KR20140125173A - Multi-layer edge grinding system for glass of touch screen - Google Patents

Abstract

The present invention relates to an edge grinding process of cut surfaces of tempered glass for a touch screen of a mobile terminal device such as cellular phones and tablet PCs and, more particularly, to a multi-layered edge grinding system for glass for a touch screen, which can perform edge grinding on the cut surfaces of stacked tempered glass at once. The conventional edge grinding process for glass for a touch screen of a mobile terminal device should individually perform edge grinding on cut glass so the whole grinding process takes a long time and automatic processing is difficult. Therefore, the multi-layered edge grinding system for glass for a touch screen, provided to solve the above problem, can rapidly perform edge grinding stacked multiple glass panels at the same time and can facilitate automation by proceeding edge grinding immediately after cutting the stacked glass panels.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tempered glass cut face chamfering process for a touch screen of a mobile terminal device such as a mobile phone and a tablet PC and a glass beveling process for a touch screen in which laminated tempered glass can be chamfered simultaneously .

In processing glass for a front touch screen constituted by a mobile phone or the like, the glass is scribed on a panel basis and the cut surface is grinded to reduce or round the angle of the cut surface, grinding process.

Generally, in the process of glass for a touch screen of a portable terminal unit, a disk glass is cut into a panel unit of a necessary size and a chamfering process is performed for each glass panel unit.

This is because defects may occur when chamfering a plurality of glass surfaces at the same time, and micro cracks and chipping may occur.

Thus, in the chamfering process of the glass for touch screen such as the conventional mobile terminal unit, the chamfered glass must be separately separated and chamfered separately, so that not only the whole process takes a long time but also the automatic process is difficult.

In order to solve this problem, in the present invention, the chamfering process is performed immediately after cutting in a state of being laminated at the time of cutting, so that a plurality of glass panels can be chamfered while being laminated, And to provide a glass multi-layer chamfering processing system for a touch screen in which automation can be easily performed.

In the glass multi-layer chamfering system for a touch screen of the present invention,

A glass beveling system for a touch screen,

A shelf rotating means for rotating a shelf provided at a lower end of the shelf; a chamfering object placed on a shelf from an upper end of the shelf; A fixing device for fixing the chamfering object during the chamfering process of the chamfering device, a chamfering wheel device for chamfering a plurality of glass panels at the same time on both sides of the shelf and in close contact with the chamfering object, And control means for controlling the chamfering of the chamfering object by controlling the rotating means and the chamfering wheel device,

The chamfer wheel device includes a chamfered wheel formed with a ridge portion in accordance with a lateral thickness of the glass panel to rotate according to a rotational force transmitted to a rotational driving shaft and to grind an edge surface of the glass panel with an outer surface, A chamfering wheel wheel moving means for moving the chamfering wheel along the side face of the chamfering object; and a chamfering wheel for moving the chamfering wheel back and forth on the chamfering object placed on the shelf, And a wheel longitudinal movement means.

According to the present invention, it is possible to perform chamfering immediately after cutting a plurality of glass plates by bonding with an adhesive, so that it is easy to apply to an automation process, and a plurality of glass panels can be chamfered at the same time, Chamfering can be performed within the time.

1 is a perspective view showing a configuration of a glass multi-layer chamfering system for a touch screen of the present invention.
2 to 4 are front views showing a configuration of a glass multi-layer chamfering system for a touch screen according to the present invention. Fig. 2 is a state in which a chamfering object is placed on a shelf, Fig. 3 is a chamfering state, .
5 is a view showing a chamfered object to be chamfered which has been changed through chamfering in the present invention.

The structure and operation of the glass multi-layer chamfering system for a touch screen of the present invention will be described with reference to the embodiments shown in FIGS. 1 to 5.

First, the glass multi-layer chamfering system for touch screen,

A shelf 20 for placing the chamfered object 10 on which a plurality of glass panels 11 processed through a cutting process are stacked and a shelf 20 provided at the lower end of the shelf 20 for rotating the shelf 20, A rotating means 30 and fixing means 40 for fixing the chamfering object 10 during chamfering of the chamfering object 10 placed on the shelf 20 from the upper end of the shelf 20, A chamfering wheel device 50 provided on both sides of the shelf 20 for closely chamfering a plurality of glass panels 11 in close contact with the chamfering object 10 and a fixing device 40, (Not shown) for controlling the chamfering of the chamfering object 10 by controlling the chamfering device 30 and the chamfering wheel device 50. [

The glass multi-layer chamfering system for a touch screen of the present invention having the above-described structure has a technical feature of a chamfering process of a glass panel in a system for manufacturing glass for a touch screen applied to mobile terminal means.

The shelf 20 is a means for placing the chamfering object 10 on its face so that chamfering can be performed by the chamfering wheel device 50.

The chamfered object 10 is formed by laminating a plurality of glass panels 11 transferred from a cutting process. In the cutting step, an adhesive is applied to a glass base plate, a plurality of glass base plates are laminated, and the glass base plates are cut and cut to size.

The adhesive is composed of an acrylic resin that can be separated from each glass panel 11 by being unwound from a separate solution.

The lathe rotating means 30 is composed of a lower portion of the shelf 20 and is provided with means for rotating the shelf 20 in order to chamfer the edge surface of the chamfered object 10 in the chamfering process of the shelf, to be.

The fixing means 40 is a means for fixing the chamfered object 10 placed on the shelf 20 so as not to flow in the shelf 20,

The chamfering wheel device 50 is a means for chamfering the surface of the glass panel 11 to grind the edge of the glass panel 11 along the side surface of the glass panel 11,

The edge of the glass panel 11 is rotated according to the rotational force transmitted to the rotary drive shaft 51 and the edge of the chamfered wheel Edge A chamfered wheel rotating means 53 for rotating the chamfered wheel 52 by providing a rotational force by the rotary drive shaft 51 and a chamfered wheel rotating means 53 for rotating the chamfered wheel 52 to a chamfered object 10, And a chamfered wheel longitudinal moving means 55 for moving the chamfered wheel toward and away from the chamfered object 10 mounted on the shelf 20 so as to move back and forth .

The chamfered portion 52a is configured to simultaneously chamfer each of the glass panels 11 in a state in which the chamfered wheel 52 is in close contact with the side surface of the chamfered object 10. The grind portion 52a may be configured to match the number of glass panels 11 stacked.

The grinding part 52a is composed of a V-shaped groove into which a side surface of each glass panel 11 is inserted and a grinding layer is formed therein. The grinding part 52a is inserted into the glass panel 11 11 may be made of a material having high hardness such as diamond.

The chamfering wheel rotating means 53 is means for rotating the chamfering wheel 52 by rotating the rotating driving shaft 51.

The chamfered wheel moving means 54 is means for moving the chamfered wheel 52 so that chamfering can be performed on each edge and side edge while moving the side face of the chamfered object 10.

The chamfering wheel forward / backward moving means 55 advances and chamfering the chamfered object 10 when the chamfered object 10 is placed on the back 20 and the shelf 20 so as to make space when the object 20 is placed on the chamfered object 10, And is means for moving the chamfered wheel 52 so as to be brought into close contact with the object 10.

The control means is means for controlling chamfering of the chamfering object 10 by controlling the fixing means 40, the lathe turning means 30 and the chamfering wheel device 40. [

The chamfered object 10 is transferred through the cutting process in accordance with the control information in the entire glass processing step and the fixing means 40 is controlled when the object 10 is laid on the shelf 20 to place the chamfered object 10 on the shelf 20, And the chamfering wheel 52 is moved by controlling the chamfering wheel forward / backward moving means 55, chamfering wheel rotating means 53 and chamfer wheel moving means 54 of the chamfering wheel device 50, Provides a control process for riding the edge surface of the glass pad 11 in the substrate 10.

It is possible to constitute the user manual control means so as to chamfer the glass panel 11 of the chamfering object 10 by moving and rotating the chamfering wheel 52 by the user's operation, The configuration may further include a user manual control means.

The operation of the glass multi-layer chamfering system for touch screen of the present invention having the above-described structure will be described as follows.

First, the touch screen glass processing process of the mobile terminal includes a lamination process of applying and laminating an adhesive to a disc glass, a cutting process of cutting to fit the size to be manufactured, a chamfering process of cutting edges, And a separating step of separating the water.

The embodiment of the present invention is a chamfering processing system applied in the chamfering process.

The chamfered object 10 in which a plurality of glass panels 11 are laminated is produced through the cutting process. The chamfered object 10 produced in this way is transferred by a separate transfer device and placed on the shelf 20 as shown in Figs.

When the chamfering object 10 is placed on the shelf 20, the control means controls the chamfering wheel longitudinal moving means 55 to bring the chamfering wheel 52 into close contact with the chamfering object 10. When the chamfering wheel 52 is brought into close contact with the chamfering object 10, the edges of the respective glass panels 11 of the chamfering object 10 are brought into close contact with each other into the grind portion 52a.

Thereafter, the control means controls the chamfer wheel rotating means 53 in accordance with the determined chamfering process to chamfer the edge face while rotating the chamfer wheel 52 and moving the chamfer wheel moving means 54.

When chamfering of one side is completed, the rotation of the chamfer wheel 52 is stopped by controlling the chamfer wheel rotating means 53 and the chamfering wheel 52 is controlled by controlling the chamfering wheel back and forth moving means 55, The chamfering means 30 is rotated to orient the chamfered edge face toward the chamfered wheel 52 and the chamfered wheel forward and backward moving means 55 moves the chamfered wheel forward / The chamfering wheel 52 is brought into close contact with the chamfering object 10 as shown in FIG. 3 as described above, thereby performing chamfering.

When the chamfering process is completed according to the determined chamfering process, the control means again stops the rotation of the chamfer wheel 52 and separates the chamfer wheel 52 from the chamfering object 10 as shown in FIG. 4, Finish machining.

Thereafter, the chamfered object 10 is transferred from the shelf 20 through a separate transfer means.

5 shows the chamfering object 10 through the chamfering process of the chamfering object.

As described above, the chamfering object 10 is immersed in the dissolving liquid to release the adhesive, and the glass panel 11 is separated.

Thus, it is possible to manufacture a plurality of glass panels 11 having respective edge surfaces grinded.

Claims (3)

A glass beveling system for a touch screen,
A shelf 20 for placing the chamfered object 10 on which a plurality of glass panels 11 processed through a cutting process are stacked and a shelf 20 provided at the lower end of the shelf 20 for rotating the shelf 20, A rotating means 30 and fixing means 40 for fixing the chamfering object 10 during chamfering of the chamfering object 10 placed on the shelf 20 from the upper end of the shelf 20, A chamfering wheel device 50 provided on both sides of the shelf 20 for closely chamfering a plurality of glass panels 11 in close contact with the chamfering object 10 and a fixing device 40, (30) and the chamfering wheel device (50) to control chamfering of the chamfering object (10)
The chamfering wheel device 50 is rotated in accordance with the rotational force transmitted to the rotary drive shaft 51 and is guided by the side surface of the glass panel 11 in order to grind the edge surface of the glass panel 11 with the outer surface thereof. A chamfered wheel rotating means 53 for rotating the chamfered wheel 52 by providing a rotational force by the rotary drive shaft 51 and a chamfered wheel rotating means 53 for rotating the chamfered wheel 52 to chamfered objects 52a, Backward moving means 55 for moving the chamfered wheel toward and away from the chamfered object 10 mounted on the shelf 20 and moving the chamfered wheel back and forth along the side face of the chamfered object 10, Wherein the glass substrate is a glass substrate. The grinding machine according to claim 1, wherein the grind part (52a) of the chamfered wheel (52) is adapted to the number of laminated glass panels (11), and the grind part (52a) And a V-shaped groove in which a grinding layer is formed. The control device according to claim 1, wherein the control means further includes a manual manual control means for moving and rotating the chamfered wheel (52) by a user's manipulation to chamfer the glass panel (11) of the chamfered object Wherein the glass substrate is a glass substrate.

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