KR101785966B1 - An apparatus and a method for manufacturing air pocket tube, and apparatus double pocket tube for manufacturing equipment - Google Patents

Abstract

The present invention relates to an apparatus and a method for manufacturing a cup sleeve, and a dual cup making apparatus using the same, and more particularly, to a cup sleeve forming apparatus and method for manufacturing a cup sleeve having a cavity to form an air layer, To provide a cup making apparatus.
The present invention relates to a method for manufacturing a barrel, comprising a raw material loading unit, a first transfer unit for transferring the raw materials loaded on the raw material loading unit, a barrel manufacturing unit for forming a cylinder by rolling the raw material transferred through the first transfer unit, And a curved fabricating unit for pressing the end of the barrel received through the second transferring unit, a manufacturing method using the same, and a double cup based thereon The technical point of the production apparatus is as follows.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a method for manufacturing a cup sleeve,

The present invention relates to an apparatus and a method for manufacturing a cup sleeve and a dual cup making apparatus using the same, and more particularly, to an apparatus and a method for manufacturing a cup sleeve having a curved shape so that a cavity is formed when the cup is coupled with an air layer, The present invention relates to a double cup making apparatus using the same.

The barrel with a generally rounded outer surface uses insulation to block cold and heat, requiring multiple layers of vacuum insulation, insulation or other materials.

Korean Patent No. 10-1544281 entitled " Method of making a double insulated tube and polyurethane foam composition for double insulated tube " The conventional barrel disclosed in the prior art has a structure in which a polyurethane foaming agent is foamed in a space separated between two barrels to increase the heat insulation performance.

In addition, as in the prior art, there is also disclosed an adiabatic method in which a plurality of heat insulating layers are used to increase the heat insulating performance, or a high technology such as vacuum molding is required, and the manufacturing cost is high.

In addition, the corrugated cardboard holders and the like for maintaining the existing cups are not only environmental problems on the corrugated cardboard material, but also thick paper sheets, which are directly contacted with the cups. Therefore, the temperature easily increases and the paper is disintegrated due to dew There is insulation performance and quality problems falling off. In addition, although the heat insulating property is maintained by a holder such as thick silicon, the manufacturing method and manufacturing cost are expensive, which makes it difficult to use the product once.

In order to solve such a conventional problem, the inventor of the present invention has introduced the following structure and manufactured a cup sleeve capable of having excellent heat insulating performance even with a relatively inexpensive material, thereby increasing the robustness and the heat insulation performance due to the air layer, The present invention has been made to develop a cup-sleeve manufacturing apparatus and method and a double-cup making apparatus using the cup-sleeve manufacturing apparatus and method.

[1] Korean Patent Registration No. 10-1544281

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus and a method for manufacturing a cup sleeve having a curved shape for forming an air layer.

It is another object of the present invention to provide a double cup making apparatus which can form a heat insulating layer between a cup and a cup sleeve by using the cup sleeve.

In order to achieve the above-mentioned object, the present invention is characterized in that: a raw material loading unit; A first transfer unit for transferring the raw materials loaded on the raw material loading unit; A barrel-making unit for rolling the raw material transferred through the first transfer unit to form a cylinder; A second transfer unit for transferring the barrel made through the barrel producing unit; And a curved fabricating unit for pressing the end of the barrel received through the second transfer unit.

The loading section is provided with a loading guide such that the plate-shaped plate-like soft material is loaded in a uniform size, shape and position; An air nozzle which is sprayed on the side so that the raw material is easily separated; And a catching jaw formed under the loading guide so as to hang the outer circumferential surface of the raw material.

The first transfer unit may include: a first traction unit for separating the raw materials loaded in the loading unit one by one; And a second traction unit for transferring the separated raw material to the position of the barrel manufacturing portion.

In addition, the first traction unit may be configured to pull one side of the raw material plate through air suction, and the second traction unit may be configured to pull the side of the raw material by pulling.

The barrel-making section includes a cylindrical housing module; A bending unit having a claw structure that is paired with the hemispherical frame corresponding to the housing module to surround the housing module; And an adhesive machine for pressing and fusing the rolled cylindrical material through the bending unit.

The second transfer unit may include: a third traction unit for traversing the barrel made through the barrel producing unit; A gripping unit having a hole or molding formed so that the barrel is fixedly inserted when the barrel is moved; And a moving unit for moving the grip unit to the curved producing unit.

The apparatus may further include a correction bar that presses the end of the attached barrel when transmitting through the third traction unit.

On the other hand, the mobile device can be reciprocally moved, rotated, or moved in the form of a conveyor.

Wherein the curvature-making portion includes: a presser for pressing the outer peripheral end of the barrel; A curved portion provided at a portion where the outer circumferential end of the barrel abuts against the pusher and has a circular arc having a circular cross section so as to correspond to an outer diameter of an end of the barrel; And a module inserted into the center of the barrel to protect the end of the barrel so as to maintain the shape of the barrel when the barrel is pressed.

The curler may further include a heater to facilitate the end of the barrel.

The curvature production unit may further include a rotator that rotates around the outer periphery of the barrel such that an end of the barrel is easily dried.

The rotator may be configured to rotate at least one of the curvature and the module or the barrel.

In addition, at least one or more curved fabrication units may be provided to facilitate the end of the barrel to engage with the curved groove at least once.

The curved tube may be provided at both ends of the barrel and proceeded at the same time.

The curler may further include supplying steam to the end of the barrel in the form of steam.

And a fourth transfer unit for removing the completed cup sleeve from the grip unit through the curvature production unit and moving the cup sleeve along the movement path.

The fourth transfer unit may further include a loader for counting and loading the moved cup sleeves according to a predetermined number.

The loading part or the curving part may further include a water supply device.

According to another aspect of the present invention, there is provided a method of manufacturing a cup sleeve, comprising the steps of: A loading a raw material into a loading section; A step B for separating and pulling the raw materials stacked in the loading unit one by one; Placing the towed material in a cylindrical housing module; A step D of rolling both ends of the raw material according to the shape of the cylindrical housing module; An E step of bonding the raw materials collected at both ends to form a barrel; An F step of moving the barrel made through step E; A step G for fixing the moved barrel; A step H for pushing the end of the fixed barrel into a curved arcuate curved barrel so that the end of the barrel is curled; .

And may further include an E-1 step of correcting the step of pressing the bonded surface of the barrel after the E step.

And a step G-1 in which a module for protecting the inner shape of the barrel is inserted into the G stage.

The H stage may include concurrently proceeding at both ends of the barrel, and the H stage may be repeated at least once.

The step H may further include an H-1 step of rotating the barrel or the bending machine, and the bending machine of the H step may be in a heated state.

Further, it may further comprise an N step of supplying water to the raw material or a part of the barrel.

The method may further include an I step of separating the manufactured cup sleeve from the fixing step after the step H, and further comprising a step J for loading the cup sleeve moved in step I.

In order to accomplish the above object, another aspect of the present invention is a cup manufacturing apparatus comprising: a cylinder, which is required to be manufactured after preceding the cup sleeve manufacturing apparatus and manufacturing method; A first fixing device fixing the end of the cylinder; A second fixing device fixing the outer circumferential surface of the cup sleeve; And a coupler coupling the cylinder and the cup sleeve.

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The first fixing device may further include a molding part for holding an inner surface shape of a cylinder therein, wherein the coupling device presses a curved outer circumferential surface formed at an end of the cup sleeve to press the cylinder between the molding parts together And the like.

And the coupler is adhesively coupled to the curved inner circumferential surface formed at the end of the cup sleeve using an adhesive element.

The apparatus and method for manufacturing a cup sleeve according to the present invention and the apparatus for producing a cup according to the present invention can remarkably improve the efficiency of cutting off heat from the high temperature or cold liquid flowing into the inside of the barrel, have.

In addition, there is an advantage that the heat insulating property can be easily increased by additionally adding to the general barrel.

In addition, it prevents the dew from flowing or touching foreign matter directly.

Further, it will be appreciated that those skilled in the art will appreciate that other advantages may be obtained beyond the above-described effects.

1 is a configuration diagram of a cup sleeve manufacturing apparatus according to an embodiment of the present invention.
Fig. 2 is an enlarged view of the configuration of the curved producing portion shown in Fig. 1. Fig.
Fig. 3 is a use example of the curvature production portion shown in Fig. 2. Fig.
4 is a partial block diagram of an apparatus for producing a cup according to an embodiment of the present invention.
5 is a flowchart illustrating a method of manufacturing a cup sleeve according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for manufacturing a cup sleeve according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the dimensions of the structures are enlarged to illustrate the present invention in order to clarify the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a part or a combination thereof is described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

FIG. 1 is a configuration diagram of a cup sleeve manufacturing apparatus according to an embodiment of the present invention, and FIG. 2 is an enlarged view of the configuration of the curved manufacturing portion shown in FIG.

1 and 2, an apparatus for manufacturing a cup slip according to an embodiment of the present invention includes a raw material loading unit 1; A first transmission unit 2; (3); A second transmission unit 4; And a curvature production section (5). 5, the overall manufacturing process according to the present invention can be described as follows. Referring to FIG. 5, a method of manufacturing a cup sleeve according to an embodiment of the present invention will be described.

(A), the raw material M10 is loaded on the loading section 1 (S10 in Fig. 5);

(B), and a plurality of raw materials M10 loaded on the loading unit 1 are individually separated and towed (S20 in Fig. 5).

(C), the towed raw material M10 is placed in the cylindrical housing module 31 (S30 in FIG. 5);

(D), both ends of the raw material M10 are rolled according to the shape of the cylindrical housing module (S40 in FIG. 5);

(E), and the raw material M10 having both ends gathered is adhered to make a barrel (S50 in FIG. 5);

(F), the prepared barrel M20 is moved, and in step (G), it is fixed to the holder (S60 in FIG. 5);

In step (H), the end of the fixed barrel M20 is pushed into the curved arcuate curved bar 52 so that the end of the barrel M20 is curled (S70 in FIG. 5).

In step (I), the cup sleeve M30 formed in the above step is separated from the fixture and moved, and step (J) and loading are carried out according to the amount of water (step S80 in FIG. 5)

Hereinafter, the detailed configuration of the cup sleeve producing apparatus shown in Figs. 1 and 2 will be described in detail.

The raw material (M10) is composed of a strip-shaped thin plate with uniform size and shape. At this time, the raw material M10 is a soft material that can be bent, and may be composed of synthetic resin, fiber such as paper or cloth, and the range is not limited.

The raw material M10 may be formed into a stripe-like arc of a fan-like shape.

The raw material (M10) is not limited to the shape of the raw material (M10) if it can be formed into a barrel shape like a band.

The raw material M10 is stacked on the stacking unit 1 by stacking a plurality of sheets in a uniform size and shape. At this time, the loading unit 1 is provided with a loading guide 11 so that the raw material M10 is loaded in a uniform shape.

The loading unit 1 includes a loading guide 11 formed so as to facilitate loading of the raw material M10 and a locking jaw 13 in the form of a projection in such a manner that the raw material M10 does not protrude below the loading guide 11. [ Respectively.

An air nozzle 12 is provided around the catching jaws 13 to help separate the raw materials M10 one by one through pneumatic pressure.

A moisture supply unit (not shown) is further provided around the latching jaws 13 so that the side surface of the raw material M10 has moisture to facilitate the manufacture of the tube.

The air nozzle 12 may be combined with or replaced with a water supply device.

The first transfer unit 2 includes a first traction unit 21 for sucking the plane of the loaded raw material M10 by pneumatic pressure or by pulling the side by one and separating the same from the catching jaw 13, And a second traction unit 22 for pulling the side of the raw material M10 descending one by one through the first traction unit 21 and moving it to the barrel manufacturing unit 3. [

The second traction unit 22 may be formed with a pair of rings such that the raw material M10 is uniformly held on both sides of the raw material M10 so that the raw material M10 can be conveyed in a uniform shape and spacing.

The barrel-making section 3 includes a housing module 31 made of a rigid cylindrical module for holding the shape of the barrel, a bending unit 32 for rolling both ends of the band-shaped raw material M10, And an adhesive 33 for bonding the two surfaces of the sheet M10 by applying friction or heat or applying pressure.

The shape of the housing module 31 may be a cylindrical shape, a polygonal column or a truncated cone shape, or a conical shape or a radial shape. And does not limit its shape or form.

The bending unit 32 may be formed to have a circular cross-sectional shape corresponding to the housing module 31, and a pair of right and left blades may be provided to surround the housing module 31 with a claw structure.

The adhesive machine 33 may include a device that can face the one side of the housing module 31 and apply heat or friction such as ultrasonic waves or press-like pressure due to heat.

The second transfer unit 4 includes a third traction unit 41 for traversing and moving the barrel M20 manufactured through the barrel manufacturing unit 3 and a correction bar 42 for pushing the joining surface of the barrel M20 A grasping unit 43 for fixing the barrel M20 that has exited the correction bar 42 through the third traction unit 41 and a grasping unit 43 for moving the grasping unit 43 to the bending part 5 And a mobile device 44.

The third traction unit 41 may be configured to sequentially move the end of the barrel M20 made through the bonding machine 33. At this time, a device for transferring the barrel M20 into the gripping unit 43 may be included.

The first, second, and third traction units 21, 22, 41 are not limited in form and configuration as tools for moving the raw material M10 and the barrel M20.

Since the barrel M20 made through the adhesive machine 33 can be heated by fusion bonding, the correction bar 42 can prevent the adhesion surface of the barrel M20 from moving A guide-shaped bar may be constructed which presses at intervals.

The gripping unit 43 may fix the outer peripheral surface of the lens barrel M20 moved through the third traction unit 41. [

The holding unit 43 may be installed in the mobile device 44.

The moving device 44 can be moved to fix the gripping unit 43 to assist the repetitive operation of the curved producing unit 5. [

The mobile device 44 may be provided in the form of a reciprocating or rotating or conveyor belt for moving the working range of the curvilinear production part 5.

When the movable unit 44 is moved to the working range of the curvilinear manufacturing unit 5, the movable unit 44 temporarily stops while the curvilinear manufacturing unit 5 is operating, and moves sequentially when the operation is completed.

2, the curvature producing unit 5 includes a pressing unit 51 for pressing the barrel M20 moved through the moving unit 44 in the column direction and a pressing unit 52 provided at the end of the pressing unit 52, A module 53 inserted into the barrel M20 to protect the shape of the barrel M20 and a module 53 installed in the barrel 52 to heat the barrel M20 A heater 54 for conveying the toner, and a rotator 55 for rotating the curler 52 and the like.

The pusher 51 may have a structure capable of vertically moving the projected end of the barrel M20.

The curved bar 52 may be provided at an end of the pusher 51 which is in direct contact with the barrel M20.

The pair of curved parts 52 may be vertically arranged through the pusher 51 so as to be collected toward the barrel M20.

The curved surface of the curved surface of the curved tube 52 is curved so as to correspond to the outer circumferential surface of the end of the barrel M20. The curved surface of the curved tube 52 has a concave surface 521, (521).

3 is an exemplary view showing a step in which the barrel M20 is inserted into the bending machine 52 to manufacture the cup sleeve M30.

The bending machine 52 can perform a repetitive operation at least once.

3, the lens barrel M20 is primarily curled toward the groove 521 of the curved barrel 52 so as to be bent at a predetermined angle. When the barrel M20 is curled in the second direction, the outer peripheral surface of the barrel M20 is completely It can be rolled into a circle.

This is to exclude the possibility that the barrel M20 may be broken when the curvature is formed at one time.

The curved bar 52 may be repeatedly operated so as to allow the outer peripheral surface of the barrel M20 to be dried many times. This is to make the prototype thicker by multiple layers to make it more solid.

The curved bar 52 may be formed as one unit, and the opposite side of the barrel 52 may be fixed so as not to shake the barrel M20.

The module 53 is formed into a round cylindrical shape and is inserted into the barrel M20 when the barrel M20 is curled in the curved bar 52 to serve as a guide to prevent the inner wall of the barrel M20 from being broken. can do.

At this time, the upper and lower edges of the module 53 are inclined so that the barrel M20 can easily enter or exit.

In addition, the module 53 is provided so as to be partially in contact with the inner surface of the lens barrel M20 so that the inner shape of the lens barrel M20 can be firmly held when the lens barrel M20 is curved.

The heater 54 is connected to the curved bar 52 and conveys the heat to easily dry the barrel M20 when the barrel M20 comes into contact with the curved bar 52. [

At this time, the heater 54 may be provided with a hot wire to transmit heat to the bending machine 52, and may be transmitted with hot air. Further, the heater 54 may transmit moisture and heat with high-temperature steam.

The rotator 55 rotates the barrel M20 in the circumferential direction of the barrel M20 in order to make the barrel M20 easier to be dried. In one embodiment, the barrel M20 rotates the barrel 52, It can be guided to roll up along the outer peripheral surface of the barrel M20.

The rotator 55 may rotate the flexor 52 or may rotate the pusher 51 together with the module 53. [ Also, the grip unit 43 connected to the mobile device 44 may rotate.

The method and the shape of the rotator 55 are not limited as long as the rotator 55 can rotate along the outer peripheral surface of the barrel M20.

The rotator 55 may further include a structure (not shown) for pressing the curved surface of the barrel M20 left and right. With this operation, the curved surface of the lens barrel M20 may have a curved surface of a larger area in a flat shape.

Further, it may further include a structure (not shown) that draws in air through a protruding perforation on a curved surface that is curled.

The fourth transfer unit 6 may include a moving unit 44 for moving the cup sleeve M30 manufactured through the curved manufacturing unit 5. [

The fourth transferring unit 6 includes a remover 61 for separating the cup sleeve M30 from the curving producing unit 5 through the moving unit 44 from the gripping unit 43, A moving path 62 for forming and moving a cup sleeve M30 separated from the cup sleeve M30 by a moving path 62 and a wind path provided on one side of the moving path 62 to move the cup sleeve M30 to the moving path 62 And a loader 64 for collecting and stacking the cup sleeve M30 sequentially through the moving passage 62. [0033]

The remover 61 may be configured to push the cup sleeve M30 out of the gripping unit 43 to separate the cup sleeve M30. Or a structure capable of pulling out an inner part or a part thereof is possible, and its form and structure are not limited.

The movement passage 62 is formed in the shape of a pipe so as to be hermetically sealed so that no wind can escape. At this time, it is possible to form a structure in which a plurality of work routes are gathered into one.

The structure of the air compressor 63 may be the same as that of the air compressor, and the structure and the shape of the air compressor 63 are not limited as long as the means can generate wind pressure in the moving passage 62.

The loading unit 64 is provided at the end of the moving path 62 so that the cup sleeve M30 can be sequentially loaded. At this time, if the shape of the cup sleeve M30 is a conical shape having a slanting line, a stack may be stacked.

In addition, a counter is provided in the loader 64 so that the cup sleeve M30 can be stacked according to the quantity.

4 is a partial block diagram of an apparatus for producing a cup according to an embodiment of the present invention.

Referring to FIG. 4, the cup sleeve M30 manufactured through the cup sleeve producing apparatus may be manufactured as a double cup having a heat insulating effect through a double cup making apparatus.

In this case, the present invention may be provided between the curvature production unit 5 and the fourth transfer unit 6, or may be provided separately after the fourth transfer unit 6 is completely completed It is possible. However, the order of the configuration is not limited.

The double cup making apparatus comprises a cylindrical body M40 which is required to be manufactured, a first fixing device 7 which fixes one side of the cylindrical body M40 and a cup fixing member 5 which is formed on one side of the cup sleeve M30 And a coupler 9 for coupling the cylinder M40 with the cup sleeve M30.

The cylinder M40 may be inserted into the cup sleeve M30 or may be enclosed by the cup sleeve M30 so as to correspond to the shape of the circumferential surface thereof.

The cylinder M40 may be formed with a closed-side structure.

The first fixing device 7 can be fixed to one side of the cylinder M40. For example, the first fixing device 7 can be fixed to the inner circumferential surface of the cylinder M40 so as to prevent it from moving. Or in the form of an adsorber capable of sucking the side when the side of the cylinder M40 is closed.

The second fixing device 8 is fixed by a structure to cover the side surface of the cup sleeve M30 to prevent the cup sleeve M30 from shaking. At this time, the second fixing device 8 may be replaced with the holding unit 43. [

The coupler 9 is for coupling the cylindrical M40 with the cup sleeve M30 and pressing the curved surface formed on the cup sleeve M30 to attach to the cylindrical M40 . At this time, when the cylinder M40 or the cup sleeve M30 is pressed against each other, the molding part 71 is formed so as to correspond to the inner shape so that the shape is maintained inside the attachment face, .

The molding part 71 may be structured so as to correspond to the engaging surface of the coupler 9 when the coupler 9 is operated and may be pushed in a reverse direction to abut.

At this time, the curved surface of the cup sleeve M30 may be compressed and flattened to form a wider surface.

The coupler 9 may be thermally fused with an ultrasonic wave or the like and may include a mechanism for inserting an adhesive between the cylindrical M40 and the cup sleeve M30.

On the other hand, an adhesive can be previously applied to the curved surface of the cup sleeve M30, and the coupler 9 can be performed simply by pushing the cylindrical sleeve M40 and the cup sleeve M30 against each other.

In addition, the curved surface of the cup sleeve M30 may be formed to be thicker and thicker by a plurality of circles, and may be pressed in advance by the rotator 55 to form a flat surface.

The raw material M10 and the cylinder M40 may further include a synthetic resin material to facilitate thermal adhesion.

Hereinafter, a process of manufacturing a cup sleeve according to an embodiment of the present invention will be described.

Hereinafter, the operation of the embodiment of the present invention will be described in connection with the accompanying drawings.

First, the raw material M10 is loaded along the loading guide 11. One side of the raw material M10 is pulled through the first pulling unit 21 and pulled out one by one from the latching jaws 13 of the loading guide 11. [ At this time, the air nozzles 12 can be easily separated one by one.

Next, the side surface of the drawn raw material M10 is moved to the housing module 31 through the second traction unit 22. The moved raw material M10 is rounded by the bending unit 32 and the curled surface is pressed through the bonding machine 33 to form the barrel M20.

Next, the manufactured barrel M20 is moved from the barrel-making section 3 to the gripping unit 43 by the third traction unit 41. At this time, the barrel M20 passes through the correction bar 42 and is corrected by pressing the adhesive surface bonded through the adhesive 33. [

The barrel M20 fixed to the gripping unit 43 is sequentially moved to the curving producing unit 5 through the moving unit 44 and the gripping unit 43 arriving at the pressing unit 51 moves the curving producing unit 5 While temporarily stopping the movement.

Next, the outer peripheral surface of the lens barrel M20 is pressed by the presser 51 to cause the outer peripheral surface of the lens barrel M20 to form an arc. At this time, the curved barrel 52 is pressed more than once, so that the arc of the barrel M20 is formed deeper, and finally the circular section is formed. At this time, the module 53 is inserted and removed so that the shape of the lens barrel M20 is not broken.

Further, the module 53 catches the side surface of the lens barrel M20 so that the arc of the lens barrel M20 is more firmly generated.

In the present invention, the barrel M20 having an air layer to form a curved arc on both sides is referred to as a cup sleeve M30.

On the other hand, the curved bar 52 may be repeatedly operated so that the arc of the barrel M20 forms a circular shape, and the circular shape is repeated several times.

Further, it is also possible to press the circular rim thus formed to flatten it.

Next, the manufactured cup sleeve M30 continues to move through the eliminator 61, and is transported to the loader 64 through the moving path 62. At this time, a wind pressure is formed in the moving path 62 through the wind motors 63 to generate a moving force.

Finally, the cup sleeve M30 that has exited the moving passage 62 can be sequentially counted and stacked in accordance with the quantity.

By using the apparatus for manufacturing a cup sleeve according to an embodiment of the present invention, it is possible to easily manufacture a flexible tube and a cup sleeve for forming a cavity therefrom, and can be applied variously to a circular tube requiring heat insulation And the industrial applicability can be greatly increased.

In addition, according to another embodiment of the present invention, the double cup making apparatus may be manufactured as follows.

The outer circumferential surface of the cup sleeve M30 manufactured through the bending part 5 is fixed to the second fixing device 8 by the first fixing device 7, So as to fit the outer circumferential surface of the cylinder M40. At this time, the molding part 71 is inserted to correspond to the inner circumferential surface of the cylinder M40.

Next, the curved ends of the cup sleeve M30 are heated and pressed by the coupler 9, and at this time, the molding part 71 is pushed from the inside to make the coupling more rigid. Alternatively, the curved ends of the cup sleeve M30 may be previously coated with an adhesive material so that the coupler 9 can be easily pressed.

Finally, the first fixing device 7 and the molding part 71 are removed from the cylinder M40, and the second fixing device 8 is moved to the final loading position.

The use of the apparatus for producing a cup according to an embodiment of the present invention makes it easier to manufacture a cup or a container requiring a heat insulation with a simpler and simpler apparatus than the existing apparatus, and can greatly increase industrial applicability. In addition, it is difficult to develop a device that can be implemented in the configuration in the past in order to express such a configuration, and it is undoubtedly believed that the present invention greatly contributes to industrial development.

5 is a flowchart illustrating a method of manufacturing a cup sleeve according to an embodiment of the present invention. First, the step S10 of loading the raw material M10 into the loading section 1 may include an A step in which the raw material M10 can be loaded smoothly through the loading guide 11.

Next, in step S20, the loaded raw materials M10 may be separated into the first tow unit 21 and moved.

Next, the step S30 may include a step C for moving the raw materials M10 separated through the second traction unit 22 one by one to the housing module 31. [

Next, in step S40, a step D may be included in which the ends M10 of the raw material M10 are folded and aligned according to the shape of the housing module 31. [

Next, in step S50, it may include an E step of bonding the aggregated ends of the raw material M10 to both ends to form the barrel M20.

Next, in step S60, an F stage for moving the barrel M20 and a G stage for fixing the moved barrel to the grip unit 41 may be included. At this time, it is possible to further include an E-1 step of pressing the surface of the barrel M20 to which it is joined by the correction bar 42.

Next, in step S70, an H step of pushing the barrel M20 with the arc-shaped curved bar 52 facing the end of the fixed barrel M20 to curve the end of the barrel M20 to form the cup sleeve M30 . At this time, it is possible to further include a step G-1 for inserting a module 53 to help maintain the inner shape of the barrel M20.

Step H may be performed to simultaneously bend both ends of the barrel M20.

Also, the step H may be repeated at least once.

And may further include an H-1 step of rotating the barrel M20 or the curved unit and the module in the H step.

In addition, the bending machine 52 of the H step may be in a heated state.

Next, in step S80, the cup sleeve M30 completed in this way is separated from the gripping unit 43 and moved to the moving path 62, and an I step of moving the cup sleeve M30 separated from the gripping unit 43 to the moving path 62, Step < / RTI >

Further, it may further include an N step of supplying moisture to a part of the raw material M10 or the barrel M20 during the above process.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

It is therefore to be understood that the above-described embodiments are to be considered in all respects only as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description and the best mode consistent with the novel features and equivalents thereof And all changes or modifications that come within the scope of the present invention should be construed as being included.

1: Loading part 11: Loading guide
12: air nozzle 13:
2: first transfer unit 21: first traction unit
22: second tow unit
3: barrel manufacturing part 31: housing module
32: bending unit 33: bonding machine
4: second transfer unit 41: third traction unit
42: correction bar 43: gripping unit
44:
5: curved manufacturing part 51: pressing machine
52: Curve 521: Groove
53: module 54: heater
55: Rotor
6: fourth transmission unit 61:
62: travel passage 63: wind motive
64: Stacker
7: first fixing device 71: molding part
8: Second fixing device 9: Coupling device

Claims (33)

Raw material loading section;
A first transfer unit for transferring the raw materials loaded on the raw material loading unit;
A barrel-making unit for rolling the raw material transferred through the first transfer unit to form a cylinder;
A second transfer unit for transferring the barrel made through the barrel producing unit;
And a curvature production unit for pressing the end of the barrel received through the second transmission unit,
The loading section
A loading guide to load the material in uniform size, shape and location;
An air nozzle which is sprayed on the side so that the raw material is easily separated;
And a catching jaw formed under the loading guide so as to catch the outer circumferential surface of the raw material. delete The method according to claim 1,
Wherein the first transmitting unit comprises:
A first tow unit for separating the raw materials loaded in the loading unit one by one;
And a second traction unit for transferring the separated raw material to the position of the barrel manufacturing portion. The method according to claim 1,
The barrel-
A cylindrical housing module;
A bending unit having a claw structure that is paired with the hemispherical frame corresponding to the housing module to surround the housing module;
And an adhesive machine for pressing and fusing raw materials which are rolled and cylindrically rolled through the bending unit and whose ends are overlapped with each other. The method according to claim 1,
Wherein the second transmission unit comprises:
A third traction unit for traversing the barrel made through the barrel producing unit;
A gripping unit having a hole or molding formed so that the barrel is fixedly inserted when the barrel is moved;
And a moving device for moving the gripping unit to the curved fabricating unit. 6. The method of claim 5,
And a correction bar for pressing the end of the attached barrel when transmitting through the third traction unit. 6. The method of claim 5,
Wherein the mobile device moves the gripping unit using any one of a reciprocating device, a rotating plate, and a conveyor. The method according to claim 1,
The curvature-
A presser for pressing the outer peripheral end of the barrel;
A curved portion provided at a portion where the outer circumferential end of the barrel abuts against the pusher and has a circular arc having a circular cross section so as to correspond to an outer diameter of an end of the barrel;
And a module inserted in the center of the barrel to protect the end of the barrel so as to maintain the shape of the barrel when the barrel is pressed. 9. The method of claim 8,
Wherein the curler further comprises a heater for facilitating the drying of the end of the barrel. 9. The method of claim 8,
Wherein the curvature production portion further comprises a rotator that rotates around the outer periphery of the barrel so that an end of the barrel can be easily dried. 11. The method of claim 10,
Wherein the rotator rotates at least one of the curler, the module, and the barrel. 11. The method of claim 10,
Wherein the rotator is configured to press the end of the barrel leftward and rightward to flatten the curved surface. 9. The method of claim 8,
Wherein at least one curved portion is provided so that an end of the barrel is engaged with at least one of the curved groove at least once. 9. The method of claim 8,
Wherein the curved barrel is provided at both ends of the barrel so that both ends of the barrel are simultaneously engaged with the barrel groove to be curled. 9. The method of claim 8,
Wherein the curler further comprises supplying steam at the end of the barrel in the form of steam. 9. The method of claim 8,
Wherein the module is actuated to partially engage with the inner surface of the lens barrel when the lens barrel is curved so as to firmly hold the inner shape of the lens barrel. The method according to claim 1,
And a fourth transfer unit for transferring the cup sleeve, which is completed through the curved production unit, and which has been withdrawn from the curved production unit, along the movement path. 18. The method of claim 17,
Wherein the fourth transfer unit further comprises a stacker for counting and stacking the moved cup sleeves according to a predetermined number. The method according to claim 1,
Wherein the loading part or the curving part further comprises a water supply device. A method for manufacturing a semiconductor device comprising the steps of any one of claims 1 and 3 to 19,
Cylinders requiring production;
A first fixing device fixing the end of the cylinder;
A second fixing device fixing the outer circumferential surface of the cup sleeve;
And a coupler for coupling the cylinder and the cup sleeve. 21. The method of claim 20,
Wherein the first fixture further comprises a molding part for retaining the inner surface shape of the cylinder therein. 22. The method of claim 21,
Wherein the coupler presses a curved outer circumferential surface formed at an end of the cup sleeve to press-fit a cylinder between the molding parts. 21. The method of claim 20,
Wherein the coupler is adhesively coupled to a curved inner circumferential surface formed at an end of the cup sleeve using an adhesive element. A step of loading the raw material into the loading part;
A step B for separating and pulling the raw materials one by one while spraying air on the side surface so that the raw materials can be separated easily;
Placing the towed material in a cylindrical housing module;
A step D of rolling both ends of the raw material according to the shape of the cylindrical housing module;
An E step of bonding the raw materials collected at both ends to form a barrel;
An E-1 step of pressing the bonded surface of the barrel after the E step to correct it;
An F step of moving the barrel made through step E;
A step G for fixing the moved barrel;
And a step (H) of pushing the end of the fixed barrel into a curved arcuate curved bar so that both ends of the barrel are curled inward. delete 25. The method of claim 24,
(G-1) in which a module for protecting the inner shape of the barrel is inserted into the G-step. 25. The method of claim 24,
Wherein the step (H) is performed simultaneously at both ends of the barrel. 25. The method of claim 24,
Wherein the step (H) is repeated at least once or more. 25. The method of claim 24,
Wherein the step (H) further comprises a step (H-1) of rotating the barrel or the bending machine. 25. The method of claim 24,
Wherein the bending machine of step (H) is in a heated state. 25. The method of claim 24,
Further comprising an N step of supplying moisture to the raw material or a part of the barrel. 25. The method of claim 24,
Further comprising the step of removing the cup sleeve after the step (H) from the fixing step. 33. The method of claim 32,
Further comprising a step (J) of loading the cup sleeve moved in the step (I).

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