CN114749124A - Antistatic isolation film production forming device and method thereof - Google Patents

Abstract

The invention discloses a device and a method for producing and forming an antistatic isolation film, which belong to the technical field of release film production, and comprise a reaction kettle, wherein a stirring mechanism for stirring and mixing materials is arranged in the reaction kettle, a support ring is also arranged on the outer side of the reaction kettle, a cover moving mechanism convenient for moving and adjusting a cover plate of the reaction kettle is arranged on the support ring, a control valve is also arranged on the reaction kettle, the control valve is connected with a discharge pipe, a conveying and conveying frame is also arranged on the side end of the reaction kettle, the discharge pipe is positioned above the conveying and conveying frame, and a plurality of fixing mechanisms are arranged on the conveying and conveying frame; the cover moving mechanism is arranged, the cover door can be easily taken away from the reaction kettle through the driving of the driving motor, the labor intensity of workers is reduced, the use is very convenient, and meanwhile, materials in the kettle can be stirred more fully through the stirring mechanism transversely arranged in the reaction kettle, so that the materials can be completely mixed, the precipitation is avoided, and the quality of finished products at the later stage is ensured.

Description

Antistatic isolation film production forming device and method thereof

Technical Field

The invention belongs to the technical field of release film production, and particularly relates to a device and a method for producing and forming an antistatic isolation film.

Background

The release film refers to a film with a differentiated surface energy, and the release film has no viscosity or slight viscosity after being contacted with a specific material under limited conditions. The screen, lens and the like of the electronic product and the protective film are all covered with a release film. After the release film is attached, in order to prevent the product from adsorbing dust, the release film is required to have antistatic capability, and an antistatic agent is generally added into a protective film substrate during production of the antistatic isolation film, so that the antistatic agent can effectively absorb moisture on the surface of the product and in the air, and the moisture can be neutralized with static electricity after being absorbed, thereby achieving the antistatic effect.

Present when to from type membrane production, often need add multiple material and react in the reation kettle, but when adding the material, reation kettle's overhead door needs the manpower to go to open the closure, need consume a large amount of labours, and equipment is great, and the overhead door is opened difficultly, and the maloperation still causes the incident easily, and the raw materials is when mixing simultaneously, often stirs inadequately evenly, leads to the later stage product to become bad, and the material deposits the waste that causes the material easily in the cauldron.

Disclosure of Invention

In view of the disadvantages of the prior art, the present invention is directed to an apparatus and a method for forming an antistatic release film, which are used to solve the above problems.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an antistatic barrier film production forming device, includes reation kettle, be equipped with the rabbling mechanism that stirs the mixture to the material in the reation kettle, still be equipped with a support ring on reation kettle's the outside, be equipped with a mechanism of covering that moves that is convenient for carry out the removal regulation to the reation kettle apron on the support ring, still be equipped with a control valve on the reation kettle, be connected with a discharging pipe on the control valve, still be equipped with a transport transmission frame on reation kettle's the side, the discharging pipe is located the top of transport transmission frame, it constructs to carry the solid type of a plurality of on the transmission frame.

Further, rabbling mechanism is including setting up the collar at the reation kettle inner wall, the arc wall has been seted up to the inner wall bilateral symmetry of collar, sliding connection has an arc piece in the arc wall, is equipped with first support column between two arc pieces, the other both sides of collar inner wall are equipped with first pivot, the inner of first pivot is equipped with the connecting plate, the outer end and the reation kettle of first pivot are connected, and still are equipped with first driving motor in the first pivot of being connected with reation kettle, still be equipped with the second support column that the slant set up between the connecting plate, the second support column runs through first support column, just be equipped with the annular agitator on first support column and the second support column.

Further, the annular agitator includes annular back shaft, be equipped with a connecting axle in the annular back shaft, a plurality of mounting groove has been seted up to the both sides of connecting axle, the mounting groove internal rotation is connected with the (mixing) shaft, each the length of (mixing) shaft varies, just the end of (mixing) shaft is equipped with the chamfer, it has a plurality of hole of permeating water to go back the equidistance array on the annular back shaft.

Further, move and cover the mechanism and include the fixed plate of being connected with the support ring, be equipped with a first bevel gear on the fixed plate, be connected with the screw thread post on the first bevel gear, the meshing has the second bevel gear on the first bevel gear, the one end of second bevel gear is connected with second driving motor through the second pivot, screw-thread fit has first adapter sleeve on the screw thread post, be equipped with the connecting rod on the first adapter sleeve, the fixed second adapter sleeve that is equipped with of connecting rod, be equipped with L shape pole on the second adapter sleeve, one of L shape pole is served and is equipped with the apron of mutually supporting with reation kettle, second adapter sleeve endotheca is equipped with solid fixed cylinder, gu fixed cylinder and this body coupling of reation kettle, the screw thread post is located the inside of solid fixed cylinder.

Further, a first sliding groove is vertically formed in the fixed cylinder, a second sliding groove transversely begins to be formed in the fixed cylinder, the first sliding groove and the second sliding groove are connected in an inverted L shape, the connecting rod is matched with the first sliding groove and the second sliding groove, and a blocking ring is arranged at the top end of the fixed cylinder.

Further, the solid type mechanism comprises a solid type die, adjusting cylinders are arranged on two sides of the solid type die, a baffle is arranged at the output end of each adjusting cylinder, a top sliding connection solid type cover of the solid type die is connected with an adjusting knob arranged at the front end of the solid type cover, a U-shaped groove is connected to the bottom end of the adjusting knob, a partition plate is arranged in the middle of the inside of the U-shaped groove, telescopic springs are arranged on two sides of the partition plate, a telescopic block is arranged at the tail end of each telescopic spring and located in the U-shaped groove, and a plurality of drying lamps are arranged on the bottom side of the solid type cover at equal intervals.

A method for producing and molding an antistatic release film, which comprises the following steps:

the method comprises the following steps: moving a cover and feeding; the second driving motor is driven, and the cover plate can be moved out of the reaction kettle through the matching of the threaded column and the first connecting sleeve to carry out charging work;

step two: placing a cover; after the raw materials are added, reversely driving a second driving motor, and placing the cover plate into the reaction kettle;

step three: mixing the materials; starting a first driving motor to drive a stirring mechanism to operate, and fully stirring and mixing materials in the reaction kettle;

step four: fixing the mold; and (4) flowing the mixed materials into a solid mold through a control valve, and drying and molding by using a drying lamp after troweling operation.

The invention has the beneficial effects that:

through the cover moving mechanism, the cover door can be easily taken away from the reaction kettle through the driving of the driving motor, so that the labor intensity of workers is reduced, and the cover moving mechanism is very convenient to use; simultaneously can stir in the cauldron through the horizontal rabbling mechanism that sets up in the reation kettle, the annular agitator that is equipped with can be more abundant with the stirring of the interior material of cauldron, makes can the complete mixing between the material, and avoids deposiing to guarantee the off-the-shelf quality in later stage.

Drawings

In order to more clearly illustrate the embodiments or prior art solutions of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the stirring mechanism;

FIG. 3 is a schematic view of the construction of the ring agitator;

FIG. 4 is a schematic structural view of a cover moving mechanism;

FIG. 5 is a schematic view of the structure of the fixed cylinder;

FIG. 6 is a schematic structural diagram of the mold clamping mechanism;

fig. 7 is a schematic structural view of the solid type cover.

The numbering in the figures illustrates:

1. a reaction kettle; 2. a stirring mechanism; 3. a support ring; 4. a cover moving mechanism; 5. a control valve; 6. a discharge pipe; 7. a conveying and conveying frame; 8. a mold fixing mechanism; 201. a mounting ring; 202. an arc-shaped slot; 203. an arc-shaped block; 204. a first support column; 205. a first rotating shaft; 206. a connecting plate; 207. a first drive motor; 208. a second support column; 209. an annular agitator; 210. an annular support shaft; 211. a connecting shaft; 212. mounting grooves; 213. a stirring shaft; 214. chamfering; 215. water permeable holes; 401. a fixing plate; 402. a first bevel gear; 403. a second bevel gear; 404. a second rotating shaft; 405. a second drive motor; 406. a threaded post; 407. a first connecting sleeve; 408. a connecting rod; 409. a second connecting sleeve; 410. an L-shaped rod; 411. a cover plate; 412. a fixed cylinder; 413. a first chute; 414. a second chute; 415. a baffle ring; 801. fixing the mold; 802. an adjusting cylinder; 803. a baffle plate; 804. fixing a mold cover; 805. adjusting a knob; 806. a U-shaped groove; 807. a partition plate; 808. a tension spring; 809. a telescopic block; 810. and (7) drying the lamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

An antistatic barrier film production forming device, as shown in figure 1, comprises a reaction kettle 1, a stirring mechanism 2 for stirring and mixing materials is arranged in the reaction kettle 1, a supporting ring 3 is also arranged on the outer side of the reaction kettle 1, a cover moving mechanism 4 for conveniently moving and adjusting a cover plate of the reaction kettle 1 is arranged on the supporting ring 3, a control valve 5 is also arranged on the reaction kettle 1, a discharge pipe 6 is connected on the control valve 5, a conveying transmission frame 7 is also arranged on the side end of the reaction kettle 1, the discharge pipe 6 is positioned above the conveying transmission frame 7, a plurality of fixing mechanisms 8 are arranged on the conveying transmission frame 7, the cover moving mechanism 4 can conveniently move out the cover plate of the reaction kettle 1, thereby be convenient for in 1 reinforced, convenient to operate and use of reation kettle, and the rabbling mechanism 2 that is equipped with can carry out the intensive mixing stirring to the various materials of adding, prevent to precipitate, then carry the material through control valve 5 and carry out the floating on the solid type mechanism 8 and solidify the type.

As shown in fig. 2 and fig. 3, the stirring mechanism 2 includes a mounting ring 201 disposed on the inner wall of the reaction vessel 1, arc-shaped grooves 202 are symmetrically disposed on two sides of the inner wall of the mounting ring 201, an arc-shaped block 203 is slidably connected in the arc-shaped groove 202, a first supporting column 204 is disposed between the two arc-shaped blocks 203, first rotating shafts 205 are disposed on the other two sides of the inner wall of the mounting ring 201, a connecting plate 206 is disposed at the inner end of the first rotating shaft 205, the outer end of the first rotating shaft 205 is connected with the reaction vessel 1, a first driving motor 207 is further disposed on the first rotating shaft 205 connected with the reaction vessel 1, a second supporting column 208 obliquely disposed between the connecting plates 206 is further disposed, the second supporting column 208 penetrates through the first supporting column 204, an annular stirrer 209 is disposed on the first supporting column 204 and the second supporting column 208, the annular stirrer 209 includes an annular supporting shaft 210, a connecting shaft 211 is disposed in the annular supporting shaft 210, a plurality of mounting grooves 212 are disposed on two sides of the annular supporting shaft 211, the stirring shafts 213 are rotatably connected in the mounting groove 212, the lengths of the stirring shafts 213 are different, the tail end of the stirring shaft 213 is provided with a chamfer 214, the annular support shaft 210 is further provided with a plurality of water permeable holes 215 in an equidistant array, the mounting ring 201 is transversely arranged in the reaction kettle 1, the second support column 208 can be driven to move through the rotation of the first driving motor 207, due to the matching of the arc-shaped groove 202 and the arc-shaped block 203, the movement of the second support column 208 can drive the first support column 204 to move back and forth in the direction of the arc-shaped groove 202, so as to drive the two annular stirrers 209 to move, the reaction kettle 1 is stirred, the annular stirrer 209 is movably provided with the stirring shafts 213 with different lengths, the stirring shafts 213 can move along with the rotation when the annular stirrer 209 rotates, the materials are fully mixed and stirred, the chamfer 214 reduces the water resistance, the stirring is convenient, the annular support shaft 210 is further provided with a plurality of water permeable holes 215 in an equidistant array, can make the material see through the hole 215 that permeates water in the stirring, be the cauldron and form a turbulent state, enable the better of intermixing between the material, be favorable to improving the off-the-shelf quality.

As shown in fig. 4 and 5, the cover moving mechanism 4 includes a fixing plate 401 connected to the support ring 3, the fixing plate 401 is provided with a first bevel gear 402, the first bevel gear 402 is connected to a threaded post 406, the first bevel gear 402 is engaged with a second bevel gear 403, one end of the second bevel gear 403 is connected to a second driving motor 405 through a second rotating shaft 404, the threaded post 406 is threadedly engaged with a first connecting sleeve 407, the first connecting sleeve 407 is provided with a connecting rod 408, the connecting rod 408 is fixedly provided with a second connecting sleeve 409, the second connecting sleeve 409 is provided with an L-shaped rod 410, one end of the L-shaped rod 410 is provided with a cover plate 411 that is engaged with the reaction kettle 1, the second connecting sleeve 409 is internally sleeved with a fixed cylinder 412, the fixed cylinder 412 is connected to the reaction kettle 1, the threaded post 406 is located inside the fixed cylinder 412, the fixed cylinder 412 is provided with a first chute 413, the fixed cylinder 412 is provided with a second chute 414 extending in the transverse direction, the first chute 413 is connected with the second chute 414 in an inverted L shape, the connecting rod 408 is matched with the first chute 413 and the second chute 414, the top end of the fixed cylinder 412 is provided with a retaining ring 415, the threaded post 406 and the first connecting sleeve 407 are positioned in the fixed cylinder 412, the second connecting sleeve 409 is sleeved on the outer wall of the fixed cylinder 412, the connecting rod 408 passes through the first chute 413 to be connected with the second connecting sleeve 409, the threaded post 406 is driven to rotate by the driving of the second driving motor 405 and the matching of the first bevel gear 402 and the second bevel gear 403, the first connecting sleeve 407 is matched with the connecting rod to drive the connecting rod 408 to ascend along the first chute 413, the cover plate 411 is positioned in the reaction kettle 1 at the moment, the cover plate 411 is lifted continuously when the resistance is received by the inner wall of the kettle, when the connecting rod 408 slides to the top end of the first chute 413, the connecting rod enters the second chute 414 without the resistance, and the cover plate 411 is moved transversely, be convenient for add the material to the cauldron, likewise, when closing reversible second driving motor 405 puts into reation kettle 1 with apron 411, puts into how much in the cauldron and can adjust convenient to use according to how much of material in the cauldron.

As shown in fig. 6 and 7, the mold fixing mechanism 8 includes a mold fixing mold 801, adjusting cylinders 802 are disposed on two sides of the mold fixing mold 801, a baffle 803 is disposed at an output end of the adjusting cylinders 802, a mold fixing cover 804 is slidably connected above the mold fixing mold 801, an adjusting knob 805 is disposed at a front end of the mold fixing cover 804, a U-shaped groove 806 is connected to a bottom end of the adjusting knob 805, a partition 807 is disposed at a middle position inside the U-shaped groove 806, a telescopic spring 808 is disposed on two sides of the partition 807, a telescopic block 809 is disposed at a tail end of the telescopic spring 808, the telescopic block 809 is disposed in the U-shaped groove 806, a plurality of drying lamps 810 are disposed at an equal distance on a bottom side of the mold fixing cover 804, the adjusting cylinders 802 can adjust a distance between the two baffles 803, and can produce finished products with different widths, the adjusting knob 805 disposed on the mold fixing cover 804 can adjust a height of the U-shaped groove 806 according to a thickness of the produced product, and by matching with the telescopic block 809, and (3) trowelling the materials in the solid mold 801 through the movement of the solid cover 804, and finally drying and molding through a drying lamp 810.

When the device is used, the second driving motor 405 is driven firstly, the threaded column 406 is driven to rotate through the meshing of the bevel gears, the first connecting sleeve 407 is matched with the threaded column 406 to drive the second connecting sleeve 409 to move, so that the cover plate 411 is added with required materials from the reaction kettle 1, after the addition is finished, the second driving motor 405 is turned over, the cover plate 411 is fed into the reaction kettle 1, the amount of the cover plate 411 extending into the reaction kettle 1 can be adjusted according to the amount of the materials in the kettle, after the cover plate 411 is covered, the first driving motor 207 can be started to drive the stirring mechanism 2 to fully stir in the kettle, so that the materials can be completely mixed without precipitation, then the opening and closing of the control valve 5 are orderly adjusted according to the required amount, the mixed materials flow into the fixed mold 801, after the materials flow into the mold, the two adjusting cylinders 802 can be adjusted according to requirements to change the width, the fixed cover 804 moves to drive the bottom U-shaped groove 806 and the telescopic block 809 to move, so that the materials are leveled, and finally, the drying lamp 810 is turned on to dry and mold the leveled materials in the fixed mold 801.

To sum up, the method for producing and forming the antistatic isolating film mainly comprises the following steps:

the method comprises the following steps: moving a cover and feeding; the second driving motor 405 is driven, and the cover plate 411 can be removed from the reaction kettle 1 through the matching of the threaded column 406 and the first connecting sleeve 407, so that the charging operation is carried out;

step two: placing a cover; after the raw materials are added, the second driving motor 405 is driven reversely, so that the cover plate 411 is placed in the reaction kettle 1;

step three: mixing the materials; starting a first driving motor 207 to drive the stirring mechanism 2 to operate, and fully stirring and mixing the materials in the reaction kettle 1;

step four: fixing the mold; the mixed materials flow into a solid mold 801 through a control valve 5, and after the floating operation, the materials are dried and molded by a drying lamp 810.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed.

Claims (7)

1. The utility model provides an antistatic barrier film production forming device, includes reation kettle (1), its characterized in that, be equipped with in reation kettle (1) and stir rabbling mechanism (2) of mixing to the material, still be equipped with a supporting ring (3) on the outside of reation kettle (1), be equipped with one on supporting ring (3) and be convenient for remove the cover mechanism (4) that move of adjusting to reation kettle (1) apron, still be equipped with one control valve (5) on reation kettle (1), be connected with one discharging pipe (6) on control valve (5), still be equipped with one on the side of reation kettle (1) and carry transmission frame (7), discharging pipe (6) are located the top of carrying transmission frame (7), be equipped with a plurality of solid type mechanism (8) on carrying transmission frame (7).

2. The directional intercepting device of the dustproof solid-wall pipe according to claim 1, wherein the stirring mechanism (2) comprises a mounting ring (201) arranged on the inner wall of the reaction kettle (1), arc-shaped grooves (202) are symmetrically formed in two sides of the inner wall of the mounting ring (201), an arc-shaped block (203) is connected in the arc-shaped groove (202) in a sliding manner, a first supporting column (204) is arranged between the two arc-shaped blocks (203), first rotating shafts (205) are arranged on the other two sides of the inner wall of the mounting ring (201), a connecting plate (206) is arranged at the inner end of each first rotating shaft (205), the outer end of each first rotating shaft (205) is connected with the reaction kettle (1), a first driving motor (207) is further arranged on each first rotating shaft (205) connected with the reaction kettle (1), and a second supporting column (208) which is obliquely arranged is further arranged between the connecting plates (206), the second supporting column (208) penetrates through the first supporting column (204), and annular stirrers (209) are arranged on the first supporting column (204) and the second supporting column (208).

3. The directional intercepting device of a dust-protection type solid wall pipe of claim 2, characterized in that, the ring agitator (209) includes a ring support shaft (210), be equipped with a connecting axle (211) in the ring support shaft (210), a plurality of mounting groove (212) have been seted up to the both sides of connecting axle (211), rotating connection has (mixing) shaft (213) in mounting groove (212), each the length of (mixing) shaft (213) is unequal, and the end of (mixing) shaft (213) is equipped with chamfer (214), it has a plurality of holes (215) of permeating water still to arrange on the ring support shaft (210) at the equidistance.

4. The directional intercepting device of the dustproof solid-wall pipe according to claim 1, wherein the cover moving mechanism (4) comprises a fixing plate (401) connected to the support ring (3), a first bevel gear (402) is disposed on the fixing plate (401), a threaded post (406) is connected to the first bevel gear (402), a second bevel gear (403) is engaged to the first bevel gear (402), one end of the second bevel gear (403) is connected to a second driving motor (405) through a second rotating shaft (404), a first connecting sleeve (407) is in threaded fit to the threaded post (406), a connecting rod (408) is disposed on the first connecting sleeve (407), a second connecting sleeve (409) is fixedly disposed on the connecting rod (408), an L-shaped rod (410) is disposed on the second connecting sleeve (409), a cover plate (411) which is in fit to the reaction vessel (1) is disposed at one end of the L-shaped rod (410), a fixed cylinder (412) is sleeved in the second connecting sleeve (409), the fixed cylinder (412) is connected with the reaction kettle (1) body, and the threaded column (406) is located inside the fixed cylinder (412).

5. The directional intercepting device of a dustproof solid-wall pipe according to claim 4, wherein a first sliding groove (413) is vertically formed in the fixed cylinder (412), a second sliding groove (414) is transversely formed in the fixed cylinder (412), the first sliding groove (413) and the second sliding groove (414) are connected in an inverted L shape, the connecting rod (408) is matched with the first sliding groove (413) and the second sliding groove (414), and a stop ring (415) is arranged at the top end of the fixed cylinder (412).

6. The directional intercepting device of a dustproof solid-walled tube according to claim 1, the mould fixing mechanism (8) comprises a mould fixing mould (801), adjusting cylinders (802) are arranged on two sides of the mould fixing mould (801), the output end of the adjusting cylinder (802) is provided with a baffle plate (803), a fixed cover (804) is connected above the fixed mould (801) in a sliding way, an adjusting knob (805) is arranged at the front end of the fixed cover (804), a U-shaped groove (806) is connected to the bottom end of the adjusting knob (805), a clapboard (807) is arranged in the middle position in the U-shaped groove (806), two sides of the clapboard (807) are provided with telescopic springs (808), the tail end of the telescopic spring (808) is provided with a telescopic block (809), the telescopic block (809) is positioned in the U-shaped groove (806), and a plurality of drying lamps (810) are also arranged on the bottom side of the fixed cover (804) at equal intervals.

7. A method for producing and molding an antistatic release film, which is performed by the apparatus for producing and molding an antistatic release film according to any one of claims 1 to 6, comprising the steps of:

the method comprises the following steps: moving a cover to feed materials; a second driving motor (405) is driven, and the cover plate (411) can be moved out of the reaction kettle (1) through the matching of the threaded column (406) and the first connecting sleeve (407) to perform charging operation;

step two: placing a cover; after the raw materials are added, reversely driving a second driving motor (405) so as to place the cover plate (411) into the reaction kettle (1);

step three: mixing the materials; starting a first driving motor (207) to drive the stirring mechanism (2) to operate, and fully stirring and mixing the materials in the reaction kettle (1);

step four: solidifying; and (3) flowing the mixed materials into a solid mold (801) through a control valve (5), and after the floating operation, drying and molding by using a drying lamp (810).

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