KR101659218B1 - Methods of manufacturing high toughness reflective yarn, its processing machine and products - Google Patents

Abstract

The present invention relates to a high-toughness reflective yarn manufacturing method by which fast production, a low defect ratio, an excellent reflection effect, and durability can be ensured, a processing machine for the same, and a product derived from the same. According to the present invention, multiple strands of high-toughness yarns are provided, first and second reflective glass microparticles hot-melt films are introduced at both upper and lower side positions of the high-toughness yarns via a processing machine for first and second heating and drying to be respectively performed, adhesives of the first and second reflective glass microparticles hot-melt films are melted as a result, and then the adhesives are stably transferred and attached to upper and lower side surfaces of the high-toughness yarns. Since the adhesives contain reflective glass microparticles, the reflective glass micro particles are attached to the surfaces of the high-toughness yarns, and then the high-toughness reflective yarns are formed through drawing, rolling, and collection by strand. The high-toughness reflective yarns are made up of the high-toughness yarns and the adhesives and the reflective glass microparticles uniformly attached and fixed to the surfaces of the high-toughness yarns.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-toughness reflective yarn,

TECHNICAL FIELD The present invention relates to a manufacturing method of a high-toughness reflective chamber, a processing apparatus and a product thereof, and more particularly, to a manufacturing method of a thread having a reflective effect and a thread applicable to daily articles.

Currently, people working at dawn and night, such as traffic police, scavengers and road or building contractors, and those who always work at dawn or night, are not necessarily well-sighted, In a situation where the vehicle is running on the road and the light beam is not good, a traffic accident may be caused by a worker or athlete bumping into the vehicle by temporary carelessness.

Thus, a half sachet was invented, and the half sachet was formed by sewing a plurality of reflection yarns to a cloth to draw attention to the vehicle driver. However, existing reflection chambers are made of PET polyester material, and due to the weakness of the material itself, it is bound to the fabric and then subject to many restrictions. For example, if the cloth is too small and thin, the failure rate is greatly increased in the sewing process, and the service life of the reflecting chamber is short, so that it easily ages and loses its inherent efficacy.

In view of this point, it is the object of the present invention to provide a manufacturing method of a high-toughness reflecting room, a processing mechanism and a product thereof which can solve the above problems.

The present invention provides a method for manufacturing a durable toughness reflective seal, a processing apparatus, and a product thereof, which has a high production speed, a low reject rate, a high finished product ratio, a good toughness, The purpose.

In order to solve the above problem and to achieve the object of the present invention, the technical solution of the present invention is as follows. A method of manufacturing a high-toughness reflective chamber, comprising: providing a plurality of high-tensile chambers (1) and introducing them into the interior of a processing tool (100); First, the tearing thread 1 is pulled by the first conveying wheel set 103 at the front end of the processing mechanism 100 so as to move in the rearward direction of the processing mechanism 100 side by side at regular intervals, The first reflective glass microparticle hotmelt film 2 is introduced into the lower portion of the tough tearing chamber 1 and the first reflective glass microparticle hotmelt film 2 is transported through the first conveying wheel set 103, Contacting closely with the corresponding lower surface of the toughness chamber 1 and then continuously moving in the rearward direction of the processing tool 100; The tentative toughness seal 1 and the first reflective glass microparticle hot melt film 2 in contact with the tentacle are simultaneously introduced into the first drying oven 101 of the processing mechanism 100, Melting the adhesive (11) on the side surface of the first reflective glass particle hot-melt film (2) by proceeding to drying; The high toughness seal 1 and the first reflective glass microparticle hot melt film 2 are then led out of the first drying oven 101 through the second conveying wheel set 104 inside the processing mechanism 100 And then continuously moves in the rear end direction of the processing tool 100; At this time, the second reflective glass microparticle hot-melt film 3 is introduced at the upper position of the tangential intact toughness chamber 1, and the second reflective glass microparticle hot- Contacting closely with the corresponding upper surface of the hinged tongue 1, and then continuously moving in the rearward direction of the processing tool 100; Subsequently, the tangential toughness yarn 1 that is in contact with the first and second reflective glass microparticle hot melt films 2 and 3 is simultaneously introduced into the second drying oven 102 of the processing mechanism 100 Melting the first and second reflective glass microparticle hot melt films (2, 3) and the inner surface adhesive (11) in contact with the high toughness chamber (1) by proceeding with the second heat drying; Thereafter, the first and second reflective glass microparticle hot melt films (2, 3) and the toughness chamber (1) are simultaneously drawn from the second drying oven (102) through the third conveying wheel set The adhesive 11 to be melted of the second reflective glass microparticle hot melt film 3 is transferred to the upper surface of the tough tough seal 1 through the third conveying wheel set 105, So as to stably and uniformly adhere to the upper surface of the tangential toughness chamber 1; At the same time, the second reflective glass microparticle hot melt film 3 after the transfer is formed of the release paper 3 ', passes through the third conveying wheel set 105, is rolled by the upper roller 111, The toughness chamber 1 and the first reflective glass microparticle hot melt film 2 still move in the rearward direction of the processing tool 100; The tough toughness seal 1 and the first reflective glass microparticle hot melt film 2 are then melted by the fourth conveying wheel set 106 so that the first reflective glass microparticle hot melt film 2 is melted The adhesive 11 is transferred to the lower surface of the tough toughness chamber 1 so that the reflective glass fine particles 10 contained in the adhesive 11 are stably bonded to the lower surface of the tough toughness chamber 1 And are uniformly attached together; At the same time, the first reflective glass microparticle hot melt film 2 after the transfer is formed of the release paper 2 ', passes through the fourth conveying wheel set 106, and is rolled by the lower roller 112; At this time, the tough tough room 1 is formed of a tortuous, highly tough reflective room 200 having adhesive 11 and reflective glass microparticles 10 attached to both upper and lower sides, Continuously moving to a second position; Next, the high-toughness reflecting chamber 200 is divided through the slitting cutter wheel set 109 of the processing tool 100 to form the high-toughness reflecting chamber 200 which is independent and not bonded to each other. Finally, each of the high-toughness reflection chambers 200, which are independent of each other and are not bonded to each other, are diffused and rolled separately through the expansion wheel set 110 at the end of the processing mechanism 100.

The pressure wheel sets 107 and 108 are provided on the front and / or the rear of the fourth conveying wheel set 106 so that the adhesive 11 and the reflective glass microparticles 10 adhered to the surface of the high- It is more preferable that the adhesive 11 and the reflective glass microparticles 10 are closely attached to and fixed to both the upper and lower surfaces of the tough tearable 1. [

The first reflective glass microparticle hot melt film 2 and the second reflective glass microparticle hot melt film 3 are reflective sheets manufactured by Minnesota Mining and Manufacturing Company of the United States and the reflective sheet is heat- It is more preferable that a layer of adhesive 11 which is immediately melted is applied and that a plurality of the reflective glass microparticles 10 are contained in the adhesive 11.

The first to fourth conveying wheel sets 103, 104, 105, and 106 are rolled in such a manner that they are sandwiched between two upper and lower wheels and pressurized, and the pressing range is more preferably 2.5 to 3.5 kg.

More preferably, the temperature range of the first and second drying ovens 101 and 102 is between 100 ° C. and 120 ° C. and the length of the two drying ovens is at least 1 m.

When the multi-pronged toughness chamber 1 is introduced into the four conveying wheel sets 103, 104, 105, and 106, the interval between each one of the seats disposed side by side is 200 mu m, It is more preferable that grooves are formed on the surface of the wheel flange of the wheel flange so as to be arranged in parallel and parallel to each other so that the toughness chamber 1 is inserted and advanced in a straight line.

A processing mechanism for a high-toughness reflecting room, wherein the processing mechanism (100) is provided with a guide wheel set (113) comprising a plurality of guide wheels for drawing the toughness chamber (1); A first conveying wheel set 103 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first reflective glass microparticle hot melt film 2; A first drying oven 101 which is a heater for melting the adhesive of the first reflective glass microparticle hot melt film 2; A second conveying wheel set (104) composed of upper and lower clamping wheels for guiding and conveying the high toughness seal (1) and the first and second reflective glass microparticle hot melt films (2, 3); A second drying oven 102 as a heater for melting the adhesive of the first and second reflective glass microparticle hot melt films 2 and 3; A third conveying wheel set 105 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first and second reflective glass microparticle hot melt films 2 and 3; A fourth conveying wheel set 106 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first reflective glass microparticle hotmelt film 2; A slitting cutter wheel set 109 which is a vertically symmetrical cutter wheel for independently dividing the high-toughness reflecting room 200 disposed side by side; And an extension wheel 110, which is an upper and lower guide wheel for guiding and diffusing the tough tactile reflecting room 200, are installed in this order from the front to the back.

A pressing wheel set 107 for rolling and fixing the adhesive 11 and a plurality of the reflective glass particles 10 on both upper and lower surfaces of the tough tearable film 1 at the front and / or rear of the fourth feeding wheel set 106 And 108 are provided, respectively.

In the product of the tough toughness reflecting yarn, the tough toughness reflecting yarn (200) comprises a tough tough yarn (1) which is a nylon yarn whose diameter ranges from 150 to 200 mu m, And an adhesive 11 uniformly adhered and fixed to an outer peripheral surface of the high toughness chamber 1 and a plurality of reflective glass microparticles 10 having a particle size range of 200 to 270 mesh.

Compared to the prior art, the action and effect of the present invention are as follows.

First, the method for manufacturing a high-toughness reflecting seal according to the present invention is characterized in that the adhesive 11 of the first and second reflective glass microparticle hot-melt films 2 and 3 and the reflective glass microparticles 10 are stably and quickly bonded to the high- 1, it is not necessary to worry about easily peeling off in the future. Further, after attaching the reflective glass particles 10, the overall reflection effect can be enhanced and a high-quality reflection level can be achieved.

Second, in the high-toughness reflecting room 200 of the present invention, the high-toughness room 1 is a nylon room, so it provides a sufficient toughness and is easily insulated due to the fact that it is conventional in conventional applications, weak in strength, Can be effectively solved, and can be directly used for sewing clothes or fabrics in a general yarn, so that the application range is very wide.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic side view of the flow of the production method of the present invention. Fig.
2 is a schematic plan view of the flow of the production method of the present invention.
3 is a partially enlarged schematic view of a reflective glass microparticle hot-melt film.
4 is an enlarged schematic view of a portion A in Fig.
5 is an enlarged schematic view of a portion B in Fig.
Fig. 6 is an enlarged schematic view of part C in Fig. 1;
Fig. 7 is a schematic perspective view of the product of the present invention. Fig.
Fig. 8 is a schematic view showing the product of the present invention. Fig.
9 is a schematic illustration of another embodiment of the present invention.

Hereinafter, the embodiment will be described in detail with reference to the drawings.

As shown in Figs. 1, 2 and 4 to 6, the manufacturing method of the high-toughness reflecting seal disclosed in the drawing provides a multi-pronged high-tensile seals 1 and introduces them into the interior of the processing mechanism 100 step; First, the tearing thread 1 is pulled by the first conveying wheel set 103 at the front end of the processing mechanism 100 so as to move in the rearward direction of the processing mechanism 100 side by side at regular intervals, The first reflective glass microparticle hotmelt film 2 is introduced into the lower portion of the tough tearing chamber 1 and the first reflective glass microparticle hotmelt film 2 is transported through the first conveying wheel set 103, Contacting closely with the corresponding lower surface of the toughness chamber 1 and then continuously moving in the rearward direction of the processing tool 100; The tentative toughness seal 1 and the first reflective glass microparticle hot melt film 2 in contact with the tentacle are simultaneously introduced into the first drying oven 101 of the processing mechanism 100, Melting the adhesive (11) on the side surface of the first reflective glass particle hot-melt film (2) by proceeding to drying; The high toughness seal 1 and the first reflective glass microparticle hot melt film 2 are then led out of the first drying oven 101 through the second conveying wheel set 104 inside the processing mechanism 100 And then continuously moves in the rear end direction of the processing tool 100; At this time, the second reflective glass microparticle hot-melt film 3 is introduced at the upper position of the tangential intact toughness chamber 1, and the second reflective glass microparticle hot- Contacting closely with the corresponding upper surface of the hinged tongue 1, and then continuously moving in the rearward direction of the processing tool 100; Subsequently, the tangential toughness yarn 1 that is in contact with the first and second reflective glass microparticle hot melt films 2 and 3 is simultaneously introduced into the second drying oven 102 of the processing mechanism 100 Melting the first and second reflective glass microparticle hot melt films (2, 3) and the inner surface adhesive (11) in contact with the high toughness chamber (1) by proceeding with the second heat drying; Thereafter, the first and second reflective glass microparticle hot melt films (2, 3) and the toughness chamber (1) are simultaneously drawn from the second drying oven (102) through the third conveying wheel set The adhesive 11 to be melted of the second reflective glass microparticle hot melt film 3 is transferred to the upper surface of the tough tough seal 1 through the third conveying wheel set 105, So as to stably and uniformly adhere to the upper surface of the tangential toughness chamber 1; At the same time, the second reflective glass microparticle hot melt film 3 after the transfer is formed of the release paper 3 ', passes through the third conveying wheel set 105, is rolled by the upper roller 111, The toughness chamber 1 and the first reflective glass microparticle hot melt film 2 still move in the rearward direction of the processing tool 100; The tough toughness seal 1 and the first reflective glass microparticle hot melt film 2 are then melted by the fourth conveying wheel set 106 so that the first reflective glass microparticle hot melt film 2 is melted The adhesive 11 is transferred to the lower surface of the tough toughness chamber 1 so that the reflective glass fine particles 10 contained in the adhesive 11 are stably bonded to the lower surface of the tough toughness chamber 1 And are uniformly attached together; At the same time, the first reflective glass microparticle hot melt film 2 after the transfer is formed of the release paper 2 ', passes through the fourth conveying wheel set 106, and is rolled by the lower roller 112; At this time, the tough tough room 1 is formed of a tortuous, highly tough reflective room 200 having adhesive 11 and reflective glass microparticles 10 attached to both upper and lower sides, Continuously moving to a second position; As shown in FIG. 7, the high-toughness reflecting room 200, which is independent and does not adhere to each other by dividing the high toughness reflecting room 200 through the set of slitting cutter wheels 109 of the processing device 100, ; Finally, the step of diffusing and separately rolling-collecting the high-toughness reflecting chambers 200, which are independent of each other and are not bonded to each other, through the set of extended wheels 110 at the end of the processing mechanism 100.

Through this manufacturing method, it is possible to quickly and easily produce the high-toughness reflecting chamber 200, and the processing of the processing of the first and second reflective glass microparticle hot-melt films 2 and 3, Toughness can be continuously attached to the upper and lower side surfaces of the toughness chamber 1 to form the toughness reflection chamber 200 with the toughness chamber 1, So that it can be applied as a general room.

Next, the reflective glass particles 10 are attached to the toughness chamber 1 after they are dried by heat, so that there is no need to worry about the problem that the reflective glass particles 10 are easily peeled off, and also water washing or drying is possible. Unlike conventional products that use conventional antimatter, they can be kept clean at all times, and they are advantageous for long-term applications because they do not need to worry about odor or impurities.

The pressure wheel sets 107 and 108 are provided on the front and / or the rear of the fourth conveying wheel set 106 so that the adhesive 11 and the reflective glass microparticles 10 adhered to the surface of the high- So that the adhesive 11 and the reflective glass particles 10 are closely attached and fixed to both upper and lower surfaces of the high toughness chamber 1. The high toughness chamber 1 and the first and second reflective glass microparticle hot melt films 2 and 3 are brought into intimate contact with each other through a method of pressing them up and down.

As described above, the first reflective glass microparticle hot-melt film 2 and the second reflective glass microparticle hot-melt film 3 are reflection sheets manufactured by Minnesota Mining and Manufacturing Company (abbreviated as '3M Company' As shown in FIG. 3, the flexible plastic thin film 12 is coated with a single layer of adhesive 11 which is melted immediately upon receiving heat, and a plurality of reflective glass microparticles 10).

As described above, the first to fourth conveying wheel sets 103, 104, 105, and 106 are rolled in a manner that they are sandwiched by two upper and lower wheels and pressed, and the pressing range is 2.5 to 3.5 kg. This method of pressing the reflective glass particles 10 with the light pressure makes it possible to more easily attach the reflective glass particles 10 to the surface of the tough-tactile seal 1, and at the same time, the reflective glass particles 10 are piled up in one place due to excessive contact, The rate can be prevented from being lowered.

As described above, the temperature range for heating and drying the first and second drying ovens 101 and 102 is 100 ° C to 120 ° C, and the lengths of the two drying ovens are at least 1 m. According to the above description, the reflective glass particles 10 are stably attached uniformly to the surface of the high-toughness chamber 1 by using different heating temperatures, so that they are not easily peeled off. In the oven-length design, sufficient drying time and sufficient heat are provided to ensure that the reflective glass particles 10 are quickly secured to the surface of the toughness chamber 1.

As described above, when the multi-pronged toughness chamber 1 is introduced into the four conveying wheel sets 103, 104, 105, and 106, the interval between each one of the rows arranged side by side is 200 占 퐉, There is also a groove for guiding the high toughness chamber 1 to be inserted in a straight line and to be advanced in a plurality of parallel arrangements on the surface of the wheel flange of each conveying wheel set. In addition, by applying four transfer wheel sets, pressure is applied to the first and second reflective glass microparticle hot-melt films 2 and 3 so that both the reflective glass particles 10 securely contact the surface of the high- To be combined.

Hereinafter, the processing mechanism 100 for manufacturing the high-toughness reflecting seal of the present invention will be described. As shown in Figs. 1 and 2, the processing mechanism 100 includes a guide wheel set 113 composed of a plurality of guide wheels for pulling the toughness chamber 1; A first conveying wheel set 103 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first reflective glass microparticle hot melt film 2; A first drying oven 101 which is a heater for melting the adhesive of the first reflective glass microparticle hot melt film 2; A second conveying wheel set (104) composed of upper and lower clamping wheels for guiding and conveying the high toughness seal (1) and the first and second reflective glass microparticle hot melt films (2, 3); A second drying oven 102 as a heater for melting the adhesive of the first and second reflective glass microparticle hot melt films 2 and 3; A third conveying wheel set 105 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first and second reflective glass microparticle hot melt films 2 and 3; A fourth conveying wheel set 106 constituted by upper and lower clamping wheels for guiding and conveying the high toughness chamber 1 and the first and second reflecting glass fine particle hot melt films 2 and 3; A slitting cutter wheel set 109 which is a vertically symmetrical cutter wheel for independently dividing the high-toughness reflecting room 200 disposed side by side; And an extension wheel 110, which is an upper and lower guide wheel for guiding and diffusing the tough tactile reflecting room 200, are installed in this order from the front to the back.

A pressing wheel set 107 for rolling and fixing the adhesive 11 and the plurality of the reflective glass particles 10 on both upper and lower surfaces of the tough tearable film 1 at the front and / or rear of the fourth feeding wheel set 106 And 108, respectively.

The high-toughness reflecting chamber (200) of the present invention comprises a high toughness chamber (1), which is a nylon chamber whose diameter ranges from 150 to 200 占 퐉; And an adhesive 11 uniformly adhered and fixed to an outer peripheral surface of the high toughness chamber 1 and a plurality of reflective glass microparticles 10 having a particle size range of 200 to 270 mesh.

By using the toughness reflecting room 200, unlike the conventional reflecting room, it can be applied to a garment sewing as shown in Fig. 8 or a fabric as shown in Fig. 9, is easily insulated and can withstand a strong force The application range is broader, and there is no problem of protrusion or rolling during the operation, so that it can be applied to general clothes and fabrics.

As described above, the structure, features, and effects of the present invention have been described in detail in accordance with the embodiment shown by the drawings. The foregoing description is only a description of the most preferred embodiment of the present invention, and the present invention is not limited to the embodiments shown in the drawings. Accordingly, all modifiable changes that are consistent with the spirit of the invention, which proceeds within an equivalent range, should be included in the patent scope of the present invention.

Claims (9)

Providing a plurality of high-tensile yarns (1) and introducing them into the interior of the processing tool (100);
The torn toughness seals 1 are pulled by the first conveying wheel set 103 at the front end of the processing mechanism 100 and moved in the rearward direction of the processing mechanism 100 side by side at regular intervals, The first reflective glass microparticle hot melt film 2 is introduced into the tough toughness seal 1 through the first conveying wheel set 103. The first reflective glass microparticle hot melt film ) And then continuously moving in the rearward direction of the processing tool 100 (step < RTI ID = 0.0 >
The tough toughness seal 1 and the first reflective glass microparticle hot melt film 2 which are in contact with the toughness seal 1 are simultaneously introduced into the interior of the first drying oven 101 of the processing mechanism 100, Melting the adhesive (11) on the side surface of the first reflective glass microparticle hot melt film (2);
The hot tough seal 1 and the first reflective glass microparticle hot melt film 2 are led out from the first drying oven 101 through the second conveying wheel set 104 inside the processing mechanism 100, The second reflective glass microparticle hot-melt film 3 is introduced at the upper position of the tangential toughness chamber 1 at this time, and the second reflective glass microparticle hot-melt film 3) is in intimate contact with the corresponding upper surface of the tongue-like toughness chamber (1) through the second conveying wheel set (104) and then continues to move in the trailing direction of the processing tool (100);
The tangential toughness yarn 1 in contact with the first and second reflective glass microparticle hot melt films 2 and 3 is simultaneously introduced into the interior of the second drying oven 102 of the processing mechanism 100, Melting and fusing the inner surface adhesive agent (11) in contact with the first and second reflective glass microparticle hot melt films (2, 3) and the toughness chamber (1) by heating and drying;
The first and second reflective glass microparticle hot melt films 2 and 3 and the toughness chamber 1 are simultaneously drawn from the second drying oven 102 through the third conveying wheel set 105, (11) of the second reflective glass microparticle hot melt film (3) is transferred to the upper surface of the tough tough seal (1) through the adhesive layer (105) 10 are stably and uniformly attached together on the upper surface of the tangible toughness chamber 1, and at the same time, the second reflective glass microparticle hot-melt film 3 after the transfer is formed of the release paper 3 ' 3 conveying wheel set 105 and then rolled up by the upper roller 111. The tangential toughness seal 1 and the first reflective glass particle hot melt film 2 are still rolled up by the rear end of the processing tool 100 Continuously moving in the direction of the arrow;
The tough tough seal 1 and the first reflective glass particle hotmelts film 2 are bonded together by the fourth conveying wheel set 106 to the melted adhesive 11 of the first reflective glass fine particle hot melt film 2, Is transferred to the lower surface of the tough toughness chamber (1) so that the reflective glass fine particles (10) contained in the adhesive (11) are stably and uniformly bonded to the lower surface of the tentatively torture chamber And at the same time, the first reflective glass microparticle hot melt film 2 after the transfer is formed of the release paper 2 ', passed through the fourth conveying wheel set 106, rolled by the lower roller 112, At this time, the tough tough room 1 is formed of a tortuous, highly tough reflective room 200 having adhesive 11 and reflective glass microparticles 10 attached to both upper and lower sides, Continuously moving to a second position;
Forming a high-toughness reflective chamber (200) that is independent and not bonded to each other by dividing the high-toughness reflective chamber (200) through a set of slitting cutters (109) of the processing tool (100);
Diffusing and separately rolling-collecting the tough tough reflecting chambers 200, which are independent of each other and not bonded to each other, through the extended wheel set 110 at the distal end of the processing tool 100,
When the multi-pronged toughness chamber 1 is introduced into the four conveying wheel sets 103, 104, 105, and 106, the spacing between each one of the rows arranged side by side is 200 占 퐉, Characterized in that a plurality of grooves are arranged on the surface of the wheel flange so as to be parallel to each other so that the toughness chamber (1) is inserted and guided to advance in a straight line state. The press machine according to claim 1, wherein a set of pressing wheels (107, 108) is provided on the front and / or rear of the fourth feeding wheel set (106) And the reflective glass microparticles 10 are rolled so that the adhesive 11 and the reflective glass microparticles 10 are closely attached and fixed to both upper and lower surfaces of the high toughness chamber 1. [ Gt; The method of claim 1, wherein the first reflective glass microparticle hot melt film (2) and the second reflective glass microparticle hot melt film (3) are reflective paper, Wherein a plurality of the reflective glass fine particles (10) are contained in the adhesive (11). 2. The method according to claim 1, wherein the first to fourth feeding wheel sets (103, 104, 105, 106) are rolled in such a manner that they are sandwiched between two upper and lower wheels and pressurized, Wherein the high-toughness reflective film is formed by a method comprising the steps of: The method as claimed in claim 1, wherein the temperature range for the first drying oven (101, 102) to be heated and dried is from 100 ° C to 120 ° C, and the length of the two drying ovens is at least 1 m. ≪ / RTI > delete A processing tool (100) used in a manufacturing method of a tough tough reflective room according to claim 1,
A guide wheel set 113 composed of a plurality of guide wheels for pulling the toughness chamber 1;
A first conveying wheel set 103 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first reflective glass microparticle hot melt film 2;
A first drying oven 101 which is a heater for melting the adhesive of the first reflective glass microparticle hot melt film 2;
A second conveying wheel set (104) composed of upper and lower clamping wheels for guiding and conveying the high toughness seal (1) and the first and second reflective glass microparticle hot melt films (2, 3);
A second drying oven 102 as a heater for melting the adhesive of the first and second reflective glass microparticle hot melt films 2 and 3;
A third conveying wheel set 105 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first and second reflective glass microparticle hot melt films 2 and 3;
A fourth conveying wheel set 106 constituted by two upper and lower clamping wheels for guiding and conveying the high toughness seal 1 and the first reflective glass microparticle hotmelt film 2;
A slitting cutter wheel set 109 which is a vertically symmetrical cutter wheel for independently dividing the high-toughness reflecting room 200 disposed side by side; And
Characterized in that an expansion wheel (110), which is a vertical guide wheel for guiding and diffusing the high-toughness reflecting room (200), is installed in order from the front to the back. The method according to claim 7, wherein the adhesive (11) and the plurality of reflective glass particles (10) are rolled and fixed on both upper and lower sides of the high toughness seal (1) on the front and / or rear of the fourth conveying wheel set , And a set of pressing wheels (107, 108) is provided for each of the plurality of pressing rollers. A high-toughness reflective chamber (200) manufactured by the method of manufacturing a high-toughness reflective chamber according to claim 1,
A high tenacity yarn (1) which is a nylon yarn having a diameter of a yarn in which a plurality of yarns constitute a single yarn is in a range of 150 to 200 mu m; And
An adhesive (11) uniformly adhered and fixed on the outer circumferential surface of the high toughness chamber (1), and a plurality of reflective glass fine particles (10) having a particle size in the range of 200 to 270 mesh. .

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