KR200481385Y1 - Cartridge for sealant using thermal transfer film - Google Patents

Abstract

The present invention relates to a sealant cartridge using a thermal transfer film, and more particularly to a sealant cartridge using a thermal transfer film, and more particularly, to a thermal transfer film containing an ultraviolet barrier layer on the outer surface of the sealant cartridge body, The present invention relates to a sealant cartridge using a thermal transfer film which can prevent a sealant of a sealant from changing characteristics due to external sunlight, and at the same time can display a trademark, an application, and a product description by a print layer of a thermal transfer film.
Thus, by attaching the thermal transfer film to the two manufacturing processes, which had conventionally been performed separately on the surface after performing the processes of vapor deposition, coating and plating, it is possible to shorten the manufacturing process to a single manufacturing process in which the printed matter can appear simultaneously, There is an effect that can be saved.

Description

[0001] The present invention relates to a cartridge for a sealant using a thermal transfer film,

The present invention relates to a sealant cartridge using a thermal transfer film, and more particularly to a sealant cartridge using a thermal transfer film, and more particularly, to a thermal transfer film containing an ultraviolet barrier layer on the outer surface of the sealant cartridge body, The present invention relates to a sealant cartridge using a thermal transfer film which can prevent a sealant of a sealant from changing characteristics due to external sunlight, and at the same time can display a trademark, an application, and a product description by a print layer of a thermal transfer film.

Generally, a sealant is used for joining parts such as window frames of civil engineering, construction, automobiles, aircraft, ships, etc., and is used for gaps to provide a rubber top for absorbing elasticity, vibration, Lt; RTI ID = 0.0 > or < / RTI >

These sealants are widely used in the field of construction, such as silicone sealants, polyurethane sealants or polysulfide sealants, UV sealants, UV adhesives or UV coatings, which are cured by moisture in air for waterproofing of window frames and joints .

The silicon-based sealant (hereinafter referred to as silicon) is a polymer that is chemically bonded to an organosilicone containing oxygen and the like, and is a material different from silicon, which is a semiconductor material. Silicon is a unique chemical material having both organic and inorganic properties, and is divided into various forms such as oil, rubber, and resin. These silicones are used not only in the construction field but also as high-function materials essential for industrial applications such as insulators, adhesives, brake fluids, waterproofing fluids, breast molding materials and lubricants.

In the above, the sealant such as silicone has a liquid or paste state and is hardened when exposed to air, so that the sealant is enclosed in a cartridge for sealing. It is important to prevent curing for a long period of time while being embedded in the cartridge. Therefore, it is very important to improve the airtightness of the cartridge in order to prevent the built-in sealant from coming into contact with moisture in the outside air.

A sealant cartridge for improving airtightness is disclosed in Japanese Patent Laid-Open No. 60-68272. The sealant cartridge according to the related art includes a body having a sealant built therein, a nozzle unit installed at one end of the body and discharging a sealant built in the body to the outside, A plunger for discharging the built-in sealant to the outside of the main body while moving, and a sealing coating film applied to the outer surface of the plunger or a portion of the inner surface of the other side of the main body that contacts the plunger.

In the above, the main body, the plunger, the discharge portion, and the like are formed of synthetic resin such as polyethylene.

In the sealant cartridge having the above-described structure, the plunger is moved in the other direction of the main body by applying pressure while the nozzle is opened, thereby discharging the sealant built in the main body to the outside of the main body. In this case, the sealing coating film fills the space between the inner surface of the main body and the outer surface of the plunger to prevent the outside air from flowing into the main body, thereby preventing the built-in sealant from hardening. In addition, a sealant such as silicone or the like, particularly a sealant such as a flowable liquid silicone or a one-pack type polyurethane, is easily cured by ambient light such as sunlight, so that ambient light should be prevented from penetrating into the interior of the body.

However, since the sealant cartridge according to the prior art is formed of a synthetic resin such as polyethylene, the main body, the plunger, the discharging portion, etc., can not prevent ambient light such as sunlight from being transmitted to the inside, There was a problem to be cured.

In order to solve the above problems, Korean Patent No. 10-1145370 filed by the present applicant discloses a cartridge for sealant. A nozzle unit installed at one end of the main body and discharging the built-in sealant to the outside; and a nozzle unit installed on the other inner surface of the main body so as to be in contact with the outer surface, A plunger moving in one direction within the main body by a pressure applied to the main body and discharging the built-in sealant through the nozzle unit to the outside; A second light-shielding portion formed to cover all the end surfaces of the one end of the main body and covering the nozzle portion, a third light-shielding portion formed on the surface of the plunger, and a sealing coating film formed on the surface of the first light-shielding portion .

However, since the first light-shielding portion, the second light-shielding portion and the third light-shielding portion are formed by any one of vacuum deposition, paste coating and plating, it is troublesome to perform the process, There has been a problem that a printing process must be performed once more in order to display applications, product descriptions, and the like.

Korean Patent No. 10-1145370 (2012.05.04) Korean Registered Utility Model No. 20-0337866 (December 26, 2003) Korean Utility Model Publication No. 20-1996-0028855 (September 17, 1996)

It is an object of the present invention to provide a sealant cartridge which can prevent a sealant such as a silicone adhesive packed with ultraviolet rays from adhering to the external sunlight And it is an object of the present invention to provide a sealant cartridge using a thermal transfer film that can exhibit a trademark, an application, and a product description by a printed layer of a thermal transfer film.

According to an aspect of the present invention, there is provided a dispenser comprising: a main body having an open end and a sealant; a nozzle unit installed at one end of the main body and discharging the built-in sealant to the outside; A plunger installed on the inner surface of the main body so as to flow in contact with an outer surface of the main body and move in one direction inside the main body by a pressure externally applied to the main body to discharge the built- And a thermal transfer film adhered to an outer surface of the body.

In the sealant cartridge using the thermal transfer film according to the present invention, the ultraviolet blocking layer is included on the outer surface of the sealant cartridge body instead of the light shielding portion formed by any one of vacuum deposition, paste coating and plating By attaching the thermal transfer film, there is an effect that a trademark, an application, a product description, and the like can be displayed by the print layer of the thermal transfer film.

Thus, by attaching the thermal transfer film to the two manufacturing processes, which had conventionally been performed separately on the surface after performing the processes of vapor deposition, coating and plating, it is possible to shorten the manufacturing process to a single manufacturing process in which the printed matter can appear simultaneously, There is an effect that can be saved.

In addition, due to the ultraviolet ray shielding effect of the thermal transfer film of the ultraviolet ray blocking layer, the sealant of the packaged silicone adhesive or the like can be prevented from changing its characteristics due to external sunlight, thereby extending the service life.

1 is a perspective view showing a sealant cartridge using a thermal transfer film according to an embodiment of the present invention;
Fig. 2 is a cross-sectional perspective view of Fig. 1 taken along line AA. Fig.
3 is a cross-sectional view of a thermal transfer film.

Hereinafter, preferred embodiments of the present invention will be described in detail. These embodiments are for further illustrating the present invention, and the scope of rights of the present invention is not limited to these embodiments.

The present invention relates to a sealant cartridge using a thermal transfer film 105, and more particularly to a cartridge for sealant using a thermal transfer film 105 instead of a light shielding portion formed by any one of vacuum deposition, paste coating and plating, The thermal transfer film 105 containing the ultraviolet ray blocking layer 114 is attached to the outer surface of the sealant 101 to change the characteristics of the sealant 100 such as a silicone adhesive wrapped with ultraviolet ray blocking effect by the external sunlight In addition, it is possible to exhibit a trademark, an application, and a product description by the print layer 113 of the thermal transfer film 105, and conventionally, after the processes of vapor deposition, coating and plating, It is possible to attach the thermal transfer film 105 to the two manufacturing processes which must be carried out, And it is directed to a sealant cartridge for using the thermal transfer film 105, which.

1 and 2, the sealant cartridge using the thermal transfer film 105 according to the present invention includes a main body 101 having the other side opened and the sealant 100 embedded therein, A nozzle unit 102 provided at one end of the main body 101 for discharging the built-in sealant 100 to the outside, and a nozzle unit 102 installed on the other side inner surface of the main body 101 in contact with the outer surface, A plunger 103 for moving the built-in sealant 100 to the outside through the nozzle unit 102 by moving in one direction within the main body 101 by a low pressure, A sealing coat 104 formed on the inner surface of the main body 101, and a thermal transfer film 105 attached to the outer surface of the main body 101.

The body 101 is formed in a cylindrical shape in which the sealant 100 is embedded and the other side is opened. The sealant 100 is embedded in the body 101 in a liquid or paste state to adhere an adhesive (not shown) to the air or to be cured when exposed to sunlight. The sealant 100 in the main body 101 is discharged using a coater (not shown) with a silicone adhesive or the like, and usually liquid is used for mounting electronic components on a printed wiring circuit board (PCB) Construction and automobiles.

The nozzle unit 102 is installed at one end of the main body 101 and is cut by a knife or the like during use to form a discharge hole to discharge the sealant 100 built in the main body 101 to the outside.

The plunger 103 is installed to flow inside the other side of the main body 101. At least a portion of the outer surface of the plunger 103 contacts the inner surface of the main body 101, and the plunger 103 moves in one direction within the main body 101 by the pressure applied by the user from the outside. The plunger 103 causes the sealant 100 built in the main body 101 to be discharged to the outside through the nozzle unit 102. [

The main body 101, the nozzle unit 102 and the plunger 103 are made of a resin such as a vinyl resin, a polyethylene, a polypropylene, a polystyrene, a phenol resin, a polyester, a polyurethane, a polyamide, Acrylonitrile butadiene styrene), a fluororesin, a phenol resin, and a melamine resin.

The seal coat film 104 is formed on the inner surface of the main body 101 and has a property of not reacting with the sealant 100 built in the main body 101 and not solidifying, Of silicone rubber or silicone compound which is in the form of a paste which is lubricated and has a viscosity of about 0.5 to about 20 g / m 2. The sealing coating film 104 lubricates the plunger 103 when the plunger 103 moves, thereby facilitating the movement of the plunger 103 in the body 101. The sealing coat 104 prevents external air from flowing into the body 101 through the space between the inner surface of the body 101 and the plunger 103 to prevent the built-in sealant 100 from hardening.

The thermal transfer film (105) is formed on the outer surface of the body (101). The thermal transfer film 105 is formed by sequentially stacking a film layer 111, a release layer 112, a print layer 113, an ultraviolet barrier layer 114 and an adhesive layer 115 sequentially, the temperature in the 3 ~ 10kg · f / cm main surface by applying a pressure of ² are sequentially applied to the film layer 111 is printed a release layer (112 in and attached to the adhesive layer 115 sangjeop the outer surface, 170 ~ 250 ℃ The print layer 113, the ultraviolet barrier layer 114 and the adhesive layer 115 are adhered to the outer surface of the body 101.

3, the structure of the thermal transfer film 105 will be described in more detail.

The film layer 111 serves to transfer text and images to the outer surface of the body 101. The film layer 111 includes a release layer 112 sequentially provided on the film layer 111, The thermally transferred film 105 is transferred to the outer surface of the main body 101 by thermally transferring the thermally transferred film 105 having the lamination layer 113, the ultraviolet blocking layer 114 and the adhesive layer 115 sequentially laminated.

The release layer 112 is positioned on the upper side of the film layer 111 to facilitate the release of the print layer 113 from the film layer 111 and the adhesive layer 115 ) Is placed on the surface of the object in a state where it is adhered to the surface of the object.

The print layer 113 is configured to include text and graphics drawn on the top of the release layer 112 and drawn with ink having one or more hues, wherein the text on the outer surface of the body 101, Providing a pattern enhances user's understanding and aesthetics of the product.

The UV blocking layer 114 is disposed on the printing layer 113 and is composed of a layer made of a material having an ultraviolet blocking function and including a resin layer including UV blocking particles and a polymer resin or an aluminum vapor deposition layer.

When the ultraviolet barrier layer 114 is composed of a resin layer containing ultraviolet blocking particles and a polymer resin, it is preferable to use a thermosetting resin as the polymer resin. It is preferable that the thermosetting resin includes at least 50 wt% of the total resin component including the curing agent. If the content is less than 50% by weight, the solvent resistance is deteriorated, and when the adhesive layer 115 is coated, the solvent of the adhesive layer 115 may penetrate the ultraviolet barrier layer 114 and become a problem.

The thermosetting resin preferably includes a polyurethane-based thermosetting resin. Specifically, for example, the thermosetting polyurethane includes polycarbonate polyurethane, polyester polyurethane, polyurethane and the like. The polyurethane resin is characterized by having a glass transition temperature (Tg) of 10 ° C or higher. Examples of the curing agent include an isocyanate curing agent, a peroxide, an epoxy crosslinking agent, a metal chelating crosslinking agent, a melamine crosslinking agent, an aziridine crosslinking agent, have. These crosslinking agents may be used singly or in combination of two or more. If necessary, a thermoplastic resin may be added. The thermoplastic resin is used in an amount smaller than the sum of the thermosetting resin and the cross-linking agent solids based on the solids content. The thermoplastic resin may be a polyvinyl chloride polyvinyl acetate copolymer, a polyvinyl chloride homopolymer or the like, and the resin used preferably has a glass transition temperature of 40 ° C or higher. If the glass transition temperature is lower than 40 캜, a phenomenon of blinking may occur.

The ultraviolet shielding particles included in the ultraviolet barrier layer 114 may utilize various materials having an ultraviolet shielding function such as titanium dioxide (TiO ₂ ), zinc oxide, magnesium silicate, magnesium oxide, and kaolin. The ultraviolet shielding particle content is preferably 30 to 80% by weight of the total solid content of the ultraviolet barrier layer 114. If it is less than 30% by weight, the ultraviolet ray blocking rate may be lowered. If it exceeds 80% by weight, a problem may arise in the particle dispersing process.

It is preferable that the ultraviolet shielding particles have an average particle diameter of 10 to 300 nm because it is possible to obtain a flat surface. If necessary, the ultraviolet-shielding particles may further be firstly dispersed with one or two or more resins selected from polyvinyl chloride, polyvinyl chloride polyvinyl acetate copolymer and thermosetting polyurethane to further improve the dispersibility in the resin have. As the surface treatment method, ultraviolet shielding particles may be added to a resin such as polyvinyl chloride, and primary dispersion may be performed by a method such as kneading and mixing. The kneading comprises a solvent, and the kneaded solution can add additional milling and filtering processes for optimization of the dispersion.

The thickness of the resin layer after drying is preferably 0.5 to 3.0 mu m. If the thickness is less than 0.5 탆, the surface smoothness may be lowered due to the protrusion of the particles. If the thickness exceeds 3.0 탆, a proper heat transfer may not be performed and the transfer may not be performed properly.

In the present invention, when an aluminum vapor deposition layer is introduced into the ultraviolet barrier layer 114, a metal having an effect of blocking ultraviolet rays by having reflection characteristics such as copper, gold, silver, chromium, nickel, tungsten, Can be utilized.

The surface resistance value of the deposition layer is preferably 1.0 to 7.0? / Square. If the value is less than 1.0, light is not transmitted and it is difficult to align in the process. If the value is more than 7.0, the deposition layer is too thin, so that the deposition layer may be destroyed in the ultraviolet ray curable intermediate layer coating process. The aluminum deposition can be formed by a method known to a person skilled in the art such as a sputtering method.

The adhesive layer 115 is disposed on the upper side of the ultraviolet blocking layer 114 and is used for thermal transfer printing with the thermal transfer film 105 having the print layer 113. [ That is, to the outer surface of the main body 101.

In the sealant cartridge using the thermal transfer film 105, the main body 101, the nozzle unit 102 and the plunger 103 constituting the sealant cartridge are made of vinyl resin, polyethylene, polypropylene, polystyrene, phenol Is formed of any one of synthetic resin such as resin, polyester, polyurethane, polyamide, polyvinyl chloride, ABS (Acrylonitrile Butadiene Styrene), fluororesin, phenol resin and melamine resin, The external light is blocked by the ultraviolet blocking layer 114 constituting the warp film 105 from entering the inside of the body 101. [ Therefore, since the external light is not irradiated inside the sealant cartridge, the sealant 100 inside the main body 101 is prevented from hardening.

In addition, by attaching the thermal transfer film 105 including the ultraviolet blocking layer 114 on the outer surface of the sealant cartridge body 101 instead of the shielding part formed by any one of the vacuum deposition method, the paste coating method and the plating method , And the print layer 113 of the thermal transfer film 105 can display a trademark, an application, a product description, and the like.

Thus, by attaching the thermal transfer film 105 to the two manufacturing processes which have conventionally required to be separately printed on the surface after performing the processes of vapor deposition, coating and plating, they can be attached and shortened to one manufacturing process The manufacturing cost can be reduced.

In addition, since the thermal transfer film 105 is easy to adhere to the surface of the adherend, it is easier to perform than the process of forming the light shielding portion by vacuum deposition, paste coating and plating.

In addition, due to the ultraviolet blocking effect of the thermal transfer film 105 on the ultraviolet barrier layer 114, the sealant 100 of the packaged silicone adhesive can be prevented from changing its characteristics due to external sunlight, There is an effect that can be extended.

100: sealant
101: Body
102:
103: plunger
104: Sealing film
105: Thermal transfer film
111: film layer
112:
113: Printed layer
114: ultraviolet barrier layer
115: Adhesive layer

Claims (3)

A main body 101 having the other side opened and the sealant 100 built in,
A nozzle unit 102 installed at one end of the main body 101 to discharge the built-in sealant 100 to the outside,
The outer surface of the main body 101 is moved in contact with the outer surface of the main body 101 to move in one direction inside the main body 101 by a pressure externally applied thereto, A plunger 103 for discharging the fluid to the outside through a fluid passage 102,
A sealing coating film 104 formed on the inner surface of the body 101,
And a thermal transfer film (105) attached to the outer surface of the body (101)
The thermal transfer film 105 includes a film layer 111, a release layer 112, a print layer 113, an ultraviolet barrier layer 114, and an adhesive layer 115,
The ultraviolet barrier layer 114 may include a resin layer or an aluminum evaporation layer including ultraviolet barrier particles and a polymer resin,
When the ultraviolet blocking layer 114 includes an aluminum deposition layer, the surface resistance value of the deposition layer is 1.0 to 7.0? / Square,
Wherein the resin layer comprises a thermosetting resin,
Wherein the thermosetting resin comprises at least 50% by weight of the total resin component including a curing agent, and comprises at least one polyurethane-based thermosetting resin selected from polycarbonate polyurethane, polyester polyurethane and polyurethane,
The resin layer optionally comprises a thermoplastic resin,
Wherein the thermoplastic resin comprises any thermoplastic resin selected from a polyvinyl chloride polyvinyl acetate copolymer or a polyvinyl chloride homopolymer,
The content of the ultraviolet blocking particles is 30 to 80% by weight of the total solid content of the ultraviolet blocking layer,
Wherein the ultraviolet blocking particles have an average particle diameter of 10 to 300 nm,
Wherein the thickness of the resin layer after drying is 0.5 to 3.0 占 퐉.
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