KR102319742B1 - Vacuum ashed box - Google Patents

Abstract

The present invention relates to a vacuum ossuary, and more particularly, to a vacuum ossuary capable of maintaining a vacuum state inside the ossuary for a long time.
A vacuum ossuary according to the present invention includes a main body with an open upper portion to accommodate ashes therein, a cover capable of covering the upper portion of the main body, and sealing means mounted on the cover to create a vacuum inside the main body; and a packing means mounted between the main body and the cover by having a first contact portion in contact with the main body and a second contact portion in contact with the cover in order to maintain airtightness inside the main body. In this case, in the vacuum ossuary, the packing means is pressed by the air pressure flowing into the first contact part from the outside due to the pressure difference, and is in close contact with the body to close the first contact part and the body adhesion part sealing the first contact part from the outside due to the pressure difference. The packing means is pressurized by the air pressure flowing into the second contact portion to be in close contact with the cover to form a cover adhesion portion sealing the second contact portion.
According to the present invention, the main body and the cover are provided with grooves for the packing means to be inserted, and the packing means are mounted between the main body and the cover by having an insertion part inserted into the grooves. In this case, when the packing means is pressurized by the air pressure flowing into the first and second contact parts of the packing means in contact with the body from the outside due to the pressure difference, the insertion part of the packing means is in close contact with the grooves of the body and the cover, so that the first contact part and A body-adhesive portion and a cover-adhesive portion are formed to closely contact the second contact portion. Therefore, the packing means can effectively seal between the body and the cover.
In addition, according to the present invention, the packing means is formed with an inclined cutout. In this case, the cut-out part is opened by the air pressure flowing into the first contact part and the second contact part, and the main body and the cover adhesion part are further formed in close contact with the main body and the cover to make the first contact part and the second contact part in close contact. Therefore, since it is possible to effectively seal between the body and the cover, it is possible to easily seal the body and the cover for a long period of time.

Description

Vacuum ashed box

The present invention relates to a vacuum ossuary, and more particularly, to a vacuum ossuary capable of maintaining a vacuum state inside the ossuary for a long time.

In burial culture, there is a burial method in which the body of the deceased is placed in a coffin and burial method, and a cremation method in which the remains after cremation are placed in an ossuary and placed in an ossuary. Recently, due to the lack of space for cemetery creation, the method of burial in the ossuary through cremation rather than the method of burial is increasing. Therefore, there is an increasing demand for an ossuary to store ashes and place them in an ossuary.

Early ossuaries were simple structures consisting of a simple ceramic or stone container and a lid sealing the container. In this case, when the ashes are stored for a long time, there is a problem that the ashes are easily deteriorated due to changes in moisture and temperature. Therefore, recently, to prevent this, a vacuum ossuary is being developed to prevent deterioration of the remains by creating a vacuum inside the ossuary.

Public Utility Model No. 20-2008-0000775 (published on April 30, 2008) Laid-open Patent Publication No. 10-2002-0095531 (published on December 27, 2002)

In the case of the conventional vacuum ossuary, the inside of the ossuary is initially maintained in a vacuum. However, after a certain amount of time, air flows in between the packings due to the pressure difference between the inside and outside of the ossuary. Therefore, there was a problem that it is difficult to preserve the ashes in an intact state for a long time because the ashes are degenerated.

The present invention is to solve the above problems. An object of the present invention is to provide a vacuum ossuary capable of maintaining the inside of the ossuary in a vacuum state for a long time.

A vacuum ossuary according to the present invention includes a main body with an open upper portion to accommodate ashes therein, a cover capable of covering the upper portion of the main body, and sealing means mounted on the cover to create a vacuum inside the main body; and a packing means mounted between the main body and the cover by having a first contact portion in contact with the main body and a second contact portion in contact with the cover in order to maintain airtightness inside the main body. In this case, in the vacuum ossuary, the packing means is pressed by the air pressure flowing into the first contact part from the outside due to the pressure difference, and is in close contact with the body to close the first contact part and the body adhesion part sealing the first contact part from the outside due to the pressure difference. The packing means is pressurized by the air pressure flowing into the second contact portion to be in close contact with the cover to form a cover adhesion portion sealing the second contact portion.

In addition, in the vacuum burial box, it is preferable that the cover is formed with a cover groove for inserting the packing means, and the second contact portion is the air pressure introduced into one side of the cover groove, and the cover groove is the other side of the cover groove. It is preferable to include a cover insertion portion inserted into the cover groove so that the cover adhesion portion is formed.

In addition, in the vacuum burial box, it is preferable that the cover insert part is formed with a cover cutout at the end so that the cover insertion part is spread by the air pressure introduced into one side of the cover groove so that the cover adhesion part is formed on the bottom of the cover groove.

In addition, in the vacuum burial box, it is preferable that the cover cut-out portion is slantedly cut so that the cover-adhesive portion is formed on one side of the cover groove by spreading air pressure introduced into one side of the cover groove.

Alternatively, in the vacuum burial box, it is preferable that the main body is formed with a main body groove for inserting the packing means, and the first contact part is air pressure introduced into one side of the main body groove, and the main body groove is the other side of the main body groove. It is preferable to include a main body insertion portion inserted into the main body groove so that the main body adhesion portion is formed.

In addition, in the vacuum burial box, it is preferable that the main body insertion part is formed with a first body cutout at the end so that the main body insertion part is spread by air pressure introduced into one side of the main body groove so that the main body adhesion part is formed on the bottom of the main body groove.

In addition, in the vacuum burial box, it is preferable that the first main body cut-out part is cut obliquely so that the main body adhesion part is formed on one side of the main body groove by opening the air pressure introduced into one side of the main body groove.

In addition, in the vacuum burial box, the main body is preferably further formed with a chin in the radial direction before the air pressure is introduced into the main body groove, and the first contact part is spread by the air pressure introduced to one side of the chin, so that the It is preferable that a second body cutout is formed on a surface in contact with one side of the chin so that the main body adhesion part is further formed on the bottom of the chin.

In addition, in the vacuum burial box, it is preferable that the second body cut-out portion is slanted so that the main body adhesion portion is further formed on one side of the jaw by the air pressure introduced into one side of the jaw.

According to the present invention, the main body and the cover are provided with grooves for the packing means to be inserted, and the packing means are mounted between the main body and the cover by having an insertion part inserted into the grooves. In this case, when the packing means is pressurized by the air pressure flowing into the first and second contact parts of the packing means in contact with the body from the outside due to the pressure difference, the insertion part of the packing means is in close contact with the grooves of the body and the cover, so that the first contact part and A body-adhesive portion and a cover-adhesive portion are formed to closely contact the second contact portion. Therefore, the packing means can effectively seal between the body and the cover.

In addition, according to the present invention, the packing means is formed with an inclined cutout. In this case, the cut-out part is opened by the air pressure flowing into the first contact part and the second contact part, and the main body and the cover adhesion part are further formed in close contact with the main body and the cover to make the first contact part and the second contact part in close contact. Therefore, since it is possible to effectively seal between the body and the cover, it is possible to easily seal the body and the cover for a long period of time.

1 is a conceptual diagram of an embodiment of a vacuum ossuary according to the present invention;
Figure 2 is a state diagram by the pressure difference of the embodiment shown in Figure 1,
3 is a conceptual view of the main body of the embodiment shown in FIG. 1;
Figure 4 is a conceptual view of the cover of the embodiment shown in Figure 1,
5 is a conceptual diagram of the packing means of the embodiment shown in FIG.

An embodiment of a vacuum ossuary according to the present invention will be described with reference to FIGS. 1 to 5 .

The vacuum ossuary according to the present invention includes a main body 10 , a cover 20 , a sealing means 30 and a packing means 40 .

The body 10 has an open top so that the ashes can be accommodated therein. Here, the main body 10 has a main body groove 11 formed at the upper end so that the packing means 40 for sealing the space between the cover 20 and the cover 20 can be inserted, and a chin 13 is formed on the outside in the radial direction of the main body groove 11 . ) is formed.

The cover 20 covers the upper portion of the body 10 . Here, the cover 20 has a cover groove 21 formed therein so that the packing means 40 for sealing the space between the body 10 and the body 10 can be inserted, and a protrusion 23 is formed on the outside in the radial direction of the cover groove 21 . cut to form. At this time, the protrusion 23 is preferably located on the inside of the jaw 13 in the radial direction. That is, it is preferable that the outer diameter of the protrusion 23 is smaller than the inner diameter of the jaw 13 . This is to allow the protrusion 23 to be inserted into the chin 13 when the cover 20 is coupled with the packing means 40 to close the main body 10 . In addition, the cover 20 has a groove 25 in which the sealing means 30 can be accommodated in order to make the inside of the main body 10 a vacuum in the center, and the groove 25 is formed in the upper part of the cover 20 . After being formed into a cylindrical shape, it is formed into a cone shape. So, the cone-shaped vertex points toward the bottom of the cover 20 . And the cover 20 has a hole 26 that penetrates from the vertex of the groove 25 to the bottom so that it can communicate with the inside of the body 10 from the outside.

The sealing means 30 uses a vacuum pump (not shown) to suck the air inside the body 10 to the outside. Here, since the sealing means 30 is disclosed in the prior art, a detailed description thereof will be omitted.

The packing means 40 is mounted between the main body 10 and the cover 20 to maintain airtightness inside the main body 10 . To this end, the packing means 40 includes a first contact portion 41 and a second contact portion 47 . Here, the packing means 40 may be formed of silicon or rubber.

The first contact portion 41 is in contact with the body 10 . That is, the first contact portion 41 comes into contact with the upper end of the main body 10 along the main body groove 11 and the chin 13 when the packing means 40 is fitted to the upper end of the main body 10 . Here, the first contact portion 41 has a second body cut-out portion 42 formed therein, and includes a body insertion portion 44 .

The second contact portion 47 is in contact with the cover 20 . That is, the second contact portion 47 comes into contact with the lower surface of the cover 20 along the cover groove 21 and the protrusion 23 when the packing means 40 is fitted to the lower portion of the cover 20 . Here, the second contact portion 47 includes a cover insertion portion 48 .

The main body 10 and the packing means 40 have a first contact portion 41 in contact with the main body 10, and the cover 20 and the packing means 40 have a second contact portion 47 in contact with the cover, so that sealing is impossible. should be However, when there is a pressure difference between the inside and outside of the vacuum ossuary, the packing means 40 is contracted by the external air pressure, so that the first contact part 41 is slightly separated from the main body 10, and the second contact part 47 is It is slightly separated from the cover 20 and a gap is formed. In this case, the air from the outside flows into the inside of the vacuum ossuary through the gap.

The second body cutout portion 42 and the main body insertion portion 44 of the first contact portion 41 serve to seal between the body 10 and the packing means 40 even if there is a pressure difference between the inside and the outside of the vacuum ossuary. do.

The second body cut-out portion 42 is opened by the air pressure introduced into one side 13a of the jaw 13 so as to be in close contact with the body 10, one side 13a of the jaw 13 of the first contact portion 41 formed on the surface in contact with That is, the second main incision part 42 is opened and pressurized by the air pressure introduced into the one side 13a of the chin 13 to close the bottom 13b of the chin 13 to seal the first contact part 41 . The second body cut-out portion 42 is formed so that the body adhesion portion 60a is formed. At this time, the second body cutout 42 is spread by the air pressure introduced into one side 13a of the jaw 13 and is also in close contact with one side 13a of the jaw 13 to form the body adhesion portion 60b. The incision is obliquely downward from the So, when air pressure is introduced into the first contact part 41 of the packing means 40, the packing means 40 is pressed and in close contact with one side 13a and the bottom 13b of the jaw 13 of the body 10, the body ( 10) and the first contact portion 41 is formed with a body adhesion portion (60) for sealing.

The main body insertion portion 44 is inserted into the main body groove 11, and a first main body cut-out portion 46 is formed at an end thereof to be opened by air pressure introduced into one side 11a of the main body groove 11. Since the main body inserting part 44 is inserted into the main body groove 11, the main body inserting part 44 is pressurized by the air pressure introduced into one side 11a of the main body groove 11, and the other side 11b of the main body groove 11 is pressed. clings to Therefore, the body adhesion portion 60c for sealing between the main body 10 and the first contact portion 41 is formed. In addition, the first body cutout portion 46 is pressurized as it opens and is in close contact with the bottom 11c of the main body groove 11 to seal the body 10 and the first contact portion 41 between the main body 10 and the first contact portion 41. The body adhesion portion 60d is is formed At this time, the first body cut-out part 46 is also spread by the air pressure introduced into one side 11a of the body groove 11 in the same way as the second body cut-out part 42, so that the main body is placed on one side 11a of the body groove 11 . The incision is obliquely from the upper side to the lower side so that the contact part 60e can be formed. Therefore, the body adhesion parts 60e and 60d are formed on one side 11a and the bottom 11c of the body groove 11 by the first body cutout part 46 .

The cover insertion portion 48 of the second contact portion 47 serves to seal between the cover 20 and the packing means 40 even if there is a pressure difference between the inside and the outside of the vacuum ossuary.

The cover insertion part 48 is inserted into the cover groove 21 , and the cover cutout 50 is formed at an end thereof to be opened by air pressure introduced into one side 21a of the cover groove 21 . Since the cover insertion portion 48 is inserted into the cover groove 21, the cover insertion portion 48 is pressurized by the air pressure introduced into one side 21a of the cover groove 21, and the other side 21b of the cover groove 21 is pressed. clings to Thus, a cover adhesion portion 70a for sealing between the cover 20 and the second contact portion 47 is formed. In addition, the cover cut-out portion 50 is pressurized as it opens and is in close contact with the bottom 21c of the cover groove 21 to form a cover adhesion portion 70b for sealing between the cover 20 and the second contact portion 47 . . At this time, the cover cutout 50 is opened by the air pressure introduced into one side 21a of the cover groove 21 , so that the cover adhesion part 70c can be formed also on one side 21a of the cover groove 21 from the lower side to the upper side. is obliquely incised with So, the cover-adhesive portions 70c and 70b are formed on one side 21a and the bottom 21c of the cover groove 21 by the cover cutout 50 .

In the case of this embodiment, first, the ashes are put in the interior of the main body 10 , and the packing means 40 is inserted into the cover 20 so that the cover insertion part 48 of the packing means 40 is inserted into the cover groove 21 . install it And the body insertion part 44 of the packing means 40 is inserted into the body groove 11 so that the cover 20 on which the packing means 40 is mounted can cover the upper part of the body 10, the cover 20 is coupled to the upper end of the body 10 . Then, as shown in FIG. 1 , the packing means 40 is in close contact with the body 10 and the cover 20 to seal between the body 10 and the cover 20 . And when the vacuum pump sucks air from the groove 25 of the cover 20 , the hole 26 is opened by the sealing means 30 , and the inside of the main body 10 becomes vacuum. Then, a pressure difference occurs between the inside and outside of the ossuary. Therefore, due to the pressure difference, a gap is generated between the body 10 and the packing means 40 and between the cover 20 and the packing means 40 as shown in FIG. Air pressure is introduced between the 10 and the first contact portion 41 and between the cover 20 and the second contact portion 47 .

As shown in FIG. 2 , when air pressure is introduced into the gap between the main body 10 and the first contact part 41 along the arrow A, the second body is caused by the air pressure introduced to one side 13a of the jaw 13 . The cut-out portion 42 is deformed while being pressurized. Then, the first contact portion 41 is in close contact with the lower portion of the bottom 13b and one side 13a of the chin 13 to form the body adhesion portions 60a and 60b. So, the first contact portion 41 is a body adhesion portion 60a that seals between the main body 10 and the first contact portion 41 on two surfaces in contact with the lower portion of the bottom 13b and one side 13a of the jaw 13 . , 60b) is formed, so that it is possible to seal between the body 10 and the packing means 40 .

On the other hand, even if air continues to flow through the body adhesion parts 60a and 60b, one surface of the body insertion part 44 in contact with one side 11a of the body groove 11 is pressed by the introduced air pressure, so that the body insertion part ( While the other surface of the 44) is in close contact with the other side 11b of the main body groove 11, the body adhesion portion 60c is formed. At this time, since the first main body cut-out part 46 cut obliquely is formed in the main body insertion part 44, the first body cut-out part 46 is pressed by the air pressure introduced into one side 11a of the main body groove 11. It expands and transforms. Then, the bottom surface of the main body insertion part 44 is in close contact with the bottom 11c of the main body groove 11, and one surface of the main body inserting part 44 is in close contact with one side 11a of the main body groove 11, and the main body adhesion part (60d, 60e) is formed. Therefore, the main body insertion portion 44 is the main body for sealing between the main body 10 and the first contact portion 41 on three surfaces in contact with the other side 11b, the bottom 11c, and the one side 11a of the main body groove 11 . Since the contact portions 60c, 60d, and 60e are formed, it is possible to seal between the main body 10 and the packing means 40 . Therefore, in the present embodiment, a plurality of body adhesion portions 60a, 60b, 60c, 60d, and 60e are formed between the main body 10 and the first contact portion 41, so that they can be sealed in multiple ways.

On the other hand, as shown in FIG. 2 , when air pressure flows along the arrow B into the gap between the cover 20 and the second contact part 47 , the protrusion part is caused by the air pressure flowing into one side 23a of the protrusion part 23 . One surface in contact with the one side (23a) of (23) is pressed. At this time, in the case of this embodiment, since the protrusion 23 is inserted into the chin 13, the second contact part 47 in contact with the one side 23a of the protrusion 23 is pressed and deformed, one side of the chin 13 The first contact portion 41 in contact with the 13a is pressed. In this case, since the first contact portion 41 is pressed by the air pressure introduced between the cover 20 and the second contact portion 47 , the gap formed in the upper portion of the one side 13a of the jaw 13 can be reduced.

One side of the cover insertion portion 48 in contact with one side 21a of the cover groove 21 is joined by the air pressure introduced between the cover 20 and the second contact portion 47, so that the other surface of the cover insertion portion 48 is While in close contact with the other side (21b) of the cover groove (21), the cover adhesion portion (70a) is formed. At this time, since the cover insert 48 is formed with a cover cutout 50 cut obliquely, the cover cutout 50 is pressed by the air pressure introduced into one side 21a of the cover groove 21 and is deformed as it opens. do. Then, the bottom surface of the cover insertion part 48 is in close contact with the bottom 21c of the cover groove 21 , and one surface of the cover insertion part 48 is in close contact with one side 21a of the cover groove 21 , and the cover adhesion part (70b, 70c) is formed. So, the cover insertion part 48 is a cover for sealing between the cover 20 and the second contact part 47 on three surfaces in contact with the other side 21b and the bottom 21c and one side 21a of the cover groove 21 . Since the close contact portion 70 is formed, it is possible to seal between the cover 20 and the packing means 40 . On the other hand, the cover insertion portion 48 is formed to be inclined so that one side of the end portion where the cover cutout portion 50 is formed is high. In this case, when the cover insertion portion 48 is inserted into the cover groove 21, one side of the end is inserted into the cover groove 21 before the other side is pressed, so the cover insertion portion 48 is deformed and the cover cutout 50 ), the incision area becomes smaller. Therefore, even if the introduced air pressure is small, since the cover cut-out portion 50 can be pressed and deformed, it is possible to more easily seal between the cover 20 and the second contact portion 47 .

In the conventional case, initially, the inside of the ossuary is maintained in a vacuum, but after a certain amount of time, air is introduced between the packings due to the pressure difference between the inside and the outside of the urn. Therefore, there was a problem that it is difficult to preserve the ashes in an intact state for a long time because the ashes are degenerated. On the other hand, according to the present embodiment, the main body 10 and the cover 20 are formed with a main body groove 11 and a cover groove 21 for the packing means 40 to be inserted, and the packing means 40 is a main body groove. (11) and the body insertion portion 44 and the cover insertion portion 48 to be inserted into the cover groove 21 is mounted between the body 10 and the cover (20). In this case, when the packing means 40 is pressed by the air pressure flowing into the first contact portion 41 from the outside due to the pressure difference, one surface of the main body insertion portion 44 is in close contact with the main body groove 11 and the first contact portion 41 ) is formed, and when the packing means 40 is pressed by the air pressure flowing into the second contact part 47, one surface of the cover insertion part 48 is in close contact with the cover groove 21. Since the cover adhesion portion 70a for sealing the second contact portion 47 is formed, it is possible to effectively seal between the main body 10 and the cover 20 . In addition, according to this embodiment, the packing means 40 is formed with a first body cut-out portion 46, a second body cut-out portion 42, and a cover cut-out portion 50 which are inclinedly cut. In this case, when the packing means 40 is pressurized by the air pressure flowing into the first contact part 41 , one surface and the bottom of the first contact part 41 in contact with one side 13a and the bottom 13b of the jaw 13 . One surface and the bottom surface of the surface and the main body insertion portion 44 are in close contact with the jaw 13 and the main body groove 11 to seal the first contact portion 41. The body adhesion portions 60a, 60b, 60d, and 60e are further added. formed, and when the packing means 40 is pressed by the air pressure flowing into the second contact portion 47, one surface and the bottom surface of the cover insertion portion 48 are in close contact with the cover groove 21 to close the second contact portion 47. The sealing cover adhesion portions (70b, 70c) are further formed. Therefore, since it is possible to effectively seal between the main body 10 and the cover 20, it is possible to easily seal the main body 10 and the cover 20 for a long period of time.

10: main body 11: main body groove
11a: one side 11b: the other side
11c: bottom 13: jaw
13a: one side 13b: bottom
20: cover 21: cover groove
21a: one side 21b: the other side
21c: bottom 23: protrusion
23a: one side 25: groove
26: hole 30: sealing means
40: packing means 41: first contact part
42: second body cutout 44: body insertion part
46: first body cut-out 47: second contact part
48: cover insert 50: cover cutout
60 (60a, 60b, 60c, 60d, 60d): body attachment part 70 (70a, 70b, 70c): cover attachment part

Claims (9)

A main body with an open upper portion and a main body groove formed on the upper end to accommodate the ashes therein, a cover having a cover groove formed to cover the upper part of the main body, and mounted on the cover to create a vacuum inside the main body A sealing means for maintaining the airtightness of the inside of the main body is provided with a main body insertion unit inserted into the main body groove, and a first contact unit in contact with the main body and a cover insertion unit inserted into the cover groove to contact the cover. In the vacuum ossuary comprising a packing means mounted between the main body and the cover provided with a second contact portion,
The main body inserting unit pressurizes the packing means from one side of the main body groove by the air pressure flowing into the first contact unit from the outside due to the pressure difference, so that the main body is in close contact with the main body at the other side of the main body groove to close the first contact unit. An adhesion part is formed,
The cover inserting unit presses the packing means from one side of the cover groove by the air pressure flowing into the second contact unit from the outside due to the pressure difference, and is in close contact with the cover at the other side of the cover groove to seal the second contact unit. An adhesion part is formed,
The cover insertion part is a vacuum ossuary, characterized in that the cover cutout is formed at the end so that the packing means is opened by the air pressure flowing into the second contact part, so that the cover adhesion part is formed at the bottom of the cover groove. According to claim 1,
The cover cutout is opened by the air pressure introduced into one side of the cover groove, and the vacuum ossuary, characterized in that the incision is obliquely cut so that the cover adhesion portion is formed on one side of the cover groove. 3. The method of claim 2,
The main body insertion part is opened by the air pressure introduced into one side of the main body groove, the vacuum ossuary, characterized in that the first body cutout is formed at the end so that the main body adhesion portion is formed on the bottom of the main body groove. 4. The method of claim 3,
The first main body cut-out part is opened by the air pressure introduced into one side of the main body groove, vacuum ossuary, characterized in that the incision is obliquely cut so that the main body adhesion portion is formed on one side of the main body groove. 5. The method of claim 4,
The main body is further formed with a chin in the radial direction before the air pressure flows into the main body groove,
The first contact portion is spread by the air pressure introduced into one side of the jaw, and a second body cutout is formed on the surface in contact with one side of the jaw so that the body adhesion portion is further formed on the bottom of the jaw. 6. The method of claim 5,
The second main body cut-out portion is opened by the air pressure introduced to one side of the jaw, characterized in that the vacuum ossuary, characterized in that the incision is inclined so that the body adhesion portion is further formed on one side of the jaw. delete delete delete

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