KR102683068B1 - Polymer synthetic rubber elastic material for floor elasticity construction using light accumulating materials and polymer synthetic rubber elastic material construction method and construction system using the same - Google Patents

Abstract

The present invention relates to the construction method and construction system of the polymer synthetic rubber elastic material for floor elastic construction using the axis material, and the construction method and construction system of the polymer synthetic rubber floor elastic material using the same. It not only improves aesthetics and visibility by using a luminescent material that emits light, but also uses an EPDM (ethylene propylene diene monomer) rubber chip that shows clear and bright colors and a PU (polyurethane) rubber chip that is less deformable and highly durable, so that it can be used as desired. It allows the construction of floor elastic packaging materials with specific patterns such as stars, moons, and suns, which can be installed in children's playgrounds, parks, trails, etc. to provide aesthetic curiosity. At the same time, it is excellent in terms of deformation and durability, so it can last a long time. It's about technology.

Description

Polymer synthetic rubber elastic material for floor elasticity construction using light accumulating materials and polymer synthetic rubber elastic material construction method, and polymer synthetic rubber elastic material for floor elasticity construction using light accumulating materials and polymer synthetic rubber elastic material construction method and construction system using the same}

The present invention relates to the construction method and construction system of the polymer synthetic rubber elastic material for floor elastic construction using the axis material, and the construction method and construction system of the polymer synthetic rubber floor elastic material using the same. It not only improves aesthetics and visibility by using a luminescent material that emits light, but also uses an EPDM (ethylene propylene diene monomer) rubber chip that shows clear and bright colors and a PU (polyurethane) rubber chip that is less deformable and highly durable, so that it can be used as desired. It allows the construction of floor elastic packaging materials with specific patterns such as stars, moons, and suns, which can be installed in children's playgrounds, parks, trails, etc. to provide aesthetic curiosity. At the same time, it is excellent in terms of deformation and durability, so it can last a long time. It's about technology.

Various technologies have been proposed for applying elastic packaging materials to existing roads, sidewalks, playgrounds, parks, etc.

To introduce the related technologies, first, Republic of Korea Patent Application Application No. 10-2007-0066018 “Elastic floor materials for a road of walker and bicycle, and paving method thereof” "Relates to an elastic flooring material for pedestrian and bicycle roads, manufactured in premix form by using hot melt resin as a binder and mixing it with ethylene propylene diene monomer (EPDM) or waste tires or polyurethane chips of a certain standard size. After that, the product is melted using a heating melting machine and applied to a certain thickness to provide shock relief and comfort to pedestrians and drivers. It is also durable and weather-resistant, maintaining excellent visibility. The effect of temperature and season during product construction is as follows. It has excellent water permeability and slip resistance, and has excellent adhesion to pavement materials such as asphalt, so not only does it not fall off even after a long period of time, but it is also a pedestrian and bicycle-only road that can be opened quickly within 1 to 2 hours after construction. Disclosed is an elastic flooring material and its construction method.

In addition, Republic of Korea Patent Application No. 10-2019-0096936, “Floor construction structure to prevent interlayer noise of multi-storey buildings,” refers to the interlayer between the super floor and the indoor floor. This relates to a structure in which floors are constructed by inserting inter-floor noise prevention materials to reduce noise. A lightweight foamed concrete layer is laid on the upper layer of the reinforced concrete slab, and a finishing mortar layer including heating pipes is placed on top of the lightweight foamed concrete layer. In the floor construction structure for preventing inter-floor noise in a multi-story building where floor finishing materials are constructed and a buffering means is constructed between the slab and the lightweight foam concrete layer, the buffering means includes a vibration-proof pad having a plurality of protrusions formed on the base plate, , It is configured to include a soundproofing material with a receiving portion formed corresponding to the position of the protrusion of the vibration isolating pad, and in a state where the soundproofing material is laid on the upper layer of the slab, the vibration isolating pad is installed on the upper side of the soundproofing material, and the protrusions of the vibration isolating pad are located on the receiving portion of the soundproofing material. It is inserted so that the vibration-proof pad and the soundproofing material are laminated so that they do not flow, and in order to improve the resilience of the vibration-proof pad and the impact sound attenuation effect, the vibration-proof pad and the soundproofing material are formed to have different densities and different elastic moduli, so that they have excellent resilience. A floor construction structure capable of reducing inter-floor noise is disclosed.

In addition, Republic of Korea Patent Application No. 10-2010-0078517 "CONSTRUCTION METHOD OF THE PLAYGROUND FLOOR AND CONSTRUCTION OF THE PLAYGROUND FLOOR" refers to a construction method of a playground floor and a playground using the above method. Regarding the floor structure, a technology is disclosed that allows for the simple construction of the lower and upper layers without additional curing time between the construction of the lower and upper layers in the multi-layer construction of playground flooring.

In addition, Republic of Korea Patent Application No. 10-2022-0106667 “A flame-retardant water-based epoxy flooring composition comprising cork chips and a construction method thereof” Disclosed is a flame-retardant water-based epoxy flooring composition comprising cork chips, which not only have excellent flame retardancy on their own, but also have particularly excellent flame retardancy properties by additionally containing a pigment-type flame retardant, comprising: 100 parts by weight of a water-soluble or water-based epoxy binder; or 50 to 100 parts by weight of cork chips, 10 to 50 parts by weight of pigment-type flame retardant, 10 to 50 parts by weight of extender pigment, 10 to 200 parts by weight of water, and 1 to 5 parts by weight of additives per 100 parts by weight of water-based epoxy binder, Cork Chip discloses a technology that includes cork chips ranging in size from 1 to 30 mm.

However, these conventional technologies not only fail to provide technology that provides aesthetics and visibility at night, but also have limitations in terms of deformation and durability, making it difficult to last a long lifespan, so there is a need for improvement.

Republic of Korea Patent Application No. 10-2007-0066018 “Elastic floor materials for a road of walker and bicycle, and paving method thereof” Republic of Korea Patent Application No. 10-2019-0096936 “Floor construction structure to prevent interlayer noise of multi-storey buildings” Republic of Korea Patent Application No. 10-2010-0078517 “CONSTRUCTION METHOD OF THE PLAYGROUND FLOOR AND CONSTRUCTION OF THE PLAYGROUND FLOOR” Republic of Korea Patent Application No. 10-2022-0106667 “A flame-retardant water-based epoxy flooring composition comprising cork chips and a construction method thereof”

The present invention is intended to solve the above problems. By using a luminescent material that accumulates sunlight during the day and emits light at night, it not only improves aesthetics and visibility, but also displays clear and bright colors. Diene monomer) rubber chips and PU (polyurethane) rubber chips, which are less deformable and more durable, enable the construction of floor elastic flooring with specific patterns such as stars, moons, and suns, creating aesthetic curiosity by being constructed in children's playgrounds, parks, and walking trails. We aim to provide a construction technology for floor elastic materials that can provide elasticity and at the same time have a long lifespan by being excellent in terms of deformation and durability.

However, the objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above problem, one embodiment of the present invention is

Curing and curing a composition containing 10 to 50 parts by weight of PU (polyurethane) rubber chips, 15 to 40 parts by weight of polyurethane binder resin, and 1 to 5 parts by weight of pigment based on 50 to 90 parts by weight of EPDM (ethylene propylene diene monomer) rubber chips. Provided is a polymer synthetic rubber elastic material for elastic floor construction, which is formed by curing.

In one embodiment of the present invention, 1 to 7 parts by weight of a luminous material is included based on 100 parts by weight of the composition containing the EPDM rubber chip, PU rubber chip, polyurethane binder resin, and pigment, and a predetermined pattern is formed in the elastic material. It is characterized by one thing.

In addition, another embodiment of the present invention to achieve the above problem is

Forming a composition containing 10 to 50 parts by weight of PU (polyurethane) rubber chips, 15 to 40 parts by weight of polyurethane binder resin, and 1 to 5 parts by weight of pigment, based on 50 to 90 parts by weight of EPDM (ethylene propylene diene monomer) rubber chips. Step 1;

A second step of forming a phosphorescent composition by mixing 1 to 7 parts by weight of a phosphorescent material based on 100 parts by weight of the composition formed in the first step;

A third step of placing the photoluminescent composition formed in the second step into the pattern frame and placing the composition formed in the first step except for the pattern frame; and

A fourth step of curing the laid composition; It provides a method of constructing a polymer synthetic rubber floor elastic material comprising a.

In one embodiment of the present invention, the pattern frame is characterized in that it is a star, moon, sun, or a combination thereof.

In addition, another embodiment of the present invention to achieve the above problem is

As a construction system (1) for polymer synthetic rubber floor elastic material including a plurality of construction devices (100), a network (200), a management server (300), a plurality of orderer terminals (400), and a plurality of manager terminals (500). ,

The orderer terminal 400 performs access to the management server 300 through the network 200, and then receives the location information of the point where floor construction is desired provided by the orderer operating the orderer terminal 400, and the construction. By transmitting construction information including the previous photo, desired pattern, and whether luminous materials are included, a construction application number is provided from the management server 300, which stores the terminal identification number of the orderer terminal 500 as metadata,

The administrator terminal 500 is a terminal operated by an administrator who manages at least one construction device 100 and accesses the management server 300 when construction information is registered in the management server 300 or periodically to view construction information. Provides a construction system for polymer synthetic rubber floor elastic material, characterized in that it performs construction bidding through and controls the construction of polymer synthetic rubber elastic material for construction of floor elastic packaging material through a construction device (100) managed by the company. do.

According to the polymer synthetic rubber elastic material for floor elastic construction using a photoluminescent material according to an embodiment of the present invention, and the construction method and construction system for the polymer synthetic rubber floor elastic material using the same, sunlight is accumulated during the day and emits light at night. Not only does it use luminous materials to improve aesthetics and visibility, but it also uses EPDM (ethylene propylene diene monomer) rubber chips, which have clear and bright colors, and PU (polyurethane) rubber chips, which are less deformable and more durable, to create the stars you want. By making it possible to construct floor elastic flooring with specific patterns such as the moon or the sun, it can be installed in children's playgrounds, parks, walking trails, etc. to provide aesthetic curiosity, and at the same time, it is excellent in terms of deformation and durability, so it has the effect of lasting a long life.

1 is a diagram showing a construction system for a polymer synthetic rubber floor elastic material according to an embodiment of the present invention.

Hereinafter, a detailed description of preferred embodiments of the present invention will be described with reference to the attached drawings. In the following description of the present invention, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

In this specification, when one component 'transmits' data or a signal to another component, the component may transmit the data or signal directly to the other component, and may transmit the data or signal through at least one other component. This means that data or signals can be transmitted to other components.

EPDM (Ethylene Propylene Diene Monomer) rubber chips and PU (PolyUrethane) rubber chips are used as polymer synthetic rubber elastic materials for floor elastic construction used in the present invention.

The EPDM (Ethylene Propylene Diene Monomer) rubber chip is a thermosetting ethylene propylene rubber that is amorphous by copolymerization of ethylene and propylene, and has the characteristics of clean particle surface and clear and bright color after construction of polymer synthetic rubber elastic material.

In addition, the PU (PolyUrethane) rubber chip is a thermosetting polyurethane rubber, and has the characteristics of polyether and isocyanate foamed elastic material, and is a crystal with a polyurethane binder, showing little deformation and strong durability.

In the present invention, the polymer synthetic rubber elastic material is constructed by mixing EPDM rubber chips and PU rubber chips at a preset ratio, adding a polyurethane binder and a predetermined pigment, and then stirring, thereby achieving the neat color of EPDM and the strong color of PU. The combination of durability and elastic material can maximize the efficiency of elastic packaging materials by mixing specific materials.

In one embodiment of the present invention, the polymer synthetic rubber elastic material is 10 to 50 parts by weight of PU (polyurethane) rubber chips and 15 to 40 parts by weight of polyurethane binder resin, based on 50 to 90 parts by weight of EPDM (ethylene propylene diene monomer) rubber chips. It can be formed by curing and curing a composition containing 1 to 5 parts by weight of pigment and 1 part by weight.

At this time, the polyurethane binder resin is a binder resin that plays a role in providing adhesion and durability for bonding between EPDM rubber chips, PU rubber chips, and pigments, and it is preferable to use one with a weight average molecular weight in the range of 20,000 to 500,000. do.

More specifically, implementing a preset color by mixing a polymer synthetic rubber elastic material can be achieved by mixing 75 parts by weight of EPDM rubber chips, 25 parts by weight of PU rubber chips, 25 parts by weight of polyurethane binder resin, and 3 parts by weight of pigment. .

In another embodiment of the present invention, a polyurethane binder is used based on 100 parts by weight of EPDM rubber chips with color and greatly enhanced heat resistance and insulation and PU rubber chips with strong durability mixed at a preset mixing ratio. In order to improve adhesion and serve as a binder for chip products, and at the same time improve the flowability and weather resistance of the polymer synthetic rubber elastic material, wax can be further included in the range of 5 to 25 parts by weight to form a polymer synthetic rubber elastic material. there is.

In the present invention, when the wax resin, which improves the flowability and weather resistance of the polymer synthetic rubber elastomeric composition, is added in excess of 25 parts by weight, the adhesive strength of the polymer synthetic rubber elastomeric composition decreases, leading to a decrease in adhesion and its role as a binder. A problem arises, and when less than 5 parts by weight is added, the adhesive strength is increased, but constructability is reduced and weather resistance is weakened due to a decrease in flowability, so it is preferable to add it within the range of 5 to 25 parts by weight.

More specifically, EPDM rubber chips and PU rubber chips can be placed in a mixer at a preset mixing ratio, and then mixed evenly by adding polyurethane binder, pigment, and wax resin.

In the present invention, the polyurethane binder may be a water-soluble room temperature curing polyurethane binder, and 10 to 30 parts by weight of water is added in the form of a mixture of 10 parts by weight of polyurethane binder by dry weight, so that the EPDM rubber chips and PU rubber chips are evenly mixed. You can do it.

In the present invention, the EPDM rubber chip (ruba chip) and the PU rubber chip can be mixed with a polymer synthetic rubber elastic material composition at the construction stage in nanoscale size, and both are used as anti-slip materials that improve walking comfort and provide safety. It can be used as a chip.

In the present invention, the polymer synthetic rubber elastic material composition may further include anti-bubble powder, and the anti-bubble powder is based on 100 parts by weight of the composition containing the EPDM rubber chip, PU rubber chip, polyurethane binder resin, and pigment. It may be included in the range of 0.5 to 5 parts by weight.

The anti-bubble powder serves to extend the life of the elastic material by adsorbing air bubbles generated in the concrete when the floor on which the polymer synthetic rubber elastic material composition is laid is concrete.

In the present invention, the anti-foam powder may include 40 to 60% by weight of silicon dioxide, 40 to 60% by weight of Portland cement, and 1 to 10% by weight of zeolite fine powder.

In the present invention, silicon dioxide and Portland cement powder serve to prevent pinholes by filling voids existing in concrete.

In addition, in the present invention, the zeolite fine powder absorbs gas components such as moisture evaporating from the pores and carbon dioxide generated from the pores, thereby eliminating factors that may cause defects when applying the polymer synthetic rubber elastic material composition in the future.

In addition, in the present invention, the polymer synthetic rubber elastic material composition includes 0.1 to 0.1 parts by weight of graphene oxide nanofibers surface-modified by fluorine, based on 100 parts by weight of the composition containing the EPDM rubber chip, PU rubber chip, polyurethane binder resin, and pigment. It may further include 5.0 parts by weight.

The graphene oxide fiber, the surface of which has been modified by fluorine, functions to improve the weather resistance and heat resistance of the polymer synthetic rubber elastic material composition.

Specifically, the graphene oxide fiber surface-modified by fluorine induces a covalent bond between the graphene oxide and the resin of the polymer synthetic rubber elastic material composition, so that the graphene is evenly dispersed in the composition and has excellent weather resistance and heat resistance properties. Make it work.

The graphene oxide may be single-layer graphene oxide or graphite in which several to tens of layers of graphene oxide are stacked, and such graphene oxide may be manufactured through a process of exfoliating graphite using a steel phase and an oxidizing agent. The manufacturing cost of graphene oxide can be reduced compared to graphene or reduced graphene oxide, and oxygen functional groups such as hydroxyl groups are formed in graphene oxide during the peeling process, making surface modification easy with fluorinated substances in the future, and making it an elastic material. It has the advantage of being uniformly dispersed within the composition.

The polymer synthetic rubber elastic material manufactured in this way can be constructed as an elastic packaging material in places such as parks, sidewalks, and children's playgrounds using pattern frames and luminous materials. This construction method will be described below.

The construction method of the polymer synthetic rubber floor elastic material according to the present invention is

Forming a composition containing 10 to 50 parts by weight of PU (polyurethane) rubber chips, 15 to 40 parts by weight of polyurethane binder resin, and 1 to 5 parts by weight of pigment, based on 50 to 90 parts by weight of EPDM (ethylene propylene diene monomer) rubber chips. Step 1;

A second step of forming a phosphorescent composition by mixing 1 to 7 parts by weight of a phosphorescent material based on 100 parts by weight of the composition formed in the first step;

A third step of placing the photoluminescent composition formed in the second step into the pattern frame and placing the composition formed in the first step except for the pattern frame; and

A fourth step of curing the laid composition; It is composed including.

Specifically, when constructing floor elastic pavement, it is possible to construct patterns with uniform sizes and proportions using polymer synthetic rubber elastic materials, and construct elastic pavement using pattern frames such as stars, moons, suns, etc. with preset patterns. .

In one embodiment of the present invention, based on 50 to 90 parts by weight of EPDM (ethylene propylene diene monomer) rubber chips, 10 to 50 parts by weight of PU (polyurethane) rubber chips, 15 to 40 parts by weight of polyurethane binder resin, and 1 to 5 parts by weight of pigment. Form a composition containing parts by weight (first step)

Next, 1 to 7 parts by weight of a photoluminescent material is mixed based on 100 parts by weight of the composition formed in the first step to form a photoluminescent composition (second step).

Afterwards, the photoluminescent composition formed in the second step is placed in the pattern frame, and the composition formed in the first step is placed outside the pattern frame (third step).

Thereafter, the construction of the polymer synthetic rubber floor elastic material according to the present invention can be completed by curing the laid composition (composition formed in the first step and the second step).

In the present invention, in the process of constructing the polymer synthetic rubber floor elastic material, a phosphorescent material may be further included to reflect light, and the phosphorescent material is applied after applying an adhesive to the surface to which the polymer synthetic rubber elastic material has been applied. It is also possible to attach it to an adhesive, and it is also possible to mix it in the process of forming the floor surface using a polymer synthetic rubber elastic material composition as in the second step above.

The photoluminescent material may be any or all of metal powder, cut reflective film, and glass powder. Photoluminescent materials are materials that can accumulate light during the day and then emit light at night, and any material that has been developed so far or in the future in the technical field to which the present invention belongs can be used without limitation, in addition to metal materials and synthetic resin materials. Any material may be used.

Here, it is preferable to add 1 to 7 parts by weight of the luminescent material based on 100 parts by weight of the polymer synthetic rubber elastic material composition.

In another embodiment of the present invention, since the phosphorescent material is exposed to the outside of the floor, a strength reinforcing composition can be added to have a strength above a certain level, and a thermochromic pigment can be added to indicate the temperature of the floor. . Zion pigment is a temperature-discoloring pigment that begins to lose color when the temperature rises above a certain temperature and returns to its original color (color) when the temperature decreases again. These Zion pigments are generally applied to paint inks, plastics, etc., and as they are approved by the FDA and are harmless to the human body, they are also used in toys, jewelry, cosmetics, mugs, etc.

In order to achieve the above-described technical problem, the present invention prepares a polymer synthetic rubber elastic material composition, mixes resin, solvent, Zion pigment, and phosphorescent material, and then additionally adds and mixes dye thereto. A coating composition having a weight ratio of pigment and phosphorescent material of 7:3:1:1 to 2 was prepared, and an installation device (100) described later equipped with a coating device with a speed condition of 5 M/min and a temperature condition of 110 to 130 ° C. ) using a coating composition, a process of coating the upper part of the polymer synthetic rubber elastic material formed by the polymer synthetic rubber elastic material composition, and a process of naturally cooling the coated polymer synthetic rubber elastic material, naturally cooling the coated polymer synthetic rubber. This may include heat treating the upper surface of the elastic material by passing the upper part of the elastic material through a coating device at a speed of 25 M/min and a temperature of 145°C one more time without applying the coating composition.

Meanwhile, the resin of the coating composition contains a foamed polyethylene mixture of polyethylene-based raw materials and a foaming agent, and is characterized by a viscosity of 35 to 47 KU at 25°C and a specific gravity of 1.06 to 1.14.

That is, the foamed polyethylene mixture forms a foamed polyethylene mixture that combines polyethylene-based raw materials and a foaming agent, and the polyethylene-based raw materials include 12 to 15 parts by weight of polyurethane and 7 parts by weight of ethylene vinyl acetate copolymer (EVA) based on 100 parts by weight of polyethylene. A resin composition consisting of from 1 to 11 parts by weight can be used, and the synthetic resin material manufactured using the above resin composition shows improved performance in tensile strength, flexural strength, load deformation temperature, and Izod impact strength by resin using only polyethylene. In addition, the composition material itself is inexpensive, so manufacturing costs can be reduced.

Meanwhile, in another embodiment of the present invention, the weight ratio of each raw material constituting the polyethylene-based raw material can be performed according to the orderer's request, and can also be manufactured based on other main raw materials.

Here, it is preferable to mix 12 to 15 parts by weight of the foaming agent with respect to 100 parts by weight of the polyethylene-based raw material. Here, if the content of the foaming agent used to produce the foamed polyethylene mixture exceeds 15 parts by weight, the rigidity, heat resistance, and surface hardness of the coating layer are significantly reduced, making it undesirable, and if it is less than 12 parts by weight, specific gravity, foamability, moldability, This is undesirable because the impact properties are reduced. At this time, it is preferable that the mainly used chemical foaming agent is Sodium bicarbonate (NaHCO ₃ ).

Meanwhile, the solvent may be a mixed solvent consisting of methanol, toluene, and methyl ethyl ketone (MEK), and the Zion pigment may be a temperature-sensitive color changeable fiber yarn characterized by discoloration to colorless or white above a certain temperature.

As a specific example of the Zion pigment, based on 100 parts by weight of styrene maleic anhydride monomethyl-maleate polymer, Spiro (isobenzofuran-1(3H), 9'- (9H)xanthen)-3-one, 6'-(dibutylamino)-3'-methyl-2'-(phenylamino)-(Spiro(isobenzofuran-1(3H),9'-(9H)xanthen )-3-one, 6'-(dibutylamino)-3'-methyl-2'-(phenylamino)-) 45 parts by weight, spiro (isobenzofuran-1(3H),9'-(9H)xanthene )-3-one, 2'-(bis(phenylmethyl)amino)-6'-(diethylamino)-(Spiro(isobenzofuran-1(3H),9'-(9H)xanthen)-3-one, 13 parts by weight of 2'-(bis(phenylmethyl)amino)-6'-(diethylamino)-), 33 parts by weight of ethyl stearate, 47 parts by weight of methyl palmitate, and butyl stearate ( It may be composed of 25 parts by weight of butyl stearate and 127 parts by weight of polyoxymethylenemelamine.

Figure 1 is a diagram showing a construction system 1 for a polymer synthetic rubber floor elastic material according to an embodiment of the present invention. Referring to Figure 1, the polymer synthetic rubber elastic material construction system 1 includes a plurality of construction devices 100, a network 200, a management server 300, a plurality of orderer terminals 400, and a plurality of administrator terminals ( By including 500), the construction device 100 operated by the manager terminal 500 can be used for the same or similar work, and the size of the electronic nozzle for applying the polymer synthetic rubber elastic material composition of the construction device 100, The movement radius of the moving means of the construction device 100 may be individually formed.

The orderer terminal 400 accesses the management server 300 through the network 200, and then receives the location information of the point where floor construction is desired provided by the orderer operating the orderer terminal 400, and before construction. By transmitting construction information including a photo, desired pattern, and whether luminescent material is included, a construction application number can be received from the management server 300, which stores the terminal identification number of the orderer terminal 500 as metadata. .

The administrator terminal 500 is a terminal operated by an administrator who manages at least one construction device 100 and accesses the management server 300 when construction information is registered in the management server 300 or periodically to view construction information. Construction bidding can be done through

For this purpose, the management server 300 receives the construction information as described above, stores the construction information in the form of a web page or WAP page together with the identification character of the orderer terminal 400 as a single piece of construction information, and then stores the construction information as a single piece of construction information. By making it public in real time at the time of receiving construction information, it is possible to view information according to access by subscribed terminals, including the orderer terminal 400 and the manager terminal 500.

The management server 300 matches the construction device ( 100) can be primarily analyzed to see whether there is at least one.

Afterwards, if there is a matching construction device 100 as a result of the primary analysis, the management server 300 selects a construction history using a polymer synthetic rubber elastic material that matches within the same or similar range as the pre-construction photo among the construction information. Second, it is analyzed whether there is a manager terminal 500 that manages the construction device 100.

Here, for the secondary analysis, the management server 300 stores construction information during construction using the polymer synthetic rubber elastic material that was finally bid by the manager terminal 500, which manages the existing construction device 100, in the database. It is stored and managed based on big data, and whether it is identical or similar is analyzed through video analysis between the pre-construction photo of each existing construction information and the pre-construction photo of the construction information for the construction that the manager terminal 500 wants to bid on. can do.

For this purpose, the database of the management server 300 stores the pre-construction photo patterns of each existing construction information, including information about the plurality of pre-construction photo patterns themselves and information on the plurality of pre-construction photo patterns tilted to a preset angle range. The management server 300 compares the pre-construction photo of the construction information for the construction the manager terminal 500 wants to bid on, and compares the changed pattern with preset color tone and illuminance, etc., to compare the comparison object and the pattern. It is possible to analyze in advance whether the similarity is within the same or similar range.

If there is a manager terminal 500 that operates the construction device 100 that matches the results of the secondary analysis, the management server 300 uses the existing manager terminal 500 to manage the construction device 100 for the tertiary analysis. In a state in which construction information for construction using polymer synthetic rubber elastic material finally bid by the manager terminal 500 is stored and managed on a database based on big data, the desired pattern and luminescent material of each existing construction information is selected. A polymer synthetic rubber elastic material that matches whether the desired pattern is the same or similar and whether the inclusion of the luminescent material is included through a comparative analysis of whether the desired pattern and the inclusion of the luminous material are included in the construction information for the construction that the manager terminal 500 wants to bid on. Thirdly, it is analyzed whether there is a manager terminal 500 that manages the construction device 100 that has a construction history using .

Here, the management server 300 can determine whether the desired pattern is the same or similar in the same manner as the matching analysis of the photo before construction described above.

The management server 300 provides the construction information provided by the orderer terminal 400 to at least one manager terminal 500 that was analyzed three times through the network 200, waits for approval, and then determines whether to accept it. there is. Here, the management server 300 can sort the analysis matching degrees for the 3rd analysis, 2nd analysis, and 1st analysis. That is, the management server 300 can generate quantitative values for the similarity of the pattern during the third analysis, the similarity of the pre-construction photo during the second analysis, and the proximity of the distance during the first analysis, respectively. The analysis matching degree can be sorted according to preset weights for each similarity and proximity during tertiary analysis.

The management server 400 sends construction information provided by the orderer terminal 400 through the network 200 to the manager terminal 500, which has been analyzed in the third order with a relatively high matching degree according to the sorted analysis matching degree, to the network 200. ) and wait for approval.

Accordingly, if the management server 300 does not accept as a result of the decision to accept the manager terminal 500 of the priority, it will contact the manager terminal 500 of the next priority through the network 200. The construction information provided by the orderer terminal 400 can be provided through the network 200 to wait for approval, and from the manager terminal 500 of the next priority, the manager terminal of the nth priority (n is a natural number of 3 or more) If you do not accept until (500), the process can be terminated.

Additionally, in another embodiment of the present invention, the management server 300 may additionally analyze whether thermochromic pigment is added.

The present invention can also be implemented as computer-readable code on a computer-readable recording medium. Computer-readable recording media include all types of recording devices that store data that can be read by a computer system.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage devices, and are also implemented in the form of a carrier wave (e.g., transmission via the Internet). It also includes

Additionally, computer-readable recording media can be distributed across computer systems connected to a network, so that computer-readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily deduced by programmers in the technical field to which the present invention belongs.

As described above, the specification and drawings disclose preferred embodiments of the present invention, and although specific terms are used, they are used only in a general sense to easily explain the technical content of the present invention and aid understanding of the invention. , it is not intended to limit the scope of the present invention. It is obvious to those skilled in the art that in addition to the embodiments disclosed herein, other modifications based on the technical idea of the present invention can be implemented.

1: Polymer synthetic rubber elastic material construction system
100: Construction equipment 200: Network
300: Management server 400: Orderer terminal
500: Administrator terminal

Claims (5)

After preparing the polymer synthetic rubber elastic material composition, mixing the resin, solvent, Zion pigment, and phosphorescent material, dye is additionally added and mixed, so that the weight ratio of the resin, solvent, Zion pigment, and phosphorescent material is 7:3: 1: 1 to 2 coating composition is prepared, and using the application device 100 equipped with a coating device with a speed condition of 5 M/min and a temperature condition of 110 to 130° C., a polymer synthetic rubber elastic material is made with the coating composition. The process of coating the upper part of the polymer synthetic rubber elastic material formed by the composition, and the process of naturally cooling the coated polymer synthetic rubber elastic material, and the naturally cooled upper part of the coated polymer synthetic rubber elastic material at a speed of 25M/min, 145℃. The construction system (1) of the polymer synthetic rubber floor elastic material for managing the construction, including the process of heat treating the upper surface by passing the coating composition through a coating device under temperature conditions one more time without applying the coating composition,
It includes a plurality of construction devices 100, a network 200, a management server 300, a plurality of orderer terminals 400, and a plurality of manager terminals 500, and the manager terminal 500 operates the construction work. The construction device 100 is used to utilize the construction device 100, and the components are individually adjusted, including the size of the electronic nozzle for applying the polymer synthetic rubber elastic material composition of the construction device 100 and the movement radius of the moving means of the construction device 100. is formed,
The orderer terminal 400 is,
After accessing the management server 300 through the network 200, the location information of the point where flooring is desired is provided by the orderer operating the orderer terminal 400, a photo before construction, the desired pattern, and phosphorescence. By transmitting construction information including whether or not materials are included, a construction application number is provided from the management server 300, which stores the terminal identification number of the orderer terminal 500 as metadata,
The administrator terminal 500 is,
It is a terminal operated by an administrator who manages at least one construction device 100, and when construction information is registered in the management server 300 or periodically accesses the management server 300 and performs construction bidding by viewing construction information. ,
After receiving the construction information, it is saved as a single piece of construction information along with the construction information and the identification characters of the orderer terminal 400 in the form of a web page or WAP page, and then the construction information is made public in real time at the time of receiving the construction information, so that the orderer can receive the construction information. View information according to access by subscribed terminals, including the terminal 400 and the manager terminal 500,
The management server 300,
Among the construction information, there is at least one construction device 100 that is matched by comparing the location information and the construction possible location information using the construction device 100 managed by the manager terminal 500 registered by the manager terminal 500. By first analyzing whether there is
If there is a matching construction device (100) as a result of the primary analysis, the construction device (100) with a construction history using a polymer synthetic rubber elastic material that matches within the same or similar range as the pre-construction photo among the construction information is managed. Secondarily analyzes whether there is an administrator terminal (500),
For secondary analysis, construction information during construction using the polymer synthetic rubber elastic material finally bid by the manager terminal 500, which manages the existing construction equipment 100, is stored and managed on a database based on big data. Analyzes whether they are identical or similar through video analysis between the pre-construction photo of each existing construction information and the pre-construction photo of the construction information for the construction that the manager terminal 500 wants to bid on.
The database of the management server 300 stores pre-construction photo patterns of each currently managed construction information, including information about the plurality of pre-construction photo patterns themselves, the tilt to a preset angle range of the plurality of pre-construction photo patterns, and the reverse. , a pattern in which parameters including color tone and illuminance change within a preset range is saved,
The management server 300,
The manager terminal 500 compares pre-construction photos of construction information for the construction to be bid and analyzes whether the similarity between the comparison object and the pattern is within the same or similar range in advance,
If there is an administrator terminal 500 operating the construction device 100 that matches the results of the secondary analysis, the management server 300 connects the administrator terminal 500, which already manages the construction device 100, for the tertiary analysis. In a state in which the construction information for construction using polymer synthetic rubber elastic materials that was finally bid is stored and managed on a database based on big data, it is checked whether the desired pattern and luminous material is included in each existing construction information and the administrator terminal ( Through a comparative analysis of the desired pattern and the inclusion of luminescent material in the construction information for the construction that 500) is bidding on, it is determined whether the desired pattern is the same or similar, and the history of construction using polymer synthetic rubber elastic material that matches the inclusion of luminous material. Thirdly, it is analyzed whether there is a manager terminal 500 that manages the construction device 100,
The management server 300,
The construction information provided by the orderer terminal 400 is provided through the network 200 to at least one manager terminal 500 that has been analyzed three times, waits for approval, and then determines whether to accept it.
The management server 300,
Sort the matching degrees of each analysis during the 3rd analysis, 2nd analysis, and 1st analysis, including the similarity of the pattern during the 3rd analysis, the similarity of the pre-construction photo during the 2nd analysis, and the proximity of the distance during the 1st analysis. are generated as quantitative values, and are sorted by analysis matching degree according to preset weights for each similarity and proximity during the first to third analysis,
The management server 300,
According to the sorted analysis matching degree, the construction information provided by the orderer terminal 400 through the network 200 is provided through the network 200 for the manager terminal 500 that has been analyzed 3rd time with a relatively high matching degree, and is accepted. Waiting for,
If the acceptance decision for the priority manager terminal 500 is not accepted, the orderer terminal 400 provides the next priority manager terminal 500 through the network 200. Construction information can be provided through the network 200 and wait for approval, and no approval is given from the manager terminal 500 of the next priority to the manager terminal 500 of the nth priority (n is a natural number of 3 or more). Terminates the process if
It is a polymer synthetic rubber elastic material for floor elastic construction. EPDM (Ethylene Propylene Diene Monomer) rubber chips (rubar chips) and PU (PolyUrethane) rubber chips are used in nanoscale sizes.
It is formed by curing and curing a composition containing 10 to 50 parts by weight of PU rubber chips, 15 to 40 parts by weight of polyurethane binder resin, and 1 to 5 parts by weight of pigment based on 50 to 90 parts by weight of EPDM rubber chips,
The polyurethane binder is a water-soluble room temperature curing polyurethane binder. By adding 10 to 30 parts by weight of water per 10 parts by weight of polyurethane binder by dry weight, the EPDM rubber chips and PU rubber chips can be mixed evenly.
The polymer synthetic rubber elastic material composition further includes anti-bubble powder, and the anti-bubble powder is included in the range of 0.5 to 5 parts by weight based on 100 parts by weight of the composition containing EPDM rubber chips, PU rubber chips, polyurethane binder resin, and pigments. And
The polymer synthetic rubber elastic material composition further includes 0.1 to 5.0 parts by weight of graphene oxide nanofibers surface-modified by fluorine, based on 100 parts by weight of the composition containing EPDM rubber chips, PU rubber chips, polyurethane binder resin, and pigments,
During construction, a photoluminescent composition is formed by mixing 1 to 7 parts by weight of a photoluminescent material based on 100 parts by weight of the polymer synthetic rubber elastic material composition, and then the formed photoluminescent composition is placed in the pattern frame, and the polymer synthetic rubber elastic material composition formed other than the pattern frame is placed. is laid and cured,
Any or all of metal powder, cut reflective film, and glass powder are used as the phosphorescent material. Since the phosphorescent material is exposed to the outside of the floor, a strength reinforcing composition is used to have a strength higher than a preset level, and a temperature is applied to indicate the temperature of the floor. A construction system for polymer synthetic rubber floor elastic material, characterized in that at least one pigment (thermochromic pigment) is added.
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