KR101223323B1 - compost use compression molding forms compost equpiment and the compression molding forms - Google Patents

Abstract

The present invention allows to be stuck in uncultivated land without damaging the compressed compost even with a strong external impact. In addition, the central through-hole has a function of discharging heat and gas from the fermentation process after the compressed compost is buried in the ground so that it does not affect trees and plants. It provides a compost manufacturing apparatus and compressed compost using compost that eliminates the objection, is easy to compost, and is easy to transport and carry, and has a small place for storage and can also be stored indoors.

Description

Compost use compression molding forms compost equpiment and the compression molding forms

The present invention is compression-molded compost in the form of a powder to be embedded in the ground unchanged, after being embedded in the ground to quickly increase the decomposition speed of the compost, in the fermentation process Compressed compost manufacturing apparatus and compressed compost using compost to allow the heat and gas to be discharged to the outside through the grooves naturally to the outside and to prevent the plant from slowing or killing due to heat and gas. It is about.

In general, the compost is bulky and odorous, causing problems of transport and storage, and it is a problem of rejection due to workability and smell. It is common to see the sprinkling on the ground due to the absence of labor when composting trees and plants, and because of this method of fertilization, the original components are not transferred to trees and plants due to loss and evaporation. In addition, the loss caused by rainwater has a large economic loss compared to environmental pollution and fertilization amount, and damage caused by odors is occurring around.

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In order to solve this problem, Japanese Patent Application Laid-Open No. 06-217621 (1994.08.09) was invented, but the shape and composition of the conventional invention have been limited in scope for use in seedling or seeding, and may occur during the manufacturing process. The upper cylindrical groove, which is in the upper part of the shape of the groove while pressing to indicate the shape of the groove should be made. .

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The present invention has been proposed to solve the above problems, an object of the present invention is to form a groove in the inner side of the compressed compost solidified compressed compost is absorbed moisture through the interior and exterior in the ground Evenly accelerated the decomposition rate of the compost, and the heat and gas generated in the fermentation process through the groove to the heat and gas discharged to the outside (natural) to slow the growth or death due to heat and gas To prevent it.
In addition, the present invention has an impact resistance so that the upper end does not break even if the upper end of the compressed compost with a hammer or hammer.
In addition, the present invention shows the shape of the lower end portion in a circular smooth state so that the shape can be maintained intact in the manufacturing process and transport process.

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In order to achieve the above object, the present invention is implemented by the following embodiments.
Compressive compost manufacturing apparatus using a compost according to an embodiment of the present invention, the inlet cylinder 501 formed on the upper side, the upper plate 502 moved up and down by the hydraulic cylinder 501, and the upper plate 502 Located at the bottom of the) and the first pressing rods 503 to compress one end of the compost, and forming a spaced apart from the first pressing rods 503 by a predetermined distance and forming the mold 504 for injecting the compost compound And a second pressing rod 505 formed at a lower end of the forming mold 504 to enable pressing the other end of the compost, a lower plate 506 supporting the second pressing rod 505, and the lower plate. And a hydraulic cylinder 507 to move the 506 up and down.
In addition, the length of the first pressing rod 503 and the second pressing rod 505 is made different, the first pressing rod 503 is formed shorter than the length of the second pressing rod 505, thereby compressing The completed compression compost (100) is preferably not in contact with the lower end of the upper end forming rod of the first pressing rod 503 when the second pressing rod 505 is vertically raised.
In addition, the compost is the body portion 101 having any shape selected from a cylinder, a triangular prism, a polygonal pillar, and the groove portion 102 formed in the inside of the body portion 101 and a predetermined length when the compression is completed It is preferable to include.
In addition, the body portion 101 is preferably formed so that the upper end portion in a flat or tapered inward so that the inner portion is made of a funnel shape.
In addition, it is preferable that the inner upper surface of the first pressing bar 503 is formed in a protruding shape corresponding to the upper end portion of the compost so as to form the groove 102.
Compression compost according to an embodiment of the present invention is a body portion 101 having any shape selected from a cylinder, a triangular prism, a polygonal pillar, and a groove portion 102 formed in the inside of the body portion 101 and formed in a constant length It is prepared, including).
In addition, the body portion 101 is preferably formed in the upper end portion is planar, or tapered inward to the inner portion of the funnel shape.
In addition, the body portion 101 and the groove portion 102, the inlet cylinder 501 formed on the upper side, the upper plate 502 moved up and down by the hydraulic cylinder 501, and the upper plate 502 A first compression rod 503 positioned at a bottom surface to allow one end of the compost to be compressed, and a forming mold 504 formed at a predetermined interval from the first compression rod 503 to inject a compost compound; A second pressing rod 505 formed at a lower end of the molding die 504 to compress the other end of the compost, a lower plate 506 supporting the second pressing rod 505, and the lower plate 506. After the compost compound is injected into the mold 504 by the compression compost manufacturing apparatus including the hydraulic cylinder 507 to move the up and down, the upper plate 502 is lowered when the hydraulic cylinder 501 is operated. As the first pressing rod 503 is inserted into the mold 504 to the inside of the mold 504 After the pressure is applied to the composted raw material, the first pressing rod 503 is driven and then stopped, the lower plate 506 is lifted by the hydraulic cylinder 507 to the second pressing rod 505. Re-compression through the molding die 504 is preferably pushed up to form the upper portion.
In addition, the length of the first pressing rod 503 and the second pressing rod 505 is made different, the first pressing rod 503 is formed shorter than the length of the second pressing rod 505, thereby compressing The completed compression compost 100 is preferably manufactured so as not to contact the lower end of the upper end of the first pressing rod 503 when the second pressing rod 505 is vertically raised.
In addition, the inner upper surface of the first pressing bar 503 is preferably formed is formed in a protruding shape corresponding to the groove portion 102 to be formed in the upper end of the compost.

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As described above, the compressed compost manufacturing apparatus using the compost according to the present invention is compact and compact the compost to reduce the volume and easy to carry and carry, compared to the existing compost storage place is reduced, especially no smell has solved the problem of indoor storage As a result, labor savings can be reduced by reducing the time required for composting.
In addition, the compressed compost according to the present invention can be inserted into the ground to prevent the loss of the compost, reducing the environmental pollution due to the outflow of ingredients. The heat and gas generated during the fermentation process of compressed compost can be discharged to the outside to minimize the damage to plants.

1 is a view showing the compression compost in a variety of shapes according to an embodiment of the present invention,
7 is a view of the apparatus for producing compressed compost in accordance with an embodiment of the present invention.
8 is an exploded view of the apparatus for producing compressed compost in accordance with an embodiment of the present invention.
13 is a view of the compressed compost produced by the manufacturing method of the compressed compost according to the embodiment of the present invention.
14 is a view of the method of using the compressed compost in accordance with an embodiment of the present invention.
15 is a test report of the compression compost according to the present invention.

Hereinafter, a method for manufacturing a compressed compost using compost according to the present invention, an apparatus thereof, and a compressed compost will be described in detail with reference to the accompanying drawings. It is to be noted that like elements in the drawings are represented by the same reference numerals as possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a view showing the compression compost in a variety of shapes according to an embodiment of the present invention.

As shown in FIG. 1, the compressed compost 100 formed into a pile shape by compression molding powder compost is a body portion 101 having various shapes such as a cylinder, a triangular prism, and the body portion. The groove portion 102 is formed inside the 101 and is formed to have a constant length.
The body portion 101 is configured in a variety of shapes, such as a cylinder, a triangular prism as described above, the upper end of the body portion 101 is formed in a plane, or tapered inward to form a shape such as a funnel outside The contact area with the large to facilitate the absorption of moisture in the compressed compost, compared to the shape of the vertical groove of the inner portion is resistant to cracks and breaks when the upper end is impacted to insert into the ground.
At this time, the upper end portion of the body portion 101 is preferably formed in the impact surface wide so that the compressed compost can be inserted into the ground by a strong impact such as an external hammer or hammer even in uncultivated land.

The groove portion 102 is formed inside the body portion 101, so that the absorption of moisture from the inside and the outside of the body portion 101 in a state in which the compressed compost is embedded in the ground, so that the decomposition rate of the compressed compost can proceed quickly. In addition, the heat and gas generated by the compost fermentation according to the ground conditions are naturally discharged to the outside through the groove portion 102, so as not to affect the plants.

Therefore, the present invention the compressed compost is easy to insert into the ground by the pointed shape of the lower end without cracking and deformation of the upper end, and after insertion is restored to the powdered compost so that the nutrients of the compost can be provided to trees, plants, etc. To facilitate absorption of moisture, the compressed compost can be quickly decomposed, and heat and gas generated during fermentation can be discharged to the outside through the groove 102 to prevent harm to plants.

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As shown in FIG. 7, the apparatus 500 for manufacturing a compressed compost includes an inflow cylinder 501 formed at an upper side, an upper plate 502 moved up and down by the hydraulic cylinder 501, and the upper plate 502. Located at the bottom of the) and the first pressing rods 503 to compress one end of the compression compost (100), and formed at a predetermined interval from the first pressing rods 503 and the compost compound is injected A second pressing rod 505 and a second pressing rod 505 formed at a lower end of the forming mold 504 to compress the other end of the compression compost 100. It includes a lower plate 506 and a hydraulic cylinder 507 to move the lower plate 506 up and down.

The first pressing bar 503 may be formed to have a flat upper inner surface, or may be formed in a conical shape, a polygonal pyramid shape, etc. to form various shapes of the upper end of the compression compost 100 shown in FIG. It may be formed in a protruding shape corresponding to the 102 can be formed.

The mold 504 is to be compressed by inserting the compounded compost to form a plurality of grooves in the interior so that a plurality of compression compost (100) can be molded mass production is possible, the groove is It is preferable that the first pressing rod 503 and the second pressing rod 505 have a sufficient diameter to penetrate.

The second pressing bar 505 is configured to have a length that can completely pass through the inside of the molding die, and when the second pressing rod 505 moves upward in a state where a predetermined length portion is always encroached inside the molding die. It is configured to support the upper pressure in order to shape the compression compost in the mold.

Looking at the operation principle of the manufacturing apparatus 500 of the compressed compost, first put the compost compound in a plurality of grooves formed in the mold 504 inside the hydraulic cylinder 501 to operate the top plate 501 is lowered As the first pressing rod 503 is inserted into the mold 504, pressure is applied to the raw material compost in the mold 504 to form the body portion 101 and the groove 102. When the first compression rod 503 is driven and then stopped, the lower plate 506 is lifted by the hydraulic cylinder 507 and recompressed through the second compression rod 505 to compress the compost 100. After the shape is determined, the compressed compost is pushed up to the upper part of the mold 504 to produce the compressed compost 100.

On the other hand, the length of the first pressing rod 503 and the second pressing rod 505 is made different, the first pressing rod 503 is formed shorter than the length of the second pressing rod 505, the reason is In order to prevent the compression compost 100, which has been completely compressed in the upper working space and the forming mold 504, from touching the lower end of the upper end of the first pressing rod 503 when the second pressing rod 505 is vertically raised. to be.
In addition, the first pressing rod 503 is formed by forming the upper end of the compression compost 100, the second pressing rod 505 is formed by forming the lower end of the first pressing rod 503 and the second pressing rod 505 I can change it and attach it.
In addition, the manufacturing apparatus 500 of the compressed compost of the present invention is a device in the form of a vertical pressure to support the pressure from the top to the bottom, but can change the function of the top and bottom according to the configuration and manner, the change of this configuration is composed of left and right It is possible to manufacture by changing the role in the horizontal method, and also to change the role of the upper and lower forming rods, which does not affect the shape of the operation and compression compost and can be applied differently depending on workability and environmental conditions.

The compressed compost 100 had a slower rate of being embedded in the ground as the moisture content of the outer surface and the ground was smaller, and the more moisture, the deeper it could be embedded in the ground with a single impact, and the surface water content of the ground was 2 to 5 %, It could be inserted into the soil well under the condition of 15 ~ 30% water content.
Compressed compost is a mature compost that is difficult to work on very hard soils, but it can be inserted into the ground while maintaining a circular shape with moderate speed and small impact on land with adequate moisture.
As a result of analyzing the compressed compost according to the present invention to the Jeollanam-do Agricultural Research and Extension Services, 16 components were detected as shown in FIG. 15 and Table 1 below.
(unit : % ) Inspection items Organic matter salt moisture Organics / Nitrogen Arsenic (mg / kg) Chromium (mg / kg) Test score 43.98 1.00 29.46 19.55 3.11 3.51 Process specification 25 2.0 or less 55 or less 50 or less 111 or less Less than 667 (Unit: mg / kg) Inspection items zinc Copper Cadmium nickel lead Mercury Test score 304.63 91.30 0.35 4.28 1.38 trace Process specification 2000 or less 667 or less 11 or less 111 or less 333 or less 4 or less ※ Others (Unit:%) Inspection items nitrogen Phosphoric Acid Carly calcium Test score 2.25 4.07 1.95 1.96

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Therefore, the present invention has a wide range of applications because the compression compost is hard and maintains strength, the compression compost of the present invention can be used even in the city because there is no smell. In addition, because there is no restriction on the use, it can be embedded in the ground by applying an external impact even in the soil where the uncultivated soil is not soft, and the groove is formed in the inner side to accelerate the absorption of moisture, and the heat and gas generated during the compost fermentation to the outside The effect which can be discharged can be aimed at.

In the above, the Applicant has described various embodiments of the present invention, but these embodiments are merely one embodiment for implementing the technical idea of the present invention, and any changes or modifications may be made to the present invention as long as the technical idea of the present invention is implemented. It should be interpreted as falling within the scope of.

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Currently, compost fertilization is not adopted due to the lack of labor, and it is being sprayed on the ground or replaced by chemical fertilizers, especially because of the inherent smell of compost. At present, interest in landscaping is becoming a part of the industry, and the problem of composting in the city is solved by the compressed compost, so that the problem of compost use is not removed in the city. The intimacy is increased and the bulky compost is light and rigidly constructed using the compression method, making it convenient to carry and store.
Compressed compost is purely composted, decomposed by moisture in the ground, delivering the nutrients of the actual compost directly to the plant, adding to the compost's deficiency, and making the work easier, efficient and economical. It can make a great contribution and can be used directly in the industry in an eco-friendly way.

100: compression compost 101: body portion
102: groove 500: manufacturing device for compressed compost
501, 507: hydraulic cylinder 502: top plate
503: first pressing rod 504: forming mold
505: second pressing rod 506: lower plate

Claims (10)

An inlet cylinder 501 formed at an upper side, an upper plate 502 moved up and down by the hydraulic cylinder 501, and a first end positioned at a bottom of the upper plate 502 to compress one end of the compost Compression rods 503, forming a spaced apart from the first compression rods 503 by a forming mold for injecting the compost compound, and formed at the lower end of the forming mold 504 and the other end of the compost The second pressing rod 505 to be crimped, the lower plate 506 supporting the second pressing rod 505, and the hydraulic cylinder 507 to move the lower plate 506 up and down Compressed manure production apparatus using a compost comprising a. The method of claim 1,
The first compression rods 503 and the second compression rods 505 are made of different lengths,
Since the first pressing bar 503 is formed to be shorter than the length of the second pressing bar 505, the compression compost 100 is completed, the first pressing rod 503 when the vertical compression of the second pressing rod 505 Compressive compost manufacturing apparatus using the compost, characterized in that the upper end of the forming rod does not touch the bottom. The method according to claim 1 or 2,
The compost includes a body portion 101 having any shape selected from a cylinder, a triangular pillar, and a polygonal pillar when the compression is completed, and a groove portion 102 formed in the body portion 101 and having a predetermined length. Compressed manure production apparatus using the compost, characterized in that the. The method of claim 3,
The body portion 101 is a compost manufacturing apparatus using compost, characterized in that the upper end portion is formed in a plane or tapered inward so that the inner portion is made in a funnel shape. The method of claim 3,
The inner upper surface of the first pressing bar 503 is
Compression manufacturing apparatus is formed in a protruding shape corresponding to the groove portion 102 to the upper end of the compost. delete delete delete delete delete

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