CN205045988U - Glass processing all -in -one - Google Patents

Abstract

The utility model provides a glass processing all -in -one belongs to glass processing technical field. It has solved the current problem that the glass processing functions of the equipments are single. This glass processing all -in -one includes lathe bed, switch board, feed mechanism, aircraft nose and actuating mechanism, is equipped with the workstation on the lathe bed, and the aircraft nose lies in the top of workstation and can be equipped with water sword, edging main tapping, buff spindle head and machine vision system on the aircraft nose in level motion under actuating mechanism's the drive, and the switch board sends the moving trajectory of location instruction through actuating mechanism control aircraft nose according to the machine vision system. This glass processing all -in -one utilizes the scanning glass's of machine vision system position to automatically establish the work coordinate system, and whole process is accomplished by control system is automatic to the shape of work piece processing, size, it is easy and simple to handle, the work is light. Machine integrateed water sword, edging main tapping and buff spindle head possess cutting, edging and polishing function, clamping of A number of processes, once accomplish.

Description

Glass processing all-in-one

Technical field

The utility model belongs to glass working arts field, relates to a kind of glass processing all-in-one.

Background technology

At present, China's glass processing lathe is generally single function, needs through this four procedure of a dead lift, high pressure waterjet, glass edging and glass polishing from chunk glass to finished product.The defects such as process velocity is slow, the consistence of workpiece is poor, and man-machine accident occurs sometimes, operational safety sense difference.Along with building, the decoration development of industry and market propose to upgrade, higher requirement, be badly in need of having a kind of can automatic transporting glass, glass cutting, edging, polishing is in one, can require according to workpiece pattern, at a high speed, automatically, the listing of the glass processing lathe of high-quality, to meet the demands.

Utility model content

The purpose of this utility model is for the problems referred to above existing for existing glass processing device, and proposes a kind of glass processing all-in-one that can integrate multiple manufacturing procedure.

The purpose of this utility model realizes by following technical proposal:

A kind of glass processing all-in-one, it comprises lathe bed, housing, feed mechanism, head and driving mechanism, lathe bed is provided with worktable, head be positioned at worktable top and can tangential movement under the driving of driving mechanism, the controlled cabinet of driving mechanism controls, it is characterized in that, described head is provided with water cutter, edging main tapping, buff spindle head and NI Vision Builder for Automated Inspection, NI Vision Builder for Automated Inspection and driving mechanism are all electrically connected with housing, housing sends the running orbit of positioning instruction by driving mechanisms control head according to NI Vision Builder for Automated Inspection, worktable is provided with workpiece locating mechanism.

In above-mentioned glass processing all-in-one, described driving mechanism comprises X-axis drive-motor, Y-axis drive-motor, dynamic beam and two groups of translating rails, translating rails is arranged on lathe bed, dynamic beam crossbearer also can move back and forth along translating rails on two translating rails under the driving of X-axis drive-motor, above-mentioned head is arranged on dynamic beam and also can moves back and forth along dynamic beam under the driving of Y-axis drive-motor, and dynamic beam is perpendicular to translating rails.

In above-mentioned glass processing all-in-one, described feed mechanism comprises bin, material loading sucker, material loading crossbeam and loading guide, material loading sucker is arranged on material loading crossbeam, and material loading crossbeam can move back and forth along loading guide and material loading sucker is moved back and forth between bin and worktable.

In above-mentioned glass processing all-in-one, described workpiece locating mechanism comprises positioning sucker disk.

In above-mentioned glass processing all-in-one, described positioning sucker disk has two at least, is disposed on worktable.

In above-mentioned glass processing all-in-one, above-mentioned water cutter, edging main tapping and buff spindle head are all to having lift drive mechanism.

Compared with prior art, this glass processing all-in-one utilizes the position of NI Vision Builder for Automated Inspection scanning glass, and automatically set up work coordinate system, and the shape of work pieces process, size complete whole process automatically, precisely, rapidly, safely by Controlling System, and easy and simple to handle, work is easily.Machine is integrated with water cutter, edging main tapping and buff spindle head, possesses cutting, edging and polishing function, multiple working procedure clamped one time, once completes.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the partial enlarged drawing of Fig. 1 at A place.

In figure, 1, lathe bed; 2, housing; 3, head; 4, worktable; 5, dynamic beam; 6, translating rails; 7, bin; 8, material loading sucker; 9, material loading crossbeam; 10, loading guide; 11, positioning sucker disk; 12, water cutter; 13, edging main tapping; 14, buff spindle head; 15, NI Vision Builder for Automated Inspection; 16, glass.

Embodiment

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As shown in Figure 1, this glass processing all-in-one comprises lathe bed 1, housing 2, feed mechanism, head 3 and driving mechanism, and lathe bed 1 is provided with worktable 4.Driving mechanism comprises X-axis drive-motor, Y-axis drive-motor, dynamic beam 5 and two groups of translating rails 6, two groups of translating rails 6 are disposed on lathe bed 1, dynamic beam 5 crossbearer also can move back and forth along translating rails 6 on two translating rails 6 under the driving of X-axis drive-motor, above-mentioned head 3 is arranged on dynamic beam 5 and also can moves back and forth along dynamic beam 5 under the driving of Y-axis drive-motor, and dynamic beam 5 is perpendicular to translating rails 6.

Feed mechanism comprises bin 7, material loading sucker 8, material loading crossbeam 9 and loading guide 10, and material loading sucker 8 is arranged on material loading crossbeam 9, and material loading crossbeam 9 can move back and forth along loading guide 10 and material loading sucker 8 is moved back and forth between bin 7 and worktable 4.Workpiece locating mechanism comprises at least two positioning sucker disks 11, and feed mechanism and head 3 all can carry out loading and unloading and processing to the glass 16 on above-mentioned multiple positioning sucker disk 11.

As shown in Figure 2, head 3 is provided with water cutter 12, edging main tapping 13, buff spindle head 14 and NI Vision Builder for Automated Inspection 15, NI Vision Builder for Automated Inspection 15 and above-mentioned driving mechanism are all electrically connected with housing 2, and above-mentioned water cutter 12, edging main tapping 13 and buff spindle head 14 are all to having lift drive mechanism.Housing 2 sends the running orbit of positioning instruction by driving mechanisms control head 3 according to NI Vision Builder for Automated Inspection 15.

Glass 16 to be processed is placed on bin 7, during material loading, material loading crossbeam 9 moves along loading guide 10, makes material loading sucker 8 move to above bin 7, material loading sucker 8 declines, picked up by glass 16 to be processed on bin 7, afterwards, material loading crossbeam 9 moves to worktable 4 direction, material loading sucker 8 is made to move to directly over positioning sucker disk 11, finally, material loading sucker 8 times general who has surrendered's glass 16 are put on positioning sucker disk 11, are held by glass 16 by positioning sucker disk 11.

Add man-hour, head 3 moves to above positioning sucker disk 11, first by shape, the position of NI Vision Builder for Automated Inspection 15 scanning glass 16, and automatically sets up work coordinate system; Start water cutter 12, head 3 drives water cutter 12 according to the program finished and the work coordinate system motion of setting up before, glass 16 is cut out the profile of corresponding setting; Following startup edging main tapping 13, head 3 continues to drive edging main tapping 13 according to the program finished and the work coordinate system motion of setting up before, carries out edging process to the glass 16 of well cutting before; Finally start buff spindle head 14, drive operation, glass 16 edge is carried out polished finish by head 3, cutting, edging and polishing three road manufacturing procedure are worked continuously, and after machining, the glass 16 processed is picked up blanking by material loading sucker 8 and material loading crossbeam 9.

When above-mentioned water cutter 12, edging main tapping 13 and buff spindle head 14 start, decline by each self-corresponding jacking system and glass 16 is processed, after corresponding operation machines, rise separately again and step down, can not hinder each other.

In the present embodiment, positioning sucker disk 11 1 has two, is disposed on worktable 4, head 3 adds man-hour to the glass 16 on one of them positioning sucker disk 11, this positioning sucker disk 11 is in processing stations, and now, another positioning sucker disk 11 is in loading and unloading station can carry out loading and unloading operation.After glass 16 machines, original processing stations then become loading and unloading station, loading and unloading station becomes processing stations conversely, and two positioning sucker disks 11 can replace Continuous maching operation thus, saves the clamping time.

Owing to there is NI Vision Builder for Automated Inspection 15, even if location deviation after glass 16 material loading, NI Vision Builder for Automated Inspection 15 also can re-establish work coordinate system according to practical situation.

Should be appreciated that, in claims of the present utility model, specification sheets, all " comprising ... " is all interpreted as open implication, and namely its implication is equal to " at least containing ... ", and should not be construed as enclosed implication, namely its implication should not be construed " only comprising ... ".

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (6)

1. a glass processing all-in-one, it comprises lathe bed (1), housing (2), feed mechanism, head (3) and driving mechanism, lathe bed (1) is provided with worktable (4), head (3) be positioned at worktable (4) top and can tangential movement under the driving of driving mechanism, the controlled cabinet of driving mechanism (2) controls, it is characterized in that, described head (3) is provided with water cutter (12), edging main tapping (13), buff spindle head (14) and NI Vision Builder for Automated Inspection (15), NI Vision Builder for Automated Inspection (15) and driving mechanism are all electrically connected with housing (2), housing (2) sends the running orbit of positioning instruction by driving mechanisms control head (3) according to NI Vision Builder for Automated Inspection (15), worktable (4) is provided with workpiece locating mechanism.

2. glass processing all-in-one according to claim 1, it is characterized in that, described driving mechanism comprises X-axis drive-motor, Y-axis drive-motor, dynamic beam (5) and two groups of translating rails (6), translating rails (6) is arranged on lathe bed (1), dynamic beam (5) crossbearer above also can move back and forth along translating rails (6) at two translating rails (6) under the driving of X-axis drive-motor, above-mentioned head (3) is arranged on dynamic beam (5) and above also can moves back and forth along dynamic beam (5) under the driving of Y-axis drive-motor, dynamic beam (5) is perpendicular to translating rails (6).

3. glass processing all-in-one according to claim 1 and 2, it is characterized in that, described feed mechanism comprises bin (7), material loading sucker (8), material loading crossbeam (9) and loading guide (10), material loading sucker (8) is arranged on material loading crossbeam (9), and material loading crossbeam (9) can move back and forth along loading guide (10) and material loading sucker (8) is moved back and forth between bin (7) and worktable (4).

4. glass processing all-in-one according to claim 1 and 2, is characterized in that, described workpiece locating mechanism comprises positioning sucker disk (11).

5. glass processing all-in-one according to claim 4, is characterized in that, described positioning sucker disk (11) has two at least, is disposed on worktable (4).

6. glass processing all-in-one according to claim 1 and 2, is characterized in that, above-mentioned water cutter (12), edging main tapping (13) and buff spindle head (14) are all to having lift drive mechanism.