CN209976145U - Bone ash storage device for tree burial - Google Patents

Abstract

The utility model provides a bone ash strorage device for tree burial, the purpose is solved and is buried the formula tree burial loaded down with trivial details when the operation, is difficult to carry out the problem of popularization, and strorage device includes a casing that can bury in the trunk xylem, and the casing embeds at least to be provided with a cavity, and the cavity is used for depositing the bone ash, and cavity one end is sealed, and the other end is equipped with the opening and covers has closed the lid, forms the fixed seal structure to the cavity through the lid cooperation, the utility model discloses can directly select the trees of lumber when depositing, utilize existing trees can realize tree burial, need not to drop into manpower once more, the trees are cultivated to the resource, and the self-healing characteristic that utilizes trees simultaneously can protect storage device effectively, can carry out permanent save in strorage device moreover, traditional grave view of laminating more is favorable to promoting.

Description

Bone ash storage device for tree burial

Technical Field

The utility model relates to a storage method and a storage device of bone ash, in particular to a bone ash storage device for tree burial.

Background

The modern tree burial is to bury the bone ash of a dead in the ground, then plant trees, flowers and plants on the burying place, and engrave a tablet to show a mark, the tree burial has a very positive significance for environmental protection and land resource saving, and is popular with governments and environmental protectors in recent years.

However, the method of burying the bone ash is very different from the traditional grave concept, which hinders the popularization of the tree burial form to a certain extent. And when traditional tree burial was operated, need confirm at first that bury the cemetery and excavate the back and bury and spill planting, the operation is very loaded down with trivial details, and the required trees of tree burial need long-time cultivation can form the view moreover.

The trunk of a woody plant is generally divided into five layers, i.e., the bark, phloem, cambium, sapwood and heartwood bark are the surface layers of the trunk, which can protect the trunk and prevent the invasion of diseases. The fibrous tissue of the phloem carries sugars away from the leaves. The cambium is the growing part of the trunk from which all other cells come. The sapwood carries water from the root to the tree all over, this layer being generally lighter in color than the heartwood. The old core material and the old border material are called xylem. Most of the trunks are heartwood. With respect to the healing of tree wounds, McQuikin, equal to 1942-1947, tests on the effect of growth regulating factors and wound dressings on the healing of tree wounds are carried out in Belt-Svil test forest farms, and according to the record of trial-and-manufacture research of apple tree body wound healing agents written by Zhang Xicheng and Niuhi New Proc, northwest university of agriculture and forestry, detailed investigation and research on the healing memories of mechanical wounds of woody plants are carried out, and the research shows that the healing of mechanical wounds of trees can be intervened by selecting tree species, wound positions and wound dressings. Meanwhile, the research also gives the concrete condition of the healing speed sequence of the specific tree species, and McQuikin and the like consider that the white oak is the tree species with the fastest healing speed in the experiment.

Agricultural products containing rich selenium elements can improve human immunity, have various health care effects, and have higher economic value due to the fact that the price of selenium-rich crops is generally increased in recent years. As the crops can directly absorb soluble organic selenium or ionic selenium to enter the internal circulation system of the plants, the selenium-enriched crops can be produced in a mode of manual intervention. The other mode of manual intervention is that a selenium-containing medicament which can be absorbed by sapwood of a trunk is buried into the trunk and directly participates in circulation through the sapwood of the trunk.

SUMMERY OF THE UTILITY MODEL

This application provides a bone ash strorage device for tree burial in addition, and the purpose is solved and is buried formula tree burial loaded down with trivial details when the operation, is difficult to carry out the problem of popularization.

Its technical scheme is, strorage device includes the casing that can bury in trunk xylem, the casing embeds and is provided with a cavity at least, the cavity is used for depositing the bone ash, cavity one end is sealed, and the other end is equipped with the opening and covers and closes the lid, forms the fixed seal structure to the cavity through the lid cooperation.

In one embodiment, the surface of the storage device in contact with the plant tissue has at least one protective layer of a material that can symbiotic with the xylem of the trunk or promote healing of the xylem and trunk wounds.

In one embodiment, the protective layer is made of one or more of lanolin, rosin, and gum.

In one embodiment, the shell further comprises a slow release bin and a storage bin, the slow release bin and the storage bin are respectively provided with a first cavity and a second cavity which are independent, the first cavity, the second cavity and the cavity are mutually independent and sealed, and the outer wall of the slow release bin is provided with a micropore array allowing the slow release bin to be communicated with the outside.

In one embodiment, one end of the shell extends to form a conical tip, and an external thread is integrally protruded on the outer wall of the conical tip to form a structure capable of rotatably drilling into a tree body.

In one embodiment, the cover and the end of the housing are provided with mutually matched latches, and the cover and the end of the housing can be fixedly and hermetically connected through the latches.

In one embodiment, the shell, the cover body, the slow release bin and the storage bin are made of corrosion-resistant and oxidation-resistant materials, and the corrosion-resistant and oxidation-resistant materials are one of metal titanium and polymer plastics.

In one embodiment, the storage unit has a diameter in the range of 20-150 mm.

In an embodiment, the outer surface of the shell is provided with a sunken medicine storage structure, the medicine storage structure is positioned in the middle of the spiral external thread, and the medicine storage structure is a spiral groove body arranged in parallel with the external thread.

In one embodiment, the end part of the storage bin is fixedly provided with a signboard.

Utilize the utility model discloses depositing usable existing trees at carrying out the bone ash and can realizing tree burial, need not to drop into manpower, resource once more and cultivate trees, the self-healing characteristic that utilizes trees simultaneously can protect strorage device effectively, and the bone ash can carry out permanent save in strorage device moreover, and traditional burial viewpoint of laminating more is favorable to promoting. But also can avoid causing excessive damage to trees by the mode of cutting, strengthen its self-healing ability, realize the promotion to the healing process simultaneously through the healing agent that is located the strorage device surface. Meanwhile, the selenium-rich medicament containing selenium can be placed into the slow release bin, and the selenium-containing medicament is slowly released to the sapwood of the trunk through the slow release holes of the slow release bin and is used for being absorbed by the sapwood to participate in plant circulation, so that the final selenium content of fruits of fruit trees can be influenced. In addition, in the scheme, small articles of the dead can be placed in the storage bin, and the identity identification information is placed on the shell.

Drawings

FIG. 1 is a schematic view of a cylindrical housing of the storage device of the present invention.

FIG. 2 is a schematic view of an embodiment of the storage device housing of the present invention with a pointed end.

FIG. 3 is a schematic view of another embodiment of the storage device housing of the present invention having a pointed end.

Fig. 4 is an enlarged schematic view of a portion a in fig. 2.

Fig. 5 is a schematic structural diagram of another embodiment of the present invention.

Fig. 6 is a schematic structural view of an embodiment with a drug storage structure.

Fig. 7 is an enlarged structural view of a medicine storage structure portion in fig. 6.

Fig. 8 is a schematic structural view of one of the substrates with a protective layer.

Detailed Description

When the tree is buried, a proper tree body and tree species are selected, the tree species can be selected according to the preference, the tree species which is easy to drill and has strong self-healing capability, such as phoenix tree and white oak, can be selected according to the direction of easy implementation of the scheme, then the bark, the phloem, the cambium and the sapwood are cut, so that the layers can be uncovered to expose the structure of the core material, holes which are suitable for the storage device are drilled on the core material of the trunk, preferably, the inner walls of the holes are attached to the outer walls of the storage device, the outer walls of the slow release bin 108 are correspondingly attached to the sapwood part, the slow release selenium-enriched medicament is conveniently released to the sapwood layer through the micropore array 110, therefore, the storage device can be completely embedded into the holes, the inner walls which can ensure that the outer walls of the storage device can be attached to the holes can be ensured, then the cut bark, the phloem, the cambium and the sapwood are closed and coated with, while promoting rapid self-healing of the mechanical wound of the tree by a protective layer 106 on the housing or a protective or healing agent on the drug storage structure 107. The size and the age of the tree need to consider the healing capacity of the tree and the size of the storage device, in the actual operation process, the size of the storage device can be far smaller than that of the trunk, the selection of the storage device does not need to be capable of completely storing the individual complete bone ash, the bone ash storage device in the technical scheme is only used for memorial hanging instead of being used as a storage device of the complete bone ash, the bone ash storage device is used as a selenium-enriched medicament and a storage bin 109, the size of the storage bin 109 is not too large, the selenium-enriched medicament is required to be extremely low in selenium content in practice, the storage bin 109 is used for storing small articles such as hair, hair cards and pictures of a dead person, and the size of the storage device can be expanded according to the needs if the size and the healing capacity of the tree can meet the requirement of storing a larger storage device. Preferably, the diameter of the storage device is 20-150mm, when the tree is selected to be planted, the trunk diameter of the selected trunk region should be about 1/4 of the maximum diameter of the storage device, and the ratio of the axial length of the storage device to the maximum diameter of the storage device should be less than 6, such as the diameter of the branch of the target tree to be planted is 800mm, the diameter of the storage device is not more than 20mm, the length of the storage device is not more than 120mm, and meanwhile, according to the healing speed of different parts of the tree species, the storage region can be a tree root or a trunk, of course, the storage region can be selected to be a tree trunk, so that the mark can be left for ease of worshipping and sorrow; then, a storage device 100 adapted to the storage area is prepared, a cavity 102 for storing the ashes is arranged in the storage device 100, the ashes are compressed and placed in the cavity 102, and then the cavity 102 is fixedly sealed by a cover 103. When the tree is put in, a hole corresponding to the storage device 100 may be formed in the tree by a punching tool, the storage device 100 may be placed in the hole, or a screw may be provided in the storage device 100, and the tree may be put in by spinning of the storage device 100, and the storage device 100 may be made of a corrosion-resistant material such as metal titanium, titanium alloy, gold platinum medical stainless steel, aluminum alloy, or ceramic, in order to permanently store the storage device 100 and prevent the storage device 100 from being damaged by reaction with organic components or liquid of the tree. The storage device of the present invention will be further described in detail with reference to the accompanying drawings.

The first embodiment is as follows: as shown in fig. 1, fig. 2 and fig. 5, the storage device comprises a housing 101, a cavity 102 is disposed in the housing 101, the cavity 102 is used for storing bone ash, the size of the cavity 102 is designed according to the amount of bone ash to be stored, one end of the cavity 102 is closed, the other end is provided with an opening and covered with a cover 103, one end of the cover having a slow release chamber protrudes outwards, a fixed sealing structure for the cavity 102 is formed by the cooperation of the cover 103, and the fixed sealing structure can be performed by means of threads, a lock catch 200, and the like.

In the above embodiment, the casing 101 may be a cylindrical structure, but of course, the casing may have other shapes as long as it can be placed in a tree; on the structure that the shell is a cylinder, then a conical tip 104 is extended from one end of the shell 101, the shell 101 and the conical tip are integrally formed and provided with an external thread 105, and the external thread 105 can help the shell 101 to spin and enter the tree body; of course, the housing 101 may be formed in any other shape, and in the case of other shapes, the storage device 100 may be inserted into a tree body by a punching tool.

In an embodiment, as shown in fig. 3 and 4, the lock catch 200 between the cover 103 and the end of the housing 101 may specifically be that an annular flange 201 is disposed at one end of the cover 103, the flange 201 extends into the cavity 102 of the housing 101, an outer circumferential wall of the flange 201 is matched with an inner wall of the cavity 102, a plurality of slots 202 disposed at intervals are disposed on the flange 201, the slots 202 are disposed along an axial direction of the flange 201, one end of the slot 202 extends to the end of the flange 201, an annular locking protrusion 203 is disposed on an outer circumferential wall of the flange 201, a locking groove 204 matched with the locking protrusion 203 is disposed on an inner wall of the cavity 102, and when the flange 201 extends into the cavity 102, the locking protrusion 203 is matched with the locking groove 204 to form a fixed and sealed structure.

In the above embodiment, the housing 101 and the cover 103 are made of corrosion-resistant and oxidation-resistant materials, so as to prevent the reaction with the internal tissues of the tree, and ensure the service life of the storage device 100, the end of the cover 103 is fixedly provided with the signboard 112, which is used for displaying and recording the information of the deceased, the signboard can be made into a metal signboard or an automatic reading device, for example, the radio frequency signal of the rifid tag is used to store the information related to the deceased, such as the language, voice, or information corresponding to the deceased, and the rifid tag can transmit the signal in an active or passive manner, when a memorial is performed, the relatives can read the stored information by using electronic equipment near the storage, so as to give a worries.

In an embodiment, at least one protective layer 106 made of a material capable of symbiotic with the xylem of the trunk or promoting healing of the xylem and the wound of the trunk is arranged on the surface of the storage device in contact with the plant tissue, wherein the protective layer 106 can be independently coated on the surface of the shell 101, or a material layer with micropores is arranged on the surface of the shell 101, for example, a material layer made of a sponge material is adhered, a healing agent or a protective agent is stored by utilizing the micropore structure of the material layer, and the trunk healing promoting component in the protective layer 106 is formed by one or more of lanolin, rosin and gum.

In another embodiment, a medicine storage structure 107 with a recess is arranged on the outer surface of the shell, the medicine storage structure 107 is positioned in the middle of the spiral external thread, the medicine storage structure 107 is a spiral groove body arranged in parallel with the external thread, the healing agent is stored in the medicine storage structure 107, the healing agent can be smeared in the medicine storage groove, and then when the storage device is screwed into the heart wood, the healing agent is smeared at the wound at the same time, so that the smearing process of the healing agent is realized.

The utility model discloses can directly select the trees of lumber when depositing, utilize to have had trees can realize the tree burial, need not to drop into manpower once more, the resource is cultivated trees, utilizes the self-healing characteristic of trees to protect storage device effectively simultaneously, and the bone ash can carry out permanent save in storage device moreover, and traditional burial view of laminating more is favorable to promoting.

Claims (10)

1. A bone ash strorage device for tree burial, characterized in that strorage device (100) include one can bury casing (101) in trunk xylem, casing (101) built-in at least is provided with a cavity (102), cavity (102) are used for depositing the bone ash, cavity (102) one end is sealed, and the other end is equipped with the opening and covers and has closed lid (103), forms the fixed seal structure to cavity (102) through lid (103) cooperation.

2. A ashes storage device for tree burial according to claim 1, wherein the surface of the storage device contacting with the plant tissue has at least one protection layer (106) made of a material which can be symbiotic with the xylem of the trunk or promote the healing of the xylem and the wound of the trunk.

3. A ashes storage device for burial according to claim 2, characterized in that the protective layer (106) is composed of one of lanolin or rosin or gum.

4. A ashes storage device for tree burial according to any one of claims 1-3, wherein the housing further comprises a slow release chamber (108) and a storage chamber (109), the slow release chamber (108) and the storage chamber (109) are respectively provided with a first chamber and a second chamber which are independent from each other, the first chamber, the second chamber and the chamber are mutually independent and sealed, and the outer wall of the slow release chamber (108) is provided with a micropore array (110) allowing communication with the outside.

5. A bone ash storage device for tree burial according to claim 4, wherein the case (101) is extended at one end thereof with a cone-shaped tip (104), and the outer wall of the cone-shaped tip (104) is protruded with an external thread (105) to form a structure capable of being rotatably drilled into the tree body.

6. A ashes storage device for tree burial according to claim 5, wherein, the cover (103) is formed by a protrusion of one end of the slow release bin, a mutually matched lock catch (200) is arranged between the cover (103) and the end of the casing (101), and the cover (103) and the end of the casing (101) can form a fixed and sealed connection through the lock catch (200).

7. The ashes storage device for tree burial according to claim 6, wherein the case (101), the cover (103), the slow release bin (108), and the storage bin (109) are made of corrosion-resistant and oxidation-resistant material, which is one of titanium metal and polymer plastic.

8. The ashes storage device for tree burial according to claim 7, wherein the storage device has a diameter ranging from 20 to 150 mm.

9. A ashes storage device for tree burial according to claim 8, wherein the outer surface of the case is provided with a concave medicine storage structure (107), the medicine storage structure (107) is located in the middle of the spiral external thread, and the medicine storage structure (107) is a spiral groove body arranged in parallel with the external thread.

10. The ashes storage device for tree burial according to claim 7, wherein a signboard is fixedly installed at an end of the storage bin (109).

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