KR20170080185A - Manufacturing device for insulation panel in window and doors and making method using that - Google Patents

Abstract

The present invention relates to a heat insulation panel comprising: an extrusion section for heating and molding a heat insulating material to extrude a heat insulating panel having an inner space provided with an opening; A cooling unit through which the cooling water is cooled so that the heat insulating panel supplied from the extruding unit passes and is cooled; A transfer unit for supporting and conveying the inner space of the heat insulating panel supplied through the cooling unit and fusing the sheet member to the outer wall of the heat insulating panel; And a drawer for supporting the inner space of the heat insulating panel supplied through the transferring part and providing a tensile force.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat insulating panel manufacturing apparatus for a window,

The present invention relates to an apparatus for manufacturing a panel for a window and a method of manufacturing an insulating panel using the same. More particularly, the present invention relates to a method of manufacturing an insulating panel for a window, A heat insulating panel manufacturing apparatus for a window which is manufactured continuously and thermally fusing a sheet paper to upper and both sides of a continuously produced heat insulating panel to prevent the heat insulating panel from being deformed by a drawing process, And a method of manufacturing an insulating panel using the same.

Generally, a composite window used in a high-rise building is composed of an outer panel installed on the outer side of a duplex window structure composed of two or more windshields and an outer panel connected to the outer panel through an A- And an inner panel for inserting the insulated panel into the interior of the multi-layered window structure by interference fit so that the external surface is enclosed to prevent heat exchange with the panel.

The composite window is formed by extruding an outer frame of the outer panel and an inner frame of the inner panel into a non-ferrous metal material such as aluminum. The outer frame is elastically bonded with a lid of a non-ferrous metal material, (A-Zon) insulation material having low thermal conductivity is filled in the opening groove of the opened heat insulating material, and when the filled azone insulating material is cured by drying, the insulating material filling groove on the bottom part of the azone insulating material is made constant The outer frame and the inner frame are spaced apart from each other and a part of the connection part of the inner frame is separated so as to be screwed to the outer frame so that the outer frame and the inner frame are spaced apart from each other, The outer frame and the inner frame are connected only by the low- Is led to tank is adapted to block the flow of heat between the outer panel and the inner panel.

Two synthetic resin "C" -shaped panels, which are extruded with polyvinyl chloride or polystyrene so that the outer surface is wrapped around the left and right sides of the inner frame of the inner panel, are correspondingly coupled The both end portions of the inner surface are engaged with the serration separation preventing projections of the inner frame so that the heat insulating panel is brought into close contact with the outer surface of the inner frame without being released to the outside.

However, in the conventional composite window described above, the connecting portion of the inner frame connected to the outer frame is integrally extruded into the inner frame for filling the azon heat insulating material, so that the inner frame, which is positioned between the outer panel and the inner panel, It is necessary to provide each of the large extrusion molding dies of the inner frame having different lengths according to the thickness of the double layer window structure with respect to the length of the connection portion. In addition, the outer and inner frames having different thicknesses It is necessary to provide an extrusion molding die for each thickness by providing a composite window, so that a large cost is required due to various types of large-sized molds, which leads to an economic burden, and the filling work of the azone insulating material in the filling groove of the inner frame Working time according to cutting operation of filling groove of insulation And it is not easy to be seen after the operation. Also, the length of the connection portion of the inner frame and the outer frame and the inner frame are required to be stored and constructed according to their respective thicknesses, which is troublesome and inconvenient. Since the heat insulating panel, which is tightly bonded to the front, both sides, and the rear corner, is extruded with polyvinyl chloride or polystyrene as a synthetic resin, the size is not constant due to the deformation due to the shrinkage phenomenon after extrusion molding, There is a problem that after the heat insulating panel is joined to the inner frame, the heat insulating panel spreads from the inner frame toward the wide left and right sides, and the appearance maintenance and heat insulating effect are remarkably deteriorated.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2012-0068351 (published on Jun. 27, 2012, entitled " Panel Joining Structure of Composite Window).

Since the heat insulating panel made up of a plurality of blocks is installed so as to surround the frame, it is difficult to construct the heat insulating panel by assembling the heat insulating panel composed of a plurality of blocks when installing the heat insulating panel, It is difficult to reduce the time and cost required for the construction of the insulating panel.

In order to solve the above-mentioned problem, a heat insulating panel having a groove portion having one side opened to cover a frame outer wall forming a window has been developed. However, since the heat insulating panel according to the related art is mainly manufactured by a drawing process or an extrusion process, When the drawing process is started when the heat insulating panel is not formed uniformly, the openings provided in the heat insulating panel may be deformed to deteriorate the quality of the heat insulating panel.

Therefore, there is a need for improvement.

According to the present invention, a heat-insulating panel having a groove shape in which a cross-sectional shape is bent so that a space portion is formed therein is continuously formed by a drawing process, and a sheet is successively fused to the upper and both sides of the heat- And to prevent the heat insulating panel from being deformed by the drawing process and to allow the sheet to be welded at an accurate position, and an object of the present invention is to provide a method for manufacturing a heat insulating panel using the same.

The present invention relates to a heat insulation panel comprising: an extrusion section for heating and molding a heat insulating material to extrude a heat insulating panel having an inner space provided with an opening; A cooling unit through which the cooling water is cooled so that the heat insulating panel supplied from the extruding unit passes and is cooled; A transfer unit for supporting and conveying the inner space of the heat insulating panel supplied through the cooling unit and fusing the sheet member to the outer wall of the heat insulating panel; And a drawer for supporting the inner space of the heat insulating panel supplied through the transferring part and providing a tensile force.

The cooling unit of the present invention may further include: a water tank having an inlet hole through which the heat insulating panel is introduced and an outlet hole through which the heat insulating panel is discharged; And a fixing table installed on the water tub to prevent the heat insulating panel from passing therethrough.

The transfer unit of the present invention may further include a base inserted into the inner space of the heat insulating panel and having a plurality of column members continuously installed to support the heat insulating panel; A support conveyor rotatably installed on the base and inserted into an inner space of the heat insulating panel to support and move the heat insulating panel; A supply unit for supplying the sheet member adjacent to the heat insulating panel moved by the support conveying unit; A heating unit for heating the sheet member adjacent to the heat insulating panel by the supply unit; And a pressing portion for pressing the sheet member against the outer wall of the heat insulating panel to fuse the heated sheet member to the heat insulating panel.

The transfer portion of the present invention may further include an elastic support portion for pressing the heat insulating panel toward the support transfer portion for pressing the heat insulating panel to prevent the heat insulating panel from being detached from the support transfer portion, Connecting columns; A connecting rod inclined to the connecting post; A pipe member slidably installed on the linkage; A guide roller installed on the pipe member and pressing the heat insulating panel toward the support conveying portion; And an elastic member interposed between the pipe member and the linkage.

The support conveying portion of the present invention further includes a plurality of conveying rollers rotatably installed between the pillar members and inserted into the inner space of the heat insulating panel; And a driving unit for supplying power to the transporting roller.

Further, the supply unit of the present invention may include: a supply roller installed at one side of the heating unit and wound with the sheet paper; And a collecting roller which is provided on the other side of the heating section and on which the sheet paper is fed while being unwound from the feeding roller.

The heating unit of the present invention further includes: a case disposed between the feed roller and the collection roller, the opening being opposed to the column member and having a space formed inside the opening; And a heating member installed inside the case and supplying heat energy.

Further, the pressing portion of the present invention may include: a pressing roller which is rotatably installed in the opening portion and presses the sheet sheet provided from the feeding roller toward the column member to adhere to the heat insulating panel; A motor for providing power to the pressure roller; And a pressurizing cylinder for moving the pressure roller toward the column member.

The drawing unit of the present invention further includes a plurality of lower rollers inserted into an inner space of the heat insulating panel supplied from the transfer unit and moving the heat insulating panel; And an upper roller which is arranged to face the lower roller and moves the upper surface of the heat insulating panel while pressing the upper roller.

(A) an extruding step of extruding a heat insulating panel which is bent so as to form an inner space having an opening by heating and molding the heat insulating material; (b) a cooling step provided in the extruding step and cooling the heat insulating panel through a cooling part in which cooling water is drained; And (c) a supporting unit, which is inserted into the inner space of the heat insulating panel provided in the cooling step, is driven to move the heat insulating panel while supporting the inner wall, and fuses the sheet member separated from the sheet, And a transfer step of heating the sheet paper while pressing the sheet paper to the outer wall of the heat insulating panel by the operation of the pressing portion.

The heat insulating panel provided through the transferring step of the present invention may include a lower roller inserted in the inner space of the heat insulating panel to support and move the inner wall, and a lower roller disposed opposite to the lower roller to support the outer wall of the heat insulating panel And a pulling force is provided by the operation of the drawing portion including the upper roller.

The apparatus for manufacturing a heat insulating panel for a window according to the present invention and the method for manufacturing an insulating panel using the same according to the present invention are characterized in that the transfer part is provided with a support conveying part for supporting the inner space of the heat insulating panel and fusing the sheet to both sides and the upper surface, It is possible to prevent deformation or breakage of the heat insulating panel which occurs during the drawing process, and it is possible to reduce the defect rate.

In addition, the apparatus for manufacturing a thermal insulation panel for a window according to the present invention and the method for manufacturing a thermal insulation panel using the same are provided with a heating unit for fusing sheet paper on both sides and upper surfaces of a heat- It is possible to supply the sheet paper by fusing it, thereby saving the time and cost required for manufacturing the heat-insulating panel.

The apparatus for manufacturing a thermal insulation panel for a window according to the present invention and the method for manufacturing an insulation panel using the same according to the present invention are provided with an extraction part for supporting the inner space of the thermal insulation panel and for pulling the thermal insulation panel, It is possible to continuously manufacture the heat insulating panel having the space portion while stably supporting the heat insulating panel, and it is possible to reduce the time and cost required for manufacturing the heat insulating panel while reducing the defective rate of the heat insulating panel manufacturing.

1 is a block diagram showing an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention.
2 is a configuration diagram showing a transferring unit of an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention.
3 is an operational state view showing a heating unit of an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention.
4 is a cross-sectional view illustrating an elastic supporting portion of an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for manufacturing a thermal insulating panel for a window according to the present invention and a method for manufacturing a thermal insulating panel using the same will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a structural view illustrating an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention, FIG. 2 is a view showing a transferring unit of an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention, 4 is a cross-sectional view illustrating an elastic supporting portion of an apparatus for manufacturing a thermal insulating panel for a window according to an embodiment of the present invention. FIG. 3 is an exploded perspective view of a heat insulating panel manufacturing apparatus for a window according to an embodiment of the present invention. to be.

1 to 4, an apparatus for manufacturing a thermal insulation panel for a window according to an embodiment of the present invention includes: an extrusion panel 100 having an inner space provided with an opening by heating and molding a heat insulation material; A cooling unit 30 for allowing cooling water to be cooled so as to pass through the heat insulating panel 100 supplied from the extruding unit 10 and a heat insulating panel 100 supplied through the cooling unit 30, A transferring portion 50 for supporting and conveying the inner space of the heat insulating panel 100 and fusing the sheet member 108a to the outer wall of the heat insulating panel 100 and an inner space of the heat insulating panel 100 supplied through the transferring portion 50 And a pulling portion 90 for supporting and tensioning.

When the heat insulating panel 100 is supplied from the extruding section 10 for heating and forming and discharging the raw material at a minimum, it flows into the water tank 32 of the cooling section 30 and is cooled while coming into contact with the cooling water, The sheet member 108a having various shapes is transferred to the outer wall of the heat insulating panel 100 passing through the transferring portion 50 and the sheet member 108a passing through the drawing portion 90 passes through the heat insulating panel 100 100). ≪ / RTI >

Therefore, it is possible to mass-produce the heat insulating panel 100, and the heat insulating panel 100 can be transferred while supporting the inner wall of the heat insulating panel 100 having the opening formed at one side thereof and having the inner space, It is possible to prevent defects that may occur due to the sheet member 108a not being transferred to the correct position.

The cooling unit 30 includes a water tank 32 having an inlet hole portion 32a through which the heat insulating panel 100 flows and an outlet hole portion 32b through which the heat insulating panel 100 is discharged; And a fixing table 34 mounted on the water tub 32 to prevent the water from being separated.

The inlet hole portion 32a formed at one side of the water tub 32 is formed at the same or similar height as the outlet of the extruding portion 10 and is connected to the heat insulating panel 100 Is discharged through the outlet hole portion 32b to the outside of the water tub 32 through the fixing block 34 formed in a rectangular ring shape and thus the high temperature heat insulating panel 100 discharged from the extruding portion 10 is cooled.

The transfer section 50 includes a base 52 inserted into an inner space of the heat insulating panel 100 and provided with a plurality of column members 52a continuously to support the heat insulating panel 100, A support conveying section 54 that is installed in the heat insulating panel 100 and is inserted into the inner space of the heat insulating panel 100 to support and move the heat insulating panel 100, A heating portion 78 for heating the sheet member 108a adjacent to the heat insulating panel 100 by the supplying portion 56 and a heating portion 78 for heating the sheet member 108a to be adiabatic And a pressing portion 79 for pressing the sheet member 108a heated by the outer wall of the panel 100 and fusing the sheet member 108a to the heat insulating panel 100.

The heat insulating panel 100 discharged from the water tray 32 is seated on the upper end of the conveying roller 54a and conveyed from the rear portion to the front portion of the base 52. On the upper surface of the base 52, And a plurality of column members 52a are continuously installed in the space between the conveying rollers 54a to form a conveyance path through which the heat insulating panel 100 is mounted.

Since the heat insulating panel 100 manufactured by the manufacturing apparatus and the manufacturing method of this embodiment has a cross-sectional shape having a 'C' shape so that one side is opened and an inner space is formed, the conveying roller 54a and the column member 52a The inner wall of the heat insulating panel 100 is conveyed in a state of being supported.

Therefore, when the sheet member 108a is pressed to provide the tensile force to the heat insulating panel 100, it is possible to prevent the opening portion from being deformed inward, and by the pressing force applied when the sheet member 108a is transferred to the outer wall of the heat insulating panel 100, The panel 100 can be prevented from being deformed so that the sheet member 108a can be transferred to the correct position.

In this embodiment, since the conveying roller 54a and the column member 52a are inserted into the opening of the heat insulating panel 100 to support and support the inner wall of the heat insulating panel 100, the width of the heat insulating panel 100 If the width of the heat insulating panel 100 is not longer than the diameter of the conveying roller 54a, the conveying roller 54a can be inserted into the heat insulating panel 100 to be stably supported and conveyed.

The support conveying section 54 includes a plurality of conveying rollers 54a which are rotatably installed between the column members 52a and are inserted into the inner space of the heat insulating panel 100, (54b).

The plurality of conveying rollers 54a are connected to the rotating shaft by a chain and the plurality of conveying rollers 54a are rotated in the same direction by a driving portion 54b installed at one side of the base 52, The upper portion is inserted into the inner space of the heat insulating panel 100 to support the inner wall of the heat insulating panel 100 and perform the transportation.

The supply section 56 includes a supply roller 56a which is provided at one side of the heating section 78 and on which the sheet paper 108 is wound and a sheet supply part 56b which is provided on the other side of the heating section 78 and is unwound from the supply roller 56a, And a collecting roller 56b on which the collecting roller 108 is wound.

The feeding roller 56a and the collecting roller 56b are disposed on one side and the other side of the heating part 78 and the sheet paper 108 supplied while being unwound from the feeding roller 56a passes through the heating part 78, ).

Since the sheet paper 108 includes the sheet member 108a to be transferred to the heat insulating panel 100 and the protective sheet 108b to be adhered to the adhering surface of the sheet member 108a, The sheet member 108a is transferred to the outer wall of the heat insulating panel 100 while being separated from the protective sheet 108b and the protective sheet 108b is removed from the protective sheet 108b, Is separated while being wound around the collection roller 56b.

The heating section 78 includes a case 78a disposed to face the column member 52a or the conveying roller 54a and having a space formed inside the opening and disposed between the feeding roller 56a and the collecting roller 56b, And a heat generating member 78b provided inside the case 78a for supplying heat energy.

The case 78a is formed in such a manner that one side is opened and a concave curved space is formed therein and the case 78a is spaced apart from the upper side of the base 52 by a plurality of supports extending upward from the base 52 And a rod that is projected and retracted from the pressurizing cylinder 79f is connected to a surface of the case 78a opposed to the opening.

A plurality of heating members 78b are continuously installed on the inner wall of the case 78a so that when the sheet paper 108 passes through the opening of the case 78a, the heating member 78b And is transferred to the outer wall of the heat insulating member while being heated by the heat energy transmitted from the heat insulating member.

The pressing portion 79 includes a pressing roller 79a which is rotatably provided in the opening portion and which presses the sheet paper 108 provided from the feeding roller 56a toward the column member 52a to adhere to the heat insulating panel 100, A motor for supplying power to the pressure roller 79a and a pressurizing cylinder 79f for moving the pressure roller 79a toward the column member 52a.

The pressing roller 79a is rotatably installed in the opening of the case 78a and the power of the motor provided outside the case 78a is transmitted to the pressing roller 79a by the power transmitting portion composed of a plurality of gears and pulleys When the rod protrudes from the pressurizing cylinder 79f, the pressure roller 79a is moved toward the heat insulating panel 100, so that the pressure roller 79a presses the sheet paper 108 against the outer wall of the heat insulating panel 100.

The pressing roller 79a is provided with a separate roller member for effectively performing heat transfer and the diameter of the pressing roller 79a is enlarged by the roller member and the roller member conveys heat energy supplied from the heating member 78b to the sheet paper 108, So that it is possible to transmit the high-conductivity material.

The transfer section 50 further includes an elastic support section 80 for pressing the heat insulating panel 100 toward the support transfer section 54 so as to prevent the heat insulating panel 100 from being separated from the support transfer section 54, The heat insulating panel 100 is supported on the upper portion of the roller 54a and the upper surface thereof is pressed toward the conveying roller 54a by the elastic supporting portion 80 so that the heat insulating panel 100 is separated from the conveying roller 54a .

The resilient supporting portion 80 includes a connecting pillar 82 provided on the base 52, a connecting rod 84 sloping on the connecting pillar 82 and a pipe member 87 slidably mounted on the connecting rod 84 A guide roller 86 which is installed on the pipe member 87 and presses the heat insulating panel 100 to the support conveying section 54 side and an elastic member 88 which is interposed between the pipe member 87 and the connecting block 84 ).

A plurality of connecting pillars 82 are extended from the upper surface of the base 52 and a connecting rod 84 is provided at the upper end of the connecting pillar 82 to adjust the inclination angle, 87 are inserted in a flowable manner, a guide roller 86 is installed at the end of the pipe member 87. [

Since the elastic member 88 is interposed between the pipe member 87 and the linkage 84, when the pipe member 87 is disposed so as to press the upper surface of the heat insulating panel 100, the elastic member 88 compresses and provides an elastic force The heat insulating panel 100 is pressed toward the conveying roller 54a.

The drawing unit 90 includes a plurality of lower rollers 94 inserted into the inner space of the heat insulating panel 100 supplied from the transferring unit 50 and moving the heat insulating panel 100, And an upper roller 92 disposed so as to press and move the upper surface of the heat insulating panel 100.

The lower roller 94 is inserted into the inner space of the heat insulating panel 100 to support and convey the inner wall of the heat insulating panel 100. The upper roller 92 connects the upper surface portion 102 of the heat insulating panel 100 to the lower roller The heat insulating panel 100 supplied from the extruding portion 10 passes through the gap between the lower roller 94 and the upper roller 92 to the drawing portion 90 side Thereby providing pulling tension.

A method for manufacturing an insulating panel using the apparatus for manufacturing a window insulating panel according to an embodiment of the present invention will be described as follows.

A method for manufacturing a heat insulating panel 100 using an apparatus for manufacturing a heat insulating panel 100 for a window according to an embodiment of the present invention includes a heat insulating panel 100 that is bent to form an inner space having an opening by heating and molding a heat insulating material, A cooling step of cooling the heat insulating panel 100 by passing through the cooling part 30 provided in the extruding step and allowing the cooling water to be dewatered in the cooling step and a cooling step of cooling the heat insulating panel 100 in the inner space of the heat insulating panel 100 provided in the cooling step The heating section 78 and the heating section 78 so as to fuse the sheet member 108a separated from the sheet paper 108 while moving the heat insulating panel 100 while supporting the inner wall while inserting the support conveying section 54, And a transferring step of heating the sheet paper 108 while pressing the sheet paper 108 on the outer wall of the heat insulating panel 100 by the operation of the pressing portion 79.

The heat insulating panel 100 supplied from the extruding section 10 is cooled while passing through the water tub 32 and is supplied to the transferring section 50. The heat insulating panel 100 flowing into the transferring section 50 includes a plurality of And is moved along the upper portion of the column member 52a provided between the conveying roller 54a and the conveying roller 54a.

At this time, the conveying roller 54a and the column member 52a are inserted into the inner space of the heat insulating panel 100 to support the inner wall and perform the conveying operation, thereby preventing the opening of the heat insulating panel 100 from being deformed inward, The upper surface 102 of the heat insulating panel 100 is pressed downward by the guide roller 86 so that the heat insulating panel 100 can be prevented from deviating to the outside of the conveying roller 54a and the column member 52a .

When the heat insulating panel 100 supplied to the transferring portion 50 passes the upper surface transferring portion 72, the sheet is loosened by the supplying roller 56a and the sheet is conveyed to the sheet-pressing roller 57a The sheet material 108 is brought into close contact with the upper surface portion 102 of the heat insulating panel 100 and heated by the heat energy supplied from the heat generating member 78b so that the sheet member 108a is separated from the protective sheet 108b, And transferred to the upper surface portion 102 of the recording medium.

Thereafter, when the heat insulating panel 100 passes through the first side transferring portion 74, the operation of the support transferring portion 54, the supplying portion 56, the heating portion 78, and the pressing portion 79 as described above The sheet member 108a is transferred to the first side portion 104 of the heat insulating panel 100 and the heat insulating panel 100 is passed through the second side transfer portion 76, (108a) is transferred to the second side portion (106) of the heat insulating panel (100).

The heat insulating panel 100 provided through the transferring step of the present invention includes a lower roller 94 inserted in an inner space of the heat insulating panel 100 to move while supporting the inner wall, A tensile force is provided by the operation of the drawing portion 90 including the upper roller 92 which is disposed and supports the outer wall of the heat insulating panel 100. [

After the sheet member 108a is transferred to the outer wall of the heat insulating panel 100, the sheet material 108a is provided to the drawing portion 90 from the base 52 and passes through the gap between the lower roller 94 and the upper roller 92, The tensile force provided by the driving of the upper roller 94 and the upper roller 92 acts in the direction of pulling the heat insulating panel 100 toward the drawer 90 so that the heat insulating panel 100 provided from the extruding portion 10 is moved It is possible to perform stable movement to the drawing unit 90 without departing from the drawing.

Thus, a heat-insulating panel having a groove shape in which a cross-sectional shape is bent so as to form a space portion therein and which is open at one side is continuously produced by a drawing process, and the sheet is successively fused to the upper and both sides of the heat- It is possible to provide an apparatus for manufacturing a heat insulating panel for a window which prevents the heat insulating panel from being deformed by a drawing process and fuses the sheet to an accurate position, and a method of manufacturing the heat insulating panel using the same.

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, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

In addition, although a thermal insulating panel manufacturing apparatus for a window and an insulating panel manufacturing method using the thermal insulating panel manufacturing apparatus are described as an example, the thermal insulating panel manufacturing apparatus and the thermal insulating panel manufacturing method using the same, Apparatus and a manufacturing method using the same can be used.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: extruding part 30: cooling part
32: water tank 32a: inlet hole portion
32b: outlet hole portion 34:
50: transfer part 52: base
52a: column member 54: support transfer part
54a: Feed roller 56: Feeder
56a: Feed roller 56b:
72: upper surface transferring portion 74: first side transferring portion
76: second side transfer part 78: heating part
78a: Case 78b:
78c: Fixture 78d: Temperature sensor
79: pressure roller 79a: pressure roller
79b: motor 79c: main gear
79d: driven gear 79e: gear box
79f: pressure cylinder 80:
82: connecting pillar 84: connecting rod
86: guide roller 87: pipe member
88: elastic member 90:
92: upper roller 94: lower roller
100: a heat insulating panel 102:
104: first side portion 104: second side portion
108: sheet paper 108a: protective sheet
108b: sheet member

Claims (11)

An extruding portion for extruding a heat insulating panel having an inner space having an opening by heating and molding the heat insulating material;
A cooling unit through which the cooling water is cooled so that the heat insulating panel supplied from the extruding unit passes and is cooled;
A transfer unit for supporting and conveying the inner space of the heat insulating panel supplied through the cooling unit and fusing the sheet member to the outer wall of the heat insulating panel; And
And a drawer for supporting an inner space of the heat insulating panel supplied through the transfer part and providing a tensile force.
The refrigerator according to claim 1,
A water tank having an inlet hole through which the heat insulating panel flows and an outlet hole through which the heat insulating panel is discharged; And
And a fixing table mounted on the water tub to prevent the heat insulating panel from passing therethrough.
The image forming apparatus according to claim 1,
A base inserted in an inner space of the heat insulating panel and having a plurality of column members successively installed to support the heat insulating panel;
A support conveyor rotatably installed on the base and inserted into an inner space of the heat insulating panel to support and move the heat insulating panel;
A supply unit for supplying the sheet member adjacent to the heat insulating panel moved by the support conveying unit;
A heating unit for heating the sheet member adjacent to the heat insulating panel by the supply unit; And
And a pressing portion for pressing the sheet member against the outer wall of the heat insulating panel to fuse the heated sheet member to the heat insulating panel.
The method of claim 3,
The transfer portion further includes an elastic support portion for pressing the heat insulating panel toward the support transfer portion for pressing the heat insulating panel so as to prevent the heat insulating panel from being detached from the support transfer portion,
The elastic support portion
A connection pillar installed on the base;
A connecting rod inclined to the connecting post;
A pipe member slidably installed on the linkage;
A guide roller installed on the pipe member and pressing the heat insulating panel toward the support conveying portion; And
And an elastic member interposed between the pipe member and the connecting rod.
[5] The apparatus of claim 3,
A plurality of conveying rollers rotatably installed between the pillar members and inserted into an inner space of the heat insulating panel; And
And a driving unit for supplying power to the conveying roller.
The apparatus according to claim 3,
A supply roller installed at one side of the heating part and wound with the sheet paper; And
And a recovery roller that is provided on the other side of the heating unit and on which the sheet paper is wound while being unwound from the supply roller.
7. The apparatus according to claim 6,
A case in which an opening is arranged to face the pillar member and a space is formed inside the opening, the case being disposed between the feeding roller and the collection roller; And
And a heat generating member installed inside the case and supplying heat energy to the heat insulating member.
8. The apparatus according to claim 7,
A pressure roller rotatably installed in the opening and adapted to press the sheet sheet provided from the feeding roller toward the column member to come into close contact with the heat insulating panel;
A motor for providing power to the pressure roller; And
And a pressure cylinder for moving the pressure roller toward the pillar member.
The apparatus of claim 1,
A plurality of lower rollers inserted into an inner space of the heat insulating panel supplied from the transfer unit and moving the heat insulating panel; And
And an upper roller disposed opposite to the lower roller for pressing and moving the upper surface of the heat insulating panel.
(a) an extruding step of extruding a heat insulating panel which is bent so as to form an inner space having an opening by heating and molding the heat insulating material;
(b) a cooling step provided in the extruding step and cooling the heat insulating panel through a cooling part in which cooling water is drained; And
(c) inserting the support transfer part into the inner space of the heat insulating panel provided in the cooling step, moving the heat insulating panel while supporting the inner wall while driving, and supplying the sheet member separated from the sheet, And a transfer step of heating the sheet paper while pressurizing the sheet paper on the outer wall of the heat insulating panel by a negative action.
11. The method of claim 10,
The heat insulating panel provided through the transferring step includes a lower roller inserted into the heat insulating panel inner space and moving while supporting the inner wall, and an upper roller disposed opposite to the lower roller and supporting the outer wall of the heat insulating panel Wherein the tensile force is provided by the operation of the drawer.

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