WO2013086787A1

WO2013086787A1 - Panel glass multi-mode processing method and semi-finished product processed adopting the same

Info

Publication number: WO2013086787A1
Application number: PCT/CN2012/070193
Authority: WO
Inventors: 江正达
Original assignee: 意力(广州)电子科技有限公司
Priority date: 2011-12-13
Filing date: 2012-01-10
Publication date: 2013-06-20
Also published as: TW201323360A; CN102515495A; TWI480242B; CN102515495B

Abstract

Disclosed in the present invention are a panel glass multi-mode processing method and a semi-finished product processed adopting the same. The method comprises the following steps: A, cutting a whole sheet of glass to form a plurality of single-mode zones, such that a cutting slit and a connection point are arranged between two adjacent single-mode zones; B, processing all the single-mode zones on the whole sheet of glass; and C, breaking all the connection points, and taken out all the processed single-mode zones from rim charges. The machining efficiency of the method is high, and the processed product quality is good.

Description

Panel glass multi-mode processing method and semi-finished product processed by the method

Technical field

The invention relates to a multi-mode processing method for panel glass and a semi-finished product processed by the method.

Background technique

In the existing optical glass processing process, a small piece processing method is adopted, and the whole piece of glass needs to be first cut into small pieces during processing, and then processed independently, and the method has the following defects:
1. In the processing of each small piece of glass, it is necessary to carry out multiple take-ups and discharges, which takes a lot of time, resulting in a significant reduction in production efficiency and a large labor cost;
2. During the process of reclaiming and discharging, the hand will make frequent contact with the product, which increases the unqualified rate of the product;
3. In the processing process, it is necessary to process each small piece of glass products, the processing efficiency is low, and the processing conditions are greatly different, which affects the consistency of the products.

Summary of the invention

The object of the present invention is to overcome the defects of the prior art, and to provide a multi-mode processing method for a panel glass and a semi-finished product processed by the method, and the processing efficiency of the invention is high, and the processed product has good quality.

The technical solution is as follows.

A panel glass multi-mode processing method, the method comprising the following steps:
A. Cutting on the whole glass to form a plurality of single-mode zones, and the adjacent two single-mode zones have cutting seams and connection points;
B. processing each single-mode area on the entire glass;
C. Disconnect each connection point and take out the processed single-mode areas from the edge material.

Further technical solutions of the present invention will be described below.

The foregoing step B includes the following steps: b1, in the foregoing step A, the edge portion of the entire glass forms a margin region, and the slit and the joint are also provided between the edge portion of the single-mode region and the edge region. In this step, the edge material in the edge material area and the waste material between the single mold areas are stripped; b2, each single mold is strengthened on the whole glass; b3, each single mold is printed on the whole glass; b4 Each single mold is coated and stripped on the entire glass.

After the step b1, before the step b2, there is further step b11: drilling and chamfering the glass of each single-mode zone; and having the step D after the step C: connecting the whole glass The spot is cut, and the glass of each single-mode area is again inverted, and the treatment is smooth.

A panel glass multi-die processing semi-finished product comprises a plurality of single-mode zones, and each adjacent single-mode zone has a slit and a connection point.

Each of the single-mode regions has a rectangular shape, and the cutting slits are located at four sides of each single-mode region, and the connection points are also located at four sides of each single-mode region, and the connection points are located between the two cutting slits. . The aforementioned rectangle includes a rectangle and a square.

Alternatively, each of the single-mode regions has a circular shape, and the cutting slits are arc-shaped, located on the side of each single-mode region, the connection points are also located on the sides of each single-mode region, and the connection points are located in two cuts. Between the slits.

The connecting lines of the four connection points are in a "ten" shape.

The advantages or principles of the present invention are described below:
1. During the processing, the single-mode areas are not completely disconnected, which can realize the simultaneous processing of each single-mode area, and reduce the material reclaiming and blanking time of each single-mode area, which improves the production efficiency and reduces the production efficiency. Labor cost;
2, because the probability of contact between the human hand and the product is less, reducing the product failure rate;
3. The glass processing conditions of each single-mode zone are basically the same, and the consistency of the processed products is higher.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a structural view of a semi-finished product processed by the processing method according to an embodiment of the present invention;
Figure 2 is a partial enlarged view of Figure 1;
Description of the reference signs:
1, edge material area, 2, single mode area, 3, cutting seam, 4, connection point.

detailed description

The embodiments of the present invention are described in detail below.

A panel glass multi-mode processing method, the method comprising the following steps:
A, cutting on the whole glass to form a plurality of single-mode zones 2, between the adjacent two single-mode zones 2 having a slit 3 and a joint 4; in this step, the edge of the entire glass Partially forming the edge material region 1, between the edge portion of the single mold region 2 and the edge material region 1 also has the cutting slit 3 and the connection point 4;
B. Processing each single-mode zone 2 on the entire glass, specifically including the following steps:
B1, stripping the edge material of the edge material zone 1 and the waste material between the single mold zones 2;
B11: drilling and chamfering the glass of each single-mode zone 2;
B12: inspect the glass of each single mode zone 2;
B2, strengthening each single mold that has passed the inspection on the entire glass;
B3, printing each single mold on the entire glass;
B4, coating and stripping each single mold on the whole glass;
C. Disconnect each connection point 4, and take out the processed single-mode area 2 from the edge material;
D: The joint points 4 were cut on the entire glass, and the glass of each single-mode area 2 was again inverted, and the treatment was smooth.

The semi-finished product processed by the foregoing method, as shown in FIG. 1 and FIG. 2, comprises a plurality of single-mode zones 2, and each adjacent single-mode zone 2 has a slit 3 and a joint 4 therebetween.

Each of the single-mode regions 2 has a rectangular shape (a rectangular shape in this embodiment), and the cutting slits 3 are located at four sides of each of the single-mode regions 2, and the connection points 4 are also located at four sides of each of the single-mode regions 2 The side is connected between the two cutting slits 3, the four connecting points 4 are respectively located in the middle of the side, and the connecting lines of the four connecting points 4 are in a "ten" shape.

This embodiment has the following advantages:
1. During the processing, each single-mode zone 2 is not completely disconnected, and the single-mode zone 2 can be simultaneously processed, and the reclaiming and blanking time of each single-mode zone 2 is reduced, and the production efficiency is improved. , reducing labor costs;
2, because the probability of contact between the human hand and the product is less, reducing the product failure rate;
3. The glass processing conditions of each single-mode zone 2 are basically the same, and the consistency of the processed products is higher.

The above is only the specific embodiment of the present invention, and the scope of the present invention is not limited thereto; any substitutions and improvements made without departing from the inventive concept are within the scope of the present invention.

Claims

A panel glass multi-mode processing method, characterized in that the method comprises the following steps:

A, cutting on the whole glass to form a plurality of single-mode areas, and having two cutting edges and connecting points between the adjacent two single-mode areas;

B. processing each single-mode area on the entire glass;

C. Disconnect each connection point and take out the processed single-mode areas from the edge material.
The method of processing multi-mode panel glass according to claim 1, wherein the step B comprises the following steps:
B1, in the foregoing step A, the edge portion of the whole glass forms a margin region, and the cutting seam and the joint point are also formed between the edge portion and the edge region of the single-mode region. In this step, the stripping edge is removed. The material in the material area and the waste between the single mold areas;
B2, strengthening each single mode on the entire glass;
B3, printing each single mold on the entire glass;
B4. Coating and stripping each single mold on the entire glass.
The multi-mold processing method for a panel glass according to claim 2, further comprising a step b11 after the step b1 and before the step b2: drilling and chamfering the glass of each single-mode region; After the step C, there is a step D: the joint points are cut on the entire glass, and the glass of each single-mode area is again inverted, and the treatment is smooth.
A panel glass multi-die processing semi-finished product, comprising: a plurality of single-mode zones, each of which has a slit and a connection point between adjacent single-mode zones.
The panel glass multi-die processing semi-finished product according to claim 4, wherein each of the single-mode regions has a rectangular shape, and the cutting slits are located at four sides of each of the single-mode regions, and the connection points are also located in the single-mode regions. The four sides of the joint are located between the two cut seams.
The panel glass multi-die processing semi-finished product according to claim 4, wherein each of the single-mode regions has a circular shape, and the cutting slit has an arc shape, and is located at a side of each of the single-mode regions, and the connection point is also located. The sides of each single mode zone, and the connection point is between the two cutting slits.
The panel glass multi-die processing semi-finished product according to claim 5 or 6, wherein the four connection points are respectively located in the middle of the side edges, and the connecting lines of the four connection points are in a "ten" shape.