KR101246631B1 - Lego type insulation panel and method of it - Google Patents

Abstract

PURPOSE: A lego type insulating panel and a manufacturing method thereof are provided to simultaneously implement sound absorption, soundproofing, dustproofing, thermal insulation and finishing, to conveniently assemble the panels, and to correspond to eco-friendly low-carbon green growth entirely without the generation of waste by a non-subsidiary material method. CONSTITUTION: A lego type insulating panel(100) includes a male groove(110), a female groove(120), plural tunnels(130), plural projections(150), and housings(160). The male groove formed at one short edge side of the panel has a male projection(111). The female groove formed at the other short edge side of the panel is slidably coupled to the male groove, and has a female projection(121). The tunnels are formed by penetrating from one long edge side of the panel to the other long edge side of the panel at regular intervals. The projections are formed to be convex on the upper end of the long edge side. The housings are formed to be concave on the lower end of the long edge side in order to house the projections.

Description

LEGO type insulation panel and its manufacturing method {LEGO TYPE INSULATION PANEL AND METHOD OF IT}

The present invention relates to a lego-type insulation panel and a method for manufacturing the same, which is a non-combustible panel pressurized by mixing a silicide resin and vermiculite perlite, which is a heat-insulating and encapsulating composition, and does not require a separate finishing material and does not have radiant heat. It is about.

In general, insulation panels include sandwich panels, lightweight panels, cement blocks, gypsum board panels, etc., these panels are vulnerable to fire due to the complex process and flammability, and there is a problem to spend a lot of labor costs during construction.

Patent Document 1: Republic of Korea Utility Model Registration Publication No. 20-0458050 (2012.01.09)

Accordingly, the present invention provides sound absorbing, soundproofing, dustproofing, heat insulation and finishing at the same time in consideration of the problems of the conventional panels, easy to assemble, to the eco-friendly low-carbon green growth that does not generate any waste in the process without subsidiary materials It is an object of the present invention to provide a lego-type insulation panel and a method of manufacturing the same for a future-proof construction.

In order to achieve the above object, the lego-type insulation panel according to the present invention is made of a rectangular structure of the long axis and the axis of the short axis, the male groove formed on one side of the corner surface of the short axis, so as to be fitted in the slide way, It includes a female groove formed on the other edge surface of the short axis, the female groove is formed on the side perpendicular to the other edge surface of the short axis, or the female groove is formed in the center of the side surface perpendicular to the corner surface of the short axis, the other side on one side of the long axis A plurality of tunnels are formed to penetrate the edge surface of the male groove and the female groove, characterized in that the male jaw and the female jaw are formed.

Lego-type insulation panel manufacturing method according to the present invention for achieving the above object is a step of moving the raw material and the adhesive binder respectively stored in the raw material tank and the adhesive binder tank to the primary stirrer, the raw material and the adhesive binder in the primary stirrer Stirring to produce a gel-like mixture, remixing the gel-like mixture delivered from the first stirrer in a second stirrer to produce a gel-like mixture, and mixing the gel-like mixture delivered from the second stirrer to a press mold Including the steps of manufacturing the panel through the mold, and drying and maturing the panel manufactured and delivered from the press mold unit in the drying and maturing portion to complete the panel, the drying and maturing step of the panel

Drying at least 100 minutes by steam of at least 100 degrees generated in the steam drying section of the drying and aging section, cooling and drying the steam-dried panel in the air drying section by wind, and drying the cooled and dried panel in the micro drying section. Drying by vibrating to vaporize, drying the micro-dried panel by high pressure wind in the high pressure air drying unit, and when the drying step is completed, transferring the panel to a heat aging chamber for heat aging for 6 hours, and After the heat aging, it is characterized in that it comprises the step of cold aging for 4 hours to go to the cooling aging chamber.

Lego-type insulation panel using the foam composition according to the present invention is free of toxic gas, fire-resistant and environmentally friendly products have a deodorizing effect due to negative ion far infrared rays, and has the effect of eliminating the sick house syndrome.

In addition, the present invention has the effect of minimizing waste as a natural friendly material, as well as the exterior finish as well as strong water absorption.

1 is a perspective view of the combination of the lego-type insulation panel according to the present invention,
Figure 2 is another perspective view of the lego-type insulation panel according to the present invention,
3 is another perspective view of the combination lego-type insulation panel according to the present invention,
4 is a view in which the lego-type insulation panel according to the present invention is coupled in a slide manner by the core,
5 is a view in which the lego-type insulation panel according to the present invention is coupled in a twisted manner by a core, and
6 is a view in which the lego type insulation panel according to the present invention is combined in a manner in which the slide method and the twisting method are integrated by the core.
7 is a diagram showing that the leg-type insulation panel according to the present invention is laminated in the longitudinal direction by the core,
8 is a view for explaining a manufacturing method of the lego-type insulation panel according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concept of the term appropriately in order to describe its own invention in the best way. The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a perspective view of the combination of the lego-type insulation panel according to the present invention.

As shown in Figure 1, the lego-type insulation panel according to the present invention has a rectangular structure, a male groove 110 is formed on one side of the corner of the major axis and the short axis, the other corner surface of the short axis The female groove 120 is formed.

When the plurality of lego-type insulation panel 100 is coupled, the male groove 110 of one lego-type insulation panel is fitted in a slide way to the female groove 120 of the other lego-type insulation panel.

In this case, the male groove 110 and the female groove 120 are preferably formed with the male jaw 111 and the jaw 121, respectively, the male jaw 111 and the female jaw 121 is the male groove 110 is the female groove 120 After being fitted in the slide method to the coupled, the external force is applied in the left and right directions perpendicular to the direction of the slide method to prevent the coupling is released.

On the other hand, the lego-type insulation panel 100 according to the present invention is formed with a plurality of tunnels 130 penetrating from one side edge surface of the long axis to the other edge surface at equal intervals, the weight of the lego-type insulation panel 100 To be lightweight.

In addition, as the plurality of tunnels 130 are formed at equal intervals, when a panel having a different size from the standardized lego type insulation panel 100 of the present invention is required, the center of the tunnel 130 is formed vertically. Cutting along the direction can be utilized as a panel of various sizes, wherein the cut section of the tunnel 130 is made of the same structure as the female groove 120, that is, the female groove 120 is automatically formed is a different work The male groove 110 may be fitted into the cut surface of the tunnel 130 without.

The above description is a description of the structure in which the lego type insulation panel 100 according to the present invention can be coupled in a straight line.

Figure 2 is another perspective view of the lego-type insulation panel according to the present invention.

As shown in Figure 2, the lego-type insulation panel of another structure according to the present invention has a rectangular structure, the male groove 110 is formed on one side of the short axis of the major axis and the minor axis, The female groove 120 is formed at a side surface perpendicular to the other edge surface, so that when the plurality of lego-type insulation panels 100 are coupled, the male groove 110 of one lego-type insulation panel is the side of the other lego-type insulation panel. The arm groove 120 is formed in the slide manner is fitted in the vertical structure is coupled, it is possible to change the direction in which the lego-type insulation panel 100 is coupled.

Figure 3 is another perspective view of the combination lego-type insulation panel according to the present invention.

As shown in Figure 3, the lego-type insulation panel of another structure according to the present invention has a rectangular structure, the male groove 110 is formed on one side of the short axis of the major axis and the minor axis, Arm groove 120 is formed in the center of the side perpendicular to the edge surface, when a plurality of lego-type insulation panel 100 is coupled, the male groove 110 of one lego-type insulation panel side of the other lego-type insulation panel The arm groove 120 formed at the center is fitted in a slide manner and is coupled in a vertical structure to change a direction in which the lego type insulation panel 100 is coupled.

That is, as described above, and as shown in Figures 2 and 3, the female groove 120 is formed on the side perpendicular to the other edge surface of the short axis, respectively, and the female groove 120 at the center of the side perpendicular to the short axis edge surface The formed Lego-type insulation panel 100 according to the present invention can be assembled into various structures such as straight, L-shaped, T-shaped and + -shaped.

Therefore, the lego type insulation panel 100 according to the present invention does not need a separate subsidiary material for assembly because the male groove 110 and the female groove 120 are formed as described above and can be simply fitted in a slide manner. .

In addition, the lego-type insulation panel 100 according to the present invention is formed with a convex protrusion 150 on the upper end surface of the long axis, the receiving portion 160 that can receive the projection 150 concave on the lower end surface. It is formed, this is to allow the projection 150 is accommodated in the receiving portion 160 can be coupled when the stacking stacked lego-type insulation panel 100 in the vertical direction.

As another embodiment, the lego-type insulation panel 100 according to the present invention may be coupled by the core 140 as shown in FIG.

That is, referring to Figure 4 in which the lego-type insulation panel according to the present invention is coupled in a slide manner by the core, the lego-type insulation panel 100 is coupled by the core 140 has a female groove ( 120 is formed, so that the core 140 is inserted into each arm groove 120 in a slide manner so that a pair of lego-type insulation panels 100 are coupled.

At this time, the core 140 has a symmetrical cross-section of the cross-section, the left and right ends of the core 140 is inserted into the female groove 120 of the lego-type insulation panel 100, so that the lego-type insulation panel 100 is The separation prevention jaw 141 is formed to prevent the separation.

In addition, the lego-type insulation panel 100 of the present invention is characterized in that the core 140 is coupled in a twisted manner.

That is, the core 140 is located between the pair of lego-type insulation panel 100, as shown in FIG. 5, in which the lego-type insulation panel according to the present invention is coupled in a twisted manner by the core, and the core 140 On both sides of the lego-type insulation panel 100 is coupled in a twisted manner.

At this time, in the present embodiment, the core 140 has a symmetrical structure in cross section, but the separation prevention jaw 140 formed at the left and right side ends is formed so that the outside is rounded so that the lego type insulation panel 100 can be easily twisted. And, it is preferable that the inner side is formed to be angled to minimize the departure of the lego-type insulation panel 100 coupled to the core 140.

In addition, the lego-type insulation panel 100 of the present invention is characterized in that the core 140 and the combined method.

That is, as shown in FIG. 6 in which the lego-type insulation panel according to the present invention is combined in a manner in which the slide method and the twisting method are integrated by the core 140, the core 140 firstly has a departure prevention jaw 141 at one end. ) Is inserted into the arm groove 120 of the lego-type insulation panel 100 is coupled to the lego-type insulation panel 100, then the female groove 120 of the other lego-type insulation panel 100 is the core ( By coupling to the separation prevention jaw 141 of the other end of the 140, a pair of lego-type insulation panel 100 is coupled in a complex manner by the core 140.

In addition, the Lego-type insulation panel of the present invention, when laminated and bonded in the longitudinal direction as shown in Figure 7, after matching the tunnel 130 of the lower lego-type insulation panel with the tunnel 130 of the upper lego-type insulation panel In addition, the core 140 may be inserted by sliding the coupling.

On the other hand, the manufacturing method of the lego-type insulation panel according to the present invention will be described with reference to FIG.

8 is a view for explaining a manufacturing method of the lego-type insulation panel according to the present invention.

Moving to the primary stirrer 230 through a pipe connected to the raw material tank 210 and the adhesive binder tank 220, and stirring the raw material of the raw material tank 210 and the adhesive binder of the adhesive binder tank 220. Is performed.

The raw material tank 210 is stored expanded and expanded inorganic raw materials such as vermiculite, perlite, rice hull, sawdust, large rice, etc., the lithium binder silicate with an adhesive component is stored in the adhesive binder tank 220 It is.

In the primary stirrer 230, a gel mixture of the raw material and the adhesive binder is mixed and moved to the secondary stirrer 240 to be remixed.

On the other hand, the special material storage unit 250 is provided around the secondary stirrer 240, the special material stored in the special material storage unit 250 was mixed in the gel state as it is introduced into the secondary stirrer 240 The material changes to a gel state.

That is, the special material storage unit 250 is a material such as a gas or a vaporizing agent to evaporate water, the vaporizing agent is added to the mixture of the gel state to remove the water contained in the mixture, the mixture is viscous Change to gel state with

The gel mixture is moved to the press mold part 260 to perform a press mold step having an appearance of the lego type heat insulation panel according to the present invention.

After the mold step, the mold panel is moved to the drying and ripening unit 270 to be dried and aged.

More specifically, the panel is dried by the steam drying unit 271 of the drying and aging unit 270 or more than 100 minutes or more by the step of drying for more than 5 minutes, the air drying unit 272 to the wind Thereby drying by cooling proceeds.

In addition, when the panel is dried in the air drying unit 272, the panel is moved to the micro drying unit 273 of the drying and ripening unit 270, the step of drying by vibrating and evaporating the moisture contained therein proceeds. Then, it is transferred to the high pressure air drying unit 274, and the drying step is performed by high pressure wind to complete all the drying steps.

When all drying steps are completed, the ripening step proceeds. First, the panel is moved to the heat aging chamber 275 and the heat aging step is performed for 6 hours. During the cold aging stage.

The panel is shipped after the cold aging step is completed, transported to the shipment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: lego type insulation panel
110: male groove 111: male jaw
120: arm groove 121: the jaw
130: tunnel 140: core
141: Breakaway Jaw
150: projection 160: receiving portion
210: raw material tank 220: adhesive binder tank
230: primary stirrer 240: secondary stirrer
250: special material storage 260: press mold
270: drying and maturing part 271: steam drying part
272: air dryer 273: micro drying unit
274: high pressure air drying unit 275: thermal aging room
276: cooling aged room

Claims (10)

A male groove 110 having a rectangular structure formed on one side of the short axis of the axis of the long axis and short axis; And
An arm groove 120 formed at the other side edge surface of the short axis, a side surface perpendicular to the edge surface, or the center of the vertical side surface so that the male groove 100 can be fitted in a slide manner;
A plurality of protrusions 150 formed convexly on the upper end surface of the long axis; And
And a concave receiving portion 160 formed in the lower end surface of the long axis to accommodate the plurality of protrusions 150.
A plurality of tunnels 130 are formed penetrating from one edge surface of the long axis to the other edge surface,
The male groove 110 and the female groove 120 is a lego type heat insulation panel, characterized in that the upper jaw 111 and the upper jaw 121 is formed, respectively.
delete delete delete delete The method of claim 1,
When the corner surface of both pairs of short axis of the long axis and short axis of the axis formed of a rectangular structure formed of the male groove (110)
Lego type heat insulation panel comprising a; the groove (110) and the slide method, the twisting method or the core (140) to be fitted in a combined method integrated slide and twisting method.
The method according to claim 6,
The core 140 is a lego type far-end panel, characterized in that the departure prevention jaw (141) is formed.
delete delete delete

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