CN105236722A - Cutting equipment and cutting method - Google Patents

Abstract

The invention relates to the technical field of glass cutting technology, and discloses cutting equipment and a cutting method. The cutting equipment comprises a frame and a glass carrying platform, and also comprises a liquid-supplying module, a spraying module and a driving module; the spraying module and the glass carrying platform are installed on the fame in a relatively movable manner, the spraying module is connected with the liquid-supplying module and is used to spray a high-pressure mixed cutting fluid to highly reinforced glass put on the glass carrying platform; and the driving module is used to drive the glass carrying platform or the spraying module to make motion according to a preset routine so as to realize relative movement between the spraying module and the glass carrying platform. In the above cutting equipment, the position, contacting with the high-pressure mixed cutting fluid, on the surface of the highly reinforced glass is fractured under the instantaneous high-pressure impulsive force of the high-pressure mixed cutting fluid, thus rapid cutting is realized, also the other areas are not or less influenced, and rupturing of the highly reinforced glass is avoided. Therefore, cutting of the highly reinforced glass is realized, and the problem that the highly reinforced glass is fragmented because of too large self stress is solved.

Description

A kind of cutting facility and cutting method

Technical field

The present invention relates to glass cutting technical field, particularly relate to a kind of cutting facility and cutting method.

Background technology

In OGS (integrated touch-control) industry; high chilled glass is used for the making of OGS touch screen because of the high characteristic of its surface strength; the dual function of protective glass and touch sensor is played in touch-screen; but; high chilled glass is because surface strengthen layer is too dark; and surface stress is very large; in cutting process; after Surface stress layer is damaged; will under the effect of self stress; randomly split, up to the present high strengthening glass cutting mode is still the obstacle that OGS industry is difficult to cross over.

At present, conventional chilled glass cutting mode is break bar cutting and laser cutting, along with the raising of strength of glass, surface stress increases, when break bar touches Surface stress layer, high-strength glass can be cracked because of self stress, so the break bar cutting of routine cannot cut high chilled glass, if adopt the mode of grinding, two sides strengthening layer cuts simultaneously, just can cut high chilled glass, but the CNC of routine (digital control system) because of the restriction by structure can only corresponding profile modification, cannot corresponding cut; And the restricted condition of laser cutting is more, and expensive, wherein, CO2 laser is because stress problem cannot be corresponding, and cannot meet split requirement, pulse laser is because of technical monopoly, and price is very expensive, and application prospect is little.

Summary of the invention

The invention provides a kind of cutting facility and cutting method, this equipment cost is lower, can cut high chilled glass, solves high-strength glass because of the excessive and cracked problem of self stress.

For achieving the above object, the invention provides following technical scheme:

A kind of cutting facility, comprises frame and glass microscope carrier; Also comprise feed flow module, ejection module and driver module; Described ejection module and described glass microscope carrier are installed on described frame with can be movable relatively, and described ejection module is connected with described feed flow module, for the high chilled glass ejection high pressure mixing cutting liquid placed on described glass microscope carrier; Described driver module for driving described glass microscope carrier or described ejection module according to pre-set path action, to realize the relative movement between described ejection module and described glass microscope carrier.

In above-mentioned cutting facility, feed flow module is to ejection module transfer high pressure mixing cutting liquid, ejection module is to high chilled glass ejection high pressure mixing cutting liquid, driver module drives glass microscope carrier and ejection module according to pre-set cutting path relative movement, now, high pressure mixing cutting liquid is strengthened glass surface with height and is contacted, under the instantaneous high pressure impulse force of high pressure mixing cutting liquid, realize the fly-cutting to the cutting of high chilled glass, simultaneously due to high pressure mixing cutting liquid be high strengthening glass surface contact time, the instantaneous impulse force of high pressure mixing cutting liquid can make the position that high chilled glass is contacting with high pressure mixing cutting liquid rupture, other regions are not affected or less affected by impact simultaneously, avoid high strengthening glass breakage.

Therefore, above-mentioned cutting facility, can cut high chilled glass, solves high-strength glass because of the excessive and cracked problem of self stress.

Meanwhile, above-mentioned cutting facility is ejection module for spraying high pressure mixing cutting liquid due to what adopt, and its cost is well below by the pulse laser module of technical monopoly, and the cost of whole cutting facility is lower.

Preferably, described feed flow module comprises:

For mixing cutting liquid and cutting sand to obtain mixing the mixed cell of cutting liquid;

To the presser unit that described mixing cutting liquid pressurizes, the liquid outlet of described presser unit is connected with the fluid inlet of described ejection module.

Preferably, described feed flow module comprises:

To the presser unit that cutting liquid pressurizes;

For mixing the cutting liquid after pressurization and cutting sand to obtain the mixed cell of described high pressure mixing cutting liquid, the liquid outlet of described mixed cell is connected with the fluid inlet of described ejection module.

Preferably, described presser unit is high-pressure pump.

Preferably, cutting facility also comprises the recycling module for recycling the cutting liquid after cutting, and described recycling module is connected with described feed flow module and described frame.

Preferably, described driver module is servosystem.

Preferably, cutting facility also comprises and controls pipeline break-make between described feed flow module and described ejection module, controls pipeline break-make between described feed flow module and described recycling module and control the switch assembly of pipeline break-make between described frame and described recycling module.

Preferably, described ejection module coordinates with described housing slide, and described glass microscope carrier is fixed on described frame, and described driver module and described ejection module are in transmission connection; Or,

Described glass microscope carrier coordinates with described housing slide, and described ejection module is fixed on described frame, and described driver module and described glass microscope carrier are in transmission connection.

The cutting method of the cutting facility described in any one provided in a kind of technique scheme is provided, comprises:

Described feed flow module is to described ejection module transfer high pressure mixing cutting liquid;

Described ejection module is to described chilled glass ejection high pressure mixing cutting liquid;

Described driver module drives ejection module and described glass microscope carrier according to the path relative movement preset.

Preferably, before described feed flow module sprays high pressure mixing cutting liquid to described chilled glass, also comprise:

Described chilled glass pastes or printing protective film towards glass microscope carrier and the surface that deviates from glass microscope carrier.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of cutting facility provided by the invention;

Fig. 2 is a kind of structural representation of a kind of feed flow module provided by the invention;

Fig. 3 is the another kind of structural representation of a kind of feed flow module provided by the invention;

Fig. 4 is the schema of the cutting method of a kind of cutting facility provided by the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1, a kind of cutting facility that the embodiment of the present invention provides, comprises frame 1 and glass microscope carrier 2; Also comprise feed flow module 5, ejection module 3 and driver module 7; Ejection module 3 is installed on frame 1 with can be movable relatively with glass microscope carrier 2, and ejection module 3 is connected with feed flow module 5, sprays high pressure mixing cutting liquid for the high chilled glass 4 placed on glass microscope carrier 2; Driver module 7 for driving glass microscope carrier 2 or ejection module 3 according to pre-set path action, to realize spraying the relative movement between module 3 and glass microscope carrier 2.

In above-mentioned cutting facility, feed flow module 5 is to ejection module 3 transferring high voltage mixing cutting liquid, ejection module 3 sprays high pressure mixing cutting liquid to high chilled glass 4, driver module 7 drives glass microscope carrier 2 and ejection module 3 according to pre-set cutting path relative movement, now, high pressure mixing cutting liquid and high chilled glass 4 surface contact, under the instantaneous high pressure impulse force of high pressure mixing cutting liquid, realize the fly-cutting to the cutting of high chilled glass 4, and due to high pressure mixing cutting liquid be high chilled glass 4 surface contact time, the instantaneous impulse force of high pressure mixing cutting liquid can make the position that high chilled glass 4 is contacting with high pressure mixing cutting liquid rupture, other regions are not affected or less affected by impact simultaneously, high chilled glass 4 is avoided to break.

Therefore, above-mentioned cutting facility, can cut high chilled glass 4, solves high-strength glass because of the excessive and cracked problem of self stress.

Meanwhile, above-mentioned cutting facility is ejection module for spraying high pressure mixing cutting liquid due to what adopt, and its cost is well below by the pulse laser module of technical monopoly, and the cost of whole cutting facility is lower.

On the basis of above-mentioned cutting facility, in order to ensure that the cutting liquid that feed flow module 5 exports is high pressure mixing cutting liquid, as Fig. 2, in a kind of preferred implementation, feed flow module 5 comprises:

For mixing cutting liquid and cutting sand to obtain mixing the mixed cell 51 of cutting liquid;

To the presser unit 52 that mixing cutting liquid pressurizes, the liquid outlet of presser unit 52 is connected with the fluid inlet of ejection module 3.

In feed flow module 5, cutting liquid enters into mixed cell 51 with cutting sand, mixed cell 51 makes cutting liquid fully mix to obtain mixing cutting liquid with cutting sand, and transmit mixing cutting liquid to the presser unit 52 be attached thereto, presser unit 52 is pressurizeed to mixing cutting liquid, to obtain high pressure mixing cutting liquid, entered into by ejection module 3 fluid inlet be connected with presser unit 52 liquid outlet and spray module 3, because this high pressure mixing cutting liquid is after the mixing in feed flow module 5 and pressurization, the instantaneous impulse force had can make the position that high chilled glass 4 is contacting with high pressure mixing cutting liquid rupture, other regions are not affected or less affected by impact simultaneously, high chilled glass 4 is avoided to break.

As Fig. 3, in another kind of preferred implementation, feed flow module 5 comprises:

To the presser unit 52 that cutting liquid pressurizes;

For mixing the cutting liquid after pressurization and cutting sand to obtain the mixed cell 51 of high pressure mixing cutting liquid, the liquid outlet of mixed cell 51 is connected with the fluid inlet of ejection module 3.

In feed flow module 5, cutting liquid is introduced in presser unit 52 and pressurizes, enter in mixed cell 51 again, in mixed cell 51, cutting liquid after pressurization and cutting sand carry out mixing to obtain high pressure mixing cutting liquid, ejection module 3 fluid inlet again by being connected with mixed cell 51 liquid outlet enters into and sprays module 3, equally because this high pressure mixing cutting liquid is after the mixing in feed flow module 5 and pressurization, the instantaneous impulse force had can make the position that high chilled glass 4 is contacting with high pressure mixing cutting liquid rupture, other regions are not affected or less affected by impact simultaneously, high chilled glass 4 is avoided to break.

Particularly, presser unit 52 can be high-pressure pump, pressurizes when cutting liquid or mixing cutting liquid enter into presser unit 52, and to provide high voltage power, presser unit 52 can also can provide the equipment of high voltage power for other.

On the basis of above-mentioned cutting facility, in order to realize the recycle of cutting liquid, in a kind of preferred implementation, cutting facility also comprises the recycling module 9 for recycling the cutting liquid after cutting, and recycling module 9 is connected with feed flow module 5 and frame 1.

Recycling module 9 one end is connected with frame 1, the other end is connected with feed flow module 5, cutting liquid after cutting enters into recycling module 9 from frame 1, the cutting liquid processing to obtain re-using is carried out in recycling module 9, and be transferred in feed flow module 5, realize the recycle of cutting liquid, increase operation rate.

In a kind of preferred implementation, driver module 7 is servosystem, servosystem can realize accurate control, to drive glass microscope carrier 2 or ejection module 3 according to the accurate action in pre-set path, ensures the accuracy of relative movement between ejection module 3 and glass microscope carrier 2.

On the basis of above-mentioned cutting facility, in order to ensure the controllability of cutting liquid in whole cutting facility, cutting facility also comprises and controls pipeline break-make between feed flow module 5 and ejection module 3, controls pipeline break-make between feed flow module 5 and recycling module 9 and control the switch assembly of pipeline break-make between frame 1 and recycling module 9.

When switch assembly 61 is opened, between feed flow module 5 and ejection module 3, pipeline is connected, high pressure mixing cutting liquid can enter ejection module 3 from feed flow module 5, to cut high chilled glass 4, when switch assembly 61 is closed, between feed flow module 5 and ejection module 3, pipeline disconnects, and does not have high pressure mixing cutting liquid to enter ejection module 3; When switch assembly 62 is opened, between feed flow module 5 and recycling module 9, pipeline is connected, and the cutting liquid after process can enter into feed flow module 5 from recycling module 9, when switch assembly 62 is closed, between feed flow module 5 and recycling module 9, pipeline disconnects, and does not have the cutting liquid after processing to enter feed flow module 5; When switch assembly 63 is opened, between frame 1 and recycling module 9, pipeline is connected, cutting liquid after cutting enters into recycling module 9 from frame 1, to carry out processing in recycling module 9 thus to obtain the cutting liquid that can re-use, when switch assembly 63 is closed, between frame 1 and recycling module 9, pipeline disconnects, and does not have the cutting liquid after cutting to enter into recycling module 9.Therefore, can improve the controllability of cutting liquid in whole equipment by arranging switch assembly, unlatching at any time can close cutting process.

In order to realize spraying the relative movement between module 3 and glass microscope carrier 2, in a kind of preferred implementation, ejection module 3 is slidably matched with frame 1, and glass microscope carrier 2 is fixed on frame 1, and driver module 7 is in transmission connection with ejection module 3; Or,

Glass microscope carrier 2 and frame 1 are slidably matched, and ejection module 3 is fixed on frame 1, and driver module 7 and glass microscope carrier 2 are in transmission connection.

When glass microscope carrier 2 is fixed with frame 1, driver module 7 drives ejection module 3 according to the motion of pre-set path by being in transmission connection, spray module 3 and be slidably matched with frame 1, to realize spraying the relative movement between module 3 and glass microscope carrier 2; When spraying module 3 and fixing with frame 1, driver module 7 drives glass microscope carrier 2 according to the motion of pre-set path by being in transmission connection, glass microscope carrier 2 and frame 1 are slidably matched, to realize the relative movement between ejection module 3 and glass microscope carrier 2.

As shown in Figure 4, the cutting method of the cutting facility of any one provided in a kind of technique scheme is provided, comprises:

Step S101, feed flow module 5 is to ejection module 3 transferring high voltage mixing cutting liquid;

Step S102, ejection module 3 sprays high pressure mixing cutting liquid to high chilled glass 4;

Step S103, driver module 7 drives ejection module 3 with glass microscope carrier 2 according to the path relative movement preset.

In the cutting method of above-mentioned cutting facility, when switch assembly 61 is opened, feed flow module 5 is connected to the pipeline between ejection module 3, feed flow module 5 is to ejection module 3 transferring high voltage mixing cutting liquid, ejection module 3 sprays high pressure mixing cutting liquid to high chilled glass 4, driver module 7 drives ejection module 3 with glass microscope carrier 2 according to the path relative movement preset, now, high pressure mixing cutting liquid and high chilled glass 4 surface contact, under the instantaneous high pressure impulse force of high pressure mixing cutting liquid, according to the fly-cutting of the path implement preset to high chilled glass 4, and due to high pressure mixing cutting liquid be high chilled glass 4 surface contact time, the instantaneous impulse force of high pressure mixing cutting liquid can make the position that high chilled glass 4 is contacting with high pressure mixing cutting liquid rupture, other regions are not affected or less affected by impact simultaneously, high chilled glass 4 is avoided to break.

In order to protect high chilled glass 4 in the process of cutting, as shown in Figure 1, in a kind of preferred implementation, before feed flow module 5 sprays high pressure mixing cutting liquid to high chilled glass 4, also comprise:

High chilled glass 4 pastes or printing protective film 8 towards glass microscope carrier 2 and the surface that deviates from glass microscope carrier 2.

Obviously, those skilled in the art can carry out various change and modification to the embodiment of the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. a cutting facility, comprises frame and glass microscope carrier; It is characterized in that, also comprise feed flow module, ejection module and driver module; Be installed on described frame with can be movable relatively between described ejection module and described glass microscope carrier, described ejection module is connected with described feed flow module, for the high chilled glass ejection high pressure mixing cutting liquid placed on described glass microscope carrier; Described driver module for driving described glass microscope carrier or described ejection module according to pre-set path action, to realize the relative movement between described ejection module and described glass microscope carrier.

2. cutting facility according to claim 1, is characterized in that, described feed flow module comprises:

For mixing cutting liquid and cutting sand to obtain mixing the mixed cell of cutting liquid;

To the presser unit that described mixing cutting liquid pressurizes, the liquid outlet of described presser unit is connected with the fluid inlet of described ejection module.

3. cutting facility according to claim 1, is characterized in that, described feed flow module comprises:

To the presser unit that cutting liquid pressurizes;

For mixing the cutting liquid after pressurization and cutting sand to obtain the mixed cell of described high pressure mixing cutting liquid, the liquid outlet of described mixed cell is connected with the fluid inlet of described ejection module.

4. cutting facility according to claim 3, is characterized in that, described presser unit is high-pressure pump.

5. cutting facility according to claim 1, is characterized in that, also comprises the recycling module for recycling the cutting liquid after cutting, and described recycling module is connected with described feed flow module and described frame.

6. cutting facility according to claim 1, is characterized in that, described driver module is servosystem.

7. the cutting facility according to any one of claim 1-6, it is characterized in that, also comprise and control pipeline break-make between described feed flow module and described ejection module, control pipeline break-make between described feed flow module and described recycling module and control the switch assembly of pipeline break-make between described frame and described recycling module.

8. the cutting facility according to any one of claim 1-6, is characterized in that,

Described ejection module coordinates with described housing slide, and described glass microscope carrier is fixed on described frame, and described driver module and described ejection module are in transmission connection; Or,

Described glass microscope carrier coordinates with described housing slide, and described ejection module is fixed on described frame, and described driver module and described glass microscope carrier are in transmission connection.

9. a cutting method for the cutting facility as described in any one of claim 1-8, is characterized in that, comprising:

Described feed flow module is to described ejection module transfer high pressure mixing cutting liquid;

Described ejection module is to described chilled glass ejection high pressure mixing cutting liquid;

Described driver module drives ejection module and described glass microscope carrier according to the path relative movement preset.

10. cutting method according to claim 9, is characterized in that, before described feed flow module sprays high pressure mixing cutting liquid to described chilled glass, also comprises:

Described chilled glass pastes or printing protective film towards glass microscope carrier and the surface that deviates from glass microscope carrier.