KR102218615B1 - Custody device of cinerary urn - Google Patents

Abstract

In the present invention, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 is provided with nitrogen in the sealed storage device of the sealing box through the check valve 40. Gas is charged, and a nitrogen measuring air discharge device 500 is installed in the housing 10 through the rear (side) side connection hole to discharge a certain mixed air, and then the air is blocked by blocking the air blocking cap 517. , The nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting table 502 is fitted to the outer periphery thereof, and a rubber hose ( 220) is connected by a rubber hose connection jaw 230.

Description

A sealing box sealed storage device that keeps the sealing box sealed by the nitrogen concentration unit indication unit{CUSTODY DEVICE OF CINERARY URN}

The present invention relates to a sealing box sealed storage device that seals the sealing box by the nitrogen concentration unit display unit, and in detail, a structure in which the crypt box (or ashes box) sealed with the ashes by filling vacuum or nitrogen gas is re-housed and sealed It is about the storage box of the vault.

In other words, it effectively removes the contaminant so that the contained remains are prevented from decaying or deteriorating from contaminants such as moisture or microscopic bacteria in the air, and it is filled with an inert gas such as nitrogen to semi-permanently store the remains contained in the seal. It relates to a sealing box sealed storage device.

In recent years, Korea's funeral culture is changing from burial to cremation. In other words, the remains after cremation of the body are crushed into powder form, and then placed in a casing or container-type crypt that can accommodate the crushed remains, and the crypt and mortar are placed in an crypt box placed outdoors or indoors. There is a trend of the times in the ossuary hall that allows worship. As a result, various types of crypts to place powdered ashes and various types of crypts in which the crypts are placed have been devised and used conveniently. However, in the case of the powdered remains put into the ossuary as described above, as a certain period of time elapses, as a result of decay and deterioration, a severe odor was generated, and accordingly, air pollution as well as related facilities were damaged. Occurred.

In order to solve these problems, various devices and facilities have been additionally installed in the crypts in the crypts to minimize the corruption and deterioration of the crypts in the crypts. In addition to the enormous economic loss due to, an additional problem occurred that took a long working period.

In order to solve the above problems, the crypt storage box 100 according to the conventional registration utility model publication No. 20-0376523 has a hexahedral box shape as shown in Figs. 1 to 2 and a box-shaped body 110 with an open front side. And the plate glass 130 covering the open front surface, and the rubber strip 120 formed of a square strip to contribute to sealing by being inserted between the plate glass and the body 110, and pressing the edge of the rubber strip and the plate glass to the flange of the body. A rectangular cover that covers the edge of the plate glass and the check valve 160 assembled through the rectangular contact table 140 and the plate glass 130 in which a plurality of bolt nail insertion holes 141 are formed to fix it with a fixing bolt It consists of 150.

The body 110 is formed with a flange 112 having a plurality of bolt fastening holes 111 formed around a belt with a considerable width at the edge of the open front surface.

The ossuary storage box 100 according to the conventional design consisting of the above-described configuration accommodates the ossuary box 10 inside the body 110 and then attaches the square rubber band 120 to the flange 112 of the body 110. Flange 112 of the body 110 by covering the open front of the plate glass 130, pressing the edge of the plate glass 130, and inserting the bolt (b) into the bolt insertion hole 141, with a contact base 140 Fastening to the bolt fastener 111 formed in the plate glass 130 while in close contact with the rubber band 140 to seal the front surface of the body 110, and the square cover 150 on the contact base 140 If covered and decorated by a known means, the ossuary box according to the present invention is assembled as shown in the drawing, and the inner space of the body 110 in which the ossuary box 10 is accommodated through the check valve 160 formed on the plate glass 120 Vacuum or fill with nitrogen gas.

Moreover, as shown in FIG. 3, as shown in the prior art Patent Registration No. 10-0439762, the operator inserts the crypt through the inlet 22 of the capsule 2, and then inserts the micro filter 3 into the inlet ( After abutting to 22), the inner spiral portion 41 of the fixing cap 4 is helically coupled to the outer spiral portion 23 of the inlet 22, wherein the micro filter 3 is a spiral of the fixing cap 4 It is tightly fixed to the injection port 22 by the pressing force of the stepped portion 42 by coupling.

In this state, when the injection pipe (P) is screwed into the inlet (433) of the check valve (43), the protrusion () of the valve body (436) is pressurized by the insertion of the injection pipe (P). The body 436 overcomes the elastic force of the spring 435 and moves upward, and the opening and closing hole 431A of the valve seat 431 is opened by the upward movement of the valve body 436 to open the opening and closing hole 431A and Gas is supplied to the inside of the capsule 2 through the outlet 434 or the air inside the capsule 2 is sucked into the vacuum pump through the outlet 434 and the opening and closing hole 431A. It is to be in a high vacuum state.

In this state, when the injection pipe P is removed from the inlet 433 of the check valve 43, the elastic force of the spring 435 is overcome and the upwardly moved valve body 436 is again elastic force of the spring 435. The pressure gauge 5 is coupled to the inlet 433 of the check valve 43 by being lowered by the opening and closing hole 431A to block the opening and closing hole 431A.

The drawing is a cross-sectional view showing a state in which the pressure gauge 5 is coupled to the check valve 43, in the first spiral portion 61 of the detachable portion 6 formed inside the suction port 433 of the check valve 43 The pressure gauge 5 is coupled to the check valve 43 by engaging the second spiral portion 62 of the detachable portion 6 formed outside the inlet 51 of the pressure gauge 5.

At this time, the pressing protrusion 52 of the pressure gauge 5 presses the protrusion 436B integrally formed under the valve body 436 of the check valve 43, and the valve body 436 is a spring 435 ) Overcomes the elastic force and moves upward to open the opening and closing hole 431A of the valve seat 431, and by this opening, the high pressure or vacuum pressure inside the capsule 2 is caused by the through hole 53 of the pressing protrusion 52 ) Through the pressure gauge (5) side, the pressure gauge (5) is to display a state of high vacuum or high pressure inside the capsule (2).

As shown in Fig. 4, and as another conventional technique, as shown in Patent Registration 10-0419313, in the case of the ossuary holder, a plurality of receiving spaces are formed as one main body, which is one main body. Even in the case of the ossuary box where the accommodating space part is formed, it is to prevent the ashes of the ossuary box placed in the accommodating space part from decaying and deterioration, After placing 200), in the crypt holder 1a composed of the main body 100a to which the opening/closing plate 120a corresponding to the accommodation space is coupled to the front of the accommodation space, the opening/closing plate 120a and the receiving The opening and closing plate is fastened by bolts with an airtight member 10 made of a soft synthetic resin such as rubber, silicone, or urethane between the main body of the space portion 110a; An injection hole 20 formed on the rear surface of the main body 100a of the receiving space 110a to protrude to communicate with the receiving space; A mounting member 30 to which the injection valve 40 through which gas is injected into the center of the coupling part is coupled to form a helical part as the coupling part as shown in a known screw coupling method or a force fitting method It is shown to be mounted by.

In addition, the injection valve 40 includes a body 42 coupled to the mounting member 30, and a coupling groove at one side of the body to which an injection pipe of a known filling device is coupled with the gas to be injected into the receiving space. 43, an inlet hole 44 communicating with the injection port on the other side, and the opening and closing hole 45 formed gradually wider from one side to the other side in communication with the coupling groove and corresponding to the opening and closing hole and the coupling groove on one side thereof The pressure finger protrusion 46 that is protruded and pressurized by the injection pipe of the charging device is provided so that the valve body 48 supported by the spring S on the other surface is built into the injection path 49 communicating with the inlet hole. desirable.

According to this configuration, first, the crypt containing the ashes to be placed is placed in the body receiving space part of the crypt box holder, and then the front of the receiving space is screwed with an opening and closing plate like an airtight member so that the receiving space part is sealed. do. Then, as the injection pipe of the gas filling device required is coupled to the coupling groove of the injection valve body of the mounting member mounted as the rear injection port of the main body, the valve body that was energized by a spring in the injection path in the body The pressure finger protrusion is pressed to open the opening and closing hole, and the gas injected accordingly is injected into the receiving space through the injection path and the inlet hole formed as the main body of the crypt holder, and the interior of the receiving space is under high pressure. Or it becomes a high vacuum state.

In this way, when the injection pipe of the charging device is separated from the body coupling groove of the injection valve in a state of high pressure or high vacuum inside the receiving space, the valve body is opened and closed by the elastic force of the spring supporting the valve body in the injection path. The ball is closed.

Therefore, the inside of the body receiving space of the ossuary can be kept in a high pressure or high vacuum state through simple operation as a simple structure, so that the remains in the ossuary placed therein can be preserved from corruption or deterioration for a long period of time.

In addition, a stepped portion 32 is formed on the inside of the mounting member 30 to provide a micro filter (F) that filters out foreign substances contained in the gas when gas is injected between the stepped portion and the inlet. desirable.

In addition, on one side of the mounting member 30, a safety valve 50 for opening and closing the discharge path 52 by a ball 54 supported by a spring therein so as to communicate with the interior thereof is mounted. In the event of excessive pressure due to occurrence, the safety valve is discharged through the safety valve to provide stability.

In addition, since the opening and closing plate 120a is penetrated through the center so that the transparent member 60 is attached and coupled with a general adhesive, it is possible to easily grasp the state of the crypt placed in the receiving space from the outside.

In addition, since a general pressure gauge 15 is mounted on the opening/closing plate 120a and the transparent member 60 of the opening/closing plate by a conventional screwing or force fitting method, the pressure state of the gas injected into the receiving space is externally controlled. It is desirable to be able to easily confirm it in.

As shown in Figs. 5 and 6, the sealing box sealed storage device in the patent registration number 10-0924282, which is another conventional technology, includes a housing 10, a first sealing member, a second sealing member, and a check valve 40. , Consisting of a cover 50 and a coupling means.

Since the drawings are the same as the structure of the present invention in appearance, it will be described in the column of the present invention in the order of description.

As described above, the "crypt storage box" is designed to be kept airtight by filling the ashes with vacuum or nitrogen gas, but there is a problem that the filling device must have a separate configuration for filling and inhaling when filling with nitrogen gas.

In addition, the prior invention "assets holder" does not provide an ashes box that individually seals the ashes, but provides a body with a plurality of spaces for receiving and sealing the ashes as a whole. Not only does it have the problem as it is, but it is difficult to achieve structurally as it forms an integrally sealed structure with a number of accommodation spaces, and if the airtightness of any one of the accommodation spaces is damaged, the overall value is degraded. There is a high fear of leaking the overall confidentiality, so it is very difficult to manufacture.

Moreover, in the case of filling nitrogen inside the sealing box, the repetitive technology of filling only the front side or repeatedly removing the turbid air inside and putting it back in is theoretically realized, but it is impossible to confirm the nitrogen charge state of the sealing box, and the time is long. It has a required problem.

In addition, when the sealing box is opened after a long period of storage, when nitrogen is filled again, it is impossible to check the state of nitrogen charge thereof, and it takes a long time.

The present invention was conceived to solve the various problems of the prior art as described above, and an object of the present invention is to prevent the ashes contained in the sealing box from being decayed or deteriorated by pollutants such as moisture in the air or microscopic bacteria, To provide a sealed storage device and method for a sealing box that can semi-permanently store the remains contained in the sealing box.

In addition, when the nitrogen gas is injected as described above, it is practically difficult to replace the internal air by repeating the mixed air in one direction as in the prior art, and there is considerable trouble in its application.

Another object of the present invention is to store the remains contained in the seal box, it is easy to fill even when nitrogen is filled again, and it is easy to refill over time, and the sealed storage device for the seal box is low in maintenance cost and In providing a way.

In the present invention, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 is provided with nitrogen in the sealed storage device of the sealing box through the check valve 40. Gas is charged, and a nitrogen measuring air discharge device 500 is installed in the housing 10 through the rear (side) side connection hole to discharge a certain mixed air, and then the air is blocked by blocking the air blocking cap 517. , The nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting table 502 is fitted to the outer periphery thereof, and a rubber hose ( While 220 is connected by a rubber hose connecting jaw 230, the valve core 531 is connected to the air outlet 270 of the rubber hose 220, and the middle part of the rubber hose 220 A rubber hose knot 250 is formed, and the nitrogen measuring air discharge device 200 is connected to the rubber hose 220 by a rubber hose connecting jaw 230 connected to the housing 10 and the rubber hose connection, When nitrogen is filled into the injection check valve 40 by the filling and discharge automatic machine 70, the internal air is gradually mixed initially through the air outlet 270 of the nitrogen measuring air discharge device 200 through a rubber hose. As the gas is discharged, and finally, as the dense nitrogen is discharged, the nitrogen measurement air discharge device 200 is the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged through the rubber hose hole 240 of the connection hose. A device that can check is built-in, and as a result of checking the nitrogen concentration unit display unit 280 by this, if the nitrogen concentration is more than 90%, the air can be blocked by the air discharge blocking switch 260. However, at one side of the valve core 531, a sealed rubber tube fitting portion 535 is formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle thereof. The tube 538 itself is also provided with a rubber tube engaging portion 539 to be hung so as not to fall out of the front end, and the inner space of the rubber tube fitting portion 535 A plurality of mixed air discharge holes 534 are formed on both sides of the rubber tube 538 by the pressure when nitrogen is injected, and the internal air is initially exhausted and the mixed air mixed with nitrogen gradually escapes, In addition, a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and are coupled to the valve mounting base 502 by a fixing nut 505, and the air tube by the rubber tube sealing part 503 It relates to a sealing box sealed storage device for sealing and storing the sealing box by the nitrogen concentration unit display unit, characterized in that the sealing effect of the rubber tube 538 is improved by pulling the fitting jaw 536.

In addition, in the present invention, a nitrogen filling valve 400 is formed on the front upper side of the housing 10, and a nitrogen measuring air discharge device 500 is formed on the lower front side so that nitrogen is discharged by the nitrogen filling connection hose 70a. It is injected, and the mixed air is discharged by the nitrogen measuring air discharge device 500, and the nitrogen filling valve 400 is composed of a valve core 431 and a rubber tube 438, and a valve mounting stand outside the The 402 is fitted, and a cap-shaped fastening nut 416 that couples the valve core 431 and the valve mounting base 402 is formed, and the valve mounting base 402 is inserted into the glass plate 30 to be sealed. While inserting the silicone seal 408 around 30), the outer fixing nut 405 and the inner fixing nut 406 are coupled by screws, and a sealed rubber tube fitting part 435 on one side of the valve core 431 ) Is formed in a cylindrical shape, and a rubber tube fitting part 436 is formed in the middle of it to fix the rubber tube 438, and a rubber tube catching part 439 is formed in the rubber tube 438 itself so that it cannot be removed from the rear end. The rubber tube fitting part 435 has a plurality of nitrogen injection holes 434 formed on both sides in the inner space of the rubber tube fitting part 435, and the rubber tube 438 is increased by the pressure when nitrogen is injected, and nitrogen air is filled into the interior. In addition, a connection screw part 432 and a locking protrusion 433 are formed on one side of the valve core 431, and are coupled to the valve mounting base 402 by a fastening nut 416, while the rubber tube sealing part 403 The rubber tube fitting jaw 436 is pulled, and the nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting base 502 is fitted to the outside thereof. , A cap-shaped fixing nut 505 for coupling the valve core 531 and the valve mounting table 502 is formed, and the valve core 531 is inserted into the glass plate 30 to be sealed with the center of the glass plate 30 While inserting the silicone seal 508, the fixing nut 505 and the fixing nut 506 are coupled by screws, and the valve core 5 31) has a sealed rubber tube fitting portion 535 formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle of the rubber tube 538 itself. A rubber tube engaging portion 539 is formed and is hung so as not to be removed from the front end, and a plurality of mixed air exhaust holes 534 are formed on both sides in the inner space of the rubber tube fitting portion 535. As the tube 538 is stretched, nitrogen air is filled into the inside, and a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and the valve mounting base 502 and the fixing nut 505 It is a sealing box sealed storage device for sealing and storing the sealing box, characterized in that the air tube fitting jaw 536 is pulled by the rubber tube sealing portion 503 while being combined.

In the present invention, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 is inside the sealing box sealed storage device through the check valve 40. Nitrogen gas is filled into the housing, and a nitrogen measuring air exhaust device 500 is installed in the housing 10 through the rear (side) side connection hole to discharge a certain mixed air, and then the air is blocked with an air blocking cap 517 to prevent air. Shut off, but the nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, the valve mounting base 502 is fitted to the outer periphery, and the valve core 531 and A cap-shaped fixing nut 505 that couples the valve mounting base 502 is formed, and the valve core 531 is inserted into the rear (side) surface connection hole of the housing to be sealed. While inserting the silicone seal 508, the fixing nut 505 and the fixing nut 506 are coupled by screws, and a sealed rubber tube fitting portion 535 is formed in a cylindrical shape on one side of the valve core 531 , In the middle of the air tube fitting jaw 536 for fixing the rubber tube 538 is formed, the rubber tube 538 itself is also formed with a rubber tube engaging portion 539 to be hung so as not to fall out at the front end, the In the inner space of the rubber tube fitting part 535, a plurality of mixed air discharge holes 534 are formed on both sides, and the rubber tube 538 increases by the pressure when nitrogen is injected, and the internal air gradually escapes and gradually nitrogen. The mixed air mixed with the valve is released, and a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and are coupled to the valve mounting base 502 by a fixing nut 505, It is a sealing box sealed storage device for sealing and storing the sealing box, characterized in that the sealing effect of the rubber tube 538 is improved by pulling the air tube fitting jaw 536 by the tube sealing part 503.

In the present invention, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 is inside the sealing box sealed storage device through the check valve 40. Nitrogen gas is charged into the gas, and the rubber hose 220 attached to one side of the housing 10 is lengthened, while the rubber hose 220 is connected to the housing 10 by a rubber hose connecting jaw 230, A rod, characterized in that the air outlet 270 of the rubber hose 220 is open, and a rubber hose knot 250 is formed in the middle of the rubber hose 220, and when 25 seconds elapse from the time of nitrogen filling, pull it and tie it with a knot. It is a sealing box sealed storage device that keeps the inner box sealed.

In the present invention, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 is inside the sealing box sealed storage device through the check valve 40. Nitrogen gas is charged into the gas, and the rubber hose 220 attached to one side of the housing 10 is lengthened, while the rubber hose 220 is connected to the housing 10 by a rubber hose connecting jaw 230, The air outlet 270 of the rubber hose 220 is open, a rubber hose knot 250 is formed in the middle of the rubber hose 220, and a nitrogen measuring air exhaust device 200 is placed in the housing 10 ) And the rubber hose connecting jaws 230 connected to the rubber hose connection, and when nitrogen is filled by the injection check valve 40 by the filling and discharging automatic machine 70, nitrogen is measured through a rubber hose Initially, the internal air is gradually discharged to the air discharge port 270 of the air discharge device 200, and finally, the dense nitrogen is discharged. A device that can check the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged to the 240 is built-in, and as a result of checking the nitrogen concentration unit display unit 280, the nitrogen concentration is 90 In the case of more than %, it is a sealing box sealed storage device for sealingly storing the sealing box, characterized in that air is blocked by the air discharge blocking switch 260.

In addition, the present invention has an inner space in which one side is open to accommodate the sealing box 2, a housing 10 having a flange formed on the opened side, and has elasticity to seal the housing A first sealing member 20 coupled to an edge of the open side of the housing, a second sealing member 30 coupled with the first sealing member to seal the open side of the housing, and the second One check valve (40) mounted on the sealing member, a cover (50) that is combined with the housing to pressurize and fix the first and second sealing members, and a mark to identify the sealing box accommodated in the housing As a method of sealing the sealing box in a sealing box sealed storage device 1000 having a coupling means 60 that can be attached, the sealing box 2 is placed in the sealing box sealed storage device 1000, A storage device sealing step (S100) of assembling and sealing the sealing box sealed storage device; A nitrogen gas charging step (S102) of charging nitrogen gas so that the internal pressure of the sealing box sealed storage device 1000 reaches a constant pressure by coupling the automatic filling and discharging machine to the check valve 40; The air containing moisture and microscopic bacteria trapped inside the sealed box sealed storage device 1000 is filled with nitrogen by the automatic filling and discharge machine, and the mixed air discharged by the nitrogen measuring air discharge device 100 for a certain period of time Step S104; Air discharge blocking step (S106) of blocking the discharge of mixed air when the nitrogen concentration unit display 150 of the nitrogen measuring air discharge device 100 is 90% or more in the inside of the sealing box sealed storage device (S106) Wow; Then, the nitrogen gas maintenance step (S108) of maintaining the state by filling the inside of the sealed box sealing device until the amount of nitrogen 72 is 95% or more; Thereafter, when the nitrogen gas is not more than 95% inside the sealed storage device of the seal box, a nitrogen gas recharging step (S109) of recharging nitrogen gas; It is a sealed storage method for sealing the sealed box in a sealed storage device, characterized in that consisting of.

The crypt storage box according to the present invention having the above configuration completely blocks the exposure of the remains to the atmosphere by re-accommodating the crypts that directly vacuum the ashes and filling them with vacuum or nitrogen gas to store them. It is useful as much as it can be mounted and placed on the display stand of the frame provided separately.

And, when the nitrogen gas as described above is injected, the mixed air inside is continuously discharged first, and after that, it was found that the herpes of nitrogen gas was formed, and the experiment that it took about 25 seconds to 90% of the nitrogen gas. It can be seen through, and it has the effect of solving the hassle of the method of replacing the internal air by repeating one side as in the prior art by using the principle thereof.

Another effect is that according to the sealed storage method of the sealing box according to the present invention, contaminants such as moisture or microscopic bacteria in the air are replaced with an inert gas such as nitrogen to prevent decay and deterioration of the remains contained in the sealing box, and thus can be stored semi-permanently. There is an effect.

In addition, according to the sealed storage method of the sealing box according to the present invention, it is easier to use than the method of storing the sealing box by making the inside of the sealing box sealed storage device in a vacuum state, and the determination of the nitrogen concentration is visually confirmed even in filling. , Filling itself is also easy, and even when nitrogen is filled again, it is easy to fill, maintenance cost is low, and maintenance is easy, and expensive constant temperature and humidity devices are unnecessary, so there is an economical effect.

1 is a perspective view of an ossuary storage box as a first embodiment according to the conventional invention
Figure 2 is an exploded view of a storage box according to the conventional invention
Figure 3 is a cross-sectional view of a safe storage box as a second embodiment according to the prior invention
Figure 4 is a cross-sectional view of a safe storage box as a third embodiment according to the prior invention
5 is an exploded perspective view showing the front of the sealing box sealed storage device of the present invention,
Figure 6 is a perspective view showing the sealing box sealed storage device of the present invention.
Figure 7 is a side cross-sectional view showing a first embodiment of the rear discharge method for filling nitrogen gas in the sealing box of the present invention,
Figure 8 is a side cross-sectional view showing another embodiment of the first embodiment of the rear discharge method for filling nitrogen gas in the sealing box of the present invention,
9 is a side cross-sectional view showing another embodiment of the first embodiment of the rear discharge method for filling the sealing box with nitrogen gas of the present invention,
10 is a side cross-sectional view showing another embodiment of the first embodiment of the rear discharge method for filling nitrogen gas in the sealing box of the present invention,
11 is a side cross-sectional view showing a second embodiment of the side discharge method for filling nitrogen gas into the sealing box of the present invention,
12 is a side cross-sectional view showing another embodiment of the second embodiment of the side discharge method for filling nitrogen gas into the sealing box of the present invention,
13 is a side cross-sectional view showing another embodiment of the second embodiment of the side discharge method for filling the sealing box with nitrogen gas of the present invention,
14 is a side cross-sectional view showing a third embodiment of the front discharge method for filling the sealing box with nitrogen gas of the present invention,
15 is a side cross-sectional view showing an inlet of a third embodiment of the front discharge method for filling the sealing box with nitrogen gas of the present invention,
16 is a side cross-sectional view showing an outlet of a third embodiment of the front discharge method for filling the sealing box with nitrogen gas of the present invention,
17 is a flow chart of a method for discharging nitrogen gas for filling the sealing box with nitrogen gas of the present invention.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited by the embodiments described below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Therefore, the shape of the constituent elements in the drawings is exaggerated in order to emphasize a more clear description.

Hereinafter, a first embodiment of the present invention will be described in detail with reference to FIGS. 5 to 10.

5 is an exploded perspective view showing the front of the sealing box sealed storage device of the present invention, Figure 6 is a perspective view showing the sealing box sealed storage device of the present invention, Figure 7 is a rear discharge for filling the sealing box of the present invention with nitrogen gas It is a side cross-sectional view showing a first embodiment of the method, and FIG. 8 is a side cross-sectional view showing another embodiment of the first embodiment of the rear discharge method for filling nitrogen gas in the sealing box of the present invention, and FIG. 9 is a sealing box of the present invention. It is a side cross-sectional view showing another embodiment of the first embodiment of the rear discharge method for filling nitrogen gas, and Fig. 10 shows another embodiment of the first embodiment of the rear discharge method for filling nitrogen gas in the sealing box of the present invention. It is a side cross-sectional view.

Referring to FIG. 5, the sealing box sealed storage device includes a housing 10, a first sealing member, a second sealing member, a check valve 40, a cover 50, and a coupling means.

Referring to FIGS. 5 and 6, the housing 10 has an open side and has a hexahedral shape in which a space 12 capable of accommodating the sealing box 2 is formed. A flange 14 is formed on the edge of the open side of the housing 10.

A plurality of coupling holes 14a are formed in the flange 14, and a locking protrusion 14b to which the first sealing member and the second sealing member are coupled is formed. In addition, the flange 14 is formed with a coupling hole (14c) so that the sealing box sealed storage device can be fixed to the mounting table (8).

The first sealing member is a silicone seal (20). The silicone seal 20 is fixed to the locking projection 14b of the flange 14. In addition, the silicone seal 20 has a groove 22 formed therein so that it can be coupled to the second sealing member. The first sealing member may be replaced with a seal or packing made of rubber, synthetic resin, or the like.

The second sealing member is a glass plate 30. The glass plate 30 is fitted and coupled to the groove 22 formed in the silicone seal 20, which is a first sealing member.

The glass plate 30 has a through hole 32 through which a check valve 40 can be mounted. The second sealing member may be replaced with synthetic resin. In addition, it is preferable that the second sealing member is transparent so that the state of the sealing box 2 stored in the housing 10 can be checked.

One check valve 40 is fitted into the through hole 32 formed in the glass plate 30 as the second sealing member.

A bolt part 42 is formed at one end of the check valve 40. The nut 44 is coupled to the bolt part 42. In order to seal the through hole 32 formed in the glass plate 30, which is the second sealing member, the check valve 40 is fitted with one rubber packing 46 to the bolt 42 to seal the glass plate 30. It is mounted in the through hole 32 of. In addition, the other rubber packing 46 is inserted into the nut 44.

The rubber packing 46 may be provided in plural as shown in FIGS. 5 and 6, and may be installed by selecting only one of packings inserted into the bolt part 42 or inserted into the nut.

The cover 50 is coupled with the flange 14 of the housing 10 to pressurize the silicone seal 20 and the glass plate 30 to fix it. Further, a plurality of through holes 52 and a plurality of grooves 54 are formed in the cover 50. Bolts 62 are inserted into the plurality of through holes 52. The inserted bolt 62 is inserted into the coupling hole 14a formed in the flange 14 of the housing 10. The inserted bolt 62 is coupled with the nut 64.

The coupling means is fixed to the plurality of grooves 54 formed in the cover 50. The coupling means is a circular magnet 60.

As shown, a frame 6 including a yeongjeong is coupled to the magnet 62 in order to identify the sealing box sealed storage device. The coupling means may be replaced by a variety of methods such as hooks, adhesives, bolts and nuts.

With reference to Figs. 7 to 10, a technology discharged to the rear will be described.

One side is open to have an inner space to accommodate the sealing box (2), and a flange formed on the open side of the housing (10), and has an elastic force, the open of the housing to seal the housing. A first sealing member 20 coupled to the edge of one side, a second sealing member 30 coupled to the first sealing member to seal the open side of the housing, and mounted on the second sealing member. One check valve 40, a cover 50 that is combined with the housing to pressurize and fix the first and second sealing members, and a label that can be attached to identify the sealing box accommodated in the housing. A method and apparatus for sealing a sealing box in a sealing box sealed storage device 1000 having a means 60, wherein the sealing box 2 is placed in the sealing box sealed storage device 1000, and the sealing box It has a structure with a storage device sealing step (S100) for assembling and sealing the sealed storage device, and the internal pressure of the sealing box sealed storage device 1000 is at a constant pressure by combining the automatic filling and discharging machine with the check valve 40. It is made by a nitrogen gas charging step (S102) of charging nitrogen gas as early as possible, and the sealing box sealed storage device 1000 is filled with nitrogen by the automatic charging and discharging machine, and contains moisture and microscopic bacteria trapped inside. It consists of a structure leading to the mixed air discharge step (S104) in which air is discharged for a certain period of time by the nitrogen measuring air discharge device 100.

As shown in Fig. 7, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealed storage device of the seal box. The automatic filling and discharging machine 70 reaches a filling step of filling an inert gas into the sealed storage device of the sealing box through the check valve 40 (S102).

The inert gas is nitrogen 72 as a stable gas whose chemical reaction is close to zero. The automatic filling/discharging machine 70 injects nitrogen 72 so that the internal pressure of the sealed storage device of the sealing box reaches a predetermined pressure previously input.

Nitrogen can be replaced with argon, carbon dioxide, helium, etc.

Nitrogen (72) injected through the automatic filling and discharge machine (70) is a gas trapped inside while the sealed storage device of the sealing box is sealed (a pollutant source such as moisture and microscopic bacteria that decay or deteriorate the remains contained in the sealing box (2). Air having a) reaches a discharge step in which the air discharge device formed on the bottom of the rear side of the housing is gradually discharged by the filling pressure (S104).

After a certain period of time has elapsed after starting to fill the sealed box sealed storage device through the check valve 40, the gas 74 in which nitrogen 72 and air are mixed is the nitrogen concentration measuring air discharge device 100 ( When the nitrogen concentration reaches 90% upon discharge through 200), a blocking step of blocking the air outlet of the nitrogen concentration measuring air discharge device is reached (S106).

Then, it reaches the maintenance step of maintaining the state by filling the inside of the sealing box sealed storage device until the amount of nitrogen 72 is 95% or more (S108).

After that, if the nitrogen gas is not more than 95% inside the sealed storage device of the seal box, it is moved to the step of charging nitrogen gas again (S109).

The nitrogen measuring air discharge device 100, 200 is a rubber hose connected to the hose connection 120 of the nitrogen measuring air discharge device 100, 200 having a housing 10 and a nitrogen concentration indicator needle 110 It is connected by a connecting jaw 130.

When nitrogen is filled into the injection check valve 40 by the automatic filling and discharge machine 70, the internal air is initially supplied to the air outlet 170 of the nitrogen measuring air discharge device 100, 200 through a rubber hose. As the gas mixture is gradually discharged, dense nitrogen is finally discharged.

Thereafter, the nitrogen measuring air discharge device 100, 200 is a device capable of checking the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged through the rubber hose hole 140 of the connection hose. As a result of checking the nitrogen concentration unit display unit 180 by this, air is blocked by the air discharge blocking switch 160 when the nitrogen concentration is 95% or more.

That is, when the inert gas inside the sealed storage device of the sealing box reaches 95% or more of the nitrogen concentration unit display 150 of the nitrogen measuring air discharge device 100, an air discharge blocking step of blocking the discharge of mixed air ( S106), and then, a nitrogen gas maintenance step (S108) in which the amount of nitrogen 72 is filled in the interior of the sealed storage device to be more than 95% to maintain the state (S108), and then, the sealed box A method and apparatus for sealing the sealing box in a sealed storage device, characterized in that it consists of a nitrogen gas recharging step (S109) of recharging nitrogen gas when the nitrogen gas is not more than 95% inside the sealed storage device to be.

FIG. 8 is a modified embodiment of FIG. 7, and as a technical matter, the nitrogen measuring air discharge device 100 and 200 are attached to the housing 10 in the embodiment of FIG. 7, but the hose connection 120 is attached to a rubber hose. 220) lengthening and forming the rubber hose knot (250), when nitrogen becomes more than 95%, it is an invention to block air while pulling it into a knot.

That is, the nitrogen measuring air discharge device 100, 200 is a rubber hose connecting jaw connected to the rubber hose 220 of the nitrogen measuring air discharge device 100, 200 having a housing 10 and a rubber hose connection. It is connected by 230.

When nitrogen is filled into the injection check valve 40 by the automatic filling and discharge machine 70, the internal air is initially supplied to the air outlet 270 of the nitrogen measuring air discharge device 100, 200 through a rubber hose. As the gas mixture is gradually discharged, dense nitrogen is finally discharged.

Thereafter, the nitrogen measuring air discharge device 100, 200 is a device capable of checking the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged through the rubber hose hole 240 of the connection hose. As a result of checking the nitrogen concentration unit display unit 280 by this, if the nitrogen concentration is more than 90%, air is blocked by the air discharge blocking switch 260.

9 is a modified embodiment of FIG. 8, as technical matters, the nitrogen measuring air discharge device 100, 200 is attached to the housing 10 in the embodiment of FIG. 7, but removed, and the rubber hose 220 After forming the rubber hose knot 250, when the nitrogen is more than 95%, it is an invention to block air while pulling it into a knot.

That is, the rubber hose 220 is connected to the housing 10 by a rubber hose connecting jaw 230.

When nitrogen is filled into the injection check valve 40 by the automatic filling and discharging machine 70, the mixed gas is gradually discharged through the rubber hose for a certain period of time through the rubber hose, and finally, the dense nitrogen is discharged.

Thereafter, when 25 seconds have elapsed from the time of nitrogen charging, if the nitrogen concentration becomes 90% or more as a result of the experiment, air is blocked by the air discharge blocking switch 260.

time 10 seconds 15 seconds 20 seconds 25 seconds 30 seconds 35 seconds 40 seconds 45 seconds Amount of nitrogen discharged 50% 70% 85% 90% 95% 96% 97% 97%

As a result of the above experiment, it was confirmed that the nitrogen concentration can reach 90% when the charging time is 25 seconds.

FIG. 10 is a modified embodiment of FIG. 7, and as technical matters, the nitrogen measuring air discharge device 100, 200 is attached to the housing 10 in the embodiment of FIG. 7, but the nitrogen measuring air discharge device 100, Instead of 200), a nitrogen measuring air discharge device 500, which is a one-way valve, is installed to discharge a certain mixed air and then block it with an air blocking cap 517 to block the air.

That is, the nitrogen measuring air discharge device 500 is connected from the rear surface of the housing 10 through a connection hole on the rear surface of the housing.

The nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting stand 502 is fitted to the outer periphery thereof, and the valve core 531 and the valve mounting stand ( A cap-shaped fixing nut 505 that couples 502 is formed.

In addition, the valve core 531 is fitted with a silicone seal 508 around the housing rear connection hole so that the valve core 531 is inserted into the housing rear connection hole to be sealed, and the fixing nut 505 and the fixing nut 506 are coupled by screws. .

At one side of the valve core 531, a sealed rubber tube fitting portion 535 is formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle thereof, and the rubber tube ( 538) The rubber tube engaging portion 539 is formed in itself, and is hung so as not to fall out of the front end.

And, in the inner space of the rubber tube fitting portion 535, a plurality of mixed air discharge holes 534 are formed on both sides, and the rubber tube 538 is increased by the pressure when nitrogen is injected, and the internal air is initially released. Gradually, the mixed air mixed with nitrogen escapes.

In addition, a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and are coupled to the valve mounting base 502 by a fixing nut 505, and the air tube by the rubber tube sealing part 503 By pulling the fitting jaw 536, the sealing effect of the rubber tube 538 is better.

The non-explained adjustment gap 503a denotes a gap between the locking protrusion 533 and the valve mounting table 502.

As described above, when a certain amount of nitrogen injected into the injection check valve 40 by the filling and discharge automatic machine 70 is discharged to the nitrogen measuring air discharge device 500 to a certain extent, the air blocking cap 517 ) Is blocked, and nitrogen is blocked by the air blocking cap 517, while continuously injecting nitrogen into the injection check valve 40 to adjust the nitrogen concentration to 95%.

Next, with reference to the accompanying Figures 11 to 13 will be described in detail a second embodiment discharged to the side of the present invention.

11 is a side cross-sectional view showing a second embodiment of a side discharge method for filling nitrogen gas in a sealing box of the present invention, and FIG. 12 is another embodiment of a second embodiment of a side discharge method for filling nitrogen gas in a sealing box of the present invention. It is a side cross-sectional view showing an embodiment, and FIG. 13 is a side cross-sectional view showing another embodiment of the second embodiment of the side discharge method for filling nitrogen gas in the sealing box of the present invention.

As shown in FIG. 11, a housing side connection hole (20a) is formed on the side of the housing (10), and a nitrogen measuring air discharge device (100, 200) is coupled thereto.

Indications for the same symbols of the same configuration are omitted.

That is, the nitrogen measuring air discharge device 100, 200 is a rubber hose connecting jaw connected to the rubber hose 220 of the nitrogen measuring air discharge device 100, 200 having a housing 10 and a rubber hose connection. It is connected by 230.

When nitrogen is filled into the injection check valve 40 by the automatic filling and discharge machine 70, the internal air is initially supplied to the air outlet 270 of the nitrogen measuring air discharge device 100, 200 through a rubber hose. As the gas mixture is gradually discharged, dense nitrogen is finally discharged.

Thereafter, the nitrogen measuring air discharge device 100, 200 is a device capable of checking the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged through the rubber hose hole 240 of the connection hose. As a result of checking the nitrogen concentration unit display unit 280 by this, if the nitrogen concentration is more than 90%, air is blocked by the air discharge blocking switch 260.

12 is a modified embodiment of FIG. 11, as technical matters, the nitrogen measuring air exhaust device 100, 200 is attached to the housing 10 in the embodiment of FIG. 11, but removed, and the rubber hose 220 After forming the rubber hose knot 250, when the nitrogen is more than 95%, it is an invention to block air while pulling it into a knot.

That is, the rubber hose 220 is connected to the 10 by the rubber hose connecting jaws 230 as in FIG. 9 of the above-described embodiment.

When nitrogen is filled into the injection check valve 40 by the automatic filling and discharge machine 70, the mixed gas is gradually discharged through the rubber hose for a certain period of time through the rubber hose, and finally, the dense nitrogen is discharged.

Thereafter, when 25 seconds have elapsed from the time of nitrogen charging, if the nitrogen concentration becomes 90% or more as a result of the experiment, air is blocked by the air discharge blocking switch 260.

As a result of the above experiment, as shown in [Table 1], it was confirmed that when the charging time was 25 seconds, the nitrogen concentration could reach 90%.

13 is a modified embodiment of FIG. 11, and technical matters, the nitrogen measuring air exhaust device 100 and 200 are attached to the housing 10 in the embodiment of FIG. 11, but the nitrogen measuring air exhaust device 100 and 200 Instead of 200), a nitrogen measuring air discharge device 500, which is a one-way valve, is installed to discharge a certain mixed air and then block it with an air blocking cap 517 to block the air.

That is, the nitrogen measuring air discharge device 500 is connected from the side surface of the housing 10 through the housing side connection hole.

The nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting stand 502 is fitted to the outer periphery thereof, and the valve core 531 and the valve mounting stand ( A cap-shaped fixing nut 505 that couples 502 is formed.

In addition, the valve core 531 is fitted with a silicone seal 508 around the housing side connection hole so that the valve core 531 is inserted into the housing side connection hole to be sealed, and the fixing nut 505 and the fixing nut 506 are coupled by screws. .

At one side of the valve core 531, a sealed rubber tube fitting portion 535 is formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle thereof, and the rubber tube ( 538) The rubber tube engaging portion 539 is also formed in itself and is hung so as not to fall out at the front end.

And, in the inner space of the rubber tube fitting portion 535, a plurality of mixed air discharge holes 534 are formed on both sides, and the rubber tube 538 is increased by the pressure when nitrogen is injected, and the internal air is initially released. Gradually, the mixed air mixed with nitrogen escapes.

In addition, a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and are coupled to the valve mounting base 502 by the fixing nut 505, and the air tube fitting protrusion 536 is formed by 503. It is pulled to improve the sealing effect of the rubber tube (538).

The non-explained adjustment gap 503a denotes a gap between the locking protrusion 533 and the valve mounting table 502.

As described above, when a certain amount of nitrogen injected into the injection check valve 40 by the filling and discharge automatic machine 70 is discharged to the nitrogen measuring air discharge device 500 to a certain extent, the air blocking cap 517 ) Is blocked, and nitrogen is blocked by the air blocking cap 517, while continuously injecting nitrogen into the injection check valve 40 to adjust the nitrogen concentration to 95%.

Next, with reference to the accompanying Figures 14 to 16 will be described in detail a third embodiment discharged to the front of the present invention.

14 is a side cross-sectional view showing a third embodiment of a front discharge method for filling nitrogen gas in a sealing box of the present invention, and FIG. 15 is an inlet of a third embodiment of the front discharge method for filling nitrogen gas in a sealing box of the present invention. Fig. 16 is a side cross-sectional view showing the outlet of the third embodiment of the front discharge method for filling nitrogen gas into the sealing box of the present invention.

As shown in FIG. 14, a nitrogen charging valve 400 is formed on the upper part of the housing 10, and a nitrogen measuring air discharge device 500 is formed at the lower part, so that nitrogen is removed by the nitrogen charging connection hose 70a. After being injected, the mixed air is discharged by the nitrogen measuring air discharge device 500.

The nitrogen filling valve 400 is composed of a valve core 431 and a rubber tube 438, and a valve mounting stand 402 is fitted to the outer periphery thereof, and the valve core 431 and the valve mounting stand 402 ) Is formed with a cap-shaped fastening nut 416 for coupling.

And, the valve mounting base 402 is fitted to the glass plate 30 so that the silicone sealing 408 is inserted around the glass plate 30 so that the outer fixing nut 405 and the inner fixing nut 406 are coupled by screws. Becomes.

At one side of the valve core 431, a sealed rubber tube fitting portion 435 is formed in a cylindrical shape, and a rubber tube fitting portion 436 for fixing the rubber tube 438 is formed in the middle of the rubber tube ( 438) A rubber tube catching part 439 is also formed in itself, so that it is hung so as not to fall out from the rear end.

Further, in the inner space of the rubber tube fitting part 435, a plurality of nitrogen injection holes 434 are formed on both sides, and the rubber tube 438 is increased by pressure during nitrogen injection, and nitrogen air is filled into the interior.

In addition, a connection screw portion 432 and a locking protrusion portion 433 are formed on one side of the valve core 431, and are coupled to the valve mounting base 402 by a fastening nut 416, and the rubber tube sealing portion 403 By pulling the fitting jaw 436, the sealing effect of the rubber tube 438 is better.

The unexplained reference numeral adjustment gap 403a denotes a gap between the locking projection 433 and the valve mounting table 402.

As described above, when the nitrogen filling connection hose 70a is coupled to the valve core 431 to inject nitrogen into the nitrogen filling valve 400, the rubber tube 438 is formed by the nitrogen injection hole 434. Nitrogen is injected into the inside while pushing.

The nitrogen measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting stand 502 is fitted to the outer periphery thereof, and the valve core 531 and the valve mounting stand ( A cap-shaped fixing nut 505 that couples 502 is formed.

In addition, the valve core 531 is inserted into the glass plate 30 so that the silicone sealing 508 is inserted around the glass plate 30 so that the fixing nut 505 and the fixing nut 506 are coupled by screws. .

At one side of the valve core 531, a sealed rubber tube fitting portion 535 is formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle thereof, and the rubber tube ( 538) The rubber tube engaging portion 539 is formed in itself, and is hung so as not to fall out of the front end.

And, in the inner space of the rubber tube fitting part 535, a plurality of mixed air discharge holes 534 are formed on both sides, and the rubber tube 538 is increased by pressure when nitrogen is injected, so that nitrogen air is filled inside. .

In addition, a connection screw part 532 and a locking protrusion 533 are formed on one side of the valve core 531, and are coupled to the valve mounting base 502 by a fixing nut 505, and the air tube by the rubber tube sealing part 503 By pulling the fitting jaw 536, the sealing effect of the rubber tube 538 is better.

The non-explained adjustment gap 503a denotes a gap between the locking protrusion 533 and the valve mounting table 502.

As described above, when a certain amount of nitrogen injected into the nitrogen charging valve 400 by the nitrogen charging connection hose 70a is discharged to the nitrogen measuring air discharge device 500 to a certain extent, the air blocking cap ( Nitrogen is cut off by 517, and nitrogen concentration is adjusted while continuously injecting nitrogen into the nitrogen filling valve 400.

Hereinafter, a method of sealing a sealing box of a sealing box sealing storage device having such a configuration will be described.

17 is a flow chart of a method for discharging nitrogen gas for filling the sealing box with nitrogen gas of the present invention.

First, referring to FIGS. 5 to 10 and 17, the sealing box 2 is placed in the space 12 inside the housing 10. After the sealing box 2 is placed, the first sealing member, the silicone seal 20, is coupled to the housing 10. At the same time, the check valve 40 is coupled to the glass plate 30 as the second sealing member. The glass plate 30, which is a second sealing member, is coupled to the groove 22 formed in the silicone seal 20.

Then, the cover 50 is fixed to the flange 14 of the housing 10. A bolt 62 is inserted into the coupling hole 14a formed in the flange 14 of the housing 10 coaxial with the plurality of through holes 52 formed in the cover 50, and the bolt 62 ) To the nut 64 is coupled. The cover 50 is fixed by pressing the silicon seal 20 and the glass plate 30 by the combination of the bolt 62 and the nut 64.

In addition, a magnet 60, which is a coupling means, is fixed to the plurality of grooves 54 formed in the cover 50. The magnet 60 is coupled to a frame 6 including a young jeong. In this way, the sealing box (2) is placed, and the sealing box sealed storage device is assembled to completely seal the sealing box sealed storage device (S100).

As shown in Fig. 7, the automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealed storage device of the seal box. The automatic filling and discharging machine 70 reaches a filling step of filling an inert gas into the sealed storage device of the sealing box through the check valve 40 (S102).

The inert gas is nitrogen 72 as a stable gas whose chemical reaction is close to zero. The automatic filling/discharging machine 70 injects nitrogen 72 so that the internal pressure of the sealed storage device of the sealing box reaches a predetermined pressure previously input.

Nitrogen can be replaced with argon, carbon dioxide, helium, etc.

Nitrogen (72) injected through the automatic filling and discharge machine (70) is a gas trapped inside while the sealed storage device of the sealing box is sealed (a pollutant source such as moisture and microscopic bacteria that decay or deteriorate the remains contained in the sealing box (2). Air having a) reaches a discharge step in which the air discharge device formed on the bottom of the rear side of the housing is gradually discharged by the filling pressure (S104).

After a certain period of time has elapsed after starting to fill the sealed box sealed storage device through the check valve 40, the gas 74 in which nitrogen 72 and air are mixed is the nitrogen concentration measuring air discharge device 100 ( When the nitrogen concentration reaches 90% upon discharge through 200), a blocking step of blocking the air outlet of the nitrogen concentration measuring air discharge device is reached (S106).

When injecting nitrogen gas as described above, it was found that the mixed air inside was continuously discharged first, and then the herpes of nitrogen gas was formed, and that it took about 25 seconds to 90% of the nitrogen gas. It was possible, and by using the principle of this, it solved the hassle of the method of replacing the internal air by repeating one side as in the prior art.

Then, it reaches the maintenance step of maintaining the state by filling the inside of the sealing box sealed storage device until the amount of nitrogen 72 is 95% or more (S108).

After that, if the nitrogen gas is not more than 95% inside the sealed storage device of the seal box, it is moved to the step of charging nitrogen gas again (S109).

The automatic filling and discharging machine may be replaced with respective equipment having separate filling and discharging functions.

By the sealing method of the sealing box of the present invention, the sealed storage device of the sealing box can prevent the ashes from easily decaying and deteriorating from pollutants such as moisture and microscopic bacteria in the air.

In addition, since it is easy to fill the sealing box with nitrogen, expensive constant temperature and humidity devices are unnecessary, and maintenance is easy.

The scope of protection of the present invention is not limited to the description and expression of the embodiments explicitly described above. In addition, it is added once again that the scope of protection of the present invention may not be limited due to obvious changes or substitutions in the technical field to which the present invention pertains.

10: housing
400: nitrogen filling valve
402: valve mounting table
435: rubber tube fitting part
436: rubber tube fitting jaw
438: rubber tube
500: nitrogen measuring air exhaust device
502: valve mounting base
535: rubber tube fitting part
536: rubber tube fitting jaw
538: rubber tube

Claims (1)

The automatic filling and discharging machine 70 is coupled to the check valve 40 of the sealing box sealed storage device, and the automatic filling and discharging machine 70 fills nitrogen gas into the inside of the sealing box sealed storage device through the check valve 40. And, a nitrogen measuring air discharge device 500 is installed in the housing 10 through the rear (side) side connection hole to discharge a certain mixed air, and then block the air by blocking it with an air blocking cap 517. The measuring air discharge device 500 is composed of a valve core 531 and a rubber tube 538, and a valve mounting table 502 is fitted to the outer periphery thereof, and a rubber hose 220 is provided in the housing 10. While being connected by a rubber hose connection jaw 230, the valve core 531 is connected to the air outlet 270 of the rubber hose 220, and a rubber hose knot is connected to the middle of the rubber hose 220. Form 250, and connect the nitrogen measuring air discharge device 200 to the rubber hose 220 by a rubber hose connecting jaw 230 connected to the housing 10 and the rubber hose connection, and the filling and discharging When nitrogen is filled by the injection check valve 40 by the automatic machine 70, the internal air is gradually discharged through the rubber hose through the air outlet 270 of the nitrogen measuring air discharge device 200. While, finally, as the dense nitrogen is discharged, the nitrogen measurement air discharge device 200 can check the nitrogen concentration of the mixed gas 74 and the initial internal air 75 discharged through the rubber hose hole 240 of the connection hose. A device that can be used is built-in, and as a result of checking the nitrogen concentration unit display unit 280 by this, if the nitrogen concentration is more than 90%, the air can be blocked by the air discharge blocking switch 260, but the above At one side of the valve core 531, a sealed rubber tube fitting portion 535 is formed in a cylindrical shape, and an air tube fitting portion 536 for fixing the rubber tube 538 is formed in the middle thereof, and the rubber tube 538 ) The rubber tube fitting portion 539 is formed in itself and is hung so as not to fall out of the front end, and both sides are in the inner space of the rubber tube fitting portion 535. As a plurality of mixed air discharge holes 534 are formed, the rubber tube 538 is increased by the pressure when nitrogen is injected, and the internal air is initially exhausted and the mixed air mixed with nitrogen gradually escapes. At one side of the valve core 531, a connection screw part 532 and a locking protrusion 533 are formed, and while being coupled to the valve mounting base 502 by a fixing nut 505, the air tube fitting part is provided by the rubber tube sealing part 503. The sealing box sealed storage device for sealing the sealing box by the nitrogen concentration unit display unit, characterized in that the sealing effect of the rubber tube 538 is improved by pulling 536.

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