KR100955856B1 - Alignment device for display glass panel chamfering - Google Patents

Abstract

The present invention relates to a device for manufacturing a small glass sheet used as a display window of a small electronic product, the device is installed in the chamfer for processing the edge of the glass sheet to align the so that the plate to be processed is supplied so that the correct state is good for processing. will be.

The alignment device according to the present invention constitutes a mounting stand which is vertically moved and spaced in the direction of the chamfering device and moves vertically on one side of the chamfering machine, and then the left and right screws are simultaneously installed on the screw shaft after installing the screw shafts intersected at right angles to the mounting stand. Forming and connecting the alignment block to each of the right side and the left side of the screw is characterized in that the plate is aligned as the alignment block at the same time close or simultaneously spaced in the center direction of the left and right screw due to the rotation of the screw shaft.

Glass plate, Chamfering, Alignment device, Ball screw, Left hand thread, Right hand thread

Description

Alignment device for display glass panel chamfering for display

The present invention relates to a device for manufacturing a small glass sheet used as a display window of a small electronic product, the device is installed in the chamfer for processing the edge of the glass sheet to align the so that the plate to be processed is supplied so that the correct state is good for processing. will be.

As is well known, a thin and transparent glass sheet is used as a display window for displaying the operation status in small electronic products such as mobile phones, navigation, PDF, MP3 and the like.

These small glass plates (hereinafter referred to as "plates") are completed through a number of processing processes, such as cutting to the required size from the original plate, and machining the side of the cut plate to have a more precise side end to have a desired size and precision. It consists of the chamfering process which processes the edge part of a side end at 45 degree | times, the process of strengthening glass, and the process of cleaning.

The present invention relates to a process of aligning the plate for the process of chamfering using a chamfer among these processes, the chamfering machine is usually a grinding tool having a form that can process the edge of the side is moved along the side profile of the plate And at the same time the side end is in the form of processing.

For this type of processing, it is necessary to seat the plate in the correct position. If the chamfering operation is performed without the alignment in the correct state, the bad plate will be produced. This will lead to reduced reliability of the product.

Therefore, it is natural that the plate should be placed in the correct state and then chamfered. If the alignment of the plate is done by hand, it may be possible to settle in the correct position once, but it will take a tremendous amount of time and always Since it is impossible to seat uniformly at the correct position, there will be a need for automated alignment means that can align accurately and quickly.

The present invention devised in view of the above-described problem is aligned by providing an apparatus for precisely and uniformly aligning the plate so that the plate is seated on the processing fixing part and then the processing apparatus moves to a predetermined trajectory so as to be in a state suitable for processing. It aims to prevent the processing defects in the process of chamfering due to defects and improve the productivity by rapid alignment, thereby reducing the defective rate of the electronic products and to improve the quality.

The alignment device according to the present invention constitutes a mounting stand which is vertically moved and spaced in the direction of the chamfering device and moves vertically on one side of the chamfering machine, and then the left and right screws are simultaneously installed on the screw shaft after installing the screw shafts intersected at right angles to the mounting stand. Forming and connecting the alignment block to each of the right side and the left side of the screw is characterized in that the plate is aligned as the alignment block at the same time close or simultaneously spaced in the center direction of the left and right screw due to the rotation of the screw shaft.

According to the present invention, it is always possible to align the plate accurately and even alignment is possible always in a uniform state even if a number of alignment operations are repeated.

In addition, it is an invention having a useful effect such as to improve the productivity by the rapid alignment, to minimize the occurrence of defects to improve the profits of the processing company, and also to improve the quality of electronic products.

Hereinafter, a detailed and preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration example of a chamfering device is configured an alignment device according to the present invention,

Figure 2 is a side view of the alignment device seen from A of Figure 1,

3 is a plan view of FIG.

4 is a perspective view of the alignment device according to the present invention;

5 is a bottom perspective view of the alignment device according to the present invention;

6 is an enlarged view of FIG. 5;

7 is a partial plan view of the alignment device according to the present invention;

8 is a partial bottom view of the alignment device according to the present invention;

9 is an operational state diagram of the alignment device according to the present invention.

Alignment apparatus 2 according to the present invention is configured on one side of the chamfering machine (1).

That is, after the mounting table 10 is configured to be elevated on the plate seating table 4 provided at the position near the chamfering device 3 of the chamfering machine 1, the mounting table 10 crosses the right and left screws at right angles. The shaft 20 and the front and rear screw shaft 20 'are respectively provided to be configured to rotate with the drive motors 11 and 12.

On the left and right screw shafts 20 and the front and rear screw shafts 30, the left screw portion 21 and the right screw portion 22 were formed simultaneously with respect to the center portion, respectively.

When the front and rear screw shafts 20 'are installed at the same time, they are driven simultaneously through the power transmission means 23, and the left and right screw shafts 20 extend the length of the left screw portion 21 and the right screw portion 22. ) Is formed to be continuously repeated as shown in the drawing.

Each of the left and right screw portions 21 and the right screw portion 22 of the front and rear screw shafts 20 'and the left and right screw shafts 20 is coupled to the left screw portion 21 and the right screw portion 22 in a screwing manner, respectively. Coupling bodies 30, 30 'coupled to the rotational movement of the axis is converted to a linear movement, and the alignment block 40 is connected to one side of each pipe 30, 30'.

At the bottom of the alignment blocks 40, two alignment points P protruding on the same line are formed to push and align the plate 100, respectively, and are coupled to the front and rear screw shafts 20 'and the left and right screw shafts 20, respectively. The alignment blocks 40 are formed so that the alignment points P face each other.

It looks at the operation of the present invention having such a configuration.

When the plate 100 to be chamfered from one side to be seated on the upper surface of the plate seating (4) is to start the alignment device 2 of the present invention, the first mounting block 10 is lowered at this time the alignment block ( 40) is positioned a little spaced apart in the front and rear, left and right four directions of the plate material (100).

When the driving motors 11 and 12 operate in this state, the front and rear screw shafts 20 'and the left and right screw shafts 20 are rotated, and are coupled to the left screw portion 21 and the right screw portion 22, respectively. The tubular bodies 30 and 30 'are advanced facing each other, and the alignment blocks 40 connected to the tubular bodies 30 and 30' are also advanced at the same time toward the center plate 100 at the same time.

Eventually, two alignment points P of the alignment block 40 push the plate 100 at the same time, two alignment points P in one direction, and eight alignment points P in four directions push the plate 100 at the same time. Therefore, the plate 100 is the position is corrected to the exact same position.

After the alignment is completed, the drive motor 11, 12 is rotated in reverse, so that the alignment block 40 is reversed, so that it returns to the state before the first alignment and prepares for the next alignment.

When the alignment operation is completed and the alignment device 2 is raised, the aligned plate 100 moves to the chamfering device 3 in a state of being seated on the plate seating stand 4 to fix the plate 100 in a state where the plate 100 is fixed. This is done.

When the number of the front and rear screw shafts 20 'is arranged to align many plates 100 at the same time, the front and rear screw shafts 20' can be simultaneously rotated by the power transmission means 23 as described above. The left and right screw shafts 20 may also be formed by repeating the left screw portion 21 and the right screw portion 22 to combine the tubular bodies 30 and 30 'so that efficient alignment is possible.

Figure 1 is an example of the overall configuration of the chamfering device is configured an alignment device according to the present invention

FIG. 2 is a side view of the alignment device seen in FIG. 1A

3 is a plan view of FIG.

4 is a perspective view of the alignment device according to the present invention;

5 is a bottom perspective view of the alignment device according to the present invention;

6 is an enlarged view of FIG. 5.

7 is a partial plan view of the alignment device according to the present invention.

8 is a partial bottom view of the alignment device according to the present invention.

9 is an operational state diagram of the alignment device according to the present invention

*** Description of the symbols for the main parts of the drawings ***

1: chamfering machine 2: alignment device

3: chamfering device 4: sheet rest

10: mounting base 11, 12: drive motor

20: Left and right screw shaft 20 ': Front and rear screw shaft

21: Left hand thread 22: Right hand thread

23: power transmission means

30: 30 ': tube

40: alignment block 100: plate

Claims (3)

Comprising the mounting base 10 which can be lifted and mounted on the plate mounting table (4) provided in the position near the chamfering device (3) of the chamfering machine (1), In the mounting table 10, the left and right screw shafts 20 and the front and rear screw shafts 20 'intersecting at right angles are respectively installed to be rotated by the drive motors 11 and 12, On the left and right screw shaft 20 and the front and rear screw shaft 30, the left screw portion 21 and the right screw portion 22 are formed at the same time based on the center portion, respectively. Each of the left and right screw portions 21 and the right screw portion 22 of the front and rear screw shafts 20 'and the left and right screw shafts 20 is coupled to the tubular bodies 30 and 30', respectively, by screwing, thereby rotating the screw shaft. To move in a straight line, One side of each tube (30) (30 ') of the alignment device of the small glass plate chamfer for display, characterized in that configured by connecting the alignment block 40 for pushing the plate. The method of claim 1, At the bottom of the alignment blocks 40, two alignment points P protruding on the same line are formed to push and align the plate 100, respectively, and are coupled to the front and rear screw shafts 20 'and the left and right screw shafts 20, respectively. Alignment block (40) of the alignment device of the small glass plate chamfer for display, characterized in that the alignment point (P) formed to face each other. The method of claim 1, When the front and rear screw shafts 20 'are installed at the same time, they are driven simultaneously through the power transmission means 23, and the left and right screw shafts 20 extend the length of the left screw portion 21 and the right screw portion 22. ) Is a device for aligning the small glass plate chamfering device for a display, characterized in that it is formed to be repeated repeatedly.

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