KR20140061104A - Soil black for a saltpan - Google Patents

Abstract

A soil block of the present invention includes a block body which has a soil support hole with a soil separation preventing unit on the inner surface and a coupling unit which is provided on one side of the block body and combines adjacent block bodies to each other. The soil block of the present invention prevents salt from being contaminated by pollutants discharged from a synthetic resin.

Description

Salt block for soil block {soil black for a saltpan}

The present invention relates to a topping block, and more particularly to a topping block dedicated to a salt capable of producing various functional salts.

In general, salt is salt made by evaporating seawater in sunlight and wind, and its manufacturing method is to sequentially transfer seawater from tidal pools such as reservoirs, evaporation ponds and crystal ponds formed in tidal flats Solar radiation, wind power, etc. to determine the amount of water to be evaporated.

Because it is produced by evaporating and crystallizing seawater from the tidal flats without any other chemical or chemical reaction, it absorbs minerals necessary for the human body by organic matter, plankton and microorganisms in the tidal flat, and discharges unnecessary components. It is said to be suitable for various dishes because it contains minerals in a balanced manner, has low salinity and does not have intense taste.

The top plate is a type of tundra or crystal paper that produces sun salts, which means that the tundra is hardened by hardening the tidal flats, and the top pan sun salt or tofan salt means that the seawater is pulled on the top plate It refers to the tidal-flat solar salt produced by evaporation with sunlight and wind. Most of the solar salt produced in the past was the topical solar salt produced in the toppan.

However, in order to ensure the quality of topdisaster salt, the soil of the toppan must be frequently crushed with a roller to keep the crystal ground firm, and in the case of collecting the salt, the crystallized salt Such as dragging and pulling it back in one direction, requires a heavy workforce and takes a lot of time.

For this reason, in recent years, tobacco triboion has been practiced in only a few areas. In most areas, vinyl floorboards, rubber plates, tiles, and pieces of pottery are laid on the ground. However, it is not necessary to use the rollers to roll up the floor, and to use the rubber ladder with a relatively light weight or the rubber ladder when collecting the salt, There is the advantage that the production time can be shortened without requiring an excessive labor force as compared with the conventional art.

First, since vinyl vinyl sheets and rubber plates are manufactured by chemical action, if they are exposed to sunlight for a long time, they will be deformed or melted, resulting in chemical substances and environmental hormones, and these harmful substances will be dissolved in the salt.

Second, since tiles and pieces of Onggi fragments are glazed, not only the chemical is detected in the salt, but also the foreign substances such as tiles and minute fragments of the surface of the pottery are contained in the salt.

As a result of these problems, the topoil salt is gradually disappearing, and the amount of sunlit salt production is decreasing as the clean area capable of producing sunlit salt is gradually reduced. As a result, the price of sunlit salt is set at a high price, This is the situation that continues.

In view of this point, Korean Patent Registration No. 0944222 discloses a method of manufacturing a salt-containing top plate, and Korean Patent No. 099310 discloses a top block. The top board block to be posted is a top plate block which is packed on tidal flats for producing sun salts or on crystal paper. The top block is composed of 45 wt% of loess, 15 wt% of clay and 40 wt% of kaolin, So that the floor surface is non-planar. This topping block has a problem that the structure is relatively weak because it is made up of loess, clay and kaolin. In addition, since the mutual coupling structure of the top block is not provided, it is difficult to realize a smooth surface over the entire torsion bar.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a salt block for a salt which can fundamentally solve the problems caused by the top plate,

Another object of the present invention is to provide a top plate block for salt which is easy to maintain and can improve structural strength.

In order to achieve the above object, a top plate block for salt according to the present invention comprises a block main body having a top plate land hole provided with a detachment preventing portion of a toe plate on the inner side thereof and a coupling portion provided on one side of the block main body, Respectively.

The topsoil may be composed of clay, mud, clay, clay, or one functional material selected from ginseng, green tea, and green tea, which are functional materials, may be included in the topsoil. The top soil inserted into the top plate land of the block main body is formed so as to cover the top surface of the block main body so that the block main body is not exposed.

Wherein the block body includes a rectangular frame member and a support member which is perpendicular to the inside of the frame member and forms the grid pattern of the top plate land pores, At least one overhead soil release preventing portion extending is formed.

The engaging portion formed on the convex main body is provided with an engaging projection protruding upward from the two adjacent sides of the frame member by a predetermined length so that the engaging projection can be engaged with the two corresponding sides facing the two sides on which the engaging projection is formed And a lead portion provided with a fit-in hole formed therein

The topping block of the present invention can secure a smooth surface upon installation before salt, and the composition of the topping soil can be included in the salt water of the crystallization paper to make functional salt. In addition, the supporting force of the top soil can be improved to prevent the top soil from being detached and the structural strength from being weakened.

1 is a perspective view showing a torsion in which a top block according to the present invention is installed,
2 is a perspective view of a top block according to the present invention,
3 is a perspective view showing the block body of the top block according to the present invention,
4 is a sectional view of a block body constituting a top block,
5 is a cross-sectional view

The present invention relates to a top plate block which is installed before a trough, and one embodiment thereof is shown in Figs. 1 to 5.

Referring to the drawings, a top plate block 10 for salt according to the present invention is laid on a bottom surface of a trough and includes a block main body 11, a top tongue 30 supported on the tongue body to form a bottom surface, And a coupling portion 20 provided on the block body 11 so as to connect the block body 11 with each other. The block body 11 includes a rectangular frame member 12 and a supporting member 13 which forms a rectangular top plate 15 perpendicular to the inside of the frame member 12, 13) for preventing the topping soil from being released. The frame member 12 forms an outer circumferential surface of the top block 10, and is a square having the same length and the same length. The support member 13 is provided inside the frame member 12 to form a top plate land aperture 15 and connects two mutually corresponding sides of the frame member 12 so that the frame member 12 has a square shape The supporting members 13 are mutually orthogonal to each other to form a top plate land 15 having a lattice pattern.

The release preventing portion 14 is provided to prevent the topping board 30 from being detached from the block body 10 when the topping block 30 is joined to the block body 10 to form the topping block 10 And protrusions protruding outward at a predetermined distance along the longitudinal direction of the support member 13 and the frame member 12 at the side lower end portions of the support member 13 and the frame member 12. [

    A fixing hole (not shown) may be further provided at the center of the block body 11 for fixing the block body 11 to the bottom surface of the torsion bar. The fixing hole is formed so that a fixing member such as a relatively thin pile or a screw can be fastened. A plurality of fixing holes may be formed at various points of the block body.

Although the frame member 12 is shown as having a square shape in the present embodiment, it may be formed in a circular shape or a polygonal shape in addition to the square shape.

The release preventing portion 14 is formed by the protrusion protruding outward from the side surface of the support member 13 in the present embodiment. However, the release preventing portion 14 is not limited to this, 11 from being detached from the main body. Alternatively, it may consist of an inlet drawn into the inside of the support member 13. The separation preventing portion 33 may be formed to protrude outward along the longitudinal direction from the lateral center of the frame member 31 and the support member 32. [

The coupling part 20 is for coupling a plurality of panel frames 10 to each other and includes a coupling protrusion 21 formed at one side of the frame member 12 and a coupling protrusion 21 coupled to the coupling protrusion 21 And a fitting hole 23 provided on the other side of the rim member 12 so as to allow the rim member 12 to be inserted. The coupling protrusions 21 are provided on two adjacent sides of the frame member 12. When the two sides of the frame member 12 provided with the coupling protrusions 21 are referred to as first coupling sides 16, 1 engaging portion 16 is provided with an engaging portion 22 which is drawn inwardly from the outer edge of the first engaging portion 16 to a predetermined length and engaging protrusions 21 projecting upward from the bottom surface of the engaging portion 22 Is formed. The height of the upper end surface of the coupling protrusion 21 is formed to be equal to the height of the upper end surface of the frame member 12 and a predetermined length of the coupling protrusion 21 protrudes outward along the outer peripheral surface of the coupling protrusion 21 And a latching portion 21a is provided.

The fitting hole 23 is provided on the other two sides of the frame member 12 on which the coupling protrusion 21 is not formed. The two sides of the frame member 12, on which the fitting hole 23 is formed, The second engaging side 17 is positioned so as to correspond to the first engaging side 16 while the second engaging side 17 is positioned to correspond to the first engaging side 16 when the panel frame 10 is engaged, And a lead portion 24 projecting outward is formed at a position corresponding to the lead portion 22 of the side 16. The lead portion 24 is provided with a fitting hole 23 passing through the upper and lower surfaces and having a shape corresponding to the coupling protrusion 21. A step 25 is formed on the inner side of the drawing part 24 so that the engaging part 21a of the engaging projection 21 can be engaged with the drawing part 24. The drawing part 24 has a size corresponding to the drawing part 22 Shape.

The adjacent top plate blocks 10 can be coupled to each other by coupling the coupling protrusions 21 of the one panel frame 10 to the fitting holes 23 of the other panel frame 10, And is prevented from being separated from each other by the engaging portion 21a and the step 25.

On the other hand, the topsoil to be inserted into the topsoil land 15 may be composed of clay, mud, clay, clay, etc. Functional materials such as ginseng, green tea, and green tea, which are functional materials, may be mixed with the topsoil. It is preferable that the functional material does not exceed 5 parts by weight based on 100 parts by weight of the topsoil.

The top plate block for salt, which is constructed as described above, can be manufactured by joining the top plate to the block main body 11. The topping board 30 is pressed into the block body 11 and the topping board inserted into the topping board support 15 is formed at least 10 to 20 mm or more higher than the top surface of the block body 11, So that the upper surface of the substrate 11 is not exposed. Since the topsoil to be supported on the block body 11 contains ginseng, green tea, green tea, etc. by the production of functional salt, it is preferable to selectively apply the topsoil to the topsoil so that the topsoil contains the functional material.

The bottom block constructed as described above is prepared by finishing the bottom surface of the torsion bar and smoothly installing on the surface thereof. That is, in the adjacent top plate block, the coupling projections 21 of the one top block block are fastened to the fitting holes 23 of the other top block block 10, so that the plurality of top block blocks can be coupled to each other. Are prevented from being separated from each other by the step 25. In this case, the engaging portion may be inserted into the top surface of the topping block, and the top portion of the topping block is preferably formed to have a uniform height with the top surface of the topping block.

The crystals of the torsion preform applied as described above have a structure in which the topsoil of the topsoil block 10 is exposed, so that it can be prevented from being contaminated by the contaminants discharged from the synthetic resin like the conventional long plate salt.

Since the block body for the salt according to the present invention having the above-described structure is formed in a prefabricated manner, it is possible to easily manufacture the top plate blocks of various sizes and prevent the top plate from being separated from the departure- It is possible to increase the supporting force of the top soil, and it is possible to manufacture various functional salts using the functional materials contained in the top soil.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

The topping block of the present invention can be used as an interior material of a building as well as a crystal ground of a tortoise.

10; top block
11;
15;
20;
30;

Claims (4)

And a coupling unit provided on one side of the block body and capable of coupling adjoining block bodies to each other. The method according to claim 1,
Wherein the topping soil comprises one selected from the group consisting of loess, mud, clay and clay, and the topping soil contains one functional material selected from functional materials ginseng, green tea, and green tea. The method according to claim 1,
Wherein the block body includes a rectangular frame member and a support member which is perpendicular to the inside of the frame member and forms the lattice pattern of the top plate land pores, A top plate for salt, The method according to claim 1,
Wherein the engaging portion for interconnecting the block bodies includes an engaging projection protruding upward from the two adjacent sides of the frame member by a predetermined length, and the engaging projection is engaged with two corresponding sides facing the two sides of the engaging projection formed And a lead-out portion provided with a fit-in hole formed therein so that the lead-in hole can be formed.

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