KR20190096546A - Boundary block with improved ease of installation and its manufacturing method - Google Patents

Abstract

The present invention relates to a boundary block with improved construction convenience and a manufacturing method thereof, and more specifically, to a boundary block with improved construction convenience, which is simply and efficiently improved so as to suppress a distortion phenomenon generated while a boundary block, which mixes cement and aggregate to be molded, is contracted and expanded by thermal deformation after construction, and a manufacturing method thereof.

Description

Boundary block with improved ease of installation and its manufacturing method

The present invention relates to a boundary block with improved construction convenience and a method of manufacturing the same, and more particularly, a boundary block formed by mixing cement and aggregate to suppress the phenomena generated during shrinkage and expansion by thermal deformation after construction. The present invention relates to a boundary block and a method of manufacturing the same having improved construction convenience.

In general, boundary blocks include natural stone boundary blocks processed with natural stone, cement boundary blocks formed by mixing cement and aggregate, boundary blocks formed by grinding the surface using cement and cement, and boundary blocks formed by injection molding synthetic resin. have.

Prior arts related to such boundary blocks are disclosed, including Korean Patent Nos. 1997-0065466 and 2005-0080768.

In the case of the boundary blocks formed of the synthetic resins disclosed in the prior art of these boundary blocks, the elastic resins can be used to absorb thermal strains such as shrinkage expansion even if they are customarily constructed. Even though the phenomena of distortion due to deformation absorption are small, the boundary block using natural stone such as stone or cement boundary block formed by mixing cement and aggregate, in particular, shrinks and expands when the space between the boundary blocks is not spaced even finely. Due to the heat deformation caused by the warpage phenomenon occurs a construction failure and often need to be rebuilt.

Therefore, especially in the case of cement boundary blocks, the joint work of filling sand or soil into the empty space between the boundary blocks is inevitably performed while maintaining the space between the boundary blocks.

For this reason, cement boundary blocks are difficult to maintain because they are difficult and difficult to maintain horizontal, vertical, and straightness, and they are easily twisted even when a small external force is applied or micro settlements occur after construction because the boundary blocks are separated from each other. There is still a problem that needs to be repaired or rebuilt.

In particular, the cumbersome joint work must be done in parallel, so the construction period is long, and the joint has a disadvantage in that it does not look good.

Republic of Korea Patent No. 10-0492013 (2005.05.19.) 'Border block with sound absorption and cushioning function for the road in the apartment complex' Republic of Korea Patent No. 10-1675954 (2016.11.08.) 'Boundary block for easy bending and connection'

The present invention was created in view of the above-described problems in the prior art, and the boundary block formed by mixing cement and aggregate can suppress the phenomena generated while shrinking and expanding by thermal deformation after construction. The main object of the present invention is to provide a boundary block having improved construction convenience and a method of manufacturing the same.

The present invention is a means for achieving the above object, the main block body 100 is formed of cement mortar made of cement and aggregate, and maintaining the interval protruding 5-10 mm from a portion of one side surface of the block body 100 In the boundary block comprising a portion (110); The gap maintaining unit 110 includes an edge interval maintaining unit 112 further extending from a portion of the edge of the block body 100, and the edge interval maintaining unit 112 forms an upper surface of the boundary block 100. It provides a boundary block with improved construction convenience, characterized in that the 'b' shape including.

At this time, one side surface of the boundary block 100 is characterized in that it further comprises a surface interval maintaining portion 114 protruding the same length as the edge interval maintaining portion 112 in the cross section itself.

In addition, the surface space maintaining portion 114 is also characterized in that protruding in any one of the shape of rod, wave, sawtooth, concentric, lattice.

In addition, the surface spacing portion 114 is also characterized in that at least one or a plurality formed.

In addition, the total surface area of the surface interval holding unit 114 is characterized in that it is maintained at less than 50% of the cross-sectional area of one side of the boundary block 100.

In addition, the boundary block 100 is 6.5 parts by weight of the modified sulfur solution, 1.5 parts by weight of methyltrimethoxysilane, 3.5 parts by weight of sodium acetate, based on 100 parts by weight of the cement-aggregate mortar constituting the boundary block 100 and It is also characterized by further comprising 1.5 parts by weight of phosphate.

In addition, the present invention comprises a mortar forming step of forming a mortar for producing a boundary block made of cement-aggregate; A basic molding step of molding a mortar formed in the mortar forming step into a molding machine into a boundary block shape having a rectangular block shape; When the basic molding step is completed, using the lateral horizontal moving mold forming a border interval holding portion for forming a 'b' shaped border interval maintaining portion further protrudes 5-10mm on the side of the mold; It also provides a method for manufacturing a boundary block with improved construction convenience.

At this time, in the step of forming the edge interval holding portion, the edge interval holding portion is formed together with the surface interval maintaining portion protruding from one side surface of the boundary block in the same manner.

In addition, in the mortar forming step, the mortar for producing a boundary block made of cement-aggregate includes 6.5 parts by weight of reformed sulfur solution, 1.5 parts by weight of methyltrimethoxysilane, and 3.5 parts by weight of sodium acetate based on 100 parts by weight of cement-aggregate mortar. And 1.5 parts by weight of phosphate are also featured.

According to the present invention, the boundary block formed by mixing cement and aggregate can be easily and efficiently improved to improve the construction convenience so as to suppress the phenomena caused by shrinkage and expansion by thermal deformation after construction. Can be.

1 is an exemplary view of a boundary block with improved construction convenience according to the present invention.
2 is an exemplary flowchart showing a method for manufacturing a boundary block with improved construction convenience according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Prior to the description of the present invention, the following specific structures or functional descriptions are merely illustrated for the purpose of describing embodiments according to the inventive concept, and the embodiments according to the inventive concept may be implemented in various forms, It should not be construed as limited to the embodiments described herein.

In addition, embodiments in accordance with the concepts of the present invention may be modified in various ways and may have various forms, specific embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As shown in FIG. 1, the boundary block having improved construction convenience according to the present invention includes a block body 100 formed of cement mortar made of cement and aggregate, and a portion of one side surface of the block body 100. A spacing portion 110 protruding -10 mm.

At this time, the interval maintaining unit 110 is formed to extend in the form of protruding from one side of the edge interval maintaining unit 112 and the block body 100 is further extended from a portion of the edge of the block body 100. It is made of a surface spacing portion 114.

In addition, the spacing holding unit 110 is made of the same material as the block body 100, and when forming the block body 100 by going through the spacing holding step to further molding without any additional process It is configured to be possible.

In particular, the edge interval maintaining portion 112 of the gap holding unit 110 is to be formed to protrude so as to be a part of the edge, such as 'b' shape, not the entire border, which is formed after protruding the entire border and the adjacent boundary block This is because when the construction is done face-to-face, the boundary blocks are not different from the face-to-face construction, resulting in a problem that the straight-lined boundary block line is distorted and collapsed by shrinkage expansion due to the change in outside temperature (summer and winter). .

That is, when the edge interval maintaining portion 112 protrudes only a part of the edge in a 'b' shape as in the present invention, the edge space is not expanded because the edge space maintaining portion 112 is not formed. When the contraction expansion occurs to the empty portion to relieve the contraction expansion can eventually eliminate the distortion caused by the gaps or pushed to the opposite parts push or pull each other.

At this time, the 'b' shape of the edge interval maintaining unit 112 must be a shape including the upper surface of the boundary block (100).

This is because the top surface must be in full contact with the adjacent boundary block after construction, so the appearance quality is excellent and no additional joint work is required.

Of course, the empty side and the bottom is filled with dirt, and this part is invisible in appearance, so it does not degrade the appearance quality.

In the present invention, it is the most preferred embodiment to form only the edge interval maintaining portion 112, in addition to one side cross-section of the boundary block 100, that is to increase the construction quality (straightness) and increase the ease of construction It may further include a surface interval maintaining portion 114 having a predetermined width on the cross section in which the interval holding portion 112 is formed and protrudes to the same length as the edge interval maintaining portion 112.

The surface interval maintaining unit 114 is preferably a straight rod shape as illustrated, but is not limited thereto, and may be modified into various shapes such as wavy, sawtooth, concentric, lattice, and the like.

The surface spacing holding unit 114 is useful for maintaining a constant spacing between one end surface of a relatively wide block as compared to the edge spacing holding unit 112.

That is, when there is only the edge interval maintaining portion 112, the lower side closer to each other during construction, the edge interval maintaining portion 112 is easy to be installed in the form of slightly spreading without facing exactly, but this is when there is no surface interval maintaining portion 114 This is because the side is empty, making it difficult to adjust the spacing.

As a result, it may be difficult for a skilled worker to concentrate on the construction.

For this reason, it is possible to achieve the object of the present invention only by the edge interval holding unit 112, but it is possible to further increase the ease of construction by placing the surface interval holding unit 114.

In addition, the surface spacing portion 114 is preferably formed in at least one, preferably a pair. Of course, a plurality can also be formed. However, if it exceeds 50% of the area of one side surface, it is difficult to obtain a buffering effect against contraction and expansion. Therefore, the total area (multiple surface areas) of the surface space keeping unit 114 must be 50% of the one side surface area of the boundary block. Should be kept less than%.

In addition, with respect to 100 parts by weight of the cement-aggregate mortar constituting the boundary block 100 to increase the salt resistance of the boundary block 100, to enhance heat stability and durability, and to suppress the contraction and expansion according to the change in the outside temperature. 6.5 parts by weight of the reformed sulfur solution, 1.5 parts by weight of methyltrimethoxysilane, 3.5 parts by weight of sodium acetate and 1.5 parts by weight of phosphate may be further added and mixed.

At this time, the reformed sulfur solution is added to prevent the degradation of the resistance due to salt resistance and alkali reaction by forming a coating film on the aggregate surface to suppress the alkali silica reaction so that the alkali component in the cement and the silica component in the aggregate do not react directly.

In addition, methyltrimethoxysilane is added to increase the durability by strengthening the binding force between the emulsifiers by hydrophobicity, and sodium acetate to suppress the contraction and expansion due to temperature change by enhancing the heat storage properties of the eutectic point formation Phosphate is added to maintain binding stabilization of the block components.

In this case, the phosphate is preferably a mixture of aluminum monophosphate [Al (H ₂ PO ₄ ) ₃ ] and mono magnesium phosphate [Mg (H ₂ PO ₄ ) ₂ ] in a weight ratio of 1: 1.

Such a boundary block according to the present invention can be manufactured as shown in FIG.

According to FIG. 2, a mortar composition step is first performed.

The mortar forming step is a step of maintaining a suitable state for forming by stirring for 30 minutes while further adding the above-mentioned additional components to the above-described content range in the mortar for manufacturing the boundary block made of cement-aggregate.

In this way, when the mortar composition is completed, the basic molding step is performed.

The basic molding step is a step of molding through a molding machine in the shape of a boundary block having a conventional rectangular block shape.

Thereafter, the step of forming the edge spacing portion is performed.

The edge interval holding portion may be molded by further forming the edge interval maintaining portion while further moving to the side of the mold by using the lateral horizontal moving device when the basic molding step is completed.

It is easy to understand that such a lateral horizontal shifting device is similar to a slide core in a conventional resin molding machine.

In this case, if the surface spacing holding portion is to be formed, the surface spacing holding portion can also be molded together when forming the edge spacing holding portion in the same manner. What is necessary is to shape | mold through a mold.

The lateral horizontal moving mold is a mold formed in accordance with the shape of the gap retaining portion, and may be regarded as a mold padded to form a 5-10 mm extension protrusion in the cross section of the boundary block.

In this way, despite the construction with no gaps between the boundary blocks as in the past, it is possible to sufficiently absorb the contraction and expansion of the boundary block due to the temperature change of the outside air to achieve a breakthrough effect to prevent the flipping.

In addition, the boundary block of the present invention does not need a separate joint work, there is an advantage that the construction convenience is maximized, and also the advantage of improving the appearance quality after construction.

100: boundary block
110: spacing part

Claims (9)

In the boundary block comprising a block body (100) formed of cement mortar made of cement and aggregate, and a space maintaining portion (110) protruding 5-10 mm from a portion of one side surface of the block body (100);
The spacing maintaining unit 110 includes a rim spacing maintaining unit 112 that is further extended from a portion of the rim of the block body 100,
The edge space maintenance unit 112 is a boundary block with improved construction convenience, characterized in that the 'b' shape including the upper surface of the boundary block (100).
The method according to claim 1,
One side surface of the boundary block 100 further includes a boundary space maintenance part 114 protruding the same length as the edge space maintenance part 112 in the cross section itself.
The method according to claim 2,
The surface spacing holding unit 114 is a boundary block with improved construction convenience, characterized in that the protrusion formed in any one of the shape of rod, wave, sawtooth, concentric, lattice.
The method according to claim 2,
The boundary space maintenance unit 114 is a boundary block with improved construction convenience, characterized in that formed at least one or a plurality.
The method according to claim 2,
The boundary block having improved construction convenience is characterized in that the total surface area of the surface space maintaining portion 114 is maintained at less than 50% of one side surface area of the boundary block (100).
The method according to claim 1,
The boundary block 100 is 6.5 parts by weight of reformed sulfur solution, 1.5 parts by weight of methyltrimethoxysilane, 3.5 parts by weight of sodium acetate and phosphate 1.5 based on 100 parts by weight of the cement-aggregate mortar constituting the boundary block 100. The boundary block with improved construction convenience further comprising a weight part.
A mortar forming step of forming mortar for producing a boundary block made of cement-aggregate;
A basic molding step of molding a mortar formed in the mortar forming step into a molding machine into a boundary block shape having a rectangular block shape;
When the basic molding step is completed, using the lateral horizontal moving mold forming a border interval holding portion for forming a 'b' shaped border interval maintaining portion further protrudes 5-10mm on the side of the mold; Boundary block manufacturing method with improved construction convenience.
The method according to claim 7,
In the step of forming the edge interval holding part, at the same time as forming the edge interval holding part, together with the surface space maintenance part protruding from one end surface of the boundary block together, the construction convenience improved manufacturing method of the boundary block.
The method according to claim 7,
In the mortar forming step, the mortar for producing a boundary block made of cement-aggregate includes 6.5 parts by weight of reformed sulfur solution, 1.5 parts by weight of methyltrimethoxysilane, 3.5 parts by weight of sodium acetate and phosphate based on 100 parts by weight of cement-aggregate mortar. The boundary block manufacturing method with improved construction convenience characterized in that it further comprises 1.5 parts by weight.

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