JP2001001395A - Thermoforming machine, female mold for thermoforming, method for thermoforming, thermoforming manufacture of bowl-like container and bowl-like container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent introduction of soup to a folding portion of a molded bowl-like container by providing a main mold having many grooves on a shell peripheral in a female mold unit for thermoforming a bowl mold recess shape, and a plug for pressing a thermoplastic resin sheet into the main mold when molded and a male mold for pressing the sheet against the groove in a plug unit. SOLUTION: A thermally softened thermoplastic resin sheet is held. An upper table 1 is descended, a lower table 2 is raised. The sheet is pushed into an approaching female mold 52 by a pressure molding plug 17. When mold clamping is completed, a compressed air is supplied to a pressure molding chamber 16, pressurized to bring the sheet into close contact with an inner periphery of the female mold. The sheet is maintained in a semi-molten state in a rim-of-bottom forming recess in an intermediate mold 60. A bottom mold 65 fusion bonds both opposed surfaces when raised in the semi-molten state to eliminates a gap. The pressure air of the chamber 16 is discharged, molding is completed by raising the table 1. A cooling male mold 20 is introduced into the mold 52 to press the sheet to a longitudinal groove 56 to a completed product. Thus, two rims of bottoms are superposed, fusion bonded to eliminate a gap to be easily recycled by cleaning.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermoforming apparatus for producing a bowl-shaped container from a thermoplastic resin sheet, a female mold for thermoforming,
The present invention relates to a thermoforming method, a thermoformed manufacturing method of a bowl-shaped container, and the bowl-shaped container.

[0002]

2. Description of the Related Art When a bowl-shaped container having a thread bottom is manufactured using a thermoplastic resin sheet, according to a conventional method, a molten resin sheet is folded back at a thread bottom portion. FIG.
1 is a sectional view showing a yarn bottom portion manufactured in this manner.

[0003] On the other hand, the same applies to the case where irregularities are formed on the body peripheral portion. If folded in a pleated shape, the cross section is as shown in FIG.

[0004]

In the conventional thermoforming apparatus described above, an annular gap corresponding to the thread bottom is formed at the bottom of the bowl on the inner surface side of the folded container. For this reason, when soups are poured, they enter this gap.
Although there is no problem in disposing the container in a disposable manner, it is difficult to wash away the soup that has entered such a gap when trying to wash it for reuse.

[0005] Similarly, soups enter the gaps formed on the back side of the pleats in the waist, so that it is difficult to wash out the soups. The present invention has been made in view of the above problems, and has a thermoforming apparatus, a thermoforming female mold, and a thermoforming mold capable of preventing soups from entering when a part of a bowl-shaped container is folded and formed. An object of the present invention is to provide a molding method, a method for thermoforming a bowl-shaped container, and the provision of the bowl-shaped container.

[Means for Solving the Problems]

In order to achieve the above object, an invention according to claim 1 is a thermoforming apparatus having a thermoforming female unit and a plug unit, wherein the thermoforming female unit has a substantially bowl-shaped recess. The plug unit has a main mold formed in a shape and having a large number of grooves formed in a body peripheral portion, and the plug unit includes a plug for pushing a softened thermoplastic resin sheet into the main mold at the time of primary molding, and after the primary molding, It is configured to include a male mold that is pressed around the formation position of the groove in the main mold while the primary molded product is held in the main mold, and a switching mechanism that switches between these plugs and the male mold. .

[0007] In the invention according to claim 1 configured as described above, a large number of grooves are formed in the body periphery of the main mold formed in a substantially bowl-shaped concave shape in the female mold unit for thermoforming.
When the softened thermoplastic resin sheet is pushed into the plug by the plug of the plug unit and then brought into contact with the inner peripheral wall surface as the primary molding, the softened thermoplastic resin sheet enters the groove, and is in a state as if the resin sheet were folded. However,
At this point, the resin sheet is merely folded back, and a gap is formed. Therefore, after the primary molding, in a state where the primary molded product is held in the main mold,
The plug and the male mold are switched by the switching mechanism, and the male mold is pushed into the main mold. The male mold itself has a shape that is pressed around the formation position of the groove in the same main mold,
According to this, the same operation as pressure filling of the thermoplastic resin sheet that has not completely entered the groove in the main mold is performed, so that the generated gap is closed.

As described above, although the groove is filled with the thermoplastic resin sheet in the male mold, it is also effective to make it easier for the thermoplastic resin sheet to enter the groove during the primary molding. For this reason, the invention according to claim 2 is the thermoforming device according to claim 1, wherein the thermoforming apparatus includes a heater that heats a body peripheral portion of the main mold in which the plurality of grooves are formed. In the invention according to claim 2 configured as described above, the temperature of the circumferential portion where the groove is formed can be raised, so that the thermoplastic resin sheet is prevented from being cured before entering the groove. And it is relatively easy to enter.

When a heater is provided, it is also significant to use a cooling male mold for forcibly cooling the thermoplastic resin sheet pushed into the groove in order to easily cure the sheet. In order to heat only a part of the main mold as described above, the invention according to claim 3 is the thermoforming apparatus according to claim 2, wherein the main mold has a part having the heater as an independent mold. This is the configuration formed by. In the invention according to claim 3 configured as described above, since the portion having the heater in the main mold is formed by an independent mold, heat is not easily transmitted to other portions, and appropriate temperature control can be performed.

The thermoforming apparatus of the present invention can be said to have a great feature in the female mold, and in that sense, it can be configured as an invention of the thermoforming female mold alone. That is, in the invention according to claim 4, the heater is arranged on the inner peripheral surface while being formed in a substantially bowl-shaped concave shape, and the portion forming the trunk portion is formed in a type independent of other portions. Form a large number of grooves, press the softened thermoplastic resin sheet into the mold with a plug at the time of primary molding, after primary molding, switch to the cooling male mold while the primary molded product is held in the mold, and in the same mold A rib is formed in the groove by pressing against the vicinity of the formation position of the groove.

[0011] It is also possible to similarly configure the invention of a method of forming such a rib. That is, claim 5
The invention according to the present invention is characterized in that a plurality of grooves are formed in the body periphery of a main mold formed in a substantially bowl-shaped concave shape of a thermoforming female mold unit, and a soft thermoplastic resin is formed in the main mold by a plug during primary molding. After the resin sheet is pushed in and the primary molding is performed, the primary molded product is held in the main mold and switched to a male mold, and pressed around the groove forming position in the same main mold to form a rib in the groove. There is a configuration to do.

Furthermore, it is also possible to constitute the invention of a method of manufacturing a bowl-shaped container having such ribs.
That is, the invention according to claim 6 is a method for thermoforming a bowl-shaped container in which a softened thermoplastic resin sheet is interposed between a thermoforming female mold unit and a plug unit to produce a bowl-shaped container by thermoforming. A plurality of grooves are formed in the body periphery of the main mold formed into a substantially bowl-shaped concave shape of the female mold unit for thermoforming, and a softened thermoplastic resin sheet is formed in the main mold by a plug during primary molding. After the primary molding, after switching to the cooling male mold in a state where the primary molded product is held in the main mold and pressing against the formation position of the groove in the main mold, the main body is pressed against the body peripheral portion. It is configured to manufacture a bowl-shaped container provided with ribs at corresponding positions.

On the other hand, the thermoformed product formed as described above has an unprecedented feature, and itself constitutes one invention. In other words, the invention according to claim 7 is a bowl-shaped container formed of a thermoplastic resin sheet, wherein a plurality of ribs protruding outward on a body peripheral portion and having no slit-shaped concave portion on an inner peripheral surface. Is formed. In the invention according to claim 7 configured as described above, thermal conductivity is hindered by the presence of the rib, so that even if hot juice is poured, the peripheral surface of the rib does not become hot, and the juice is present in the folded gap. There is no intrusion.

Further, the invention according to claim 8 is the bowl-shaped container according to claim 7, wherein the rib is formed by pushing the thermoplastic resin sheet into a groove formed in a molded female mold. There is. In the invention according to claim 8 configured as described above, since the thermoplastic resin sheet is pushed into the groove formed in the molded female mold, the gap can be closed relatively easily.

As an example of a thermoforming apparatus for closing an annular gap corresponding to the yarn bottom, a thermoforming female mold and a plug which advances and retreats so as to push a softened thermoplastic resin sheet into the thermoforming female mold are provided. Wherein the female mold for thermoforming is formed in a substantially bowl-shaped concave shape, and communicates with the bowl-shaped concave bottom opening while being connected to the bowl-shaped bottom wall and the outer wall of the thread bottom. A thread bottom forming recess forming an inner wall, a bottom wall, and an inner wall; a back side of the thread bottom forming recess formed in a columnar shape similar to the bowl bottom opening and supported to advance and retreat with respect to the thread bottom forming recess. Having a bottom die driven between a first stop position retracted to the second stop position adjacent to the bowl bottom opening, and holding the bottom die at the first stop position. ,
While pushing the thermoplastic resin sheet heated and softened by the plug, immediately after the thermoplastic resin sheet is brought into close contact with the inner peripheral surface of the bowl-shaped concave shape, the bottom mold is moved to the second stop position. It is good also as composition which moves and forms a thread bottom.

In the above-described configuration, the thermoforming female mold is provided with a plug which advances and retreats to push the softened thermoplastic resin sheet into the thermoforming female mold. here,
The thermoforming female mold is formed in a substantially bowl-shaped concave shape, and communicates with the bowl-shaped concave bowl bottom opening so as to form the bowl-shaped bottom wall and the outer wall, the bottom wall, and the inner wall of the yarn bottom. A thread bottom forming recess is formed. Further, a bottom mold formed in a columnar shape similar to the bowl bottom opening is supported so as to be able to advance and retreat with respect to the thread bottom forming recess, and a first stop position retracted to the back side of the thread bottom forming recess. And a second stop position close to the opening.

Therefore, while the bottom mold is held at the first stop position, the thermoplastic resin sheet heated and softened by the plug is pushed in, and the thermoplastic resin sheet is pressed into the inner periphery of the bowl-shaped concave shape. When the thermoplastic resin sheet is brought into close contact with the surface, the thermoplastic resin sheet once swells along the upper surface of the bottom die located on the back side of the thread bottom forming recess. However, immediately after this, the bottom mold is moved to the second stop position, so that the thermoplastic resin sheet on the bottom mold upper surface portion is pushed up from the side of the thread bottom forming recess to the bowl-shaped concave bowl bottom opening. .

Then, the peripheral edge of the thermoplastic resin sheet rolled up by the bottom mold and the thermoplastic resin sheet near the opening of the thread bottom forming recess are welded. That is, although the thermoplastic resin sheet swells in the thread bottom forming concave portion continuous from the bowl bottom opening, the bottom of the bowl is immediately raised toward the bowl bottom opening, and the thermoplastic resin sheets are brought into close contact and welded. Further, as an example of the configuration, the thread bottom forming recess may be configured so as to form the outer wall and the bottom wall by having a portion whose inner diameter is reduced after continuing from the bowl bottom in a divergent shape.

In the above configuration, the inner diameter of the thread bottom forming concave portion is reduced after continuing from the bowl bottom opening to the divergent shape, so that the divergent thread bottom outer wall surface is formed at the inclined portion. The bottom wall of the yarn bottom is formed at a flat portion where the inner diameter is further reduced. Also, the inner wall surface of the yarn bottom that is rolled up and welded is welded at the opening of the bowl bottom, and has a substantially triangular cross section, and a cavity is formed inside the yarn bottom. Accordingly, a high-quality bowl-shaped container having a stable and voluminous feeling with the outer shape of the yarn bottom spreading out can be formed.

Further, as another configuration example, the thread bottom forming recess has a portion where the inner diameter is slightly reduced after being continued from the bowl bottom opening with substantially the same diameter. May be formed. In the case of the above configuration, the outer shape of the vertical thread bottom is formed in a portion that is continued from the bowl bottom opening in the thread bottom forming recess with substantially the same diameter, and the tip is turned up from a portion where the inner diameter is slightly reduced. Forming the inner peripheral surface of the thread bottom. Then, since the thermoplastic resin sheet is inverted at the continuous portion of both, the inverted portion forms a bottom wall. In this case, the yarn bottom outer wall surface and the yarn bottom inner wall surface are welded as a whole and become solid. Therefore, a strong yarn bottom in which two thermoplastic resin sheets are stacked can be formed.

Further, as another configuration example, the portion where the inner diameter is slightly reduced has a thickness slightly smaller than approximately twice the thickness of the thermoplastic resin sheet so that it does not roll up when folded. It may be. In the case of the above configuration, the thread bottom forming concave portion has a concentric cylindrical surface, but at a portion where the inner diameter is reduced, it is pushed up by the rise of the bottom die, and the portion is inverted to the side having the larger inner diameter. Since the gap in which the thermoplastic resin sheet is folded is approximately twice the thickness of the thermoplastic resin sheet, just two sheets are superimposed, and the two sheets are pressed together and welded by a slightly reduced amount. Therefore, the range to be slightly narrowed is set to a range that satisfies such a condition. In addition, since the thermoplastic resin sheet is extended with the plug,
It is thinner than the original thickness.
Slightly narrower than the sheet. Therefore, when forming the yarn bottom, the outer wall can be accurately folded without being turned up.

Further, as another configuration example, the concave portion for forming the yarn bottom is configured to be continued from the portion where the outer wall and the bottom wall are formed to the back by a length substantially equal to the yarn bottom again. In the case of the above-described configuration, the thermoplastic resin sheet is swelled once more than the bottom wall because it is continued to the back by substantially the yarn bottom length, and then this portion is folded back to form the yarn bottom inner wall surface. In other words, since it is inflated by the amount to be folded, it is possible to prevent the outer wall surface of the yarn bottom from being turned up at the time of folding. Therefore, since an allowance for folding is secured in advance, the inner wall surface can be accurately folded.

Further, as another configuration example, the thermoforming female mold may have a heater near the thread bottom forming concave portion, so that the temperature is higher than other portions.
In the case of the above configuration, since the heater is arranged near the yarn bottom forming recess in the female mold for thermoforming, the temperature can be raised more than other portions. Because the temperature is high,
The thermoplastic resin sheet does not harden instantaneously even when it comes into contact with the inner peripheral wall surface of the thread bottom forming concave portion, and is rolled up in a semi-molten state when the bottom mold is driven immediately thereafter.
Then, after a short period of time after being turned up, the original curing occurs. That is, raising the temperature has the significance of slightly delaying the curing timing, but does not raise the temperature to such a degree as to cause melting. Therefore, it is possible to prevent the thermoplastic resin sheet from being cured immediately in the initial stage of molding, and to easily weld the thermoplastic resin sheet while welding it.

It can be said that such a thermoforming apparatus is mainly characterized by a female mold, and in that sense, it can be constituted by the invention of the thermoforming female mold alone. That is, a thread bottom forming recess which is formed in a substantially bowl-shaped concave shape, and communicates with the bowl-shaped concave bowl bottom opening and forms the bowl-shaped bottom wall and the outer wall of the thread bottom, and the bottom wall and the inner wall; A first stop position which is formed in a columnar shape similar to the bowl bottom opening and is supported so as to be able to advance and retreat with respect to the thread bottom forming recess and retracted to the back side of the thread bottom forming recess, and is close to the bowl bottom opening. A bottom mold driven between the second stop position and the bottom mold held in the first stop position, while the thermoplastic resin sheet heated and softened by the plug is pushed in. Meanwhile, immediately after the thermoplastic resin sheet was brought into close contact with the inner peripheral surface of the bowl-shaped concave shape,
The bottom die may be moved to the second stop position to form a thread bottom.

Further, a method and a method for forming such a yarn bottom can be similarly provided. That is, the bowl bottom opening of the female mold for thermoforming formed in a substantially bowl-shaped concave shape communicates with the thread bottom forming recess forming the bottom wall and the inner wall with the outer wall of the bowl-shaped bottom wall and the yarn bottom, On the back side of the thread bottom forming recess, a column-shaped bottom mold similar to the bowl bottom opening is supported so as to be able to advance and retreat with respect to the thread bottom forming recess, and the bottom mold is located on the back side of the thread bottom forming recess. In the state of being held at the first stop position evacuated, the heat-softened thermoplastic resin sheet is brought into close contact with the inner peripheral surface of the bowl-shaped concave shape, and immediately thereafter, the bottom mold is brought into close proximity to the opening. The stop may be moved to the stop position to form the thread bottom, and the bottom die may be retracted to the first stop position.

Furthermore, a method for manufacturing a bowl-shaped container having such a thread bottom can be similarly configured. That is, a method for thermoforming a bowl-shaped container in which a heat-softened thermoplastic resin sheet is brought into close contact with the inner peripheral surface of a thermoforming female mold formed in a substantially bowl-shaped concave shape to produce a bowl-shaped container, The bowl bottom opening of the female mold for thermoforming formed in a substantially bowl-shaped concave shape is communicated with the bottom wall of the bowl shape and the outer wall of the thread bottom and the thread bottom forming recess forming the bottom wall and the inner wall. On the back side of the forming recess, a column-shaped bottom mold similar to the bowl bottom opening is supported so as to be able to advance and retreat with respect to the thread bottom forming recess,
With the bottom die held at the first stop position retracted to the back side of the yarn bottom forming concave portion, the heat-softened thermoplastic resin sheet is brought into close contact with the inner peripheral surface of the bowl-shaped concave shape, and immediately thereafter. Then, the bottom mold may be moved to a second stop position close to the opening to form a thread bottom, and the bottom mold may be retracted to the first stop position.

On the other hand, the thermoformed product formed as described above has an unprecedented feature, and itself constitutes one invention. That is, a bowl-shaped container having a yarn bottom may be formed in a hollow shape. The thread bottom serves as a platform on which the bowl does not roll, and also has the function of preventing the finger from directly touching the wall of the bowl. In the latter case, pouring hot juice transfers heat to the wall and prevents the bowl from being lost. Therefore, it is better that the yarn bottom does not easily conduct heat. In this respect, since the heat conductivity is reduced by making the thread bottom hollow, even if hot juice is poured, the amount of heat transmitted to the finger via the thread bottom is reduced.

The invention is also constituted by molding such a bowl-shaped container using a thermoplastic resin sheet. That is, the bowl-shaped container is formed of a thermoplastic resin sheet, and the hollow thread bottom is formed by folding the thermoplastic resin sheet continuous to the side wall surface and the bowl bottom wall surface in a bag shape and heat-welding the wall surface side. The configuration may be as follows. When the thread bottom forming concave part whose inner diameter is narrowed after the above-mentioned divergent shape is used, the thread bottom becomes substantially triangular and a cavity is formed. In the case of the above configuration, the cavity is formed by folding a thermoplastic resin sheet having a substantially uniform thickness into a bag shape, and the cavity is not biased as in the case where the molten resin is filled and molded. In addition, if there is a cavity, the volume of the external appearance is increased as compared with the actual amount of the thermoplastic resin sheet used.

Further, as another configuration example, the outer peripheral surface of the hollow yarn bottom may be formed as an inclined surface that spreads outward as it goes downward. If configured as above,
When forming a cavity by folding it back in a bag shape, it is more voluminous to bulge outward, and it is easier to vertically form the inner wall surface formed by the bottom mold. According to the configuration as described above, in forming a bowl-shaped container having a thread bottom from a thermoplastic resin sheet, no gap is formed inside,
It is possible to provide a thermoforming apparatus, a thermoforming female mold, a thermoforming method, a thermoformed manufacturing method of a bowl-shaped container, and a bowl-shaped container that can be easily reused by washing.

[0030]

As described above, according to the first to eighth aspects of the present invention, when forming a bowl-shaped container having a large number of ribs on the body periphery from a thermoplastic resin sheet,
A thermoforming apparatus, a female mold for thermoforming, a thermoforming method, a thermoforming manufacturing method of a bowl-shaped container, and a bowl-shaped container capable of facilitating reuse by washing without forming a gap inside. it can.

According to the second aspect of the present invention, it is possible to prevent the rib portion from being hardened immediately in the initial stage of forming the thermoplastic resin sheet, and to form the rib properly during the secondary forming. The gap can be welded.
Furthermore, according to the third aspect of the present invention, it is possible to efficiently control only the temperature of a necessary part.

[0032]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view of a main part of a thermoforming apparatus according to an embodiment of the present invention, and FIG. 2 is a timing chart showing an operation sequence of the thermoforming apparatus.

In the figure, an upper table 1 and a lower table 2 are fixed to a driving device (not shown), and can be moved up and down within a predetermined stroke by the driving device. An upper table device 10 is attached to the upper table 1, and a lower table device 50 is attached to the lower table 2. A mounting plate 11 is fixed to the upper table 1 and further provided with a base 12 which is guided by a guide bar (not shown) and is free to move in the horizontal direction. A block 13 protrudes from the upper surface of the base 12, and a distal end of a rod 14 a of a pneumatic cylinder 14 serving as driving means fixed to the mounting plate 11 is connected to the block 13.

That is, the base 12 is a pneumatic cylinder 14
, And is movable in the horizontal direction by a predetermined stroke by the pneumatic cylinder 14. A stopper 15 is provided on the mounting plate 11 to adjust the moving range.
The outer end surface 13a of the third member 3 is brought into contact with the stopper 15 so that positioning can be adjusted. On the lower surface of the base 12, a pneumatic molding chamber 16 whose lower part is opened is attached, and a pneumatic molding plug 17 is provided at a central position of the chamber 16. Further, a cooling male mold 20 is arranged on the base 12 at a constant interval from the plug 17.
When the rod 14a is extended and contracted by the pneumatic cylinder 14, the cooling male mold 20 and the pneumatic forming plug 17 can be switched. That is, the upper table device 10 is configured such that the plug 17 and the cooling male mold 20 can be alternately switched.

The cooling male mold 20 has an outer shape for molding the inner surface of the bowl-shaped container 80 shown in FIG. 5, and as shown in the sectional view of FIG. In order to maintain the cooling liquid, a cooling passage 21 for circulating a cooling liquid is formed. Further, the opening 81 of the bowl-shaped container 80 and the body peripheral portion 8
A vacuum suction hole 22 is appropriately provided in a portion corresponding to the vicinity of 2. On the other hand, on the base 51 of the lower table device 50, a female mold 52 shown in FIG. The female mold 52 is arranged in a frame 53 forming a hermetic space in a pair with the chamber 16, and has an inner surface in a bowl-shaped concave shape for forming a bowl-shaped container 80 as a molded product.

The female mold 52 mainly comprises an upper mold 55, a middle mold 60 and a bottom mold 65. Upper mold 55 is bowl-shaped container 80
The upper part of the body peripheral part 82 is formed from the opening 81 of the body part, and the body peripheral part 82 is formed by arranging the vertical grooves 56 on the inner surface. The vertical groove 56 has, for example, a thickness of 0.7 m.
This is for forming a rib 83 having a size of about 2.5 mm in length and about 2.5 mm, and is formed to have the same depth and shape. The middle die 60 is a part for forming a part of the yarn bottom 84 having a divergent shape from below the trunk peripheral portion 82, and the bottom surface is open. A bottom die 65 is vertically movably inserted into the opening, and is driven up and down by a pneumatic cylinder 67 as described later.

The middle mold 60 has an opening formed in the bowl bottom of the bowl-shaped concave shape, and once becomes divergent so that the divergent yarn bottom 84 continues from the bowl bottom opening, and then narrows in the horizontal direction. The narrowing portion is an opening slightly larger than the bottom opening of the bowl, and forms a hole 62 communicating directly downward in the vertical direction. The bottom die is accommodated with a predetermined clearance provided in the hole 62, the upper surface is substantially flat, and the corners of the peripheral edge are rounded. The diameter of the bottom die 65 itself is formed slightly larger than the bowl bottom opening. Here, the bottom die 65 has a top surface substantially coincident with the surface of the middle die 60 that narrows in the horizontal direction at the lower end position, and the above R at the upper end position.
The surface is located at a position slightly separated from the inclined surface forming the yarn bottom 84. It should be noted that a clearance is generated at a position slightly apart so that two thermoplastic resin sheets can be overlapped and welded. In addition, the part which forms the lower thread bottom from the bowl bottom opening is called a thread bottom forming recess.

The vertical groove 56 in the upper die 55
A heater 57 for setting the mold temperature to a relatively high temperature is provided on the outer peripheral side of the vicinity of the rows, so that the thermoplastic resin sheet is not cured immediately even when it comes into contact with the vertical groove 56 portion. I have to. Similarly, a heater 6 for setting the mold temperature slightly lower around the yarn bottom forming portion in the middle mold 60.
1, so that the curing time of the thermoplastic resin sheet is slightly delayed although it is not as high as that of the upper mold. Further, the bottom mold 65 is provided with a cooling passage 66 for circulating a coolant in order to cool the thermoplastic resin sheet relatively quickly.

Next, the operation of this embodiment having the above configuration will be described with reference to the timing chart of FIG.
Note that a heater, a feeder, and the like are arranged at the preceding stage of the thermoforming device, but a general device can be used, and a description thereof will be omitted. At the start of molding, the rod 14a of the pneumatic cylinder 14 is contracted. As a result, the pressure forming chamber 1 is placed on the vertical upper surface of the frame 53.
6 and the compressed air forming plug 17 are located.

In this state, at the timing T1, the surface temperature becomes about 180 ° C. by the heater unit (not shown).
The upper table 1 starts lowering with the thermoplastic resin sheet S of polypropylene or the like softened by heating to a certain degree, and the lower table 2 starts rising. As a result, the pneumatic molding chamber 16 and the pneumatic molding plug 17 together with the mounting plate 11 fixed to the upper table 1 start to descend, and the frame 53 and the female mold 52 fixed to the lower table 2 rise. To start.

On the way, the compressed air forming plug 17 is pressed against the thermoplastic resin sheet, and the female
Push into 2. When the molding is completed by clamping the thermoplastic resin sheet between the pressure forming chamber 16 and the frame 53, the compressed air is supplied into the pressure forming chamber 16 at timing T2, and further at timing T3, which is a minute timing later. The bottom mold 65 is raised via the pneumatic cylinder 67. The deformation process of the thermoplastic resin sheet during this time is shown in FIGS. 6 and 7 and 8 in enlarged views. As shown in FIGS. 6 and 7, when the pressure forming chamber 16 is pressurized, the thermoplastic resin sheet tends to bulge toward the female mold 52 and comes into close contact with the inner shape of the female mold. In this state, the temperature of the upper mold 55 is relatively high, and the thermoplastic resin sheet in contact with the vertical groove 56 does not immediately become rigid. on the other hand,
Although the temperature of the middle mold 60 is lower in the concave portion for forming the yarn bottom, the semi-molten state is maintained for a very short time. On the other hand, the thermoplastic resin sheet in close contact with the upper surface of the bottom mold 65 even in the thread bottom forming recess is relatively quickly stiffened on that surface, and then when the bottom mold 65 is raised, the bottom is raised as shown in FIG. The portion of the peripheral edge that is in contact with the R surface is pressed against the portion that is in contact with the inclined surface. Since the time during this period is relatively short, at least the portions facing each other are in a semi-molten state with each other, and the gap is eliminated by welding. FIG. 9 shows a cross section of the yarn bottom 84 thus welded. Note that this raised position is the second stop position, and the first standby position is the first stop position.

At timing T4, the pressurized air in the pressurized air forming chamber 16 is released to the atmosphere while the bottom mold 65 is raised, and only the upper table 1 is raised at timing T5. At this point, the primary molding is completed, and the primary molded product remains held in the female mold 52. Subsequently, the rod 14 of the pneumatic cylinder 14
When a is extended, the cooling male mold 20 is moved to the position where the compressed air forming plug 17 was located, and the upper table 1 is lowered again at timing T7.

As the upper table 1 descends, the cooling male mold 20 enters the female mold 52 this time. 10 and 11
Shows the last step of the completion of the cooling male mold 20 entering the female mold 52. The supply of compressed air only to the compressed air forming chamber 16 does not mean that the thermoplastic resin sheet S completely enters the vertical groove 56, and that the thermoplastic resin sheet S enters the extent shown in FIG. Only. However, when the cooling male mold 20 completely enters the female mold 52, the cooling male mold 20 presses the thermoplastic resin sheet toward the female mold 52, and the rigidized sheet is not yet rigid as shown in FIG. As a result, no gap is formed on the inner surface side of the bowl-shaped container 80 as shown in FIG. That is, the cooling male mold 20
Presses the primary molded body against the inner surface of the female mold 52 to form the above-mentioned ribs 83 or to form the upper surface side of the opening portion of the bowl-shaped container 80, thereby performing secondary molding to complete the secondary A molded body is formed.

Finally, at a timing T8, a vacuum pressure is temporarily applied to the vacuum suction holes 22 of the cooling male mold 20, and at a timing T9, the bottom mold 65 at the second stop position is first stopped. Lower to position. Next, when the lower table 2 is lowered at the timing T10 while the vacuum pressure is applied, the bowl-shaped container 80 is exposed around the cooling male mold 20 in a state of being attached. The compressed air is supplied from timing T12 while the supply is stopped. Then, since the bowl-shaped container 80 formed on the thermoplastic resin sheet S is released from the cooling male mold 20, the upper table 1 is raised at timing T13, and the supply of compressed air is stopped at timing T14.

As described above, the upper table 1 and the lower table 2
And the thermoplastic resin sheet S of the bowl-shaped container 80 remains therebetween. Finally, at timing T15, the rod 14a of the pneumatic cylinder 14 is contracted to prepare for the next molding. As described above, although the thermoplastic resin sheet swells at the thread bottom forming concave portion continuous from the bowl bottom opening of the female mold 52, the bottom mold 65 of the bowl bottom is immediately raised toward the bowl bottom opening, and the thermoplastic resin sheet is raised. As a result of bringing the two pieces into close contact with each other and welding them, no gap is formed, and when the thermoplastic resin sheet is swollen as primary molding in the female mold 52 and brought into contact with the inner peripheral wall surface, the thermoplastic resin sheet becomes Vertical groove 56 formed in
When the cooling resin mold 20 is switched to the cooling male mold 20 and pushed into the main mold, the thermoplastic resin sheet that has not completely filled the vertical groove 56 is filled under pressure to form ribs 83 on the inner peripheral surface. Gaps are closed.

Next, FIGS. 15 to 20 show a second embodiment of the present invention. In the present invention, instead of the integrated pressure forming plug 17, a pressure forming plug 71 having a top portion 71 a and a body portion 71 b formed separately from each other is provided.
The thread-bottom-forming recess formed at the bottom is not a divergent shape but a cylindrical shape, and has a slightly smaller diameter when extended by the length of the thread bottom, and again has the same diameter as the cylindrical shape. Corresponding to this, the bottom mold 73 is supported movably in the vertical direction in close contact with the cylindrical portion having a small diameter, and is driven up and down by the pneumatic cylinder 67. The cooling male mold 20 is unnecessary, and the switching pneumatic cylinder 14 and the like are also unnecessary.

In this embodiment, the compressed air forming plug 7
The reason why 1 is formed separately is as follows. First, the concave portion for forming the yarn bottom has a depth not only extended by the original yarn bottom length but further extended substantially by the yarn bottom length. This forms the outer wall of the yarn bottom at the first yarn bottom length,
This is for forming the inner wall of the yarn bottom at the next yarn bottom length portion. The inner wall is formed by folding back when the bottom mold 73 is raised. As described above, since the thread-bottom forming concave portion is deep, simply inserting the compressed-air forming plug 71 into the bowl-shaped concave shape in the female mold 72 is not sufficient when the compressed air is supplied to expand the thermoplastic resin sheet. It must be stretched far from the position to the far side of the yarn bottom, and the wall thickness for obtaining a predetermined strength cannot be obtained. On the other hand, if the tip of the plug is made to enter the inside of the thread-bottom forming recess, the problem of the wall thickness is eliminated, but when the bottom mold 73 is pushed up, it interferes with the plug.

For this reason, as shown in FIG.
Is lowered to the first stop position, the compressed air forming plug 7
Although the top 71a of the first part enters the thread bottom forming recess, as shown in FIG. 16, when the bottom mold 73 rises to the second stop position, the top 71a can be retracted from the thread bottom forming recess into the female mold 72 in advance. The top 71a and the body 71b are formed separately. In addition, the top part 71a is the trunk part 71.
b has a cylinder piston structure,
By pressurizing or depressurizing the inside of 1b, the top portion 71a is brought into a protruding state or into a retracted state.

At the beginning of the molding process, the top portion 71a is made to protrude, and the lower table 2 is raised while lowering the upper table 1 with a thermoplastic resin sheet interposed therebetween. Then
The thermoplastic resin sheet is extended to the inside of the thread-bottom forming recess at the tip of the top portion 71a of the pressure-forming plug 71, and when the mold clamping between the pressure-forming chamber 16 and the frame 53 is completed, the same thermoplastic resin sheet is formed. When the compressed air is supplied to the chamber 16, the thermoplastic resin sheet is almost in close contact with the inner peripheral surface of the female mold 72 as shown in FIG. In the case of the female die 52, the heater is partially provided, but the female die 72 of this time is not provided with a heater. Therefore, the portion close to the female mold 52 starts to be stiffened earlier than in the example on the left.

On the other hand, immediately after the compressed air is supplied to the compressed air forming chamber 16, a vacuum is supplied to the inside of the compressed air forming plug 71 to retract the top portion 71 a, and the compressed air is supplied to the pneumatic cylinder 67 to retract the bottom. The mold 73 is raised. Initially, when the thermoplastic resin sheet is swollen, the yarn bottom portion is shown in FIG.
As shown in FIG. 8, it has a form extending downward in two stages, and does not have a so-called thread bottom shape. However, each of the outer peripheral surfaces extending in two stages is already a female mold 72.
Closely related, rigidification has begun.

However, when the bottom die 73 is immediately raised as shown in FIG. 19, the portion which has been in close contact with the inner peripheral wall surface of the small diameter portion in the thread bottom forming recess is folded back to the inside and That is, the surfaces that have not been in contact with the female mold 72 come into close contact with each other. Since the portions that were not in contact with the female mold 72 are still in a semi-molten state, they are welded by being in close contact with each other, and the portions that have been in contact with the female mold 72 have already begun to be rigid, so they do not lose shape. An outer peripheral wall and an inner peripheral wall of the yarn bottom are formed. FIG. 20 is an enlarged view of this folded state.

In order to weld the inner peripheral surfaces to each other, it is necessary to press to some extent. Therefore, in the portion where the thread bottom forming concave portion has a small diameter, the difference in the diameter is twice (2t) the thickness t of the thermoplastic resin sheet. ) Must be slightly narrower. That is, if it is twice or more (2t) or more, even if it is folded, the inner peripheral surfaces do not come into close contact with each other, leaving a gap as it is and hardening. On the other hand, if it is much narrower than twice (2t), it will not be able to turn back well,
When the bottom mold 73 is pushed up, the entire yarn bottom may be pushed up into the female mold 72. Therefore, it is necessary to adjust the two-step shape of the thread bottom forming recess from the above viewpoint.

Since the yarn bottom formed as described above is obtained by combining two thermoplastic resin sheets, the yarn bottom has high strength and is practically useful. Further, when the thickness is large, the feeling of weight and luxury is increased, so that the texture of the molded article can be improved.

[Brief description of the drawings]

FIG. 1 is a partially cutaway side view of a thermoforming apparatus according to an embodiment of the present invention.

FIG. 2 is a timing chart showing an operation sequence of the thermoforming apparatus.

FIG. 3 is an enlarged schematic sectional view of a cooling male mold of the thermoforming apparatus.

FIG. 4 is an enlarged schematic sectional view of a female mold of the thermoforming apparatus.

FIG. 5 is a side view of a bowl-shaped container formed by the thermoforming device.

FIG. 6 is a sectional view of a main part of the thermoforming device in a mold-clamped state.

FIG. 7 is a schematic sectional view of the thermoforming apparatus immediately after molding is started.

FIG. 8 is a schematic cross-sectional view of the thermoforming device in a state where a bottom mold is raised.

FIG. 9 is a cross-sectional view of a yarn bottom portion of the molded body in the same state.

FIG. 10 is a schematic sectional view of the thermoforming apparatus immediately after the start of secondary molding.

FIG. 11 is a schematic cross-sectional view at the time of completion of secondary molding in the thermoforming device.

FIG. 12 is a schematic sectional view of a rib of a molded body immediately after the start of secondary molding.

FIG. 13 is a schematic view showing a process in which a thermoplastic resin sheet flows in secondary molding.

FIG. 14 is a schematic cross-sectional view of a rib of a molded body at the time of completion of secondary molding.

FIG. 15 is a schematic cross-sectional view of a thermoforming device according to a modified example in a state where a bottom mold is lowered.

FIG. 16 is a schematic cross-sectional view of the thermoforming apparatus in a state where a bottom mold is raised.

FIG. 17 is a schematic sectional view of the thermoforming apparatus immediately after the start of molding.

FIG. 18 is a schematic sectional view of a yarn bottom portion of the molded body in the same state.

FIG. 19 is a schematic cross-sectional view of the thermoforming apparatus in a state where a bottom mold is raised.

FIG. 20 is a schematic cross-sectional view of a yarn bottom portion of the molded body in the same state.

FIG. 21 is a schematic sectional view of a yarn bottom portion in a conventional bowl-shaped container.

FIG. 22 is a schematic sectional view of a rib portion in a conventional bowl-shaped container.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Upper table 2 ... Lower table 10 ... Upper table device 11 ... Mounting plate 12 ... Base 13 ... Block 13a ... Outer end surface 14 ... Pneumatic cylinder 14a ... Rod 15 ... Stopper 16 ... Pneumatic forming chamber 17 ... Pneumatic forming plug Reference Signs List 20 cooling male mold 21 cooling passage 22 vacuum suction hole 50 lower table device 51 base 52 female 53 53 frame 55 upper mold 56 vertical groove 57 heater 60 medium mold 61 heater 62 hole 65 ... Bottom mold 66 ... Cooling passage 67 ... Pneumatic cylinder 71 ... Pneumatic molding plug 71a ... Top 71b ... Body 72 ... Female mold 73 ... Bottom mold 80 ... Bowl-shaped container 81 ... Opening 82 ... Body circumference 83 ... Rib 84 ... thread bottom

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification FI FI Theme Court ゛ (Reference) // B29L 22:00 (72) Inventor Akio Yoshikoshi 158 Kitayama 247 Inside Asano Research Laboratories Co., Ltd. (72) Takashi Yoshikawa 247 Asano Research Laboratories Co., Ltd.

Claims (8)

[Claims] 1. A thermoforming apparatus having a female unit for thermoforming and a plug unit, wherein the female unit for thermoforming is formed in a substantially bowl-shaped concave shape and has a large number of grooves in a body peripheral portion. And the plug unit has:
A plug that pushes the softened thermoplastic resin sheet into the main mold at the time of the primary molding, and after the primary molding, the plug is pushed around the formation position of the groove in the main mold while the primary molded product is held in the main mold. A thermoforming apparatus comprising: a male mold to be applied; and a switching mechanism for switching between the plug and the male mold. 2. The thermoforming apparatus according to claim 1, further comprising a heater for heating a body peripheral portion of the main mold having the plurality of grooves. 3. The thermoforming apparatus according to claim 2, wherein the main mold has a portion having the heater formed by an independent mold. 4. A plurality of grooves are formed in the inner peripheral surface by forming a substantially bowl-shaped concave shape and arranging a heater while forming a body peripheral portion in a mold independent of other parts. During the primary molding, the softened thermoplastic resin sheet is pushed into the mold with a plug, and after the primary molding, the cooling mold is switched to the cooling male mold while the primary molded article is held in the mold, and the position of the groove in the mold is formed. A female mold for thermoforming, characterized in that a rib is formed in the groove by pressing against the periphery. 5. A plurality of grooves are formed in a body portion of a main mold formed in a substantially bowl-shaped concave shape of a female mold unit for thermoforming, and softened thermoplastic resin is inserted into the main mold by a plug during primary molding. After the resin sheet is pushed in and the primary molding is performed, the primary molded product is held in the main mold and switched to a male mold, and pressed around the groove forming position in the same main mold to form a rib in the groove. A thermoforming method. 6. A method for thermoforming a bowl-shaped container, wherein a softened thermoplastic resin sheet is interposed between a female mold unit for thermoforming and a plug unit to produce a bowl-shaped container by thermoforming. A large number of grooves are formed in the body circumference of the main mold formed into a substantially bowl-shaped concave shape of the female mold unit for use, and at the time of primary molding, a softened thermoplastic resin sheet is pressed into the main mold by a plug to form the primary molding. Then, by switching to the cooling male mold in a state where the primary molded product is held in the main mold, and pressing it around the formation position of the groove in the main mold, the rib is moved to a position corresponding to the trunk peripheral portion. A method for thermoforming a bowl-shaped container, comprising producing a bowl-shaped container provided with: 7. A bowl-shaped container formed of a thermoplastic resin sheet, wherein a plurality of ribs protruding outward on a body peripheral portion and having no slit-shaped concave portions are formed on an inner peripheral surface. Characteristic bowl-shaped container. 8. The bowl-shaped container according to claim 7, wherein the rib is formed by pushing the thermoplastic resin sheet into a groove formed in a molded female mold.