JP3109978U - Wall board structure with side ventilation by weaving manufacture - Google Patents

Abstract

A ventilation space in which monofilaments in the middle of a pad are distributed has a heat dissipation and temperature lowering effect, and further has a side ventilation by a woven fabric production that has a number of effects such as the incorporation of transparent and conductive fabric filaments. Provide wallboard structure with.
[Solution]
The wall plate structure with side air permeability by weaving manufacture of the present invention replaces various hard plate materials formed by plastic extrusion or dense processing, and consists of cloth surface woven by crochet from the surface and bottom. Is a thick pad consisting of a large number of densely distributed series of solid monofilaments, and a gel-like resin agent (sound absorber, flame retardant, filler, etc.) is applied to the fabric surface of the plate portion. In this way, a hard plate is provided that is used after being injected and filled in a gap between tissues and dried, and then attached to an inner layer of a roof or a wall surface.
[Selection] Figure 1

Description

The present invention relates to a wall board structure having side air permeability produced by weaving. The wall plate structure with side air permeability by weaving manufacture of the present invention replaces various hard plate materials formed by plastic extrusion or dense processing, and consists of cloth surface woven by crochet from the surface and bottom. Is a thick pad consisting of a large number of densely distributed series of solid monofilaments, and a gel-like resin agent (sound absorber, flame retardant, filler, etc.) is applied to the fabric surface of the plate portion. In this way, a hard plate is provided that is used after being injected and filled in a gap between tissues and dried, and then attached to an inner layer of a roof or a wall surface. The ventilation space in which the monofilaments in the middle of the pad are distributed has a heat dissipation and temperature lowering effect, and also has a number of effects such as weaving transparent conductive cloth filaments.

In general, in indoor space, it is constructed with basic materials such as conventional tile walls, concrete, steel plates, etc., and plastic extrusion molding (or other heat insulation, sound absorption, fireproofing materials for reasons of heat insulation, fireproof, sound absorption, aesthetics, etc.) Add a continuous plate by mixing) or a single plate by compaction and pressing (or mix other heat insulation, sound absorption and fireproof materials). The structure is hard, and when it is necessary to construct a curved surface, it has a problem that it cannot be constructed well, and because it is not transparent, the indoor space becomes dark when used on the roof (eg gymnasium or large hall), daytime But lighting is required, leading to wasted energy.

Conventional base materials mainly use the essence of being hard to store heat of materials or mixed materials, or discharge hot air, or intentionally leave a gap between materials to make hot air flow "passive" Creates heat dissipation and temperature drop effect. However, the heat dissipation of this structure is actually quite limited. In particular, in a hot and humid environment where there is no wind, the outdoor temperature is high, and the indoor high temperature is released to the outside, making it difficult to adjust. Furthermore, it is necessary to consume a large amount of power and directly reduce the temperature with a cooler. This is uneconomical and not ideal for hair because of the idea of environmental protection.

  An object of the present invention is to provide a wall plate structure having a side air permeability by weaving manufacturing that can solve the above-mentioned conventional problems.

The wall board structure with side air permeability by weaving manufacture of the present invention replaces various hard board materials formed by plastic extrusion or dense processing, and is the cloth surface woven by crochet from the surface and bottom, with the middle Apply a gel-like resin agent (sound absorbing agent, flame retardant, filler, etc.) to the fabric surface of the board with a thick pad consisting of a large number of densely distributed series of solid monofilaments. Thus, a hard plate can be provided that is used after being injected and filled in the gaps between the tissues and dried, and then placed horizontally on the roof, or vertically attached to the inner layer of the wall surface. The ventilation space in which the monofilaments in the middle of the pad are distributed has a heat dissipation and temperature lowering effect, and also has a number of effects such as weaving transparent conductive cloth filaments.

Furthermore, the cloth surfaces on both the front and bottom surfaces are coated with a gel-like resin agent (for example, a sound absorbing agent, a heat-resistant agent, or a gap filler) on the cloth surface of the plate portion, so that the inside of the tissue gap After filling and drying, the gap between the tissues is filled into a hard plate, so the fabric texture can be straight or curved, and it can be placed horizontally on the roof. It can also be applied to the wall surface and can be sophisticated and convenient. A series of solid, transparent monofilament pads that are densely distributed in the middle of the woven structure of the crochet on the fabric surface partially transmits light and reduces the situation where the room becomes dark when used on the roof, It has the advantage of reducing energy consumption by reducing the use of lighting.

In addition, the fabric surface on both the front and bottom surfaces of the pad is partially woven into conductive filaments, and is distributed throughout and woven together so that lightning rods and grounding are installed throughout. Lead wires can be distributed, which has a practical effect of enhancing the safety of buildings.

The wall board structure with side air permeability by the weaving manufacture of the present invention is a fabric surface woven by crochet from the front and bottom, and consists of a series of solid monofilaments with a large number of densely distributed in the middle. It provides a hard plate that is attached to the inner layer of the roof or wall with a certain pad. Due to the ventilation space where monofilaments in the middle of the pad are distributed, airflow can enter and exit on the side surface, there is a way to discharge the hot air accumulated inside, and dissipate heat, so that `` active '' heat dissipation can be done, It has the effect of effectively reducing the indoor temperature.

Furthermore, the wall plate structure having side air permeability by the weaving manufacture of the present invention has a cloth-like surface on both sides, a gel-like resin agent (for example, a sound absorbing agent, a heat-resistant agent, or a gap filler), and a plate. By applying and applying to the surface of the fabric of the part, it fills the gap in the tissue, and after drying, it fills the gap in the tissue and becomes a plate with high hardness. Can be curved, can be placed horizontally on the roof, or can be installed vertically on the wall, allowing for sophisticated and convenient interior decoration.

A series of solid, transparent monofilament pads that are densely distributed in the middle of the woven structure of the crochet on the fabric surface partially transmits light and reduces the situation where the room becomes dark when used on the roof, It has the feature of enabling energy saving by reducing the use of lighting.

In addition, the wall board structure with side air permeability by the weaving manufacture of the present invention is such that the fabric surfaces of the pad surface and the bottom surface are partially interwoven with conductive filaments, and are distributed as a whole, and are mutually connected. Is woven. Therefore, the lead wire for installing the lightning rod and the ground as a whole can be distributed, which has a practical effect of enhancing the safety of the building.

Please refer to Fig. 1 and Fig. 1A. The wall plate with side air permeability produced by weaving according to the present invention is composed of cloth surface 21, 22 whose surface and bottom surface are woven by crochet, and is composed of a series of solid monofilaments 23 which are extremely densely distributed in the middle. The pad 2 is thick. The fabric surfaces 21, 22 and the monofilament 23 have a characteristic of being bent appropriately. Therefore, it can be used on a horizontal arched roof G (see Fig. 2 and Fig. 2A) or on a straight roof, or it can be vertically attached to the inner layer of the wall surface P and straight on the force surface. It can be used on any wall surface. Since the monofilaments 23 distributed in series in the middle of the pad are densely packed together, the ventilation space 23A distributed throughout collects the hot air flow H that has accumulated inside the fabric surfaces 21 and 22 to the outside. It leads to an invisible path to guide and release.

The resin agent S is injected and filled into the tissue gaps by applying a gel-like resin agent S (for example, absorptive material, heat-resistant agent or gap filler) to the fabric surface 21 and 22 of the plate portion. After drying, the gaps between the tissues are filled, and the fabric surfaces 21, 22 become high hardness plates, so they can be placed horizontally on the roof G or installed vertically on the wall P. It is possible to do it, and it can be refined and conveniently decorated (see Fig. 2 and Fig. 2A).

Please refer to Fig. 2 and Fig. 2A. The reason why the room is so hot is that the roof G outer layer board G1 or the outer layer board P1 of the wall surface P mainly increases the temperature of the pad 2 outer layer fabric surface 21 due to the outdoor high temperature or concentrates in the room, and the increased temperature This is because the temperature rises due to the influence of the inner layer fabric surfaces 21, 22, and the airflow H accumulated inside the ventilation space 23A rises to become a hot airflow.

At this time, if both the front and bottom surfaces of the pad 2 lose air permeability, the ventilation space 23A distributed between the respective monofilaments 23 is fully communicated, and the air flow installed on the side surface of the outermost pad 2 is taken in and out. Along with the device 3 (ex: exhaust fan), the air flow H inside the pad 2 is circulated, guided outward, and discharged (see FIGS. 2A and 2B).
Accordingly, the hot air flow H is continuously discharged or sucked, and the temperature of the fabric surface 21 and the inner layer fabric surface 22 on the outer side of the pad 2 is lowered, and the outdoor temperature is gradually lowered to be cool and comfortable. .

Furthermore, the pad 2 incorporates a series of solid transparent monofilaments 23 that are densely distributed in the middle at the same time in the process of weaving the knitted needles of the fabric surfaces 21 and 22. The fabric surfaces 21 and 22 partially transmit light, and are combined with the transparent monofilament 23 and the roof G outer layer board G1 (for example, a solarium transparent roof), or the wall surface P outer layer board P1, and applied to the surface. If the resin agent S has translucency or is a transparent material, it is possible to avoid the situation where the indoor space becomes dark, and the degree of daytime lighting usage is low, saving energy. Can contribute.

Further, in the process of knitting the knitted needles of the fabric surfaces 21, 22, the pad 2 simultaneously weaves the conductive filaments 21A, 22A, and distributes them entirely, partially and woven so as to communicate with each other. , 22A can be connected to the ends of the lightning rod T1 and the ground T2 at the middle or the middle. Alternatively, by combining a plurality of lightning rods T1 and ground T2 and distributing a network of leakage current leads as a whole, there is an effect of dispersing and protecting instantaneous high voltage during electric shock (FIGS. 1 and 2). ) Therefore, the safety of large buildings can be increased.

Please refer to Fig. 3 and Fig. 3A. In addition, the use of the pad 2 of the present invention allows the fabric surfaces 21, 22 to absorb the sound wave L1 emitted from the speaker L tightly, and the buffer space formed by the rear filament 23 receives the sound wave to the wall surface. It avoids the occurrence of dissonance by colliding vertically, and exhibits an excellent silencing effect. Furthermore, it is possible to attach the pad 2 partly to form a silencer at the corner of an independent surface, and to be stretched around the wall or corner. When used as a sound deadening wall plate or sound deadening plate, applying the resin agent S to the back makes the shape firm and easy to install.

It is explanatory drawing of the pad of this invention. It is a three-dimensional view of an embodiment in which a large number of pads of the present invention are collected. It is the three-dimensional figure which apply | coated resin to the surface of the Example of this invention. It is a three-dimensional assembly drawing of the Example of this invention. It is explanatory drawing which showed the temperature fall effect | action of the Example of this invention. FIG. 2B is a partially enlarged view of FIG. 2A. It is operation | movement explanatory drawing of the silencer of the Example of this invention. FIG. 4 is an explanatory diagram of the arrangement of FIG.

Explanation of symbols

2 pads
21,22 Fabric surface
21A, 22A conductive filament
23 Monofilament
23A Ventilation space
G roof
G1 roofing board
P wall
P1 wall board
3 Device for taking air flow in and out
H Hot air flow
S resin agent
T1 lightning rod
T2 ground
L
L1 sound wave

Claims (4)

The cloth surface and monofilament are moderately bent, with a thick pad consisting of a series of solid monofilaments that are densely distributed in the middle on the fabric surface woven by crochet on the front and bottom surfaces, The surface of the fabric surface is coated with a gel-like resin agent for filling the gap, and the grease is injected and filled into the gap of the tissue, and after drying, the gap of the tissue is filled, and the cloth surface is hardened. Since it has the characteristic of becoming a high-priced board, it can be placed horizontally on the roof, or it can be installed vertically on the wall, and it can be used on curved surfaces and straight walls. , Wallboard structure with side ventilation by weaving manufacture. When the resin agent is applied to the fabric surface of the board and the air permeability is lost, the ventilation space distributed between the monofilaments is completely communicated with the device installed in and out of the outermost pad side surface. The air flow inside the pad is circulated, guided to the outside, and discharged, so that the hot air flow is continuously discharged or sucked out, lowering the temperature of the fabric surface and inner layer fabric surface outside the pad, and outdoors The wall board structure with the side air permeability by the weaving manufacture according to claim 1, which has an effect of gradually lowering the temperature of the sheet to make it cool and comfortable. The fabric surface of the pad partially transmits light by knitting, and the transparent monofilament and the roof outer layer board, or the wall outer layer board and the resin agent applied to the surface are translucent or transparent. According to claim 1, the use of a material makes it possible to avoid the situation where the indoor space becomes dark, reduces the use of daytime lighting, and contributes to energy saving. Wall board structure with side ventilation by woven fabric manufacturing. In the process of crochet weaving on the fabric surface of the pad, by simultaneously weaving the conductive filaments, distributing them entirely and partially and weaving them so as to communicate with each other, lightning rods and By the weaving manufacture according to claim 1, which can be connected to the end, and has an effect of distributing and protecting instantaneous high voltage during electric shock by distributing a network of earth leakage leads as a whole. Wall plate structure with side ventilation.

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