KR102150032B1 - Laminated glass manufacturing apparatus through the uv - Google Patents

Abstract

The present invention relates to a UV laminated glass manufacturing device. The UV laminated glass manufacturing device comprises: a mount having a moving device installed thereon; a taping portion installed to be movable by the moving device and applying a bonding UV liquid to the rest except for one side in edges of one side surface of a first glass plate disposed on the mount; a charging unit installed on the mount, having a second glass plate superimposed on the first glass plate, and injecting a filling UV liquid between the first glass plate and the second glass plate; and a drying unit for curing the bonding UV liquid and the filling UV liquid applied and injected between the first glass plate and the second glass plate. With this configuration, the bonding UV liquid is primarily applied to the edge of the glass plate, and the filling UV solution is injected through a portion where the bonding UV liquid is not applied, so that manufacture can be possible even without attaching a tape to the bonded glass plates and even the edge of the glass plate can be made neat.

Description

UV laminated glass manufacturing equipment {LAMINATED GLASS MANUFACTURING APPARATUS THROUGH THE UV}

The present invention relates to a UV laminated glass manufacturing apparatus, and more particularly, to a UV laminated glass manufacturing apparatus used to bond each other by putting a UV liquid between glass plates through UV.

The need for energy saving in buildings is increasing day by day, and the energy performance enhancement of buildings is now becoming a necessity rather than an option. In Korea, buildings account for 1/3 of the nation's total energy consumption, 40% of resource consumption, 50% of carbon dioxide emission, and 20-50% of waste emission. A solution was urgently needed.

In Korea, where 98% of the current energy consumption is dependent on imports, the energy consumption of buildings accounts for 30% of the total energy consumption. As in the case of overseas advanced countries, low-E glass, which has high efficiency and high functionality, is bonded to save energy of buildings. There is a demand for the development of high-functional window glass such as glass and double-layered glass.

The advantage of using high-functional window glass is that energy consumption can be reduced by about 25% compared to the use of general glass, thereby reducing the cost of cooling and heating, and furthermore, the environmental protection effect can be expected by reducing CO2 by saving heating and cooling energy (oil). As interest in energy saving and environmental protection increases, interest in'functional glass' combining various advanced technologies such as UV protection and energy saving as well as basic functions of general glass such as visibility and windproofness is increasing rapidly. Research and development are also ongoing.

In particular, laminated glass refers to glass made by putting a PVB film between glass and glass and curing it with ultraviolet rays or heat. It is not only safe even if broken like automobile glass, but also has excellent heat insulation and noise insulation. The film fixes the glass to ensure safety even in case of damage, and is excellent in creating a comfortable living environment from crime prevention, sound insulation, and UV protection.

Such laminated glass is bonded by filling resin between a pair of glasses. To fix the pair of glasses initially, double-sided tape is attached to the rest of the rim except for one rim.

This laminated glass has a problem that is not good in terms of aesthetics because the double-sided tape is exposed on the edge.

In addition, there is a problem in that the adhesive of the double-sided tape attached to the edge of the laminated glass melts and is lost, and there is a gap in the lost portion, so that moisture penetrates.

Korean Intellectual Property Office Application No. 10-2014-0058506 Korean Intellectual Property Office Application No. 10-2009-0053208 Korean Intellectual Property Office Application No. 10-2016-0021727 Korean Intellectual Property Office Application No. 10-2015-0134229

The present invention was devised to solve the above problems, and an object of the present invention is to prevent the double-sided tape from being exposed to the edge of laminated glass.

In addition, as well as sealing the glass airtightly, the purpose is to prevent a gap between the glass.

In order to achieve the above object, a UV laminated glass manufacturing apparatus according to a preferred embodiment of the present invention includes: a holder equipped with a moving device; A taping part installed to be movable by the moving device and applying a bonding UV liquid to the rest of the edges of one side of the first glass plate disposed on the cradle except for one side; A charging unit installed on the cradle, a second glass plate superimposed on the first glass plate, and injecting a filled UV liquid between the first glass plate and the second glass plate; And a drying unit for curing the bonding UV solution and the filled UV solution applied and injected between the first glass plate and the second glass plate, wherein the bonding UV solution and the filled UV solution are between the first glass plate and the second glass plate. Is applied and injected with the same component and thickness in the taping part, and the bonding UV liquid is applied to the first glass plate in 1 mm, and the moving device is installed to be movable along the length direction in the longitudinal direction on the upper surface of the holder. A first moving means and a second moving means installed to be movable along a longitudinal direction in a transverse direction to the first moving means, and the drying unit cures the bonding UV liquid and the filled UV liquid through a UV LED lamp. In the taping part, a coating piece for applying the bonding UV solution is installed on one side, and a sub-dry piece for curing the bonding UV solution applied from the coating piece at the same time as the application is 20% is installed on the other side. To do.

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According to the apparatus for manufacturing UV laminated glass according to the present invention, a tape is attached to the laminated glass plate by first applying a laminated UV liquid to the edge of a glass plate and then filling the filled UV liquid through a portion where the laminated UV liquid is not applied. It is possible to produce without having to do so, so you can get the effect of making the borders neatly.

In addition, it is possible to obtain the effect of providing an airtight bonding force by applying the UV liquid to the edge.

1 is a front view of a UV laminated glass manufacturing apparatus according to a preferred embodiment of the present invention.
2 is a plan view of a UV laminated glass manufacturing apparatus according to a preferred embodiment of the present invention.
3 to 5 are flow charts of a first glass plate and a second glass plate in contact with each other according to a preferred embodiment of the present invention.
6 is an operation diagram of FIG. 2 according to a preferred embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a UV laminated glass manufacturing apparatus according to embodiments of the present invention.

1 is a front view of a UV laminated glass manufacturing apparatus according to a preferred embodiment of the present invention, FIG. 2 is a plan view of a UV laminated glass manufacturing apparatus according to a preferred embodiment of the present invention, and FIGS. 3 to 5 are preferred embodiments of the present invention. A flow chart of contact between the first glass plate and the second glass plate according to an example, FIG. 6 is an operation diagram of FIG. 2 according to a preferred embodiment of the present invention.

Referring to these drawings, the UV laminated glass manufacturing apparatus according to the present embodiment is characterized in that it is possible to airtightly contact two glass plates without using a double-sided tape.

The UV laminated glass manufacturing apparatus 100 according to the present embodiment that can provide such an effect includes a cradle 110, a moving device 120, a taping part 130, a charging part 140, and a drying part 150 do.

The cradle 110 is formed flat on the upper plate so that the first glass plate 10 can be mounted.

The moving device 120 is installed on the top of the cradle 110 and includes a first moving means 121 and a second moving means 122 that are vertically and horizontally moved.

Specifically, the first moving means 121 is installed in the longitudinal direction above the cradle 110.

First moving rails 121a are installed on both sides of the holder 110 in the longitudinal direction, and first moving members 121b are coupled to each of the first moving rails 121a so as to be movable in the longitudinal direction. .

Here, a first driving motor 121c is installed at an end of any one of the first moving rails 121a.

As the first driving motor 121c is driven, it moves the adjacent first moving member 121b.

In addition, the second moving means 122 is installed on the top of the cradle 110 in a transverse direction.

Here, the second moving means 122 is coupled to the first moving means 121 and is integrally moved according to the driving of the first moving means 121.

Specifically, the second moving means 122 is provided with a second moving rail 122a disposed in the transverse direction on the cradle 110, and the second moving rail 122a is the first moving member 121b ) Are combined between.

A second driving motor 122c is installed at one end of the second moving rail 122a, and a second moving member 122b is coupled to the second moving rail 122a so as to be movable along the length direction.

Here, the second moving member 122b is moved in the longitudinal direction according to the driving of the first moving member 121b, and is moved in the transverse direction according to the driving of the second moving member 122b.

The taping part 130 is moved vertically and transversely to the upper plate of the cradle 110 by the moving device 120 and applies a bonding UV liquid 20 to the first glass plate 10, the It is installed on the second moving member 122b.

Specifically, the taping part 130 includes a coating piece 131 installed on one side of the second moving member 122b and a sub drying piece 132 installed on the other side of the second moving member 122b. do.

The coating piece 131 receives the bonding UV solution 20 from a separate UV supply device (not shown) and applies the bonding UV solution 20 to the first glass plate 10.

Here, the moving device 120 is driven so that the bonding UV liquid 20 is applied to the rest of the upper surface edge of the first glass plate 10 except for one side of the taping part 130.

At this time, the taping part 130 is moved by the moving device 120 and the bonding UV liquid 20 is applied to the first glass plate 10 at a thickness of 1 m.

In addition, the sub-drying piece 132 cures the bonding UV solution 20 applied at the same time as the coating piece 131 applied the bonding UV solution 20 to the first glass plate 10.

At this time, the sub-drying piece 132 dries the bonding UV liquid 20 so that the curing degree is only 20%.

This prevents the filled UV liquid 40 injected from the charging unit 140 to be described later from leaking to the outside by the bonding UV liquid 20 applied first, as well as the second superimposed on the first glass plate 10. This is to allow the glass plate 30 to be bonded more quickly.

In addition, the second glass plate 30 is superimposed on the upper plate of the first glass plate 10 while the bonding UV liquid 20 is applied by the taping part 130.

The charging unit 140 injects a filled UV liquid 40 between the first glass plate 10 and the second glass plate 30 and is installed on one side of the holder 110.

Here, since the bonding UV liquid 20 is not applied to the first glass plate 10 on one side of the rim, a gap is formed on one side when the second glass plate 30 is overlapped.

The charging unit 140 receives the filled UV liquid 40 from a separate UV supply device (not shown) and injects it through the gap between the first glass plate 10 and the second glass plate 30.

On the other hand, it is preferable that the filled UV liquid 40 of the charging part 140 is injected with the same components and the same thickness as the bonding UV liquid 20 of the taping part 130.

This is to prevent a sense of foreignness from occurring from the bonding and filling UV liquids 20 and 40 applied and injected between the first glass plate 10 and the second glass plate 30.

The drying unit 150 cures the bonding and filling UV liquids 20 and 40 applied and injected onto the first glass plate 10 and the second glass plate 30, and is installed on the other side of the holder 110 do.

Specifically, the drying unit 150 is a main drying piece 151 provided with a conveyor 152 arranged in parallel with the top plate of the cradle 110 and equipped with a UV LED lamp 151a on the top of the conveyor 152 ) Is installed.

Here, the conveyor 152 is installed slightly higher than the upper plate of the cradle 110 and is preferably formed of a rubber material.

This means that even if only a portion of the first glass plate 10 and the second glass plate 30 in which both the bonding and filling UV liquids 20 and 40 are applied and injected from the cradle 110 are moved to the conveyor 152, the conveyor This is to allow the first glass plate 10 and the second glass plate 30 to be moved by frictional force by driving of 152.

In addition, the main drying piece 151 is installed in a portion of the drying unit 150 adjacent to the cradle 110.

The main drying piece 151 is the bonding UV liquid 20 and filling UV of the first glass plate 10 and the second glass plate 30 that are moved through the conveyor 152 through the UV LED lamp 151a. The liquid 40 is cured.

With this configuration, it is possible to obtain the effect of manufacturing a clean laminated glass to the edge.

Those of ordinary skill in the art to which the present invention pertains will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting. The scope of the present invention is indicated by the scope of the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. It must be interpreted.

100: UV laminated glass manufacturing apparatus 110: cradle
120: moving device 121: first moving means
121a: first moving rail 121b: first moving member
121c: first drive motor 122: second moving means
122a: second moving rail 122b: second moving member
122c: second drive motor 130: taping part
131: coating piece 132: sub-drying piece
140: charging unit 150: drying unit
151: main drying section 151a: UV LED lamp 152: conveyor

Claims (5)

In the UV laminated glass manufacturing apparatus,
A cradle equipped with a moving device;
A taping part installed to be movable by the moving device and applying a bonding UV liquid to the rest of the edges of one side of the first glass plate disposed on the cradle except for one side;
A charging unit installed on the holder, a second glass plate superimposed on the first glass plate, and injecting a filled UV liquid between the first glass plate and the second glass plate; And
Including; a drying unit for curing the bonding UV liquid and the filled UV liquid applied and injected between the first glass plate and the second glass plate,
The bonding UV liquid and the filled UV liquid are applied and injected with the same component and thickness between the first glass plate and the second glass plate,
The taping part is applied with the bonding UV liquid to the first glass plate with 1 mm,
The moving device,
First moving means installed to be movable along the longitudinal direction in the longitudinal direction on the upper surface of the cradle, and
And a second moving means installed to be movable along a longitudinal direction in a transverse direction to the first moving means,
The drying unit,
Curing the bonding UV liquid and the filled UV liquid through a UV LED lamp,
The taping part,
A coating piece for applying the bonding UV liquid is installed on one side,
A UV laminated glass manufacturing apparatus, characterized in that a sub-drying piece for curing the bonding UV liquid applied from the coating piece at the other side so that the curing degree is 20% at the same time as the coating is installed.
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