CN203779263U - Ultrathin glass processing production line - Google Patents

Abstract

The utility model discloses an ultrathin glass processing production line which comprises a piece inserting table, a transmitting table, a glass edge grinding machine I, a piece transmitting table, a glass edge grinding machine II and a piece discharging table, wherein the piece inserting table, the transmitting table, the glass edge grinding machine I, the piece transmitting table, the glass edge grinding machine II and the piece discharging table are sequentially arranged and connected. According to the ultrathin glass processing production line, glass pieces are automatically transmitted by machineries to processing stations in the whole processing procedure, the stations are no need to be switched by staff, the working efficiency is increased and the requirement for large-scale processing and production of enterprises is satisfied.

Description

Ultra-thin glass machining production line

Technical field

The utility model relates to the machining production line field of sheet glass, relates in particular to a kind of ultra-thin glass machining production line that ultra-thin glass sheet is carried out to edging, the angle of falling R or corner cut.

Background technology

As everyone knows, glass all needs to carry out the PROCESS FOR TREATMENT of edging and the angle of falling R, corner cut in process of manufacture, and every procedure all needs after finishing manually to change, and makes glass descend manufacturing procedure one, affects manufacturing schedule.Cannot adapt to the large-scale production mode of enterprise.

utility model content

The purpose of this utility model is to provide one does not need artificial conversion and control, can automatically carry out the ultra-thin glass machining production line of edging, the angle of falling R or corner cut to ultra-thin glass sheet, to solve the problem proposing in above-mentioned background technology.

To achieve these goals, the utility model is realized by the following technical solutions:

Ultra-thin glass machining production line, comprises inserted sheet platform, transfer station, a flint glass F edge polisher, rotor plate bench, two flint glass F edge polishers and lower platform; Described inserted sheet platform, transfer station, a flint glass F edge polisher, rotor plate bench, two flint glass F edge polishers, lower platform are arranged in order and connect.

As further scheme of the present utility model, described inserted sheet platform comprises frame, the transmission reducing motor A of device in frame and inserting piece device and by the conveyer chain that transmits reducing motor A and drive, described inserting piece device is provided with inserted sheet position.

As further scheme of the present utility model, described transfer station comprises frame and transmission reducing motor B and the conveyer belt of device in frame; Described conveyer belt drives by transmitting reducing motor B.

As further scheme of the present utility model, a described flint glass F edge polisher comprises fixing slide unit and Mobile Slide is housed respectively on fuselage, fuselage, and fixing slide unit and Mobile Slide are equipped with respectively for glass being carried out to the grinding head assembly of edging, for regulating the lowering or hoisting gear of upper pressure beam lifting, for workpiece being carried out to automatic location inlet side device and the conveyer for workpiece to be processed is transmitted of edging; Upstream end and the transfer station of described conveyer are joined, and the port of export and the rotor plate bench of conveyer join.

As further scheme of the present utility model, described rotor plate bench comprises frame, be fixed on frame bottom vavuum pump, be fixed on 90 degree whirligig and conveyers for workpiece to be processed is transmitted of frame upper end; Described 90 degree whirligigs comprise the sucker that is connected with sucker lifting cylinder, with sucker lifting cylinder, for driving sucker to do the conversion speed reducer that 90 degree rotate.

As further scheme of the present utility model, described two flint glass F edge polishers comprise fixing slide unit and Mobile Slide are housed respectively on fuselage, fuselage, and fixing slide unit and Mobile Slide are equipped with respectively for glass being carried out to the grinding head assembly of edging, for regulating the lowering or hoisting gear of upper pressure beam lifting, for the workpiece angle of falling R or corner cut being located automatically to inlet side device, for to the workpiece angle of falling R or cutter for cutting corners and the conveyer for workpiece to be processed is transmitted.

Inlet side, the automatic location device of a described flint glass F edge polisher and two flint glass F edge polishers comprises increased stroke-adjustable gas cylinder and inlet side main body; Inlet side, described automatic location device is the combination by adopting cylinder automatic structure and manual fine-tuning structure, and the super-thin electronic glass lean out of need processing R angle or corner cut edging is located automatically apart from length.

The described angle of falling R or cutter for cutting corners comprise that being separately fixed at the fixing slide unit of two flint glass F edge polishers fills with X-axis (consistent with the glass run direction) portion on Mobile Slide, be arranged on the Y-axis portion dress that X-axis portion loads onto, and being arranged on the Z axis portion dress that Y-axis portion loads onto, Z axis portion dress comprises Z axis governor motion and grinding head mechanism.

The function of X-axis portion dress is mainly to needing processed glass to follow; The function of Y-axis portion dress be mainly to need processed glass cutting output number regulate; Z axis portion fills the difference being mainly used in needing processed glass thickness and regulates.X-axis portion dress, Y-axis portion dress and bistrique portion dress all adopt servomotor to control running.Need processed glass to run to position, monitoring point along X-direction, the angle of falling R or cutter for cutting corners are started working, to needing the processed glass angle of falling R or corner cut.

As further scheme of the present utility model, described lower platform comprise frame, be fixed on conveying reductor in frame, carry V to be with by the decorative pattern of carrying reductor to drive.

As further scheme of the present utility model, a described flint glass F edge polisher and two flint glass F edge polishers all also comprise into being used to grinding head assembly to provide the inlet side of cooling fluid to land water tank and go out end and land water tank, and for adjusting the gear-box of the conveyer speed of service.

As further scheme of the present utility model, described conveyer include transmit reducing motor and by transmit motor-driven conveyer belt.

As further scheme of the present utility model, described lowering or hoisting gear comprises elevating screw, two reductors; Described two reductors are connected with two elevating screws respectively, between two reductors, are connected by power transmission shaft, and adjusting handle is equipped with in one end of power transmission shaft.

As further scheme of the present utility model, described grinding head assembly comprises motor, the emery wheel of device on electric machine main shaft; Described grinding head assembly is controlled by Z axis manual adjustments II and Y-axis manual adjustments II, thus realization to need the difference of processed glass thickness and cutting output number regulate.

In sum, the utility model has following beneficial effect compared with conventional art:

The whole process of the utility model all has machine automatization to be sent to processing stations, does not need personnel to change station, has improved operating efficiency, adapts to enterprise scale processing demand.

Brief description of the drawings

Fig. 1 is the utility model structural representation;

Fig. 2 is inserted sheet platform described in the utility model and transfer station structural representation;

Fig. 3 is the top view of Fig. 2;

Fig. 4 flint glass F edge polisher structure schematic diagram described in the utility model;

Fig. 5 is rotor plate bench structural representation described in the utility model;

Fig. 6 is two flint glass F edge polisher structure schematic diagrames described in the utility model;

Fig. 7 is lower platform structural representation described in the utility model;

Fig. 8 is the top view of Fig. 7;

Fig. 9 is lifting device structure schematic diagram described in the utility model;

Figure 10 is grinding head assembly structural representation described in the utility model;

Figure 11 is the angle of falling R described in the utility model or corner cut inlet side positioning device structure schematic diagram;

Figure 12 is Figure 11 top view;

Figure 13 is the angle of falling R described in the utility model or cutter for cutting corners structural representation.

Detailed description of the invention

Below in conjunction with the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 1, ultra-thin glass machining production line, comprises inserted sheet platform 1, transfer station 2, a flint glass F edge polisher 3, rotor plate bench 4, two flint glass F edge polishers 5 and lower platform 6; Described inserted sheet platform 1, transfer station 2, a flint glass F edge polisher 3, rotor plate bench 4, two flint glass F edge polishers 5, lower platform 6 are arranged in order and connect.

As Figure 2-3, described inserted sheet platform 1 comprises frame 1-1, the transmission reducing motor A1-2 of device on frame 1-1 and inserting piece device 1-3 and by the conveyer chain 1-4 that transmits reducing motor A1-2 and drive; Described inserting piece device 1-3 is provided with inserted sheet position; Described transfer station 2 comprises frame 2-1 and transmission reducing motor B2-2 and the conveyer belt 2-3 of device on frame 2-1; Described conveyer belt 2-3 drives by transmitting reducing motor B2-2; Manually will process ultra-thin glass inserts in inserting piece device 1-3, transmission reducing motor A1-2 on frame 1-1 drives conveyer chain 1-4 to rotate, thereby drive inserting piece device 1-3 to travel forward, the ultra-thin glass to be processed being inserted on inserting piece device 1-3 is sent on the conveyer belt 2-3 of transfer station 2, and conveyer belt 2-3 is transported to flint glass F edge polisher 3 places by transmitting reducing motor B2-2 driving by ultra-thin glass to be processed.

As shown in Figure 4, a described flint glass F edge polisher 3 comprises fixing slide unit and Mobile Slide is housed respectively on fuselage 3-1, fuselage, and fixing slide unit and Mobile Slide are equipped with respectively for glass being carried out to the grinding head assembly 3-3 of edging, for regulating the lowering or hoisting gear 3-4 of upper pressure beam 3-2 lifting, automatically locating inlet side device and the conveyer 3-5 for workpiece to be processed is transmitted for workpiece being carried out to edging; The upstream end of described conveyer 3-5 and transfer station 2 are joined, the port of export of conveyer 3-5 and rotor plate bench 4 join, when processing ultra-thin glass enters after a flint glass F edge polisher 3, by grinding head assembly 3-3, ultra-thin glass to be processed is carried out to edging, after edging finishes, by conveyer 3-5, ultra-thin glass to be processed is delivered to rotor plate bench 4.

As shown in Figure 5, described rotor plate bench 4 comprise frame 4-1, be fixed on frame 4-1 bottom vavuum pump 4-2, be fixed on 90 degree whirligig 4-3 and conveyer 4-4 for workpiece to be processed is transmitted of frame 4-1 upper end, described 90 degree whirligig 4-3 comprise with sucker lifting cylinder 4-32, the sucker 4-31 being connected with sucker lifting cylinder 4-32, for driving sucker to be the conversion speed reducer 4-33 of 90 degree rotations, ultra-thin glass to be processed enters after rotor plate bench 4, conveyer 4-4 is delivered to the below of sucker 4-31 by anti-scratch conveyer belt, sucker lifting cylinder 4-32 drives sucker 4-31 descending, programme-control vavuum pump 4-2 work, sucker 4-31 captures glass, sucker lifting cylinder 4-32 drives sucker 4-31 up, to be processed is raised, conversion speed reducer 4-33 drives the glass 90-degree rotation being captured by sucker 4-31 simultaneously, sucker lifting cylinder 4-32 drives sucker 4-31 descending, sucker 4-31 puts down the glass of crawl, glass is sent into two flint glass F edge polisher 5 places by anti-scratch conveyer belt, complete a working cycles.

As shown in Figure 6, described two flint glass F edge polishers 5 comprise fixing slide unit and Mobile Slide are housed respectively on fuselage 5-1, fuselage, and fixing slide unit and Mobile Slide be equipped with respectively for glass being carried out to the grinding head assembly 5-3 of edging, for regulating the lowering or hoisting gear 5-4 of upper pressure beam lifting, automatically locate inlet side device for workpiece being carried out to edging and the angle of falling R or corner cut, for to the workpiece angle of falling R or cutter for cutting corners 5-5 and the conveyer 5-6 for workpiece to be processed is transmitted; Glass enters two flint glass F edge polishers 5, grinding head assembly 5-3 on two flint glass F edge polishers 5 rotates two sides of coming to glass and carries out edging, after edging finishes by the angle of falling R or cutter for cutting corners 5-5 the carrying out angle of falling R or the corner cut to glass, the angle of falling R or corner cut finish glass and are sent to lower platform 6 by conveyer 5-6.

As Figure 7-8, described lower platform 6 comprises frame 6-1, is fixed on the conveying reductor 6-2 on frame 6-1, the decorative pattern conveying V band 6-3 being driven by conveying reductor 6-2, and glass carries V to be with 6-3 that glass is sent by conveying reductor 6-2 driving decorative pattern after entering lower platform 6.

Wherein, a described flint glass F edge polisher 3 and two flint glass F edge polishers 5 all also comprise into being used to grinding head assembly to provide the inlet side of cooling fluid to land water tank 7 and go out end and land water tank 8, and for adjusting the gear-box 9 of the conveyer speed of service; Described conveyer 3-5,4-4 and 5-6 include transmit reducing motor and by transmit motor-driven conveyer belt.

As shown in Figure 9, described lowering or hoisting gear 3-4 and 5-4 include 10, two reductors 11 of elevating screw; Described two reductors 11 are connected with two elevating screws 10 respectively, between two reducing motors 11, connected by power transmission shaft 12, adjusting handle 13 is equipped with in one end of power transmission shaft 12, and lowering or hoisting gear 3-4 and 5-4 can highly adjust upper pressure beam 5-2 according to the thickness of glass plate.

As shown in figure 10, described grinding head assembly 3-3 and 5-3 include motor 14, the emery wheel 15 of device on motor 14 main shafts; Described grinding head assembly 3-3 and 5-3 all control by Z axis manual adjustments 16-1 and Y-axis manual adjustments 16-2, thereby realize the adjustment of emery wheel 15 being carried out to lift adjustment (Z-direction) and advance and retreat adjustings (Y direction).

As shown in Figure 11-12, the described angle of falling R or corner cut inlet side positioner comprise increased stroke-adjustable gas cylinder 5-51 and inlet side main body; Described inlet side main body comprises location, inlet side group 5-52, inlet side upper slide 5-53, inlet side mounting plate 5-54 from top to bottom successively; Location, described inlet side group 5-52 is fixedly connected with inlet side upper slide 5-53, is provided with below the upper slide 5-53 of inlet side to intersect ball row 5-55; Described intersection ball row 5-55 is fixedly connected with inlet side mounting plate 5-54; Described cylinder 5-51 is connected by air cylinder fixed plate 5-56, inlet side joint fixed head 5-57 with inlet side upper slide 5-53.

As shown in figure 13, the described angle of falling R or cutter for cutting corners 5-5 comprise the dress 8-1 of X-axis (consistent with glass run direction) portion, be arranged on the dress 8-2 of Y-axis portion on the dress 8-1 of X-axis portion, and being arranged on the dress 8-3 of Z axis portion on the dress 8-2 of Y-axis portion, the dress 8-3 of Z axis portion comprises Z axis and regulates 8-3-1 mechanism and grinding head mechanism 8-3-2.The dress 8-1 of X-axis portion, the dress 8-2 of Y-axis portion and grinding head mechanism 8-3-2 adopt respectively servomotor A, B, C to control running.Realize needing the angle of falling R or the corner cut of processed glass.

To those skilled in the art, obviously the utility model is not limited to the details of above-mentioned example embodiment, and in the situation that not deviating from spirit of the present utility model or essential characteristic, can realize the utility model with other concrete form.Therefore, no matter from which point, all should regard embodiment as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, is therefore intended to all changes that drop in the implication and the scope that are equal to important document of claim to include in the utility model.

In addition, be to be understood that, although this description is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should make description as a whole, and the technical scheme in each embodiment also can, through appropriately combined, form other embodiments that it will be appreciated by those skilled in the art that.

Claims (10)

1. ultra-thin glass machining production line, is characterized in that, comprises inserted sheet platform, transfer station, a flint glass F edge polisher, rotor plate bench, two flint glass F edge polishers and lower platform; Described inserted sheet platform, transfer station, a flint glass F edge polisher, rotor plate bench, two flint glass F edge polishers, lower platform are arranged in order and connect.

2. ultra-thin glass machining production line according to claim 1, it is characterized in that, described inserted sheet platform comprises frame, the transmission reducing motor A of device in frame and inserting piece device and by the conveyer chain that transmits reducing motor A and drive, described inserting piece device is provided with inserted sheet position.

3. ultra-thin glass machining production line according to claim 1, is characterized in that, described transfer station comprises frame and transmission reducing motor B and the conveyer belt of device in frame; Described conveyer belt drives by transmitting reducing motor B.

4. ultra-thin glass machining production line according to claim 1, it is characterized in that, a described flint glass F edge polisher comprises fixing slide unit and Mobile Slide is housed respectively on fuselage, fuselage, and fixing slide unit and Mobile Slide are equipped with respectively for glass being carried out to the grinding head assembly of edging, for regulating the lowering or hoisting gear of upper pressure beam lifting, for workpiece being carried out to automatic location inlet side device and the conveyer for workpiece to be processed is transmitted of edging; Upstream end and the transfer station of described conveyer are joined, and the port of export and the rotor plate bench of conveyer join.

5. ultra-thin glass machining production line according to claim 1, it is characterized in that, described rotor plate bench comprises frame, be fixed on frame bottom vavuum pump, be fixed on 90 degree whirligig and conveyers for workpiece to be processed is transmitted of frame upper end; Described 90 degree whirligigs comprise the sucker that is connected with sucker lifting cylinder, with sucker lifting cylinder, for driving sucker to make the strap brake motor reducer that 90 degree rotate.

6. ultra-thin glass machining production line according to claim 1, it is characterized in that, described two flint glass F edge polishers comprise fixing slide unit and Mobile Slide are housed respectively on fuselage, fuselage, and fixing slide unit and Mobile Slide are equipped with respectively for glass being carried out to the grinding head assembly of edging, for regulating the lowering or hoisting gear of upper pressure beam lifting, for workpiece being carried out to inlet side, the automatic location device of edging and the angle of falling R or corner cut, for to the workpiece angle of falling R or cutter for cutting corners and the conveyer for workpiece to be processed is transmitted; The described angle of falling R or cutter for cutting corners comprise that being separately fixed at the fixing slide unit of two flint glass F edge polishers fills with X-axis (consistent with the glass run direction) portion on Mobile Slide, be arranged on the Y-axis portion dress that X-axis portion loads onto, and being arranged on the Z axis portion dress that Y-axis portion loads onto, Z axis portion dress comprises Z axis governor motion and grinding head mechanism; The function of X-axis portion dress is mainly to needing processed glass to follow; The function of Y-axis portion dress be mainly to need processed glass cutting output number regulate; Z axis portion fills the difference being mainly used in needing processed glass thickness and regulates; X-axis portion dress, Y-axis portion dress and bistrique portion dress all adopt servomotor to control running; Need processed glass to run to position, monitoring point along X-direction, the angle of falling R or cutter for cutting corners are started working, to needing the processed glass angle of falling R or corner cut.

7. ultra-thin glass machining production line according to claim 1, is characterized in that, described lower platform comprise frame, be fixed on conveying reductor in frame, carry V to be with by the decorative pattern of carrying reductor to drive.

8. according to the ultra-thin glass machining production line described in claim 1 or 4 or 6, it is characterized in that, a described flint glass F edge polisher and two flint glass F edge polishers all also comprise that the inlet side that is used to grinding head assembly that cooling fluid is provided lands water tank and go out end and land water tank, and for adjusting the gear-box of the conveyer speed of service; Inlet side, the automatic location device of a described flint glass F edge polisher and two flint glass F edge polishers comprises increased stroke-adjustable gas cylinder and inlet side main body; Inlet side, described automatic location device is the combination by adopting cylinder automatic structure and manual fine-tuning structure, and the super-thin electronic glass lean out of need processing R angle or corner cut edging is located automatically apart from length.

9. according to the ultra-thin glass machining production line described in claim 1 or 4 or 5 or 6, it is characterized in that, described conveyer include transmit reducing motor and by transmit motor-driven conveyer belt.

10. according to the ultra-thin glass machining production line described in claim 1 or 4 or 6, it is characterized in that, described lowering or hoisting gear comprises elevating screw, two reductors; Described two reductors are connected with two elevating screws respectively, between two reductors, are connected by power transmission shaft, and adjusting handle is equipped with in one end of power transmission shaft; Described grinding head assembly comprises motor, the emery wheel of device on electric machine main shaft; Described grinding head assembly is controlled by Z axis manual adjustments II and Y-axis manual adjustments II, thus realization to need the difference of processed glass thickness and cutting output number regulate.