KR100434593B1 - Manufacturing device of panel for construction - Google Patents

Abstract

In the manufacturing system of prefabricated panel for building according to the present invention, a plurality of rectangular insulation materials are continuously attached and arranged between two sheets of metal plates to produce a prefabricated panel in which grains of the rectangular insulation materials are arranged vertically with a metal plate. The heat insulating material conveyer which is installed at the exit side of the heat insulating material injector which conveys the multiple flat heat insulating material which laminated | stacked the several flat-shaped heat insulating materials which were laminated | stacked, and transfers the heat insulating materials in order one by one at the top of the said heat insulating material elevator. The first conveyor is installed on the upper part of the heat insulating material elevator, the first conveyor for transferring the heat insulating material in the longitudinal direction is installed on the outlet side of the heat insulating material conveyer, the cutter to cut a plurality of the heat insulating material in the longitudinal direction to vary the number of rectangular heat insulating material Installed in the central portion of the first conveyor and a plurality of square A lateral feeder for transferring the heat insulating material laterally is installed on the outlet side of the first conveyor, and a second conveyor for feeding a plurality of rectangular insulation materials in the lateral direction is installed on the outlet side of the lateral feeder. A heat insulator rotator that rotates the heat insulator 90 degrees one by one in the lateral direction is installed at the outlet side of the lateral feeder, and is disposed at the inlet side of the third conveyor that transfers a plurality of rectangular insulators in the longitudinal direction. A plurality of guide plates for guiding each of the plurality of rectangular insulating materials discharged in the direction is installed on the upper side of the center portion of the third conveyor to guide the rectangular insulating materials in close contact with each other, the plurality of rectangular insulating materials are in close contact with each other at the outlet of the third conveyor, The glue feeder for supplying the adhesive is used to A plurality of pressing rollers, which are installed at a position in contact with the square insulation material and presses a plurality of square insulation materials transferred from the outlet side of the third conveyor, between the distal ends of the two wound metal plates, transfer the outlet of the third conveyor and the metal plate. It is arranged at the outlet of the roller, the panel cutter for cutting the panel containing the rectangular insulation material between the two ends of the winding metal plate is composed of being installed on the outlet side of the pressing roller, wherein the thermal insulator rotor is circulated by power The chain is installed to be circulated at the inlet side of the third conveyor for transporting a plurality of heat insulators in the longitudinal direction, and a plurality of dividers are formed on the outside of the chain to separate each heat insulator and rotate it 90 degrees in the transverse direction. They are installed side by side, and multiple chains with multiple dividers are installed side by side. Done that.

Therefore, since the present invention continuously manufactures a prefabricated panel in which a plurality of divided rectangular insulation materials are respectively rotated by 90 degrees and continuously embedded between the metal plate and the metal plate, the prefabricated panel can be manufactured in a state in which the grain insulation material is perpendicular to the metal plate. It is possible to easily mass-produce prefabricated panels having excellent bending strength.

Description

MANUFACTURING DEVICE OF PANEL FOR CONSTRUCTION}

The present invention relates to a manufacturing apparatus for manufacturing prefabricated panels for building and civil engineering, and more particularly, a prefabricated panel having excellent bending strength by being continuously embedded between a metal plate and a metal plate by rotating a plurality of rectangular insulation materials each 90 degrees. The present invention relates to a manufacturing apparatus for a prefabricated panel for easy mass production.

In general, the walls, ceilings and floors of prefabricated buildings such as prefabricated factories, prefabricated houses, prefabricated warehouses, and civil engineering temporary structures interconnect the plurality of prefabricated panels of planar shape.

In general, the prefabricated panel has a structure in which a heat insulating material is attached between two sheets of metal, and a heat insulating material of the prefabricated panel is made of styrofoam sheet, but since the styrofoam is weak to heat, it is a heat insulating material of a prefabricated panel used in a prefabricated building prepared for a fire hazard. Pressed glass fibers are used.

Thus, in order to manufacture a prefabricated panel, a plurality of plate-shaped heat insulating material is cut into a plurality of longitudinal insulation materials in the longitudinal direction, and then a plurality of rectangular insulation materials are disposed between the two metal plates in a longitudinal direction or a width direction while being arranged in a longitudinal direction or a width direction. The metal plate is attached with an adhesive to produce a final prefabricated panel.

However, in the related art, since the grains generated when the plate-shaped insulating material is pressed and manufactured are arranged side by side with the metal plate, the panel is easily bent when the bending force acts in the longitudinal direction of the final product, the prefabricated panel.

Moreover, conventionally, there is no prefabricated panel manufactured so that the grain of the rectangular insulation can be disposed perpendicular to the metal plate, and there is no device or apparatus for manufacturing such a prefabricated panel.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to continuously manufacture a prefabricated panel while continuously embedded between a metal plate and a metal plate by rotating a plurality of divided rectangular insulation each 90 degrees. The present invention provides an apparatus for manufacturing prefabricated panels for building, which can easily mass-produce prefabricated panels having excellent bending strength.

In order to realize this, in the present invention, a plurality of rectangular insulation materials are continuously attached and arranged between two sheets of metal plates to manufacture a prefabricated panel in which grains of the rectangular insulation materials are vertically arranged with the metal plates. The heat insulating material lifter is installed at the exit side of the heat insulating material feeder which transfers a plurality of flat heat insulating materials stacked with a heat insulating material lifting device for elevating the plate-shaped heat insulating material, and insulates the heat insulating material at the top of the heat insulating material elevator one by one. A first conveyor installed at an upper portion of the first conveyer for transferring the heat insulating material in a longitudinal direction is installed at an outlet side of the heat insulating material conveyer, and a cutter for cutting the heat insulating material into a plurality of heat insulating materials in a longitudinal direction and varying the plurality of rectangular heat insulating materials in the first direction. In addition to being installed in the center of the conveyor, a plurality of square insulation materials A lateral transfer machine for transferring to the first conveyor is installed on the outlet side of the first conveyor, a second conveyor for transferring a plurality of rectangular insulation materials in the lateral direction is installed on the outlet side of the lateral transfer machine, the lateral insulation material in the transverse direction A plurality of heat insulating material rotor is rotated 90 degrees one by one is installed at the outlet side of the lateral transfer machine and arranged at the inlet side of the third conveyor for transferring a plurality of rectangular heat insulating material in the longitudinal direction, each of which guides the rectangular heat insulating material. The guide plate is installed on the upper side of the center of the third conveyor to guide the insulated square insulation to be in close contact with each other at the exit of the third conveyor is in close contact with each other, the adhesive feeder for supplying the adhesive by a plurality of metal plate transfer roller The third conveyor is installed at a position in contact with the square heat insulating material at the distal end of the two wound metal plate to be transported. A plurality of pressing rollers for crimping a plurality of square heat insulating materials conveyed from the outlet side between the tip ends of the two wound metal plates are disposed at the outlet of the third conveyor and the outlet of the metal plate conveying roller, and the squares between the tip ends of the two wound metal plates. The panel cutting machine for cutting the panel containing the heat insulating material is made to be installed on the outlet side of the pressing roller, the heat insulating material rotor is a plurality of chains circulating by the power of the inlet of the third conveyor conveying a plurality of heat insulating material in the longitudinal direction A plurality of dividers are installed to be circulated from the side, each of which separates each of the heat insulating materials and rotates them 90 degrees in the lateral direction, standing side by side outside the chain, and a plurality of chains having a plurality of dividers installed Provided is an apparatus for manufacturing a prefabricated panel for building, which is spaced apart from each other.

1 is a plan view showing a manufacturing apparatus of a prefabricated panel for building according to the present invention,

Figure 2 is a schematic process diagram showing an apparatus for manufacturing a prefabricated panel for building according to the present invention,

Figure 3 is a schematic side view illustrating a heat insulating material dispenser and a lift applied to the manufacturing apparatus of the prefabricated panel for building according to the present invention,

Figure 4 is a schematic side view showing a heat insulating material lift and a heat insulating material transfer device is applied to the manufacturing device for a prefabricated panel for building according to the present invention,

Figure 5 is a perspective view showing a heat insulator rotator applied to the manufacturing apparatus of the assembled panel for building according to the present invention,

Figure 6 is a schematic cross-sectional view showing a metal plate attaching machine applied to the manufacturing apparatus of a prefabricated panel for building according to the present invention,

7 is a cross-sectional view of a prefabricated panel manufactured by the apparatus for manufacturing a prefabricated panel for building according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: metal plate 1a: wound metal plate

2: square insulation 2a: insulation

10 panel 11 insulation inserter

12: Insulation material lift 13: Insulation material transport

14,17,19: 1st, 2nd, 3rd conveyor 15: Cutter

16: lateral feeder 18: insulator rotating

20: guide plate 22: panel cutter

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 and 2 are views showing a manufacturing apparatus of a prefabricated panel for building according to the present invention, the manufacturing apparatus of the present invention, as shown in Figure 7 a plurality of rectangular insulation material (2) between the two sheets of metal plate (1) In addition to the attachment arrangement, the grain of the heat insulating material (2) is to be arranged vertically with the metal plate (1).

That is, according to the present invention, the apparatus for manufacturing prefabricated panels includes a cutting machine (2a) having a plate shape insulator (11a) → a heat insulator (11) → a heat insulator (12) → a heat insulator (13) → a first conveyor (14). 15) is variable into a plurality of square heat insulating material (2), the square heat insulating material (2) is a lateral feeder (16) → second conveyor (17) → heat insulating material rotor (18) → third conveyor (19) In addition to the passage through the plurality of guide plates 20 are discharged from the outlet of the third conveyor 19, the metal plate bonding device 21 disposed on the outlet side of the third conveyor 19 is continuously released A plurality of rectangular insulation materials 2 are bonded between two sheets of the wound metal plate 1a (shown in FIG. 6), and the wound metal plate 1a continuously supplied from the outlet side of the final bonding device 21. The square insulator 2 is cut into a predetermined length by the panel cutter 22. It is done.

In this case, the heat insulator 11 is provided with a plurality of flat heat insulating material (2a) laminated with a belt circulating by the power as shown in Figure 3 into the heat insulating material elevator 12, the heat insulating material elevator 12 3 and 4 is a structure in which the elevating support 12c is installed in a plurality of chains 12b moving in the longitudinal direction by the power of the motor 12a, and the outlet side of the insulator 11 is provided. The plurality of heat insulating materials 2a installed and stacked on the floor are lifted.

As shown in FIG. 4, the heat insulating material conveyer 13 is spaced apart from each other at positions in which two heat insulating material conveying plates 13c are opposed to each other on the outside of the plurality of chains 13b circulated by the power of the motor 13a. As a structure, the uppermost heat insulating material is introduced into the first conveyor 14 one by one in the stacked heat insulating material 2a which is installed on the upper part of the heat insulating material elevator 12 and rises from the heat insulating material elevator 12.

The first conveyor 14 and the third conveyor 19 is a structure in which a plurality of interlocking rollers are spaced apart from each other, the first conveyor 14 is a heat transfer material conveyer for transferring the heat insulating material (2a) in the longitudinal direction It is installed at the outlet side of (13), the third conveyor 19 is to arrange the heat insulating material rotor 18 to the inlet side in order to transfer the square insulation 2 in the longitudinal direction.

The cutter 15 is installed at the central portion of the first conveyor 14 is cut to a plurality of the heat insulating material (2a) in the longitudinal direction to be changed into a plurality of square heat insulating material (2), a plurality of rotating by power The blade 15a is a structure spaced apart from each other at the same interval as the width of the square heat insulating material (2).

The lateral transfer unit 16 is installed on the outlet side of the first conveyor 14 so as to transfer a plurality of square insulation (2) in the lateral direction, although not shown separately like the heat transfer material (13) It is a structure in which two heat insulating material transfer plates 16b are provided on the outside of the plurality of chains 16a that rotate with power.

The second conveyor 17 is installed on the outlet side of the lateral transfer unit 16 as a structure that is spaced apart from each other in a plurality of chains circulating with power so as to transfer a plurality of square insulation material in the lateral direction.

As illustrated in FIG. 5, the heat insulator rotator circulates at the inlet side of the third conveyor 19 in which a plurality of chains 18a circulating with power transfer the plurality of square insulations 2 in the longitudinal direction. A plurality of dividers 18b, which are installed as possible and separate each square heat insulating material 2 and rotate them 90 degrees in the transverse direction, are installed outside the chain 18a so that they are installed side by side, and a plurality of splits are provided. A plurality of chains (18a) having a plate (18b) is installed side by side spaced apart from each other, the side of the lateral conveyor 17 is installed on the outlet side and the inlet side of the third conveyor (19) Rotate (2) 90 degrees one by one in the lateral direction.

The guide plate 20 guides each of the plurality of square insulations 2 discharged from the insulation rotor 18 so that the third conveyor 19 closely adheres to each other at the outlet.

As shown in FIG. 6, the final bonding apparatus 21 is supplied with an adhesive by an adhesive supplier 24 while the front end portions of the two winding metal plates 1a are transferred by the plurality of metal plate transfer rollers 23. A plurality of square heat insulating materials 2 are compressed by a plurality of pressing rollers 25 between two sheets of the front end portions of the wound metal plate 1a, and the panel cutter 22 is located on the outlet side of the final bonding apparatus 21. The front end of the continuous panel 10, ie, the plurality of coiled metal plates 1a, each of which includes a plurality of rectangular insulation materials 2, which are installed by the pressing roller 25, is cut by the panel cutter 24.

Furthermore, in the present invention, a surface separation cutter 26 for separating the surface of the rectangular insulation material 2 located in the recessed portion of the metal plate 1 of the panel 10, which is the final product, is provided on the outlet side of the guide plate 20. It includes the installation on the third conveyor 19 located bar, a plurality of blades (26a) formed in the same width as the width of the recessed portion is spaced apart from each other to rotate by power.

Of course, although not shown in detail, as shown in Figure 1, the upper and both sides of the first, second, third conveyors (14, 17, 19) to ensure that the heat insulating material (2a) or the square heat insulating material (2) to form a certain width Obviously, the guide bar 27 is installed, and the upper part of the second conveyor 17 is a fact that the insulation insulation preventing member 28 is installed to prevent the square insulation 2a from escaping upward.

The manufacturing apparatus of the prefabricated panel for building according to the present invention thus formed acts as follows.

After stacking a plurality of heat insulating materials (2a) to the heat insulating material input machine 11 using a manual or forklift, the heat insulating material input machine (11) is operated to enter the heat insulating material lift (12).

The heat insulator 2a injected into the heat insulator lift 12 is gradually raised by the heat insulator lift 12, and the heat insulator 2a located at the top of the heat insulator 2a laminated on the heat insulator 12 is insulated from the heat insulator. 13) to the first conveyor (14).

The heat insulating material 2a conveyed by the first conveyor 14 is cut by the cutting machine 15 and is transferred to a plurality of square heat insulating materials 2 while being fed into the lateral feeder 16 and fed to the lateral feeder 16. Into the second conveyor 17 by (16).

The square heat insulating material 2 introduced into the second conveyor 17 is transferred to the plurality of partition plates 18b arranged side by side in a stepwise manner to the square heat insulating material 2 in a lateral direction without changing the posture.

In this state, when the divider plate 18b is erected while being transported by the chain 18a, the square heat insulating material 2 supported by the divider plate 18b rotates by 90 degrees, and is rotated by the chain 18a in the rotated state. The parallel heat transfer is performed, and a plurality of rectangular insulation materials 2 transported by the chain 18a and the divider plate 18b are transported in the longitudinal direction by the third conveyor 19.

Of course, if a plurality of small grooves are formed in the metal plate 1 of the panel 10, which is the final product, it is possible to operate the surface separation cutter 26.

In any case, the plurality of square heat insulating materials 2 discharged from the third conveyor 19 are introduced between the tip portions of the two winding metal plates 1a conveyed by the metal sheet conveying roller 23 before being fed into the pressing roller 25. It is fed into the pressing roller 25, and is thus attached between the two winding metal plate (1a).

At this time, the two winding metal sheets 1a are applied to the pressing roller 25 while the adhesive is applied by the adhesive supplier 24 to form a continuous panel integrally formed with a plurality of rectangular insulation materials 2.

As described above, the continuous panel formed by the pressing roller 25 is cut by the panel cutter 22 and the final panel 10 is manufactured. As described above, the panel 10 is continuously made. Can be easily produced continuously.

As described above, the apparatus for manufacturing a prefabricated panel for building according to the present invention rotates each of the plurality of divided rectangular insulating materials by 90 degrees so as to continuously manufacture the prefabricated panel embedded between the metal plate and the metal plate. Since the prefabricated panel can be manufactured in a state perpendicular to the metal plate, there is an advantage that the prefabricated panel having excellent bending strength can be easily mass-produced.

Claims (2)

In manufacturing a prefabricated panel in which a plurality of rectangular insulation materials are continuously attached and arranged between two sheets of metal plates, the grains of the rectangular insulation materials are arranged perpendicularly to the metal plates. Insulation material feeder for transporting a plurality of laminated plate-shaped insulation, A heat insulating material elevator installed at an outlet side of the heat insulating material injector to elevate a plurality of flat heat insulating materials stacked by power of a motor; Is installed on top of the heat insulating material lift is a heat insulating material transporter for transferring the heat insulating material at the top of the heat insulating material lift one by one, A first conveyor installed at an outlet side of the heat insulator transporter to transfer the heat insulator in the longitudinal direction, A cutter which is installed at the center of the first conveyor and cuts the heat insulating material into a plurality in the longitudinal direction, and varies into a plurality of rectangular heat insulating materials, A lateral feeder installed at an outlet side of the first conveyor to transfer a plurality of rectangular insulation materials laterally; Is installed on the outlet side of the lateral transfer machine, the insulating material rotator for rotating the square insulation material by 90 degrees one by one in the transverse direction, A third conveyor for transferring a plurality of rectangular insulations rotated in the insulation rotator in a longitudinal direction, A plurality of guide plates installed on an upper side of the center of the third conveyor to guide the plurality of square insulations to be in close contact with each other; Glue feeder which is installed at the front end of the two winding metal plates conveyed by a plurality of metal plate feed rollers in contact with the square insulation material to supply the adhesive, A plurality of squeezing rollers arranged at the outlet of the third conveyor and the outlet of the metal plate conveying roller to squeeze the plurality of rectangular insulation materials conveyed from the outlet side of the third conveyor between the ends of the two wound metal sheets; It is installed on the outlet side of the pressing roller is made of a panel cutter for cutting the panel embedded with the rectangular insulation between the two ends of the winding metal plate, The heat insulator rotator is circulated in a power supply side of the third conveyor for transporting a plurality of heat insulators in the longitudinal direction, the plurality of chains circulating by separating the respective heat insulators and rotates 90 degrees in the transverse direction, respectively The partition plate of the building is installed on the outside of the chain side by side, a plurality of chains provided with a plurality of partition plates are installed side by side spaced side by side mutually installed manufacturing apparatus of prefabricated panel. The method of claim 1, And a surface separation cutter installed on a third conveyor positioned at an exit side of the guide plate to separate a surface of a rectangular insulation material positioned at a portion recessed from the metal plate of the panel.