JP2017007242A - Thermoforming device and thermoforming method - Google Patents

Abstract

The present invention provides a thermoforming apparatus and a thermoforming method capable of smoothly and efficiently peeling a protective film from a sheet and preventing foreign matter from adhering to an adhesive surface of the sheet as much as possible.
A base 22 for holding a base material 10 and a heating surface for heating a sheet 4 unwound from a roll sheet having a protective film 5 attached to an adhesive surface 4p and wound in a roll shape. A heating plate (heating unit) 3 having 3a, a sheet support unit that supports the roll sheet so as to be unwound, a sheet conveying unit 96 that supplies the sheet 4 to the heating surface 3a of the heating plate 3, A sheet gripper 58 that detachably grips the sheet end 4e of the sheet 4 supplied to the heating surface 3a, and a sheet by winding up the protective film 5 adhered to the sheet 4 gripped by the sheet gripper 58. 4 and a film take-up unit 92 for peeling off the protective film 5 from the protective film 5.
[Selection] Figure 5

Description

  The present invention relates to a thermoforming apparatus and a thermoforming method.

  In general, as a device for adhering a skin sheet (hereinafter referred to as a sheet) to the outer surface of a molding substrate (hereinafter referred to as a substrate), a vacuum press lamination molding device by radiant heating in upper and lower chambers, a thermoforming device by hot plate heating, etc. It has been known.

  For example, Patent Document 1 discloses a vacuum press lamination molding apparatus. This vacuum press lamination molding apparatus includes upper and lower chambers. A molding base material is accommodated in the lower chamber (fourth chamber). A sheet can be set on the peripheral portion on the upper chamber (first chamber) side. The upper chamber has a hot plate provided with a heater above it. The upper chamber and the lower chamber are connected to a vacuum tank and a pressurized tank, respectively. Therefore, the inside of the chamber composed of the upper and lower chambers can be evacuated and pressurized.

  In the vacuum press lamination molding apparatus described in Patent Document 1, the intermediate chamber (third chamber) is decompressed and the lower chamber is decompressed. Thereby, the air between a base material and a sheet | seat is fully excluded without being inhibited by a sheet | seat, and an upper chamber is pressurized after this. Therefore, the synthetic resin sheet comes into close contact with the base material in a vacuum state with a differential pressure between the upper chamber and the lower chamber.

Japanese Patent No. 3102916

A protective film is previously attached to the adhesive surface of the sheet to be adhered to the outer surface of the substrate. The protective film prevents foreign matter from adhering to the adhesive surface.
However, for example, in the vacuum press lamination molding apparatus described in Patent Document 1, it takes time to remove the protective film before the sheet is set in the upper chamber or after being set in the upper chamber, and is exposed after the protective film is peeled off. There was a problem that foreign matter was likely to adhere to the adhesive surface.

  The present invention has been made in view of the above circumstances, and provides a thermoforming apparatus and a thermoforming method capable of efficiently and smoothly peeling a protective film from a sheet and preventing adhesion of foreign matters to the adhesive surface of the sheet. provide.

The thermoforming device according to claim 1 has a base, and a heating unit that heats a sheet that has been unwound from a roll sheet having a protective film attached to the adhesive surface and wound in a roll shape, A thermoforming apparatus that molds a sheet softened by being heated by the heating unit with respect to the base material held on the base, or adheres to the base material, the roll sheet being A sheet support unit for supporting unwinding; a sheet conveying unit for supplying the sheet to the heating surface of the heating unit; and a sheet holding unit for detachably holding a sheet end of the sheet supplied to the heating unit; And a film take-up part that peels off the protective film from the sheet by taking up the protective film attached to the sheet held by the sheet holding part.
In the thermoforming apparatus according to claim 1, after the sheet is set in the heating unit by the sheet support unit, the sheet conveyance unit, and the sheet gripping unit, the protective film is wound up by the film winding unit, so that the protective film is a sheet And is automatically wound up.
Thus, in this thermoforming apparatus, since the sheet is set in the heating part with the protective film adhered to the adhesive surface of the sheet, it becomes difficult for foreign matter to adhere to the adhesive surface until immediately before heating the sheet. Thus, compared with the case where the sheet is set in the heating part after the protective film is peeled off from the sheet, the quality of the molded article in which the sheet is coated on the base material can be improved.

The thermoforming apparatus according to claim 2, wherein the film winding unit is rotatably provided so as to be reversed in a direction opposite to a winding direction when the sheet is conveyed by the sheet conveying unit. To do.
According to the thermoforming device of claim 2, even if the position of the film winding portion is fixed, the film winding portion is reversed in the direction opposite to the winding direction, The protective film wound up by the sheet is unwound along the heating unit together with the sheet conveyance by the sheet conveyance unit. And after a sheet | seat is supplied to a heating surface by the sheet | seat conveyance part, a protective film is wound up because a film winding part rotates in a winding direction.

The thermoforming apparatus according to claim 3, wherein the sheet conveying section is capable of reciprocating between the sheet unwinding position and the sheet supply completion position of the sheet end along the extending direction of the heating section. The film winding unit starts winding of the protective film after the sheet conveying unit starts moving from the sheet supply completion position to the sheet unwinding position.
In the thermoforming apparatus according to claim 3, the sheet and the protective film can be unwound from the sheet unwinding position to the sheet supply position by the sheet conveying unit. After the unwound sheet is gripped by the sheet gripping portion at the sheet supply position and the sheet conveying portion starts moving from the sheet supply position toward the sheet unwinding position, the film winding portion rotates in the winding direction. The protective film is peeled off from the sheet and wound up smoothly and substantially automatically.

The thermoforming apparatus according to claim 4, wherein the sheet conveying unit is a conveying roller located below the sheet, and the protective film attached to the sheet winds the conveying roller to form the film. It is wound up by a winding unit.
According to the thermoforming apparatus of Claim 4, a protective film is wound up continuously and smoothly by a film winding part, without a wrinkle being formed in a protective film by winding up a conveyance roller.

The thermoforming method according to claim 5 is a thermoforming method using the thermoforming apparatus described above, wherein the roll sheet supported by the sheet support unit is unwound by the sheet conveying unit, and the heating unit is provided with the roll sheet. A step of supplying a sheet; a step of detachably holding a sheet end of the sheet supplied to the heating unit; and a step of rotating the film winding unit and holding the sheet end by the sheet holding unit A step of peeling the protective film from the sheet by winding up the protective film adhered to the sheet, a step of heating the sheet by the heating unit, and a frame containing the base and the base material A step of bringing a body relatively close to the heating unit and bringing the body into contact with the heating unit via the sheet; and reducing the inside of a sealed space surrounded by the sheet and the frame body While, the sheet to the mold shaping, or characterized by and a step of bonding to the substrate.
According to the thermoforming method of claim 5, the roll sheet is set in the heating unit by the sheet conveying unit, the sheet end of the sheet is held by the sheet holding unit, and the protective film is peeled off from the sheet by the film winding unit. And can be wound up almost automatically. Thereafter, the frame can be brought relatively close to the heating unit to cover the surface of the base material.
That is, after the sheet is set in the heating unit, immediately before the sheet is coated on the surface of the substrate, the protective film is smoothly peeled off from the sheet to expose the adhesive surface of the sheet to be coated on the surface of the substrate. Time can be shortened.

  According to the thermoforming apparatus and the thermoforming method of the present invention, the protective film can be efficiently and smoothly peeled from the sheet, and foreign matter can be prevented from adhering to the adhesive surface of the sheet.

It is a side view which shows the structure of the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view which shows the structure of the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a top view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on the 1st modification of one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on the 1st modification of one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on the 2nd modification of one Embodiment of this invention. It is a side view for demonstrating the thermoforming method using the thermoforming apparatus which concerns on the 2nd modification of one Embodiment of this invention.

  Hereinafter, embodiments of a thermoforming apparatus and a thermoforming method according to the present invention will be described with reference to the drawings. The drawings used in the following description are schematic, and the length, width, thickness ratio, and the like are not necessarily the same as the actual ones, and can be changed as appropriate.

[Configuration of Thermoforming Apparatus 1]
FIG. 1 is a side view showing a configuration of a thermoforming apparatus 1 according to an embodiment of the present invention (hereinafter referred to as the present embodiment). FIG. 2 is a plan view showing the configuration of the thermoforming apparatus 1.
The thermoforming apparatus 1 according to the present embodiment is an apparatus for covering a base material 10 with a sheet 4 softened by being heated by a hot plate (heating unit) 3.

  The base material 10 is an object on which the sheet 4 is coated and adhered, and is a main body of a molded product made of a thermoplastic resin such as a polypropylene resin or a polyethylene resin. However, the material of the base material 10 is not limited to the resin.

The sheet 4 has a printing layer (not shown). A protective film or carry film (not shown) is provided on the surface side of the printing layer. An adhesive layer is formed on the back side of the print layer. A protective film 5 is provided on the adhesive surface 4p of the adhesive layer. The material of the printed layer and the adhesive layer of the sheet 4 is softened by heating of the hot plate 3 and can be cured when cooled. In addition, the sheet | seat 4 may be a well-known multilayer sheet, as long as it has the adhesive surface 4p protected by the protective film 5 which can be peeled as mentioned above, The structure in particular is not restrict | limited.
The sheet 4 of the present embodiment is a roll sheet wound in a roll shape (hereinafter sometimes simply referred to as “sheet”).

As shown in FIG. 1, the thermoforming apparatus 1 is of a hot plate heating type, and has a base material supply unit 40 including a base 22 that holds the base material 10 and a heating surface 3 a that heats the sheet 4. And a plate 3. The thermoforming apparatus 1 further includes a sheet support unit 51, a sheet conveyance unit 96, a sheet gripping unit 58, and a film winding unit 92.
2 and the subsequent drawings, the sheet conveying unit 96 and the film winding unit 92 are omitted in the plan views showing the configuration of the thermoforming device 1.

The base material supply unit 40 includes at least the base 22, and the base 10 (not shown in FIG. 1) is attached to and detached from the base 22 and the sheet 4 is sandwiched with respect to the heating surface 3 a of the hot plate 3. The base material 10 is provided so as to be disposed at the base material supply position P1. As shown in FIG. 1, the base material supply part 40 is provided with the lower frame 2 as a structure for arrange | positioning the base material 10 as mentioned above.
The lower frame 2 is a metal member such as stainless steel, and includes a base 22 and a peripheral wall portion 21.

The base 22 is formed in a shape smaller than the hot plate 3 in plan view, and is provided on the gantry 6. The gantry 6 is slidable on the floor and moves between the base material supply position P1 and a non-base material supply position P2 that deviates from the base material supply position P1 in plan view shown in FIG. 2 (see FIG. 2). Is provided.
The non-base material supply position P2 is an arbitrary position deviated from the base material supply position P1 in plan view, and the base material 10 can be attached to and detached from the base 22 in the lower frame 2. Any position is acceptable. That is, the lower frame 2 located at the base material supply position P1 and the lower frame 2 located at the non-base material supply position P2 may partially overlap.
Further, the gantry 6 can be omitted, and the installation location and form of the pedestal 22 are not particularly limited as long as the pedestal 22 is movable as described above.
With the above configuration, as shown in FIG. 2, the base material supply unit 40 is provided.
The peripheral wall 21 is erected on the outer peripheral side of the base 22.

  A base material jig 60 is housed in the housing space R surrounded by the base 22 and the peripheral wall portion 21. On the peripheral wall 21 side of the base 22 serving as the bottom of the accommodation space R, a large number of vent holes 2b, ..., 2b communicating with the accommodation space R are formed. Each vent 2b is connected to a vacuum pump (not shown). At the time of molding, the storage space R is depressurized by operating the vacuum pump and performing vacuum suction.

The base material jig 60 is made of metal or the like disposed on the base 22, and the base material 10 made of resin or the like is attached to and held on the base material jig 60.
In the present embodiment, the base material jig 60 is formed in a shape slightly smaller than the base material 10 in plan view (see FIG. 4). Therefore, the base material 10 can be held by the base material jig 60 with its outer peripheral portion extending outside the side peripheral surface of the base material jig 60 and covering the upper part of the side peripheral surface of the base material jig 60. Has been. That is, the base material jig 60 is arranged and formed so that the side peripheral surface of the base material jig 60 is inside the outer peripheral surface of the base material 10.

  Furthermore, the base material jig 60 was introduced while maintaining the state in which the sheet 4 was coated and adhered to the base material 10 by introducing compressed air into the accommodation space R by a not-shown pressurized tank or the like. It is pressed by the compressed air and descends to the base 22 side.

The hot plate 3 is a component for softening the sheet 4 by heating and has a heating surface 3a. The heating surface 3a is a smooth plane, and the heating plate 3 has a flat plate shape with the bottom surface as the heating surface 3a.
The hot plate 3 of the present embodiment is provided so as to be able to move up and down in the direction of approaching and separating from the lower substrate supply position P1 (see FIG. 2). Further, it can be arranged in close contact with the frame upper edge 2a of the lower frame 2 of the base material supply unit 40 in a state of moving downward.
However, the hot plate 3 and the base material supply part 40 should just be provided so that it can approach / separate relatively in the up-down direction. Therefore, the position of the hot plate 3 may be substantially fixed, and the base material supply unit 40 disposed at the base material supply position P <b> 1 may be provided so as to move up and down in the direction of approaching and moving away from the hot plate 3.

A plurality of heaters 31,..., 31 are provided on the upper surface 3 c of the hot plate 3 at predetermined intervals.
A plurality of ventilation holes 3b,..., 3b that open to the heating surface 3a are formed on the heating surface 3a of the hot plate 3 at predetermined intervals. Each vent 3b is connected to a vacuum pump (not shown) that vacuums the heating surface 3a side and a pressure pump (not shown) that stores compressed air by a compressor. Thus, by providing the vacuum tank, the pressure reduction loss in the thermoforming apparatus 1 is suppressed.

  The sheet support portion 51 is a component for supporting the sheet 4 so that the sheet 4 can be unwound, and supports the core material 4x of the roll sheet.

  From the unwinding position (sheet unwinding position) P5 of the sheet end 4e of the sheet 4, the unwinding direction D1 of the sheet 4 along the extending direction of the heating surface 3a of the hot plate 3 (hereinafter simply referred to as unwinding direction D1). A sheet support auxiliary portion 52, a sheet cutting portion 54, and a cut sheet holding portion 56 are sequentially provided from the unwinding position P5 side.

  The sheet support auxiliary unit 52 supports the sheet 4 unwound by the sheet conveying unit 96 in an auxiliary manner. The sheet support auxiliary part 52 penetrates the sheet 4, the protective film 5, and the sheet conveying part 96 along the unwinding direction D1.

  The sheet cutting unit 54 is a component for cutting the sheet 4 held by the sheet conveying unit 96 behind the heating surface 3a of the hot plate 3 in the unwinding direction D1. As the sheet cutting part 54, for example, a cutter extending in the width direction of the roll sheet may be used, or a cutter capable of scanning in parallel with the width direction of the roll sheet may be used. Further, the cutter may be movable up and down in the direction of approaching and separating from the sheet 4.

  The cut sheet holding unit 56 is a component for holding the sheet end 4f of the sheet 4 cut by the sheet cutting unit 54 (see FIG. 9). The cut sheet holding part 56 is composed of a member that can be moved up and down in a direction approaching and separating from the sheet 4, for example.

The sheet conveying unit 96 is a component for supplying the sheet 4 to the heating surface 3 a of the hot plate 3.
The sheet conveying unit 96 according to the present embodiment is a conveying roller located below the sheet 4, and the unwinding position P <b> 5 of the sheet end 4 e of the sheet 4 and the supply completion position (in the unwinding direction D of the sheet 4). A sheet supply completion position) P6 (see FIG. 3) is provided so as to be reciprocally movable.

  The sheet gripper 58 is configured to detachably grip the sheet end 4e of the sheet 4 supplied to the heating surface 3a of the hot plate 3 as the sheet transport unit 96 moves from the unwinding position P5 to the supply completion position P6. It is a component (see FIG. 3).

  The film winding unit 92 is a component for peeling off the protective film 5 from the sheet 4 by winding the protective film 5 attached to the adhesive surface 4p of the sheet 4 held by the sheet holding unit 58. .

  The sheet 4 is appropriately cut and cut at a predetermined length in the unwinding direction D1, whereas the protective film 5 is continuously wound by the film winding unit 92 without being cut. In the extending direction of the protective film 5, a film winding auxiliary unit 94 is provided between the sheet conveying unit 96 and the film winding unit 92. The protective film 5 is wound around a sheet conveying unit 96, a film winding auxiliary unit 94, and a film winding unit 92 in order from the winding rear side.

In the present embodiment, the positions of the film winding unit 92 and the film winding auxiliary unit 94 are fixed to the rear side of the unwinding position P5 in the unwinding direction D1.
Therefore, the film winding unit 92 is reversed in the direction D12 opposite to the winding direction D11 (hereinafter, simply referred to as the opposite direction D12) when the sheet 4 is conveyed along the unwinding direction D1 by the sheet conveying unit 96. It is supposed to be free.
Further, the film take-up unit 92 of the present embodiment unwinds from the supply completion position P6 after the sheet conveying unit 96 moves to the supply completion position P6 so that the sheet end 4e of the sheet 4 is held by the sheet holding part 58. After the movement toward the position P5 is started, the winding of the protective film 5 can be started by rotating in the winding direction D11.

[Thermoforming method using thermoforming apparatus 1]
Next, a thermoforming method using the thermoforming apparatus 1 will be described.
A state in which each component is arranged at the position shown in FIGS. 1 and 2 is defined as an unwinding initial state.
In the unwinding initial state, the sheet 4 is supported by the sheet support portion 51 and the sheet support auxiliary portion 52. Further, the sheet 4 is cut out such that the sheet end 4e advances to some extent from the unwinding position P5 to the front side in the unwinding direction D1, and the sheet conveying unit 96 is disposed at the unwinding position P5. The protective film 5 is unwound longer than the sheet 4, and a front end portion (not shown) is connected to the film winding portion 92 in advance. At the rear side of the unwinding direction D1 from the unwinding position P5, the state where the protective film 5 is adhered to the adhesive surface 4p of the sheet 4 is kept.

First, from the initial unwinding state, the sheet 4 is unwound in the unwinding direction D1 by the sheet conveying unit 96 and supplied to the heating surface 3a of the hot plate 3.
3 and 4 are a side view and a plan view for explaining a thermoforming method using the thermoforming apparatus 1, and the sheet 4 and the protective film 5 are attached to the heating surface 3 a of the hot plate 3 by the sheet conveying unit 96. And a state in which the base material 10 is installed on the base 22 together.

  As shown in FIGS. 3 and 4, the base material 10 is placed on the base material jig 60 disposed on the base 22 of the lower frame 2. Thereby, the base material 10 is deposited on the base material jig 60 and held.

  Simultaneously with the installation of the base material 10 on the base 22, the sheet conveying unit 96 is moved to the supply completion position P6 along the unwinding direction D1 as shown in FIG. With the movement of the sheet conveying unit 96, the film winding unit 92 is reversed in the opposite direction D12. As a result, the sheet 4 and the protective film 5 are unwound from the unwinding position P5 to the supply completion position P6.

  Next, substantially simultaneously with the arrival of the sheet conveyance unit 96 at the supply completion position P6, the sheet end 4e of the sheet 4 supplied to the heating surface 3a of the hot plate 3 is detachably held by the sheet holding unit 58. At this time, as shown in FIG. 3, the protective film 5 is hung from the supply completion position P6 to the sheet conveying portion 96, and is turned back in the direction opposite to the unwinding direction D1 toward the unwinding position P5. . The protective film 5 is further wound around the film winding auxiliary portion 94 and is unwound from the film winding portion 92 to the maximum extent.

Next, the film winding unit 92 is rotated in the winding direction D11 to wind up the protective film 5 attached to the adhesive surface 4p of the sheet 4 held by the sheet holding unit 58. Thereby, the protective film 5 is peeled from the sheet 4.
5 and 6 are a side view and a plan view for explaining a thermoforming method using the thermoforming apparatus 1 and showing a state in which the protective film 5 attached to the sheet 4 is wound up. .

When the protective film 5 is wound, the sheet conveying unit 96 is moved from the supply completion position P6 to the unwinding position P5. With the movement of the sheet conveying unit 96, the film winding unit 92 is rotated in the winding direction D11. Thereby, the protective film 5 is unwound from the unwinding position P5 to the supply completion position P6 from the front side to the rear side in the unwinding direction D1.
At this time, as shown in FIG. 5, the film winding unit 92 rotates in the winding direction D11 so that the folding position of the protective film 5 is shifted to the front side in the winding direction D1 with respect to the position of the sheet conveying unit 96. By controlling the start timing and the rotation speed, moderate play occurs in the protective film 5, and it becomes difficult for the film to be caught and the protective film 5 can be smoothly wound around the film winding portion 92.
When the movement of the sheet conveying unit 96 to the unwinding position P5 is completed, the sheet 4 is laid between the heating surface 3a of the hot plate 3 and the base material supply position P1.

Next, the sheet 4 is heated by the hot plate 3.
7 and 8 are a side view and a plan view for explaining a thermoforming method using the thermoforming apparatus 1, and the protective film is peeled from the sheet 4 from the unwinding position P5 to the supply completion position P6. The state where the sheet 4 is heated by the hot plate 3 is shown.
As shown in FIGS. 7 and 8, the pressure between the hot plate 3 and the sheet 4 is reduced, and the sheet 4 is adsorbed on the heating surface 3a to be heated.
Specifically, the heating plate 3 is heated by the heater 31 and the vacuum pump connected to the heating plate 3 is operated to move the sheet 4 to the heating surface 3a side of the heating plate 3 through the vent holes 3b. Vacuum in the direction. Thereby, the sheet | seat 4 can be made to adsorb | suck to the heating surface 3a of the hot platen 3, and the adsorbed sheet | seat 4 can be heated.

The base 22 is disposed at the base material supply position P1 by the completion of the process of heating the sheet 4 with the hot plate 3 described above.
At this time, after the base material 10 is deposited on the base material jig 60, the gantry 6 is moved in a direction approaching the heat plate 3 in a plan view (that is, in the horizontal direction and in the direction of arrow D 3) It arrange | positions so that the board 3 may overlap. Thereby, the base 22 and the base material 10 are arrange | positioned in the base-material supply position P1 below the hot platen 3 (refer FIG. 8).

Next, the sheet 4 is cut so as to have a predetermined length dimension in the unwinding direction D1.
9 and 10 are a side view and a plan view for explaining a thermoforming method using the thermoforming apparatus 1, and the sheet 4 is held while the sheet 4 is adsorbed to the heating surface 3 a by the hot plate 3. A state of cutting is shown.
As shown in FIGS. 9 and 10, the sheet 4 is supported by the sheet support auxiliary portion 52 and the cut sheet holding portion 56. Subsequently, in the unwinding direction D1 of the sheet 4, the sheet 4 is placed between the sheet support auxiliary portion 52 and the cut sheet holding portion 56, that is, behind the heating surface 3a of the hot plate 3 in the unwinding direction D1. Cutting is performed by the cutting unit 54. Thus, by holding the sheet 4 by both the sheet support auxiliary part 52 and the cut sheet holding part 56, the sheet end 4 f is held by the cut sheet holding part 56 after the sheet 4 is cut, and the sheet end 4 g is set by the sheet. It is supported by the support auxiliary part 52. Therefore, it is possible to avoid a situation in which the cut sheet 4 descends from the sheet ends 4f and 4g and falls off the thermoforming apparatus 1 or sticks to the gantry 6. Further, when thermoforming is completed, the thermoforming apparatus 1 can be unwound and put into an initial state smoothly and efficiently.

Next, the lower frame (frame body) 2 containing the base 22 and the base material 10 is brought close to the hot plate 3 and brought into contact with the sheet 4 and the hot plate 3.
FIG. 11 is a side view for explaining a thermoforming method using the thermoforming apparatus 1 and shows a state in which the lower frame 2 is brought close to the hot plate 3.
In the thermoforming method using the thermoforming apparatus 1 of the present embodiment, the hot plate 3 is moved downward, and the outer peripheral portion of the heating surface 3 a is brought into close contact with the frame upper edge 2 a of the lower frame 2 via the sheet 4. . At this time, the sheet 4 is disposed in a state where the entire upper surface substantially contacts the heating surface 3 a of the hot plate 3. Thereby, as shown in FIG. 11, the outer peripheral portion of the sheet 4 is sandwiched between the lower frame 2 and the hot plate 3. Further, the opening of the lower frame 2 is closed to form a sealed space R, and the sheet 4 is in close contact with the frame upper edge 2 a of the peripheral wall portion 21 of the lower frame 2.
However, the lower frame 2 only needs to be relatively close to the hot plate 3. The position of the hot plate 3 is fixed, and the base material supply unit 40 including the lower frame 2 is moved up and down with respect to the hot plate 3. You may let them.

Next, the inside of the sealed space R surrounded by the sheet 4 and the lower frame 2 is decompressed, and the surface of the base material 10 is covered with the sheet 4.
FIG. 11 is a side view for explaining a thermoforming method using the thermoforming apparatus 1 and shows a state in which the hot plate 3 is brought into close contact with the lower frame 2 via the sheet 4. As shown in FIG. 11, the thermoforming apparatus 1 is formed with a sealed space R surrounded by the hot plate 3 and the lower frame 2 of the base material supply unit 40. From this state, vacuum suction is performed in the direction in which the sheet 4 moves downward through the vent hole 3b of the hot plate 3. Thereby, the air in the accommodation space R below the seat 4 is sucked toward the base 22, and the sealed space R is decompressed to be in a high vacuum state.

Next, the suction operation of the sheet 4 is stopped in a state where the decompression operation of the sealed space R is maintained, and the space between the hot plate 3 and the sheet 4 is opened to the atmosphere, or the pressure is applied toward the base 22 of the lower frame 2. .
Specifically, after the sheet 4 adsorbed on the hot plate 3 is heated to a predetermined temperature and a predetermined time elapses, the suction operation is stopped by stopping the vacuum suction of the vent hole 3b of the hot plate 3. Thereby, since the space between the hot plate 3 and the sheet 4 is opened to the atmosphere, a pressure difference is generated between the upper and lower spaces across the sheet 4.

FIG. 12 is a side view for explaining a thermoforming method using the thermoforming apparatus 1 and shows a state in which the surface of the base material 10 is coated with the sheet 4.
As shown in FIG. 12, the sheet 4 softened by heating moves away from the heating surface 3a of the hot plate 3 and moves toward the base 22 (base 10 side) of the lower frame 2 on the lower side of the sheet 4. 10 pressed against the surface. Thereby, the sheet 4 covers the base material 10 and is adhered to the surface of the base material 10.
When the space between the hot plate 3 and the sheet 4 is opened to the atmosphere, the compressed tank is blown out from the vent hole 3b of the hot plate 3 by switching the vacuum tank connected to each to the pressurized tank, and the sealed space. The inside of R may be pressurized.

Next, compressed air having a preset pressure is introduced into the sealed space R from a pressurized tank (not shown) through the vent hole 3 b of the hot plate 3. The pressure of the compressed air to be introduced (that is, a preset pressure) is sufficiently higher than the pressure when the space between the hot plate 3 and the sheet 4 is first opened to the atmosphere or pressurized toward the base 22. And
When compressed air having a preset pressure is introduced into the sealed space R in this way, the compressed air presses the sheet 4 located on the entire opening side of the accommodation space R, thereby causing the base material 10 to pass through the sheet 4. And the substrate jig 60 is pressed.
Thereafter, the sheet 4 may be trimmed as necessary.

Next, the base material 10 coated with the sheet 4 is removed from the base material jig 60.
FIGS. 13 and 14 are a side view and a plan view for explaining a thermoforming method using the thermoforming apparatus 1, and the base material 10 coated with the sheet 4 is moved from the base material supply position P1 to the non-base material. It shows a state where it is moved to the supply position P2 and removed from the base material jig 60.
As shown in FIGS. 13 and 14, the hot plate 3 is moved upward, and the lower frame 2 is moved away from the hot plate 3 and in the horizontal direction. In this way, the base material supply unit 40 moves the base material 10 and the base 22 from the base material supply position P1 to the non-base material supply position P2. Then, the base material 10 coated and adhered with the sheet 4 is removed from the base material jig 60.
The molded product is completed by the above operations, and a series of molding operations is completed.

  When the sheet 4 is coated on the plurality of base materials 10,..., 10 and continuous thermoforming is performed, the sheet end 4g supported by the sheet support auxiliary portion 52 in the arrangement shown in FIGS. Is newly replaced with the sheet edge 4e, and the above-described steps may be sequentially performed.

[Operational effects of thermoforming apparatus 1 and thermoforming method]
As described above, according to the thermoforming apparatus 1 of the present embodiment, the roll sheet is supported by the sheet support part 51 and the sheet support auxiliary part 52 so as to be unwindable, and the sheet 4 and the sheet 4 are The protective film 5 adhered to the adhesive surface 4p is unwound toward the sheet gripping portion 58. And after the sheet | seat end 4e of the sheet | seat 4 is hold | gripped by the sheet | seat holding part 58, and the sheet | seat 4 is set to the heating surface 3a of the hot platen 3, the film winding part 92 winds up the protective film 5, and the protection is carried out. The film is peeled from the sheet and wound up almost automatically. Accordingly, since the sheet 4 is set on the heating surface 3a in a state where the protective film 5 is adhered to the adhesive surface 4p of the sheet 4, it is difficult for foreign matter to adhere to the adhesive surface 4p until immediately before the heating of the sheet 4, which is conventional. Compared with the case where the sheet 4 is set on the heating surface 3a after the protective film 5 is peeled off from the sheet 4, the quality of the molded article in which the sheet 4 is coated on the substrate 10 can be improved.

  Further, according to the thermoforming apparatus 1 of the present embodiment, the film winding unit 92 is rotatably provided so as to be reversed in the opposite direction D12 when the sheet 4 is conveyed by the sheet conveying unit 96. Even when the position of the take-up portion 92 is fixed, the protective film 5 can be unwound freely along the heating surface 3 a of the hot plate 3. Even after unwinding, the protective film 5 can be smoothly wound by the film winding portion 92 rotating in the winding direction D11.

Further, according to the thermoforming apparatus 1 of the present embodiment, the sheet conveying unit 96 can reciprocate between the unwinding position P5 of the sheet end 4e and the supply completion position P6 along the unwinding direction D1. The sheet 4 and the protective film 5 are moved between the unwinding position P5 and the supply completion position P6 by the forward movement between the unwinding position P5 and the supply completion position P6 of the sheet conveying unit 96. Supplied. Further, by the forward movement between the unwinding position P5 and the supply completion position P6 of the sheet conveying unit 96, the sheet conveying unit 96 returns to the initial position, and preparations for newly supplying the sheet 4 and the protective film 5 are started. As described above, the sheet 4 can be continuously and efficiently supplied by the reciprocating movement between the unwinding position P5 and the supply completion position P6 of the sheet conveying unit 96.
Further, after the sheet conveying unit 96 starts moving from the supply completion position P6 toward the unwinding position P5, the film winding unit 92 starts to wind the protective film 5, so that the sheet 4 is moved to the hot plate 3. After setting on the heating surface 3a, the protective film 5 can be smoothly and substantially automatically wound from the adhesive surface 4p of the sheet 4. Thereby, adhesion of a foreign substance to the adhesive surface 4p of the sheet 4 can be prevented with a higher probability.

  Further, according to the thermoforming apparatus 1 of the present embodiment, the sheet conveying unit 96 is a conveying roller located below the sheet 4, and the protective film 5 winds the conveying roller and winds it by the film winding unit 92. Therefore, the protective film can be bent and the conveyance roller can be rewound, and the protective film 5 can be continuously and smoothly wound by the film winding unit 92 without forming a wrinkle on the protective film 5.

According to the thermoforming method using the thermoforming apparatus 1 of the present embodiment, the roll sheet is set on the heating surface 3a of the hot plate 3 by the sheet conveying unit 96, and the sheet end 4e of the sheet 4 is held by the sheet holding unit 58. In addition, the protective film 5 can be peeled off from the sheet 4 by the film winding unit 92 and can be wound up almost automatically. Thereafter, the lower frame 2 can be brought relatively close to the hot plate 3 to cover the surface of the substrate 10 with the sheet 4.
That is, after the sheet 4 is set on the heating surface 3 a of the hot plate 3 and immediately before the sheet 4 is coated on the surface of the substrate 10, the protective film 5 is smoothly peeled from the sheet 4, thereby The time for which the adhesive surface 4p of the sheet 4 to be coated on the surface is exposed can be shortened. Accordingly, it is possible to prevent foreign matters from adhering to the adhesive surface 4p of the sheet 4.

FIG.15 and FIG.16 is a figure for demonstrating the thermoforming method using the thermoforming apparatus 1B which is the 1st modification of the thermoforming apparatus 1 of the said embodiment.
As shown in FIGS. 15 and 16, the thermoforming apparatus 1 </ b> B is configured to include a radiation heating unit (heating unit) 133 having a radiation plate 131 such as a heater. The radiant heating unit 133 includes a top plate 136, a peripheral wall portion 132 that is erected downward from the top plate 136 and perpendicular to the plate surface of the top plate 136, and a bottom surface of the top plate 136 (that is, the top plate 136 and the peripheral wall). And a radiation plate 131 provided in the upper part of the space surrounded by the part 132. In addition, the radiation plate 131 may be one or plural as shown in FIG. The radiation plate 131 is configured to be heated to a high temperature at a desired timing.

In the thermoforming method using the thermoforming apparatus 1B, the radiation heating unit 133 is disposed above the lower frame 2 at a predetermined interval with respect to the lower frame 2 in the initial unwinding state. After that, as shown in FIG. 15, the sheet 4 is unwound in the unwinding direction D <b> 1 by the sheet conveying unit 96 and is supplied between the radiant heating unit 133 and the lower frame 2.
Next, the sheet 4 is cut by the sheet cutting unit 54 on the rear side in the unwinding direction D1 from the radiation heating unit 133 and the lower frame 2. Thereafter, the upper end of the peripheral wall portion 21 of the lower frame 2 is brought relatively close to the lower end of the peripheral wall portion 132 of the radiant heating unit 133 and is brought into contact with the sheet 4 and the peripheral wall portion 132. Then, the inside of the sealed space R surrounded by the sheet 4 and the lower frame 2 is decompressed, and the surface of the base material 10 is covered with the sheet 4. At this time, by heating the radiation plate 131 of the radiation heating unit 133 to a high temperature, the sheet 4 is heated and softened by the radiation heat from the radiation plate 131.

  As described above, according to the thermoforming apparatus 1B provided with the radiant heating unit 133 and the thermoforming method using the thermoforming apparatus 1B, the thermoforming apparatus 1 and the thermoforming method using the thermoforming apparatus 1 are the same. The effect is obtained.

17 and 18 are diagrams for explaining a thermoforming method using a thermoforming apparatus 1C which is a second modification of the thermoforming apparatus 1 of the above embodiment.
As shown in FIGS. 17 and 18, the thermoforming device 1 </ b> C includes a tension switch 111 and a pressing portion 120 in addition to the components of the thermoforming device 1. The tension switch 111 is provided between the sheet conveying unit 96 and the film winding unit 92 at a position where the protective film 5 stretched without slack can be contacted. Specifically, the film winding auxiliary unit 94 and the film winding unit 92 are provided. It is provided between the winding unit 92. The pressing portion 120 is disposed in the vicinity of the unwinding position P5 of the sheet 4 and at least behind the cutting position of the sheet 4 in the unwinding direction D1.

The thermoforming method using the thermoforming apparatus 1C is basically the same as the thermoforming method using the thermoforming apparatus 1.
As described in the thermoforming method using the thermoforming apparatus 1, when the protective film 5 attached to the adhesive surface 4 p of the sheet 4 gripped by the sheet gripping portion 58 is wound up, the sheet transporting portion 96 is moved. The film is moved from the supply completion position P6 to the unwinding position P5, and the film winding unit 92 is further rotated in the winding direction D11. At this time, since the folding position of the protective film 5 is shifted to the front side in the unwinding direction D1 with respect to the position of the sheet conveying unit 96, the rotation start timing and the rotation speed of the film winding unit 92 in the winding direction D11 are controlled. By doing so, moderate play occurs in the protective film 5. At this time, as shown in FIG. 17, the protective film 5 located between the film winding auxiliary portion 94 and the film winding portion 92 is also loosened.

  Then, at the same time as the winding of the protective film 5 in the film winding unit 92 is completed, the sheet conveying unit 96 is completely moved to the unwinding position P5, and the protective film 5 is not loosened as shown in FIG. 5 becomes a stretched state. As a result, the protective film 5 comes into contact with the tension switch 111 and is turned on. Then, the ON signal is transmitted to the pressing unit 120, and the pressing unit 120 presses the sheet 4 and the protective film 5 positioned at the unwinding position P5 from the upper and lower directions, and at the same time, the rotation of the film winding unit 92 is stopped. Thus, the protective film 5 is peeled off from the sheet 4, and the sheet 4 is laid between the heating surface 3a of the hot plate 3 and the base material supply position P1.

  As described above, according to the thermoforming apparatus 1C provided with the tension switch 111 and the pressing portion 120 and the thermoforming method using the thermoforming apparatus 1C, the thermoforming apparatus 1 and the thermoforming method using the thermoforming apparatus 1 In addition to obtaining the same operational effects, the rotation of the film winding unit 92 can be stopped at a predetermined timing at the same time as the winding of the protective film 5 in the film winding unit 92 is completed. Therefore, overwinding of the protective film 5 can be prevented.

  The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the specific embodiments, and various modifications are possible within the scope of the gist of the present invention described in the claims. It can be changed.

  For example, in any embodiment of the thermoforming apparatus 1 according to the present invention, the lower frame 2 is positioned in the horizontal direction (for example, the arrow shown in FIG. 6) as the positional relationship between the base material supply position P1 and the non-base material supply position P2. D3 direction), but is not limited to such a positional relationship. For example, as the position of the non-base material supply position P2, the position where the lower frame 2 is moved to a position lower than the base material supply position P1 and the base material 10 can be detached from the base 22 in the lower frame 2 It can be. In this case, the lower frame 2 moves in the vertical direction between the base material supply position P1 and the non-base material supply position P2.

  In addition, the thermoforming apparatus 1 and the thermoforming method of any embodiment according to the present invention can be applied to both the mold shaping and the covering adhesion methods.

  In addition, the hot plate 3 is not limited to the configuration exemplified in the description and drawings in the above-described embodiment. For example, a frame member having a storage region of a base material to be thermoformed, a rectangular heating surface in a plan view, And a heat plate that has a frame portion that protrudes from the outer peripheral edge toward the frame material side, and that allows the frame portion to contact the frame edge portion of the frame material. Further, the hot plate may be provided with a vacuum hole which is a corner portion with the frame portion on the heating surface and opens in the outer peripheral portion of the hot plate in a plan view.

In addition, for example, the sheet conveying unit 96 may not be a conveying roller, and may be configured by a non-rotating rod-like member or the like. If the sheet 4 can be conveyed as described above, other configurations are possible. You may have.
In addition, you may combine suitably the structure of the said embodiment and the 1st modification of this embodiment, and a 2nd modification.

DESCRIPTION OF SYMBOLS 1 ... Thermoforming apparatus 2 ... Lower frame (frame body)
3 ... Hot plate (heating unit)
3a ... Heating surface 4 ... Sheet 4e ... Sheet edge 4p ... Adhesive surface 5 ... Protective film 10 ... Base material 10a ... Bottom surface 22 ... Base 40 ... Base material supply part 51 ... Sheet support part 58 ... Sheet gripping part 92 ... Film winding Take-up part 96 ... sheet conveying part 133 ... radiation type heating part (heating part)
D1 ... Unwinding direction D11 ... Winding direction D12 ... Reverse direction P5 ... Unwinding position (sheet unwinding position)
P6: Supply completion position (sheet supply completion position)
R: sealed space

Claims (5)

A heating unit that heats a sheet on which a protective film is attached to an adhesive surface and a roll sheet wound in a roll shape is unwound, and the substrate held on the base On the other hand, a thermoforming apparatus that molds a sheet softened by being heated by the heating unit, or adheres to the base material,
A sheet support part for supporting the roll sheet so as to be unwound,
A sheet conveying unit for supplying the sheet to the heating unit;
A sheet gripper for detachably gripping a sheet end of the sheet supplied to the heating unit;
A film take-up unit that peels off the protective film from the sheet by winding up the protective film attached to the sheet held by the sheet holding unit;
A thermoforming apparatus comprising:   The thermoforming apparatus according to claim 1, wherein the film winding unit is rotatably provided so as to be reversed in a direction opposite to a winding direction when the sheet is conveyed by the sheet conveying unit. . The sheet conveying unit is provided to be capable of reciprocating between the sheet unwinding position and the sheet supply completion position of the sheet end along the extending direction of the heating unit.
The winding of the protective film is started in the film winding unit after the sheet conveying unit starts moving from the sheet supply completion position to the sheet unwinding position. The thermoforming apparatus described in 1. The sheet conveying unit is a conveying roller located below the sheet,
The thermoforming apparatus according to claim 3, wherein the protective film attached to the sheet is wound around the transport roller and wound around the film winding unit. A thermoforming method using the thermoforming apparatus according to any one of claims 1 to 4,
Unwinding the roll sheet supported by the sheet support unit by the sheet conveying unit, and supplying the sheet to the heating unit;
Gripping the sheet end of the sheet supplied to the heating unit in a detachable manner by the sheet gripping unit;
A step of rotating the film winding unit and peeling the protective film from the sheet by winding the protective film stuck to the sheet gripped by the sheet gripping unit;
Heating the sheet by the heating unit;
Making the frame containing the base and the base material relatively close to the heating unit and contacting the heating unit via the sheet;
Reducing the pressure in the sealed space surrounded by the sheet and the frame, and molding the sheet, or adhering to the substrate;
A thermoforming method comprising the steps of:

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