KR200463100Y1 - Vacuum Cinerary Box - Google Patents

Abstract

The present invention relates to a vacuum ossuary, and the ossuary consisting of a storage container and a lid is provided with a diaphragm in which a central portion is moved up and down according to a vacuum state, and the upper surface of the diaphragm has a lid inside during the vacuum. Install the vacuum indicator that flows into the inside of the container, and when the air flows into the inside of the container, install the carbon spring between the lid and the diaphragm so that the air flows into the top of the lid to maintain the inside of the bin The bone flour will be stored for a long time without decay.

Description

Vacuum Cinerary Box {

The present invention relates to a vacuum ossuary, and more particularly, a diaphragm in which a central portion is moved up and down according to a vacuum state is installed in the ossuary consisting of a storage container and a lid, and the inside of the storage container is provided on an upper surface of the diaphragm. Vacuum is installed inside the lid when the vacuum is installed, and when the air flows into the inside of the storage container, a carbon spring is installed between the lid and the diaphragm so that the inflow air from the lid protrudes to the upper portion of the lid, so that the vacuum in the bin is When the state is released, the vacuum indicator protrudes to the upper part of the crypt to make it visible, so that the administrator can keep the crypt in a vacuum at all times. In this way, the interior of the crypt is kept in a vacuum state so that the bone powder is not decayed. It's about a vacuum bin that can be stored for a long time.

In general, when a person dies, the body is buried or cremated, and in Korea, the burial of the body is widely practiced according to Confucian tradition.

However, in order to bury the dead, tombs are made, and as the tombs are made, they occupy a large part of the country and in the process of creating the tombs, the land is damaged a lot and the natural landscape is not beautiful. .

In order to improve such a burial culture, it was recommended that the body be cremated and put in the ossuary to store the bone powder generated by the cremation.

However, the problem of the conventional crypt box is that the crypt box for storing bone powder is being stored inside the crypt box because the device which discharges the air inside the blastbox to the outside in a sealed state is not implemented at all, so that the inside of the blastbox is vacuumed. There is a problem that can not be stored for a long time.

In addition, because the condensation caused by the temperature difference in the ossuary penetrates into the bone powder as it is, there was a problem that odor occurs in the bone powder stored in the ossuary box.

Therefore, the present invention for solving the above problems by separating the storage container for storing bone powder into the enclosure and the inner box, by forming a condensation prevention groove on the inner surface of the enclosure, bone powder stored in the inside of the ossuary box due to the temperature difference Due to the condensation that is decaying due to the odor can be prevented, and the lid constituting the ossuary discharges the air existing inside the ossuary to the outside, and moves up and down in accordance with the discharged air of the ossuary By combining the vacuum indicator to visually identify the vacuum status, the manager who manages the ossuary can apply the vacuum to the ossuary in accordance with the oscillation of the ossuary so that the ossuary can be kept in a vacuum so that the bones can be kept clean. It is aimed at providing a vacuum bin box.

The present invention for achieving the above object,

In the vacuum crumb box including a bin that is composed of a storage container into which bone meal can be put and a lid coupled to an upper surface of the storage container,

Form a fitting hole in the center of the lid,

The small diameter vertical hole and the large diameter coupling hole are formed so as to communicate with each other in the upper and lower portions, and the engaging portion inserted into the fitting hole is formed in the center, and the center portion moves up and down according to the vacuum state of the storage container. The diaphragm is sealed to the lower side of the lid,

The second O-ring, which is contracted by the fixing part fitted into the coupling hole and blocks external air from entering the inside of the storage container, is inserted into the end portion between the coupling hole and the vertical hole,

Pressing and contracting the second O-ring, screwing the fixing portion having a central hole in communication with the coupling hole from the lower side to the inside of the coupling hole,

A discharge hole for discharging the internal air of the storage container to the outside is formed, the vacuum display portion immersed inside the fitting hole during the vacuum of the storage container and raised above the fitting hole during non-vacuum, is fitted into the vertical hole of the coupling portion,

It is characterized in that the operating member is provided between the lid and the coupling portion provided with a carbon spring to elastically so that the vacuum display portion rises by the air flowing into the storage container.

According to the present invention, the storage container for storing bone powder is separated into an enclosure and an inner box, and by forming a condensation preventing groove on the inner surface of the enclosure, the bone powder stored in the inside of the cage is decayed due to condensation caused by temperature difference. Odor can be prevented from occurring, and the lid constituting the ossuary is discharged to the outside of the inside of the ossuary to the outside, and the vacuum state of the ossuary is visually identified while being moved up and down according to the discharged air. It is possible to expect the effect of keeping the bone powder clean because the administrator who manages the ossuary can apply vacuum to the ossuary in accordance with the vacuum state of the ossuary so that the ossuary can be kept in a vacuum. will be.

1 is an exploded perspective view of the vacuum ossuary box of the present invention.
Figure 2 is a cross-sectional view of the vacuum oscillator bin of the present invention.
3 and 4 are cross-sectional views showing the operating state of the operating member of the present invention.
5 is a partially enlarged cross-sectional view showing an operating state of the operating member of the present invention.
Figure 6 is a partially enlarged cross-sectional view showing a state in which the second O-ring of the present invention is pressed.
7 is a partial cross-sectional view showing an elastic member of the vacuum coarse box of the present invention.

Hereinafter, with reference to the accompanying Figures 1 to 7 will be described a preferred embodiment of the present invention.

According to the drawings the present invention,

In the vacuum ossuary including a storage container 1 into which bone meal can be put and a urine box 100 composed of a lid 10 coupled to an upper surface of the storage container 1,

In the center portion of the lid 10 forms a fitting hole 11,

A small diameter vertical hole 53 and a large diameter coupling hole 51 are formed to communicate with each other at the top and bottom, and the coupling part 50 fitted into the fitting hole 11 protrudes from the center. In accordance with the vacuum state of the storage container (1), the diaphragm 20, the center portion of which is moved up and down, is hermetically coupled to the lower side of the lid 10,

The coupling hole 51 and the vertical hole 53 have a second O-ring 91 which is contracted by the fixing part 60 fitted into the coupling hole 51 and blocks external air from entering the inside of the storage container 1. Insert into the ends of the

Pressing and contracting the second O-ring 91, screwing the fixing portion 60 having a central hole 61 in communication with the coupling hole 51 from the lower side to the inside of the coupling hole 51,

A discharge hole 81 for discharging the internal air of the storage container 1 to the outside is formed, immersed into the interior of the fitting hole 11 during the vacuum of the storage container 1 and the upper side of the fitting hole 11 during the non-vacuum The vacuum display unit 80 is raised to the vertical hole 53 of the coupling unit 50 to be coupled,

Between the lid 10 and the coupling part 50, an operating member 30 having an elastic spring 70 for applying elasticity such that the vacuum display unit 80 rises by the air flowing into the storage container 1 is raised. It is characterized by the installation.

The ossuary box 100 of the present invention consists of a storage container 1 for storing bone meal and a lid 10 coupled to the storage container 1.

The storage container (1) is composed of an inner box (4) capable of holding bone powder while being coupled to the inside of the enclosure (2) and the enclosure (2), as shown in Figure 1, the inner surface of the enclosure (2) with a temperature difference It forms a condensation preventing groove (3) that can prevent condensation caused by.

By forming a condensation preventing groove (3) on the inner surface of the enclosure (2), by combining the inner box (4) capable of containing bone in the interior of the enclosure (2), due to the temperature difference inside the crypt box 100 Even if condensation occurs, the condensation preventing grooves 3 formed on the inner surface of the enclosure 2 can prevent the condensation from being formed in the inside of the storage container 1 to the maximum. This can be prevented from being spoiled odor generated.

The condensation preventing groove 3 is formed as one groove along the inner circumferential surface of the enclosure 2 as shown in (a) of FIG. 7 or it can be formed to be curved in the form of a gear as shown in (b) of FIG. It is.

At this time, the upper end of the enclosure (2) to which the lid 10 is coupled to form a step, the O-ring so that the first O-ring (90a) that can maintain the airtight of the enclosure (2) and the lid 10 to the step surface Coupling groove 5 is formed.

And by applying a stone pattern or anodizing or gold plating on the surface of the enclosure (2), the ossuary 100 can produce a luxurious image.

As described above, the lid 10 is coupled to the storage container 1 composed of the enclosure 2 and the enclosure 4 to form the ossuary 100.

The upper surface of the lid 10 constituting the ossuary 100 is formed to protrude the fitting portion 40 provided with the fitting hole (11).

The diaphragm 20 having a coupling portion 50 protruding from the upper surface of the fitting portion 40 to be fitted inside the lid 10 is coupled to the fitting portion 40.

The diaphragm 20 coupled to the lid 10 forms an O-ring coupling groove 22 on the outer circumferential surface of the curved body portion 21 as shown in FIG. 2, and the first O-ring for airtightness in the O-ring coupling groove 22. By combining the 90, air is prevented from entering the interior of the storage container 1 in the space formed between the lid 10 and the diaphragm 20.

That is, by coupling the first O-ring 90 to the outer circumferential surface of the curved body portion 21, the air tightness of the lid 10 and the diaphragm 20 is maintained to the maximum due to the first O-ring 90 as shown in FIG. It is possible to prevent the air contained between the lid 10 and the diaphragm 20 to flow into the inner container (4) that is the storage container (1).

The upper surface of the diaphragm 20 protrudes to form a coupling portion 51 that is fitted into the fitting hole 11 of the fitting portion 40, the vertical portion of the small diameter in the center of the coupling portion (51) 53 and the large diameter coupling hole 51 is formed so as to be in communication with the upper and lower portions, and the vacuum display unit 80 is inserted into the vertical hole 53 as shown in FIG.

At this time, the end of the vertical hole 53 to form a first inclined surface 54 inclined downward in the outward direction to block the coupling hole 51 to the inside of the coupling hole 51 (a) of FIG. As shown in the drawing, the second O-ring 91 made of a rubber material is joined to each other.

The fixing part 60 for fixing the second O-ring 91 coupled to the inside of the coupling hole 51 is screwed as shown in Figure 2 from the lower end of the coupling hole 51, the center of the fixing part 60 The central hole 61 is formed in communication with the interior of the storage container (1).

At this time, the second inclined surface 62 corresponding to the first inclined surface 54 is formed to be inclined downward on the upper end of the fixing portion 60 as shown in FIG.

By forming the second inclined surface 62 at the upper end of the fixing part 60, when the fixing part 60 is rotated to be coupled to the inside of the coupling hole 51, the first and second inclined surfaces 54 and 62. Due to the second O-ring 91 inserted into the coupling hole 41 to block the coupling hole 51 while being gathered in the center as shown in FIG. 5 (b), the outside air of the storage container 1 It can prevent the inflow to the maximum.

In the upper surface of the lid 10 to which the diaphragm 20 is coupled as described above, the storage container 1 is introduced into the inside of the fitting portion 40 protruding from the upper surface of the lid 10 during vacuum. ) Is fitted into the coupling hole 51 of the coupling part 50.

The vacuum display unit 80 is formed with a discharge hole 81 in communication with the central hole 61 formed in the fixing part 60 to allow the air inside the storage container 1 to flow out.

As described above, the vacuum display unit 80 is coupled to the fitting portion 40 protruding from the upper surface of the diaphragm 20, so that the compression device passes through the discharge hole 81 of the vacuum display unit 80 as shown in FIG. When the internal air of the storage container 1 flows out while being inserted into the second ring 91, the diaphragm 20 coupled between the storage container 1 and the lid 10 is stored in the storage container 1 as shown in FIG. The vacuum display unit 80 coupled to the diaphragm 20 while being moved downward in accordance with the vacuum of) is introduced into the fitting portion 40 of the lid 10.

On the other hand, when the storage container 1 of the ossuary 100 is in a vacuum state, as shown in FIG. 4, when external air is introduced into the storage container 1, the vacuum display unit 80 immersed in the fitting portion 40. It is configured to install between the lid 10 and the diaphragm 20, the operating member 30 that can be discharged to the top of the lid (10).

The actuating member 30 forms a coupling groove 41 on the inner circumferential surface of the fitting portion 40 as shown in FIG. 5A, and a tantalum spring 70 in which an elastic force is generated inside the coupling groove 41. ).

The locking protrusion 52 coupled to the upper end of the tantalum spring 70 coupled to the coupling groove 41 protrudes from the outer circumferential surface of the coupling portion 51.

By combining the operation member 30 having the carbon spring (70) between the lid 10 and the diaphragm 20, the vacuum display unit 80 moved downward by the vacuum pressure during the vacuum container (1) ) As the vacuum pressure is weakened by the air introduced into the chamber, the elastic force of the tantalum spring 70 is gradually increased. As a result, the manager of the ossuary 100 is exposed to the upper portion of the ossuary 100. By virtue, it is possible to visually identify that the ossuary 100 is not in a vacuum state.

Referring to the preferred operating state and effects of the subject innovation configured as described above are as follows.

First, in the state in which the inner container 4 containing the bone powder, which is the storage container 1, is coupled to the inside of the enclosure 2, the lid 10 to which the diaphragm 20 is coupled is rotatably coupled to the storage container 1 as shown in FIG. 2. .

By combining the lid 10 to the storage container (1), the storage container (1) and the lid by the first O-rings (90, 90a) coupled to the upper end of the enclosure (2) and the outer peripheral surface of the diaphragm (20) Between 10 is to be as confidential as possible.

In the combined state as described above, the syringe, which is a pressure device, is forcibly inserted into the discharge hole 81 formed in the vacuum display unit 80 to discharge the air existing in the inside of the corrugated box 100 to the outside.

At this time, the pressure device is a bar that can be discharged to the outside of the air present in the inside of the ossuary 100 is inserted in the discharge hole 81 in addition to the syringe bar, in the present invention is easy to carry and store the syringe An example will be described.

The diaphragm 20 coupled to the lid 10 moves the center portion of the diaphragm 20 as the vacuum pressure in the bin 100 increases because the syringe discharges the air existing inside the bin box 100 to the outside. The vacuum display unit 80 is immersed in the fitting portion 40 while lowering and decreasing the elastic force of the elastic spring 70 by the moved distance, and the manager displays the vacuum display portion 80 inside the fitting portion 40. It will be possible to check the vacuum state of the ossuary 100 to be immersed.

That is, as the syringe discharges the air existing between the storage container 1 and the lid 10 to the outside, the inside of the storage container 1 is a low pressure (vacuum pressure state), thereby the storage container (1) ) And the central portion of the diaphragm 20 blocking the lid 10 is lowered by the vacuum pressure.

As the diaphragm 20 moves downward, the locking protrusion 52 protruding from the outer circumferential surface of the coupling portion 50 presses the upper end of the tantalum spring 70 coupled to the inner surface of the fitting portion 40 to thereby press the upper spring. 70 is to be shrunk as shown in FIG.

As the ossuary box 100 is in a vacuum state as described above, bone powder contained in the storage container 1 can be prevented from quickly decaying.

As shown in FIG. 4 when the crypt box 100 is evacuated as described above, when the outside air is introduced into the crypt box 100 through the discharge hole 81 formed in the vacuum display unit 80, the storage container 1 At the same time as the vacuum pressure inside the lower the tandem spring 70 coupled to the fitting portion 40 is relaxed, due to the relaxation of the tanval spring 70 the diaphragm 20 is bent down the center portion is the first state Return to.

As the diaphragm 20 is returned to the initial state by the elastic force of the ballistic spring 70, the vacuum display unit 80 immersed in the fitting hole 11 gradually returns to the initial state.

When the vacuum display unit 80 returns to the initial state due to the elastic force of the carbon ball spring 70, the inside of the storage container 1 means that the inside of the storage container 1 is not in a vacuum state. In the state of viewing the display unit 80 with the naked eye, the inside of the ossuary 100 is made into a vacuum state by using a syringe which is a pressure device again.

As described above, the vacuum display unit 80 moves downward due to the diaphragm 20, and the moved vacuum display unit 80 returns to the initial state by the elastic force of the carbon ball spring 70, and thus the vacuum state of the bin box 100 is maintained. Since it can be grasped by the naked eye to prevent the bone powder contained in the ossuary 100 to rot as much as possible can be stored for a long time without rotted bone powder contained in the ossuary 100.

In addition, the storage container 1, which is the ossuary box 100, is separated into an enclosure 2 and an inner box 4, and the condensation prevention groove 3 is formed on the inner surface of the enclosure 2, thereby preventing the condensation. (3) due to the condensation is prevented from occurring inside the ossuary 100, it is possible to prevent the bone powder to rot to the maximum.

1: container, 2: enclosure,
3: condensation preventing groove, 4: inner box,
10: lid, 11: fitting hole,
20: diaphragm, 21: body portion,
5, 22: O-ring coupling groove, 30: operating member,
40: fitting portion, 41: coupling groove,
50: coupling portion, 51: coupling hole,
52: protrusion, 53: vertical hole,
54: first inclined plane, 60: fixing part,
61: central hall, 62: second slope,
70: carbon spring, 80: vacuum display,
81: discharge hole, 90,90a: first O-ring,
91: second O-ring, 100: ossuary,

Claims (4)

In the vacuum ossuary including a storage container 1 into which bone meal can be put and a urine box 100 composed of a lid 10 coupled to an upper surface of the storage container 1,
In the center portion of the lid 10 forms a fitting hole 11,
A small diameter vertical hole 53 and a large diameter coupling hole 51 are formed to communicate with each other at the top and bottom, and the coupling part 50 fitted into the fitting hole 11 protrudes from the center. In accordance with the vacuum state of the storage container (1), the diaphragm 20, the center portion of which is moved up and down, is hermetically coupled to the lower side of the lid 10,
The coupling hole 51 and the vertical hole 53 have a second O-ring 91 which is contracted by the fixing part 60 fitted into the coupling hole 51 and blocks external air from entering the inside of the storage container 1. Insert into the ends of the
Pressing and contracting the second O-ring 91, screwing the fixing portion 60 having a central hole 61 in communication with the coupling hole 51 from the lower side to the inside of the coupling hole 51,
A discharge hole 81 for discharging the internal air of the storage container 1 to the outside is formed, immersed into the interior of the fitting hole 11 during the vacuum of the storage container 1 and the upper side of the fitting hole 11 during the non-vacuum The vacuum display unit 80 is raised to the vertical hole 53 of the coupling unit 50 to be coupled,
Between the lid 10 and the coupling part 50, an operating member 30 having an elastic spring 70 for applying elasticity such that the vacuum display unit 80 rises by the air flowing into the storage container 1 is raised. Vacuum crypt box characterized in that installed.
The method of claim 1, wherein the operation member 30,
The coupling groove 41 is formed in the middle of the fitting hole 11,
Inside the coupling groove 41 is coupled to the carbon spring (70),
The locking projections 52 caught on the upper ends of the bullet springs 70 are formed to protrude on the outer circumference of the coupling part 50,
When the vacuum pressure in the storage container 1 is weakened, the coupling part 50, which is the middle portion of the diaphragm 20, is raised by the elasticity of the carbon spring 70, so that the vacuum display part 80 becomes the upper part of the lid 10. Vacuum ossuary characterized in that configured to protrude to the surface.
The method according to claim 1,
At the lower end of the vertical hole 53 to form a first inclined surface 54 inclined downward in the outward direction,
The second inclined surface 62 is formed to be inclined downward in the inward direction on the upper surface of the fixing part 60 so as to correspond to the first inclined surface 54, and is coupled between the coupling hole 51 and the vertical hole 53. When the second ring 91 is pressed by the fixing part 60, the first and second inclined surfaces 54 and 62 are gathered toward the center and contracted so that the coupling hole 51 can be blocked. Vacuum ossuary.
The method of claim 1, wherein the storage container (1)
Separate the enclosure (2) and the enclosure (4),
Vacuum oscillation box characterized in that the condensation preventing groove (3) formed on the inner surface of the enclosure (2).

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