JP2001079864A - Apparatus for producing resin film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To keep a distance to a cast surface at a desired value and to protect the cast surface from damage by providing distance detectors for detecting the distance. SOLUTION: In an apparatus for producing a resin film, distance detectors 4-8 are installed in a mouthpiece device 1 or a film adhesion device 2, and on the basis of distance information from the detectors 4-8, the distance between the device 1 or the device 2 and a cast surface is made always to be grasped. The distance between the device 1 or the device 2 and the cast surface can be kept/controlled at a desired value so that the resin film can be produced stably. Moreover, when the device 1 or the device 2 approaches the cast surface abnormally, by the automatic sheltering of the device 1 or the device 2, the cast surface can be prevented from being hurt in advance to achieve the improvement in the productivity of the film.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for manufacturing a resin film. The apparatus for producing a resin film of the present invention includes:
It is particularly preferably used when a molten resin or a resin having fluidity dissolved in a solvent is discharged from a slit gap of a die to form a film.

[0002]

2. Description of the Related Art A die apparatus for continuously discharging a molten resin or a solution resin in a film form, a casting apparatus having a continuously moving casting surface on which a film discharged from the die apparatus is mounted, and 2. Description of the Related Art There is known a resin film manufacturing apparatus including a film adhesion device for bringing a film placed on a cast surface into close contact with the cast surface.

In such a resin film manufacturing apparatus, in order to stabilize the point of adhesion of the film discharged from the die device to the casting surface, the distance between the die device or the film contact device and the moving casting surface is always It is desirable that the value be maintained at a predetermined value. Further, a variation in the distance between the die device or the film contact device and the casting surface causes unevenness in the thickness of the product film.

Japanese Patent Application Laid-Open No. 10-323854 discloses a resin film manufacturing apparatus using a film contact device having a plurality of suction ports and a plurality of suction means. When a film was manufactured using this apparatus, a plurality of suction ports were arranged in the direction of movement of the casting surface and / or in a direction perpendicular thereto,
If the balance of the suction force between the suction ports fluctuates for some reason, the cast surface comes into contact with the base device or the film contact device or abnormally close to these devices near the suction port where the suction force is relatively large. It turned out that a phenomenon occurred. Unless the cast surface is in contact with the die device or film contact device or lifts up toward these devices, if it is not prevented beforehand, it will cause abnormal film and damage the cast surface, leading to large economic loss. It turned out to be possible.

In order to solve these problems, the distance between the die device or the film contact device and the casting surface (hereinafter, this distance may be referred to as the distance from the casting surface) is measured manually using a gap gauge. Work has been done to keep the distance to the cast surface constant. However, it was difficult to perform the measurement using the gap gauge during film formation. Therefore, although the measurement was performed at the time of stoppage, manual measurement by a gap gauge often caused damage to the cast surface.

[0006] Further, a distance sensor is installed in the die device or the film contact device, and the distance between the die device or the film contact device and the cast surface is controlled by the distance sensor. However, the distance sensor has a plurality of suction ports as described above. When the film contact device is used on a cast surface such as a belt that is likely to be deformed by suction or the like, the cast surface and the die device or film contact device are two-dimensionally attached to the casting surface traveling direction and the transverse direction. It has been found that the distance to the device fluctuates and, in particular, a single distance sensor cannot be adequately managed.

[0007]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems of the prior art, and provides a distance between a casting device or a film-contacting device which largely depends on the stability of film formation at the time of forming a resin film. Provided is a resin film manufacturing apparatus capable of maintaining (a distance to a cast surface) a desired value and avoiding damage to a cast surface, which greatly affects a decrease in product quality and a decrease in productivity. The purpose is to do so.

[0008]

The present invention for achieving the above object has the following constitution.

First invention: a die device for continuously discharging a resin having fluidity in the form of a film, a cast device having a cast surface on which a film discharged from the die device is placed and moves continuously, and An apparatus for producing a resin film, comprising: a film adhering device having a plurality of suction ports and a plurality of suction means for adhering a film placed on the cast surface to the cast surface; At least one of the devices
An apparatus for manufacturing a resin film, comprising a plurality of distance detecting devices for detecting a distance between the device and the casting surface (a distance from the casting surface).

In the first invention, at least one of the die device and the film contact device is provided with a plurality of distance detecting devices for detecting the distance to the casting surface. The distance between these devices and the cast surface traveling at an interval of two times is detected at all times or at appropriate time intervals in the two-dimensional direction of travel / cross direction of the cast surface. It has the effect and effect that it is possible to appropriately deal with the surface. Here, the transverse direction is
This includes a direction having a certain angle with respect to the casting surface traveling direction, and is not limited to a direction perpendicular to the casting surface traveling direction.

Second invention: In the first invention,
An apparatus for manufacturing a resin film, wherein the number of the distance detecting devices is three or more.

In the second invention, the number of distance detecting devices is limited. By setting the number to three or more, the inclination of the die device or the film contact device with respect to the casting surface (casting direction / crossing direction). (Relative to a two-dimensional plane in the direction) can be detected.

Third invention: In the second invention,
The distance detecting device is provided at both ends in the direction crossing the casting surface, and another distance detecting device is provided in the middle of the distance detecting devices provided at these both ends, and the distance detecting device provided at the both ends is provided. Assuming that the distance between the devices is L, the distance detection device provided in the middle is 0.25L to 0.75L.
An apparatus for manufacturing a resin film located in the range of L.

The third aspect of the present invention relates to a method for controlling the distance between a die device or a film contacting device and a cast surface more preferably, between two distance detecting devices disposed at both ends in a direction transverse to the cast surface. , And at least another distance detecting device is arranged and its position is defined. This makes it possible to more accurately detect a change in distance in the transverse direction of the cast surface (a change in distance due to suction of the cast surface due to suction, bending or bending of the cast surface).

Fourth invention: In any one of the first to third inventions, the distance (to the casting surface) of the device relative to the casting surface is applied to the die device or the film contact device provided with the distance detection device. And a moving device for moving the device to change the distance). The moving device is operated based on the distance detection information of the distance detecting device, and the device is moved with respect to the cast surface. Apparatus for manufacturing a resin film.

The fourth aspect of the present invention uses the distance detection information on the distance to the casting surface obtained from the distance detection device provided in one or both of the base device and the film contact device to use the die device or the film contact device. One or both are equipped with a moving device for moving the cast surface, so that the automatic acquisition of the cast surface distance information and the automatic adjustment of the cast surface distance based on the information are performed.

Fifth invention: In the fourth invention,
An apparatus for manufacturing a resin film, wherein three or more of the moving devices are independently provided.

In the fifth aspect of the present invention, the number of moving means for moving the die device or the film contact device is specified. The die device or the film contact device can be moved in response to a change in the inclination of the apparatus with respect to the casting surface (with respect to the two-dimensional plane in the casting surface traveling direction / transverse direction).

According to a sixth aspect of the present invention, in the fourth or fifth aspect, a set value of a distance (to a casting surface distance) between the die device or the film contact device moved by the moving device and the casting surface is determined. At the same time, a set lower limit (danger prediction value) and a set upper limit (danger avoidance value) are defined for the set value, and the distance between the casting device or the film contact device moved by the moving device and the cast surface is set. (To cast surface distance)
When the distance detection information of the distance detection device indicates that the distance has become equal to or less than the set lower limit (danger prediction value), the moving device is activated based on the distance detection information, and the distance is set to An apparatus for manufacturing a resin film, wherein the die device or the film contact device is moved with respect to the casting surface so as to be equal to or more than the set upper limit value (risk avoidance value).

According to the sixth aspect of the present invention, the set lower limit value (danger prediction value) is used for the determination of the distance to the cast surface, and when danger is predicted, the distance to the cast surface is determined by the moving device. Characterized in that it is changed to a range in which damage to the surface can be completely prevented.

Seventh invention: In the sixth invention,
An apparatus for manufacturing a resin film, wherein the set lower limit (danger prediction value) is 80% or less of the set value, and the set upper limit (danger avoidance value) is 120% or more of the set value.

The seventh aspect of the present invention indicates the preferred values of the set lower limit value (danger prediction value) and the set upper limit value (danger avoidance value) according to the sixth aspect.

Eighth invention: In any one of the fourth to seventh inventions, the distance between the die surface or the film contacting device moved by the moving device and the casting surface (the distance to the casting surface) is the same as the above. When the distance detection information of the distance detection device indicates that the value has deviated from the set value, the base device is operated based on the distance detection information so that the moving device is activated and the distance approaches the set value. An apparatus for manufacturing a resin film, wherein an apparatus or a film contact apparatus is moved with respect to the casting surface.

According to an eighth aspect of the present invention, in any one of the fourth to seventh aspects, the distance between the casting surface and the casting surface is such that:
This is a resin film manufacturing apparatus to which a function of automatically correcting a film to a desired set value is added, thereby enabling a long-time automated operation of film formation.

Ninth invention: An apparatus for manufacturing a resin film according to any one of the sixth to eighth inventions, wherein the set value is 10 mm or less.

The ninth aspect of the present invention shows the upper limit of a preferable range of the set value of the distance to the casting surface in the resin film manufacturing apparatus of the present invention. The lower limit of the preferable range of the set value is 0.2 mm or more, though it depends on the thickness of the film to be formed and the film forming conditions. Here, the set value refers to the distance between the cast surface running at the steady position and the portion of the die device or the film contact device closest to the cast surface at the steady position.

Tenth invention: In the first to ninth inventions, an apparatus for producing a resin film, wherein the casting surface of the casting device is formed by a rotating endless belt.

According to a tenth aspect of the present invention, in one of the first to ninth aspects, a preferable aspect of the casting surface in any one of the first to ninth aspects is a rotating endless belt. Contact the film surface many times during the membrane. Therefore, if a part of the surface is damaged, the product film has a periodic defective portion, and damage to the cast surface must be avoided.

Eleventh invention: In the tenth invention, an apparatus for producing a resin film, wherein the film discharged from the die device is a solution film and the belt temperature is 50 ° C. or higher.

The eleventh invention specifies that the film to be formed is obtained by solution casting using a solvent, and adjusts the temperature of the belt forming the casting surface to a condition under which the solvent is easily removed. It is what it was.

[0031]

Next, the present invention will be further described with reference to the drawings using the embodiments.

The resin which is the raw material of the film produced by using the apparatus for producing a resin film of the present invention is not particularly limited as long as it can be melted or has fluidity as a solution and can be formed into a film. Examples thereof include thermoplastic resins represented by polyolefins such as polypropylene and polyethylene, polyesters such as polyethylene terephthalate, and heat-resistant resins such as meta-aramid and para-aramid. Needless to say, the resin used may contain additives such as a stabilizer and an antistatic agent.

FIG. 1 is a perspective view schematically showing an embodiment of the apparatus for producing a resin film of the present invention, FIG. 2 is a side view of the apparatus shown in FIG. 1, and FIG. 2 is a bottom view of the device shown in FIG.

In FIGS. 1, 2, and 3, a die device 1 for continuously discharging a resin having fluidity in the form of a film.
Is engaged with an extruder (not shown), which is a resin supply source. A slit (not shown) for discharging the resin in a film shape is provided at a lower end portion of the base device 1, and a side plate (not shown) for adjusting the length of the slit is provided at both ends in the longitudinal direction of the slit. ) Are provided.

A rotating endless belt 13 constituting the casting device is provided below the die device 1, and its outer surface is a casting surface. In this embodiment, the endless belt 13 is provided so that the casting surface of the portion facing the die device 1 is horizontal, and the endless belt 13 moves in the horizontal direction in the direction indicated by the arrow 14. I do. In addition, in this embodiment, the cast surface is constituted by the endless belt 13, but the cast surface may be formed on the outer surface of the rotary cast drum.

On the other hand, a film contact device is provided in the vicinity of the slit and the casting surface of the die device 1.
In this embodiment, the film contact device is provided in a space between the slit of the die device 1 and the casting surface, and mainly sucks air in the space to cast the film 3 discharged from the slit. It is constituted by a suction device 2 having an action of bringing it into close contact with a surface.

The molten resin or solution resin supplied from the extruder is discharged downward from the slit of the die unit 1 to form the film 3 and is mounted on the casting surface of the endless belt 13 moving in the direction of arrow 14. Flow down to be placed. The degree of close contact of the film 3 with the cast surface is determined by the suction pressure generated by suction of air by the suction device 2 disposed upstream (on the opposite side of the arrow 14) from the point where the film 3 is in contact with the cast surface. Negative pressure).

The apparatus for manufacturing a resin film described above in this embodiment is a known apparatus per se.

The features of the apparatus for producing a resin film of the present invention are as follows.

Four corner outer surfaces of the suction device 2 and the suction device 2
Eddy current type non-contact distance sensor (distance sensor) 4, which constitutes a distance detection device for detecting the distance between the suction device 2 and the casting surface (distance to the casting surface),
5, 6, 7, and 8 are fixedly mounted. These distance sensors 4, 5, 6, 7, and 8
Is known per se. These distance sensors 4, 5, 6, 7, and 8 output the measurement result of the distance to the cast surface as an electric signal. The output electric signal (distance information to the cast surface) is transmitted to the control device similarly connected to the signal cable 12 by the signal cable 12 connected to the distance sensors 4, 5, 6, 7, and 8. It is sent to 15. The control device 15 compares the current information about the distance to the cast surface and the preset value for the distance to the cast surface by electrical means, and determines the difference between the current distance to the cast surface and the set value. Is detected, and when it is determined that the difference is within the range to be corrected, distance correction information is output.

On the other hand, lifting devices 9, 10, and 11 are provided above the base device 1 and the suction device 2, respectively. 1 has a structure that can be raised and lowered with respect to the cast surface. A signal cable 12 is connected to each of the lifting devices 9, 10, and 11, so that the distance correction information output by the control device 15 is transmitted to the lifting devices 9, 10, and 11, respectively.
, Whereby the lifting devices 9, 10 and
11 operates to raise and lower the base device 1 and changes the distance of the base device 1 to the casting surface. In addition, hydraulic cylinders are used as the lifting devices 9, 10, and 11.

In the above description, the distance sensor 4, 5, 6, 7, and 8, which are distance detecting devices, are provided at the four corners of the suction device 2, which is a film contact device, and the resin film manufacturing apparatus of the present invention is implemented. Although the example has been described, the installation location of the distance detection device may be the base device 1 or may be both the base device 1 and the film contact device. Further, the number of the distance detection devices is not limited to one at each of the four corners and one at the center.

In this regard, as shown in FIG. 3, the distance sensors 4, 6 disposed at both ends in the direction of travel of the casting surface.
Assuming that the distance between (or 5, 7) is L, the distance sensor 8 provided in the middle may be located in the range of 0.25L to 0.75L.

In the above, the distance sensors 4, 5, 6, 7, and 8 constituting the distance detecting device are provided in the suction device 2 constituting the film contact device, and the elevating device 9 constituting the moving device. Although the embodiment in which, 10, and 11 are provided in both the base device 1 and the suction device 2 has been described, the distance detection device is provided in the base device,
The moving device may be provided on the film contact device side, or the distance detecting device and the moving device may be provided on both the die device and the film contact device. Also,
The moving device preferably has a structure in which the die device and the film contact device are individually lifted and lowered independently. However, it is also possible to integrate the die device and the film contact device, and to raise and lower them simultaneously. . Which one to use may be determined depending on which of the die device and the film contact device has a greater risk of contact with the cast surface.

In the above embodiment, an eddy current type non-contact distance sensor was used as the distance detecting device. The point is that if a distance to a cast surface can be measured, a conventionally known distance sensor is used. May be used. In the above embodiments, the hydraulic cylinder is used as the moving device (elevating device). In short, the base device or the film contact device responds accurately to the distance correction information output by the distance detecting device. A conventionally known moving device (elevating device) that can be moved (elevated) to a desired position may be used.

In the embodiment shown in FIG. 1, the base device is moved up and down by the moving device based on the distance correction information output by the control device 15, and the distance to the casting surface is corrected. If the distance to the casting surface changes suddenly due to sudden casting surface suction, etc., the set value of the casting surface distance is
When the distance to the cast surface becomes 80% or less of the set value,
It is possible to employ a mechanism that saves the value to 120% or more of the set value. Here, the set value and the upper and lower limits for the set value can be independently set by the user, but the lower limit is preferably 60% to 80%, and the upper limit is set to 120% or more, a value that can completely avoid contact. It is desirable to keep.

[0047]

EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples and comparative examples, but the present invention is not limited to the following examples.

Example 1 N-methyl-2-pyrrolidone (NMP) was prepared by adding 2-chloroparaphenylenediamine corresponding to 80 mol% as an aromatic diamine component and 4,4′-corresponding to 20 mol%. The diaminodiphenyl ether was dissolved, and 2-chloroterephthalic acid chloride corresponding to 100 mol% was added thereto, followed by stirring for 2 hours to complete the polymerization. This was neutralized with lithium hydroxide to obtain an aromatic polyamide solution having a polymer concentration of 11% by weight and a viscosity of 2000 poise. The solution was continuously discharged in the form of a film at a rate of 2 kg / min from a die device 1 having a discharge slit having a width of 2 m to produce a film 3.

A box-type suction device 2 having two suction ports, a front suction port 16 and a rear suction port 17, shown in FIG. 3 was used as the film adhesion apparatus. The detailed dimensions are as follows. The dimension A of the front suction port 16 was 100 mm. The rear suction port 17 is provided so as to surround the front suction port 16 except for a portion where the front suction port 16 is in contact with the film 3. The C dimension of the rear suction port 17 is 80 mm
The dimension F is 20 mm, the dimension B and the dimension D are each 60 mm, and the dimension E and the dimension G are each 25 mm.
mm. The endless belt 13 (cast surface 1) that moves in the direction of arrow 14 at a surface temperature of 90 ° C.
The discharged film 3 was brought into close contact with 3a). Thereafter, after drying with hot air, stretching and washing in a water washing step (not shown), stretching and heat treatment in a heat treatment step (not shown), a polyamide film having a winding thickness of 6 μm was obtained.

The eddy current type non-contact distance sensors 4, 5, 6, 7, and 8 constituting the distance detecting device shown in FIG.
The distance sensors 4, 5, 6, 7, and 8 are installed at the four corners and the center of the suction device 2, and connected to the control device 15 using the signal cable 12. A signal cable 12 was connected to elevating devices (hydraulic cylinders) 9, 10, and 11 for supporting the fixed supports 10, 11.

[0051] The distance (vs. casting surface distance) X ₀ of the casting surface of the base unit 1 and the belt 13 and 3 mm, further distance between the distance sensor 4, 5 and casting surface shown in FIG. 2 (vs. casting surface distance) X _4, X ₅ and the distance sensor 6,
Distances X ₆ , X ₇ , ₇ and 8 (not shown) and the cast surface,
X ₈ (not shown) was set to 3 mm each.

When the moving speed of the belt 13 is set at 5 m / min, the desired close contact between the film 3 and the casting surface starts, and thereafter, the belt 3 is moved while increasing the degree of vacuum of the front suction port 16 and the rear suction port 17. Moved speed increased. The belt moving speed reaches 19 m / min, the degree of vacuum at the front suction port 16 is 80 mmAq, and the degree of vacuum at the rear suction port 17 is 90 mm.
With Aq, a stable film was formed.

Under these conditions, the belt speed was increased by 0.5 m / min to 22 m / min. During this time, when the degree of vacuum at the front suction port 16 was increased to 100 mmAq and the degree of vacuum at the rear suction port 17 was increased to 110 mmAq, the distance X ₀ ,
The variation widths of X ₄ and X ₅ were all 0.3 mm, and stable casting was continued without contact between the casting surface and the spinneret 1 and the suction device 2.

Example 2 A film 3 discharged under the same conditions as in Example 1 was adhered to a cast surface using a suction device 2 having the same dimensions as in Example 1 to form a film.

The moving speed of the belt 13 is 22 m / min, the degree of vacuum of the front suction port 16 is 100 mmAq, and the rear suction port 17 is
Under the conditions of a vacuum degree of 110 mmAq, stable film formation was performed.

From this state, the belt moving speed is 25 m /
The speed was increased by 0.5 m per minute up to the minute. On the way, the belt moving speed is 24 m / min, and the degree of vacuum of the front suction port 16 is 12
0 mmAq, the degree of vacuum at the rear suction port 17 is 128 mmAq
However, although stable film formation could be continued, the belt moving speed was 2
Around 4 m / min, the behavior of the film 3 became extremely unstable, and when the degree of vacuum at the front suction port was increased from 120 mmAq to 130 mmAq, the distance between the die unit 1 and the casting surface was suddenly reduced. Was.

The smallest value among the five distance sensors was the value X _{8 obtained} by the distance sensor 8 installed at the center of the suction device 2, and the size was 1.5 mm. On the way to return the degree of vacuum of the front suction port 16 to 120 mm, the distance between the die device 1 and the casting surface is further reduced,
X ₈ cut the 1mm. At this point, the cap device 1 is moved from the casting surface, which is the retracted position, to a position 100 mm above.
The emergency evacuation was performed by the operation of the lifting devices 9, 10, and 11.
As a result, although the film formation was interrupted, damage due to the contact of the cast surface with the die device 1 was avoided.

Example 3 A film 3 extruded under the same conditions as in Example 1 was adhered to a cast surface by a suction device 2 having the same dimensions as in Example 1 to form a film. The arrangement of the distance sensors is the same as in the first embodiment.

The moving speed of the belt 13 is 22 m / min, the degree of vacuum of the front suction port 16 is 100 mmAq, and the rear suction port 17 is
Under the conditions of a vacuum degree of 110 mmAq, stable film formation was performed.

From this state, the belt moving speed is 25 m /
The speed was increased by 0.5 m per minute up to the minute. On the way, belt
The moving speed is 24 m / min, and the degree of vacuum at the front suction port 18 is 12
0 mmAq, the degree of vacuum at the rear suction port 17 is 128 mmAq
However, although stable film formation could be continued, the belt moving speed was 2
At about 4 m / min, the behavior of the film 3 is remarkable.
It becomes unstable, and the degree of vacuum at the front suction port 16 is set to 120 mmA.
q was increased from 127 mmAq to
Distance X between 1 and cast surface 13a_Four, X_Five, X ₆,
X₇, X₈Suddenly shrinks, and X_Five, X₇Is 1.5
mm. Here, the degree of vacuum at the front suction port is set to 12
On the way to return to 0 mmAq, the cap device at 123 mmAq
Distance X between 1 and cast surface 14a_TwoIs the normal position of 3mm
And cast the film without damaging the cast surface.
I was able to continue.

Comparative Example A film 3 extruded under the same conditions as in Example 1 was adhered to a cast surface by a suction device 2 having the same dimensions as in Example 1 to form a film. The distance sensor
Although installed in the same place as in Example 1, the control device 15 and the lifting / lowering devices (hydraulic cylinders) 9, 10, and 11 were not connected, and were simply used for monitoring the distance X between the die device 1 and the casting surface.

The distance X ₀ between the base 1 and the casting surface is set to 3
mm, and when the moving speed of the belt 13 is set to 5 m / min, the adhesion of the film 3 to the cast surface is started,
The belt moving speed was increased while increasing the degree of vacuum in the front suction port 16 and the rear suction port 17.

When the moving speed of the belt 13 exceeded about 19 m / min, the landing of the film 3 on the cast surface became unstable. At this time, the degree of vacuum of the front suction port 16 is 80
mmAq to 110 mmAq, and the degree of vacuum of the rear suction port 17 varies from 90 mmAq to 125 mmAq.
The distance X between the casting surface and the cast surface also recorded a variation range of 2.2 mm to 3.3 mm and 1.1 mm. In order to stabilize the landing of the film 3 on the cast surface, the degree of vacuum of the front suction port 16 was increased by about 10 mmAq.
The (cast surface) was lifted up and came into contact with the bottom surface of the suction device 2. As a result, film formation was interrupted, and production could not be performed for 13 days due to repair of the belt 13 (cast surface).

[0064]

As described above, according to the present invention, in a resin film manufacturing apparatus equipped with a film contact device having a plurality of suction ports, a plurality of distance detecting devices are provided in the die device or the film contact device. The distance between the die unit or the film contact device and the casting surface can be maintained at a desired value because the positional relationship between the die device or the film contact device and the casting surface can be grasped by the distance information to the casting surface from the distance detection device. , And can be controlled, and a stable resin film can be manufactured. Furthermore, when the die device or the film contact device and the cast surface approach each other abnormally, it is possible to avoid the damage to the cast surface, which is a factor of productivity reduction, by automatically retracting the die device or the film contact device, and Productivity can be improved.

[Brief description of the drawings]

FIG. 1 is a perspective view schematically showing an embodiment of an apparatus for producing a resin film according to the present invention.

FIG. 2 is a side view of the apparatus for manufacturing a resin film according to the present invention shown in FIG.

FIG. 3 is a bottom view of the apparatus for manufacturing a resin film according to the present invention shown in FIG.

[Explanation of symbols]

 1: Cap device 2: Suction device (film contact device) 3: Film 4: Distance sensor (distance detection device) 5: Distance sensor (distance detection device) 6: Distance sensor (distance detection device) 7: Distance sensor (distance detection) 8) Distance sensor (distance detecting device) 9: Lifting device (moving device) 10: Lifting device (moving device) 11: Lifting device (moving device) 12: Signal cable 13: Belt (casting device) 14: Arrow 15 : Control device 16: Front suction port 17: Rear suction port

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4F205 AC05 AG01 AM32 AP11 AR06 AR07 GA07 GB02 GC07 GE01 GF01 GF23 GF24 GF30 GN13 GN24 GN25 4F207 AC05 AG01 AM32 AP11 AR06 AR07 KA01 KA07 KE06 KF01 KJ09 KK11 KM05 KM15

Claims (11)

[Claims] 1. A die device for continuously discharging a resin having fluidity in the form of a film, a cast device having a cast surface on which a film discharged from the die device is placed and moves continuously, and the cast device In a resin film manufacturing apparatus comprising a film adhesion device having a plurality of suction ports and a plurality of suction means for bringing a film mounted on a surface into close contact with the cast surface, at least one of the die device and the film adhesion device On the other hand, an apparatus for producing a resin film, comprising a plurality of distance detecting devices for detecting a distance between the device and the casting surface. 2. The resin film manufacturing apparatus according to claim 1, wherein the number of the distance detecting devices is three or more. 3. The distance detecting device is provided at both ends in the cross direction of the casting surface, and another distance detecting device is provided in the middle of the distance detecting devices provided at these both ends. Let L be the distance between the provided distance detection devices.
Then, the distance detecting device provided in the middle is set to 0.
The resin film manufacturing apparatus according to claim 2, wherein the resin film is located in a range of 25L to 0.75L. 4. The die device or the film contact device provided with the distance detecting device is further provided with a moving device for moving the device so as to change the distance of the device with respect to the cast surface. The resin film manufacturing apparatus according to any one of claims 1 to 3, wherein the moving device is operated based on the distance detection information of the detecting device, and the moving device is moved with respect to the cast surface. . 5. The apparatus for manufacturing a resin film according to claim 4, wherein three or more moving devices are independently provided. 6. A set value of a distance between the die device or the film contact device to be moved by the moving device and the cast surface is determined, and a set lower limit value and a set upper limit value are set for the set value. When the distance detection information of the distance detection device indicates that the distance between the die device or the film contact device moved by the movement device and the casting surface is equal to or less than the set lower limit, the distance is determined. The moving device is operated based on the detection information, and the die device or the film contact device is moved relative to the cast surface such that the distance is equal to or greater than the set value upper limit. An apparatus for producing a resin film according to claim 4. 7. The resin film manufacturing apparatus according to claim 6, wherein the set lower limit is 80% or less of the set value, and the set upper limit is 120% or more of the set value. . 8. When the distance between the die device or the film contact device moved by the moving device and the casting surface is out of the set value, when the distance detection information of the distance detection device indicates The moving device is operated based on the distance detection information, and the die device or the film contact device is moved with respect to the casting surface so that the distance approaches the set value. 8. The apparatus for producing a resin film according to any one of 4 to 7. 9. The resin film manufacturing apparatus according to claim 6, wherein the set value is 10 mm or less. 10. The resin film manufacturing apparatus according to claim 1, wherein a casting surface of the casting device is formed by a rotating endless belt. 11. The apparatus according to claim 10, wherein the film discharged from the die device is a solution film, and the belt temperature is 50 ° C. or higher.