JP4916926B2 - Method of filling general purpose panels with cellulose fiber - Google Patents

Description

    The present invention relates to a method of filling a general-purpose building panel with cellulose fiber in a manufacturing process of a general-purpose building panel used for a structure of each part such as a wall, a floor, and a ceiling in heat insulation work of a house.

    From the viewpoint of comfort and health of living space, and economic effects due to energy saving and reduction of utility costs, it is known to use general-purpose building panels with built-in fiber insulation in the heat insulation method of houses.

Many foam-based heat insulating materials having a mat-like or board-like shape are used, including mineral heat insulating materials such as glass wool and rock wool, which occupy most of the heat insulating materials in general.
In the case of mineral-based, foam-based mats and board-like insulation, there are large gaps in the connection with other parts such as fine parts such as braces, hanging trees and beams behind the ceiling, electricity and water supply / distribution ventilation equipment, etc. There was a problem that sufficient heat insulation effect could not be achieved. (Problem 1)

    In addition, most of the board-like heat insulating materials have been used for the on-site construction method. For this reason, there are difficulties in heat insulation work such as processing of fine voids generated in the structure and processing of contact with fine parts, and there are problems such as reduction in work efficiency, prolongation of work period, and cost increase. (Problem 2)

    Therefore, in view of the above-mentioned problem 1, the object of the present invention is to provide a method of performing heat insulation by blowing method using cellulose fiber, which is a cotton-like wood-based fiber heat insulating material, and effective heat insulation. It is to plan.

    In addition, in view of the above-mentioned problem 2, the object of the present invention is to make it possible to produce a general-purpose panel with built-in wood fiber insulation in a factory and to reduce work on site, thereby improving work efficiency, shortening work period, and reducing cost. It is to stabilize the quality.

    The above object is a method of filling a general-purpose building panel with cellulose fiber according to claim 1, wherein one end of the general-purpose building panel is closed with an air bleeding sheet, and the other end of the general-purpose building panel is filled with cellulose fiber. A suction duct having a blow-in opening at the tip, and an intake nozzle in which the suction port at the tip is covered with a ventilation material so as to suck only the air inside the panel and not suck the cellulose fiber, The special blower is operated, and the suction mechanism is operated while blowing the cellulose fiber from the blowing port into the panel through the blowing duct, and the air inside the panel is sucked from the inlet through the suction nozzle. Cellulose fiber is filled in the general-purpose building panel, which is characterized by moving the air inlet from one end of the general-purpose building panel to the other end. It is achieved by law.

    In a preferred embodiment of the present invention, as described in claim 2, the rear end of the blowing duct and the intake nozzle is fitted into a circular hole of the filling port guide plate, and the blowing duct and the intake nozzle are connected to the panel. It is characterized by moving from one end to the other end.

    In the method according to the present application, dry blowing at a uniform density is possible by using cellulose fibers mixed with hemp. As a result, the heat insulation can be effectively improved.

    In the method according to the present application, the filling can be performed without causing a gap in the contact with the other member by performing the blowing filling and the air suction simultaneously in parallel. As a result, it is possible to improve heat insulation and provide a comfortable and healthy living space. In addition, energy consumption used in summer and winter can be reduced, and utility costs can be reduced.

    Furthermore, in the method according to the present application, it is not necessary to perform complicated on-site work such as void processing and joint processing when the panel is insulated. Therefore, mass production at the factory, shortening of the construction period, and cost reduction can be achieved.

    Hereinafter, a method for filling a general-purpose panel with cellulose fibers according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a schematic view showing a process of filling a general-purpose building panel with cellulose fiber in the present embodiment.

Basic Configuration of Panel The panel 1 according to the present invention is a general-purpose building panel used in a structure of each part such as a wall, floor, or ceiling in construction. The dimensions of the panel 1 are preferably in the range of 2700 mm to 3000 mm × 440 mm to 1000 mm depending on the structure of each part such as a building wall, floor, or ceiling from the viewpoint of compatibility and versatility. The material may be any of wooden, plastic and metal.

On both long sides of the rectangular outdoor panel member 8, the long sides of the two rectangular parallelepiped pillars 4 are placed so that the end portions are aligned with each other. Place and fix the long side so that the ends are aligned.
An air vent sheet is installed in the hollow part opened in the short side of the indoor side panel material 7 and the outdoor side panel material 8, and it affixes and fixes.
Here, the “air bleeding sheet” is a sheet-like breathable material that allows air staying inside the panel 1 to pass outside.
The blowing duct 2 and the intake nozzle 3 are inserted into the opening at one end of the other short side. This point will be described later.

A cotton-like cellulose fiber is used for the wood-based fiber heat insulating material to be filled in the cellulose fiber building general-purpose panel 1.
Cellulose fiber is a recycled (recycled) ecological material obtained by pulverizing old newspapers into a cotton-like shape, and has a wet respiration function unique to wood fibers. Moreover, it has excellent moisture absorption and desorption properties, and has characteristics that are resistant to deterioration and deterioration of heat insulation due to condensation.
However, since the material itself is not elastic, it has been considered impossible to perform dry blowing. In addition, the subsidence phenomenon due to its own weight, which occurs after filling the structure of each part such as a wall, floor, or ceiling, has been regarded as a problem.
In the present application, in view of the conventional problems, highly elastic cellulose fibers mixed with hemp fibers are used. According to the cellulose fiber which concerns on this application, the uniform dry-type blowing construction with a density of 60-65Kg / m < ³ > is possible. Moreover, the settlement phenomenon can be suppressed.

The blowing duct 2 is a duct that fills the inside of the panel 1 with cellulose fibers.
The blowing duct 2 has a hollow cylindrical shape, and the tip of one end inserted into the hollow portion of the panel constitutes a blowing port 2a that opens. The other tip is fitted through one end of the blowing hose 9 through the circular hole of the filling port guide plate 6. The other end of the blowing hose is fitted into a blowing port (not shown) of the special blower 10.
In the present invention, it is preferable to use a plurality of blowing ducts arranged in parallel from the viewpoint of improving work efficiency. Moreover, although the number of blowing ducts is not limited, it is more preferable to use two blowing ducts from the viewpoint of work efficiency.

The intake nozzle 3 is a hollow cylindrical duct that sucks air in the panel 1. The tip of one end inserted into the hollow portion of the panel constitutes the air inlet 3a, and the other tip is inserted through the circular hole of the filling port guide plate 6 and connected to a suction mechanism (not shown). An air vent sheet is attached to the tip of the air inlet 3a so that only air is sucked and cellulose fibers are not sucked.
In the present invention, the insertion position of the intake nozzle 3 is not particularly limited, but in order to ensure filling with uniform density, the intake nozzle 3 is arranged in parallel between the two blowing ducts 2, It is preferable to make 2a and the inlet 3a cooperate.
Further, from the viewpoint of improving work efficiency, it is preferable that one end of the blowing duct 2 and the intake nozzle 3 is fitted into a circular hole of the filling port guide plate 6 which is a guide means.

    The operation procedure of the method for filling the general-purpose panel with the cellulose fiber according to the present invention is as follows.

Two blowing ducts 2 and an intake nozzle 3 are inserted into an opening at one end of the short side of the panel 1.
One end of each of the blowing duct 2 and the intake nozzle 3 is fitted into a circular hole of the filling port guide plate 6. The filling port guide plate 6 is disposed at the position shown in FIG. 1, and the blowing duct 2 and the intake nozzle 3 are inserted into the hollow portion inside the panel 1. The air inlet 3a and the air inlet 2a are guided to the vicinity of the air vent sheet 5 by positioning the filling port guide plate 6.

Cellulose fiber is blown into the panel 1 for installation.
The special blower 10 is operated, and cellulose fibers having a density of 60 to 65 kg / m ³ are blown into the blow duct 2 through the blow hose 9 and filled into the hollow portion in the panel 1 from the blow port 2a.

Simultaneously with the operation of the special blower 10, a suction mechanism (not shown) is operated, and the air in the panel 1 is sucked from the intake port 3a.
By cooperating the air inlet 3a and the air inlet 2a and performing the air blowing and the air suction in parallel, the uniform density filling can be surely performed without causing a gap in the engagement with other members.

The blowing duct 2 and the intake nozzle 3 are inserted into a circular hole (not shown), and the blowing duct 2 and the intake nozzle 3 are gradually pulled out from the hollow portion in the panel.
The air inlet 3a and the air inlet 2a gradually move rearward from the vicinity of the air vent sheet 5 while simultaneously performing the air injection work and the air suction.

FIG. 2 is a perspective view showing a state in which the blowing duct and the intake nozzle are completely pulled out from the panel in the present embodiment.
While the blowing duct 2 and the intake nozzle 3 are gradually pulled out and moved from the hollow portion in the panel, the entire hollow portion in the panel 1 is blown and filled. When the filling up to the vicinity of the inlet is completed, the blowing duct 2 and the intake nozzle 3 are completely pulled out from the panel 1, and an air bleeding sheet is attached to the inlet opening.

According to the method according to the present application, by using cellulose fibers mixed with hemp, blow filling and air suction can be performed simultaneously in parallel, and filling can be performed without generating a gap in contact with other members. Therefore, it is possible to improve heat insulation, provide a comfortable and healthy living space, reduce energy consumption used in summer and winter, and reduce utility costs.
Moreover, according to the method according to the present application, since it is not necessary to perform complicated field work such as void processing and contact processing, it is possible to achieve mass production in a factory, shortening the work period, and reducing cost.

In a present Example, it is the schematic which shows the process of filling a cellulose fiber in a building general purpose panel. In a present Example, it is a perspective view which shows the state which pulled out the blowing duct and the intake nozzle completely from the panel.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Panel 2 ... Blowing duct 2a ... Blowing port 3 ... Intake nozzle 3a ...... Intake port 4 ... Spacer 5 ... Air vent sheet 6 ... Filling port guide plate 7 ... Indoor side panel 8 ... Outdoor side panel 9 ... Blow hose 10 ... Special blower

Claims (2)

A method for filling cellulose fiber into a general-purpose building panel,
Plug one end of a general-purpose building panel with an air vent sheet,
From the other end of the architectural general panel to the inside,
A blowing duct filled with cellulose fiber and having a blowing port at the tip;
An air intake nozzle in which the air intake at the tip is covered with a ventilation material so as to suck only the air inside the panel and not suck cellulose fibers,
Insert
While operating the special blower and blowing the cellulose fiber from the blowing port into the panel through the blowing duct,
Actuate the suction mechanism to suck the air inside the panel from the intake port through the intake nozzle,
A method for filling cellulose fiber into a general-purpose building panel, wherein the blow-in port and the intake port are moved from one end to the other end of the general-purpose building panel.     The rear end of the blowing duct and the intake nozzle is fitted into a circular hole of the filling port guide plate, and the blowing duct and the intake nozzle are moved from one end of the panel to the other end. The method described.

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