CN102441849B - Glass processing equipment - Google Patents

Abstract

The invention discloses glass processing equipment, which is used for processing a glass substrate into a plurality of glass pieces. In the glass processing equipment, a working chamber is formed. The glass processing equipment comprises a bearing device, a blocking device and a sand blasting device, wherein the bearing device is accommodated in the working chamber; the sand blasting device is covered in the working chamber; the bearing device is used for bearing the glass substrate; the sand blasting device is arranged opposite to the bearing device, and is used for blasting dense sand particles onto the glass substrate at a high speed; the blocking device is positioned between the sand blasting device and the bearing device, and is pressed on the glass substrate in the working process; the blocking device comprises a blocking cover consisting of a plurality of blocking pieces; the blocking cover is made of a hard material; an elastic gasket is arranged on the surface of each blocking piece facing the glass substrate; and a part of the glass substrate which is not blocked by the blocking pieces is cut by the sand particles in the sand blasting process, so that a plurality of glass pieces of the same shapes as the blocking pieces are obtained. The glass processing equipment provided by the invention has a simple processing procedure, and the production efficiency is effectively increased.

Description

Glass processing device

Technical field

The present invention relates to glass processing procedure field, relate in particular to a kind of glass processing device.

Background technology

At present, when processed glass eyeglass, generally need first with cutting machine, a bulk of glass substrate to be cut into the pieces of glass sheet that a plurality of grades are large, then by ultraviolet glue, the plurality of pieces of glass sheet is fitted, the various shapes that then with glass edge-grinding machine, the edge grinding of the sheet glass after laminating become to need (such as circular, square etc.), finally carry out dispergation separation by the sheet glass after processing.Due to this preparation method flow process more complicated, need the complicated processing procedure such as cutting, gluing, edging, dispergation, production efficiency is lower.

Summary of the invention

In view of this, be necessary to provide a kind of glass processing device of effectively enhancing productivity.

, for a glass substrate is processed into multiple pieces of glass sheet.In described glass processing device, be formed with a working chamber and comprise bogey being placed in described working chamber and radical occlusion device and lid are located at a sand blasting unit in described working chamber.Described bogey is used for carrying described glass substrate.Described sand blasting unit and described bogey are oppositely arranged, for by intensive sand grains high velocity jet to described glass substrate.Described radical occlusion device, between described bogey and described sand blasting unit, and is installed with on described glass substrate in the course of the work.Described radical occlusion device comprises a hood for protecting rider consisting of a plurality of catch, described hood for protecting rider is made by hard material, described catch is provided with elastic washer towards the surface of described glass substrate, described catch is used for blocking described glass substrate, the part not sheltered from by described catch on described glass substrate is machined away by sand grains in the process of sandblast, thereby obtain the sheet glass that polylith is identical with described catch shape.

Glass processing device of the present invention, can be processed into described glass substrate required shape without the processing procedure through complexity such as cutting, gluing, edging, dispergation, and processing procedure is simple, can effectively enhance productivity.

Accompanying drawing explanation

Fig. 1 is the structural representation of the glass processing device of preferred embodiments of the present invention;

Fig. 2 is the assembly drawing of the glass processing device of Fig. 1;

Fig. 3 be Fig. 2 glass processing device dissect stereogram;

Fig. 4 is the stereogram of hood for protecting rider of the glass processing device of Fig. 1;

Fig. 5 is the V part enlarged drawing of Fig. 4; And

Fig. 6 is that the VI-VI of Fig. 2 is to cutaway view.

Main element symbol description

Glass processing device 100

Glass substrate 200

Working chamber 10

Open 11

Bogey 20

Sand blasting unit 30

Fixed head 310

Sandblast 320

Radical occlusion device 40

Fixed frame 410

Hood for protecting rider 420

Catch 421

Connecting rod 422

Elastic washer 423

Lowering or hoisting gear 60

Supporting pillar 61

Motor 62

Control device 70

Optical launcher 71

Optical receiver 73

Signal transmission module 74

Controller 75

The specific embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Refer to Fig. 1 and Fig. 3, a kind of glass processing device 100 providing for embodiment of the present invention, for being processed into multiple pieces of glass sheet by a glass substrate 200.Described glass processing device 100 is formed with a working chamber 10 and includes the bogey 20 that is contained in described working chamber 10, radical occlusion device 40, a lid and is located at a sand blasting unit in described working chamber 10 30, lowering or hoisting gear 60 and a control device 70 (with reference to figure 6).

Described working chamber 10 tops are formed with an opening 11.

Described bogey 20 is arranged on the bottom of described working chamber 10, for fixing described glass substrate 200.In the present embodiment, described glass substrate 200 is rectangle.Be appreciated that described glass substrate 200 also can be other shape, such as circular or irregularly shaped.

Refer to Fig. 2 and Fig. 3, described sand blasting unit 30 comprises a fixed head 310 and a sand jet outlet 320.The described opening 11 of described fixed head 310 sealing, thereby airtight described working chamber 10.Described sand jet outlet 320 is vertically fixed on described fixed head 310, and stretches in described working chamber 10 through described fixed head 310.Described sand jet outlet 320 can arrive the surface of described glass substrate 200 by the very high sand grains high velocity jet of density under compressed-air actuated effect, thereby described glass substrate 200 is had to the effect of cutting.In the present embodiment, described fixed head 310 is rectangle.Be appreciated that, described opening 11 also can be formed on other sidewalls of described glass processing device 100, but need the position of the described bogey 20 of corresponding adjustment simultaneously, described bogey 20 and described sand jet outlet 320 are oppositely arranged, and the sand grains that ejects of described sand jet outlet 320 can high velocity jet on described glass substrate 200.

Described radical occlusion device 40 be arranged in parallel with described fixed head 310, and between described fixed head 310 and described bogey 20.Described radical occlusion device 40 comprises a fixed frame 410 and is fixed on a netted hood for protecting rider 420 in described fixed frame 410.The surperficial area that is parallel to described working chamber 10 bottoms of described fixed frame 410 is slightly less than described opening 11, makes described radical occlusion device 40 snugly to pass described opening 11 and to be placed in described working chamber 10.Described hood for protecting rider 420 by hard material such as the hard metals such as iron or hard resin material are made, make the sand grains that described sand jet outlet 320 ejects cannot cut described hood for protecting rider 420, thereby described hood for protecting rider 420 consume and minimumly in use can maintain shape invariance under sandblast effect in other words.Please refer to Fig. 4 and Fig. 5, described hood for protecting rider 420 comprises a plurality of rounded tabs 421 that matrix form is arranged that are, rounded tabs 421 is connected with each other by tiny connecting rod 422, the axial width of rounded tabs 421 is greater than the thickness of connecting rod 422, connecting rod 422 is connected in rounded tabs 421 near one end of sand jet outlet 320, rounded tabs 421 is protruded near the relative connecting rod 422 in one end of glass substrate 200, thereby guarantee when rounded tabs 421 fits on glass substrate 200, connecting rod 422 can not fitted with glass substrate 200, thereby on glass substrate 200, the part of corresponding connecting rod 422 can be cut.For fear of rounded tabs 421 and glass substrate 200, fit more closely to guarantee the validity of blocking, and can be due to the material of hood for protecting rider 420 while guaranteeing laminating the comparatively hard glass substrate 200 that frays, in rounded tabs 421, towards a side of glass substrate 200, be provided with elastic washer 423, the profile of elastic washer 423 is consistent with rounded tabs 421, its size is slightly smaller than the size of rounded tabs 421, and elastic washer 423 is installed in rounded tabs 421 by the mode of pasting or inlaying.In the present embodiment, elastic washer 423 presents hollow ring-type, and in other embodiments, it also can be solid plate-like.

Be appreciated that the arrangement mode of described catch 421 and be not only confined to present embodiment, also can adopt other arrangement mode, such as shaped form or rambling mode etc.The shape of described catch is also not limited to present embodiment, can arrange arbitrarily according to the shape of the required sheet glass of user, if such as user needs hexagonal sheet glass, just described catch 421 is designed to hexagon.

Please also refer to Fig. 6, described lowering or hoisting gear 60 comprises four supporting pillars 61 and four motors 62.On fixed head 310, be formed with four the first perforates 311, one end of supporting pillar 61 is passed the first perforate 311 and is fixed on motor 62, thereby motor 62 can be controlled corresponding supporting pillar 61 and rotate.The other end of supporting pillar 61 is formed with screw thread 611, is formed with four corresponding the second perforates 411 on fixed frame 410.Described the second perforate 411 is screwed hole.Supporting pillar 61 is threaded one end of 611 and coordinates with the second perforate 411, thereby fixed frame 410 is fixed on supporting pillar 61.When motor 62 is controlled supporting pillar 61 rotation, due to threaded engagement, radical occlusion device 40 can be driven and rise or decline.

In other embodiments, lowering or hoisting gear 60 can have different structures.For example, described motor 62 can be linear stepping motor, and supporting pillar 61 one end are connected with motor 62, and the other end is fixed on fixed frame 410.Motor 62 can drive supporting pillar 61 liftings, thereby drives radical occlusion device 40 to rise or decline.

Described control device 70 includes sensor 71,73, signal transmission module 74 and controller 75.Whether described sensor 71,73 fits with glass substrate 200 for sensing radical occlusion device 40.In the present embodiment, described sensor 71,73 is optical pickocff, and it is installed on fixed frame 410 towards the surface of glass substrate 200, comprises an optical launcher 71 respect to one another and an optical receiver 73.When radical occlusion device 40 is not and during glass substrate 200 laminating, the optical signal that optical launcher 71 is launched can arrive optical receiver 73; When radical occlusion device 40 and glass substrate 200 laminating, the optical signal of optical launcher 71 transmittings is blocked by glass substrate 200, thereby can not arrive optical receiver 73, now optical receiver 73 sends a sensing signal that shows this fit-state to signal transmission module 74.Signal transmission module 74 be fixed on fixed frame 410 and and optical receiver 73 electrical connections, for receiving and launching this sensing signal to controller 75.Controller 75 is fixed on position suitable on glass processing device 100, and for controlling motor 62 motions, wherein, after receiving this sensing signal, this controller 74 is controlled motor 62 stop motions to avoid radical occlusion device 40 to weigh glass substrate 200 wounded.

In other embodiments, sensor 71,73 can adopt other types, for example piezoelectric pressure indicator.This piezoelectric pressure indicator is affixed on one of them catch 421, and when radical occlusion device 40 is during with glass substrate 200 laminating, thereby sensor is experienced pressure and sent this sensing signal.Sensor also can be connected with controller 75 by wire, thereby omits signal transmission module 74.

Described control device 70 can determine the amplitude that described radical occlusion device 40 declines according to lowering or hoisting gear 60 described in the THICKNESS CONTROL of described glass substrate 200, thereby described glass processing device 100 can be processed the different glass substrate 200 of thickness.If be appreciated that the glass substrate that only need process same thickness, also can omit described control device 70, and described lowering or hoisting gear 60 is replaced to a plurality of fixed legs.In the present embodiment, one end of described four supporting pillars 61 is arranged on four drift angle places of described fixed head 310.Be appreciated that described supporting pillar 61 also can be arranged on other positions of described fixed head 310.And the quantity of described supporting pillar 61 is not limited to four, also can be other quantity.

The course of work of described glass processing device is as follows: described glass substrate 200 is fixed on described bogey 20; Described fixed head 310 is sealed in to described opening 11, makes airtight space of the interior formation of described working chamber 10; Start described motor 62, described hood for protecting rider 420 is declined, described rounded tabs 421 is pressed on described glass substrate 200 by described elastic washer 423; Described sand jet outlet 320 starts sandblast, and sand grains constantly cuts the exposed part of described glass substrate 200 (part not sheltered from by described catch 421), until the exposed part of described glass substrate 200 is all machined away; Start described motor 62, will on described radical occlusion device 40, draw, the sheet glass after processing is taken out, clean.

Be appreciated that, recycling again for sand grains, also can offer a plurality of suction holes in the bottom of described working chamber 10, at described suction hole place, connect a suction nozzle and a getter device, because the particle diameter of sand grains described in the size ratio of the chopped glass being cut is little a lot, therefore in described suction nozzle, fold and establish two-layer filter screen, the aperture of the aperture ratio lower screen of upper screen is large, thereby sand grains is collected in upper screen; Chopped glass is collected in lower screen.

Glass processing device of the present invention, can be processed into described glass substrate required shape without the processing procedure through complexity such as cutting, gluing, edging, dispergation, and processing procedure is simple, can effectively enhance productivity.

Be understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change and distortion all should belong to the protection domain of the claims in the present invention.

Claims (9)

1. a glass processing device, for being processed into a plurality of sheet glass by a glass substrate; Described glass processing device is formed with a working chamber and comprises that a bogey being placed in described working chamber, sand blasting unit, radical occlusion device and lid are located at a sand blasting unit in described working chamber; Described bogey is used for carrying described glass substrate; Described sand blasting unit and described bogey are oppositely arranged, for by intensive sand grains high velocity jet to described glass substrate; Described radical occlusion device, between described bogey and described sand blasting unit, and is installed with on described glass substrate in the course of the work; Described radical occlusion device comprises a hood for protecting rider consisting of a plurality of catch and the connecting rod that is connected described catch, the relatively described connecting rod of described catch protrudes to described bogey direction, described hood for protecting rider is made by hard material, described catch is provided with elastic washer towards the surface of described glass substrate, described catch is used for blocking described glass substrate, the part not sheltered from by described catch on described glass substrate is machined away by sand grains in the process of sandblast, thereby obtain the sheet glass that polylith is identical with described catch shape.

2. glass processing device as claimed in claim 1, is characterized in that, described sand blasting unit comprises a fixed head and one and the vertically disposed sand jet outlet of described fixed head; The top of described working chamber is formed with an opening, and described fixed head seals described opening, thus airtight described working chamber.

3. glass processing device as claimed in claim 2, is characterized in that, described radical occlusion device is movably arranged on the below of described sand blasting unit.

4. glass processing device as claimed in claim 3, is characterized in that, described glass processing device also comprises a lowering or hoisting gear, and described lowering or hoisting gear is used for ordering about described radical occlusion device and rises or decline.

5. glass processing device as claimed in claim 4, it is characterized in that, described lowering or hoisting gear comprises at least one supporting pillar and at least one motor, one end of described supporting pillar is fixed on described radical occlusion device, the other end is connected with described at least one motor, described at least one motor is used for controlling described at least one supporting pillar motion, thereby drives described radical occlusion device to rise or decline.

6. glass processing device as claimed in claim 5, is characterized in that, on described fixed head, is formed with perforate, and one end of described supporting pillar is passed described perforate and is fixed on described motor; The other end of described supporting pillar and described radical occlusion device are spirally connected.

7. glass processing device as claimed in claim 5, is characterized in that, also comprises a control device, for controlling described lowering or hoisting gear motion.

8. glass processing device as claimed in claim 7, it is characterized in that, described control device includes a plurality of sensors and controller, when described radical occlusion device and the laminating of described glass substrate, described sensor sends sensing signal, and described controller is controlled lowering or hoisting gear according to sensing signal and stopped declining to avoid radical occlusion device to weigh glass substrate wounded.

9. glass processing device as claimed in claim 8, is characterized in that, described a plurality of sensors are optical launcher respect to one another and optical receiver.

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