plate is fitted into each of the grooves, A shelf plate is placed on the top plate, and further, one end of the support plate is repeatedly fitted into each groove on the shelf plate to form a multistage multi-stage bone locker, and an upper surface on the front side of the shelf plate and A stone-framed ossuary structure with an assembly method that is configured to have a door groove on the bottom and a door to be detachable by using the door groove.

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