KR102312390B1 - Slate for venetian blinds - Google Patents

Abstract

The present invention combines fabric papers woven with warp and weft yarns by lamination and hot fixing through binder resin to combine light and required strength, especially by preventing external exposure of the cut edge of the slat panel, and It relates to a slat for Venetian blinds that prevents physical damage and ensures improved insulation performance,
In the present invention, a slat panel in which the entire width of the molded panel is cut to a set width and a set width; Comprising a band member for annularly covering the edge of the cut-out slat panel,
The band member is characterized in that it is composed of an annular body having a bending groove of a "U"-shaped cross-section that surrounds three surfaces including an upper surface, a lower surface, and an outer surface of the edge of the slat panel on the inner diameter surface.

Description

Slate for venetian blinds

The present invention relates to a slat for a Venetian blind, and more particularly, has both light and required strength by laminating fabric papers woven with warp and weft yarns and hot fixing through a binder resin, and in particular, the outside of the edge of the cut slat panel. It relates to a slat for Venetian blinds that prevents exposure and prevents external exposure and physical damage of uneven cut edges, and ensures improved thermal insulation and insulation performance.

Looking at the energy loss rate of domestic apartment buildings, the energy loss rate is approximately 15% from the wall, 21% from the ventilation rate, 30% from the heat transmittance rate of windows and doors, 16% from the roof for the roof layer, and 18% from the machine (equipment). Of course, there are differences depending on the size and arrangement of the space, but when only one target space is set, the ratio of energy lost from the windows and doors among the components of the indoor space is the highest.

Windows and doors are the most thermally vulnerable part of a building and are the biggest factor in cooling and heating expenses. In general, the thermal transmittance of windows and doors is more than 7 times greater than that of walls, which means that the area of 1 m 2 of windows and 7 m of walls loses heat equally. In general, apartments with large windows increase the cost of cooling and heating energy by up to 20% compared to general apartments.

Various methods have been proposed to minimize energy loss due to windows, and one of them is a window with a built-in blind.

A window with built-in blinds is a window with blinds installed on the hollow floor between double-glazed windows.

In summer, the blinds are closed to block the inflow of solar radiation, and in winter, the blinds are opened to induce solar inflow.

However, in conventional windows with built-in blinds, since the blinds are fixedly installed in the middle of the hollow layer, the structure was restrictive in actively utilizing the hollow layer as an insulating layer.

On the other hand, general low-e glass is a low-e glass coated with a thin film of metal or metal oxide with excellent electrical conductivity on one side of the glass. It is a special glass manufactured so that there is almost no heat transfer through the glass even when the temperature difference between indoor and outdoor is large by blocking infrared rays.

However, the low-e glass may have a side effect in that the cooling load or the heating load is rather increased depending on the location of the low-e glass.

Most of the domestic residential and commercial complexes and public buildings have applied low-e glass to the inner side of the double-glazed windows. These double-glazed windows focus on the insulation performance in winter, and in the summer, the indoor temperature is raised by radiant heat, which increases the amount of cooling power consumption. it is reported that

In fact, it has been pointed out that high-rise residential-commercial-use apartments with inner glass made of low-e glass use up to twice as much cooling power as ordinary apartments because the indoor temperature rises in summer.

On the other hand, Venetian blinds (hereinafter, simply referred to as 'blinds') have a function to block solar radiation while securing a view, and a plurality of blind slats (hereinafter, simply referred to as 'slats') are used. consists of including

These slats are usually thin and long rectangular plate-shaped members, and are arranged vertically. The amount of light entering the room can be adjusted by elevating these slats or adjusting the inclination of the slats.

However, in most cases, a plurality of slats constituting the blind have not undergone separate processing through the surface.

Accordingly, it is possible to reduce the cooling load that blocks solar radiation in summer, but when using blinds in winter, it may cause a problem of increasing the heating load by blocking solar radiation.

As a prior document related to the present invention, there is Republic of Korea Patent Publication No. 10-2016-0027759 (published 20160310), and the prior document discloses a technology related to a blind slat and a manufacturing method thereof.

Republic of Korea Patent Registration No. 10-1137485 Republic of Korea Patent No. 10-1669016 Republic of Korea Patent Registration No. 10-1770369

An object of the present invention, devised to solve the above problems, is to combine the strength required while being light by laminating and hot fixing the woven fabrics woven with warp and weft yarns through a binder resin,

In particular, it is to provide a slat for Venetian blinds to prevent external exposure of the edge of the cut slat panel to prevent external exposure and physical damage of the uneven cut edge, and to ensure improved thermal insulation performance.

The above object is achieved by the following configuration provided in the present invention.

Slats for Venetian blinds according to the present invention,

A slat panel in which the entire width of the molded panel is cut to the set width and set width;

Comprising a band member for annularly covering the edge of the cut-out slat panel,

The band member is characterized in that it is composed of an annular body having a bending groove of a "U"-shaped cross-section that surrounds three surfaces including an upper surface, a lower surface, and an outer surface of the edge of the slat panel on the inner diameter surface.

Preferably, the molded panel of the full width is a hot-pressed molded article in which the fabric paper coated with the binding resin is laminated and hot-pressed, and the fabric paper laminated by the binding resin is fixed.

More preferably, a partition rim is formed to protrude inwardly on the inner diameter surface of the band member, and bending grooves of a "C" cross section are respectively formed on the inside and outside of the partition rim, while each of the bending grooves has a slat panel. each installed,

In the band member, a pair of slat panels are formed to be spaced apart inwardly and outwardly, and an insulating space portion sealed by the band member is formed between the spaced apart slat panels.

As described above, the Venetian blind slat according to the present invention is made of a slat panel obtained by cutting a hot-compression-molded full-width molded sheet, and various aesthetics can be connected through the unique pattern of the fabric itself.

In particular, since the textile paper maintains the molded state by the binder resin, it is possible to reduce weight while maintaining stable shape stability, and mold and the like grow due to humidity, resulting in poor hygiene, and twisting when used for a long time. Since this deformation phenomenon is prevented, it has improved durability.

In addition, the blind slat manufactured by the present invention not only has stable thermal insulation properties by the thermal insulation sheet installed between the fabric papers, but also has stable bending strength even if it is bent in a curved shape and manufactured to a thin thickness.

In addition, in the present invention, by adding a band member surrounding the edge of the slat panel to prevent exposure of the edge of the slat panel cut by the added band member, damage to the appearance by exposure of the edge of the slat panel and the physical edge of the edge damage can be prevented.

In particular, in the present invention, by configuring a plurality of slat panels and band members to have a multi-layer insulation structure, it is possible to secure improved insulation and heat retention, and more stable insulation and light blocking performance can be secured by the magnetic adhesion structure organically grafted thereto do.

1 shows the external configuration of a Venetian blind including a slat proposed as a preferred embodiment in the present invention,
Figure 2 is a flowchart showing the manufacturing process of the slat for Venetian blinds proposed as a preferred embodiment in the present invention,
Figure 3 shows the external configuration of the slat for Venetian blinds proposed as a preferred embodiment in the present invention,
Figure 4 schematically shows the punching process during the forming process of the slat panel constituting the slat for Venetian blinds proposed as a preferred embodiment in the present invention,
Figure 5 shows the cross-sectional configuration of the slat for Venetian blinds proposed as a preferred embodiment in the present invention,
Figure 6 schematically shows the magnetic coupling state of the slat for Venetian blinds proposed as a preferred embodiment in the present invention.

Hereinafter, with reference to the accompanying drawings, a slat for Venetian blinds proposed as a preferred embodiment in the present invention will be described in detail.

Figure 1 shows the external configuration of a Venetian blind including a slat proposed as a preferred embodiment in the present invention, Figure 2 shows the manufacturing process of the Venetian blind slat proposed as a preferred embodiment in the present invention 3 is a flowchart showing the external configuration of a slat for Venetian blinds proposed as a preferred embodiment in the present invention, and Figure 4 is a slat constituting a slat for Venetian blinds proposed as a preferred embodiment in the present invention. Among the forming process of the panel, it schematically shows the perforation process, Figure 5 shows the cross-sectional configuration of the slat for Venetian blinds proposed as a preferred embodiment in the present invention, Figure 6 is a preferred embodiment in the present invention It schematically shows the magnetic coupling state of the proposed Venetian blind slats.

The Venetian blind slat (1) proposed as a preferred embodiment in the present invention, as shown in FIG. 1, is arranged at equal intervals up and down on the traction line (L) constituting the Venetian blinder, traction of the traction line (L) It is a major component of venetian blinds that control the shading state of the window by changing the stacking interval and the standing angle by action.

The Venetian blind slat (1), as shown in FIGS. 1 to 3, includes a pair of slat panels 100 in which a full width molded panel is cut to a set width and width, the slat panel 100 is composed of a hot-pressed molded article obtained by hot-pressing a plurality of fabric papers (10).

That is, in the slat panel 100, the binder resin 20 is applied through the binder resin application process to the woven papers 10 woven with warp and weft yarns crossed by the weaving process as shown in FIG. 2, respectively, and then laminated hot After laminating the textile paper 10 coated with these binder resin 20 through a compression process, the laminated textile paper 100 is hot-pressed, and the total width of the textile paper 10 laminated by the binder resin 20 is fixed. It is composed of a hot-pressed molded product in which a molded panel is cut to a set width and width through a cutting blade in the cutting process.

According to this embodiment, the molded panel manufactured by the slat panel 100 has a warp of 300D in which low-melting yarns (polyester yarns) of a polyester material are twisted, low-melting yarns (polyester yarns) and wood look yarns. It is composed of a plain weave type woven paper in which weft yarns of 1350D twisted with each other are woven to cross each other, and a thermoplastic binder resin 20 is applied to the surface of the woven woven paper 10 .

In the present invention, as an example, the textile paper 100 wound on the winding roll is continuously expanded, and the binder resin 20 in a gel state is applied to the surface of the textile paper 10 to be developed, and then scraped through a scraper, the textile paper 10 ) so that the binder resin 20 of a set thickness is applied to the surface.

Here, the binder resin 20 may be a thermoplastic resin such as PE, PP, PET, or a thermosetting resin such as epoxy. (10) is applied.

In this embodiment, various powders such as gold powder or silver powder that can provide decorative taste are mixed in the binder resin 20, so that the surface aesthetics of the produced blade itself is improved.

In particular, in this embodiment, a heat insulating sheet 30 made of an aluminum thin film is inserted between at least one of the stacked fabric papers 10 , and the slat panel 100 itself by the inserted heat insulation sheet 30 . ensure the thermal insulation of

Here, the insulating sheet 30 is made of a thin aluminum thin film having a thickness of 0.01 mm to 0.03 mm, so as to secure thermal insulation performance without affecting the overall thickness.

Accordingly, the fabric paper wound on each winding roll is coated with a binder resin 20 in the unfolding process, and the fabric paper 10 coated with the binder resin 20 is alternately laminated with the heat insulating sheet 30 and subjected to hot compression. A full-width molded panel is formed.

In this embodiment, prior to hot pressing of the fabric paper 10 in which the insulation sheet 30 is inserted into the hot pressing mold 330, as shown in FIGS. By inserting the insulating sheet 30 through the 320 and performing a punching process for pressing the stacked fabric papers 10 in advance, the fusion hole 31 penetrating up and down in the heat insulating sheet 30 interposed between the fabric papers 10 ) to form.

In this way, if the perforation process is carried out in advance through the perforated pin 321, the heat insulating sheet 30 disposed between the stacked fabric papers 10 is tubularly drawing-molded fusion holes 31 are formed, and the tubular The drawn fusion holes 31 are cocked between the tissues of the laminated fabric 10 to form a pre-fixed state with the fabric 10.

The fabric paper 10, which has completed this perforation process, is hot-pressed at a set pressure and a set temperature through a hot-pressing mold 330 in a decompression chamber, and the binder resin 20 and the heat-insulating sheet 30 and laminated to be hot-cured. The fabric paper 10 forms a full-width molded panel.

Here, the hot compression conditions including pressure, temperature, and compression time according to the hot pressing of the laminated fabric paper 10 depend on the thickness of the laminated fabric paper, the amount of lamination, the type and application amount of the binder resin 20 . The enemy can be enforced.

And, the hot pressing process through the hot pressing mold 330 is made in a decompression chamber in which a reduced pressure state is formed, and the air remaining in the laminated fabric 10 and the binder resin 20 applied to the fabric 10 is The residual phenomenon is suppressed, and a large amount of air bubbles do not remain in the blind slat panel 100 of the full width formed through this.

The molded panel of the full width thus molded is cut to a set width and a set width through a cutting blade 340 to form a slat panel 100 having a set width and a set width.

However, due to the nature of the slat panel 100, the cut edge portion 110 is damaged, the slat panel 100 has weak durability of the edge portion 110 and is cut unevenly, thereby damaging the aesthetics.

In order to solve this, in this embodiment, as shown in FIGS. 1 to 3 and 5 to 6 , a band member 200 is provided to cover the edge portion 110 of the slat panel 100 in an annular shape, and the band The phenomenon that the edge portion 110 of the slat panel 100 is exposed to the outside by the member 200 is prevented.

The band member 200 according to this embodiment is composed of an annular body injection-molded with silicone or rubber, etc., and the band member 200 has an upper surface and a lower surface of the edge portion 110 of the inscribed slat panel 100 and A bending groove 210 of a "C"-shaped cross-section is formed that surrounds three surfaces including the outer surface.

More preferably, by forming the annular protruding partition rim 220 on the inner wall of the band member 200, the bending groove 210 having a 'C'-shaped cross section on the inside and the outside of the partition rim 220, respectively. form each.

Accordingly, by disposing each of the slat panels 100 in each of the bending grooves 210, respectively, a pair of slat panels 100 on the inside of the band member 200 are arranged to be spaced apart inward and outward to form a slat (1). are doing

Here, between a pair of slat panels 100 spaced apart inward and outward by the band member 200, a hollow insulating space 230 surrounded by the band member 200 is formed, so that the Improved thermal insulation performance is ensured.

In this way, the edge portion 110 of the slat panel 100 overlaid with the band member 200 is prevented from direct exposure of the edge portion 110 by the band member 200, and as a result, the edge portion 110 is non-uniform. A phenomenon in which the warp or weft strands are exposed through one cross-section or the edge portion 110 can be prevented.

And, as described above, the slat 1 with the band member 200 overlaid on the edge portion 110 of the slat panel 100 is arranged at equal intervals up and down on the traction line constituting the Venetian blinder, and by the traction action of the traction line By changing the stacking interval and the standing angle, the light blocking state inside the window is adjusted.

In this embodiment, a magnetic coupling structure is provided in each slat 1 disposed at equal intervals up and down on the traction line L, and the lower half of the slat 1 and the upper half of the slat are in close contact with each other by magnetic coupling. Ensure stable light-shielding and thermal insulation properties.

To this end, in this embodiment, as shown in FIG. 6 , a permanent magnet sheet 240 emitting a permanent magnetic force is disposed on the upper half of the heat insulating space 230 formed between the slat panels 100 , and the heat insulating space part A ferromagnetic sheet 250 magnetically coupled to a permanent magnetic force is disposed in the lower half of the 230 .

In this way, when the permanent magnet sheet 240 and the ferromagnetic sheet 250 are respectively arranged through assembly, the simplicity and convenience according to the manufacture are secured, and stable adhesion between the slats 1 can be achieved.

And, instead of disposing the permanent magnet sheet 240 in the insulating space and the upper and lower halves, respectively, placing the permanent magnet sheet 240 in the upper layer and placing the ferromagnetic sheet 250 in the lower layer, the permanent magnet sheet 240 It is possible to prevent a phenomenon in which the magnetic coupling is poor due to the repulsive force therebetween.

Therefore, the slats (1) disposed at equal intervals up and down on the traction line (L) are magnetically coupled to the slats (1) intersecting each other and are stably fixed in close contact, and as a result, stable light blocking performance and heat insulation performance are secured.

1. Slats for Venetian Blinds
10. Textile paper 20. Binder resin
30. Insulation sheet 31. Welding hole
100. Slat panel 110. Edge
200. Band member 210. Banding groove
220. Compartment 230. Insulated space
240. Permanent magnetic sheet 250. Ferromagnetic sheet
310. Cutting mold 311. Cutting blade
320. Perforated mold 321. Perforated pin
330. Hot pressing mold 331, 332. Compression surface
340. Altar Blade

Claims (3)

A slat panel in which the entire width of the molded panel is cut to the set width and set width;
Comprising a band member for annularly covering the edge of the cut-out slat panel,
The band member is composed of an annular body having a bending groove of a "U"-shaped cross-section that surrounds three surfaces including an upper surface, a lower surface and an outer surface of the edge of the slat panel on the inner diameter surface,
A partition rim is formed to protrude inwardly on the inner diameter surface of the band member, and bending grooves of a "C"-shaped cross-section are respectively formed on the inside and outside of the partition rim, while slat panels are respectively installed in each of the bending grooves,
In the band member, a pair of slat panels are formed to be spaced apart inwardly and outwardly, and a hollow insulating space portion sealed by the band member is formed between the pair of spaced apart slat panels,
Venetian blinds, characterized in that a permanent magnet sheet for emitting a permanent magnetic force is disposed on the upper half of the insulating space formed between the pair of slat panels, and a ferromagnetic sheet magnetically coupled to the permanent magnetic force is disposed on the lower half of the insulating space. dragon slat. [Claim 2] The slat for Venetian blinds according to claim 1, wherein the full width molded panel consists of a hot-pressed molded article in which the fabric papers coated with a binder resin are laminated and hot-pressed, and the fabric papers laminated by the binder resin are fixed. delete

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