KR20230106188A - LED light equipped retaining wall block with enhanced visibility and aesthetic impression - Google Patents

Abstract

The present invention relates to a retaining wall block with built-in LED lighting having improved visibility and aesthetics, and more particularly, to the front of the retaining wall structure between the upper and lower gaps between the upper and lower retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision LED for improving visibility and aesthetics by irradiating indirect lighting downward and forming a lighting line at the same time, radiating indirect lighting downward from the top of the retaining wall structure toward the front surface of the retaining wall structure and forming a lighting line at the same time It is about a retaining wall block with built-in lighting.

Description

LED light equipped retaining wall block with enhanced visibility and aesthetic impression {LED light equipped retaining wall block with enhanced visibility and aesthetic impression}

The present invention relates to a retaining wall block with built-in LED lighting having improved visibility and aesthetics, and more particularly, to the front of the retaining wall structure, LED for improving visibility and aesthetics by irradiating indirect lighting downward and forming a lighting line at the same time, radiating indirect lighting downward from the top of the retaining wall structure toward the front surface of the retaining wall structure and forming a lighting line at the same time It is about a retaining wall block with built-in lighting.

In general, a retaining wall is installed on an embankment, an incision surface, a housing site bordering an excavation surface, a road, etc., and is built to prevent soil from collapsing or flowing down due to natural conditions such as its own weight, earth pressure, rainwater, etc. It is a structure built , Such a retaining wall is usually constructed by vertically stacking a plurality of retaining wall blocks with different layers and alternating with each other.

However, since the retaining wall constructed using such conventional retaining wall blocks is entirely made of concrete, there is a problem that the appearance is not beautiful. Since there is no separate structure, there is a problem that lighting such as street lights must be installed separately nearby, so the hassle of construction according to the installation of street lights may follow, and costs including labor costs may increase accordingly.

Accordingly, technologies equipped with lighting on the retaining wall have been developed, as shown in [Fig. And an inclined space portion 14 extending from the rear of the head portion 12 and having one or more through holes 14a formed in the vertical direction so that soil can be filled. a housing 22 installed at a predetermined interval between the reinforcement soil blocks 10 forming a housing 22 having an open front and installed at a position where the head portion 12 of the reinforcement soil block is removed; It consists of a lighting lamp 24-1 installed inside the housing 22 and a power line 24-2 for supplying external power to the lighting lamp 24-1, and is installed in the housing 22 to provide light to the front. a lighting means 24 that emits; a floodlight panel 26 composed of a central floodlight panel 26a and left and right floodlight panels 26b and 26c installed on both sides of the center floodlight panel 26a and detachably installed on the open front surface of the housing; A light including a hook 28 installed on the rear surface of the housing 22 and caught in the through hole 14a formed in the inclined space 14 of the reinforced earth block 10 from which the head 12 is removed. In the block, the housing 22 has two reinforcing panels 22-1 installed at predetermined intervals therein, and the lighting means 24 is positioned between the reinforcing panels 22-1, The locking ring 28 is installed at the bottom of the rear surface of the housing 22 and is located between the inclined space 14 of the vertically stacked reinforced earth blocks 10 and the horizontal portion 28a, the horizontal portion 28a It is composed of a vertical portion 28b protruding vertically upward and being fitted into the through hole 14a of the inclined space portion 14, and a plurality of optical passages 22 in the two reinforcing panels 22-1. -1a) is formed, and the light emitted from the lighting means 24 is emitted to the outside through the left and right floodlights 26b and 26c through the light passage 22-1a. has been developed

In addition, as shown in [Fig. 1] (b), a retaining wall portion composed of a plurality of retaining wall blocks built in the embankment or incision in Korea Patent Registration 10-1768701 (registration date August 9, 2017); A lighting installation unit composed of a plurality of lighting installation blocks provided horizontally on the retaining wall and protruding forward by mutual coupling; In the retaining wall block structure for easy installation of lighting comprising a lamp installed inside the lighting installation block so that lighting is provided toward the lower portion of the lighting installation block, the lamp is at the foremost end of the plurality of lighting installation blocks It is detachably installed in the provided lighting installation block, and the front end of the lighting installation block has a lamp receiving portion formed inside so that the lamp is detachably inserted from top to bottom, and the lower portion is opened so that the lamp is exposed to the bottom. , The lighting installation block at the foremost end is provided so that the upper surface on the side cross section has a gradient gradually inclined downward toward both ends from the lamp receiving portion, characterized in that a drain hole is formed at the end toward the adjacently coupled other lighting installation block. A retaining wall block structure in which lighting installation is easy is known.

In addition, as shown in [Fig. 1] (c), as a cap-type lighting block installed on the upper part of the retaining wall in Korea Patent No. 10-1866012 (registration date: June 1, 2018), to slide and insert the lighting unit in the longitudinal direction A main body having a lighting unit fastening groove in the form of a sliding groove so as to have the same cross-sectional shape as the external cross section of the lighting unit, and a lower surface of the main body between the front end of the lighting unit fastening groove and the front portion of the body so as to open downward. A cap-type lighting block characterized in that a water inflow prevention groove is formed is known.

In addition, as shown in [Fig. 1] (d), the Korean Utility Model Publication No. 20-2019-0001492 (published on June 19, 2019) has a body having a through portion in the vertical direction therein; a protrusion formed on one side of the body; Insertion part formed on the other side of the body; a front portion formed in the front of the body, but having a support jaw on the upper portion and a support groove on the lower portion; A vegetation unit formed on one side of the front side of the front unit but having a vegetation space so that plants can be vegetated therein; A retaining wall block having a lighting function is known, characterized in that it comprises a; lighting unit formed on the front side of the front side to emit light.

However, in the conventional retaining wall structures equipped with lighting, the structure of the retaining wall block and the retaining wall structure is complicated and construction is complicated by installing a light on the front of the retaining wall block or separately installing a retaining wall structure in which a separate lighting device protruding from the top of the retaining wall structure is installed. There was a complicated problem, and in particular, there was a difficult problem in manufacturing the retaining wall block to form an internal space for installing a lighting device on the front of the retaining wall block or inside the retaining wall block.

[Patent Document 001] Korean Registered Patent No. 10-0864031 (registration date: October 10, 2008) [Patent Document 002] Korean Registered Patent No. 10-1768701 (registration date: August 09, 2017) [Patent Document 003] Korean Registered Patent No. 10-1866012 (registration date: June 01, 2018) [Patent Document 004] Korean Public Utility 20-2019-0001492 (published on June 19, 2019)

The present invention is intended to solve the above conventional problems, and indirect lighting is irradiated downward toward the front surface of the retaining wall structure between the upper and lower gaps between the upper and lower retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision, and at the same time, the lighting line To provide a retaining wall block with built-in LED lighting to form a lighting line to have improved visibility and aesthetics by irradiating indirect lighting downward from the uppermost part of the retaining wall structure toward the front surface of the retaining wall structure Solving the problem do it by means

In order to solve the above problems, the present invention irradiates indirect lighting downward toward the front surface of the retaining wall structure between the upper and lower gaps between the upper and lower retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision, and at the same time forming a lighting line a central retaining wall block, the front part of which protrudes toward the front of the retaining wall structure; an upper retaining wall block whose front part protrudes toward the front surface of the retaining wall structure in order to irradiate indirect light downward from the uppermost part of the retaining wall structure toward the front surface of the retaining wall structure and simultaneously form a lighting line; An LED lighting unit buried and installed on the lower surface of the front part of the middle retaining wall block and the upper retaining wall block; To supply power to the LED lighting unit, a power supply unit including a solar battery and a storage battery; and a retaining wall block with an LED light built-in having improved visibility and aesthetics constituted as a solution to the problem.

The middle retaining wall block and the upper retaining wall block include an upper concrete part composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag, and a high-performance AE water reducing agent; A lower polymer concrete part integrally molded to a predetermined thickness under the upper concrete part and composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; As a solution to the problem, the amount of cement and silica sand used in the lower polymer concrete part is determined according to the light transmittance of the transparent acrylic resin including the methyl methacrylate (MMA) resin.

As the lower part of the front part of the middle retaining wall block and the upper retaining wall block, an LED light receiving groove is formed on the lower part of the front part of the lower polymer concrete part, and a terminal part to which the electric terminal of the LED light is coupled is formed in the receiving groove, and the terminal part Is connected to the power line, and the power line is buried and extended in the lower polymer concrete part to be connected to the power supply unit as a means of solving the problem.

The middle retaining wall block and the upper retaining wall block include a first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with a terminal portion coupled to an electric terminal of the LED lighting unit on the top of the partially cured mortar casting surface of the upper concrete portion and a power line connected to the terminal portion; After the 4th step, the 5th step of pouring and molding the lower polymer concrete mortar prepared in the 2nd step, then demolding and curing; .

In addition, the present invention includes a first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with a terminal portion coupled to an electric terminal of the LED lighting unit on the top of the partially cured mortar casting surface of the upper concrete portion and a power line connected to the terminal portion; After the fourth step, a fifth step of pouring and molding the lower polymer concrete mortar prepared in the second step, then demolding and curing; To have improved visibility and aesthetics by a dry or wet method including A method of manufacturing a retaining wall block with built-in LED lighting for

LED light-embedded retaining wall block having visibility and aesthetics of the present invention irradiates indirect lighting downward toward the front of the retaining wall structure between the upper and lower gaps between the upper and lower retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision, and at the same time illuminates A line is formed, and indirect lighting is irradiated downward from the uppermost part of the retaining wall structure toward the front surface of the retaining wall structure, and at the same time, a lighting line is formed to not only provide necessary lighting when vehicles or pedestrians pass at night, but also to match the surrounding landscape It has improved visibility and aesthetics, and has an excellent effect of improving stain resistance by using an acrylic resin on the surface.

1 is an exemplary view showing a lighting means provided in a conventional retaining wall block structure
2 is a photograph of the installation of a retaining wall structure according to an embodiment of the present invention
3 is a front view showing the overall configuration of a retaining wall structure according to an embodiment of the present invention;
Figure 4 is a perspective view showing the lower part of the retaining wall block according to an embodiment of the present invention
5 is a cross-sectional view showing the configuration of a retaining wall block according to an embodiment of the present invention
6 is a schematic diagram showing the configuration of a retaining wall block according to an embodiment of the present invention
Figure 7 is a schematic diagram showing a power supply according to an embodiment of the present invention

In the present invention, indirect lighting is radiated downward toward the front surface of the retaining wall structure between the upper and lower gaps between the upper and lower retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision site, and at the same time, in order to form a lighting line, a part of the front part of the retaining wall structure A central retaining wall block protruding toward the front; an upper retaining wall block whose front part protrudes toward the front surface of the retaining wall structure in order to irradiate indirect light downward from the uppermost part of the retaining wall structure toward the front surface of the retaining wall structure and simultaneously form a lighting line; An LED lighting unit buried and installed on the lower surface of the front part of the middle retaining wall block and the upper retaining wall block; A power supply unit including a solar cell and a storage battery to supply power to the LED lighting unit; LED light-embedded retaining wall block having improved visibility and aesthetics, which is configured to include, is a feature of the technical configuration.

The middle retaining wall block and the upper retaining wall block include an upper concrete part composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag, and a high-performance AE water reducing agent; A lower polymer concrete part integrally molded to a predetermined thickness under the upper concrete part and composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A feature of the technical configuration is that the usage amount of the cement and silica sand of the lower polymer concrete part is determined according to the light transmittance of the transparent acrylic resin including the methyl methacrylate (MMA) resin.

As the lower part of the front part of the middle retaining wall block and the upper retaining wall block, an LED light receiving groove is formed on the lower part of the front part of the lower polymer concrete part, and a terminal part to which the electric terminal of the LED light is coupled is formed in the receiving groove, and the terminal part Is connected to a power line, and the power line is buried in the lower polymer concrete part and extended to be connected to the power supply unit.

The middle retaining wall block and the upper retaining wall block include a first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with a terminal portion coupled to an electric terminal of the LED lighting unit on the top of the partially cured mortar casting surface of the upper concrete portion and a power line connected to the terminal portion; After the fourth step, the fifth step of pouring and molding the lower polymer concrete mortar prepared in the second step, then demolding and curing; characterized in that it is manufactured by a dry or wet method including .

In addition, the present invention includes a first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with a terminal portion coupled to an electric terminal of the LED lighting unit on the top of the partially cured mortar casting surface of the upper concrete portion and a power line connected to the terminal portion; After the fourth step, a fifth step of pouring and molding the lower polymer concrete mortar prepared in the second step, then demolding and curing; To have improved visibility and aesthetics by a dry or wet method including The manufacturing method of the LED light-embedded retaining wall block for

Hereinafter, examples and/or drawings of the present invention will be described in detail so that those skilled in the art can easily practice the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments and/or drawings described herein.

First, referring to Figs. 2 to 7, the retaining wall block with built-in LED lighting having improved visibility and aesthetics of the present invention is a retaining wall block stacked up and down in the middle of the retaining wall structure 100 built on a mound or incision. A central retaining wall block 102 with a front part protruding toward the front of the retaining wall structure to form a lighting line 101 while irradiating indirect lighting 103 downward toward the front surface of the retaining wall structure between the upper and lower gaps; an upper retaining wall block (104) whose front part protrudes toward the front surface of the retaining wall structure in order to irradiate indirect light (103) downward from the top of the retaining wall structure toward the front surface of the retaining wall structure and simultaneously form a lighting line (101); An LED lighting unit 200 buried and installed in the lower surface 900 of the front portion of the middle retaining wall block 102 and the upper retaining wall block 104; It is configured to include; a power supply unit 300 including a solar cell 301 and a storage battery 302 to supply power to the LED lighting unit.

At this time, the middle retaining wall block 102 and the upper retaining wall block 104 include an upper concrete part 107 composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag, and a high-performance AE water reducing agent; A lower polymer concrete part 108 integrally molded to a certain thickness under the upper concrete part and composed of cement, silica sand, transparent acrylic resin including methyl methacrylate (MMA) resin and a curing agent; including However, the amount of cement and silica sand used in the lower polymer concrete part 107 is determined according to the light transmittance of the transparent acrylic resin including the methyl methacrylate (MMA) resin.

That is, when the amount of cement and silica sand and the amount of transparent acrylic resin containing the methyl methacrylate (MMA) resin are in a weight ratio of 50:50, the light transmittance of the lower polymer concrete part 108 is not satisfactory. If it is not possible, the amount of cement and silica sand may be reduced, and conversely, if the light transmittance is excellent, the amount of cement and silica sand may be increased to reinforce the strength of the retaining wall block.

Here, the methyl methacrylate (MMA) resin is transparent, hard type and flexible, and when radically polymerized at low temperature, the ratio of syndiotactic structure showing continuous regularity of polymer chain structure is increased. Characteristics It has excellent physical properties such as durability, heat resistance, chemical resistance, abrasion resistance, and UV safety, and has excellent weather resistance, which is a property that resists weather and climate such as sunlight, and suppresses corrosion caused by changes in the external environment (weather and climate change). At the same time, it penetrates into the concrete structure and integrates it to improve adhesion and toughness, has a high coefficient of thermal expansion, and is a very stable resin. there is.

However, the methyl methacrylate (MMA) resin starts curing when a small amount of curing agent is added, about 2 to 5% of the resin amount. The time is about 20 minutes, and the workability is excellent, so it is possible to perform laying and finishing on a wide area. This MMA resin has excellent strength after curing, but it has poor crack resistance and bending followability, as well as thermal expansion characteristics with the base body. Due to this difference, there was a problem that cracks are likely to occur when used outdoors instead of indoors.

Accordingly, in the present invention, the disadvantages of the MMA resin described above are reinforced, and the lower polymer concrete part 108 is formed as polymer concrete by using cement and silica sand as inorganic binders in consideration of light transmittance and visibility as an effect of the present invention. Doing is a characteristic technical configuration.

On the other hand, the crushed coarse aggregate and crushed fine aggregate used in the upper concrete part 107 of the middle retaining wall block 102 and upper retaining wall block 104 are gravel and sand produced by crushing rocks, compared to general river gravel and natural sand. The strength is high, and the aggregate has a slender shape rather than a soft circular shape like river gravel, so the adhesion and bonding performance are good, but the workability is poor. Therefore, the high-performance AE water reducing agent must be used. Along with the increase in strength of concrete blocks, there is an effect of replacing natural aggregates.

Here, the high-performance AE water reducing agent used in the present invention is a high-performance AE water reducing agent mainly composed of polycarboxylic acid, and is a new concept admixture that solves the low water reducing rate and slump loss, which are disadvantages of existing admixtures. It is a high-performance water reducing agent capable of producing high-functional concrete with both maintenance performance and high durability.

In particular, the high-performance AE water reducer can improve durability and significantly reduce unit quantity, manufacture high-strength concrete and low-heat concrete, and improve slump loss due to long-time transportation, so that LNG tank bases, LPG tank bases, and nuclear power plants It is advantageous for reducing unit quantity by high yield rate for large-scale concrete pouring and manufacturing highly durable concrete, and can maintain workability for a long time due to excellent slump retention, and reduces concrete manufacturing cost by suppressing cracks and reducing cement by reducing heat of hydration. There are advantages to reducing it.

In addition, it has the advantages of improved freeze-thaw resistance due to improved watertightness, low bleeding, high material separation resistance, and excellent self-filling according to high fluidity, resulting in a beautiful concrete surface. In particular, in the present invention, ECONEX® CooNa-S can be used

In addition, the ferronickel slag used in the middle retaining wall block 102 and the upper retaining wall block 104 is an industrial by-product generated when producing stainless steel raw materials containing 80% iron and 20% nickel, and is the total fine aggregate. When used at 50% by weight or less, the compressive strength, elastic modulus and watertightness increase, and in terms of durability, freeze-thaw and carbonation resistance is improved and shrinkage is reduced in concrete where 50% by weight of the total fine aggregate is used. Therefore, in the present invention, it is preferable to reinforce the strength of the retaining wall block by using ferronickel slag at 50% by weight or less of the total amount of fine aggregate.

In the present invention, in particular, referring to [Figs. 5] to [6], the lower polymer concrete part 108 as the front partial lower surface 900 of the middle retaining wall block 102 and the upper retaining wall block 104 An LED lighting unit receiving groove 201 is formed on the front part of the lower surface 900, and a terminal unit 202 to which an electric terminal of the LED lighting unit is coupled is formed in the receiving groove 201, and the terminal unit 202 is a power line ( 203), the power line 203 is buried and extended in the lower polymer concrete part 108 and connected to the power supply part 300.

Here, as shown in [Fig. 7], the power supply unit 300 may be configured to include a solar cell 301 and a storage battery 302 to supply power to the LED lighting unit 200, and optionally In this way, the electricity generated through the solar cell 301 may be converted into alternating current by the inverter 303 and supplied to the LED lighting unit 200 or the storage battery 302, and optionally a separate external power source 305 The voltage supplied from the conversion circuit 304 may be regulated and supplied to the LED lighting unit 200 or the storage battery 302 through the inverter 303.

On the other hand, the middle retaining wall block 102 and the upper retaining wall block 104 are composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and high-performance AE water reducing agent First step of manufacturing upper concrete mortar and; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A power line 203 connected to the terminal part 202 and a receiving groove 201 formed with a terminal part 202 to which an electric terminal of the LED lighting part 200 is coupled to the upper part of the partially cured mortar pouring surface of the upper concrete part. ) and the fourth step of arranging; After the fourth step, the lower polymer concrete mortar prepared in the second step is poured and molded, and then demolded and cured.

The above description is only illustrative of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments and / or drawings disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments and / or drawings. . The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: retaining wall structure 101: lighting line
102: central retaining wall block 103: indirect lighting
104: upper retaining wall block 107: upper concrete part
108: lower polymer concrete part 200: LED lighting part
201: LED lighting unit receiving groove 202: terminal unit
203: power line 300: power supply unit
301: solar cell 302: storage battery

Claims (5)

A part of the front protrudes toward the front of the retaining wall structure to form a lighting line while radiating indirect lighting downward toward the front of the retaining wall structure between the upper and lower gaps between the upper and lower gaps of the retaining wall blocks stacked up and down in the middle of the retaining wall structure built on the embankment or incision. a central retaining wall block; an upper retaining wall block whose front portion protrudes toward the front surface of the retaining wall structure in order to irradiate indirect light downward from the uppermost part of the retaining wall structure toward the front surface of the retaining wall structure and simultaneously form a lighting line; An LED lighting unit buried and installed on the lower surface of the front part of the middle retaining wall block and the upper retaining wall block; LED light-embedded retaining wall block having improved visibility and aesthetics, characterized in that it is configured to include; a power supply unit including a solar battery and a storage battery to supply power to the LED lighting unit
According to claim 1,
The middle retaining wall block and the upper retaining wall block include an upper concrete part composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag, and a high-performance AE water reducing agent; A lower polymer concrete part integrally molded to a predetermined thickness under the upper concrete part and composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; LED light-embedded retaining wall block with improved visibility and aesthetics, characterized in that the amount of cement and silica sand used in the lower polymer concrete part is determined according to the light transmittance of the transparent acrylic resin containing the methyl methacrylate (MMA) resin
According to claim 2,
As the lower part of the front part of the middle retaining wall block and the upper retaining wall block, an LED light receiving groove is formed on the lower part of the front part of the lower polymer concrete part, and a terminal part to which the electric terminal of the LED light is coupled is formed in the receiving groove, and the terminal part Is connected to a power line, and the power line is embedded in the lower polymer concrete part and extended to be connected to the power supply. LED light-embedded retaining wall block having improved visibility and aesthetics
According to claim 3,
The middle retaining wall block and the upper retaining wall block include a first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with terminals to which electrical terminals of LED lighting units are coupled to the upper portion of the partially cured mortar pouring surface of the upper concrete unit and power lines connected to the terminals; After the fourth step, a fifth step of pouring and molding the lower polymer concrete mortar prepared in the second step, then demolding and curing; LED light-embedded retaining wall block with aesthetics
A first step of preparing an upper concrete part mortar composed of water, cement, crushed coarse aggregate, crushed fine aggregate, ferronickel slag and a high-performance AE water reducing agent; A second step of preparing a lower polymer concrete mortar composed of cement, silica sand, a transparent acrylic resin including methyl methacrylate (MMA) resin, and a curing agent; A third step of pouring the upper concrete part mortar prepared in the first step under the mold and partially curing it for a certain period of time; A fourth step of arranging a receiving groove forming core formed with a terminal portion coupled to an electric terminal of the LED lighting unit on the top of the partially cured mortar casting surface of the upper concrete portion and a power line connected to the terminal portion; After the 4th step, the 5th step of pouring and molding the lower polymer concrete mortar prepared in the 2nd step, demolding and curing; according to claim 2 or 3 by a dry or wet method including Manufacturing method of retaining wall block with built-in LED lighting to have improved visibility and aesthetics

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