阅读说明：本技术 生命晶石、制造方法及纪念物 (Life spar, manufacturing method and memorial ) 是由 王永阔 张赫 袁德 刘洋 胡道庆 于 2021-07-18 设计创作，主要内容包括：本发明公开了一种生命晶石的制造方法,包括如下步骤：选取颗粒状和/或块状的骨灰并放入承载槽中；通过束状火焰直接接触所述骨灰直至形成熔融物；调整所述束状火焰的方向以汇聚各熔融物；将所述熔融物自然冷却形成生命晶石。本发明提供的生命晶石的制造方法,一方面,没有任何添加物,制成品更为纯净,更能代表逝者本身骨灰成分；另一方面仅依靠一个束状火焰即可完成制备,无需高压环境,对设备要求较低。(The invention discloses a method for manufacturing biogenetic spar, which comprises the following steps: selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove; directly contacting the ashes by means of a bunched flame until a melt is formed; adjusting the direction of the beam flame to converge the melts; and naturally cooling the melt to form the biogenetic spar. On one hand, the method for manufacturing the life crystal does not contain any additive, so that a finished product is purer and can represent the bone ash component of the departed; on the other hand, the preparation can be finished only by one beam-shaped flame, a high-pressure environment is not needed, and the requirement on equipment is low.)

1. The method for manufacturing the biogenetic spar is characterized by comprising the following steps:

selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove;

directly heating the ashes by means of a beam-like flame or radiant light until a melt is formed;

converging the melts;

and naturally cooling the melt to form the biogenetic spar.

2. The manufacturing method as claimed in claim 1, wherein the granular and lumpy ashes have a radial size not less than 1 cm.

3. The manufacturing method according to claim 1, wherein the bundle flame is one of a oxyhydrogen flame, an oxyacetylene flame, and a carbon monoxide flame.

4. The manufacturing method according to claim 1, wherein the temperature of the bundle flame is not lower than 1300 degrees.

5. The manufacturing method as claimed in claim 1, wherein in the step of directly heating the ashes by the bunch flame or the radiant light until the melt is formed, the ashes are directly contacted by an outer flame of the bunch flame.

6. The method of claim 1, wherein the biospar has a spherical or ellipsoidal shape.

7. The manufacturing method as claimed in claim 1, wherein in the step of directly heating the ashes by a beam-like flame or a radiation light until a melt is formed, the radiation light is a laser or a concentrated sunlight.

8. The method for manufacturing the biogenetic spar is characterized by comprising the following steps:

selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove;

directly heating the ashes by means of a beam-like flame or radiant light until a melt is formed;

converging the melts;

the melt is air cooled to form biospar.

9. A biospar produced by the production method according to any one of claims 1 to 8.

10. A monument comprising the biogenetic stone of claim 9.

Technical Field

The invention relates to a bone ash preservation technology, in particular to a life crystal, a manufacturing method and a monument.

Background

With the development of concept, people gradually accept various remains and bone ash processing modes, wherein the bone ash is made into various types of memorials and becomes one of the alternative solutions.

The invention patent application named as 'a process for producing bone ash customized diamond by animal or human bone ash' with publication number CN108996499A, publication date 2018, 12 and 14 comprises the following steps: a. Collecting ashes of animals or human needing to customize the souvenir; B. b, grinding 200-400 g of the bone ash collected in the step A into powder; C. b, heating the bone ash powder obtained in the step B at the temperature of 4500-6000 ℃; D. and D, taking 10-20 g of the bone ash powder heated in the step C out, then placing natural diamonds in the bone ash powder, adding 1-10 mL of metal liquid, uniformly mixing, placing in a diamond pressurizing machine, and reacting at the pressure of 5-18 KPa and the temperature of 2500-4000 ℃ to obtain the bone ash diamonds. E. And D, cutting the bone ash diamond obtained in the step D, and then carving codes. According to the scheme, metal liquid is added into bone ash, and then the bone ash is prepared into diamond at high pressure and high temperature.

For another example, the invention patent with publication number CN110606743B, publication date 28/08/2020 entitled "a method for preparing artificial diamond from bone ash" includes the following steps: (1) sieving the bone ash with a 300-mesh sieve, and collecting the sieved bone ash; (2) adding aluminum hydroxide, sodium carbonate and silicon dioxide into part of bone ash to obtain a mixture, wherein the mass ratio of the bone ash to the aluminum hydroxide, the sodium carbonate and the silicon dioxide is 30: 15: 15: 40; (3) melting the mixture at 1400-1500 ℃ for 12-15h, pouring the melted liquid into a mold, and annealing at 500-550 ℃ to obtain a glassy ring; (4) adding the other part of bone ash into acid solution, stirring and fully dissolving, and filtering to obtain undissolved carbon powder; (5) cleaning and filtering the carbon powder, and placing the carbon powder into a drying oven for treatment for 15-20 min, wherein the treatment temperature is 100 ℃; (6) mixing the dried carbon powder with zirconia according to a mass ratio of 10-50: 1, uniformly mixing, injecting into a high-pressure reaction chamber, heating and pressurizing step by step, firstly pressurizing to 45-55MPa, then heating to 900-152 ℃ at a constant speed, keeping for 10-15min, continuously pressurizing to 120-130MPa, heating to 1750-1900 ℃ at a constant speed, preserving heat for 14-16h, then cooling to 500-700 ℃, then releasing pressure, and simultaneously continuing cooling to normal temperature and normal pressure to obtain the artificial diamond; (7) preparing an artificial diamond ring by using the ring obtained in the step 3 and the artificial diamond obtained in the step 5. Which is made into diamond by adding a plurality of mixtures and then high temperature and high pressure.

Including the above two patents, the prior art has disadvantages in that, in the bone ash processing step, one or more other components are added in large quantities or only one carbon element among the multiple elements of the bone ash is retained, and on the other hand, a high-temperature and high-pressure environment is required and the processing can be completed in several hours. On the one hand, the obtained treated substances are not pure or do not represent complex components of the ashes and are not completely made of ashes, and on the other hand, the requirements on the equipment are high.

Disclosure of Invention

The invention aims to provide a life crystal, a manufacturing method and a memorial so as to solve the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

a method for manufacturing biogenetic spar comprises the following steps:

selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove;

directly heating the ashes by means of a beam-like flame or radiant light until a melt is formed;

converging the melts;

and naturally cooling the melt to form the biogenetic spar.

In the above manufacturing method, the radial size of the granular and lump ashes is not less than 1 cm.

In the above production method, the bundle flame is one of a oxyhydrogen flame, an oxyacetylene flame, and a carbon monoxide flame.

In the manufacturing method, the temperature of the beam-shaped flame is not lower than 1300 ℃.

In the above manufacturing method, in the step of directly heating the ashes by the bunch-shaped flame or the radiant light until the melt is formed, the ashes are directly contacted by the outer flame of the bunch-shaped flame.

In the above manufacturing method, the shape of the biogenetic spar is spherical, ellipsoidal, fusiform or pie.

In the above manufacturing method, in the step of directly heating the bone ash by using a beam-shaped flame or radiation light until a melt is formed, the radiation light is laser or concentrated sunlight.

A method for manufacturing biogenetic spar comprises the following steps:

selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove;

directly heating the ashes by means of a beam-like flame or radiant light until a melt is formed;

converging the melts;

the melt is air cooled to form biospar.

The life crystal stone is manufactured by the manufacturing method.

A monument comprising the above life spar.

In the technical scheme, on one hand, the method for manufacturing the life spar does not contain any additive, so that a finished product is purer; on the other hand, the preparation can be finished only by one beam-shaped flame, a high-pressure environment is not needed, the requirement on equipment is low, and the preparation can be finished within one hour.

Because the manufacturing method of the biogenetic spar has the technical effects, the biogenetic spar directly prepared by the method also has the corresponding technical effects.

Since the above-mentioned life spar has the above-mentioned technical effects, a monument including the life spar should also have corresponding technical effects.

Detailed Description

The present invention will be described in further detail below in order to enable those skilled in the art to better understand the technical solution of the present invention.

The embodiment of the invention provides a method for manufacturing biogenetic spar, which comprises the following steps:

101. selecting granular and/or blocky bone ash and putting the bone ash into a bearing groove;

specifically, the bone ash coming out of the cremator is in a mixed state of large bone ash, massive bone ash, granular bone ash and powder bone ash, in the embodiment, other types except for the powder bone ash can be selected, and the large bone ash can be smashed into the granular bone ash and/or the massive bone ash. The granular and/or block-shaped materials are selected to be used for solving the problem that the bone ashes are difficult to melt due to low thermal conductivity of the bone ashes, while the bone ashes in powder form are difficult to melt completely due to direct heating (indirect heating is not realized) in the embodiment, and generally, the granular and/or block-shaped materials with the radial dimension not less than 1cm are enough to melt completely.

The bearing groove is made of high-temperature-resistant materials, is made of solid materials at least at 1500 ℃, can be selected, can directly use a high-temperature-resistant crucible in a chemical experiment, and has the size determined according to the size of required life crystal stone, and the radial dimension is different from several centimeters to dozens of decimeters.

102. Directly heating the ashes by means of a beam-like flame or radiant light until a melt is formed;

in particular, a flame in the form of a bundle refers to a flame in the form of an elongated strip, which is capable of forming a high temperature flame body of stable shape, such as an oxyacetylene flame during welding, other flame such as oxyhydrogen flame and carbon monoxide flame, etc. when in preparation, the flame-spraying mechanism which is manually held or a mechanical arm is fixed with a welding gun and a burner to spray the bunch-shaped flame can heat all the bone ashes directly in turn by adjusting the position of the bearing groove, i.e., direct heating rather than indirect heating of the crucible, generally, the main components of the ashes are phosphates, the melting point is about 1300 ℃, the calcium and the trace metal elements are slightly different among individuals, therefore, the outer flame of the bunch flame can exceed 1300 ℃ to meet the requirement, the heating of the bunch flame can melt the bone ash, and the bone ash is formed into a molten colloid, a fluid or even a liquid from a solid, so that the bunch flame gradually melts all the bone ash to form a molten object.

Accordingly, the radiated light such as laser or the converged sunlight can also directly irradiate the bone ash instead of the beam-shaped flame to achieve the technical effect as long as the temperature exceeds 1300 ℃.

103. Converging the melts;

specifically, when the bone ash has a plurality of bone ash particles or a plurality of bone ash particles, because the flowing state of the melt is poor, a plurality of melts are integrally spread or scattered at the bottom of the bearing groove, and then the melts are converged together by gravity through rotating the bearing groove to form an integral large melt. Optionally, an inner groove may be formed in the bottom wall of the bearing groove, and the melt is heated to a flowing state in steps 102 and 103 to enable the melt to flow into the inner groove by gravity to realize convergence.

Still further, depending on the shape of the inner recess, a configuration with a smooth shape, such as a roughly spherical, ellipsoidal shuttle, pie-shaped structure, may be formed.

104. And naturally cooling or air cooling the melt to form the life spar.

Specifically, natural cooling must be placed at this time, or air cooling is slightly accelerated, and the melt is instantly crushed and turned into ash slag when placed in water or other cooling liquid for unknown reasons. The cooled finished product is the life spar, the whole color is light yellow or yellow brown, and due to different microelements of each individual, the local part has different other colors, such as light green lines, and the part has red, and a few people even can form a colorful local part. Moreover, the raw materials of the prepared life spar are all bone ash, and no other additives are added.

On the one hand, the method for manufacturing the life spar does not contain any additive, so that a finished product is purer; on the other hand, the preparation can be finished only by one beam-shaped flame, a high-pressure environment is not needed, and the requirement on equipment is low.

In this embodiment, it is preferable that the temperature of the bundle flame is not lower than 1300 degrees, so that the melting speed can be increased.

Further, in step 102, the outer flame of the bunch-shaped flame directly contacts the bone ash, the temperature of the outer flame is highest, and the heating speed is fastest.

The embodiment of the invention also provides the life crystal stone, and the life crystal stone is manufactured by the manufacturing method. Because the manufacturing method of the biogenetic spar has the technical effects, the biogenetic spar directly prepared by the method also has the corresponding technical effects.

The embodiment of the invention also provides a monument which comprises the biogenetic crystal. The monument can be the memorial device of all kinds of commemorative passers, like the all kinds of mementos that are used for the enstrument at home, the monument that can carry on etc. place the life brilliant stone or inlay wherein can.

Since the above-mentioned life spar has the above-mentioned technical effects, a monument including the life spar should also have corresponding technical effects.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the foregoing description is illustrative in nature and is not to be construed as limiting the scope of the invention as claimed.