KR101752057B1

KR101752057B1 - Manufacturing Apparatus for Passbook Storage Case's seat

Info

Publication number: KR101752057B1
Application number: KR1020150110832A
Authority: KR
Inventors: 서민석
Original assignee: 서민석
Priority date: 2015-08-06
Filing date: 2015-08-06
Publication date: 2017-06-28
Also published as: KR20170017213A

Abstract

The present invention relates to a fabric manufacturing apparatus for fabricating a fabric applied to a passbook storage case, wherein the raw resin block is placed in contact with the upper portion of the first roller, the first roller is rotated at a high speed, A crushing part for grinding and discharging; The first pulverized raw material is collected and placed on top of a pair of second rollers, and the pair of second rollers are heated in a high temperature so as to rotate in mutually opposite directions so that the first pulverized raw material is squeezed between the pair of second rollers The molten portion being applied to the surface of the second roller at a uniform thickness; A sheet forming part for placing the agglomerated resin mass in the molten part in contact with the upper part and discharging the mass of resin into a thin sheet while passing between a pair of heated third rollers; A cooling unit for winding the sheet obtained by the sheet forming unit on a plurality of cooling rollers and cooling the sheet while moving the sheet; And a sheet packing portion for winding the cooled sheet on a storage roller.
According to the present invention, it is possible to produce a fabric sheet by melting and spreading by rollers several times in order to produce a thin film sheet after melting, have.

Description

Technical Field [0001] The present invention relates to a manufacturing apparatus for a passbook storage case,

The present invention relates to a manufacturing apparatus and a manufacturing method of a raw material for a passbook storage case, wherein the raw resin is pulverized, melted and melted and spread by rollers several times in order to produce a thin film sheet, The present invention relates to a fabric manufacturing apparatus for fabricating a fabric applied to a passbook storage case having a thickness and a turbidity so that a specific phrase is engraved to fabricate the fabric sheet.

In general, the storage case body for semi-permanently storing a bankbook made of paper is formed in a square shape to prevent the bankbook from being wrinkled, damaged or lost.

The front surface of the storage case body is formed with an opening capable of storing a bankbook, and the rear surface and the peripheral edges of both sides are sealed so that the surface of the cover paper and the back surface of the cover paper are unified to simply prevent the bankbook from being worn, damaged or lost And is used only as a consumable item that can be semi-permanently stored.

Korean Patent Application No. 10-1997-0037013 discloses an apparatus and a method for manufacturing a vinyl case.

In the prior art, a plurality of supply rolls 10 to 12 for supplying a plurality of vinyls 15 to 17; A base 31 for continuously supplying a large number of vinyls 15 to 17 from the supply rolls 10 to 12 and separating the vinyls one by one in order to form a cut- Wow; Cutters 21 and 22 for forming cutouts according to the processing steps and adhering parts 23 for adhering are provided for the purpose of cutting and adhering the vinyl separated by layers by the base 31 And a mold 20 formed thereon.

In the present invention, the raw resin is pulverized, melted, and melted and unfolded by rollers several times in order to produce a thin film sheet. A specific phrase is etched with a proper thickness and turbidity, And to provide a manufacturing apparatus and a manufacturing method of a fabric for a passbook storage case.

It is an object of the present invention to provide a grinding apparatus for grinding a raw material resin mass with surface friction so as to grind and discharge the raw resin mass by being rotated at a high speed by rotating the first roller in contact with the upper portion of the first roller, The first pulverized raw material is collected and placed on top of a pair of second rollers, and the pair of second rollers are heated in a high temperature so as to rotate in mutually opposite directions so that the first pulverized raw material is squeezed between the pair of second rollers The molten portion being applied to the surface of the second roller at a uniform thickness; A sheet forming part for placing the agglomerated resin mass in the molten part in contact with the upper part and discharging the mass of resin into a thin sheet while passing between a pair of heated third rollers; A cooling unit for winding the sheet obtained by the sheet forming unit on a plurality of cooling rollers and cooling the sheet while moving the sheet; And a sheet wrapping portion for wrapping the cooled sheet on a storage roller.

SUMMARY OF THE INVENTION [0008]

A first step of crushing and discharging the raw material resin mass in frictional contact between two circumscribed first rollers;

The first pulverized raw material is collected and placed on top of a pair of second rollers, and the raw materials are pressed while passing through a pair of second rollers while heating the pair of second rollers at a high temperature, The second stage;

A third step of collecting the soft-film raw materials collected in step 2 and making them into a resin mass, and then discharging the same into a thin sheet while passing between a pair of third rollers;

Winding the sheet obtained in the step 3 on a plurality of cooling rollers and cooling the sheets while moving them;

Winding the sheet cooled in step 4 on a storage roller and packaging the sheet;

And a method of manufacturing a fabric for a passbook storage case.

The second step

A step 2-1 in which the second roller is heated to 50 to 60 DEG C to form a first soft magnetic film;

Step 2-2 in which the second roller is heated to 80 to 90 DEG C to form a second soft magnetic film material;

Including

According to the present invention, melting and spreading operations are performed by rollers several times in order to produce a thin film sheet after melting, and a specific phrase is engraved with a proper thickness and turbidity to produce a fabric sheet It is effective.

1 is a side view showing an apparatus for manufacturing a fabric for a passbook storage case according to the present invention,
FIG. 2 is a perspective view showing a 'crushing unit' of a fabricating apparatus for a passbook storage case according to the present invention;
FIG. 3 is a side sectional view showing a 'crushing unit' of the apparatus for manufacturing a raw material for a passbook storage case according to the present invention,
FIG. 4 is a front view showing a 'crushing unit' of a fabric manufacturing apparatus for a passbook storage case according to the present invention;
5 is a perspective view showing a 'melted portion' of the apparatus for manufacturing a fabric for a passbook storage case according to the present invention,
FIG. 6 is a side sectional view showing a 'fused portion' of a manufacturing apparatus for a fabric for a passbook storage case according to the present invention,
FIG. 7 is a front view showing a 'fused portion' of a manufacturing apparatus for a fabric for a passbook storage case according to the present invention;
8 is a side sectional view showing a 'sheet forming portion' of the apparatus for manufacturing a raw material for a passbook storage case according to the present invention,
FIG. 9 is a front view showing a 'sheet forming portion' of the apparatus for manufacturing a fabric for a passbook storage case according to the present invention;
FIG. 10 is a perspective view showing an engraved roller in the 'sheet forming portion' of FIG. 9,
11 is a flow chart showing a method for manufacturing a fabric for a passbook storage case according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, it is to be understood that the following terms are defined in consideration of the functions of the present invention, and that they should be construed in accordance with the technical idea of the present invention and interpreted in a general sense or commonly understood in the technical field.

In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

Here, the attached drawings are exaggerated or simplified in order to facilitate understanding and clarification of the structure and operation of the technology, and the components do not exactly coincide with actual sizes.

FIG. 2 is a perspective view showing a 'crushing part' of the apparatus for manufacturing a raw material for a passbook storage case according to the present invention, and FIG. 3 is a cross- FIG. 4 is a front view showing a 'crushing part' of a fabric manufacturing apparatus for a passbook storage case according to the present invention, and FIG. 5 is a front view showing a 'crushing part' 6 is a side cross-sectional view showing a 'fused portion' of the apparatus for manufacturing a fabric for a passbook storage case according to the present invention, and FIG. 7 is a side view showing a passbook storage according to the present invention. FIG. 8 is a side sectional view showing a "sheet forming portion" of a manufacturing apparatus for a fabric for a passbook storage case according to the present invention, and FIG. 9 is a cross- FIG. 10 is a perspective view showing an engraved roller in the 'sheet forming part' of FIG. 9, FIG. 11 is a perspective view showing a passbook according to the present invention, Fig. 8 is a process flow chart showing a method of manufacturing a fabric for a storage case. Fig.

1 to 11, an apparatus for manufacturing a fabric for a passbook storage case according to the present invention includes a crusher 100, a melted portion 200, a sheet forming portion 300 and a cooling portion 400, And a sheet packing unit 500. [

The crushing unit 100 includes a base 110 installed on the ground, a first roller 130 coupled to the upper portion of the base 110 and circumscribely coupled thereto, and a motor (132) is formed on one side.

The raw resin block 710 is placed in contact with the upper part of a pair of circumscribed first rollers 130 so that the first roller 130 is rotated at a high speed to grind the raw resin block 710 with surface friction, do.

The melting unit 200 collects the first pulverized raw material by the crushing unit 100 and places it on the upper part of the pair of second rollers 220. The pair of second rollers 220 are heated to a high temperature So that the first raw material R2 is pressed between the pair of second rollers 220 and applied to the surface of the second roller 220 with a uniform thickness to form a layer.

The molten portion is composed of a primary molten portion 200a and a secondary molten portion 200b and the heating temperature of the secondary molten portion 200b is set to be higher than that of the primary molten portion 200a. Therefore, the resin can be melted more easily by heating at different heating temperatures.

The fused portion 200 includes a frame 230 installed on the ground; A pair of second rollers 220 coupled to the frame 230, horizontally disposed in parallel and rotated, and having a casing 240 formed on one side thereof; And a power unit 290 for rotating the second roller 220.

A bearing (not shown) is formed at one end of the second roller 220 so as to be coupled with the inside of the casing 240. The second roller 220 has a hollow portion therein and an opening 222 is formed at one end thereof. (260) for generating a flame by being inserted into the flue gas (260).

The lozenge 260 is shaped like a long pipe and is inserted into the second roller 220 through the opening 222, and a flame is generated at the tip thereof to heat the second roller 220.

Accordingly, the primary pulverized raw material is melted and fixed to the outer surface of the heated second roller 220 to form the raw material layer 730 with a predetermined thickness.

That is, the raw material is fixed to the thickness of the gap between the pair of second rollers 220 to form the raw material layer 730.

The raw material layer 730 fixed to the outer surface of the second roller 220 to be rotated is scraped off and scraped off, and the removed raw material is collected in the lower tray 270.

The sheet forming part 300 is constructed such that the resin lumps 730 collected after being collected in the melting part 200 are brought into contact with the upper part and the resin lumps 730 are placed between a pair of heated third rollers 330 And discharged onto a thin sheet while passing through.

8 and 9, the sheet forming part 300 may be formed by aggregating the raw materials collected in the molten part 200 into an appropriate size to form a resin mass 742, and then the resin mass 742 may be formed at a fine interval And is discharged to the thin sheet 740 while being passed between the pair of third rollers 330 spaced apart from each other.

The sheet forming portion 300 includes: a base 310 erected on both sides; A pair of third rollers 330 connected horizontally to the upper side of the base 310 to press the resin mass 742 to be discharged into a thin sheet; A heating pipe 350 inserted into the pair of third rollers 330; And a plurality of conveying rollers 360 coupled in parallel to a lower portion of the pair of third rollers 350 and winding the thin sheet 740 to discharge the sheets.

The pair of third rollers 330 and the plurality of conveying rollers 360 are respectively sealed with heat medium oil and a heating pipe 350 as a heating power source.

Therefore, it always maintains the heated state at an appropriate temperature.

A thin sheet 740 is produced while being discharged through a pair of third rollers 330 that are rotated, and the manufactured sheet 740 removes both sides of the sheet 740 with a predetermined width to provide high quality merchandise.

A cutter 370 formed to be spaced apart from both sides of the outer circumferential surface of the conveying roller 360 to cut both sides of the thin sheet 740 by a predetermined width, And a discharge guide shaft 380 for guiding and discharging the cutting sheet 740-2.

Accordingly, the two cutters 370 are closely contacted with the outer circumferential surface of the transport roller 360 to be spaced apart by a predetermined distance, so that the thin sheet 740 is cut on both sides.

The outer end of the thin sheet 740, that is, the incision cut sheet 740-2, is not cut uniformly because the ends are not uniform and the thickness is not uniform, and therefore, there is no commerciality.

The sheet 740 thus obtained is cooled in the cooling part 400 and then wound up in a predetermined thickness by a storage roller 520 to be packed.

The cooling unit 400 winds the sheet obtained by the sheet forming unit 300 on a plurality of cooling rollers 440 and cools the sheet while moving the sheet 440. The sheet 740 discharged from the sheet forming unit 300 is wound An engraved roller 420 having an engraved pattern formed on the outer surface of the sheet 740 so as to emboss the pattern on the backside of the sheet 740, and a plurality of cooling rollers 440.

That is, the sheet 740 in a heated state is brought into contact with the surface of the engraved roller 420, thereby forming a relief pattern corresponding to the engraved pattern.

As shown in Fig. 10, the pattern of the engraved roller 420 may be a bank name, or a picture such as a logo may be possible.

And then cooled while passing through the plurality of cooling rollers 440. The cooling roller 440 has a cooling part formed therein to provide a cold temperature. The cooling section is connected to an external refrigerator.

The sheet packing unit 500 spreads the cooled sheet through a plurality of rollers to be unfolded, and finally, the sheet is wrapped around the storage rollers 520 and wrapped in roll units.

The manufacturing process using the apparatus for manufacturing a fabric for a passbook storage case according to the present invention will be described with reference to FIG.

A first step S1 of crushing and discharging the raw resin mass 710 in friction contact between two outer circumferential first rollers 130;

The first pulverized raw material is collected by the first step S1 and is then placed on top of the pair of second rollers 220. While the pair of second rollers 220 are heated at a high temperature, (S2) of forming a soft film shape by passing through between the rollers (220);

(S3) of collecting the soft-film raw materials collected in the second step (S2) to form a resin mass 730, and then discharging the same into a thin sheet while passing between the pair of third rollers 330;

(S4) of forming the pattern on the outer surface of the sheet obtained in the third step (S3) by embossing or embossing;

A fifth step (S5) of winding the sheet obtained in the fourth step (S4) on a plurality of cooling rollers (440), cooling the sheet while moving it;

And a sixth step (S6) of winding the sheet cooled in step S5 (S5) on the storage roller 520 and wrapping it.

The second step (S2) comprises a first heating step and a second heating step of heating to a temperature higher than the first heating step.

For example, in the second step S2, the second roller 220 is heated to 50 to 60 DEG C to form a first soft magnetic material, and the second roller 220 is heated to 80 to 90 DEG C And forming the second soft magnetic film material by heating.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Grinding section 130: First roller
200: molten portion 220: second roller
240: casing 260; Touchi
300; Sheet forming portion 310; Expectation
330: Third roller 350: Heating pipe
360: feed roller 400: cooling section
420: impression rollers 440; Cooling roller
500: sheet packing part 520; Storage roller
700: sheet

Claims

A crushing part 100 which is placed in contact with the upper part of the first roller 130 to rotate the first roller 130 at a high speed to grind and discharge the raw resin mass with surface friction;
The first pulverized raw material is collected by the crushing unit 100 and placed on the upper part of the pair of second rollers 220. The pair of second rollers 220 are heated at a high temperature, To melt the first pulverized raw material between the pair of second rollers 220 so that the first pulverized raw material is applied to the surface of the second roller 220 with a uniform thickness.
A sheet forming part 300 for mounting the agglomerated resin mass in the molten part 200 so as to be in contact with the upper part and discharging the agglomerated resin into a thin sheet while passing between the pair of heated third rollers 330;
A cooling unit 400 for winding the sheets obtained from the sheet forming unit 300 on a plurality of cooling rollers 440 and cooling them while moving them;
A sheet packing portion 500 for winding the cooled sheet on the storage roller 520;
, &Lt; / RTI >

The fused portion 200
A pair of second rollers 220 coupled to the frame 230 and rotated horizontally in parallel and having a casing 240 formed on one side thereof and a pair of second rollers 220 coupled to the frame 230, And a power section (290) for rotating the power section

The second roller 220
A bearing is formed at one end to be coupled with the inside of the casing 240, a hollow portion is formed therein, an opening 222 is formed at one end, and a soil 260, which is inserted into the opening 222 to generate a flame, Wherein the apparatus for fabricating the fabric for a passbook storage case comprises:

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The method according to claim 1,
The sheet forming portion 300
A pair of third rollers 330 connected horizontally to the upper portion of the base 310 to connect the base 310 and the base 310 erected on both sides of the base 310 to press the resin mass into the thin sheet to be discharged as a thin sheet, A plurality of conveying rollers 360 parallel to the lower portion of the third roller 330 for winding and discharging the thin sheets and a plurality of conveying rollers 360 spaced apart from each other on the outer circumferential surface of the conveying roller 360, And a discharge guide shaft 380 for guiding and discharging the cut-out sheet cut by the cutter 370. The cutter 370 cuts off both sides of the cut-
Wherein the apparatus for fabricating the fabric for a passbook storage case comprises:

The method of claim 3,
The pair of third rollers 330, the plurality of conveying rollers 360,
And a heating pipe (350), which is a heating power source, is inserted into one side of the heating pipe (350).

The method according to claim 1,
The cooling unit 400
And a stamping roller 420 for stamping the sheet discharged from the sheet forming part 300 and forming a pattern on the outer surface so as to emboss the pattern on the backside of the sheet. Device.

A first step S1 of crushing and discharging the raw material resin mass in frictional contact between two circumscribed first rollers 130;
The first pulverized raw material is collected by the first step (S1), then placed on the upper part of the pair of second rollers (220), and the raw material is heated while heating the pair of second rollers (220) (S2) so as to be compressed and formed into a soft film shape while passing between the pair of second rollers (220);
(S3) of collecting the soft-film raw materials collected in step 2 (S2) into a resin mass, discharging the same into a thin sheet while passing between the pair of third rollers (330);
(S4) of forming the pattern on the outer surface of the sheet obtained in the third step (S3) by embossing or embossing;
A fifth step (S5) of winding the sheet obtained in the fourth step (S4) on a plurality of cooling rollers (440), cooling the sheet while moving it;
Step S6 of winding the sheet cooled in step S5 in the storage roller 520 and packaging the sheet;
, &Lt; / RTI &

Wherein the second step (S2) includes a first heating step and a second heating step of heating to a higher temperature than the first heating step.

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