KR20150095131A - automatic mass - production machinery about new liner with special shape - Google Patents

Abstract

The present invention is a system for automatically mass-producing a newly invented liner (sealing member) which seals an inlet of a container. As the structure of the liner is completely different from the structure of a conventional liner, the process of producing the liner exhibits a great difference from the conventional production process. The production process proceeds in the following order: a fabric supplying section; a primary cutting section (a primary cutting process, a secondary cutting process); a hot pressing section; a secondary cutting section; a liner loading section; a section for discharging a discarded laminated fabric remaining after separating a new liner which is a finished product; a pneumatic section; an electric control box; and a touch screen panel. The present invention relates to a production line for automatically mass-producing the liner, having major facilities which can satisfy each process to accomplish a function of each process.

Description

[0001] The present invention relates to a system for automatically producing a new shape of a liner (sealing member)

The present invention is a new automatic mass production facility for producing a sealing member having a special shape and structure for sealing the container inlet.

BACKGROUND ART [0002] In the field of the art, a sealing member having a special shape and structure, which is used to block or seal an upper surface of a container inlet through which contents are inserted or removed, Is a technology related to a facility for mass production.

The existing machine in this field is a production facility for molding a seal member having a reinforcing member joined to the upper surface of an aluminum thin plate (plate) coated with a pressure-sensitive adhesive on the lower surface to a size corresponding to the inner diameter of a bottle cap . However, since the sealing member to be produced by the facility apparatus of the present invention is significantly different from that of the existing sealing member, the stage of the production process and the structure of the production equipment are greatly different from existing facilities. For the sake of clarity, the structure of the new liner (sealing member) that this facility is going to produce will be briefly explained. 2) The body of the gasket to be laminated with the aluminum foil is rounded by Thompson 3) The center of the body of the gasket to be laminated to the aluminum foil Thompson treatment should be done in the shape of a cross (+) or as many as necessary (ⓧ, ⊂, ⊃, etc.) 4) In the finished product sealing member, to be. The company has developed the world's first facility that automatically mass-produces new liners (sealing members) that uniformly meet the above-mentioned four characteristics.

Conventional production facilities in this field are manufactured by cutting a sealing member fabric with a reinforcing member on the upper surface of an aluminum foil (plate) coated with a pressure-sensitive adhesive on the lower surface thereof into a circular shape using a cutter with a size corresponding to the inner diameter of a bottle cap, (30). However, since the new liner 41 to be newly produced is significantly different from the existing liner (sealing member) as follows, there is a great difference in the stage of the production facility and its structure. To facilitate understanding, the production process of the new liner 41 (sealing member) and its structure will be described. 2) The aluminum foil 32 and the gasket 33, which is a reinforcing member, are laminated by applying a high temperature and a strong pressure. ) Thomson treatment is carried out on the central portion of the gasket 33 as a reinforcing member to be joined to the aluminum thin plate 32 in various shapes as necessary or required, and the Thompson treatment is performed along the circumference in the middle of the cross- Thomson treatment is performed to form the second incision 38. 4) In the new liner, do not bond the periphery of the Thompson-treated incision through the two-step process. " to be. The present invention relates to a new automatic mass production line having several steps for the production of a new liner 41 that satisfies the above-mentioned four characteristics and ensures a uniform quality. The specific processes and functions of the liner production facility will be described in detail with reference to the drawings in the " Detailed Description of the Invention ".

The present invention has the following effects.

1. Since the shape and structure of the new liner 41 are complicated, the production process is complicated and complicated, but a large amount of automatic production is possible in a short time.

2. Because all processes are processed automatically, final product quality is very sophisticated and always uniform.

3. The production cost is very low because it is mass-produced automatically.

Figure 1 is a side view of an existing production facility.
2 is a side view of a sealing member produced in a conventional production facility.
3 is a perspective view of a sealing member produced in a conventional production facility.
4 is a reduced side view of a production line according to the present invention.
5 is a reduced plan view of a production line according to the present invention.
6 is a plan view of a sealing member produced in a production facility according to the present invention.
7 is a cross-sectional view of a sealing member produced in a production facility according to the present invention.
8 is a cross-sectional view of an upper heat-press plate used in a heat-pressing process.
9 is a cross-sectional view of a heat-press plate for a lower part used in a heat-pressing process.
10 is a bottom plan view of the upper heat-press plate used in the heat-pressing process
11 is a top plan view of the lower heat-press plate used in the heat-pressing process
Description of the Related Art [0002]
<Punching line facility division>
01: Unwinder Main Base Platel
02: Punching Mold Up & Down Adjustment Bolt and Sensor
03: Touch Screen Panel
04: Electric Control Box / Temperature Control Box
<Existing Punching Line Facility>
10: Unwinder Unit Part 11: Up-Down Sensor Part
12: I - Mark Sensor Part 13: Press Punching Cylinder Part
14: Feeding Roller Unit Part 15: Finished product Chute
16: Programmable Control Panel 17: Base Frame & Support
<Liner Division to be produced by this facility>
30: existing liner (existing sealing member) 31: adhesive layer (pressure-sensitive adhesive)
32: aluminum foil 33: gasket (reinforcing member)
34: first adhesive portion 35: second adhesive portion
36: Adhesion site 37: First incision site,
38: second incision site 39: third incision site
40: adhesive layer 41: new liner (new product sealing member)
42: first spacing 43: second spacing
44: third spacing 45: forming cut surface
46: Bridge 47:
48: adhesive layer (adhesive) 49: milky LLD PE film layer
50: Sealant film (PE) layer 51: PET layer
52: Sealant film (HDPE) layer 53: Spaced surface (for lamination)
54: Adhesive surface (for jointing) 55: Lumber (aluminum sheet + gasket)
61: heating wire for heating, 62: cartridge
63: cartridge tunnel 64: compression plate body (thermal bonding unit)
<Invented Machinery & Equipment Division)
A: ELPC Electric Actuator
B: Liner Unwinder (Motor Controller)
C: Cylinder for preventing unwinding of fabric
D: Rubber Roller (1)
E: Rubber Roller (2)
F: ELPC Controller (1)
G: Unwinder Air Chuck
H: Fabric oil detector
I: Cylinder for preventing unwinding of fabric
J: Rubber Roller (3)
K: Tension Roller (Unwinder Motor Signal Transmission)
L: Fabric (aluminum foil liner)
M: 1st punching hydraulic cylinder
M-1: Primary punching mold dieset part
N: Secondary punching hydraulic cylinder
N-1: Second punching mold Diset part
O: Tertiary thermal bonding part Hydraulic cylinder
P: Fourth punching hydraulic cylinder for liner forming
P-1: 4th finished product (liner) punching mold diesetqn
Q: Feeding Servo Roller
Q-1: Servo Feeding Motor Unit
R: Knife Press Cutting Unit
S: Finished product (liner) Step Feeding Loading Unit
T: Upper Heating Plate
T-1: Lower Heating Plate
U: Rubber Roller for preventing separation
V: 1st punching (Thompson) mold
W: Main Base Plate
X: Gasket Sheet (Fabric)
Y: ELPC Controller (2)
Z: Unwinder Motor
<Explanation of machinery or parts and processes by division>
E: Unwinder Duplex - EPC controller detects edge in fabric unloading and unwinds the fabric in a certain pattern.
B: Roller tension section - The entering fabric maintains the tension and the fabric can be fed to a certain length.
C: Eye mark detection part: This is a part that detects the eye mark to transport the same fabric as the eye mark Pitch printed on the fabric.
D: Primary press section - This is the primary punching press section that punches the (+) cross pattern at the center of the gasket.
(2) Second press section - (+) Second punching press section that performs punching and rounding again after pre-cutting.
Bar: Thermal Adhesive Unit Part. FOIL LINER and Gasket.
Yarn: Tertiary press part - This is the final step of finally punching the outer shape of the thermally bonded fabric.
A: ELPC Edge Sensor - This sensor senses the edge from the fabric and feeds the fabric to a certain center.
Let's move the roll forward and backward on the fabric based on the signal received from the Edge Sensor and loosen the fabric.
Car: It is a rubber roller part with proximity sensor for constant tension and constant unwinding.
Car: Punching Mold Up & Down Adjustment Bolt and Sensor
The finished product is a precision machined acrylic pipe for constantly punched gaskets.
Wave: This is a cylinder that closely contacts the processed acrylic pipe at the lower end of the third press punching part.
Bottom: In the acrylic pipe which is closely attached to the lower part of the tertiary press, the sub motor is used to load the gasket, and the sub motor is moved by the set quantity and set height to receive the gasket.

The production line structure of an existing sealing member as shown in FIG. 1 will be described as follows. Unwinder Unit Part 10, Up-Down Sensor Part 11, I-Mark Sensor Part 12, Press Punching Cylinder Part 13, Feeding Roller Unit Part 14, Finished Product Chute 15, Programmable Control Panel (16), and Base Frame & Support (17). The existing production facility is supplied with a fabric in which the aluminum foil 32 and the gasket 33 are already joined together. When the fabric is attached to the feeder and fed toward the cutter, the finished product is produced by vertically punching the cutter (see FIG. 1). 2 is a side view of a sealing member produced in a conventional production facility. It is a circular sealing member cut from the fabric and separated. An adhesive layer 31 adhering to the upper surface of the container inlet, an aluminum thin plate 32 adhering to the upper surface of the container inlet, an adhesive layer 48 adhering between the aluminum thin plate and the gasket 33 as a reinforcing member, (33). 3 is a perspective view of a finished product sealing member produced in a conventional production facility. It does not have an incision site or a separation site. 4 is a reduced side view of a production line according to the present invention. The main categories are as follows. ELPC Electric Actuator (A), Liner Unwinder (Motor Controller ⇒B), Fabric Release Cylinder (C), Rubber Roller (1 ⇒ D), Rubber Roller (2 ⇒ E), ELPC Controller (1 ⇒ F) Chuck (G), Fabric Detector (H), Fabric Loosening Cylinder (I), Rubber Roller (3 ⇒ J), Tension Roller (Unwinder Motor Signal Transmission ⇒ K), Fabric (Aluminum foil liner ⇒ L) The first punching hydraulic cylinder M, the first punching die dieset M-1, the second punching hydraulic cylinder N, the second punching die Diset N-1, the third heat bonding hydraulic cylinder Q: Feeding Servo Roller (Q), Servo Feeding Motor Unit (Q), P-1: Punching die dieset part (P-1) -1), Knife Press Cutting Unit (R), Finished Products (Liner) Step Feeding Stacking Unit (S), Upper Heating Plate Molding (T), Lower Heating Plate Molding (T-1) U), Primary Punching (Thompson) Mold (V), Main Base Plate (W), Gasket Sheet ⇒ consists of X) and Unwinder Main Base Platel (01), punching mold Up & Down adjustment bolt and Sensor (02), Touch Screen Panel (03), Electric Control Box / Temperature Control Box (04). 5 is a reduced plan view of a production line according to the present invention. The major components of the production line structure are summarized as follows. (A), a roller tension part (B), an eye mark sensing part (C), a primary press part (D), a secondary press part (E), a heat bonding unit part (S). 6 is a plan view of a sealing member produced in a production facility according to the present invention. The structure of the liner will be described in order from the center to the molding cut surface 45. [ 1) first incision site 37 2) first spacing site 42 3) first adhesive site 34 4) second spacing 43 5) second incision site 38, 6) the third spaced portion 44, 7) the second adhesive portion 35, 8) the protrusion 47, 9) the third incision portion 39 and the molding cut surface 45. In the first and second cutting processes, only the gasket 33 is cut (Thompson treatment) on the lapped fabric. The first spaced portion 42, the second spaced portion 43 and the third spaced portion 44 maintain a state in which the aluminum foil 32 and the gasket 33 are not adhered to each other. The second spacing and third spacing are bounded by the at least one bridge 46 and are bounded by the folds. The first adhesive portion 34 and the second adhesive portion 35 are in a state in which two kinds of fabrics (aluminum sheet + gasket) are laminated (bonded). The molding cut surface 45 maintains a circular shape and has one or more protrusions 47 outside the circumference of the cut surface. 7 is a cross-sectional view of a sealing member produced in a production facility according to the present invention. And an aluminum foil 32 having a gasket 33 on the upper side and an adhesive on the lower side. The lapping fabric consists of a milky LLD PE film layer 49, a sealant film (PE) layer 50, a PET layer 51, a sealant film (HDPE) layer 52 and an aluminum foil 32. The gasket has a spacing portion and an incision portion. The gasket and the aluminum foil plate are fused by the hot pressurization of the adhesive 48. The heat-bonded fabric (aluminum sheet + primary and secondary Thompson-treated gasket) was thermally adhered by the production facility according to the present invention to the fabric (aluminum sheet + primary and secondary Thompson treatment) (Final product) formed by molding a cross-shaped Thompson-treated gasket (a final product), a first incision portion 37 treated with a cross-shaped Thompson is provided at the central portion. In the vicinity of the first incision portion 37, have. There is a circular second incision 38. The second incision site 38 includes one or more bridges 46. And has a second spaced portion 43 and a third spaced portion 44 with a constant width on both sides of the second incision portion. And has a molding cut surface 45 at its outermost portion, and has at least one protrusion 47. The aluminum foil plate 32 coated with the adhesive layer 40 is placed on the lowermost surface abutting the container inlet. Between the gasket and the aluminum foil, the adhesion layer (40) is positioned to bond the two layers. The gasket 33 is located on the uppermost layer. The gasket has a first cutting portion 37 and a second cutting portion 38 and has a first spacing portion 42, a second spacing portion 43 and a third spacing portion 44 . All the parts except the spaced part are formed as an adhesive part 41. Fig. 8 is a cross-sectional view of the upper heat-press plate used in the heat-pressing process. The lower surface of the pressing plate body 64 is treated with irregularities so that the liner has a function of separating and adhering. The compression plate body (64) has at least one cartridge tunnel (63). The cartridge 62 provided with the heating wire 61 for heating is inserted into the cartridge tunnel 63 to generate heat and the compression plate body 64 is heated to a high temperature. 9 is a cross-sectional view of a heat-press plate for a lower part used in a heat-pressing process. The upper surface of the compression plate is treated with irregularities so that the liner has a separation and adhesion function. The compression plate body (64) has at least one cartridge tunnel (63). The cartridge 62 provided with the heating wire 61 for heating is inserted into the cartridge tunnel 63 to generate heat and the compression plate body 64 is heated to a high temperature. 10 is a bottom plan view of the upper heat-press plate used in the heat-pressing process. 11 is a top plan view of the lower heat-press plate used in the heat-pressing process. A portion of the upper and lower surfaces of the heat press plate body 64 that create the spacing of the liner is treated such that the surface thereof is recessed and the portion that creates the adhesive portion is easily abutted. The compression plate body 64 is provided with one or more cartridge tunnels 63. The cartridge 62 is connected to the heating wire 61 for heating. When the power is turned on, the cartridge 62 is heated to a high temperature during heating and is transferred to the pressing plate body 64 to heat the body. The facilities of the present invention include, in order of process order, an unwinder part (A), a roller tension part (B), an eye mark sensing part (C), a primary press part (D), a secondary press part (4) Electric control box (04, Electric control box), touch screen panel (3) Pressing part of the unit (bar), the third press part (s), liner loading part, (03, Touch Screen Panel). The unwinder part (A) is the EPC controller which detects the edge in the uncoiling and releases the fabric in a certain pattern. The roller tension section (B) keeps the tension of the incoming fabric and allows the fabric to be fed by a certain length. The eye mark sensing part (c) is a part that detects the eye mark to transport the same fabric as the eye mark Pitch printed on the fabric. The primary press section (d) is a primary punching press section for punching a (+) cross pattern at the center of the gasket. The secondary press portion (e) is a secondary punching press portion for circular-punching. The heat-bonding unit (bar) is a process for thermally bonding the aluminum foil () and the gasket (). The third press section (S) is the final step of finally punching the outer shape of the thermally adhered fabric. The above process will be described more easily. The fabric supply section consists of an unwinder part (a), a roller tension part (b), and an eye mark sensing part (c). When the fabric wound on the roll is released by the EPC (F, Edge Position Controller) installed on the feeding part, the fabric is released in a certain pattern by the unlocking device of the Liner Unwinder (B) . The tension part has a function of keeping the tension of the fabric constant by the interference of the fabric unwinding prevention cylinder (C) and releasing it to the next step. The eye mark detection part has a function of detecting the eye mark already indicated by a predetermined interval in the edge of the original and proceeding to the next process by a predetermined length in accordance with the pitch interval. The hydraulic system is used for the first cutting process, the second cutting process, and the hot pressing process. In the primary cutting process, the primary pressing part (d) and the secondary pressing part (e) are performed. The process of the primary press section will be described. And a cruciform first incision portion 37 is formed at a predetermined position of the gasket 33. [ The upper mold plate having the cross blade (+) is lowered by the hydraulic pressure, and the cross-shaped blade is cut by the gasket located on the upper surface of the lower mold plate to produce the first cross section 37. [ The process of the secondary press section will be described. Is larger than the cross-incision site, which is the primary incision site, and is cut into a circular shape, which is referred to as the second incision site 38. [ The second incision site 38 is formed by incisional reduction and has one or more bridges 46. The process of the secondary press part is a step of forming the second incision part 38. [ The upper mold plate having the circular blade is lowered by the hydraulic pressure, and the circular blade is Thomson treated on the gasket located on the upper surface of the lower mold plate to produce the circular cut-away secondary cut portion 38. [ The heat-bonding unit (bar) is provided with an aluminum foil 32 separately fed and a gasket that passes through the first and second cutting processes of the first-order cutting process by a high-temperature and high- to be. The hot pressing process includes a hydraulic device for strongly pressing the upper heat plate, the lower heat plate, the spring bar, and the upper and lower heat plates. In particular, the structure of the heat plate has a compression plate body 64 and at least one cartridge tunnel 63 into which the cartridge 62 can be inserted. The cartridge 62, which is inserted into the tunnel so as to raise the temperature of the hot plate to 100 ° C or higher to enhance the compression effect, is provided with a heating wire 61 for heating connected to a power source. The aluminum thin plate 32 fed from the previous step process and the gasket 33 fed and supplied to the secondary process are laminated by the cartridge 62 at a compression pressure of at least 50 kg or more at a temperature of at least 50 Kg . The third press section (S) is a facility that passes through the heating and pressing process and is supplied with a sealing member fabric that is strongly laminated with aluminum foil and gasket, and is finally molded. The upper mold plate having the blade is lowered in accordance with the shape of the third cutting portion of the finished product having a plurality of protruding portions and having a circular shape along the circumference and is sandwiched between the lower mold plate and the upper mold plate, The raw end of the sealing member is cut into a molding cut surface and finally molded. By this process, the liner is completely separated from the lining fabric and automatically loaded into a hollow cylinder installed in the finished product loading process located below the third press section (g). The desired quantity is loaded by the automatic weighing system or the equipment that automatically counts the number of sheets. The discharge section of the waste fabric to be discarded is a process of cutting the disposable waste liner to a size with a predetermined interval. And is cut by a cutter that moves up and down the disposal cloth fed at a constant speed from the third press section (s) at regular time intervals. The cut waste fabric is stacked one after another. The pneumatic sector installed in the production facility is composed of an unwinder part (A), a roller tension part (B), an eye mark detection part (C), a finished product loading part, a disposal fabric It acts to tension the fabric hanging from the cutting part to the discharging process from the fabric feeding part. The major functions of the pneumatic sector are: 1) drawing aluminum foil, gasket, and lining fabric from the first process to the last process, 2) loading process of the liner, and 3) interfering with the cutting process of the waste fabric. . Electric Control Box (04, Electric Control Box) is a facility to supply electricity automatically for the operation of this machine line. Touch Screen Panel (03, Touch Screen Panel) is installed at a certain position of production facility (punching line). The function has a function of collectively managing the success or failure of the entire process. The main functions are listed as follows. They include production quantity, welding time, discharge time, and so on. In this production line, various processes of the production line and the facilities supporting these processes for producing the inventive liner (30) will be described concretely with respect to each process. 1) In the first process section, which is referred to as the first process, the fabric supply section [unwinder part (A), roller tension part (B), eye mark detection part (C)] , separately prepared gasket Attach the aluminum foil (32) fabric to Rubber Roller (D, E) respectively. The union of the liner unwinder (B) feeds the fabric to the next process at a constant speed. 2) The gasket transferred from the primary process is transferred to the primary punching hydraulic cylinder (M) in the first cutting process of the primary press section (D) which is the secondary process (primary press section and secondary press section ) When the first upper punching die is lowered, the cross-shaped (+) blade vertically provided on the lower surface of the first lower punching die descends simultaneously and is brought into close contact with the cutting groove of the upper surface of the first punching lower die. Thereby creating a first incision site 37. The circumferential blade provided in the vertical direction on the lower surface of the second upper punching mold is lowered by the second punching hydraulic cylinder N in the second press section (E), which is the next step, and the upper surface of the second lower punching mold A circular second cutting portion 38 is formed on the gasket fabric while closely contacting the cutting groove. The second incision portion 38 has one or more bridges 46 along the circumference. The bridges connect the inner and outer plates without being separated. The aluminum foil, which is mounted on a roller rubber separate from the gasket which has undergone the first cutting process and the second cutting process, is transferred to be laminated through the heat pressing process. 3) The heat-bonding unit (bar), which is the third process, is a process in which an aluminum thin plate separately supplied from the raw material supplying section and a gasket passing through the first and second cutting processes of the first cutting process are heat- It is a process of joining together by high-pressure bonding. The hot pressing process includes a hydraulic device for strongly pressing the upper heat plate, the lower heat plate, the spring bar, and the upper and lower heat plates. In particular, the structure of the upper and lower heating plates is made of an aluminum body. The body is provided with one or more tunnels through which a cartridge with a hot wire can be inserted. In order to raise the temperature of the upper and lower heat plates to 100 ° C or more to increase the compression effect, the cartridge inserted into the tunnel is provided with a heating wire for heating. The gasket, which is supplied through the aluminum thin plate and the secondary cutting process separately, is sandwiched between the upper and lower heat plates heated by the above-described cartridge, and is laminated by a high temperature of 100 ° C or more and a pressure of at least 50 kg or more. 4) The third press section (G) is the fourth step. It is a process to pass the hot pressing process and to form the final product liner by receiving the fabric with strong laminated aluminum foil and gasket. The upper mold plate having the shape of the blade is lowered in accordance with the shape of the third incision portion of the liner having the plurality of protrusions 47 and having a circular shape along the circumference and is sandwiched between the lower mold plate and the upper mold plate The already transferred fabric to be conveyed is cut along the forming cut surface 45 to form the final product liner 41. The liner is completely separated from the lobe fabric by the cutting process. 5) The liner loading process is the fifth process . And is automatically placed in the hollow cylinder () located under the facility of the second cutting process, which is the fourth process. The loading method is carried out by an automatic weighing system or a facility that automatically counts the number of liner (41). 6) The discharge process of the waste fabric to be disposed is the fifth process and the last process . The liner is a step of cutting the already separated laminated fabric to a certain width. Cutting is carried out by the cutter equipment which moves the waste cloth, which is fed at a constant speed from the third press section (S) process, at a predetermined time interval up and down. The waste fabric cut with a certain width is loaded one after another. 7) Unwinder Main Base Plate (01), Punching Mold Up & Down Control Bolt and Sensor (02), Electric Control Box (04), Electric Control Box, Touch Screen Panel (03, Touch Screen Panel). The main functions of the pneumatic sector are: 1) maintaining the tension from the first process to the last process of the aluminum foil and gasket which are hanging from the fabric supply section which is the first process of the above facility to the final discharge process, 2) the process of loading the liner as a finished product, and 3) interrupting the process of cutting and discharging the lumber to be discarded. Among the items listed up in the column of &quot; Explanation of reference numerals to the main parts of the drawings &quot; The order of the processes is one embodiment, and the order of the processes may be changed or a production method may be implemented in a rotary manner to increase the production amount.

Claims (22)

As a machine equipped with various processes for automatically mass-producing a liner (sealing member) having a new function and structure,
A fabric supply section comprising an unwinder portion, a roller tension portion, and an eye mark sensing portion;
An incision section for a gasket constituted by a primary press section and a secondary press section;
A hot pressing unit (hot-bonding unit) at a high temperature and a high pressure for laminating a gasket and a metal layer (aluminum foil);
A third press section for molding the finished article,
A liner loading part for storing articles;
A discharge section for cutting the remaining end fabric after the finished product is separated into a predetermined width;
Newly invented machinery consisting of a pneumatic division, an electric control box, and a touch screen panel;
Various combinations of parts and associated parts thereof;
Related to each step of the facility and its structure Facility for the whole process
The method according to claim 1,
Facilities for installing and supplying fabric, facilities related to the first laminating process, facilities related to the compression process by heating the aluminum sheet and gasket to high temperature and high pressure, facilities related to the second laminating process, Facilities related to the liner loading process, facilities related to the process of discharging the waste lining fabric after cutting it at regular intervals, the pneumatic sector and the electric control facility to interfere and support all the processes, the machine equipment with the touch screen panel facility (Aka: punching line) Regarding the 1st stage of 'Fabric Supply Sector'
The method of claim 2,
One or more rubber rollers, one or more ELPC Controllers, Unwinder Air Chucker, Unwinder Motor, Fabric Detection Sensor, Fabric Unwinding Cylinder, Fabric Tension Roller (Signal transmission to Unwinder Motor) to install and supply (transfer) fabric (aluminum sheet and gasket) Facilities related to the first incision procedure
The method of claim 3,
A first punching hydraulic cylinder, a first punching upper and lower mold, a second punching hydraulic cylinder, a second punching upper and lower mold, an up and down adjusting bolt and a sensor for the mold, A facility that performs processes The method of claim 4,
A mold having a function as a first cutting step (a first cutting step and a second cutting step) having a blade at an upper mold and a blade groove at which a blade can be engaged with a lower mold, The method of claim 5,
Blade and blade groove having cross shape, date (I- or -type) shape, △ shape, ∪ shape, <shape,> shape, ⓧ shape, ⊙, The method of claim 5,
A first cutting step for cutting (centering the central portion of the gasket) into various shapes such as a cross shape or a straight shape (Thomson treatment) The method of claim 5,
A second cutting step of cutting (Thomson) various shapes such as a circle to separate the outer plate and the inner plate and one or more bridges connecting the inner plate and the outer plate along the cut circumference; The method of claim 2,
A hydraulic cylinder for thermocompression, an upper mold having a heating plate, a lower mold having a heating plate, and a device for pressing the aluminum foil and the gasket by heating at a high temperature and a high pressure, The method of claim 9,
In order to form the first, second, and third spaced (non-adhered) portions, an upper mold having recessed grooves corresponding to the shape of the spaced portion on the lower surface and an upper mold A lower mold having recessed and recessed grooves corresponding to the shape of the spaced (non-adhered) The method of claim 9,
A cartridge having a heating wire to be heated, an upper mold having at least one tunnel for inserting the cartridge into a predetermined position of the body, a cartridge having a heating wire to be heated, and at least one tunnel for inserting the cartridge into a predetermined position of the body Lower mold Facilities related to the second incision
The method of claim 2,
All of the facilities related to the second cutting process including the hydraulic cylinder for the second cutting, the upper mold for the second cutting, and the lower mold The method of claim 12,
An upper mold having a cutting blade on the lower surface for completely separating the liner from the lint fabric by a cutting method, and a lower mold having a cutting groove for engaging with the blade, Facility to load finished liner
The method of claim 2,
Liner Step Feeding All units that are equipped with a liner consisting of a loading unit, a feeding servo roller, a servo feeding motor unit, an air cylinder, a liner loading cylinder, an up & down adjusting bolt and sensor, Facilities to Dispose After Dismantling Support Units at Fixed Intervals
The method of claim 2,
A hydraulic cylinder, an upper mold having a cutting blade on a lower surface thereof, and a lower mold having a cutting groove to be engaged with the cutting blade, Pneumatic sector and electrical control facilities that interfere and support the entire process
The method of claim 2,
All that is needed for the pneumatic sector and the electrical control facility to intervene and support the entire process Touch screen panel facility
The method of claim 2,
Having a 'touch screen panel' for controlling the entire process and functions of the present invention The method according to claim 1,
A step of installing and supplying a fabric, a second step) a first lancing step, a third step) a step of heating the aluminum foil and the gasket to high temperature and high pressure, A step of lidding the car, a fifth step), a step of loading the liner as the finished product, a sixth step), a machine installed in a sequence of cutting the lumber to be discarded at regular intervals 19. The method of claim 18,
All of the machines in the liner automatic production line that change the order of all of the above processes as needed, or merge or subdivide the processes The method of claim 4,
A blade for cutting (Thompson) blade is provided on the lower surface of the upper mold, a blade groove for engaging with the blade is provided on the upper surface of the lower mold, a blade groove is provided on the lower surface of the upper mold, For Thompson) The blade is provided on the upper surface of the lower mold The method of claim 2,
In the process of producing and automatically laminating an end product liner (sealing member), the step of laminating the liner to the storage box is omitted, and the molded liner invented in this patent is immediately inserted into the inner space of the lower surface of the bottle cap All about inserting facilities All the processes of mechanical equipment including various processes for mass production of liners (sealing members) with new functions and structures are called Conveyer type, Rotary type, Rolling type, Everything that has an overall production line using a mix of the three methods

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