阅读说明：本技术 骨灰盒套具 (Cinerary casket set ) 是由 闵泽基 于 2018-12-29 设计创作，主要内容包括：本发明涉及一种骨灰盒套具。其特征在于,该骨灰盒套具包括：主腔室,其具有保管遗骨的空间；止回阀部,其结合于所述主腔室并将所述主腔室开闭；以及控制室,其结合于所述止回阀部并与所述主腔室连通。由此,可以持续地保管骨灰盒内的内容物。(The invention relates to a cinerary casket set. It is characterized in that the cinerary casket set comprises: a main chamber having a space for storing the remains; a check valve portion that is coupled to the main chamber and opens and closes the main chamber; and a control chamber coupled to the check valve portion and communicating with the main chamber. Thereby, the contents in the cinerary casket can be continuously stored.)

1. An urn set, comprising: a main chamber having a space for storing the remains; a check valve portion having a first check valve formed detachably or integrally with the main chamber and a second check valve formed detachably with respect to the first check valve, the second check valve being coupled to the first check valve and communicating with the first check valve; and a control chamber formed detachably or integrally with respect to the second check valve, coupled to the second check valve and communicating with the main chamber,

the first check valve has: a first cylindrical portion which is cylindrical and is coupled to the main chamber; a first support table formed on an inner peripheral surface of an end portion of the first cylindrical portion facing the interior of the main chamber and having a first communication hole; a first opening/closing plate formed between both end portions of the first cylindrical portion and having a first opening/closing hole; a first pestle having one end supported by the first support table and the other end penetrating the first opening/closing hole; and a first spring disposed between the first support table and the first pestle, for pressing the first pestle in a direction of the first opening/closing plate,

the second check valve has: a second cylindrical portion which is cylindrical and is combined with a recessed portion formed at an upper portion of the control chamber; a second support base formed on an inner peripheral surface of an end portion of the second cylindrical portion facing the inside of the control chamber and having a second communication hole; a second opening/closing plate formed between both end portions of the second cylindrical portion and having a second opening/closing hole; a second pestle having one end supported by the second support base and the other end penetrating the second opening/closing hole; and a second spring disposed between the second support base and the second pestle for pressing the second pestle in the direction of the second opening/closing plate,

when the first check valve and the second check valve are combined, the other end portion of the first pestle is connected to the other end portion of the second pestle, the first pestle moves in the direction of the first support table, and the second pestle moves in the direction of the second support table.

2. The urn kit of claim 1, wherein the first support table is removably or integrally formed with respect to the first cylindrical portion and the second support table is removably or integrally formed with respect to the second cylindrical portion.

3. The urn kit of claim 1, wherein when the first check valve is removably formed with respect to the main chamber and the second check valve is removably formed with respect to the control chamber, sealing members are disposed between the main chamber and the first check valve, between the control chamber and the second check valve, and between the first opening and closing plate and the first pestle, and between the second opening and closing plate and the second pestle.

4. The urn kit as claimed in claim 1, characterized in that the main chamber has a short tubular coupling part formed in the wall of the main chamber and a socket part formed detachably or integrally with respect to the coupling part,

the first check valve is formed detachably or integrally with respect to the socket portion.

5. The urn kit according to any of claims 1-4, characterized in that the control chamber is formed in a high vacuum state.

6. Cinerary casket kit according to any of the claims 1-4, characterized in that the control chamber is filled with a high pressure corrosion resistant gas.

7. Cinerary casket kit according to any of the claims 1-4, characterized in that the control chamber is filled with a dehumidifying agent.

8. The urn kit as claimed in any of claims 1-4, characterized in that the first cylindrical part is formed with a filter at its end facing in the direction of the interior of the main chamber.

9. The urn set according to any one of claims 1-4, further comprising an extension wall extending from the wall of the main chamber and forming a sheltered space separate from the space in the main chamber,

the check valve portion and the control chamber are located within the shielded space.

Technical Field

The present invention relates to a cinerary casket set, and more particularly, to a cinerary casket set capable of continuously keeping the contents in the cinerary casket.

Background

China always likes the funeral method of the burial mode, but recently, the funeral method of the cremation mode gradually gets liking due to the reduction of the land use area of the graveyard and the easiness of management.

The remains generated by cremation are made into powder form and stored in the cinerary casket.

As described in "cinerary urn" of registration No. 20-0418664, the cinerary urn is composed of a main body 2 having a space for keeping remains of remains and a cover 1 closing the main body 2. However, since the remains in the cinerary urn are rotten or deteriorated when moisture or the like flows into the cinerary urn, it is necessary to make a structure for completely isolating the inside of the cinerary urn from the outside.

In the "cinerary casket assembly" registered No. 20-0459499 shown in FIG. 5, the inside of the cinerary casket is sealed by inserting a seal ring 21 between the main body 10 and the lid 20A. An injection port 26A is formed in the lid 20A, and the deterioration of the remaining bone in the cinerary urn is prevented by filling the space in the closed cinerary urn with the anticorrosive gas. However, since the operation of filling the cinerary urn with the anticorrosive gas requires an expert to use expensive equipment, it is not easy to separately fill the cinerary urn with the anticorrosive gas, and the difference in temperature between the inside and the outside of the cinerary urn causes dew condensation in the cinerary urn when the temperature of the outside of the cinerary urn varies with seasons, and it is difficult to prevent dew condensation even by the anticorrosive gas filled in the cinerary urn.

In the cinerary urn for preventing moisture and malodor shown in fig. 6, registration No. 10-1060706, a charcoal layer 30 is formed at the periphery of a first case 20 for holding remains, and charcoal in the charcoal layer absorbs moisture and malodor. However, since charcoal has a limited dehumidifying ability, when the storage time is prolonged, charcoal does not function any more and the remains may deteriorate.

The present applicant has applied and registered the "cinerary casket" registered No. 10-0439762. As shown in FIG. 7, the "cinerary casket" is provided with a pressure gauge 5 connected to the capsule 2 for keeping the remains of bones, so that the pressure in the capsule 2 can be confirmed. However, the pressure gauge of the "cinerary casket" can only confirm the pressure in the capsule, and cannot prevent the pressure in the capsule from being converged with the pressure outside over time, and also cannot prevent the dew condensation in the capsule from occurring, so that there is a problem that a separate device is required to prevent the dew condensation in the capsule.

On the other hand, in order to prevent damage or deterioration of ancient books and cultural heritage due to moisture, it is necessary to adjust the humidity of the storage space.

Disclosure of Invention

In order to solve the problems of the prior art as described above, the present invention provides an urn cover which can continuously prevent the generation of moisture, etc. in the urn.

In addition, it provides an urn suite which can easily maintain and manage the urn when the urn is stored by individuals.

To solve the above-mentioned problems, according to a preferred embodiment of the present invention, there is provided a cinerary casket set, comprising: a main chamber having a space for storing the remains; a check valve portion having a first check valve formed detachably or integrally with the main chamber and a second check valve formed detachably with respect to the first check valve, the second check valve being coupled to the first check valve and communicating with the first check valve; and a control chamber formed detachably or integrally with respect to the second check valve, connected to the second check valve and communicating with the main chamber; the first check valve has: a first cylindrical portion which is cylindrical and is coupled to the main chamber; a first support table formed on an inner peripheral surface of an end portion of the first cylindrical portion facing the inside of the main chamber and having a first communication hole; a first opening/closing plate formed between both end portions of the first cylindrical portion and having a first opening/closing hole; a first pestle having one end supported by the first support table and the other end penetrating the first opening/closing hole; and a first spring disposed between the first support table and the first pestle, and pressing the first pestle in a direction of the first opening/closing plate; the second check valve has: a second cylindrical portion having a cylindrical shape and coupled to a recess portion formed at an upper portion of the control chamber; a second support base formed on an inner peripheral surface of an end portion of the second cylindrical portion facing the inside of the control chamber and having a second communication hole; a second opening/closing plate formed between both end portions of the second cylindrical portion and having a second opening/closing hole; a second pestle having one end supported by the second support base and the other end penetrating the second opening/closing hole; and a second spring disposed between the second support base and the second pestle, and configured to press the second pestle in the direction of the second opening/closing plate; when the first check valve and the second check valve are combined, the other end portion of the first pestle is connected to the other end portion of the second pestle, the first pestle moves in the direction of the first support table, and the second pestle moves in the direction of the second support table.

According to another embodiment of the present invention, there is provided a cinerary casket kit characterized in that the first support table is detachably or integrally formed with respect to the first cylindrical portion and the second support table is detachably or integrally formed with respect to the second cylindrical portion.

According to another embodiment of the present invention, there is provided an ash tray set, wherein when the first check valve is detachably formed with respect to the main chamber and the second check valve is detachably formed with respect to the control chamber, sealing members are disposed between the main chamber and the first check valve, between the control chamber and the second check valve, and between the first opening and closing plate and the first pestle, and between the second opening and closing plate and the second pestle.

According to another embodiment of the present invention, there is provided a cinerary casket kit characterized in that the main chamber has a short tubular joint formed in the wall of the main chamber and a socket formed detachably or integrally with respect to the joint, and the first check valve is formed detachably or integrally with respect to the socket.

According to another embodiment of the present invention, there is provided a cinerary casket set characterized in that the control chamber is formed in a high vacuum state.

According to another embodiment of the invention, there is provided a cinerary casket kit characterized in that the control chamber is filled with a high pressure corrosion resistant gas.

According to another embodiment of the invention, there is provided a cinerary casket kit characterized in that the control chamber is filled with a dehumidifying agent.

According to another embodiment of the invention, there is provided a cinerary casket set characterized in that the first cylindrical part is formed with a filter at the end facing the inside of the main chamber.

According to another embodiment of the present invention, there is provided a cinerary casket set characterized by further having an extension wall which is extended from the wall body of the main chamber and forms a shielding space separated from the space in the main chamber, the check valve part and the control chamber being located in the shielding space.

Effects of the invention

According to the cinerary casket set of the invention, the control chamber is used for maintaining proper conditions, thereby being capable of preventing the deterioration or the decay of the remains kept in the main chamber, and when the conditions in the main chamber are not proper any more after a long time, the main chamber and the control chamber can be communicated to recover proper conditions.

The check valve part of the cinerary casket set is composed of a first check valve and a second check valve, and the condition in the main cavity can be recovered or adjusted only by replacing the control cavity, so that the remains can be easily and continuously managed without special devices.

The first check valve and the second check valve are detachably formed with respect to the respective chambers, and the respective chambers can be easily filled with contents such as remains, a desiccant, and the like.

When the cinerary casket set is further provided with a filter, the remains in the powder state can be prevented from flowing out of the main chamber.

The cinerary casket set can also be used for long-term storage of ancient books, cultural heritage or seeds and the like.

Drawings

Fig. 1 is an exploded perspective view of an urn kit according to the invention,

fig. 2 is a sectional view of an urn kit according to the invention,

fig. 3 is an explanatory view relating to the operation of the urn kit according to the invention,

fig. 4 is a related explanatory view of another embodiment of the cinerary casket kit according to the invention,

figure 5 is an illustration relating to a prior art "urn assembly",

figure 6 is a view related to the related art "cinerary urn for preventing moisture and malodor",

fig. 7 is an explanatory view relating to a related art "cinerary casket".

Detailed Description

Before the present invention is explained in detail by the preferred embodiments of the present invention, the terms or words used in the present specification and claims should not be construed as being limited to the meanings in the conventional or dictionary, but should be construed as the meanings and concepts consistent with the technical idea of the present invention.

In fig. 1 an exploded perspective view of an urn ensemble 1 according to the invention is shown, in fig. 2a cross-sectional view of said urn ensemble 1 is shown.

The urn kit 1 according to the invention mainly consists of a main chamber 100, a non-return valve part 200 and a control chamber 300.

The main chamber 100 has an overall shape of a cylinder, a hexahedron, or the like, and has a space for storing the remains therein. The main chamber 100 is made of a material having airtightness, such as glass, metal, and plastic.

The check valve portion 200 is coupled to the main chamber 100 and closes or opens the space inside the main chamber 100.

In addition, the control chamber 300 is connected to the check valve portion 200, and may selectively communicate with the main chamber 100 through the check valve portion 200. That is, when the check valve 200 closes the space in the main chamber 100, the main chamber 100 is not made to communicate with the control chamber 300, and when the check valve portion 200 opens the space in the main chamber 100, the main chamber 100 is made to communicate with the control chamber 300. The space inside the control chamber 300 is formed with a specific condition or filled with a specific substance, and the condition inside the main chamber 100 can be adjusted when the main chamber 100 is communicated with the control chamber 300.

For example, the control chamber 300 may be formed in a high vacuum state. When the control chamber 300 in the high vacuum state is communicated with the main chamber 100, moisture, gas, or the like in the main chamber 100 may move into the control chamber 300 in order to achieve the balance of the vacuum degrees of the main chamber 100 and the control chamber 300.

The control chamber 300 may be filled with a high pressure corrosion resistant gas. The antiseptic gas is composed of nitrogen, carbon dioxide, etc., and can prevent decay or deterioration of the remains. When the control chamber 300 filled with the high-pressure anticorrosive gas is communicated with the main chamber 100, in order to achieve pressure balance between the main chamber 100 and the control chamber 300, the anticorrosive gas in the control chamber 300 may move into the main chamber 100.

The control chamber 300 may be filled with a desiccant. The dehumidifying agent is composed of calcium carbonate or silica gel, etc., and removes moisture from the air. When the control chamber 300 filled with the dehumidifying agent is communicated with the main chamber 100, moisture in the main chamber 100 is removed, preventing the remains in the main chamber 100 from rotting or deteriorating.

According to the cinerary casket set 1 of the present invention, the control chamber 300 can be used to form a suitable state for keeping the remains in the main chamber 100 for a long time, and the check valve 200 can be used to adjust the communication between the main chamber 100 and the control chamber 300, so that the main chamber 100 can be communicated with the control chamber 300 when the condition of the suitable state in the main chamber 100 needs to be adjusted.

More specifically, the check valve 200 is composed of a first check valve 210 and a second check valve 220.

The first check valve 210 is connected to the main chamber 100 to control the opening and closing of the main chamber 100, and the second check valve 220 is connected to the control chamber 300 to control the opening and closing of the control chamber 300. Such first and second check valves 210 and 220 are detachably formed, and when the first and second check valves 210 and 220 are combined with each other, the first and second check valves 210 and 220 are opened.

That is, the main chamber 100 connected to the first check valve 210 and the control chamber 300 connected to the second check valve 220 can be coupled to or separated from each other by coupling or decoupling the first check valve 210 and the second check valve 220 to each other, and the control chamber 300 can be replaced as needed. For example, after the remains are put into the main chamber 100, the remains or moisture and the like in the main chamber 100 are removed by combining the control chamber 300 in a high vacuum state, and then the anticorrosive gas is injected into the main chamber 100 from which the moisture and the like are removed by combining the control chamber 300 filled with the high-pressure anticorrosive gas. In addition, the control chamber 300 filled with the desiccant is then continuously joined, and dew condensation that may occur in the main chamber 100 due to a change in the external temperature of the main chamber 100 over a long period of time is continuously prevented.

The first check valve 210 and the second check valve 220 are opened when they are coupled to each other and closed when they are separated from each other, so that it is possible to prevent foreign substances, corrosion-resistant gas, etc. from flowing into the main chamber 100 or the control chamber 300 from flowing out to the outside when the control chamber 300 is replaced.

As described above, according to the cinerary casket kit 1 of the present invention, the condition of the proper state in the main chamber 100 can be adjusted only by replacing the control chamber 300, thereby easily and continuously managing the remains without special equipment.

When the check valve 200 is composed of the first check valve 210 and the second check valve 220, the sealing member S1 made of a material such as rubber or silicone is provided between the first check valve 210 and the second check valve 220, thereby improving the sealing property between the first check valve 210 and the second check valve 220.

More specifically, the first check valve 210 includes a first cylindrical portion 211, a first support table 212, a first opening/closing plate 213, a first pestle 214, and a first spring 215.

The first cylindrical portion 211 is formed in a cylindrical shape, and is coupled to the main chamber 100. The first support base 212 is formed to protrude from the inner peripheral surface of an end portion of the first columnar portion 211 facing the inside of the main chamber 100, and the first opening/closing plate 213 is formed between both end portions of the first columnar portion 211. A first communication hole 212a is formed in the center of the first support base 212, and a first opening/closing hole 213a having a diameter that becomes smaller toward the outside of the main chamber 100 is formed in the center of the first opening/closing plate 213. One end of the first pestle 214 is supported by the first support base 212 by the first spring 215, and the other end thereof passes through the first opening/closing hole 213a and protrudes to the other side of the first opening/closing plate 213. The intermediate portion of the first pestle 214 is formed to have a diameter that becomes smaller toward the outside of the main chamber 100 and can engage with the first opening and closing hole 213 a. The first spring 215 is disposed between the first support table 212 and the first pestle 214, and presses the first pestle 214 toward the first opening/closing plate 213 in a supported state by the first support table 212. Thus, when no particular force is applied to the first pestle 214, the first spring 215 brings the first pestle 214 into close contact with the first opening/closing plate 213, and the first pestle 214 maintains the state where the first opening/closing hole 213a is closed, and when a force other than the elastic force of the first spring 215 is applied to the other end portion of the first pestle 214, the first pestle 214 moves toward the first support base 212 and opens the first opening/closing hole 213 a.

The second check valve 220 includes a second cylindrical portion 221, a second support 222, a second opening/closing plate 223, a second pestle 224, and a second spring 225.

The second cylindrical portion 221 is formed in a cylindrical shape and is disposed to penetrate the wall of the control chamber 300. The second support 222 is formed to protrude from an inner circumferential surface of an end portion of the second cylindrical portion 221 facing the inside of the control chamber 300, and the second shutter 223 is formed between both end portions of the second cylindrical portion 221. A second communication hole 222a is formed at the center of the second support 222, and a second opening and closing hole 223a having a diameter that becomes smaller toward the outside of the control chamber 300 is formed at the center of the second opening and closing plate 223. One end of the second pestle 224 is supported by the second support base 222 by a second spring 225, and the other end passes through the second opening/closing hole 223a and protrudes to the other side of the second opening/closing plate 223. The middle portion of the second pestle 224 is formed to be smaller toward the outside of the control chamber 300 and may be engaged with the second opening and closing hole 223 a. The second spring 225 is disposed between the second support base 222 and the second pestle 224, and presses the second pestle 224 in the direction of the second opening/closing plate 223 in a supported state by the second support base 222. Thus, when no particular force is applied to the second pestle 224, the second spring 225 causes the second pestle 224 to be in close contact with the second opening and closing plate 223, the second pestle 224 maintains the state where the second opening and closing hole 223a is closed, and when a force other than the elastic force of the second spring 225 is applied to the other end portion of the second pestle 224, the second pestle 224 moves in the direction of the second support base 222, and the second opening and closing hole 223a is opened.

Such first and second check valves 220 operate as shown in fig. 3. That is, as shown in fig. 3 (a), when the first check valve 210 and the second check valve 220 are not coupled, each maintains a closed state. As shown in fig. 3 (b), when the first check valve 210 and the second check valve are coupled, the other end of the first pestle 214 and the other end of the second pestle 224 are coupled to each other and press each other, so that the first pestle 214 moves toward the first support table 212 and the second pestle 224 moves toward the second support table 222. Thus, when the first check valve 210 and the second check valve 220 are combined, the main chamber 100 and the control chamber 300 communicate with each other.

The first check valve 210 and the second check valve 220 may be combined with each other by a screw fastening method. That is, either one of the first cylindrical portion 211 of the first check valve 210 and the second cylindrical portion 221 of the second check valve 220 may have a screw thread formed on an inner circumferential surface thereof, and the other one may have a screw thread formed on an outer circumferential surface thereof, and the first check valve 210 and the second check valve 220 may be coupled to each other by engaging the respective screw threads. The first check valve 210 and the second check valve 220, which are coupled by a screw fastening method, have excellent coupling force and good airtightness. In addition, the coupling and decoupling of the first check valve 210 and the second check valve 220 may be facilitated, and the control chamber 300 may be easily replaced even by a non-expert.

The first check valve 210 is detachably formed with respect to the main chamber 100, and the second check valve 220 is also detachably formed with respect to the control chamber 300.

In this case, the remaining bone may be put into the main chamber 100 in a state where the first check valve 210 is separated from the main chamber 100, and the dehumidifying agent may be put into the control chamber 300 in a state where the second check valve 220 is separated from the control chamber 300. Further, when the dehumidifying function of the dehumidifying agent in the control chamber 300 is lowered due to the long-term coupling of the control chamber 300 filled with the dehumidifying agent to the main chamber 100, the second check valve 220 may be separated from the control chamber 300, the existing dehumidifying agent may be removed, the second check valve 220 may be coupled to the control chamber 300 again after the new dehumidifying agent is filled, and the condition of the appropriate state in the main chamber 100 may be continuously adjusted by replacing only the dehumidifying agent in the control chamber 300.

When the first check valve 210 is detachably formed from the main chamber 100 and the second check valve 220 is detachably formed from the control chamber 300, it is preferable that a sealing member S2 is inserted in a gap between each check valve and the chamber, so that airtightness of each chamber can be improved.

The first check valve 210 may be detachably formed with respect to the main chamber 100 by a screw fastening method, and likewise, the second check valve 220 may be detachably formed with respect to the control chamber 300 by a screw fastening method.

It is also possible that the first check valve 210 is integrally formed with the main chamber 100 and the second check valve 220 is integrally formed with respect to the control chamber 300. In this case, the urn set according to the invention can be constructed more simply.

The sealing members S4 may be disposed between the first opening/closing plate 213 and the first pestle 214, and between the second opening/closing plate 223 and the second pestle 224.

The sealing member S4 between each opening/closing plate 213, 223 and the pestle 214, 224 improves airtightness when each opening/closing plate 213, 223 and the pestle 214, 224 are in close contact, and effectively prevents air from moving between the opening/closing plate 213, 223 and the pestle 214, 224.

The main chamber 100 may further have a combining portion 130 and a socket portion 140, and the first check valve 210 may be detachably or integrally formed with respect to the opening portion 140 in the main chamber 100.

The coupling portion 130 is formed in a short tubular shape and penetrates the wall of the main chamber 100. As shown in fig. 2, the coupling portion 130 may be formed on the lower end wall of the main chamber 100, or may be formed on the upper end or side end wall.

The socket part 140 is detachably or integrally formed with respect to the coupling part 130.

When the socket portion 140 is formed detachably with respect to the coupling portion 130, the operation of filling the main chamber 100 with the bone remains can be easily performed, and when the socket portion 14 and the coupling portion 13 are formed integrally, the main chamber 100 can be simply configured. The socket portion 130 may be detachably formed with respect to the coupling portion 130 in a screw fastening method.

When the socket portion 140 and the joint portion 130 are detachably formed, a sealing member is preferably disposed between the socket portion 140 and the joint portion 130.

The first support table 212 may be detachably formed or integrally formed with respect to the first cylindrical portion 211, and the second support table 222 may be detachably formed or integrally formed with respect to the second cylindrical portion 221.

When the first support table 212 is formed detachably with respect to the first cylindrical portion 211, the first spring 215 can be easily disposed between the first support table 212 and the first pestle 214, and when the second support table 222 is formed detachably with respect to the second cylindrical portion 221, the second spring 225 can be similarly easily disposed between the second support table 222 and the second pestle 224. Each support base 212, 222 may be detachably formed with respect to each cylindrical portion 211, 222 by a screw fastening method.

When the first support table 212 is integrally formed with the first cylindrical portion 211 and the second support table 222 is integrally formed with the second cylindrical portion 221, the first check valve 210 and the second check valve 220 can be simply configured.

The urn kit 1 according to the invention may further comprise a filter 400.

The filter 400 is disposed at the end of the first cylindrical portion 211 facing the interior of the main chamber 100, and prevents the remaining bones in a state of powder excluding water from flowing out of the main chamber 100 when the control chamber 300 in a high vacuum state is communicated with the main chamber 100.

The urn kit 1 according to the invention may further have an extension wall 500.

The extension wall 500 is extended from the wall of the main chamber 100, and forms a shielding space S separated from the space in the main chamber 100. Further, when the check valve portion 200 and the control chamber 300 are located in the shielding space S, the control chamber 300 and the like can be prevented from damaging the appearance of the cinerary casket set 1.

As shown in fig. 2, since the shielding space S is formed to be open on one side, the operator can easily access the control chamber 300 and the like in the shielding space S.

As shown in fig. 4, in the cinerary casket set 1 according to the present invention, the main chamber 100 may be composed of a main body 110 and a lid 120. When the main chamber 100 has a lid, the lid is made of a transparent material or an opaque material, and when the lid is made of a transparent material, the contents inside the main chamber 100 can be checked from the outside. The cover 120 is made of glass, plastic, stone, metal, or the like.

When the main chamber 100 includes the body 110 and the lid 120, the seal member S3 is inserted between the body 110 and the lid 120, and the airtightness of the main chamber 100 is maintained.

The present invention relates to a cinerary casket set 1 which can be used as a cinerary casket sacrificial table for storing a plurality of cremated remains as described above, and can also be used in a space such as ancient books, cultural heritage, seeds, etc. which need to be managed by adjusting humidity for long-term storage.