KR101988821B1 - Apparatus for crystallizing powdered bones - Google Patents

Abstract

The present invention relates to a device for crystallizing powdered bone. The device for crystallizing powdered bone includes: a crucible on which powdered bone is placed; a torch installed in the upper part of the crucible to melt the powdered bone placed on the crucible; and a rotation plate installed in the lower part of the crucible to cool any ash liquid dropped from the crucible by being melted by the torch. The torch includes: a gas pipe supplying combustion gas; a nozzle holder including a first body unit, a nozzle mounting unit, and a second body unit; a gas nozzle having a coupling unit and a nozzle unit; and a cooling device for cooling the nozzle holder. The nozzle holder includes: the first body unit including a first gas flow path connected to the gas pipe; the nozzle mounting unit protruding from the center of the first body unit; and the second body unit formed at intervals on the outer surface of the nozzle mounting unit to have a second gas flow path connected to the first gas flow path. The gas nozzle includes: the coupling unit connected to the nozzle mounting unit by a screw; and the nozzle unit having multiple gas discharge paths of a slit shape, connected to the second gas flow path and formed at intervals at a frame in the circumferential direction. The device for crystallizing powdered bone can rapidly crystallize the powdered bone in high quality.

Description

[0001] Apparatus for crystallizing powdered bones [0002]

The present invention relates to a stone making apparatus, and more particularly, to a stone making apparatus capable of amplifying combustion heat used to melt osteoblasts during the manufacture of osteoblastic crystals.

In general, funeral methods differ according to the culture, custom, and climate of the people. In Korea, the shape of the graveyard is buried in the land without destroying the body due to Confucian thought. Recently, as the land available for graveyard has gradually decreased and the perception of funeral has changed, a funeral culture has been settled, such as a crematorium and a paddy field, where the body is cremated and the ashes are kept in containers. It is the same.

However, the remains of the ash remained after the make-up are not well-suited to the cosmetics, and when the moisture is absorbed during the storage process, it is difficult to manage such as the deodorization or decaying odor. In order to solve such a problem, recently, an apparatus has been developed and used in which an ash bone is heated to a high temperature, melted, and then cooled to produce a bead-shaped crystal, that is, a stone (used in the same sense herein).

However, in order to melt the osteoblasts, the body must be burned at a higher temperature than when it is made. In the stone manufacturing apparatus according to the prior art, since it is difficult to obtain high-temperature combustion heat by using a general gas nozzle, The quality of the stone is deteriorated, of course.

For reference, the inventor of the present invention has proposed a mechanical device (Patent No. 10-0445338) for finely crushing the remains of a body and then finely crushing the fine bone fragments at high temperature to produce crystals from the bone fragments (Patent No. 10-0445338) The present invention relates to a crystal molding apparatus (a utility model No. 20-0294238) of a crystal manufacturing system using an ash that can be cooled and formed into a circular crystal by dropping a bone powder into a rotating plate which simultaneously rotates and revolves, (Japanese Patent No. 10-0666444) which recrystallizes a separated shape into a shape close to a sphere by rotating and passing a circular pipeline through the upper portion of the crucible The administration method in which the administration is carried out little by little and the heating time of the ashes can be shortened (10-0931544), 1st and 2nd cooling molding process, the ashes of the ashes of the abominable remnants of jewels like a polished surface with a beautiful color of jade and blue, but also to the source (Patent No. 10-1221121), which is capable of producing spherical saris in a uniform size, and making beads in the form of beads after the make-up, which is left after the make-up, but the above-mentioned patent and utility model The structure of the gas nozzle is not specifically disclosed, and the technical content of the gas nozzle is provided through the present invention.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stone manufacturing apparatus capable of improving the thermal efficiency of a gas nozzle and rapidly manufacturing high quality stones.

As means for solving the above-mentioned technical problem,

The present invention relates to a crucible comprising a crucible in which an ash remnants are placed, a torch provided above the crucible for melting the osseoids held in the crucible, and an oven which is melted by the torch and cooled from the crucible, A stone manufacturing apparatus including a rotating plate provided below a crucible, the torch comprising: a gas pipe to which a combustion gas is supplied; And a second gas passage communicating with the first gas passage. The first gas passage may be formed in the center of the first body portion, and a second gas passage communicating with the first gas passage may be formed. A nozzle holder having a second body part spaced apart from the nozzle mounting part; And a plurality of slit-shaped gas discharge passages formed at one end of the fastening portion and communicating with the second gas flow passages at regular intervals along the circumferential direction Gas nozzles; And a cooling device for cooling the nozzle holder.

In this case, the cooling device may include a cooling water inlet formed at an upper end of the second body part; A cooling water circulation member installed between the nozzle mounting portion and the second body portion such that the second gas flow path is located inside and a spiral cooling water path connected to the cooling water injection port is formed on an outer circumferential surface of the cooling water circulation member; And a cooling water outlet connected to the cooling water passage and installed at the other lower end of the second body portion.

In this case, a cooling pipe may be formed in a double pipe structure on the outside of the gas pipe, and a cooling water pipe may be formed so that the cooling water discharged through the cooling water discharge pipe passes through the first body part and the nozzle mounting part, have.

In this case, the rotating plate may be made of duralumin.

In this case, the nozzle holder may be made of a chrome copper alloy and a beryllium alloy alloy.

According to the present invention, a fine gas discharge path is formed at the edge of the gas nozzle, and the combustion gas is discharged at a high pressure through the gas discharge path to obtain high temperature combustion heat, thereby improving the quality of the stone and shortening the manufacturing time .

Further, since the nozzle holder on which the gas nozzle is mounted is made of the alloy material of chrome copper and beryllium alloy, and the cooling water duct is formed in the gas nozzle so that the cooling water can be circulated as a whole, the nozzle holder can be prevented from being damaged by the high- have.

In addition, since the rotating plate on which the ash remained melted by the torch is made of duralumin, it is possible to prevent the stone from being discolored by the metal component.

1 is a perspective view of a stone manufacturing apparatus according to a preferred embodiment of the present invention,
FIG. 2 is an exploded perspective view of the torch shown in FIG. 1,
FIG. 3 is a cross-sectional view showing a nozzle coupling structure of the torch shown in FIG. 1,
Fig. 4 is a cross-sectional view showing the cooling device coupling structure of the torch shown in Fig. 1,
5 is a view showing a process of manufacturing a stone of a stone manufacturing apparatus according to a preferred embodiment of the present invention,
6 and 7 are photographs of actual products of the stone manufacturing apparatus according to the preferred embodiment of the present invention,
8 is a photograph showing a stone produced by a stone manufacturing apparatus according to a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly explain the present invention, parts not related to the description are omitted, and similar parts are denoted by similar reference numerals throughout the specification.

FIG. 1 is a perspective view of a stone manufacturing apparatus according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view of the torch shown in FIG. 1, FIG. 3 is a sectional view showing a nozzle coupling structure of the torch shown in FIG. FIG. 5 is a view showing a process of manufacturing a stone of a stone manufacturing apparatus according to a preferred embodiment of the present invention, and FIG. 6 and FIG. 7 are views showing a process of manufacturing a stone according to a preferred embodiment of the present invention Is a photograph of an actual product of a stone manufacturing apparatus according to the present invention.

1 to 7, a stone manufacturing apparatus 100 according to a preferred embodiment of the present invention melts and cools ash remained after make-up of a person or animal, And includes a crucible 110, a torch 120, and a rotating plate 130 for manufacturing.

The crucible 110 is made of a ceramic material for holding the ash pellets P, which is a raw material of the stone, and is capable of withstanding a high temperature flame when the torch 120 is operated. On one side of the crucible 110, an osseous liquor discharge passage 110a for discharging the molten osseous fluid is formed.

The osmosis solution is discharged through the rotation of the crucible 110. Concretely, the crucible 110 is connected to the frame structure 10 by using at least one support base 111 (112) in a state where the oceaide solution discharge passage (110a) And a handle 113 capable of rotating the crucible 110 by using a power transmission means such as a gear is installed at the rear end of the support base 112. [

The oven bone P is heated and melted by the torch 120 while the crucible 110 is held horizontally and then the crucible 110 is rotated and tilted when the handle 113 is rotated in one direction, So that the liquid flows down the rotating plate 130 as it flows along the asbestos liquid discharge path 110a. However, although the crucible 110 is manually rotated in this embodiment, the rotation of the crucible 110 is not limited thereto, and it is also possible to use a known automatic method.

The torch 120 is provided above the crucible 110 for heating and melting the ash pellets P placed in the crucible 110 and includes a gas pipe 121, A nozzle holder 122, a gas nozzle 123, and a cooling device.

The gas pipe 121 is connected to an external gas supply source so as to supply a combustion gas. As the combustion gas, it is preferable to use a mixed gas of LPG and oxygen, but it is not particularly limited.

The nozzle holder 122 is for mounting the gas nozzle 123 and includes a first body portion 122a and a nozzle mounting portion 122b and a second body portion 122c. Specifically, the first body part 122a is provided with a first gas flow path 125 connected to the gas pipe 121, and a nozzle mounting part 122b is protruded from the lower part of the first body part 122a And a second body portion 122c is formed at a predetermined distance apart from the nozzle mounting portion 122b so that a second gas flow path 126 is formed between the nozzle mounting portion 122b and the second body portion 122c. The second gas passage 126 communicates with the first gas passage 125.

The gas nozzle 123 is for spraying the combustion gas supplied through the gas pipe 121 and the first gas flow path 125 and the second gas flow path 126 to the outside and includes a nozzle mounting part 122b ).

Specifically, the gas nozzle 123 includes a fastening portion 123a screwed to the nozzle mounting portion 122b and a nozzle portion 123b integrally formed at the lower end of the fastening portion 123a. The nozzle portion 123b has a diameter allowing the outer circumferential surface to closely contact the inner wall of a cooling water circulating member 124 described later, and a plurality of fine gas discharge paths 127 are formed at regular intervals at the rims thereof.

The gas discharge passage 127 is formed in the form of a fine slit cut in the longitudinal direction of the gas nozzle 123 so as to communicate with the second gas flow passage 126. A plurality of . Accordingly, the combustion gas supplied to the second gas flow path 126 passes through the narrow gas discharge path 127, so that the pressure is increased, so that the combustion heat of high temperature is obtained at the time of ignition. The temperature of the combustion heat can be adjusted according to the width of the gas discharge passage 127, and the width of the gas discharge passage 127 is adjusted to such a degree that combustion heat of about 2300 DEG C can be obtained.

In other words, if a normal general nozzle is applied to the torch 120 with a gas nozzle, it takes a long time to melt the ash pellets P because the combustion heat is low, the melting does not proceed smoothly and the quality of the stone is inferior , When the gas nozzle 123 having the fine gas discharge path 127 as described in the present invention is applied, the combustion gas is discharged at a high pressure to obtain high-temperature combustion heat, thereby shortening the melting time of the ash pellet P The quality of the stone can be increased.

However, when the combustion heat is high, the nozzle holder 122 around the gas nozzle 123 can be melted by heat when the torch 120 is used for a long time. In order to prevent the nozzle holder 122 from being damaged by heat, the nozzle holder 122 is preferably made of a chrome copper alloy and a beryllium alloy, and further includes a cooling device.

The cooling device includes a cooling water inlet 122d and a cooling water circulating member 124 and a cooling water outlet 122e as shown in Fig.

The cooling water inlet 122d is formed at one upper end of the second body portion 122c and the cooling water outlet 122e is formed at the other lower end of the second body portion 122c so as to face the cooling water inlet 122d diagonally .

The cooling water circulating member 124 is inserted and fixed between the nozzle mounting portion 122b and the second body portion 122c such that the second gas flow passage 126 is located on the inner side with a hollow cylindrical structure. On the outer peripheral surface of the cooling water circulating member 124, a cooling water path 124a is formed. The cooling water path 124a extends spirally along the vertical direction, and the upper water channel is connected to the cooling water inlet 122d and the lower water channel is connected to the cooling water outlet 122e. Therefore, the cooling water introduced through the cooling water inlet 122d is spirally transferred from the upper water passage to the lower water passage of the cooling water passage 124a and then discharged to the outside through the cooling water outlet 122e. During the circulation of the cooling water, 122 are cooled.

However, if the second body portion 122c of the nozzle holder 122 is sufficiently cooled, the first body portion 122a and the nozzle mounting portion 122b are not cooled. In order to solve such a problem, a cooling device has a cooling pipe 128 installed in a double pipe structure on the outside of the gas pipe 121, and a cooling water passage 129a The front end of the cooling water path 129a is connected to the cooling water outlet 122e by the cooling water conveyance pipe 129c and the rear end of the cooling water path 129b is connected to the cooling pipe 128. [

As a result, the cooling water discharged through the cooling water outlet 122e flows into the cooling water passage 129a by the cooling water conveyance pipe 129c, is discharged to the cooling pipe 128 through the cooling water passage 129b, The body portion 122a and the nozzle mounting portion 122b are cooled. The cooling water discharged to the cooling pipe 128 is heated to a certain extent through heat exchange with the first body part 122a, the nozzle mounting part 122b and the second body part 122c, And also serves to preheat the combustion gas flowing through the interior of the gas pipe 121, thereby increasing the combustion efficiency.

The rotary plate 130 is provided for cooling the ossein liquid falling from the crucible 110 and is rotatably installed below the crucible 110. A cooling water path is formed in the inside of the rotary plate 130. The ointment liquid dropped on the upper surface of the rotary plate 130 can be cooled by the cooling water flowing through the cooling water path. However, when the rotating plate 130 is made of a common metal material, there is a problem that the metal component of the rotating plate 130 is melted by the high temperature osseous solution and the surface of the stone is discolored when the oozing solution falls and is grounded on the surface. In order to prevent discoloration of the stone, the rotating plate 130 is preferably made of duralumin.

The ash remnant dropped on the rotary plate 130 is cooled in the rotation process of the rotary plate 130 to be formed into a bead-shaped stone. The stone is discharged from the stone discharge port (not shown) by the guide bar 131 fixed to one side of the rotary plate 130 132 and then sliding downward along the swash plate 133 and collected in the stone collection box 134. [

The construction of the stone manufacturing apparatus according to the preferred embodiment of the present invention has been described above. Hereinafter, an operation method of a stone manufacturing apparatus according to a preferred embodiment of the present invention will be described.

First, the ash pellets P are placed in the crucible 110.

Thereafter, when the torch 120 is operated, the combustion gas supplied through the gas pipe 121 passes through the first gas flow path 125 and the second gas flow path 126, and then flows through the gas discharge path 127 to the high- When the combustion gas is ignited in this state, the ash pellet P is heated while a flame is generated. At the time of heating the ash pellets P, the heating is started at about 500 ° C so as not to scatter the ash pellets P by the flame, and the temperature is gradually raised to 1650 ° C and heated for about 15 minutes.

During use of the torch 120, the cooling device is operated such that the nozzle holder 122 is not damaged by the heat of combustion. That is, the cooling water injected through the cooling water inlet 122d is spirally conveyed along the cooling water passage 124a of the cooling water circulation member 124 and then discharged through the cooling water outlet 122e, The cooling water discharged from the cooling water outlet 122e is sequentially introduced into the cooling water passages 129a and 129b by the cooling water conveyance pipe 129c to be supplied to the first body portion 122a and the nozzle mounting portion 122b, And then is discharged to the cooling pipe 128. [ The cooling water discharged to the cooling pipe 128 contributes to increase the thermal efficiency by preheating the combustion gas flowing in the gas pipe 121.

When the osseous matter is melted, the crucible 110 is tilted to one side by the operation of the handle 113 to drop the osseoid solution onto the rotary plate 130 (see Fig. 5 (a)). The ash remained continuously on the rotary plate 130 until the ostrich fluid in the crucible 110 was completely exhausted and the remained ostrich fluid was rotated in one direction in accordance with the rotation of the rotary plate 130, (See Fig. 5 (b)). When the osseous fluid is cooled, a spherical stone is formed. The stone is transported to the stone discharge port 132 by the guide bar 131 (see FIG. 5C), then slides downward along the swash plate 133, Collected in the collection box 134 (see (d) of FIG. 5).

Fig. 8 shows an actual photograph of the stone produced by the above-mentioned method. 8, it can be confirmed that the stone of the present invention is spherical and has a jade color and is thus superior in esthetic sense.

The preferred embodiments of the present invention have been described in detail with reference to the drawings. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

Therefore, the scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning, range, and equivalence of the claims are included in the scope of the present invention. .

10: frame structure 100: stone manufacturing apparatus
110: Crucible 110a: Ascending fluid discharge path
111, 112: support frame 113: handle
120: torch 121: gas pipe
122: nozzle holder 122a: first body part
122b: nozzle mounting portion 122c: second body portion
122d: cooling water inlet port 122e: cooling water outlet
123: gas nozzle 123a: fastening part
123b: nozzle unit 124: cooling water circulation member
124a: cooling water 125: first gas flow path
126: second gas passage 127: gas discharge passage
128: cooling pipes 129a and 129b:
129c: Cooling water piping 130:
131: guide bar 132: stone outlet
133: Swash plate 134: Sari collection box
L: Ascite P: Ashes

Claims (5)

A crucible in which an ash remnants are placed; a torch provided above the crucible for melting the osseointegrated in the crucible; and a lower portion of the crucible, which is melted by the torch and cooled from the crucible, And a rotating plate installed in the stator,
The torch includes: a gas pipe to which a combustion gas is supplied; And a second gas passage communicating with the first gas passage. The first gas passage may be formed in the center of the first body portion, and a second gas passage communicating with the first gas passage may be formed. A nozzle holder having a second body part spaced apart from the nozzle mounting part; And a plurality of slit-shaped gas discharge passages formed at one end of the fastening portion and communicating with the second gas flow passages at regular intervals along the circumferential direction Gas nozzles; And a cooling device for cooling the nozzle holder,
The cooling device includes: a cooling water inlet formed at an upper end of the second body part; A cooling water circulation member installed between the nozzle mounting portion and the second body portion such that the second gas flow path is located inside and a spiral cooling water path connected to the cooling water injection port is formed on an outer circumferential surface of the cooling water circulation member; And a cooling water outlet connected to the cooling water path and installed at the other lower end of the second body part. delete The method according to claim 1,
Wherein a cooling pipe is formed in a double pipe structure on the outside of the gas pipe and a cooling water pipe is formed so that the cooling water discharged through the cooling water outlet passes through the first body part and the nozzle mounting part and is then transferred to the cooling pipe. Stone manufacturing equipment. The method according to claim 1 or 3,
Wherein the rotating plate is made of duralumin. The method according to claim 1 or 3,
Wherein the nozzle holder is made of chrome copper and beryllium alloy material.

Images